Gitweb: http://git.fedorahosted.org/git/?p=fence-agents.git;a=commitdiff;h=968e2009…
Commit: 968e2009360fc67e8b5395ce0c787ac750dd303b
Parent: aba012c5f2e6b408a8c90bca46cb3dc1fd9c35ac
Author: Marek 'marx' Grac <mgrac(a)redhat.com>
AuthorDate: Thu Mar 5 11:29:48 2015 +0100
Committer: Marek 'marx' Grac <mgrac(a)redhat.com>
CommitterDate: Thu Mar 5 11:29:48 2015 +0100
Final commit on fedorahosted
---
Makefile.am | 46 -
README | 1 +
autogen.sh | 4 -
configure.ac | 318 -
doc/COPYING.applications | 339 -
doc/COPYING.libraries | 510 -
doc/COPYRIGHT | 73 -
doc/Makefile.am | 6 -
doc/README.licence | 33 -
fence/Makefile.am | 3 -
fence/agents/Makefile.am | 3 -
fence/agents/alom/Makefile.am | 17 -
fence/agents/alom/fence_alom.py | 59 -
fence/agents/amt/Makefile.am | 17 -
fence/agents/amt/fence_amt.py | 119 -
fence/agents/apc/Makefile.am | 17 -
fence/agents/apc/fence_apc.py | 259 -
fence/agents/apc_snmp/Makefile.am | 24 -
fence/agents/apc_snmp/README | 45 -
fence/agents/apc_snmp/fence_apc_snmp.py | 223 -
fence/agents/apc_snmp/powernet369.mib |31109 -----------------------
fence/agents/bladecenter/Makefile.am | 17 -
fence/agents/bladecenter/fence_bladecenter.py | 111 -
fence/agents/brocade/Makefile.am | 17 -
fence/agents/brocade/fence_brocade.py | 78 -
fence/agents/cisco_mds/Makefile.am | 17 -
fence/agents/cisco_mds/fence_cisco_mds.py | 100 -
fence/agents/cisco_ucs/Makefile.am | 17 -
fence/agents/cisco_ucs/fence_cisco_ucs.py | 174 -
fence/agents/docker/Makefile.am | 17 -
fence/agents/docker/fence_docker.py | 152 -
fence/agents/drac/Makefile.am | 17 -
fence/agents/drac/fence_drac.py | 68 -
fence/agents/drac5/Makefile.am | 17 -
fence/agents/drac5/fence_drac5.py | 153 -
fence/agents/dummy/Makefile.am | 15 -
fence/agents/dummy/fence_dummy.py | 142 -
fence/agents/eaton_snmp/Makefile.am | 18 -
fence/agents/eaton_snmp/README | 20 -
fence/agents/eaton_snmp/fence_eaton_snmp.py | 235 -
fence/agents/emerson/Makefile.am | 17 -
fence/agents/emerson/fence_emerson.py | 68 -
fence/agents/eps/Makefile.am | 17 -
fence/agents/eps/fence_eps.py | 129 -
fence/agents/hds_cb/Makefile.am | 17 -
fence/agents/hds_cb/fence_hds_cb.py | 138 -
fence/agents/hpblade/Makefile.am | 17 -
fence/agents/hpblade/fence_hpblade.py | 89 -
fence/agents/ibmblade/Makefile.am | 17 -
fence/agents/ibmblade/fence_ibmblade.py | 78 -
fence/agents/ifmib/Makefile.am | 18 -
fence/agents/ifmib/README | 45 -
fence/agents/ifmib/fence_ifmib.py | 122 -
fence/agents/ilo/Makefile.am | 22 -
fence/agents/ilo/fence_ilo.py | 132 -
fence/agents/ilo_moonshot/Makefile.am | 17 -
fence/agents/ilo_moonshot/fence_ilo_moonshot.py | 69 -
fence/agents/ilo_mp/Makefile.am | 17 -
fence/agents/ilo_mp/fence_ilo_mp.py | 64 -
fence/agents/ilo_ssh/Makefile.am | 22 -
fence/agents/ilo_ssh/fence_ilo_ssh.py | 75 -
fence/agents/intelmodular/Makefile.am | 17 -
fence/agents/intelmodular/fence_intelmodular.py | 92 -
fence/agents/ipdu/Makefile.am | 17 -
fence/agents/ipdu/fence_ipdu.py | 159 -
fence/agents/ipmilan/Makefile.am | 22 -
fence/agents/ipmilan/fence_ipmilan.py | 162 -
fence/agents/kdump/Makefile.am | 20 -
fence/agents/kdump/fence_kdump.8 | 85 -
fence/agents/kdump/fence_kdump.c | 544 -
fence/agents/kdump/fence_kdump_send.8 | 50 -
fence/agents/kdump/fence_kdump_send.c | 254 -
fence/agents/kdump/list.h | 573 -
fence/agents/kdump/message.h | 41 -
fence/agents/kdump/options.h | 243 -
fence/agents/kdump/version.h | 33 -
fence/agents/ldom/Makefile.am | 17 -
fence/agents/ldom/fence_ldom.py | 108 -
fence/agents/lib/Makefile.am | 27 -
fence/agents/lib/XenAPI.py.py | 209 -
fence/agents/lib/check_used_options.py | 65 -
fence/agents/lib/fence.rng.head | 7 -
fence/agents/lib/fence.rng.tail | 13 -
fence/agents/lib/fence2man.xsl | 59 -
fence/agents/lib/fence2rng.xsl | 161 -
fence/agents/lib/fence2wiki.xsl | 14 -
fence/agents/lib/fencing.py.py | 1354 -
fence/agents/lib/fencing_snmp.py.py | 134 -
fence/agents/lib/metadata.rng | 77 -
fence/agents/lib/tests/test_fencing.py | 123 -
fence/agents/lpar/Makefile.am | 17 -
fence/agents/lpar/fence_lpar.py | 159 -
fence/agents/manual/Makefile.am | 17 -
fence/agents/manual/fence_ack_manual.8 | 39 -
fence/agents/manual/fence_ack_manual.in | 37 -
fence/agents/mpath/Makefile.am | 17 -
fence/agents/mpath/fence_mpath.py | 247 -
fence/agents/netio/Makefile.am | 17 -
fence/agents/netio/fence_netio.py | 100 -
fence/agents/ovh/Makefile.am | 17 -
fence/agents/ovh/fence_ovh.py | 163 -
fence/agents/pve/Makefile.am | 17 -
fence/agents/pve/fence_pve.py | 183 -
fence/agents/raritan/Makefile.am | 17 -
fence/agents/raritan/fence_raritan.py | 90 -
fence/agents/rhevm/Makefile.am | 17 -
fence/agents/rhevm/fence_rhevm.py | 165 -
fence/agents/rsa/Makefile.am | 17 -
fence/agents/rsa/fence_rsa.py | 69 -
fence/agents/rsb/Makefile.am | 17 -
fence/agents/rsb/fence_rsb.py | 76 -
fence/agents/sanbox2/Makefile.am | 17 -
fence/agents/sanbox2/fence_sanbox2.py | 157 -
fence/agents/scsi/Makefile.am | 26 -
fence/agents/scsi/fence_scsi.py | 454 -
fence/agents/virsh/Makefile.am | 17 -
fence/agents/virsh/fence_virsh.py | 100 -
fence/agents/vmware/Makefile.am | 16 -
fence/agents/vmware/fence_vmware.py | 342 -
fence/agents/vmware/fence_vmware_helper.pl | 276 -
fence/agents/vmware_soap/Makefile.am | 17 -
fence/agents/vmware_soap/fence_vmware_soap.py | 257 -
fence/agents/wti/Makefile.am | 17 -
fence/agents/wti/fence_wti.py | 245 -
fence/agents/xenapi/Makefile.am | 17 -
fence/agents/xenapi/fence_xenapi.py | 227 -
fence/agents/zvm/Makefile.am | 17 -
fence/agents/zvm/fence_zvm.c | 943 -
fence/agents/zvm/fence_zvm.h | 583 -
fence/agents/zvm/fence_zvmip.c | 1001 -
fence/agents/zvm/fence_zvmip.py | 175 -
make/ac_python_module.m4 | 30 -
make/agentccheck.mk | 22 -
make/agentpycheck.mk | 25 -
make/copyright.cf | 6 -
make/fencebuild.mk | 36 -
make/fenceman.mk | 10 -
make/fencemanc.mk | 9 -
make/fencemanperl.mk | 9 -
make/git-version-gen | 161 -
make/gitlog-to-changelog | 191 -
make/release.mk | 73 -
scripts/fenceparse | 42 -
tests/actions.d/list.cfg | 2 -
tests/actions.d/power-on-off.cfg | 2 -
tests/actions.d/sleep.cfg | 2 -
tests/actions.d/status.cfg | 2 -
tests/data/metadata/fence_alom.xml | 131 -
tests/data/metadata/fence_amt.xml | 135 -
tests/data/metadata/fence_apc.xml | 153 -
tests/data/metadata/fence_apc_snmp.xml | 182 -
tests/data/metadata/fence_bladecenter.xml | 153 -
tests/data/metadata/fence_brocade.xml | 147 -
tests/data/metadata/fence_cisco_mds.xml | 181 -
tests/data/metadata/fence_cisco_ucs.xml | 148 -
tests/data/metadata/fence_docker.xml | 146 -
tests/data/metadata/fence_drac.xml | 116 -
tests/data/metadata/fence_drac5.xml | 157 -
tests/data/metadata/fence_dummy.xml | 93 -
tests/data/metadata/fence_eaton_snmp.xml | 182 -
tests/data/metadata/fence_emerson.xml | 182 -
tests/data/metadata/fence_eps.xml | 125 -
tests/data/metadata/fence_hds_cb.xml | 153 -
tests/data/metadata/fence_hpblade.xml | 153 -
tests/data/metadata/fence_ibmblade.xml | 182 -
tests/data/metadata/fence_idrac.xml | 162 -
tests/data/metadata/fence_ifmib.xml | 183 -
tests/data/metadata/fence_ilo.xml | 137 -
tests/data/metadata/fence_ilo2.xml | 137 -
tests/data/metadata/fence_ilo3.xml | 162 -
tests/data/metadata/fence_ilo3_ssh.xml | 146 -
tests/data/metadata/fence_ilo4.xml | 162 -
tests/data/metadata/fence_ilo4_ssh.xml | 146 -
tests/data/metadata/fence_ilo_moonshot.xml | 143 -
tests/data/metadata/fence_ilo_mp.xml | 136 -
tests/data/metadata/fence_ilo_ssh.xml | 146 -
tests/data/metadata/fence_imm.xml | 162 -
tests/data/metadata/fence_intelmodular.xml | 184 -
tests/data/metadata/fence_ipdu.xml | 182 -
tests/data/metadata/fence_ipmilan.xml | 162 -
tests/data/metadata/fence_kdump.xml | 52 -
tests/data/metadata/fence_ldom.xml | 145 -
tests/data/metadata/fence_lpar.xml | 156 -
tests/data/metadata/fence_mpath.xml | 100 -
tests/data/metadata/fence_netio.xml | 123 -
tests/data/metadata/fence_ovh.xml | 102 -
tests/data/metadata/fence_pve.xml | 123 -
tests/data/metadata/fence_raritan.xml | 123 -
tests/data/metadata/fence_rhevm.xml | 148 -
tests/data/metadata/fence_rsa.xml | 136 -
tests/data/metadata/fence_rsb.xml | 136 -
tests/data/metadata/fence_sanbox2.xml | 127 -
tests/data/metadata/fence_scsi.xml | 116 -
tests/data/metadata/fence_tripplite_snmp.xml | 182 -
tests/data/metadata/fence_virsh.xml | 155 -
tests/data/metadata/fence_vmware_soap.xml | 145 -
tests/data/metadata/fence_wti.xml | 148 -
tests/data/metadata/fence_xenapi.xml | 103 -
tests/data/metadata/fence_zvmip.xml | 140 -
tests/devices.d/dummy-with_action.cfg | 9 -
tests/devices.d/dummy.cfg | 3 -
tests/devices.d/invalid-missing_option.cfg | 4 -
tests/devices.d/true-with_action.cfg | 8 -
tests/devices.d/true.cfg | 8 -
tests/fence_testing.py | 126 -
tests/fence_testing_test.py | 70 -
tests/test-apc2.py | 17 -
tests/test-apc5.py | 17 -
tests/test-drac4.py | 15 -
tests/test-multi-apc2.py | 17 -
tests/test.py | 21 -
211 files changed, 1 insertions(+), 55347 deletions(-)
diff --git a/Makefile.am b/Makefile.am
deleted file mode 100644
index 5e2e22d..0000000
--- a/Makefile.am
+++ /dev/null
@@ -1,46 +0,0 @@
-EXTRA_DIST = autogen.sh make/fencebuild.mk scripts/fenceparse \
- .version make/release.mk \
- make/git-version-gen make/gitlog-to-changelog tests
-
-AUTOMAKE_OPTIONS = foreign
-
-MAINTAINERCLEANFILES = Makefile.in aclocal.m4 configure depcomp \
- config.guess config.sub missing install-sh \
- autoheader automake autoconf libtool libtoolize \
- ltmain.sh compile make/clusterautoconfig.h.in \
- make/clusterautoconfig.h.in~ autoscan.log \
- configure.scan
-
-noinst_HEADERS = make/copyright.cf
-
-ACLOCAL_AMFLAGS = -I m4
-
-SUBDIRS = fence/agents/lib fence doc
-
-install-exec-local:
- $(INSTALL) -d $(DESTDIR)/$(LOGDIR)
- $(INSTALL) -d $(DESTDIR)/$(CLUSTERVARRUN)
-
-uninstall-local:
- rmdir $(DESTDIR)/$(LOGDIR) || :;
- rmdir $(DESTDIR)/$(CLUSTERVARRUN) || :;
-
-BUILT_SOURCES = .version
-.version:
- echo $(VERSION) > $@-t && mv $@-t $@
-
-dist-hook: gen-ChangeLog
- echo $(VERSION) > $(distdir)/.tarball-version
-
-gen_start_date = 2000-01-01
-.PHONY: gen-ChangeLog
-gen-ChangeLog:
- if test -d .git; then \
- $(top_srcdir)/make/gitlog-to-changelog \
- --since=$(gen_start_date) > $(distdir)/cl-t; \
- rm -f $(distdir)/ChangeLog; \
- mv $(distdir)/cl-t $(distdir)/ChangeLog; \
- fi
-
-maintainer-clean-local:
- rm -rf m4
diff --git a/README b/README
new file mode 100644
index 0000000..5d9ad62
--- /dev/null
+++ b/README
@@ -0,0 +1 @@
+Fence agents where moved to https://github.com/ClusterLabs/fence-agents/
diff --git a/autogen.sh b/autogen.sh
deleted file mode 100755
index ee22af8..0000000
--- a/autogen.sh
+++ /dev/null
@@ -1,4 +0,0 @@
-#!/bin/sh
-# Run this to generate all the initial makefiles, etc.
-mkdir -p m4
-autoreconf -i -I make -v && echo Now run ./configure and make
diff --git a/configure.ac b/configure.ac
deleted file mode 100644
index ce2ca46..0000000
--- a/configure.ac
+++ /dev/null
@@ -1,318 +0,0 @@
-# Process this file with autoconf to produce a configure script.
-
-AC_PREREQ([2.63])
-
-AC_INIT([fence-agents],
- m4_esyscmd([make/git-version-gen .tarball-version]),
- [linux-cluster(a)redhat.com]
-
-AM_INIT_AUTOMAKE([-Wno-portability dist-bzip2 dist-xz])
-
-LT_PREREQ([2.2.6])
-LT_INIT
-
-AC_CONFIG_MACRO_DIR([m4])
-AC_CONFIG_SRCDIR([fence/agents/lib/fencing.py.py])
-AC_CONFIG_HEADERS([make/clusterautoconfig.h])
-
-AC_CANONICAL_HOST
-AC_PROG_LIBTOOL
-
-AC_LANG([C])
-
-# Sanitize path
-
-if test "$prefix" = "NONE"; then
- prefix="/usr"
- if test "$localstatedir" = "\${prefix}/var"; then
- localstatedir="/var"
- fi
- if test "$sysconfdir" = "\${prefix}/etc"; then
- sysconfdir="/etc"
- fi
- if test "$libdir" = "\${exec_prefix}/lib"; then
- if test -e /usr/lib64; then
- libdir="/usr/lib64"
- else
- libdir="/usr/lib"
- fi
- fi
-fi
-
-case $exec_prefix in
- NONE) exec_prefix=$prefix;;
- prefix) exec_prefix=$prefix;;
-esac
-
-# Checks for programs.
-
-# check stolen from gnulib/m4/gnu-make.m4
-if ! ${MAKE-make} --version /cannot/make/this >/dev/null 2>&1; then
- AC_MSG_ERROR([you don't seem to have GNU make; it is required])
-fi
-
-AC_PROG_CC
-AM_PROG_CC_C_O
-AC_PROG_LN_S
-AC_PROG_INSTALL
-AC_PROG_MAKE_SET
-AC_PROG_AWK
-AC_PROG_CXX
-AC_PROG_RANLIB
-
-## local helper functions
-
-# this function checks if CC support options passed as
-# args. Global CFLAGS are ignored during this test.
-cc_supports_flag() {
- local CFLAGS="$@"
- AC_MSG_CHECKING([whether $CC supports "$@"])
- AC_COMPILE_IFELSE([int main(){return 0;}] ,
- [RC=0; AC_MSG_RESULT([yes])],
- [RC=1; AC_MSG_RESULT([no])])
- return $RC
-}
-
-# this function tests if a library has a certain function
-# by using AC_CHECK_LIB but restores the original LIBS global
-# envvar. This is required to avoid libtool to link everything
-# with everything.
-check_lib_no_libs() {
- AC_CHECK_LIB([$1], [$2],,
- [AC_MSG_ERROR([Unable to find $1 library])])
- LIBS=$ac_check_lib_save_LIBS
-}
-
-# Checks for header files.
-AC_CHECK_HEADERS([arpa/inet.h fcntl.h libintl.h limits.h netdb.h stddef.h sys/socket.h sys/time.h syslog.h])
-
-# Checks for typedefs, structures, and compiler characteristics.
-AC_C_INLINE
-AC_TYPE_SIZE_T
-AC_TYPE_SSIZE_T
-AC_TYPE_UINT32_T
-
-# Checks for library functions.
-AC_FUNC_FORK
-AC_FUNC_MALLOC
-AC_CHECK_FUNCS([alarm atexit bzero dup2 memmove memset select socket strcasecmp strchr strdup strerror strtol])
-
-# local options
-AC_ARG_ENABLE([debug],
- [ --enable-debug enable debug build. ],
- [ default="no" ])
-
-AC_ARG_WITH([fenceagentslibdir],
- [ --with-fenceagentslibdir=PATH
- installation path for fence library. ],
- [ FENCEAGENTSLIBDIR="$withval" ],
- [ FENCEAGENTSLIBDIR="${datadir}/fence" ])
-
-AC_ARG_WITH([default-config-dir],
- [ --with-default-config-dir=DIR
- cluster config directory. ],
- [ DEFAULT_CONFIG_DIR="$withval" ],
- [ DEFAULT_CONFIG_DIR="$sysconfdir/cluster" ])
-
-AC_ARG_WITH([default-config-file],
- [ --with-default-config-file=FILE
- cluster config file. ],
- [ DEFAULT_CONFIG_FILE="$withval" ],
- [ DEFAULT_CONFIG_FILE="cluster.conf" ])
-
-AC_ARG_WITH([agents],
- [ --with-agents=LIST
- list of agents to build/ship (default: all). ],
- [ AGENTS_LIST="$withval" ],
- [ AGENTS_LIST="all" ])
-
-if test "x$AGENTS_LIST" = x; then
- AC_ERROR([No agents selected])
-fi
-
-if test "x$AGENTS_LIST" != xall; then
- for j in $AGENTS_LIST; do
- if ! test -d fence/agents/$j; then
- AC_ERROR([Agent $j does not exists])
- fi
- done
-fi
-
-if test "x$AGENTS_LIST" = xall; then
- AGENTS_LIST=`find $srcdir/fence/agents -mindepth 2 -maxdepth 2 -name Makefile.am -printf '%h ' | sed -e 's#'$srcdir'/fence/agents/##g' -e 's#lib ##g' -e 's#nss_wrapper ##g'`
-fi
-
-XENAPILIB=0
-if echo "$AGENTS_LIST" | grep -q xenapi; then
- XENAPILIB=1
-fi
-
-## random vars
-
-LOGDIR=${localstatedir}/log/cluster
-CLUSTERVARRUN=${localstatedir}/run/cluster
-CLUSTERDATA=${datadir}/cluster
-
-AC_PYTHON_MODULE(suds, 1)
-AC_PYTHON_MODULE(pexpect, 1)
-AC_PYTHON_MODULE(pycurl, 1)
-AC_PYTHON_MODULE(requests, 1)
-
-## path to 3rd-party binaries
-AC_PATH_PROG([IPMITOOL_PATH], [ipmitool], [/usr/bin/ipmitool])
-AC_PATH_PROG([AMTTOOL_PATH], [amttool], [/usr/bin/amttool])
-AC_PATH_PROG([GNUTLSCLI_PATH], [gnutlscli], [/usr/bin/gnutls-cli])
-AC_PATH_PROG([COROSYNC_CMAPCTL_PATH], [corosync-cmapctl], [/usr/sbin/corosync-cmapctl])
-AC_PATH_PROG([SG_PERSIST_PATH], [sg_persist], [/usr/bin/sg_persist])
-AC_PATH_PROG([SG_TURS_PATH], [sg_turs], [/usr/bin/sg_turs])
-AC_PATH_PROG([VGS_PATH], [vgs], [/usr/sbin/vgs])
-AC_PATH_PROG([SUDO_PATH], [sudo], [/usr/bin/sudo])
-AC_PATH_PROG([SSH_PATH], [ssh], [/usr/bin/ssh])
-AC_PATH_PROG([TELNET_PATH], [telnet], [/usr/bin/telnet])
-AC_PATH_PROG([MPATH_PATH], [mpathpersist], [/usr/sbin/mpathpersist])
-AC_PATH_PROG([SUDO_PATH], [sudo], [/usr/bin/sudo])
-AC_PATH_PROG([SNMPWALK_PATH], [snmpwalk], [/usr/bin/snmpwalk])
-AC_PATH_PROG([SNMPSET_PATH], [snmpset], [/usr/bin/snmpset])
-AC_PATH_PROG([SNMPGET_PATH], [snmpget], [/usr/bin/snmpget])
-
-## do subst
-
-AC_SUBST([DEFAULT_CONFIG_DIR])
-AC_DEFINE_UNQUOTED([DEFAULT_CONFIG_DIR], "$(eval echo ${DEFAULT_CONFIG_DIR})",
- [Default config directory])
-
-AC_SUBST([DEFAULT_CONFIG_FILE])
-AC_DEFINE_UNQUOTED([DEFAULT_CONFIG_FILE], "$(eval echo ${DEFAULT_CONFIG_FILE})",
- [Default config file])
-
-AC_SUBST([LOGDIR])
-AC_DEFINE_UNQUOTED([LOGDIR], "$(eval echo ${LOGDIR})",
- [Default logging directory])
-
-AC_SUBST([CLUSTERVARRUN])
-AC_DEFINE_UNQUOTED([CLUSTERVARRUN], "$(eval echo ${CLUSTERVARRUN})",
- [Default cluster var/run directory])
-
-AC_SUBST([CLUSTERDATA])
-AC_SUBST([FENCEAGENTSLIBDIR])
-AC_SUBST([SNMPBIN])
-AC_SUBST([AGENTS_LIST])
-AM_CONDITIONAL(BUILD_XENAPILIB, test $XENAPILIB -eq 1)
-
-AC_SUBST([IPMITOOL_PATH])
-AC_SUBST([AMTTOOL_PATH])
-AC_SUBST([COROSYNC_CMAPCTL_PATH])
-AC_SUBST([SG_PERSIST_PATH])
-AC_SUBST([SG_TURS_PATH])
-AC_SUBST([VGS_PATH])
-
-## *FLAGS handling
-
-ENV_CFLAGS="$CFLAGS"
-ENV_CPPFLAGS="$CPPFLAGS"
-ENV_LDFLAGS="$LDFLAGS"
-
-# debug build stuff
-if test "x${enable_debug}" = xyes; then
- AC_DEFINE_UNQUOTED([DEBUG], [1], [Compiling Debugging code])
- OPT_CFLAGS="-O0"
-else
- OPT_CFLAGS="-O2"
-fi
-
-# gdb flags
-if test "x${GCC}" = xyes; then
- GDB_FLAGS="-ggdb3"
-else
- GDB_FLAGS="-g"
-fi
-
-# extra warnings
-EXTRA_WARNINGS=""
-
-WARNLIST="
- all
- shadow
- missing-prototypes
- missing-declarations
- strict-prototypes
- declaration-after-statement
- pointer-arith
- write-strings
- cast-align
- bad-function-cast
- missing-format-attribute
- format=2
- format-security
- format-nonliteral
- no-long-long
- unsigned-char
- gnu89-inline
- no-strict-aliasing
- "
-
-for j in $WARNLIST; do
- if cc_supports_flag -W$j; then
- EXTRA_WARNINGS="$EXTRA_WARNINGS -W$j";
- fi
-done
-
-CFLAGS="$ENV_CFLAGS $OPT_CFLAGS $GDB_FLAGS \
- $EXTRA_WARNINGS $WERROR_CFLAGS"
-CPPFLAGS="-I\$(top_builddir)/make -I\$(top_srcdir)/make -I. $ENV_CPPFLAGS"
-LDFLAGS="$ENV_LDFLAGS"
-
-
-AC_CONFIG_FILES([Makefile
- fence/Makefile
- fence/agents/Makefile
- fence/agents/alom/Makefile
- fence/agents/apc/Makefile
- fence/agents/apc_snmp/Makefile
- fence/agents/amt/Makefile
- fence/agents/bladecenter/Makefile
- fence/agents/brocade/Makefile
- fence/agents/cisco_mds/Makefile
- fence/agents/cisco_ucs/Makefile
- fence/agents/docker/Makefile
- fence/agents/drac/Makefile
- fence/agents/drac5/Makefile
- fence/agents/dummy/Makefile
- fence/agents/eaton_snmp/Makefile
- fence/agents/emerson/Makefile
- fence/agents/eps/Makefile
- fence/agents/hpblade/Makefile
- fence/agents/ibmblade/Makefile
- fence/agents/ipdu/Makefile
- fence/agents/ifmib/Makefile
- fence/agents/ilo/Makefile
- fence/agents/ilo_moonshot/Makefile
- fence/agents/ilo_mp/Makefile
- fence/agents/ilo_ssh/Makefile
- fence/agents/intelmodular/Makefile
- fence/agents/ipmilan/Makefile
- fence/agents/kdump/Makefile
- fence/agents/ldom/Makefile
- fence/agents/lib/Makefile
- fence/agents/lpar/Makefile
- fence/agents/manual/Makefile
- fence/agents/mpath/Makefile
- fence/agents/netio/Makefile
- fence/agents/ovh/Makefile
- fence/agents/pve/Makefile
- fence/agents/raritan/Makefile
- fence/agents/rhevm/Makefile
- fence/agents/rsa/Makefile
- fence/agents/rsb/Makefile
- fence/agents/sanbox2/Makefile
- fence/agents/scsi/Makefile
- fence/agents/virsh/Makefile
- fence/agents/vmware/Makefile
- fence/agents/vmware_soap/Makefile
- fence/agents/wti/Makefile
- fence/agents/xenapi/Makefile
- fence/agents/hds_cb/Makefile
- fence/agents/zvm/Makefile
- doc/Makefile])
-
-AC_OUTPUT
diff --git a/doc/COPYING.applications b/doc/COPYING.applications
deleted file mode 100644
index d511905..0000000
--- a/doc/COPYING.applications
+++ /dev/null
@@ -1,339 +0,0 @@
- GNU GENERAL PUBLIC LICENSE
- Version 2, June 1991
-
- Copyright (C) 1989, 1991 Free Software Foundation, Inc.,
- 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
- Everyone is permitted to copy and distribute verbatim copies
- of this license document, but changing it is not allowed.
-
- Preamble
-
- The licenses for most software are designed to take away your
-freedom to share and change it. By contrast, the GNU General Public
-License is intended to guarantee your freedom to share and change free
-software--to make sure the software is free for all its users. This
-General Public License applies to most of the Free Software
-Foundation's software and to any other program whose authors commit to
-using it. (Some other Free Software Foundation software is covered by
-the GNU Lesser General Public License instead.) You can apply it to
-your programs, too.
-
- When we speak of free software, we are referring to freedom, not
-price. Our General Public Licenses are designed to make sure that you
-have the freedom to distribute copies of free software (and charge for
-this service if you wish), that you receive source code or can get it
-if you want it, that you can change the software or use pieces of it
-in new free programs; and that you know you can do these things.
-
- To protect your rights, we need to make restrictions that forbid
-anyone to deny you these rights or to ask you to surrender the rights.
-These restrictions translate to certain responsibilities for you if you
-distribute copies of the software, or if you modify it.
-
- For example, if you distribute copies of such a program, whether
-gratis or for a fee, you must give the recipients all the rights that
-you have. You must make sure that they, too, receive or can get the
-source code. And you must show them these terms so they know their
-rights.
-
- We protect your rights with two steps: (1) copyright the software, and
-(2) offer you this license which gives you legal permission to copy,
-distribute and/or modify the software.
-
- Also, for each author's protection and ours, we want to make certain
-that everyone understands that there is no warranty for this free
-software. If the software is modified by someone else and passed on, we
-want its recipients to know that what they have is not the original, so
-that any problems introduced by others will not reflect on the original
-authors' reputations.
-
- Finally, any free program is threatened constantly by software
-patents. We wish to avoid the danger that redistributors of a free
-program will individually obtain patent licenses, in effect making the
-program proprietary. To prevent this, we have made it clear that any
-patent must be licensed for everyone's free use or not licensed at all.
-
- The precise terms and conditions for copying, distribution and
-modification follow.
-
- GNU GENERAL PUBLIC LICENSE
- TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION
-
- 0. This License applies to any program or other work which contains
-a notice placed by the copyright holder saying it may be distributed
-under the terms of this General Public License. The "Program", below,
-refers to any such program or work, and a "work based on the Program"
-means either the Program or any derivative work under copyright law:
-that is to say, a work containing the Program or a portion of it,
-either verbatim or with modifications and/or translated into another
-language. (Hereinafter, translation is included without limitation in
-the term "modification".) Each licensee is addressed as "you".
-
-Activities other than copying, distribution and modification are not
-covered by this License; they are outside its scope. The act of
-running the Program is not restricted, and the output from the Program
-is covered only if its contents constitute a work based on the
-Program (independent of having been made by running the Program).
-Whether that is true depends on what the Program does.
-
- 1. You may copy and distribute verbatim copies of the Program's
-source code as you receive it, in any medium, provided that you
-conspicuously and appropriately publish on each copy an appropriate
-copyright notice and disclaimer of warranty; keep intact all the
-notices that refer to this License and to the absence of any warranty;
-and give any other recipients of the Program a copy of this License
-along with the Program.
-
-You may charge a fee for the physical act of transferring a copy, and
-you may at your option offer warranty protection in exchange for a fee.
-
- 2. You may modify your copy or copies of the Program or any portion
-of it, thus forming a work based on the Program, and copy and
-distribute such modifications or work under the terms of Section 1
-above, provided that you also meet all of these conditions:
-
- a) You must cause the modified files to carry prominent notices
- stating that you changed the files and the date of any change.
-
- b) You must cause any work that you distribute or publish, that in
- whole or in part contains or is derived from the Program or any
- part thereof, to be licensed as a whole at no charge to all third
- parties under the terms of this License.
-
- c) If the modified program normally reads commands interactively
- when run, you must cause it, when started running for such
- interactive use in the most ordinary way, to print or display an
- announcement including an appropriate copyright notice and a
- notice that there is no warranty (or else, saying that you provide
- a warranty) and that users may redistribute the program under
- these conditions, and telling the user how to view a copy of this
- License. (Exception: if the Program itself is interactive but
- does not normally print such an announcement, your work based on
- the Program is not required to print an announcement.)
-
-These requirements apply to the modified work as a whole. If
-identifiable sections of that work are not derived from the Program,
-and can be reasonably considered independent and separate works in
-themselves, then this License, and its terms, do not apply to those
-sections when you distribute them as separate works. But when you
-distribute the same sections as part of a whole which is a work based
-on the Program, the distribution of the whole must be on the terms of
-this License, whose permissions for other licensees extend to the
-entire whole, and thus to each and every part regardless of who wrote it.
-
-Thus, it is not the intent of this section to claim rights or contest
-your rights to work written entirely by you; rather, the intent is to
-exercise the right to control the distribution of derivative or
-collective works based on the Program.
-
-In addition, mere aggregation of another work not based on the Program
-with the Program (or with a work based on the Program) on a volume of
-a storage or distribution medium does not bring the other work under
-the scope of this License.
-
- 3. You may copy and distribute the Program (or a work based on it,
-under Section 2) in object code or executable form under the terms of
-Sections 1 and 2 above provided that you also do one of the following:
-
- a) Accompany it with the complete corresponding machine-readable
- source code, which must be distributed under the terms of Sections
- 1 and 2 above on a medium customarily used for software interchange; or,
-
- b) Accompany it with a written offer, valid for at least three
- years, to give any third party, for a charge no more than your
- cost of physically performing source distribution, a complete
- machine-readable copy of the corresponding source code, to be
- distributed under the terms of Sections 1 and 2 above on a medium
- customarily used for software interchange; or,
-
- c) Accompany it with the information you received as to the offer
- to distribute corresponding source code. (This alternative is
- allowed only for noncommercial distribution and only if you
- received the program in object code or executable form with such
- an offer, in accord with Subsection b above.)
-
-The source code for a work means the preferred form of the work for
-making modifications to it. For an executable work, complete source
-code means all the source code for all modules it contains, plus any
-associated interface definition files, plus the scripts used to
-control compilation and installation of the executable. However, as a
-special exception, the source code distributed need not include
-anything that is normally distributed (in either source or binary
-form) with the major components (compiler, kernel, and so on) of the
-operating system on which the executable runs, unless that component
-itself accompanies the executable.
-
-If distribution of executable or object code is made by offering
-access to copy from a designated place, then offering equivalent
-access to copy the source code from the same place counts as
-distribution of the source code, even though third parties are not
-compelled to copy the source along with the object code.
-
- 4. You may not copy, modify, sublicense, or distribute the Program
-except as expressly provided under this License. Any attempt
-otherwise to copy, modify, sublicense or distribute the Program is
-void, and will automatically terminate your rights under this License.
-However, parties who have received copies, or rights, from you under
-this License will not have their licenses terminated so long as such
-parties remain in full compliance.
-
- 5. You are not required to accept this License, since you have not
-signed it. However, nothing else grants you permission to modify or
-distribute the Program or its derivative works. These actions are
-prohibited by law if you do not accept this License. Therefore, by
-modifying or distributing the Program (or any work based on the
-Program), you indicate your acceptance of this License to do so, and
-all its terms and conditions for copying, distributing or modifying
-the Program or works based on it.
-
- 6. Each time you redistribute the Program (or any work based on the
-Program), the recipient automatically receives a license from the
-original licensor to copy, distribute or modify the Program subject to
-these terms and conditions. You may not impose any further
-restrictions on the recipients' exercise of the rights granted herein.
-You are not responsible for enforcing compliance by third parties to
-this License.
-
- 7. If, as a consequence of a court judgment or allegation of patent
-infringement or for any other reason (not limited to patent issues),
-conditions are imposed on you (whether by court order, agreement or
-otherwise) that contradict the conditions of this License, they do not
-excuse you from the conditions of this License. If you cannot
-distribute so as to satisfy simultaneously your obligations under this
-License and any other pertinent obligations, then as a consequence you
-may not distribute the Program at all. For example, if a patent
-license would not permit royalty-free redistribution of the Program by
-all those who receive copies directly or indirectly through you, then
-the only way you could satisfy both it and this License would be to
-refrain entirely from distribution of the Program.
-
-If any portion of this section is held invalid or unenforceable under
-any particular circumstance, the balance of the section is intended to
-apply and the section as a whole is intended to apply in other
-circumstances.
-
-It is not the purpose of this section to induce you to infringe any
-patents or other property right claims or to contest validity of any
-such claims; this section has the sole purpose of protecting the
-integrity of the free software distribution system, which is
-implemented by public license practices. Many people have made
-generous contributions to the wide range of software distributed
-through that system in reliance on consistent application of that
-system; it is up to the author/donor to decide if he or she is willing
-to distribute software through any other system and a licensee cannot
-impose that choice.
-
-This section is intended to make thoroughly clear what is believed to
-be a consequence of the rest of this License.
-
- 8. If the distribution and/or use of the Program is restricted in
-certain countries either by patents or by copyrighted interfaces, the
-original copyright holder who places the Program under this License
-may add an explicit geographical distribution limitation excluding
-those countries, so that distribution is permitted only in or among
-countries not thus excluded. In such case, this License incorporates
-the limitation as if written in the body of this License.
-
- 9. The Free Software Foundation may publish revised and/or new versions
-of the General Public License from time to time. Such new versions will
-be similar in spirit to the present version, but may differ in detail to
-address new problems or concerns.
-
-Each version is given a distinguishing version number. If the Program
-specifies a version number of this License which applies to it and "any
-later version", you have the option of following the terms and conditions
-either of that version or of any later version published by the Free
-Software Foundation. If the Program does not specify a version number of
-this License, you may choose any version ever published by the Free Software
-Foundation.
-
- 10. If you wish to incorporate parts of the Program into other free
-programs whose distribution conditions are different, write to the author
-to ask for permission. For software which is copyrighted by the Free
-Software Foundation, write to the Free Software Foundation; we sometimes
-make exceptions for this. Our decision will be guided by the two goals
-of preserving the free status of all derivatives of our free software and
-of promoting the sharing and reuse of software generally.
-
- NO WARRANTY
-
- 11. BECAUSE THE PROGRAM IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY
-FOR THE PROGRAM, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN
-OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES
-PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED
-OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
-MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS
-TO THE QUALITY AND PERFORMANCE OF THE PROGRAM IS WITH YOU. SHOULD THE
-PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING,
-REPAIR OR CORRECTION.
-
- 12. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
-WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR
-REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES,
-INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING
-OUT OF THE USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED
-TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY
-YOU OR THIRD PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER
-PROGRAMS), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE
-POSSIBILITY OF SUCH DAMAGES.
-
- END OF TERMS AND CONDITIONS
-
- How to Apply These Terms to Your New Programs
-
- If you develop a new program, and you want it to be of the greatest
-possible use to the public, the best way to achieve this is to make it
-free software which everyone can redistribute and change under these terms.
-
- To do so, attach the following notices to the program. It is safest
-to attach them to the start of each source file to most effectively
-convey the exclusion of warranty; and each file should have at least
-the "copyright" line and a pointer to where the full notice is found.
-
- <one line to give the program's name and a brief idea of what it does.>
- Copyright (C) <year> <name of author>
-
- This program is free software; you can redistribute it and/or modify
- it under the terms of the GNU General Public License as published by
- the Free Software Foundation; either version 2 of the License, or
- (at your option) any later version.
-
- This program is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- GNU General Public License for more details.
-
- You should have received a copy of the GNU General Public License along
- with this program; if not, write to the Free Software Foundation, Inc.,
- 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
-
-Also add information on how to contact you by electronic and paper mail.
-
-If the program is interactive, make it output a short notice like this
-when it starts in an interactive mode:
-
- Gnomovision version 69, Copyright (C) year name of author
- Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
- This is free software, and you are welcome to redistribute it
- under certain conditions; type `show c' for details.
-
-The hypothetical commands `show w' and `show c' should show the appropriate
-parts of the General Public License. Of course, the commands you use may
-be called something other than `show w' and `show c'; they could even be
-mouse-clicks or menu items--whatever suits your program.
-
-You should also get your employer (if you work as a programmer) or your
-school, if any, to sign a "copyright disclaimer" for the program, if
-necessary. Here is a sample; alter the names:
-
- Yoyodyne, Inc., hereby disclaims all copyright interest in the program
- `Gnomovision' (which makes passes at compilers) written by James Hacker.
-
- <signature of Ty Coon>, 1 April 1989
- Ty Coon, President of Vice
-
-This General Public License does not permit incorporating your program into
-proprietary programs. If your program is a subroutine library, you may
-consider it more useful to permit linking proprietary applications with the
-library. If this is what you want to do, use the GNU Lesser General
-Public License instead of this License.
diff --git a/doc/COPYING.libraries b/doc/COPYING.libraries
deleted file mode 100644
index 2d2d780..0000000
--- a/doc/COPYING.libraries
+++ /dev/null
@@ -1,510 +0,0 @@
-
- GNU LESSER GENERAL PUBLIC LICENSE
- Version 2.1, February 1999
-
- Copyright (C) 1991, 1999 Free Software Foundation, Inc.
- 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
- Everyone is permitted to copy and distribute verbatim copies
- of this license document, but changing it is not allowed.
-
-[This is the first released version of the Lesser GPL. It also counts
- as the successor of the GNU Library Public License, version 2, hence
- the version number 2.1.]
-
- Preamble
-
- The licenses for most software are designed to take away your
-freedom to share and change it. By contrast, the GNU General Public
-Licenses are intended to guarantee your freedom to share and change
-free software--to make sure the software is free for all its users.
-
- This license, the Lesser General Public License, applies to some
-specially designated software packages--typically libraries--of the
-Free Software Foundation and other authors who decide to use it. You
-can use it too, but we suggest you first think carefully about whether
-this license or the ordinary General Public License is the better
-strategy to use in any particular case, based on the explanations
-below.
-
- When we speak of free software, we are referring to freedom of use,
-not price. Our General Public Licenses are designed to make sure that
-you have the freedom to distribute copies of free software (and charge
-for this service if you wish); that you receive source code or can get
-it if you want it; that you can change the software and use pieces of
-it in new free programs; and that you are informed that you can do
-these things.
-
- To protect your rights, we need to make restrictions that forbid
-distributors to deny you these rights or to ask you to surrender these
-rights. These restrictions translate to certain responsibilities for
-you if you distribute copies of the library or if you modify it.
-
- For example, if you distribute copies of the library, whether gratis
-or for a fee, you must give the recipients all the rights that we gave
-you. You must make sure that they, too, receive or can get the source
-code. If you link other code with the library, you must provide
-complete object files to the recipients, so that they can relink them
-with the library after making changes to the library and recompiling
-it. And you must show them these terms so they know their rights.
-
- We protect your rights with a two-step method: (1) we copyright the
-library, and (2) we offer you this license, which gives you legal
-permission to copy, distribute and/or modify the library.
-
- To protect each distributor, we want to make it very clear that
-there is no warranty for the free library. Also, if the library is
-modified by someone else and passed on, the recipients should know
-that what they have is not the original version, so that the original
-author's reputation will not be affected by problems that might be
-introduced by others.
-
- Finally, software patents pose a constant threat to the existence of
-any free program. We wish to make sure that a company cannot
-effectively restrict the users of a free program by obtaining a
-restrictive license from a patent holder. Therefore, we insist that
-any patent license obtained for a version of the library must be
-consistent with the full freedom of use specified in this license.
-
- Most GNU software, including some libraries, is covered by the
-ordinary GNU General Public License. This license, the GNU Lesser
-General Public License, applies to certain designated libraries, and
-is quite different from the ordinary General Public License. We use
-this license for certain libraries in order to permit linking those
-libraries into non-free programs.
-
- When a program is linked with a library, whether statically or using
-a shared library, the combination of the two is legally speaking a
-combined work, a derivative of the original library. The ordinary
-General Public License therefore permits such linking only if the
-entire combination fits its criteria of freedom. The Lesser General
-Public License permits more lax criteria for linking other code with
-the library.
-
- We call this license the "Lesser" General Public License because it
-does Less to protect the user's freedom than the ordinary General
-Public License. It also provides other free software developers Less
-of an advantage over competing non-free programs. These disadvantages
-are the reason we use the ordinary General Public License for many
-libraries. However, the Lesser license provides advantages in certain
-special circumstances.
-
- For example, on rare occasions, there may be a special need to
-encourage the widest possible use of a certain library, so that it
-becomes a de-facto standard. To achieve this, non-free programs must
-be allowed to use the library. A more frequent case is that a free
-library does the same job as widely used non-free libraries. In this
-case, there is little to gain by limiting the free library to free
-software only, so we use the Lesser General Public License.
-
- In other cases, permission to use a particular library in non-free
-programs enables a greater number of people to use a large body of
-free software. For example, permission to use the GNU C Library in
-non-free programs enables many more people to use the whole GNU
-operating system, as well as its variant, the GNU/Linux operating
-system.
-
- Although the Lesser General Public License is Less protective of the
-users' freedom, it does ensure that the user of a program that is
-linked with the Library has the freedom and the wherewithal to run
-that program using a modified version of the Library.
-
- The precise terms and conditions for copying, distribution and
-modification follow. Pay close attention to the difference between a
-"work based on the library" and a "work that uses the library". The
-former contains code derived from the library, whereas the latter must
-be combined with the library in order to run.
-
- GNU LESSER GENERAL PUBLIC LICENSE
- TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION
-
- 0. This License Agreement applies to any software library or other
-program which contains a notice placed by the copyright holder or
-other authorized party saying it may be distributed under the terms of
-this Lesser General Public License (also called "this License").
-Each licensee is addressed as "you".
-
- A "library" means a collection of software functions and/or data
-prepared so as to be conveniently linked with application programs
-(which use some of those functions and data) to form executables.
-
- The "Library", below, refers to any such software library or work
-which has been distributed under these terms. A "work based on the
-Library" means either the Library or any derivative work under
-copyright law: that is to say, a work containing the Library or a
-portion of it, either verbatim or with modifications and/or translated
-straightforwardly into another language. (Hereinafter, translation is
-included without limitation in the term "modification".)
-
- "Source code" for a work means the preferred form of the work for
-making modifications to it. For a library, complete source code means
-all the source code for all modules it contains, plus any associated
-interface definition files, plus the scripts used to control
-compilation and installation of the library.
-
- Activities other than copying, distribution and modification are not
-covered by this License; they are outside its scope. The act of
-running a program using the Library is not restricted, and output from
-such a program is covered only if its contents constitute a work based
-on the Library (independent of the use of the Library in a tool for
-writing it). Whether that is true depends on what the Library does
-and what the program that uses the Library does.
-
- 1. You may copy and distribute verbatim copies of the Library's
-complete source code as you receive it, in any medium, provided that
-you conspicuously and appropriately publish on each copy an
-appropriate copyright notice and disclaimer of warranty; keep intact
-all the notices that refer to this License and to the absence of any
-warranty; and distribute a copy of this License along with the
-Library.
-
- You may charge a fee for the physical act of transferring a copy,
-and you may at your option offer warranty protection in exchange for a
-fee.
-
- 2. You may modify your copy or copies of the Library or any portion
-of it, thus forming a work based on the Library, and copy and
-distribute such modifications or work under the terms of Section 1
-above, provided that you also meet all of these conditions:
-
- a) The modified work must itself be a software library.
-
- b) You must cause the files modified to carry prominent notices
- stating that you changed the files and the date of any change.
-
- c) You must cause the whole of the work to be licensed at no
- charge to all third parties under the terms of this License.
-
- d) If a facility in the modified Library refers to a function or a
- table of data to be supplied by an application program that uses
- the facility, other than as an argument passed when the facility
- is invoked, then you must make a good faith effort to ensure that,
- in the event an application does not supply such function or
- table, the facility still operates, and performs whatever part of
- its purpose remains meaningful.
-
- (For example, a function in a library to compute square roots has
- a purpose that is entirely well-defined independent of the
- application. Therefore, Subsection 2d requires that any
- application-supplied function or table used by this function must
- be optional: if the application does not supply it, the square
- root function must still compute square roots.)
-
-These requirements apply to the modified work as a whole. If
-identifiable sections of that work are not derived from the Library,
-and can be reasonably considered independent and separate works in
-themselves, then this License, and its terms, do not apply to those
-sections when you distribute them as separate works. But when you
-distribute the same sections as part of a whole which is a work based
-on the Library, the distribution of the whole must be on the terms of
-this License, whose permissions for other licensees extend to the
-entire whole, and thus to each and every part regardless of who wrote
-it.
-
-Thus, it is not the intent of this section to claim rights or contest
-your rights to work written entirely by you; rather, the intent is to
-exercise the right to control the distribution of derivative or
-collective works based on the Library.
-
-In addition, mere aggregation of another work not based on the Library
-with the Library (or with a work based on the Library) on a volume of
-a storage or distribution medium does not bring the other work under
-the scope of this License.
-
- 3. You may opt to apply the terms of the ordinary GNU General Public
-License instead of this License to a given copy of the Library. To do
-this, you must alter all the notices that refer to this License, so
-that they refer to the ordinary GNU General Public License, version 2,
-instead of to this License. (If a newer version than version 2 of the
-ordinary GNU General Public License has appeared, then you can specify
-that version instead if you wish.) Do not make any other change in
-these notices.
-
- Once this change is made in a given copy, it is irreversible for
-that copy, so the ordinary GNU General Public License applies to all
-subsequent copies and derivative works made from that copy.
-
- This option is useful when you wish to copy part of the code of
-the Library into a program that is not a library.
-
- 4. You may copy and distribute the Library (or a portion or
-derivative of it, under Section 2) in object code or executable form
-under the terms of Sections 1 and 2 above provided that you accompany
-it with the complete corresponding machine-readable source code, which
-must be distributed under the terms of Sections 1 and 2 above on a
-medium customarily used for software interchange.
-
- If distribution of object code is made by offering access to copy
-from a designated place, then offering equivalent access to copy the
-source code from the same place satisfies the requirement to
-distribute the source code, even though third parties are not
-compelled to copy the source along with the object code.
-
- 5. A program that contains no derivative of any portion of the
-Library, but is designed to work with the Library by being compiled or
-linked with it, is called a "work that uses the Library". Such a
-work, in isolation, is not a derivative work of the Library, and
-therefore falls outside the scope of this License.
-
- However, linking a "work that uses the Library" with the Library
-creates an executable that is a derivative of the Library (because it
-contains portions of the Library), rather than a "work that uses the
-library". The executable is therefore covered by this License.
-Section 6 states terms for distribution of such executables.
-
- When a "work that uses the Library" uses material from a header file
-that is part of the Library, the object code for the work may be a
-derivative work of the Library even though the source code is not.
-Whether this is true is especially significant if the work can be
-linked without the Library, or if the work is itself a library. The
-threshold for this to be true is not precisely defined by law.
-
- If such an object file uses only numerical parameters, data
-structure layouts and accessors, and small macros and small inline
-functions (ten lines or less in length), then the use of the object
-file is unrestricted, regardless of whether it is legally a derivative
-work. (Executables containing this object code plus portions of the
-Library will still fall under Section 6.)
-
- Otherwise, if the work is a derivative of the Library, you may
-distribute the object code for the work under the terms of Section 6.
-Any executables containing that work also fall under Section 6,
-whether or not they are linked directly with the Library itself.
-
- 6. As an exception to the Sections above, you may also combine or
-link a "work that uses the Library" with the Library to produce a
-work containing portions of the Library, and distribute that work
-under terms of your choice, provided that the terms permit
-modification of the work for the customer's own use and reverse
-engineering for debugging such modifications.
-
- You must give prominent notice with each copy of the work that the
-Library is used in it and that the Library and its use are covered by
-this License. You must supply a copy of this License. If the work
-during execution displays copyright notices, you must include the
-copyright notice for the Library among them, as well as a reference
-directing the user to the copy of this License. Also, you must do one
-of these things:
-
- a) Accompany the work with the complete corresponding
- machine-readable source code for the Library including whatever
- changes were used in the work (which must be distributed under
- Sections 1 and 2 above); and, if the work is an executable linked
- with the Library, with the complete machine-readable "work that
- uses the Library", as object code and/or source code, so that the
- user can modify the Library and then relink to produce a modified
- executable containing the modified Library. (It is understood
- that the user who changes the contents of definitions files in the
- Library will not necessarily be able to recompile the application
- to use the modified definitions.)
-
- b) Use a suitable shared library mechanism for linking with the
- Library. A suitable mechanism is one that (1) uses at run time a
- copy of the library already present on the user's computer system,
- rather than copying library functions into the executable, and (2)
- will operate properly with a modified version of the library, if
- the user installs one, as long as the modified version is
- interface-compatible with the version that the work was made with.
-
- c) Accompany the work with a written offer, valid for at least
- three years, to give the same user the materials specified in
- Subsection 6a, above, for a charge no more than the cost of
- performing this distribution.
-
- d) If distribution of the work is made by offering access to copy
- from a designated place, offer equivalent access to copy the above
- specified materials from the same place.
-
- e) Verify that the user has already received a copy of these
- materials or that you have already sent this user a copy.
-
- For an executable, the required form of the "work that uses the
-Library" must include any data and utility programs needed for
-reproducing the executable from it. However, as a special exception,
-the materials to be distributed need not include anything that is
-normally distributed (in either source or binary form) with the major
-components (compiler, kernel, and so on) of the operating system on
-which the executable runs, unless that component itself accompanies
-the executable.
-
- It may happen that this requirement contradicts the license
-restrictions of other proprietary libraries that do not normally
-accompany the operating system. Such a contradiction means you cannot
-use both them and the Library together in an executable that you
-distribute.
-
- 7. You may place library facilities that are a work based on the
-Library side-by-side in a single library together with other library
-facilities not covered by this License, and distribute such a combined
-library, provided that the separate distribution of the work based on
-the Library and of the other library facilities is otherwise
-permitted, and provided that you do these two things:
-
- a) Accompany the combined library with a copy of the same work
- based on the Library, uncombined with any other library
- facilities. This must be distributed under the terms of the
- Sections above.
-
- b) Give prominent notice with the combined library of the fact
- that part of it is a work based on the Library, and explaining
- where to find the accompanying uncombined form of the same work.
-
- 8. You may not copy, modify, sublicense, link with, or distribute
-the Library except as expressly provided under this License. Any
-attempt otherwise to copy, modify, sublicense, link with, or
-distribute the Library is void, and will automatically terminate your
-rights under this License. However, parties who have received copies,
-or rights, from you under this License will not have their licenses
-terminated so long as such parties remain in full compliance.
-
- 9. You are not required to accept this License, since you have not
-signed it. However, nothing else grants you permission to modify or
-distribute the Library or its derivative works. These actions are
-prohibited by law if you do not accept this License. Therefore, by
-modifying or distributing the Library (or any work based on the
-Library), you indicate your acceptance of this License to do so, and
-all its terms and conditions for copying, distributing or modifying
-the Library or works based on it.
-
- 10. Each time you redistribute the Library (or any work based on the
-Library), the recipient automatically receives a license from the
-original licensor to copy, distribute, link with or modify the Library
-subject to these terms and conditions. You may not impose any further
-restrictions on the recipients' exercise of the rights granted herein.
-You are not responsible for enforcing compliance by third parties with
-this License.
-
- 11. If, as a consequence of a court judgment or allegation of patent
-infringement or for any other reason (not limited to patent issues),
-conditions are imposed on you (whether by court order, agreement or
-otherwise) that contradict the conditions of this License, they do not
-excuse you from the conditions of this License. If you cannot
-distribute so as to satisfy simultaneously your obligations under this
-License and any other pertinent obligations, then as a consequence you
-may not distribute the Library at all. For example, if a patent
-license would not permit royalty-free redistribution of the Library by
-all those who receive copies directly or indirectly through you, then
-the only way you could satisfy both it and this License would be to
-refrain entirely from distribution of the Library.
-
-If any portion of this section is held invalid or unenforceable under
-any particular circumstance, the balance of the section is intended to
-apply, and the section as a whole is intended to apply in other
-circumstances.
-
-It is not the purpose of this section to induce you to infringe any
-patents or other property right claims or to contest validity of any
-such claims; this section has the sole purpose of protecting the
-integrity of the free software distribution system which is
-implemented by public license practices. Many people have made
-generous contributions to the wide range of software distributed
-through that system in reliance on consistent application of that
-system; it is up to the author/donor to decide if he or she is willing
-to distribute software through any other system and a licensee cannot
-impose that choice.
-
-This section is intended to make thoroughly clear what is believed to
-be a consequence of the rest of this License.
-
- 12. If the distribution and/or use of the Library is restricted in
-certain countries either by patents or by copyrighted interfaces, the
-original copyright holder who places the Library under this License
-may add an explicit geographical distribution limitation excluding those
-countries, so that distribution is permitted only in or among
-countries not thus excluded. In such case, this License incorporates
-the limitation as if written in the body of this License.
-
- 13. The Free Software Foundation may publish revised and/or new
-versions of the Lesser General Public License from time to time.
-Such new versions will be similar in spirit to the present version,
-but may differ in detail to address new problems or concerns.
-
-Each version is given a distinguishing version number. If the Library
-specifies a version number of this License which applies to it and
-"any later version", you have the option of following the terms and
-conditions either of that version or of any later version published by
-the Free Software Foundation. If the Library does not specify a
-license version number, you may choose any version ever published by
-the Free Software Foundation.
-
- 14. If you wish to incorporate parts of the Library into other free
-programs whose distribution conditions are incompatible with these,
-write to the author to ask for permission. For software which is
-copyrighted by the Free Software Foundation, write to the Free
-Software Foundation; we sometimes make exceptions for this. Our
-decision will be guided by the two goals of preserving the free status
-of all derivatives of our free software and of promoting the sharing
-and reuse of software generally.
-
- NO WARRANTY
-
- 15. BECAUSE THE LIBRARY IS LICENSED FREE OF CHARGE, THERE IS NO
-WARRANTY FOR THE LIBRARY, TO THE EXTENT PERMITTED BY APPLICABLE LAW.
-EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR
-OTHER PARTIES PROVIDE THE LIBRARY "AS IS" WITHOUT WARRANTY OF ANY
-KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE
-IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
-PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE
-LIBRARY IS WITH YOU. SHOULD THE LIBRARY PROVE DEFECTIVE, YOU ASSUME
-THE COST OF ALL NECESSARY SERVICING, REPAIR OR CORRECTION.
-
- 16. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN
-WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY
-AND/OR REDISTRIBUTE THE LIBRARY AS PERMITTED ABOVE, BE LIABLE TO YOU
-FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR
-CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE
-LIBRARY (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING
-RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A
-FAILURE OF THE LIBRARY TO OPERATE WITH ANY OTHER SOFTWARE), EVEN IF
-SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH
-DAMAGES.
-
- END OF TERMS AND CONDITIONS
-
- How to Apply These Terms to Your New Libraries
-
- If you develop a new library, and you want it to be of the greatest
-possible use to the public, we recommend making it free software that
-everyone can redistribute and change. You can do so by permitting
-redistribution under these terms (or, alternatively, under the terms
-of the ordinary General Public License).
-
- To apply these terms, attach the following notices to the library.
-It is safest to attach them to the start of each source file to most
-effectively convey the exclusion of warranty; and each file should
-have at least the "copyright" line and a pointer to where the full
-notice is found.
-
-
- <one line to give the library's name and a brief idea of what it does.>
- Copyright (C) <year> <name of author>
-
- This library is free software; you can redistribute it and/or
- modify it under the terms of the GNU Lesser General Public
- License as published by the Free Software Foundation; either
- version 2.1 of the License, or (at your option) any later version.
-
- This library is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
- Lesser General Public License for more details.
-
- You should have received a copy of the GNU Lesser General Public
- License along with this library; if not, write to the Free Software
- Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
-
-Also add information on how to contact you by electronic and paper mail.
-
-You should also get your employer (if you work as a programmer) or
-your school, if any, to sign a "copyright disclaimer" for the library,
-if necessary. Here is a sample; alter the names:
-
- Yoyodyne, Inc., hereby disclaims all copyright interest in the
- library `Frob' (a library for tweaking knobs) written by James
- Random Hacker.
-
- <signature of Ty Coon>, 1 April 1990
- Ty Coon, President of Vice
-
-That's all there is to it!
-
-
diff --git a/doc/COPYRIGHT b/doc/COPYRIGHT
deleted file mode 100644
index 8124c53..0000000
--- a/doc/COPYRIGHT
+++ /dev/null
@@ -1,73 +0,0 @@
-Unless specified otherwise in the "exceptions section" below:
-
-Copyright (C) 1997-2003 Sistina Software, Inc. All rights reserved.
-Copyright (C) 2004-2011 Red Hat, Inc. All rights reserved.
-
-Exceptions:
-
-fence/agents/hds_cb/*:
- Copyright (C) 2012 Matthew Clark.
- Author: Matthew Clark <mattjclark0407 at hotmail.com>
-
-fence/agents/xenapi/*:
- Copyright (C) 2011 Matthew Clark.
- Author: Matthew Clark <mattjclark0407 at hotmail.com>
-
-fence/agents/apc_snmp/powernet369.mib:
- Copyright (c) 2005 American Power Conversion, Inc.
- PowerNet is a Trademark of American Power Conversion Corp.
-
-fence/agents/eaton_snmp/fence_eaton_snmp.py:
- Copyright (c) 2011 eaton.com
- Author: Arnaud Quette <ArnaudQuette at Eaton.com>
-
-fence/agents/ifmib/fence_ifmib.py:
- Copyright (C) 2008-2011 Ross Vandegrift.
- Written by Ross Vandegrift <ross at kallisti.us>
-
-fence/agents/intelmodular/fence_intelmodular.pl:
- Contributed by Matthew Kent <matt at bravenet.com>
-
-fence/agents/ipmilan/expect.{c,h}:
- Copyright (C) 2000 Alan Robertson <alanr at unix.sh>
-
-fence/agents/node_assassin/*
- Copyright (C) 2009-2011 Madison Kelly/Alteeve's Niche!
- Author: Digimer <digimer at alteeve.com>
-
-fence/man/fence_ifmib.8:
- Copyright (C) 2008-2011 Ross Vandegrift.
- Written by Ross Vandegrift <ross at kallisti.us>
-
-Authors as known by current RCS as of the time of writing:
-
-Abhijith Das <adas at redhat.com>
-Adam Manthei <amanthei at redhat.com>
-A. J. Lewis <alewis at redhat.com>
-Alasdair G. Kergon <agk at redhat.com>
-Andrew Price <andy at andrewprice.me.uk>
-Benjamin Marzinski <bmarzins at redhat.com>
-Bob Peterson <rpeterso at redhat.com>
-Chris Feist <cfeist at redhat.com>
-Christine Caulfield <ccaulfie at redhat.com>
-Daniel Phillips <phillips at redhat.com>
-David Teigland <teigland at redhat.com>
-Fabio M. Di Nitto <fdinitto at redhat.com>
-James Parsons <jparsons at redhat.com>
-Joel Becker <joel.becker at oracle.com>
-Jonathan Brassow <jbrassow at redhat.com>
-jparsons <jparsons at redhat.com>
-Ken Preslan <kpreslan at redhat.com>
-Lon Hohberger <lhh at redhat.com>
-Marc - A. Dahlhaus <mad at wol.de>
-Marek 'marx' Grac <mgrac at redhat.com>
-Mark Hlawatschek <hlawatschek at atix.de>
-Michael Conrad Tadpol Tilstra <mtilstra at redhat.com>
-Patrick Caulfield <pcaulfie at redhat.com>
-Robert Peterson <rpeterso at redhat.com>
-Ross Vandegrift <ross at kallisti.us>
-Ryan McCabe <rmccabe at redhat.com>
-Ryan O'Hara <rohara at redhat.com>
-Stanko Kupcevic <kupcevic at redhat.com>
-Steven Whitehouse <swhiteho at redhat.com>
-Wendy Cheng <wcheng at redhat.com>
diff --git a/doc/Makefile.am b/doc/Makefile.am
deleted file mode 100644
index 13035fc..0000000
--- a/doc/Makefile.am
+++ /dev/null
@@ -1,6 +0,0 @@
-MAINTAINERCLEANFILES = Makefile.in
-
-dist_doc_DATA = COPYING.applications \
- COPYING.libraries \
- COPYRIGHT \
- README.licence
diff --git a/doc/README.licence b/doc/README.licence
deleted file mode 100644
index 075aa77..0000000
--- a/doc/README.licence
+++ /dev/null
@@ -1,33 +0,0 @@
-The Red Hat Cluster is a collection of free software built on top of different
-libraries and applications.
-
-For a detailed list of authors and copyright holders, please check the
-included COPYRIGHT file.
-
-Libraries:
-
-You can redistribute them and/or modify them under the terms of the GNU Lesser
-General Public License as published by the Free Software Foundation; either
-version 2.1 of the License, or (at your option) any later version.
-
-The libraries are distributed in the hope that they will be useful, but WITHOUT
-ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
-FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
-details.
-
-Applications:
-
-You can redistribute them and/or modify them under the terms of the GNU General
-Public License as published by the Free Software Foundation; either version
-2 of the License, or (at your option) any later version.
-
-The applications are distributed in the hope that they will be useful, but
-WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
-FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
-details.
-
-A copy of each license is included for your convenience in COPYING.applications
-and COPYING.libraries.
-
-If missing, write to the Free Software Foundation, Inc., 51 Franklin St,
-Fifth Floor, Boston, MA 02110-1301 USA.
diff --git a/fence/Makefile.am b/fence/Makefile.am
deleted file mode 100644
index 43fc1a0..0000000
--- a/fence/Makefile.am
+++ /dev/null
@@ -1,3 +0,0 @@
-MAINTAINERCLEANFILES = Makefile.in
-
-SUBDIRS = agents
diff --git a/fence/agents/Makefile.am b/fence/agents/Makefile.am
deleted file mode 100644
index 3b76b9a..0000000
--- a/fence/agents/Makefile.am
+++ /dev/null
@@ -1,3 +0,0 @@
-MAINTAINERCLEANFILES = Makefile.in
-
-SUBDIRS = $(AGENTS_LIST)
diff --git a/fence/agents/alom/Makefile.am b/fence/agents/alom/Makefile.am
deleted file mode 100644
index 1051726..0000000
--- a/fence/agents/alom/Makefile.am
+++ /dev/null
@@ -1,17 +0,0 @@
-MAINTAINERCLEANFILES = Makefile.in
-
-TARGET = fence_alom
-
-SRC = $(TARGET).py
-
-EXTRA_DIST = $(SRC)
-
-sbin_SCRIPTS = $(TARGET)
-
-man_MANS = $(TARGET).8
-
-FENCE_TEST_ARGS = -l test -p test -a test
-
-include $(top_srcdir)/make/fencebuild.mk
-include $(top_srcdir)/make/fenceman.mk
-include $(top_srcdir)/make/agentpycheck.mk
diff --git a/fence/agents/alom/fence_alom.py b/fence/agents/alom/fence_alom.py
deleted file mode 100644
index 1e95ac4..0000000
--- a/fence/agents/alom/fence_alom.py
+++ /dev/null
@@ -1,59 +0,0 @@
-#!/usr/bin/python -tt
-
-# The Following Agent Has Been Tested On:
-#
-# Sun(tm) Advanced Lights Out Manager CMT v1.6.1
-# as found on SUN T2000 Niagara
-
-import sys, re, time
-import atexit
-sys.path.append("@FENCEAGENTSLIBDIR@")
-from fencing import *
-
-#BEGIN_VERSION_GENERATION
-RELEASE_VERSION="Sun Advanced Lights Out Manager (ALOM)"
-REDHAT_COPYRIGHT=""
-BUILD_DATE=""
-#END_VERSION_GENERATION
-
-def get_power_status(conn, options):
- conn.send_eol("showplatform")
- conn.log_expect(options["--command-prompt"], int(options["--shell-timeout"]))
- status = re.search("standby", conn.before.lower())
- result = (status != None and "off" or "on")
-
- return result
-
-def set_power_status(conn, options):
- cmd_line = (options["--action"] == "on" and "poweron" or "poweroff -f -y")
- conn.send_eol(cmd_line)
- conn.log_expect(options["--command-prompt"], int(options["--power-timeout"]))
- # Get the machine some time between poweron and poweroff
- time.sleep(int(options["--power-timeout"]))
-
-def main():
- device_opt = ["ipaddr", "login", "passwd", "cmd_prompt", "secure"]
-
- atexit.register(atexit_handler)
-
- all_opt["secure"]["default"] = "1"
- all_opt["cmd_prompt"]["default"] = [r"sc\>\ "]
-
- options = check_input(device_opt, process_input(device_opt))
- options["telnet_over_ssh"] = 1
-
- docs = {}
- docs["shortdesc"] = "Fence agent for Sun ALOM"
- docs["longdesc"] = "fence_alom is an I/O Fencing \
-agent which can be used with ALOM connected machines."
- docs["vendorurl"] = "http://www.sun.com"
- show_docs(options, docs)
-
- # Operate the fencing device
- conn = fence_login(options)
- result = fence_action(conn, options, set_power_status, get_power_status, None)
- fence_logout(conn, "logout")
- sys.exit(result)
-
-if __name__ == "__main__":
- main()
diff --git a/fence/agents/amt/Makefile.am b/fence/agents/amt/Makefile.am
deleted file mode 100644
index 5237f87..0000000
--- a/fence/agents/amt/Makefile.am
+++ /dev/null
@@ -1,17 +0,0 @@
-MAINTAINERCLEANFILES = Makefile.in
-
-TARGET = fence_amt
-
-SRC = $(TARGET).py
-
-EXTRA_DIST = $(SRC)
-
-sbin_SCRIPTS = $(TARGET)
-
-man_MANS = $(TARGET).8
-
-FENCE_TEST_ARGS = -p test -a test
-
-include $(top_srcdir)/make/fencebuild.mk
-include $(top_srcdir)/make/fenceman.mk
-include $(top_srcdir)/make/agentpycheck.mk
diff --git a/fence/agents/amt/fence_amt.py b/fence/agents/amt/fence_amt.py
deleted file mode 100644
index 5ec785a..0000000
--- a/fence/agents/amt/fence_amt.py
+++ /dev/null
@@ -1,119 +0,0 @@
-#!/usr/bin/python -tt
-
-import sys, re, os
-import atexit
-from pipes import quote
-sys.path.append("@FENCEAGENTSLIBDIR@")
-from fencing import *
-from fencing import fail_usage, is_executable, run_command, run_delay
-
-#BEGIN_VERSION_GENERATION
-RELEASE_VERSION="Fence agent for Intel AMT"
-REDHAT_COPYRIGHT=""
-BUILD_DATE=""
-#END_VERSION_GENERATION
-
-def get_power_status(_, options):
- output = amt_run_command(options, create_command(options, "status"))
- match = re.search('Powerstate:[\\s]*(..)', str(output))
- status = match.group(1) if match else None
-
- if status == None:
- return "fail"
- elif status == "S0": # SO = on; S3 = sleep; S5 = off
- return "on"
- else:
- return "off"
-
-def set_power_status(_, options):
- amt_run_command(options, create_command(options, options["--action"]))
- return
-
-def reboot_cycle(_, options):
- (status, _, _) = run_command(options, create_command(options, "cycle"))
- return not bool(status)
-
-def amt_run_command(options, command, timeout=None):
- env = os.environ.copy()
- env["AMT_PASSWORD"] = quote(options["--password"])
- return run_command(options, command, timeout, env)
-
-def create_command(options, action):
- cmd = options["--amttool-path"]
-
- # --ip / -a
- cmd += " " + options["--ip"]
-
- # --action / -o
- if action == "status":
- cmd += " info"
- elif action == "on":
- cmd = "echo \"y\"|" + cmd
- cmd += " powerup"
- elif action == "off":
- cmd = "echo \"y\"|" + cmd
- cmd += " powerdown"
- elif action == "cycle":
- cmd = "echo \"y\"|" + cmd
- cmd += " powercycle"
- if action in ["on", "off", "cycle"] and options.has_key("--boot-option"):
- cmd += options["--boot-option"]
-
- # --use-sudo / -d
- if options.has_key("--use-sudo"):
- cmd = options["--sudo-path"] + " " + cmd
-
- return cmd
-
-def define_new_opts():
- all_opt["boot_option"] = {
- "getopt" : "b:",
- "longopt" : "boot-option",
- "help" : "-b, --boot-option=[option] "
- "Change the default boot behavior of the machine. (pxe|hd|hdsafe|cd|diag)",
- "required" : "0",
- "shortdesc" : "Change the default boot behavior of the machine.",
- "choices" : ["pxe", "hd", "hdsafe", "cd", "diag"],
- "order" : 1
- }
- all_opt["amttool_path"] = {
- "getopt" : ":",
- "longopt" : "amttool-path",
- "help" : "--amttool-path=[path] Path to amttool binary",
- "required" : "0",
- "shortdesc" : "Path to amttool binary",
- "default" : "@AMTTOOL_PATH@",
- "order": 200
- }
-
-def main():
- atexit.register(atexit_handler)
-
- device_opt = ["ipaddr", "no_login", "passwd", "boot_option", "no_port",
- "sudo", "amttool_path", "method"]
-
- define_new_opts()
-
- all_opt["ipport"]["default"] = "16994"
-
- options = check_input(device_opt, process_input(device_opt))
-
- docs = {}
- docs["shortdesc"] = "Fence agent for AMT"
- docs["longdesc"] = "fence_amt is an I/O Fencing agent \
-which can be used with Intel AMT. This agent calls support software amttool\
-(http://www.kraxel.org/cgit/amtterm/)."
- docs["vendorurl"] = "http://www.intel.com/"
- show_docs(options, docs)
-
- run_delay(options)
-
- if not is_executable(options["--amttool-path"]):
- fail_usage("Amttool not found or not accessible")
-
- result = fence_action(None, options, set_power_status, get_power_status, None, reboot_cycle)
-
- sys.exit(result)
-
-if __name__ == "__main__":
- main()
diff --git a/fence/agents/apc/Makefile.am b/fence/agents/apc/Makefile.am
deleted file mode 100644
index 051ac24..0000000
--- a/fence/agents/apc/Makefile.am
+++ /dev/null
@@ -1,17 +0,0 @@
-MAINTAINERCLEANFILES = Makefile.in
-
-TARGET = fence_apc
-
-SRC = $(TARGET).py
-
-EXTRA_DIST = $(SRC)
-
-sbin_SCRIPTS = $(TARGET)
-
-man_MANS = $(TARGET).8
-
-FENCE_TEST_ARGS = -l test -p test -a test -n 1
-
-include $(top_srcdir)/make/fencebuild.mk
-include $(top_srcdir)/make/fenceman.mk
-include $(top_srcdir)/make/agentpycheck.mk
diff --git a/fence/agents/apc/fence_apc.py b/fence/agents/apc/fence_apc.py
deleted file mode 100644
index 3307e4e..0000000
--- a/fence/agents/apc/fence_apc.py
+++ /dev/null
@@ -1,259 +0,0 @@
-#!/usr/bin/python -tt
-
-#####
-##
-## The Following Agent Has Been Tested On:
-##
-## Model Firmware
-## +---------------------------------------------+
-## AP7951 AOS v2.7.0, PDU APP v2.7.3
-## AP7941 AOS v3.5.7, PDU APP v3.5.6
-## AP9606 AOS v2.5.4, PDU APP v2.7.3
-##
-## @note: ssh is very slow on AP79XX devices protocol (1) and
-## cipher (des/blowfish) have to be defined
-#####
-
-import sys, re
-import atexit
-sys.path.append("@FENCEAGENTSLIBDIR@")
-from fencing import *
-from fencing import fail, fail_usage, EC_STATUS
-
-#BEGIN_VERSION_GENERATION
-RELEASE_VERSION="New APC Agent - test release on steroids"
-REDHAT_COPYRIGHT=""
-BUILD_DATE="March, 2008"
-#END_VERSION_GENERATION
-
-def get_power_status(conn, options):
- exp_result = 0
- outlets = {}
-
- conn.send_eol("1")
- conn.log_expect(options["--command-prompt"], int(options["--shell-timeout"]))
-
- version = 0
- admin = 0
- switch = 0
-
- if None != re.compile('.* MasterSwitch plus.*', re.IGNORECASE | re.S).match(conn.before):
- switch = 1
- if None != re.compile('.* MasterSwitch plus 2', re.IGNORECASE | re.S).match(conn.before):
- if not options.has_key("--switch"):
- fail_usage("Failed: You have to enter physical switch number")
- else:
- if not options.has_key("--switch"):
- options["--switch"] = "1"
-
- if None == re.compile('.*Outlet Management.*', re.IGNORECASE | re.S).match(conn.before):
- version = 2
- else:
- version = 3
-
- if None == re.compile('.*Outlet Control/Configuration.*', re.IGNORECASE | re.S).match(conn.before):
- admin = 0
- else:
- admin = 1
-
- if switch == 0:
- if version == 2:
- if admin == 0:
- conn.send_eol("2")
- else:
- conn.send_eol("3")
- else:
- conn.send_eol("2")
- conn.log_expect(options["--command-prompt"], int(options["--shell-timeout"]))
- conn.send_eol("1")
- else:
- conn.send_eol(options["--switch"])
-
- while True:
- exp_result = conn.log_expect(
- ["Press <ENTER>"] + options["--command-prompt"], int(options["--shell-timeout"]))
- lines = conn.before.split("\n")
- show_re = re.compile(r'(^|\x0D)\s*(\d+)- (.*?)\s+(ON|OFF)\s*')
- for line in lines:
- res = show_re.search(line)
- if res != None:
- outlets[res.group(2)] = (res.group(3), res.group(4))
- conn.send_eol("")
- if exp_result != 0:
- break
- conn.send(chr(03))
- conn.log_expect("- Logout", int(options["--shell-timeout"]))
- conn.log_expect(options["--command-prompt"], int(options["--shell-timeout"]))
-
- if ["list", "monitor"].count(options["--action"]) == 1:
- return outlets
- else:
- try:
- (_, status) = outlets[options["--plug"]]
- return status.lower().strip()
- except KeyError:
- fail(EC_STATUS)
-
-def set_power_status(conn, options):
- action = {
- 'on' : "1",
- 'off': "2"
- }[options["--action"]]
-
- conn.send_eol("1")
- conn.log_expect(options["--command-prompt"], int(options["--shell-timeout"]))
-
- version = 0
- admin2 = 0
- admin3 = 0
- switch = 0
-
- if None != re.compile('.* MasterSwitch plus.*', re.IGNORECASE | re.S).match(conn.before):
- switch = 1
- ## MasterSwitch has different schema for on/off actions
- action = {
- 'on' : "1",
- 'off': "3"
- }[options["--action"]]
- if None != re.compile('.* MasterSwitch plus 2', re.IGNORECASE | re.S).match(conn.before):
- if not options.has_key("--switch"):
- fail_usage("Failed: You have to enter physical switch number")
- else:
- if not options.has_key("--switch"):
- options["--switch"] = 1
-
- if None == re.compile('.*Outlet Management.*', re.IGNORECASE | re.S).match(conn.before):
- version = 2
- else:
- version = 3
-
- if None == re.compile('.*Outlet Control/Configuration.*', re.IGNORECASE | re.S).match(conn.before):
- admin2 = 0
- else:
- admin2 = 1
-
- if switch == 0:
- if version == 2:
- if admin2 == 0:
- conn.send_eol("2")
- else:
- conn.send_eol("3")
- else:
- conn.send_eol("2")
- conn.log_expect(options["--command-prompt"], int(options["--shell-timeout"]))
- if None == re.compile('.*2- Outlet Restriction.*', re.IGNORECASE | re.S).match(conn.before):
- admin3 = 0
- else:
- admin3 = 1
- conn.send_eol("1")
- else:
- conn.send_eol(options["--switch"])
-
- while 0 == conn.log_expect(
- ["Press <ENTER>"] + options["--command-prompt"], int(options["--shell-timeout"])):
- conn.send_eol("")
-
- conn.send_eol(options["--plug"]+"")
- conn.log_expect(options["--command-prompt"], int(options["--shell-timeout"]))
-
- if switch == 0:
- if admin2 == 1:
- conn.send_eol("1")
- conn.log_expect(options["--command-prompt"], int(options["--shell-timeout"]))
- if admin3 == 1:
- conn.send_eol("1")
- conn.log_expect(options["--command-prompt"], int(options["--shell-timeout"]))
- else:
- conn.send_eol("1")
- conn.log_expect(options["--command-prompt"], int(options["--shell-timeout"]))
-
- conn.send_eol(action)
- conn.log_expect("Enter 'YES' to continue or <ENTER> to cancel :", int(options["--shell-timeout"]))
- conn.send_eol("YES")
- conn.log_expect("Press <ENTER> to continue...", int(options["--power-timeout"]))
- conn.send_eol("")
- conn.log_expect(options["--command-prompt"], int(options["--power-timeout"]))
- conn.send(chr(03))
- conn.log_expect("- Logout", int(options["--shell-timeout"]))
- conn.log_expect(options["--command-prompt"], int(options["--shell-timeout"]))
-
-def get_power_status5(conn, options):
- outlets = {}
-
- conn.send_eol("olStatus all")
-
- conn.log_expect(options["--command-prompt"], int(options["--shell-timeout"]))
- lines = conn.before.split("\n")
-
- show_re = re.compile(r'^\s*(\d+): (.*): (On|Off)\s*$', re.IGNORECASE)
-
- for line in lines:
- res = show_re.search(line)
- if res != None:
- outlets[res.group(1)] = (res.group(2), res.group(3))
-
- if ["list", "monitor"].count(options["--action"]) == 1:
- return outlets
- else:
- try:
- (_, status) = outlets[options["--plug"]]
- return status.lower().strip()
- except KeyError:
- fail(EC_STATUS)
-
-def set_power_status5(conn, options):
- action = {
- 'on' : "olOn",
- 'off': "olOff"
- }[options["--action"]]
-
- conn.send_eol(action + " " + options["--plug"])
- conn.log_expect(options["--command-prompt"], int(options["--power-timeout"]))
-
-def main():
- device_opt = ["ipaddr", "login", "passwd", "cmd_prompt", "secure", \
- "port", "switch", "telnet"]
-
- atexit.register(atexit_handler)
-
- all_opt["cmd_prompt"]["default"] = ["\n>", "\napc>"]
- all_opt["ssh_options"]["default"] = "-1 -c blowfish"
-
- options = check_input(device_opt, process_input(device_opt))
-
- docs = {}
- docs["shortdesc"] = "Fence agent for APC over telnet/ssh"
- docs["longdesc"] = "fence_apc is an I/O Fencing agent \
-which can be used with the APC network power switch. It logs into device \
-via telnet/ssh and reboots a specified outlet. Lengthy telnet/ssh connections \
-should be avoided while a GFS cluster is running because the connection \
-will block any necessary fencing actions."
- docs["vendorurl"] = "http://www.apc.com"
- show_docs(options, docs)
-
- ## Support for --plug [switch]:[plug] notation that was used before
- if (options.has_key("--plug") == 1) and (-1 != options["--plug"].find(":")):
- (switch, plug) = options["--plug"].split(":", 1)
- options["--switch"] = switch
- options["--plug"] = plug
-
- ##
- ## Operate the fencing device
- ####
- conn = fence_login(options)
-
- ## Detect firmware version (ASCII menu vs command-line interface)
- ## and continue with proper action
- ####
- result = -1
- firmware_version = re.compile(r'\s*v(\d)*\.').search(conn.before)
- if (firmware_version != None) and (firmware_version.group(1) == "5"):
- result = fence_action(conn, options, set_power_status5, get_power_status5, get_power_status5)
- else:
- result = fence_action(conn, options, set_power_status, get_power_status, get_power_status)
-
- fence_logout(conn, "4")
- sys.exit(result)
-
-if __name__ == "__main__":
- main()
diff --git a/fence/agents/apc_snmp/Makefile.am b/fence/agents/apc_snmp/Makefile.am
deleted file mode 100644
index 258863c..0000000
--- a/fence/agents/apc_snmp/Makefile.am
+++ /dev/null
@@ -1,24 +0,0 @@
-MAINTAINERCLEANFILES = Makefile.in
-
-TARGET = fence_apc_snmp
-
-SYMTARGET = fence_tripplite_snmp
-
-SRC = $(TARGET).py
-
-EXTRA_DIST = $(SRC) \
- powernet369.mib \
- README
-
-sbin_SCRIPTS = $(TARGET) $(SYMTARGET)
-
-man_MANS = $(TARGET).8 $(SYMTARGET).8
-
-FENCE_TEST_ARGS = -l test -p test -a test -n 1
-
-include $(top_srcdir)/make/fencebuild.mk
-include $(top_srcdir)/make/fenceman.mk
-include $(top_srcdir)/make/agentpycheck.mk
-
-$(SYMTARGET): $(TARGET)
- cp $^ $@
diff --git a/fence/agents/apc_snmp/README b/fence/agents/apc_snmp/README
deleted file mode 100644
index 75aa37a..0000000
--- a/fence/agents/apc_snmp/README
+++ /dev/null
@@ -1,45 +0,0 @@
-This is an snmp based fence agent for APC power switches to be used
-with RHEL4 Red Hat Cluster Suite.
-
-The reasons to use this agent rather than the current fence_apc agent are:
-1) This script has been tested with EVERY powerswitch that APC currently
-makes.
-2) It will work on many older models that are no longer supported by APC.
-I have been told that it even works with the AP9200 switch. Older switches
-usually don't do well with the fence_apc script.
-3) This agent works with large power switches that have more than 8 outlets.
-The fence_apc script will also, in the next update -- this script will work for you now.
-
-If feedback on this beta version of the agent is good, and if ganged switches
-can be supported, then this agent may replace fence_apc.
-
-In order to use this agent, you will need to have net-snmp-utils installed
-on every node in your cluster. net-snmp-utils is scheduled for inclusion
-in the base RHEL distribution for Update 4, and is yummable in FC5.
-
-After net-snmp-utils is installed, there will be a directory named:
-/usr/share/snmp/mibs/
-
-Place the accompanying powernet369.mib file in this directory.
-
-To use the agent, cp the agent to the /sbin directory on every
-cluster node. The interface for the fence_apc_snmp agent is identical to
-the existing fence_apc agent, so if you are using APC for fencing in
-your cluster, you *could* backup your current fence_apc agent, and
-rename this agent from fence_apc_snmp to fence_apc, and it should just work.
-
-NOTE: The fence_apc_snmp agent does not yet support ganged or 'daisy-chained'
-APC switches.
-
-If you would rather not copy over your fence_apc agent, you can still use
-the fence_apc_snmp agent by dropping it into /sbin on every node, and then
-defining a <fencedevice> in the cluster.conf file with agent="fence_apc_snmp"
-as an attribute, and use it that way. Note, please, that the GUI does
-not support this agent yet, and you will have to edit your cluster.conf
-by hand and then propagate it yourself. If you need help with this, email
-me on linux-cluster or at the address below.
-
-Big thanks to Nate Straz who laid the foundation for this agent.
-
-Please let me know how this agent works.
---Jim Parsons - jparsons(a)redhat.com
diff --git a/fence/agents/apc_snmp/fence_apc_snmp.py b/fence/agents/apc_snmp/fence_apc_snmp.py
deleted file mode 100644
index 8bb3d48..0000000
--- a/fence/agents/apc_snmp/fence_apc_snmp.py
+++ /dev/null
@@ -1,223 +0,0 @@
-#!/usr/bin/python -tt
-
-# The Following agent has been tested on:
-# - APC Switched Rack PDU - SNMP v1
-# (MB:v3.7.0 PF:v2.7.0 PN:apc_hw02_aos_270.bin AF1:v2.7.3
-# AN1:apc_hw02_aos_270.bin AF1:v2.7.3 AN1:apc_hw02_rpdu_273.bin MN:AP7930 HR:B2)
-# - APC Web/SNMP Management Card - SNMP v1 and v3 (noAuthNoPrivacy,authNoPrivacy, authPrivacy)
-# (MB:v3.8.6 PF:v3.5.8 PN:apc_hw02_aos_358.bin AF1:v3.5.7
-# AN1:apc_hw02_aos_358.bin AF1:v3.5.7 AN1:apc_hw02_rpdu_357.bin MN:AP7900 HR:B2)
-# - APC Switched Rack PDU - SNMP v1
-# (MB:v3.7.0 PF:v2.7.0 PN:apc_hw02_aos_270.bin AF1:v2.7.3
-# AN1:apc_hw02_rpdu_273.bin MN:AP7951 HR:B2)
-# - Tripplite PDUMH20HVNET 12.04.0055 - SNMP v1, v2c, v3
-
-import sys
-import atexit
-import logging
-sys.path.append("@FENCEAGENTSLIBDIR@")
-from fencing import *
-from fencing import fail_usage
-from fencing_snmp import FencingSnmp
-
-#BEGIN_VERSION_GENERATION
-RELEASE_VERSION="APC SNMP fence agent"
-REDHAT_COPYRIGHT=""
-BUILD_DATE=""
-#END_VERSION_GENERATION
-
-### CONSTANTS ###
-# oid defining fence device
-OID_SYS_OBJECT_ID = '.1.3.6.1.2.1.1.2.0'
-
-### GLOBAL VARIABLES ###
-# Device - see ApcRPDU, ApcMSP, ApcMS, TripplitePDU
-device = None
-
-# Port ID
-port_id = None
-# Switch ID
-switch_id = None
-
-# Classes describing Device params
-class TripplitePDU(object):
- # Rack PDU
- status_oid = '.1.3.6.1.4.1.850.10.2.3.5.1.2.1.%d'
- control_oid = '.1.3.6.1.4.1.850.10.2.3.5.1.4.1.%d'
- outlet_table_oid = '.1.3.6.1.4.1.850.10.2.3.5.1.5'
- ident_str = "Tripplite"
- state_on = 2
- state_off = 1
- turn_on = 2
- turn_off = 1
- has_switches = False
-
-class ApcRPDU(object):
- # Rack PDU
- status_oid = '.1.3.6.1.4.1.318.1.1.12.3.5.1.1.4.%d'
- control_oid = '.1.3.6.1.4.1.318.1.1.12.3.3.1.1.4.%d'
- outlet_table_oid = '.1.3.6.1.4.1.318.1.1.12.3.5.1.1.2'
- ident_str = "APC rPDU"
- state_on = 1
- state_off = 2
- turn_on = 1
- turn_off = 2
- has_switches = False
-
-class ApcMSP(object):
- # Master Switch+
- status_oid = '.1.3.6.1.4.1.318.1.1.6.7.1.1.5.%d.1.%d'
- control_oid = '.1.3.6.1.4.1.318.1.1.6.5.1.1.5.%d.1.%d'
- outlet_table_oid = '.1.3.6.1.4.1.318.1.1.6.7.1.1.4'
- ident_str = "APC Master Switch+"
- state_on = 1
- state_off = 2
- turn_on = 1
- turn_off = 3
- has_switches = True
-
-class ApcMS(object):
- # Master Switch - seems oldest, but supported on every APC PDU
- status_oid = '.1.3.6.1.4.1.318.1.1.4.4.2.1.3.%d'
- control_oid = '.1.3.6.1.4.1.318.1.1.4.4.2.1.3.%d'
- outlet_table_oid = '.1.3.6.1.4.1.318.1.1.4.4.2.1.4'
- ident_str = "APC Master Switch (fallback)"
- state_on = 1
- state_off = 2
- turn_on = 1
- turn_off = 2
- has_switches = False
-
-class ApcMS6(object):
- # Master Switch with 6.x firmware
- status_oid = '.1.3.6.1.4.1.318.1.1.4.4.2.1.3.%d'
- control_oid = '.1.3.6.1.4.1.318.1.1.12.3.3.1.1.4.%d'
- outlet_table_oid = '1.3.6.1.4.1.318.1.1.4.4.2.1.4'
- ident_str = "APC Master Switch with firmware v6.x"
- state_on = 1
- state_off = 2
- turn_on = 1
- turn_off = 2
- has_switches = False
-
-### FUNCTIONS ###
-def apc_set_device(conn):
- global device
-
- agents_dir = {'.1.3.6.1.4.1.318.1.3.4.5':ApcRPDU,
- '.1.3.6.1.4.1.318.1.3.4.4':ApcMSP,
- '.1.3.6.1.4.1.850.1':TripplitePDU,
- '.1.3.6.1.4.1.318.1.3.4.6':ApcMS6,
- None:ApcMS}
-
- # First resolve type of APC
- apc_type = conn.walk(OID_SYS_OBJECT_ID)
-
- if not ((len(apc_type) == 1) and (agents_dir.has_key(apc_type[0][1]))):
- apc_type = [[None, None]]
-
- device = agents_dir[apc_type[0][1]]
-
- logging.debug("Trying %s"%(device.ident_str))
-
-def apc_resolv_port_id(conn, options):
- global port_id, switch_id
-
- if device == None:
- apc_set_device(conn)
-
- # Now we resolv port_id/switch_id
- if (options["--plug"].isdigit()) and ((not device.has_switches) or (options["--switch"].isdigit())):
- port_id = int(options["--plug"])
-
- if device.has_switches:
- switch_id = int(options["--switch"])
- else:
- table = conn.walk(device.outlet_table_oid, 30)
-
- for x in table:
- if x[1].strip('"') == options["--plug"]:
- t = x[0].split('.')
- if device.has_switches:
- port_id = int(t[len(t)-1])
- switch_id = int(t[len(t)-3])
- else:
- port_id = int(t[len(t)-1])
-
- if port_id == None:
- fail_usage("Can't find port with name %s!"%(options["--plug"]))
-
-def get_power_status(conn, options):
- if port_id == None:
- apc_resolv_port_id(conn, options)
-
- oid = ((device.has_switches) and device.status_oid%(switch_id, port_id) or device.status_oid%(port_id))
-
- (oid, status) = conn.get(oid)
- return status == str(device.state_on) and "on" or "off"
-
-def set_power_status(conn, options):
- if port_id == None:
- apc_resolv_port_id(conn, options)
-
- oid = ((device.has_switches) and device.control_oid%(switch_id, port_id) or device.control_oid%(port_id))
-
- conn.set(oid, (options["--action"] == "on" and device.turn_on or device.turn_off))
-
-
-def get_outlets_status(conn, options):
- result = {}
-
- if device == None:
- apc_set_device(conn)
-
- res_ports = conn.walk(device.outlet_table_oid, 30)
-
- for x in res_ports:
- t = x[0].split('.')
-
- port_num = ((device.has_switches) and "%s:%s"%(t[len(t)-3], t[len(t)-1]) or "%s"%(t[len(t)-1]))
-
- port_name = x[1].strip('"')
- port_status = ""
- result[port_num] = (port_name, port_status)
-
- return result
-
-# Main agent method
-def main():
- device_opt = ["ipaddr", "login", "passwd", "no_login", "no_password", \
- "port", "snmp_version", "snmp"]
-
- atexit.register(atexit_handler)
-
- all_opt["snmp_version"]["default"] = "1"
- all_opt["community"]["default"] = "private"
-
- options = check_input(device_opt, process_input(device_opt))
-
- ## Support for -n [switch]:[plug] notation that was used before
- if (options.has_key("--plug")) and (-1 != options["--plug"].find(":")):
- (switch, plug) = options["--plug"].split(":", 1)
- if switch.isdigit() and plug.isdigit():
- options["--switch"] = switch
- options["--plug"] = plug
-
- if not options.has_key("--switch"):
- options["--switch"] = "1"
-
- docs = {}
- docs["shortdesc"] = "Fence agent for APC, Tripplite PDU over SNMP"
- docs["longdesc"] = "fence_apc_snmp is an I/O Fencing agent \
-which can be used with the APC network power switch or Tripplite PDU devices.\
-It logs into a device via SNMP and reboots a specified outlet. It supports \
-SNMP v1, v2c, v3 with all combinations of authenticity/privacy settings."
- docs["vendorurl"] = "http://www.apc.com"
- show_docs(options, docs)
-
- # Operate the fencing device
- result = fence_action(FencingSnmp(options), options, set_power_status, get_power_status, get_outlets_status)
-
- sys.exit(result)
-if __name__ == "__main__":
- main()
diff --git a/fence/agents/apc_snmp/powernet369.mib b/fence/agents/apc_snmp/powernet369.mib
deleted file mode 100644
index ab948f8..0000000
--- a/fence/agents/apc_snmp/powernet369.mib
+++ /dev/null
@@ -1,31109 +0,0 @@
--- *************************************************************************
--- AMERICAN POWER CONVERSION PowerNet-MIB
--- *************************************************************************
--- Copyright (c) 2005 American Power Conversion, Inc.
--- PowerNet is a Trademark of American Power Conversion Corp.
---
--- Title: APC TOP LEVEL PowerNet MIB
---
--- Version : 3.6.9
---
--- Generated by script: tomib.awk
---
--- Input File: powernetPS.mib
---
--- Created: Wednesday, January, 26, 2005
---
--- Revision History:
--- *************************************************************************
-
--- - v3.2.0 Added functionality for MasterSwitch Plus
--- - v3.3.0 Added functionality for MX28B (dcDM3) and 3-phase UPS
--- - v3.3.2 New traps for Symmetra PX UPS
--- 07/15/01 - v3.4.0 Added transfer switch
--- - v3.4.3 Added functionality for External and Integrated Environmental Monitor
--- 06/14/02 - v3.4.4 Added dcmim2(Siemens) branch, Battery Manager(Reading) traps, and
--- Psx Traps for PDU and RM-PDU and Netlock branch/traps
--- 06/18/02 - v3.5.0a Sync Control Group support
--- 08/06/02 - v3.5.0a Environmental Management System branch/traps
--- 09/16/02 - v3.5.0b Fixed some odds/ends ... going to RM-PDU for MS additions
--- 09/25/02 - v3.5.0c MS3 additions
--- 11/05/02 - v3.5.0e More Environmental Management System/A-Link devices(ARU)
--- 11/22/02 - v3.5.0g Added General APC device status OID
--- 11/27/02 - v3.5.0h Wrapped up MS3 ((Controlled or Metered) Rack PDU) changes
--- 12/26/02 - v3.5.1a Changed MS3 name again, Controlled to Switched Rack PDU
--- 01/07/03 - v3.6.0a Added OIDs/Traps for UPS Switchable Outlet Groups.
--- 01/09/03 - Adding the General APC device discovery OIDs (hidden)
--- 01/28/03 - v3.6.0c Made some small trap pair fixes for Switched Rack PDU (MS3)
--- 02/13/03 - v3.6.0d Mods from the review and some EMS fixes.
--- Added OID for the new 20kVA Symmetra 3 Phase type.
--- Added OIDs to upsAdvConfig for Symmetra type UPSs.
--- Added upsDiagnostics branch OID for Symmetra module information.
--- 04/05/03 - v3.6.2 Added OID for the new Smart-UPS 7500 and 10000 types.
--- 06/04/03 - v3.6.3 Added OIDs/Traps for AirFM.
--- 06/24/03 - v3.6.4 Moved some AirFM temps and humidities from system level to module level.
--- 10/24/03 - v3.6.4a Added OIDs/Traps for xPDU.
--- 10/27/03 - v3.6.4f Added AirPA OIDs.
--- 11/03/03 - v3.6.4g Merge of 3.6.4e and 3.6.4f
--- 11/07/03 - v3.6.4h Additional review corrections
--- 12/01/03 - v3.6.5a Added group OIDs for Air FM. Added C & F OIDs for Air PA setpoint.
--- 12/19/03 - v3.6.5b Review corrections.
--- 02/23/04 - v3.6.5c Added Modbus to experimental and multiple CB(bank) rPDU support
--- 05/05/04 - v3.6.6 Adding EMS status OID and trap for H/W issues, redefined duplicate
--- trap #228 (to ARU Device config change) and minor clean-up
--- 05/12/04 - v3.6.7a Added Air FM alarm status OIDs.
--- 06/03/04 - v3.6.7b Added UPS Config for Simple Signal Shutdowns and Number of External
--- batteries. Added Mute option to the UPS Config Audible Alarm.
--- 07/12/04 - v3.6.7d Removed Air FM alarm status OIDs due to delay in release.
--- 07/14/04 - v3.6.7d Added a detailed description to the UPSAdvConfigAlarm OID
--- 07/14/04 - v3.6.7e Added Custom Event traps
--- 08/04/04 - v3.6.7 Tag for final builds, see v3.6.7 beta build notes for changes
--- 08/26/04 - v3.6.8a Added new traps for UPS internal over temperature fault and cleared.
--- 09/01/04 - v3.6.8b Adding new thresholds for EMS probe config & status
--- 09/08/04 - v3.6.8c Corrections from MIB review.
--- 09/30/04 - v3.6.8d Added new traps for AIS ^F Message events.
--- 10/21/04 - v3.6.8e EMS. Added missing traps and new Rate functionality.
--- 10/22/04 - v3.6.8f Added resetNetworkLeaveModeAndRestart option to the mcontrolRestartAgent OID.
--- 10/28/04 - v3.6.8g Updated EMS sections from mib committee review.
--- 11/22/04 - v3.6.8 Tag for final build.
--- 12/02/04 - v3.6.9a Added OIDs and traps for BMS-HVA.
--- 12/20/04 - v3.6.9c corrections to xPDU.
--- 12/20/04 - v3.6.9c added OIDs and traps for xATS.
--- 01/03/05 - v3.6.9d removed traps for xATS.
--- 01/03/05 - v3.6.9e correction to xATS entries, that removed underscores (mib browser incompatibility)
--- 01/07/05 - v3.6.9f
--- 01/14/05 - v3.6.9g add xPDU OIDs and traps and some corrections.
--- 01/14/05 - v3.6.9g modifications to xATS OIDs and traps.
-
--- *************************************************************************
--- *************************************************************************
--- PowerNet-MIB { iso org(3) dod(6) internet(1) private(4)
--- enterprises(1) apc(318) }
-
-PowerNet-MIB DEFINITIONS ::= BEGIN
-
-IMPORTS
- enterprises, IpAddress, Gauge, TimeTicks FROM RFC1155-SMI
- DisplayString FROM RFC1213-MIB
- OBJECT-TYPE FROM RFC-1212
- TRAP-TYPE FROM RFC-1215;
-
-apc OBJECT IDENTIFIER ::= { enterprises 318 }
-
-products OBJECT IDENTIFIER ::= { apc 1 }
-apcmgmt OBJECT IDENTIFIER ::= { apc 2 }
-
-hardware OBJECT IDENTIFIER ::= { products 1 }
-software OBJECT IDENTIFIER ::= { products 2 }
-system OBJECT IDENTIFIER ::= { products 3 }
-experimental OBJECT IDENTIFIER ::= { products 4 }
-
-mconfig OBJECT IDENTIFIER ::= { apcmgmt 1 }
-mcontrol OBJECT IDENTIFIER ::= { apcmgmt 2 }
-mtrapargs OBJECT IDENTIFIER ::= { apcmgmt 3 }
-mfiletransfer OBJECT IDENTIFIER ::= { apcmgmt 4 }
-
-mconfigClock OBJECT IDENTIFIER ::= { mconfig 6 }
-
-mfiletransferStatus OBJECT IDENTIFIER ::= { mfiletransfer 1 }
-mfiletransferConfig OBJECT IDENTIFIER ::= { mfiletransfer 2 }
-mfiletransferControl OBJECT IDENTIFIER ::= { mfiletransfer 3 }
-
-mfiletransferConfigSettings OBJECT IDENTIFIER ::= { mfiletransferConfig 1 }
-mfiletransferConfigTFTP OBJECT IDENTIFIER ::= { mfiletransferConfig 2 }
-mfiletransferConfigFTP OBJECT IDENTIFIER ::= { mfiletransferConfig 3 }
-
-ups OBJECT IDENTIFIER ::= { hardware 1 }
-measureUps OBJECT IDENTIFIER ::= { hardware 2 }
-miniSNMPadapter OBJECT IDENTIFIER ::= { hardware 3 }
-masterswitch OBJECT IDENTIFIER ::= { hardware 4 }
-masterswitchVM OBJECT IDENTIFIER ::= { hardware 5 }
-masterswitchMSP OBJECT IDENTIFIER ::= { hardware 6 }
-dcDM3 OBJECT IDENTIFIER ::= { hardware 7 }
-automaticTransferSwitch OBJECT IDENTIFIER ::= { hardware 8 }
-dc2 OBJECT IDENTIFIER ::= { hardware 9 }
-environmentalMonitor OBJECT IDENTIFIER ::= { hardware 10 }
-netlock OBJECT IDENTIFIER ::= { hardware 11 }
-rPDU OBJECT IDENTIFIER ::= { hardware 12 }
-airConditioners OBJECT IDENTIFIER ::= { hardware 13 }
-rARU OBJECT IDENTIFIER ::= { hardware 14 }
-xPDU OBJECT IDENTIFIER ::= { hardware 15 }
-battMan OBJECT IDENTIFIER ::= { hardware 16 }
-xATS OBJECT IDENTIFIER ::= { hardware 17 }
-generator OBJECT IDENTIFIER ::= { hardware 18 }
-
-powerNetSubAgent OBJECT IDENTIFIER ::= { software 1 }
-
-powerNetSoftwareSystem OBJECT IDENTIFIER ::= { powerNetSubAgent 1 }
-powerNetSoftwareConfig OBJECT IDENTIFIER ::= { powerNetSubAgent 2 }
-
-backUPS OBJECT IDENTIFIER ::= { system 1 }
-smartUPS OBJECT IDENTIFIER ::= { system 2 }
-matrixUPS OBJECT IDENTIFIER ::= { system 3 }
-masterSwitch OBJECT IDENTIFIER ::= { system 4 }
-symmetraUPS OBJECT IDENTIFIER ::= { system 5 }
-dp100E OBJECT IDENTIFIER ::= { system 6 }
-dp300E OBJECT IDENTIFIER ::= { system 7 }
-monitors OBJECT IDENTIFIER ::= { system 8 }
-redundantSwitch OBJECT IDENTIFIER ::= { system 9 }
-dcPower OBJECT IDENTIFIER ::= { system 10 }
-automaticXferSwitch OBJECT IDENTIFIER ::= { system 11 }
-netLock OBJECT IDENTIFIER ::= { system 12 }
-symmetra3PhaseUPS OBJECT IDENTIFIER ::= { system 13 }
-networkAir OBJECT IDENTIFIER ::= { system 14 }
-infraXurePDU OBJECT IDENTIFIER ::= { system 15 }
-ais5000UPS OBJECT IDENTIFIER ::= { system 16 }
-smartUPS3Phase OBJECT IDENTIFIER ::= { system 17 }
-battManager OBJECT IDENTIFIER ::= { system 18 }
-infraXureATS OBJECT IDENTIFIER ::= { system 19 }
-
-battManIdent OBJECT IDENTIFIER ::= { battMan 1 }
-battManSystemCalib OBJECT IDENTIFIER ::= { battMan 2 }
-battManUnitCalib OBJECT IDENTIFIER ::= { battMan 3 }
-battManStringCalib OBJECT IDENTIFIER ::= { battMan 4 }
-battManBatteryCalib OBJECT IDENTIFIER ::= { battMan 5 }
-battManConfig OBJECT IDENTIFIER ::= { battMan 6 }
-battManAlarm OBJECT IDENTIFIER ::= { battMan 7 }
-battManSystemStatus OBJECT IDENTIFIER ::= { battMan 8 }
-battManStringStatus OBJECT IDENTIFIER ::= { battMan 9 }
-battManBatteryStatus OBJECT IDENTIFIER ::= { battMan 10 }
-battManInputContactStatus OBJECT IDENTIFIER ::= { battMan 11 }
-battManControl OBJECT IDENTIFIER ::= { battMan 12 }
-battManTestResults OBJECT IDENTIFIER ::= { battMan 13 }
-
-xPDUIdent OBJECT IDENTIFIER ::= { xPDU 1 }
-xPDUDevice OBJECT IDENTIFIER ::= { xPDU 2 }
-xPDUACMonitoringPoint OBJECT IDENTIFIER ::= { xPDU 3 }
-xPDUCircuitBreakers OBJECT IDENTIFIER ::= { xPDU 4 }
-xPDUInputContacts OBJECT IDENTIFIER ::= { xPDU 5 }
-xPDUOutputRelays OBJECT IDENTIFIER ::= { xPDU 6 }
-xPDUMiscGroup OBJECT IDENTIFIER ::= { xPDU 7 }
-
-xPDUMainInput OBJECT IDENTIFIER ::= { xPDUACMonitoringPoint 1 }
-xPDUBypassInput OBJECT IDENTIFIER ::= { xPDUACMonitoringPoint 2 }
-xPDUUPSInput OBJECT IDENTIFIER ::= { xPDUACMonitoringPoint 3 }
-xPDUSystemOutput OBJECT IDENTIFIER ::= { xPDUACMonitoringPoint 4 }
-xPDUGroundMonitorPoint OBJECT IDENTIFIER ::= { xPDUACMonitoringPoint 5 }
-
-xPDUSystemBreakers OBJECT IDENTIFIER ::= { xPDUCircuitBreakers 1 }
-xPDUBranchBreakers OBJECT IDENTIFIER ::= { xPDUCircuitBreakers 2 }
-
-xATSIdent OBJECT IDENTIFIER ::= { xATS 1 }
-xATSDevice OBJECT IDENTIFIER ::= { xATS 2 }
-xATSSwitch OBJECT IDENTIFIER ::= { xATS 3 }
-xATSACMonitoringPoint OBJECT IDENTIFIER ::= { xATS 4 }
-xATSTesting OBJECT IDENTIFIER ::= { xATS 5 }
-xATSInputContacts OBJECT IDENTIFIER ::= { xATS 6 }
-xATSOutputRelays OBJECT IDENTIFIER ::= { xATS 7 }
-xATSMisc OBJECT IDENTIFIER ::= { xATS 8 }
-
-xATSSwitchStatus OBJECT IDENTIFIER ::= { xATSSwitch 1 }
-xATSSwitchSettings OBJECT IDENTIFIER ::= { xATSSwitch 2 }
-xATSSwitchTimers OBJECT IDENTIFIER ::= { xATSSwitch 3 }
-xATSSwitchBlockMap OBJECT IDENTIFIER ::= { xATSSwitch 4 }
-xATSSwitchStatistics OBJECT IDENTIFIER ::= { xATSSwitch 5 }
-
-xATSSource1 OBJECT IDENTIFIER ::= { xATSACMonitoringPoint 1 }
-xATSSource2 OBJECT IDENTIFIER ::= { xATSACMonitoringPoint 2 }
-xATSSystemOutput OBJECT IDENTIFIER ::= { xATSACMonitoringPoint 3 }
-
-xATSTestingStatus OBJECT IDENTIFIER ::= { xATSTesting 1 }
-xATSTestingResults OBJECT IDENTIFIER ::= { xATSTesting 2 }
-xATSTestingSchedule OBJECT IDENTIFIER ::= { xATSTesting 3 }
-xATSTestingSimulatePowerFail OBJECT IDENTIFIER ::= { xATSTesting 4 }
-
-xATSGenerator OBJECT IDENTIFIER ::= { generator 1 }
-
-xATSGeneratorIdent OBJECT IDENTIFIER ::= { xATSGenerator 1 }
-xATSGeneratorStatus OBJECT IDENTIFIER ::= { xATSGenerator 2 }
-xATSGeneratorAdvStatus OBJECT IDENTIFIER ::= { xATSGenerator 3 }
-xATSGeneratorOutput OBJECT IDENTIFIER ::= { xATSGenerator 4 }
-xATSGeneratorSettings OBJECT IDENTIFIER ::= { xATSGenerator 5 }
-xATSGeneratorService OBJECT IDENTIFIER ::= { xATSGenerator 6 }
-xATSGeneratorFuelSystem OBJECT IDENTIFIER ::= { xATSGenerator 7 }
-
-
-smartUPS250 OBJECT IDENTIFIER ::= { smartUPS 1 }
-smartUPS400 OBJECT IDENTIFIER ::= { smartUPS 2 }
-smartUPS600 OBJECT IDENTIFIER ::= { smartUPS 3 }
-smartUPS900 OBJECT IDENTIFIER ::= { smartUPS 4 }
-smartUPS1250 OBJECT IDENTIFIER ::= { smartUPS 5 }
-smartUPS2000 OBJECT IDENTIFIER ::= { smartUPS 6 }
-
-smartUPS450 OBJECT IDENTIFIER ::= { smartUPS 7 }
-smartUPS700 OBJECT IDENTIFIER ::= { smartUPS 8 }
-smartUPS1000 OBJECT IDENTIFIER ::= { smartUPS 9 }
-smartUPS1400 OBJECT IDENTIFIER ::= { smartUPS 10 }
-smartUPS2200 OBJECT IDENTIFIER ::= { smartUPS 11 }
-smartUPS3000 OBJECT IDENTIFIER ::= { smartUPS 12 }
-smartUPS5000 OBJECT IDENTIFIER ::= { smartUPS 13 }
-smartUPS7500 OBJECT IDENTIFIER ::= { smartUPS 14 }
-smartUPS10000 OBJECT IDENTIFIER ::= { smartUPS 15 }
-smartUPS1500 OBJECT IDENTIFIER ::= { smartUPS 16 }
-
-matrixUPS3000 OBJECT IDENTIFIER ::= { matrixUPS 1 }
-matrixUPS5000 OBJECT IDENTIFIER ::= { matrixUPS 2 }
-
-masterSwitchV1 OBJECT IDENTIFIER ::= { masterSwitch 1}
-masterSwitchV2 OBJECT IDENTIFIER ::= { masterSwitch 2}
-masterSwitchVM OBJECT IDENTIFIER ::= { masterSwitch 3}
-masterSwitchMSP OBJECT IDENTIFIER ::= { masterSwitch 4}
-masterSwitchrPDU OBJECT IDENTIFIER ::= { masterSwitch 5}
-
-symmetraUPS4kVA OBJECT IDENTIFIER ::= { symmetraUPS 1 }
-symmetraUPS8kVA OBJECT IDENTIFIER ::= { symmetraUPS 2 }
-symmetraUPS12kVA OBJECT IDENTIFIER ::= { symmetraUPS 3 }
-symmetraUPS16kVA OBJECT IDENTIFIER ::= { symmetraUPS 4 }
-
-environmental OBJECT IDENTIFIER ::= { monitors 1 }
-environmentalMgtSystem OBJECT IDENTIFIER ::= { monitors 2 }
-emu2 OBJECT IDENTIFIER ::= { monitors 3 }
-
-dm3 OBJECT IDENTIFIER ::= { dcPower 1 }
-dcmim2 OBJECT IDENTIFIER ::= { dcPower 2 }
-
-symmetra3PhaseUPS40kVA OBJECT IDENTIFIER ::= { symmetra3PhaseUPS 1 }
-symmetra3PhaseUPS60kVA OBJECT IDENTIFIER ::= { symmetra3PhaseUPS 2 }
-symmetra3PhaseUPS80kVA OBJECT IDENTIFIER ::= { symmetra3PhaseUPS 3 }
-symmetra3PhaseUPS20kVA OBJECT IDENTIFIER ::= { symmetra3PhaseUPS 4 }
-
-airFMSeries OBJECT IDENTIFIER ::= { networkAir 1 }
-rackAirRemovalUnit OBJECT IDENTIFIER ::= { networkAir 2 }
-airPASeries OBJECT IDENTIFIER ::= { networkAir 3 }
-
-ais5000UPS10kVA OBJECT IDENTIFIER ::= { ais5000UPS 1 }
-ais5000UPS20kVA OBJECT IDENTIFIER ::= { ais5000UPS 2 }
-ais5000UPS30kVA OBJECT IDENTIFIER ::= { ais5000UPS 3 }
-ais5000UPS40kVA OBJECT IDENTIFIER ::= { ais5000UPS 4 }
-ais5000UPS60kVA OBJECT IDENTIFIER ::= { ais5000UPS 5 }
-ais5000UPS80kVA OBJECT IDENTIFIER ::= { ais5000UPS 6 }
-ais5000UPS100kVA OBJECT IDENTIFIER ::= { ais5000UPS 7 }
-
-smartUPS3Phase10kVA OBJECT IDENTIFIER ::= { smartUPS3Phase 1 }
-smartUPS3Phase15kVA OBJECT IDENTIFIER ::= { smartUPS3Phase 2 }
-smartUPS3Phase20kVA OBJECT IDENTIFIER ::= { smartUPS3Phase 3 }
-smartUPS3Phase30kVA OBJECT IDENTIFIER ::= { smartUPS3Phase 4 }
-smartUPS3Phase40kVA OBJECT IDENTIFIER ::= { smartUPS3Phase 5 }
-
-upsIdent OBJECT IDENTIFIER ::= { ups 1 }
-upsBattery OBJECT IDENTIFIER ::= { ups 2 }
-upsInput OBJECT IDENTIFIER ::= { ups 3 }
-upsOutput OBJECT IDENTIFIER ::= { ups 4 }
-upsConfig OBJECT IDENTIFIER ::= { ups 5 }
-upsControl OBJECT IDENTIFIER ::= { ups 6 }
-upsTest OBJECT IDENTIFIER ::= { ups 7 }
-upsComm OBJECT IDENTIFIER ::= { ups 8 }
-upsPhase OBJECT IDENTIFIER ::= { ups 9 }
-upsSyncCtrlGroup OBJECT IDENTIFIER ::= { ups 10 }
-upsState OBJECT IDENTIFIER ::= { ups 11 }
-upsOutletGroups OBJECT IDENTIFIER ::= { ups 12 }
-upsDiagnostics OBJECT IDENTIFIER ::= { ups 13 }
-
-upsBasicIdent OBJECT IDENTIFIER ::= { upsIdent 1 }
-upsAdvIdent OBJECT IDENTIFIER ::= { upsIdent 2 }
-
-upsBasicBattery OBJECT IDENTIFIER ::= { upsBattery 1 }
-upsAdvBattery OBJECT IDENTIFIER ::= { upsBattery 2 }
-
-upsBasicInput OBJECT IDENTIFIER ::= { upsInput 1 }
-upsAdvInput OBJECT IDENTIFIER ::= { upsInput 2 }
-
-upsBasicOutput OBJECT IDENTIFIER ::= { upsOutput 1 }
-upsAdvOutput OBJECT IDENTIFIER ::= { upsOutput 2 }
-
-upsBasicConfig OBJECT IDENTIFIER ::= { upsConfig 1 }
-upsAdvConfig OBJECT IDENTIFIER ::= { upsConfig 2 }
-
-upsBasicControl OBJECT IDENTIFIER ::= { upsControl 1 }
-upsAdvControl OBJECT IDENTIFIER ::= { upsControl 2 }
-
-upsBasicTest OBJECT IDENTIFIER ::= { upsTest 1 }
-upsAdvTest OBJECT IDENTIFIER ::= { upsTest 2 }
-
-upsPhaseResetValues OBJECT IDENTIFIER ::= { upsPhase 1 }
-upsPhaseInput OBJECT IDENTIFIER ::= { upsPhase 2 }
-upsPhaseOutput OBJECT IDENTIFIER ::= { upsPhase 3 }
-
-upsSyncCtrlGroupConfig OBJECT IDENTIFIER ::= { upsSyncCtrlGroup 1 }
-upsSyncCtrlGroupStatus OBJECT IDENTIFIER ::= { upsSyncCtrlGroup 2 }
-
-upsBasicState OBJECT IDENTIFIER ::= { upsState 1 }
-upsAdvState OBJECT IDENTIFIER ::= { upsState 2 }
-
-upsOutletGroupStatus OBJECT IDENTIFIER ::= { upsOutletGroups 1 }
-upsOutletGroupConfig OBJECT IDENTIFIER ::= { upsOutletGroups 2 }
-upsOutletGroupControl OBJECT IDENTIFIER ::= { upsOutletGroups 3 }
-
-upsDiagnosticIM OBJECT IDENTIFIER ::= { upsDiagnostics 1 }
-upsDiagnosticPowerModules OBJECT IDENTIFIER ::= { upsDiagnostics 2 }
-upsDiagnosticBatteries OBJECT IDENTIFIER ::= { upsDiagnostics 3 }
-upsDiagnosticSubsystem OBJECT IDENTIFIER ::= { upsDiagnostics 4 }
-upsDiagnosticExternalDevices OBJECT IDENTIFIER ::= { upsDiagnostics 5 }
-upsDiagnosticComBus OBJECT IDENTIFIER ::= { upsDiagnostics 6 }
-
-upsDiagSwitchGear OBJECT IDENTIFIER ::= { upsDiagnosticExternalDevices 1 }
-upsDiagMCCBBox OBJECT IDENTIFIER ::= { upsDiagnosticExternalDevices 2 }
-upsDiagTransformer OBJECT IDENTIFIER ::= { upsDiagnosticExternalDevices 3 }
-
-mUpsEnviron OBJECT IDENTIFIER ::= { measureUps 1 }
-mUpsContact OBJECT IDENTIFIER ::= { measureUps 2 }
-
-serialPort OBJECT IDENTIFIER ::= { miniSNMPadapter 1}
-
-serialPort1 OBJECT IDENTIFIER ::= { serialPort 1}
-serialPort2 OBJECT IDENTIFIER ::= { serialPort 2}
-
-serialPort2Config OBJECT IDENTIFIER ::= { serialPort2 1}
-serialPort2Control OBJECT IDENTIFIER ::= { serialPort2 2}
-
-sPDUIdent OBJECT IDENTIFIER ::= { masterswitch 1 }
-sPDUMasterControl OBJECT IDENTIFIER ::= { masterswitch 2 }
-sPDUMasterConfig OBJECT IDENTIFIER ::= { masterswitch 3 }
-sPDUOutletControl OBJECT IDENTIFIER ::= { masterswitch 4 }
-sPDUOutletConfig OBJECT IDENTIFIER ::= { masterswitch 5 }
-
-sPDUIdentVM OBJECT IDENTIFIER ::= { masterswitchVM 1 }
-sPDUMasterControlVM OBJECT IDENTIFIER ::= { masterswitchVM 2 }
-sPDUMasterConfigVM OBJECT IDENTIFIER ::= { masterswitchVM 3 }
-sPDUMasterStatusVM OBJECT IDENTIFIER ::= { masterswitchVM 4 }
-sPDUOutletControlVM OBJECT IDENTIFIER ::= { masterswitchVM 5 }
-sPDUOutletConfigVM OBJECT IDENTIFIER ::= { masterswitchVM 6 }
-sPDUOutletStatusVM OBJECT IDENTIFIER ::= { masterswitchVM 7 }
-
-sPDUIdentMSP OBJECT IDENTIFIER ::= { masterswitchMSP 1 }
-sPDUMasterControlMSP OBJECT IDENTIFIER ::= { masterswitchMSP 2 }
-sPDUMasterConfigMSP OBJECT IDENTIFIER ::= { masterswitchMSP 3 }
-sPDUMasterStatusMSP OBJECT IDENTIFIER ::= { masterswitchMSP 4 }
-sPDUOutletControlMSP OBJECT IDENTIFIER ::= { masterswitchMSP 5 }
-sPDUOutletConfigMSP OBJECT IDENTIFIER ::= { masterswitchMSP 6 }
-sPDUOutletStatusMSP OBJECT IDENTIFIER ::= { masterswitchMSP 7 }
-
-sPDUOutletConfigMSPall OBJECT IDENTIFIER ::= { sPDUOutletConfigMSP 1 }
-sPDUOutletConfigMSPgs OBJECT IDENTIFIER ::= { sPDUOutletConfigMSP 2 }
-sPDUOutletConfigMSPannun OBJECT IDENTIFIER ::= { sPDUOutletConfigMSP 3 }
-sPDUOutletConfigMSPmups OBJECT IDENTIFIER ::= { sPDUOutletConfigMSP 4 }
-
-rPDUIdent OBJECT IDENTIFIER ::= { rPDU 1 }
-rPDULoad OBJECT IDENTIFIER ::= { rPDU 2 }
-rPDUOutlet OBJECT IDENTIFIER ::= { rPDU 3 }
-rPDUPowerSupply OBJECT IDENTIFIER ::= { rPDU 4 }
-
-rPDULoadDevice OBJECT IDENTIFIER ::= { rPDULoad 1 }
-rPDULoadPhaseConfig OBJECT IDENTIFIER ::= { rPDULoad 2 }
-rPDULoadStatus OBJECT IDENTIFIER ::= { rPDULoad 3 }
-rPDULoadBankConfig OBJECT IDENTIFIER ::= { rPDULoad 4 }
-
-rPDUOutletDevice OBJECT IDENTIFIER ::= { rPDUOutlet 1 }
-rPDUOutletPhase OBJECT IDENTIFIER ::= { rPDUOutlet 2 }
-rPDUOutletControl OBJECT IDENTIFIER ::= { rPDUOutlet 3 }
-rPDUOutletConfig OBJECT IDENTIFIER ::= { rPDUOutlet 4 }
-rPDUOutletStatus OBJECT IDENTIFIER ::= { rPDUOutlet 5 }
-rPDUOutletBank OBJECT IDENTIFIER ::= { rPDUOutlet 6 }
-
-rPDUPowerSupplyDevice OBJECT IDENTIFIER ::= { rPDUPowerSupply 1 }
-
-dm3Ident OBJECT IDENTIFIER ::= { dcDM3 1 }
-dm3Config OBJECT IDENTIFIER ::= { dcDM3 2 }
-dm3Status OBJECT IDENTIFIER ::= { dcDM3 3 }
-
-dm3IdentSystem OBJECT IDENTIFIER ::= { dm3Ident 1}
-
-dm3ConfigSystem OBJECT IDENTIFIER ::= { dm3Config 1 }
-dm3ConfigLVD OBJECT IDENTIFIER ::= { dm3Config 2 }
-dm3ConfigBattery OBJECT IDENTIFIER ::= { dm3Config 3 }
-dm3ConfigPowerModules OBJECT IDENTIFIER ::= { dm3Config 4 }
-dm3ConfigRelays OBJECT IDENTIFIER ::= { dm3Config 5 }
-dm3ConfigDistribution OBJECT IDENTIFIER ::= { dm3Config 6 }
-
-dm3ConfigRectifier OBJECT IDENTIFIER ::= { dm3ConfigPowerModules 1 }
-dm3ConfigConverter OBJECT IDENTIFIER ::= { dm3ConfigPowerModules 2 }
-
-dm3ConfigRectThresh OBJECT IDENTIFIER ::= { dm3ConfigRectifier 1 }
-dm3ConfigRectAlarms OBJECT IDENTIFIER ::= { dm3ConfigRectifier 2 }
-
-dm3ConfigConvThresh OBJECT IDENTIFIER ::= { dm3ConfigConverter 1 }
-dm3ConfigConvAlarms OBJECT IDENTIFIER ::= { dm3ConfigConverter 2 }
-
-dm3ConfigOutputRelays OBJECT IDENTIFIER ::= { dm3ConfigRelays 1 }
-dm3ConfigInputRelays OBJECT IDENTIFIER ::= { dm3ConfigRelays 2 }
-
-dm3ConfigBreakers OBJECT IDENTIFIER ::= { dm3ConfigDistribution 1 }
-dm3ConfigFuses OBJECT IDENTIFIER ::= { dm3ConfigDistribution 2 }
-
-dm3StatusSystem OBJECT IDENTIFIER ::= { dm3Status 1 }
-dm3StatusAlarms OBJECT IDENTIFIER ::= { dm3Status 2 }
-dm3StatusBattery OBJECT IDENTIFIER ::= { dm3Status 3 }
-dm3StatusOEM OBJECT IDENTIFIER ::= { dm3Status 4 }
-dm3StatusLVD OBJECT IDENTIFIER ::= { dm3Status 5 }
-dm3StatusPowerModules OBJECT IDENTIFIER ::= { dm3Status 6 }
-dm3StatusRelays OBJECT IDENTIFIER ::= { dm3Status 7 }
-dm3StatusDistribution OBJECT IDENTIFIER ::= { dm3Status 8 }
-
-dm3StatusRectifier OBJECT IDENTIFIER ::= { dm3StatusPowerModules 1 }
-dm3StatusConverter OBJECT IDENTIFIER ::= { dm3StatusPowerModules 2 }
-
-dm3StatusOutputRelays OBJECT IDENTIFIER ::= { dm3StatusRelays 1 }
-dm3StatusInputRelays OBJECT IDENTIFIER ::= { dm3StatusRelays 2 }
-
-dm3StatusBreakers OBJECT IDENTIFIER ::= { dm3StatusDistribution 1 }
-dm3StatusFuses OBJECT IDENTIFIER ::= { dm3StatusDistribution 2 }
-
-atsIdent OBJECT IDENTIFIER ::= { automaticTransferSwitch 1 }
-atsCalibration OBJECT IDENTIFIER ::= { automaticTransferSwitch 2 }
-atsControl OBJECT IDENTIFIER ::= { automaticTransferSwitch 3 }
-atsConfig OBJECT IDENTIFIER ::= { automaticTransferSwitch 4 }
-atsStatus OBJECT IDENTIFIER ::= { automaticTransferSwitch 5 }
-
-atsCalibrationInput OBJECT IDENTIFIER ::= { atsCalibration 1 }
-atsCalibrationPowerSupply OBJECT IDENTIFIER ::= { atsCalibration 2 }
-atsCalibrationOutput OBJECT IDENTIFIER ::= { atsCalibration 3 }
-
-atsStatusDeviceStatus OBJECT IDENTIFIER ::= { atsStatus 1 }
-atsStatusResetValues OBJECT IDENTIFIER ::= { atsStatus 2 }
-atsStatusInput OBJECT IDENTIFIER ::= { atsStatus 3 }
-atsStatusOutput OBJECT IDENTIFIER ::= { atsStatus 4 }
-
-dcmim2Ident OBJECT IDENTIFIER ::= { dc2 1 }
-dcmim2Control OBJECT IDENTIFIER ::= { dc2 2 }
-dcmim2Config OBJECT IDENTIFIER ::= { dc2 3 }
-dcmim2Status OBJECT IDENTIFIER ::= { dc2 4 }
-
-dcmim2IdentSystem OBJECT IDENTIFIER ::= { dcmim2Ident 1 }
-
-dcmim2ControlSystem OBJECT IDENTIFIER ::= { dcmim2Control 1 }
-
-dcmim2ConfigSystem OBJECT IDENTIFIER ::= { dcmim2Config 1 }
-dcmim2ConfigBattery OBJECT IDENTIFIER ::= { dcmim2Config 2 }
-dcmim2ConfigLVD OBJECT IDENTIFIER ::= { dcmim2Config 3 }
-
-dcmim2StatusSystem OBJECT IDENTIFIER ::= { dcmim2Status 1 }
-dcmim2StatusRectifier OBJECT IDENTIFIER ::= { dcmim2Status 2 }
-dcmim2StatusBattery OBJECT IDENTIFIER ::= { dcmim2Status 3 }
-dcmim2StatusLVD OBJECT IDENTIFIER ::= { dcmim2Status 4 }
-dcmim2StatusAlarms OBJECT IDENTIFIER ::= { dcmim2Status 5 }
-
-external OBJECT IDENTIFIER ::= { environmentalMonitor 1 }
-integrated OBJECT IDENTIFIER ::= { environmentalMonitor 2 }
-envMgtSystem OBJECT IDENTIFIER ::= { environmentalMonitor 3 }
-
-emIdent OBJECT IDENTIFIER ::= { external 1 }
-emConfig OBJECT IDENTIFIER ::= { external 2 }
-emStatus OBJECT IDENTIFIER ::= { external 3 }
-
-iemIdent OBJECT IDENTIFIER ::= { integrated 1 }
-iemConfig OBJECT IDENTIFIER ::= { integrated 2 }
-iemStatus OBJECT IDENTIFIER ::= { integrated 3 }
-
-emsIdent OBJECT IDENTIFIER ::= { envMgtSystem 1 }
-
-emsOutputRelayControl OBJECT IDENTIFIER ::= { envMgtSystem 2 }
-emsOutletControl OBJECT IDENTIFIER ::= { envMgtSystem 3 }
-emsSensorControl OBJECT IDENTIFIER ::= { envMgtSystem 4 }
-emsAlarmDeviceControl OBJECT IDENTIFIER ::= { envMgtSystem 5 }
-
-emsConfig OBJECT IDENTIFIER ::= { envMgtSystem 6 }
-emsProbeConfig OBJECT IDENTIFIER ::= { envMgtSystem 7 }
-emsInputContactConfig OBJECT IDENTIFIER ::= { envMgtSystem 8 }
-emsOutputRelayConfig OBJECT IDENTIFIER ::= { envMgtSystem 9 }
-emsOutletConfig OBJECT IDENTIFIER ::= { envMgtSystem 10 }
-emsSensorConfig OBJECT IDENTIFIER ::= { envMgtSystem 11 }
-
-emsStatus OBJECT IDENTIFIER ::= { envMgtSystem 12 }
-emsProbeStatus OBJECT IDENTIFIER ::= { envMgtSystem 13 }
-emsInputContactStatus OBJECT IDENTIFIER ::= { envMgtSystem 14 }
-emsOutputRelayStatus OBJECT IDENTIFIER ::= { envMgtSystem 15 }
-emsOutletStatus OBJECT IDENTIFIER ::= { envMgtSystem 16 }
-emsAlarmDeviceStatus OBJECT IDENTIFIER ::= { envMgtSystem 17 }
-emsSensorStatus OBJECT IDENTIFIER ::= { envMgtSystem 18 }
-
-nlIdent OBJECT IDENTIFIER ::= { netlock 1 }
-nlStatus OBJECT IDENTIFIER ::= { netlock 2 }
-
-airFM OBJECT IDENTIFIER ::= { airConditioners 1 }
-airFMIdent OBJECT IDENTIFIER ::= { airFM 1 }
-airFMStatus OBJECT IDENTIFIER ::= { airFM 2 }
-airFMGroup OBJECT IDENTIFIER ::= { airFM 3 }
-
-airPA OBJECT IDENTIFIER ::= { airConditioners 2 }
-airPAIdent OBJECT IDENTIFIER ::= { airPA 1 }
-airPAStatus OBJECT IDENTIFIER ::= { airPA 2 }
-
-rARUIdent OBJECT IDENTIFIER ::= { rARU 1 }
-rARUConfig OBJECT IDENTIFIER ::= { rARU 2 }
-rARUStatus OBJECT IDENTIFIER ::= { rARU 3 }
-
-
--- object types
-
--- the products group
--- the experimental group
-
-
-
--- the apcmgmt group
--- the mconfig group
-
-mconfigNumTrapReceivers OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of managers to send traps to."
- ::= { mconfig 1 }
-
-mconfigTrapReceiverTable OBJECT-TYPE
- SYNTAX SEQUENCE OF MconfigTrapReceiverEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of managers to send traps to. The number of
- entries is given by the value of mconfigNumTrapReceivers.
- Maximum number of Trap Receivers is four."
- ::= { mconfig 2 }
-
-mconfigTrapReceiverEntry OBJECT-TYPE
- SYNTAX MconfigTrapReceiverEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The managers to send traps to."
- INDEX { trapIndex}
- ::= { mconfigTrapReceiverTable 1 }
-
-MconfigTrapReceiverEntry ::=
- SEQUENCE {
- trapIndex
- INTEGER,
- receiverAddr
- IpAddress,
- communityString
- DisplayString,
- severity
- INTEGER,
- acceptThisReceiver
- INTEGER,
- receiveTrapType
- INTEGER
- }
-
-trapIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to a trap receiver entry."
- ::= { mconfigTrapReceiverEntry 1 }
-
-receiverAddr OBJECT-TYPE
- SYNTAX IpAddress
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The IP address of the manager to send a trap to."
- ::= { mconfigTrapReceiverEntry 2 }
-
-communityString OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The community name to use in the trap when
- sent to the manager."
- ::= { mconfigTrapReceiverEntry 3 }
-
-severity OBJECT-TYPE
- SYNTAX INTEGER {
- information(1),
- warning(2),
- severe(3)
- }
- ACCESS read-only
- STATUS obsolete
- DESCRIPTION
- "The severity threshold of traps to send to the manager.
- traps are labeled in severity as informational(1), warning(2),
- severe(3). Only traps of equal or greater severity than
- this value are sent to the manager."
- ::= { mconfigTrapReceiverEntry 4 }
-
-acceptThisReceiver OBJECT-TYPE
- SYNTAX INTEGER {
- yes (1),
- no (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "An entry will become active if yes, and will
- be deleted if no."
- ::= { mconfigTrapReceiverEntry 5 }
-
-
-receiveTrapType OBJECT-TYPE
- SYNTAX INTEGER {
- powernet (1),
- ietf (2),
- both (3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The node in this entry will receive traps defined in APC
- PowerNet MIB, if this OID is set to yes."
- ::= { mconfigTrapReceiverEntry 6 }
-
-mconfigBOOTPEnabled OBJECT-TYPE
- SYNTAX INTEGER {
- yes (1),
- no (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The value of yes(1) indicates the PowerNet Adapter is configured to
- obtain its IP configuration parameters from a BOOTP server.
-
- The value of no(2) indicates adapter will assume IP configuration parameters
- values saved in adapter's eeprom, which was originally configured at local
- console."
- ::= { mconfig 3 }
-
-mconfigTFTPServerIP OBJECT-TYPE
- SYNTAX IpAddress
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The IP address of TFTP server. If mconfigBOOTPEnabled is yes(1), then this IP address
- is provided by BOOTP server and not allowed to be modified; otherwise, this IP address
- can be modified.
-
- Before using TFTP to load new code image, the image file should be placed in proper
- directory of the specified TFTP server. This OID is only supported by AP9605, AP9205,
- and AP9603 PowerNet SNMP Adapters."
- ::= { mconfig 4 }
-
-newCodeAuthentViaTFTP OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- validNewAgentCodeImage (2),
- sameAgentCodeImage (3),
- invalidAgentCodeImage (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Once mcontrolRestartAgent is set to loadAndExecuteNewAgent (3), PowerNet adapter will
- start to load the remote image file, for authentication only, instead of saving the code
- into flash memory. Only if a validNewAgentCodeImage (1) is found will the agent reboot
- the PowerNet adapter and invoke the loader to load and save new code into the flash memory.
- Otherwise, the current agent code will continue to run.
-
- This OID shows the result of the above authentication process.
- validNewAgentCodeImage (1) means the code image on TFTP server
- is a valid APC agent code and is different version from the current agent.
- Once agent identifies this, loader will start to update flash memory with
- the new agent code.
-
- sameAgentCodeImage (2) means the code image on TFTP server is exactly the
- same as the currently running agent. Currently running agent will not invoke
- loader to load the same again.
-
- invalidAgentCodeImage (3) means the code image on TFTP server is NOT a valid
- APC agent code. Thus, current agent will not load it into the flash memory.
-
- The value of this OID will be associated with TRAP codeImageAuthentDone.
- This OID is only supported by AP9605, AP9205, and AP9603 PowerNet SNMP Adapters."
-
- ::= { mconfig 5 }
-
-mconfigClockDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The current date in the mm/dd/yyyy format. Example: 01/01/2000."
- ::= { mconfigClock 1 }
-
-mconfigClockTime OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The current time in the hh:mm:ss am/pm format. Example: 12:00:00 am."
- ::= { mconfigClock 2 }
-
-mcontrolRestartAgent OBJECT-TYPE
- SYNTAX INTEGER {
- restartCurrentAgent (1),
- continueCurrentAgent (2),
- loadAndExecuteNewAgent (3),
- restartWithoutAgent (4),
- resetNetworkAndRestart (5),
- resetNetworkLeaveModeAndRestart (6)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to restartCurrentAgent (1) will restart the same SNMP
- agent code currently saved in flash memory. Setting this OID to
- loadAndExecuteNewAgent (3) will enable adapter to load a new agent code
- into the flash memory and start to execute this new agent code.
- Bootp/tftp is the default protocol. loadAndExecuteNewAgent is only
- supported by AP9605, AP9205, and AP9603 PowerNet SNMP Adapters. Setting
- this OID to restartWithoutAgent (4) will restart the system and not
- start the agent. The subsequent time the system restarts the agent will
- also automatically restart. Setting this OID to
- resetNetworkAndRestart (5) will set the Boot Mode, IP Address, Subnet
- Mask, and Default Gateway to defaults, expire any existing DHCP lease
- and then restart the system. Setting this OID to
- resetNetworkLeaveModeAndRestart (6) will leave the Boot Mode at the
- current setting, set the IP Address, Subnet Mask, and Default Gateway to
- defaults, expire any existing DHCP lease and then restart the system."
-
- ::= { mcontrol 1 }
-
--- The mtrapargs group
--- These OIDs allows APC traps to be sent with additional arguments
--- which may not be defined in the APC MIB.
-
-mtrapargsInteger OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with an integer argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return 0."
- ::= { mtrapargs 1 }
-
-mtrapargsIpAddress OBJECT-TYPE
- SYNTAX IpAddress
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with an IP address argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return 0.0.0.0."
- ::= { mtrapargs 2 }
-
-mtrapargsString OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with an octet string argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return a NULL string."
- ::= { mtrapargs 3 }
-
-mtrapargsGauge OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with a Gauge argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return 0."
- ::= { mtrapargs 4 }
-
-mtrapargsTimeTicks OBJECT-TYPE
- SYNTAX TimeTicks
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with a TimeTicks argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return 0."
- ::= { mtrapargs 5 }
-
-mtrapargsInteger02 OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with an integer argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return 0."
- ::= { mtrapargs 6 }
-
-mtrapargsInteger03 OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with an integer argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return 0."
- ::= { mtrapargs 7 }
-
-mtrapargsIpAddress02 OBJECT-TYPE
- SYNTAX IpAddress
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with an IP address argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return 0.0.0.0."
- ::= { mtrapargs 8 }
-
-mtrapargsIpAddress03 OBJECT-TYPE
- SYNTAX IpAddress
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with an IP address argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return 0.0.0.0."
- ::= { mtrapargs 9 }
-
-mtrapargsString02 OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with an octet string argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return a NULL string."
- ::= { mtrapargs 10 }
-
-mtrapargsString03 OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with an octet string argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return a NULL string."
- ::= { mtrapargs 11 }
-
-mtrapargsGauge02 OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with a Gauge argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return 0."
- ::= { mtrapargs 12 }
-
-mtrapargsGauge03 OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with a Gauge argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return 0."
- ::= { mtrapargs 13 }
-
-mtrapargsTimeTicks02 OBJECT-TYPE
- SYNTAX TimeTicks
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with a TimeTicks argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return 0."
- ::= { mtrapargs 14 }
-
-mtrapargsTimeTicks03 OBJECT-TYPE
- SYNTAX TimeTicks
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID allows APC traps to be sent with a TimeTicks argument
- that my not be defined in the APC MIB.
-
- A get of this OID will return 0."
- ::= { mtrapargs 15 }
-
--- the mfiletransfer group
--- the mfiletransferStatus group
-mfiletransferStatusLastTransferResult OBJECT-TYPE
- SYNTAX INTEGER {
- lastFileTransferResultSuccessful (1),
- lastFileTransferResultNotAvailable (2),
- lastFileTransferResultFailureUnknown (3),
- lastFileTransferResultFailureServerInaccessible (4),
- lastFileTransferResultFailureServerAccessDenied (5),
- lastFileTransferResultFailureFileNotFound (6),
- lastFileTransferResultFailureFileTypeUnknown (7),
- lastFileTransferResultFailureFileCorrupted (8)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Once mfiletransferControlInitiateFileTransfer is set to a value other than doNotInitiateFileTransfer
- a file transfer of mfiletransferConfigSettingsFilename will be attempted from either a TFTP or FTP
- server.
-
- This OID shows the last attempted file transfer result.
- lastFileTransferResultSuccessful (1) means the file transfer was successful.
- lastFileTransferResultNotAvailable (2) means that there have been no previous file transfers.
- lastFileTransferResultFailureUnknown (3) means that the last file transfer failed for an unknown reason.
- lastFileTransferResultFailureServerInaccessible (4) means that the TFTP or FTP server could not be found on the network.
- lastFileTransferResultFailureServerAccessDenied (5) means that the TFTP or FTP server denied access.
- lastFileTransferResultFailureFileNotFound (6) means that the file could not be located.
- lastFileTransferResultFailureFileTypeUnknown (7) means the file was examined, but the contents were unknown.
- lastFileTransferResultFailureFileCorrupt (8) means the transferred file was corrupt."
-
- ::= { mfiletransferStatus 1 }
-
--- the mfiletransferConfig group
--- the mfiletransferConfigSettings group
-
-mfiletransferConfigSettingsFilename OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The path and name of the file to transfer using the mfiletransferControlInitiateFileTransfer OID.
- If the file to transfer exists in the default server directory then the path may be omitted."
-
- ::= { mfiletransferConfigSettings 1 }
-
--- the mfiletransferConfigTFTP group
-
-mfiletransferConfigTFTPServerAddress OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The IP Address in dotted decimal notation of the TFTP server involved in the file transfer."
-
- ::= { mfiletransferConfigTFTP 1 }
-
--- the mfiletransferConfigFTP group
-
-mfiletransferConfigFTPServerAddress OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The IP Address in dotted decimal notation of the FTP server involved in the file transfer."
-
- ::= { mfiletransferConfigFTP 1 }
-
-mfiletransferConfigFTPServerUser OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The user identification for logging into the FTP server specified with mfiletransferConfigFTPServerAddress."
-
- ::= { mfiletransferConfigFTP 2 }
-
-mfiletransferConfigFTPServerPassword OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The password for logging into the FTP server specified with mfiletransferConfigFTPServerAddress."
-
- ::= { mfiletransferConfigFTP 3 }
-
--- the mfiletransferControl group
-
-mfiletransferControlInitiateFileTransfer OBJECT-TYPE
- SYNTAX INTEGER {
- doNotInitiateFileTransfer (1),
- initiateFileTransferDownloadViaTFTP (2),
- initiateFileTransferDownloadViaFTP (3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to doNotInitiateFileTransfer (1) will do nothing.
-
- Setting this OID to initiateFileTransferDownloadViaTFTP (2) will attempt to transfer the file named in
- mfiletransferConfigSettingsFilename from the TFTP Server identified in mfiletransferConfigTFTPAddress.
-
- Setting this OID to initiateFileTransferDownloadViaFTP (3) will attempt to transfer the file named in
- mfiletransferConfigSettingsFilename from the FTP Server identified in mfiletransferConfigFTPAddress
- using mfiletransferConfigFTPUser and mfiletransferConfigFTPPassword for the FTP Server login process."
-
- ::= { mfiletransferControl 1 }
-
--- the battManIdent group
-
-battManIdentProductName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the battery manager."
- ::= { battManIdent 1 }
-
-battManIdentHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The battery manager network interface hardware revision.
- This value is set at the factory."
- ::= { battManIdent 2 }
-
-battManIdentFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The battery manager network interface firmware revision.
- This value is set at the factory and can change with firmware update."
- ::= { battManIdent 3 }
-
-battManIdentDateOfManufacture OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date the battery manager was manufactured in mm/dd/yyyy format.
- This value is set at the factory."
- ::= { battManIdent 4 }
-
-battManIdentModelNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The battery manager model number character string.
- This value is set at the factory."
- ::= { battManIdent 5 }
-
-battManIdentSerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The battery manager serial number character string.
- This value is set at the factory."
- ::= { battManIdent 6 }
-
--- the battManCalib group
--- system calibration
-
-battManOhmicValueCorrectionFactor OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The system ohmic value correction factor in percent."
- ::= { battManSystemCalib 1 }
-
--- unit calibration
-
-battManUnitCalibTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the battManUnitCalibTable."
- ::= { battManUnitCalib 1 }
-
-battManUnitCalibTable OBJECT-TYPE
- SYNTAX SEQUENCE OF BattManUnitCalibTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting calibration information from each unit in the system."
- ::= { battManUnitCalib 2 }
-
-battManUnitCalibTableEntry OBJECT-TYPE
- SYNTAX BattManUnitCalibTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The unit to get data from."
- INDEX { battManUnitCalibIndex }
- ::= { battManUnitCalibTable 1 }
-
-BattManUnitCalibTableEntry ::=
- SEQUENCE {
- battManUnitCalibIndex INTEGER,
- battManUnitSerialNumber DisplayString,
- battManBatteryVoltageZeroCalib INTEGER,
- battManBatteryVoltageSpanCalib INTEGER
- }
-
-battManUnitCalibIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of unit calibration entries in the table."
- ::= { battManUnitCalibTableEntry 1 }
-
-battManUnitSerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The serial number of the unit."
- ::= { battManUnitCalibTableEntry 2 }
-
-battManBatteryVoltageZeroCalib OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The unit battery voltage zero calibration in millivolts."
- ::= { battManUnitCalibTableEntry 3 }
-
-battManBatteryVoltageSpanCalib OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The unit battery voltage span calibration in percent."
- ::= { battManUnitCalibTableEntry 4 }
-
--- string calibration table
-
-battManStringCalibTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the battManStringCalibTable."
- ::= { battManStringCalib 1 }
-
-battManStringCalibTable OBJECT-TYPE
- SYNTAX SEQUENCE OF BattManStringCalibTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting calibration information from each string in the system."
- ::= { battManStringCalib 2 }
-
-battManStringCalibTableEntry OBJECT-TYPE
- SYNTAX BattManStringCalibTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The string to get data from."
- INDEX { battManStringCalibIndex }
- ::= { battManStringCalibTable 1 }
-
-BattManStringCalibTableEntry ::=
- SEQUENCE {
- battManStringCalibIndex INTEGER,
- battManDCCurrentZeroCalib INTEGER,
- battManACCurrentZeroCalib INTEGER,
- battManProbeRange INTEGER
- }
-
-battManStringCalibIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of string calibration entries in the table."
- ::= { battManStringCalibTableEntry 1 }
-
-battManDCCurrentZeroCalib OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The string DC current zero calibration in tenths of amps."
- ::= { battManStringCalibTableEntry 2 }
-
-battManACCurrentZeroCalib OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The string AC current zero calibration in tenths of amps."
- ::= { battManStringCalibTableEntry 3 }
-
-battManProbeRange OBJECT-TYPE
- SYNTAX INTEGER {
- amps1000 (1),
- amps500 (2),
- amps100 (3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The string probe range in amps."
- ::= { battManStringCalibTableEntry 4 }
-
---string 1 battery calibration table
-
-battManString1BatteryCalibTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the battManString1BatteryCalibTable."
- ::= { battManBatteryCalib 1 }
-
-battManString1BatteryCalibTable OBJECT-TYPE
- SYNTAX SEQUENCE OF BattManString1BatteryCalibTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting calibration information from each battery in String 1."
- ::= { battManBatteryCalib 2 }
-
-battManString1BatteryCalibTableEntry OBJECT-TYPE
- SYNTAX BattManString1BatteryCalibTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The string to get data from."
- INDEX { battManString1BatteryCalibIndex }
- ::= { battManString1BatteryCalibTable 1 }
-
-BattManString1BatteryCalibTableEntry ::=
- SEQUENCE {
- battManString1BatteryCalibIndex INTEGER,
- battManString1BatteryInterTierOhmicValue INTEGER
- }
-
-battManString1BatteryCalibIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of battery calibration entries in the table."
- ::= { battManString1BatteryCalibTableEntry 1 }
-
-battManString1BatteryInterTierOhmicValue OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The battery inter-tier ohmic value in ohms. This corresponds to the ohmic
- value for the positive terminal of the battery."
- ::= { battManString1BatteryCalibTableEntry 2 }
-
---string 2 battery calibration table
-
-battManString2BatteryCalibTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the battManString2BatteryCalibTable."
- ::= { battManBatteryCalib 3 }
-
-battManString2BatteryCalibTable OBJECT-TYPE
- SYNTAX SEQUENCE OF BattManString2BatteryCalibTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting calibration information from each battery in String 2."
- ::= { battManBatteryCalib 4 }
-
-battManString2BatteryCalibTableEntry OBJECT-TYPE
- SYNTAX BattManString2BatteryCalibTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The string to get data from."
- INDEX { battManString2BatteryCalibIndex }
- ::= { battManString2BatteryCalibTable 1 }
-
-BattManString2BatteryCalibTableEntry ::=
- SEQUENCE {
- battManString2BatteryCalibIndex INTEGER,
- battManString2BatteryInterTierOhmicValue INTEGER
- }
-
-battManString2BatteryCalibIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of battery calibration entries in the table."
- ::= { battManString2BatteryCalibTableEntry 1 }
-
-battManString2BatteryInterTierOhmicValue OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The battery inter-tier ohmic value in ohms."
- ::= { battManString2BatteryCalibTableEntry 2 }
-
--- the battManConfig group
-
-battManConfigApplication OBJECT-TYPE
- SYNTAX INTEGER {
- silcon (1),
- other (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The type of application the battery manager is installed on:
- Silcon(1) Silcon UPS or
- Other(2) Other UPS/Charger."
- ::= { battManConfig 1 }
-
-battManConfigBatteryChemistry OBJECT-TYPE
- SYNTAX INTEGER {
- leadAcid (1),
- nickel-Cadmium (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The battery chemistry of the monitored batteries:
- LeadAcid(1) Lead Acid or
- Nickel-Cadmium(2) Nickel-Cadmium."
- ::= { battManConfig 2 }
-
-battManConfigBatteryAHCapacity OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The amp hour capacity of the monitored batteries 5-2000 AH."
- ::= { battManConfig 3 }
-
-battManConfigNumberofStrings OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The number of strings in the battery manager system (1 - 2 Silcon)/(1 Other)."
- ::= { battManConfig 4 }
-
-battManConfigBatteriesperString OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The number of batteries per string."
- ::= { battManConfig 5 }
-
-battManConfigCellsperBattery OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The number of cells per battery (1 - 6 for lead-acid, 1 - 2 for NiCd."
- ::= { battManConfig 6 }
-
-battManConfigMinCellVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The minimum battery cell voltage alarm limit in millivolts DC."
- ::= { battManConfig 7 }
-
-battManConfigMaxCellVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The maximum battery cell voltage alarm limit in millivolts DC."
- ::= { battManConfig 8 }
-
-battManConfigMaxPilotTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The maximum pilot battery temperature alarm limit in tenths of degrees Fahrenheit."
- ::= { battManConfig 9 }
-
-battManConfigMaxPilotTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The maximum pilot battery temperature alarm limit in tenths of degrees Celcius."
- ::= { battManConfig 10 }
-
-battManConfigMaxAmbientTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The maximum ambient temperature alarm limit in tenths of degrees Fahrenheit."
- ::= { battManConfig 11 }
-
-battManConfigMaxAmbientTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The maximum ambient temperature alarm limit in tenths of degrees Celcius."
- ::= { battManConfig 12 }
-
-battManConfigMinAmbientTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The Minimum Ambient Temperature alarm limit in tenths of degrees Fahrenheit."
- ::= { battManConfig 13 }
-
-battManConfigMinAmbientTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The Minimum Ambient Temperature alarm limit in tenths of degrees Celcius."
- ::= { battManConfig 14 }
-
-battManConfigMaxRippleCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The maximum ripple current alarm limit for the monitored battery
- strings in percent of AH capacity."
- ::= { battManConfig 15 }
-
-battManConfigMaxCurrentAcceptanceDeviation OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The maximum current acceptance deviation alarm limit in percentage."
- ::= { battManConfig 16 }
-
-battManConfigMonitorWireLength OBJECT-TYPE
- SYNTAX INTEGER {
- fiftyFeetOrLess (1),
- moreThanFiftyFeet (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The monitor wire length:
- fiftyFeetOrLess (1) indicates that the wire length is less than or equal to 50 feet.
- moreThanFiftyFeet (2) indicates that the wire length is greater than 50 feet."
- ::= { battManConfig 17 }
-
-battManConfigDischargeVoltageAlarmLevel OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The discharge voltage alarm level in percent."
- ::= { battManConfig 18 }
-
-battManConfigAutoAnnunciatorReset OBJECT-TYPE
- SYNTAX INTEGER {
- disabled (1),
- enabled (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The annunciator output signal reset method:
- disabled(1) means the annunciator signal output will be reset when the reset button is pressed.
- enabled(2) means the annunciator will stop signalling when all alarm conditions clear."
- ::= { battManConfig 19 }
-
--- the battManAlarm group
-
-battManAlarmManagementController OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The Management Controller Alarm is :
- normal(1) no alarm condtions identified
- alarm(2) an alarm condition exits."
- ::= { battManAlarm 1 }
-
-battManAlarmBatteries OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The Batteries Alarm is :
- normal(1) no alarm condtions identified
- alarm(2) an alarm condition exits."
- ::= { battManAlarm 2 }
-
-battManAlarmCharger OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The Charger Alarm is :
- normal(1) no alarm condtions identified
- alarm(2) an alarm condition exits."
- ::= { battManAlarm 3 }
-
-battManAlarmEnvironment OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The Environment Alarm is :
- normal(1) no alarm condtions identified
- alarm(2) an alarm condition exits."
- ::= { battManAlarm 4 }
-
--- the battManSystemStatus group
-
--- These are system wide parameters
-
-battManSystemAmbientTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system ambient temperture in tenths of degrees Celcius."
- ::= { battManSystemStatus 1 }
-
-battManSystemAmbientTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system ambient temperture in tenths of degrees Fahrenheit."
- ::= { battManSystemStatus 2 }
-
-battManSystemPilotTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system pilot temperature in tenths of degrees Celcius."
- ::= { battManSystemStatus 3 }
-
-battManSystemPilotTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system pilot temperature in tenths of degrees Fahrenheit."
- ::= { battManSystemStatus 4 }
-
-battManSystemAmbientHighTempAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that the system has a high temperature alarm."
- ::= { battManSystemStatus 5 }
-
-battManSystemAmbientLowTempAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that the system has a low temperature alarm."
- ::= { battManSystemStatus 6 }
-
-battManSystemPilotBatteryHighTempAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that the system has a pilot battery high temperature alarm."
- ::= { battManSystemStatus 7 }
-
-battManSystemPilotProbeDisconnected OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that the system pilot probe is disconnected."
- ::= { battManSystemStatus 8 }
-
-battManSystemAmbientProbeDisconnected OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that the system ambient probe is disconnected."
- ::= { battManSystemStatus 9 }
-
--- This is a table of input contact parameters
-
-battManInputContactTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the battManContactTable."
- ::= { battManInputContactStatus 1 }
-
-battManInputContactTable OBJECT-TYPE
- SYNTAX SEQUENCE OF BattManInputContactTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting information from each contact
- in the system. "
- ::= { battManInputContactStatus 2 }
-
-battManInputContactTableEntry OBJECT-TYPE
- SYNTAX BattManInputContactTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The contact to get data from."
- INDEX { battManInputContactIndex }
- ::= { battManInputContactTable 1 }
-
-BattManInputContactTableEntry ::=
- SEQUENCE {
- battManInputContactIndex INTEGER,
- battManInputContactName DisplayString,
- battManInputContactAlarmState INTEGER,
- battManInputContactState INTEGER,
- battManInputContactNormalState INTEGER,
- battManInputContactAlarmDelay INTEGER
- }
-
-battManInputContactIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of contact entries in the table."
- ::= { battManInputContactTableEntry 1 }
-
-battManInputContactName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the input contact."
- ::= { battManInputContactTableEntry 2 }
-
-battManInputContactAlarmState OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that the alarm condition is active for this contact."
- ::= { battManInputContactTableEntry 3 }
-
-battManInputContactState OBJECT-TYPE
- SYNTAX INTEGER {
- open (1),
- closed (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to open(1), the input contact is in the open state.
- When set to closed(2), the input contact is in the closed state."
- ::= { battManInputContactTableEntry 4 }
-
-battManInputContactNormalState OBJECT-TYPE
- SYNTAX INTEGER {
- open (1),
- closed (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to open(1), the input contact is normally open.
- When set to closed(2), the input contact is normally closed."
- ::= { battManInputContactTableEntry 5 }
-
-battManInputContactAlarmDelay OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The alarm delay time in seconds."
- ::= { battManInputContactTableEntry 6 }
-
--- This is a table of battery string parameters
-
-battManStringTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the battManStringTable."
- ::= { battManStringStatus 1 }
-
-battManStringTable OBJECT-TYPE
- SYNTAX SEQUENCE OF BattManStringTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting information from each string
- in the system. "
- ::= { battManStringStatus 2 }
-
-battManStringTableEntry OBJECT-TYPE
- SYNTAX BattManStringTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The string to get data from."
- INDEX { battManStringIndex }
- ::= { battManStringTable 1 }
-
-BattManStringTableEntry ::=
- SEQUENCE {
- battManStringIndex INTEGER,
- battManStringCurrent INTEGER,
- battManStringRippleCurrent INTEGER,
- battManStringChargerHighVoltageAlarm INTEGER,
- battManStringChargerLowVoltageAlarm INTEGER,
- battManStringCurrentProbeDisconnected INTEGER,
- battManStringOnBattery INTEGER
- }
-
-battManStringIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of string entries in the table."
- ::= { battManStringTableEntry 1 }
-
-battManStringCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The string current in tenths of Amps."
- ::= { battManStringTableEntry 2 }
-
-battManStringRippleCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The string ripple current in tenths of Amps."
- ::= { battManStringTableEntry 3 }
-
-battManStringChargerHighVoltageAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that the string charger has a high voltage alarm."
- ::= { battManStringTableEntry 4 }
-
-battManStringChargerLowVoltageAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that the string charger has a low voltage alarm."
- ::= { battManStringTableEntry 5 }
-
-battManStringCurrentProbeDisconnected OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that the string charger probe is disconnected."
- ::= { battManStringTableEntry 6 }
-
-battManStringOnBattery OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that the string is in the on-battery state."
- ::= { battManStringTableEntry 7 }
-
--- the battManString1BatteryStatus group
-
-battManString1BatteryTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the battManString1BatteryStatusTable."
- ::= { battManBatteryStatus 1 }
-
-battManString1BatteryTable OBJECT-TYPE
- SYNTAX SEQUENCE OF BattManString1BatteryTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting information from each string
- in the system. "
- ::= { battManBatteryStatus 2 }
-
-battManString1BatteryTableEntry OBJECT-TYPE
- SYNTAX BattManString1BatteryTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The string to get data from."
- INDEX { battManString1BatteryIndex }
- ::= { battManString1BatteryTable 1 }
-
-BattManString1BatteryTableEntry ::=
- SEQUENCE {
- battManString1BatteryIndex INTEGER,
- battManString1BatteryVoltage INTEGER,
- battManString1BatteryLowestVoltage INTEGER,
- battManString1BatteryCellShorted INTEGER,
- battManString1BatteryOpenFuseOrConnection INTEGER,
- battManString1BatteryLowCapacity INTEGER,
- battManString1BatteryHighOhmicValue INTEGER,
- battManString1BatteryThermalRunaway INTEGER,
- battManString1BatteryDryout INTEGER
- }
-
-battManString1BatteryIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of string entries in the table."
- ::= { battManString1BatteryTableEntry 1 }
-
-battManString1BatteryVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The battery voltage in milli VDC."
- ::= { battManString1BatteryTableEntry 2 }
-
-battManString1BatteryLowestVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The lowest battery discharge voltage during the last power event in milli VDC."
- ::= { battManString1BatteryTableEntry 3 }
-
-battManString1BatteryCellShorted OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that a battery cell is shorted."
- ::= { battManString1BatteryTableEntry 4 }
-
-battManString1BatteryOpenFuseOrConnection OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that a fuse or connection is open."
- ::= { battManString1BatteryTableEntry 5 }
-
-battManString1BatteryLowCapacity OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates a battery has low capacity."
- ::= { battManString1BatteryTableEntry 6 }
-
-battManString1BatteryHighOhmicValue OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates a battery has a high ohmic value."
- ::= { battManString1BatteryTableEntry 7 }
-
-battManString1BatteryThermalRunaway OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates a battery has a thermal runaway condition."
- ::= { battManString1BatteryTableEntry 8 }
-
-battManString1BatteryDryout OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates a battery has a dryout condition."
- ::= { battManString1BatteryTableEntry 9 }
-
--- the battManString2BatteryStatus group
-
-battManString2BatteryTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the battManString2BatteryStatusTable."
- ::= { battManBatteryStatus 3 }
-
-battManString2BatteryTable OBJECT-TYPE
- SYNTAX SEQUENCE OF BattManString2BatteryTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting information from each string
- in the system. "
- ::= { battManBatteryStatus 4 }
-
-battManString2BatteryTableEntry OBJECT-TYPE
- SYNTAX BattManString2BatteryTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The string to get data from."
- INDEX { battManString2BatteryIndex }
- ::= { battManString2BatteryTable 1 }
-
-BattManString2BatteryTableEntry ::=
- SEQUENCE {
- battManString2BatteryIndex INTEGER,
- battManString2BatteryVoltage INTEGER,
- battManString2BatteryLowestVoltage INTEGER,
- battManString2BatteryCellShorted INTEGER,
- battManString2BatteryOpenFuseOrConnection INTEGER,
- battManString2BatteryLowCapacity INTEGER,
- battManString2BatteryHighOhmicValue INTEGER,
- battManString2BatteryThermalRunaway INTEGER,
- battManString2BatteryDryout INTEGER
- }
-
-battManString2BatteryIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of string entries in the table."
- ::= { battManString2BatteryTableEntry 1 }
-
-battManString2BatteryVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The battery voltage in milli VDC."
- ::= { battManString2BatteryTableEntry 2 }
-
-battManString2BatteryLowestVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The lowest battery discharge voltage during the last power event in milli VDC."
- ::= { battManString2BatteryTableEntry 3 }
-
-battManString2BatteryCellShorted OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that a battery cell is shorted."
- ::= { battManString2BatteryTableEntry 4 }
-
-battManString2BatteryOpenFuseOrConnection OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates that a fuse or connection is open."
- ::= { battManString2BatteryTableEntry 5 }
-
-battManString2BatteryLowCapacity OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates a battery has low capacity."
- ::= { battManString2BatteryTableEntry 6 }
-
-battManString2BatteryHighOhmicValue OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates a battery has a high ohmic value."
- ::= { battManString2BatteryTableEntry 7 }
-
-battManString2BatteryThermalRunaway OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates a battery has a thermal runaway condition."
- ::= { battManString2BatteryTableEntry 8 }
-
-battManString2BatteryDryout OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- alarm (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When set to alarm(2), indicates a battery has a dryout condition."
- ::= { battManString2BatteryTableEntry 9 }
-
--- battery manager control group
-battManRemoteAnnunciatorReset OBJECT-TYPE
- SYNTAX INTEGER {
- noOperation (1),
- reset (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to reset(2) will reset the user interface annunciator.
- Getting this OID will do nothing and return the noOperation(1) value."
- ::= { battManControl 1 }
-
-battManResetChargeCurrentDeviationBenchmark OBJECT-TYPE
- SYNTAX INTEGER {
- noOperation (1),
- reset (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to reset(2) will reset the charge current deviation benchmark.
- Getting this OID will do nothing and return the noOperation(1) value."
- ::= { battManControl 2 }
-
-battManResetLowestDischargeVoltages OBJECT-TYPE
- SYNTAX INTEGER {
- noOperation (1),
- reset (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to reset(2) will reset the lowest discharge voltages.
- Getting this OID will do nothing and return the noOperation(1) value."
- ::= { battManControl 3 }
-
--- the battManTestResults group
-
---string 1 test results table
-
-battManString1OhmicValueLastDischargeInfo OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Informational text showing the date/time, load, and pilot temperature for the string
- during the last discharge when ohmic values were recorded."
- ::= { battManTestResults 1 }
-
-battManString1OhmicValueTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the battManString1OhmicValueTable."
- ::= { battManTestResults 2 }
-
-battManString1OhmicValueTable OBJECT-TYPE
- SYNTAX SEQUENCE OF BattManString1OhmicValueTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting ohmic value information from each battery in String 1."
- ::= { battManTestResults 3 }
-
-battManString1OhmicValueTableEntry OBJECT-TYPE
- SYNTAX BattManString1OhmicValueTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The string to get data from."
- INDEX { battManString1OhmicValueIndex }
- ::= { battManString1OhmicValueTable 1 }
-
-BattManString1OhmicValueTableEntry ::=
- SEQUENCE {
- battManString1OhmicValueIndex INTEGER,
- battManString1OhmicValueData INTEGER
- }
-
-battManString1OhmicValueIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The battery number."
- ::= { battManString1OhmicValueTableEntry 1 }
-
-battManString1OhmicValueData OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The battery inter-tier ohmic value in ohms.
- Note: Negative values are invalid and may indicate faulty calibration
- of ohmic value correction factors."
- ::= { battManString1OhmicValueTableEntry 2 }
-
-battManString1ResponseTestChangeTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the battManString1ResponseTestChangeTable."
- ::= { battManTestResults 4 }
-
-battManString1ResponseTestChangeTable OBJECT-TYPE
- SYNTAX SEQUENCE OF BattManString1ResponseTestChangeTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting response test change information from each battery in String 1."
- ::= { battManTestResults 5 }
-
-battManString1ResponseTestChangeTableEntry OBJECT-TYPE
- SYNTAX BattManString1ResponseTestChangeTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The string to get data from."
- INDEX { battManString1ResponseTestChangeIndex }
- ::= { battManString1ResponseTestChangeTable 1 }
-
-BattManString1ResponseTestChangeTableEntry ::=
- SEQUENCE {
- battManString1ResponseTestChangeIndex INTEGER,
- battManString1ResponseTestChangeData INTEGER
- }
-
-battManString1ResponseTestChangeIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of the entries in the table."
- ::= { battManString1ResponseTestChangeTableEntry 1 }
-
-battManString1ResponseTestChangeData OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The battery response test change in percent."
- ::= { battManString1ResponseTestChangeTableEntry 2 }
-
-battManString2OhmicValueLastDischargeInfo OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Informational text showing the date/time, load, and pilot temperature for the string
- during the last discharge when ohmic values were recorded."
- ::= { battManTestResults 6 }
-
-battManString2OhmicValueTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the battManString2OhmicValueTable."
- ::= { battManTestResults 7 }
-
-battManString2OhmicValueTable OBJECT-TYPE
- SYNTAX SEQUENCE OF BattManString2OhmicValueTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting ohmic value information from each battery in String 1."
- ::= { battManTestResults 8 }
-
-battManString2OhmicValueTableEntry OBJECT-TYPE
- SYNTAX BattManString2OhmicValueTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The string to get data from."
- INDEX { battManString2OhmicValueIndex }
- ::= { battManString2OhmicValueTable 1 }
-
-BattManString2OhmicValueTableEntry ::=
- SEQUENCE {
- battManString2OhmicValueIndex INTEGER,
- battManString2OhmicValueData INTEGER
- }
-
-battManString2OhmicValueIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of battery calibration entries in the table."
- ::= { battManString2OhmicValueTableEntry 1 }
-
-battManString2OhmicValueData OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The battery inter-tier ohmic value in ohms.
- Note: Negative values are invalid and may indicate faulty calibration
- of ohmic value correction factors."
- ::= { battManString2OhmicValueTableEntry 2 }
-
-battManString2ResponseTestChangeTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the battManString2ResponseTestChangeTable."
- ::= { battManTestResults 9 }
-
-battManString2ResponseTestChangeTable OBJECT-TYPE
- SYNTAX SEQUENCE OF BattManString2ResponseTestChangeTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting response test change information from each battery in String 1."
- ::= { battManTestResults 10 }
-
-battManString2ResponseTestChangeTableEntry OBJECT-TYPE
- SYNTAX BattManString2ResponseTestChangeTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The string to get data from."
- INDEX { battManString2ResponseTestChangeIndex }
- ::= { battManString2ResponseTestChangeTable 1 }
-
-BattManString2ResponseTestChangeTableEntry ::=
- SEQUENCE {
- battManString2ResponseTestChangeIndex INTEGER,
- battManString2ResponseTestChangeData INTEGER
- }
-
-battManString2ResponseTestChangeIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of the entries in the table."
- ::= { battManString2ResponseTestChangeTableEntry 1 }
-
-battManString2ResponseTestChangeData OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The battery response test change in percent."
- ::= { battManString2ResponseTestChangeTableEntry 2 }
-
--- the xPDUIdent group
-
-xPDUIdentProductName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the PDU."
- ::= { xPDUIdent 1 }
-
-xPDUIdentHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware revision of the PDU.
- This value is set at the factory."
- ::= { xPDUIdent 2 }
-
-xPDUIdentFirmwareAppRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An ID string identifying the application firmware revision of the PDU."
- ::= { xPDUIdent 3 }
-
-xPDUIdentFirmwareAppOSRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An ID string identifying the application operating system firmware revision of the PDU."
- ::= { xPDUIdent 4 }
-
-xPDUIdentFirmwareControllerRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An ID string identifying the PDU controller firmware revision."
- ::= { xPDUIdent 5 }
-
-xPDUIdentDateOfManufacture OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date when the PDU was manufactured in mm/dd/yyyy format.
- This value is set at the factory."
- ::= { xPDUIdent 6 }
-
-xPDUIdentModelNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the model number of
- the PDU. This value is set at the factory."
- ::= { xPDUIdent 7 }
-
-xPDUIdentSerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the serial number of
- the PDU. This value is set at the factory."
- ::= { xPDUIdent 8 }
-
--- the xPDUDevice group
-
-xPDUDeviceNominalMainInputVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The nominal main input voltage to the PDU.
- Measured in Volts, line-to-line for a delta service or
- line-to-neutral for a wye service."
- ::= { xPDUDevice 1 }
-
-xPDUDeviceServiceType OBJECT-TYPE
- SYNTAX INTEGER {
- delta (1),
- wye (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The type of utility input to the PDU. Either 3 wires (delta), or 4 wires (wye)."
- ::= { xPDUDevice 2 }
-
-xPDUDeviceNominalOutputVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The nominal line-to-neutral output voltage to the load measured in Volts."
- ::= { xPDUDevice 3 }
-
-xPDUDeviceMainInputBreakerRating OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The rating of the main input breaker measured in Amps."
- ::= { xPDUDevice 4 }
-
-xPDUDevicePanelBreakerRating OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The rating of the panel breaker measured in Amps."
- ::= { xPDUDevice 5 }
-
-xPDUDeviceTransformerPresent OBJECT-TYPE
- SYNTAX INTEGER {
- notPresent (1),
- present (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates whether or not a transformer is installed in the PDU."
- ::= { xPDUDevice 6 }
-
-xPDUDeviceLoadTieBreakerPresent OBJECT-TYPE
- SYNTAX INTEGER {
- notPresent (1),
- present (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates whether or not a load tie breaker is installed in the PDU."
- ::= { xPDUDevice 7 }
-
-xPDUDeviceLoadTestPortPresent OBJECT-TYPE
- SYNTAX INTEGER {
- notPresent (1),
- present (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates whether or not a load test port is installed in the PDU."
- ::= { xPDUDevice 8 }
-
-xPDUDeviceFusesPresent OBJECT-TYPE
- SYNTAX INTEGER {
- notPresent (1),
- present (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates whether or not the UPS feed from the PDU includes fuses."
- ::= { xPDUDevice 9 }
-
-xPDUDeviceFansPresent OBJECT-TYPE
- SYNTAX INTEGER {
- notPresent (1),
- present (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates whether or not cooling fans are installed in the PDU."
- ::= { xPDUDevice 10 }
-
-xPDUDeviceBypassInputPresent OBJECT-TYPE
- SYNTAX INTEGER {
- notPresent (1),
- present (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates whether or not the PDU is equipped with a second feed for
- the UPS's bypass input."
- ::= { xPDUDevice 11 }
-
-xPDUDeviceCrossTieOutputPresent OBJECT-TYPE
- SYNTAX INTEGER {
- notPresent (1),
- present (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates whether or not the PDU is equipped with a cross-tie output."
- ::= { xPDUDevice 12 }
-
-xPDUDeviceEarthGroundMonitorPresent OBJECT-TYPE
- SYNTAX INTEGER {
- notPresent (1),
- present (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates whether or not the PDU can provide ground current measurements."
- ::= { xPDUDevice 13 }
-
-xPDUDeviceInfraXureType OBJECT-TYPE
- SYNTAX INTEGER {
- typeB (1),
- typeC (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates the configuration of this PDU system.
- Type-B PDU is in a distributed UPS system and has bypass capabilities.
- Type-C PDU receives power from a larger central UPS."
- ::= { xPDUDevice 14 }
-
--- Main Input
-
-xPDUMainInputOverVoltThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..30)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold above which an input over voltage condition will be generated.
- Specified as percent deviation from nominal."
- ::= { xPDUMainInput 1 }
-
-xPDUMainInputUnderVoltThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..30)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold below which an input under voltage condition will be generated.
- Specified as percent deviation from nominal."
- ::= { xPDUMainInput 2 }
-
--- Main Input Voltage Table
-
-xPDUMainInputVoltageTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of Main input voltage entries."
- ::= { xPDUMainInput 3 }
-
-xPDUMainInputVoltageTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XPDUMainInputVoltagePhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of input voltage table entries. The number of
- entries are the phase entries.
- The number of entries is contained in the
- xPDUMainInputVoltageTableSize OID."
- ::= { xPDUMainInput 4 }
-
- xPDUMainInputVoltagePhaseEntry OBJECT-TYPE
- SYNTAX XPDUMainInputVoltagePhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular main input voltage phase."
- INDEX { xPDUMainInputVoltagePhaseIndex }
- ::= { xPDUMainInputVoltageTable 1 }
-
- XPDUMainInputVoltagePhaseEntry ::= SEQUENCE {
- xPDUMainInputVoltagePhaseIndex INTEGER,
- xPDUMainInputVoltageLtoL INTEGER,
- xPDUMainInputVoltageLtoN INTEGER
- }
-
- xPDUMainInputVoltagePhaseIndex OBJECT-TYPE
- SYNTAX INTEGER{
- phase1(1),
- phase2(2),
- phase3(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Description of each input phase entry in the table."
- ::= { xPDUMainInputVoltagePhaseEntry 1 }
-
- xPDUMainInputVoltageLtoL OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Line-to-line PDU input voltage when an isolation transformer is present,
- or -1 if no transformer present in this PDU. Measured in tenths of Volts."
- ::= { xPDUMainInputVoltagePhaseEntry 2 }
-
- xPDUMainInputVoltageLtoN OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Line-to-neutral PDU input voltage when an isolation transformer is not present,
- or -1 if a transformer is present in this PDU. Measured in tenths of Volts."
- ::= { xPDUMainInputVoltagePhaseEntry 3 }
-
-
-xPDUBypassInputOverVoltThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..30)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold above which a bypass input over voltage condition will be generated.
- Specified as percent deviation from nominal."
- ::= { xPDUBypassInput 1 }
-
-xPDUBypassInputUnderVoltThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..30)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold below which an bypass input under voltage condition will be generated.
- Specified as percent deviation from nominal."
- ::= { xPDUBypassInput 2 }
-
--- Bypass Input Voltage Table
-
-xPDUBypassInputVoltageTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of bypass input voltage entries."
- ::= { xPDUBypassInput 3 }
-
-xPDUBypassInputVoltageTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XPDUBypassInputVoltagePhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of output table entries. The number of
- entries are the phase entries.
- The number of entries is contained in the
- xPDUBypassInputVoltageTableSize OID."
- ::= { xPDUBypassInput 4 }
-
- xPDUBypassInputVoltagePhaseEntry OBJECT-TYPE
- SYNTAX XPDUBypassInputVoltagePhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular bypass input voltage phase."
- INDEX { xPDUBypassInputVoltagePhaseIndex }
- ::= { xPDUBypassInputVoltageTable 1 }
-
- XPDUBypassInputVoltagePhaseEntry ::= SEQUENCE {
- xPDUBypassInputVoltagePhaseIndex INTEGER,
- xPDUBypassInputVoltageLtoL INTEGER,
- xPDUBypassInputVoltageLtoN INTEGER
- }
-
- xPDUBypassInputVoltagePhaseIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of each bypass input phase entry in the table."
- ::= { xPDUBypassInputVoltagePhaseEntry 1 }
-
- xPDUBypassInputVoltageLtoL OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Line-to-line bypass input voltage, or -1 if no bypass
- feed is present in this PDU. Measured in tenths of Volts"
- ::= { xPDUBypassInputVoltagePhaseEntry 2 }
-
- xPDUBypassInputVoltageLtoN OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Line-to-neutral bypass input voltage, or -1 if no bypass
- feed is present in this PDU. Measured in tenths of Volts"
- ::= { xPDUBypassInputVoltagePhaseEntry 3 }
-
--- UPS Input Table
-
-xPDUUPSInputVoltageTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of UPS input voltage entries."
- ::= { xPDUUPSInput 1 }
-
-xPDUUPSInputVoltageTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XPDUUPSInputVoltagePhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of UPS input table entries. The number of
- entries are the phase entries.
- The number of entries is contained in the
- xPDUUPSInputVoltageTableSize OID."
- ::= { xPDUUPSInput 2 }
-
- xPDUUPSInputVoltagePhaseEntry OBJECT-TYPE
- SYNTAX XPDUUPSInputVoltagePhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular UPS input voltage phase."
- INDEX { xPDUUPSInputVoltagePhaseIndex }
- ::= { xPDUUPSInputVoltageTable 1 }
-
- XPDUUPSInputVoltagePhaseEntry ::= SEQUENCE {
- xPDUUPSInputVoltagePhaseIndex INTEGER,
- xPDUUPSInputVoltageLtoNPresent INTEGER
- }
-
- xPDUUPSInputVoltagePhaseIndex OBJECT-TYPE
- SYNTAX INTEGER{
- phase1(1),
- phase2(2),
- phase3(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Description of each UPS input phase entry in the table."
- ::= { xPDUUPSInputVoltagePhaseEntry 1 }
-
- xPDUUPSInputVoltageLtoNPresent OBJECT-TYPE
- SYNTAX INTEGER {
- notPresent (1),
- present (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates whether or not voltage is present at the UPS feed."
- ::= { xPDUUPSInputVoltagePhaseEntry 2 }
-
--- System Output
-
-xPDUSystemOutputFrequency OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system output frequency in tenths of Hertz."
- ::= { xPDUSystemOutput 1 }
-
-xPDUSystemOutputNeutralCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Shows the neutral current measured at the system output in tenths of Amps."
- ::= { xPDUSystemOutput 2 }
-
-xPDUSystemOutputTotalPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Shows the total system output power in tenths of kW."
- ::= { xPDUSystemOutput 3 }
-
-xPDUSystemOutputTotalApparentPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Shows the total system output power in tenths of kVA."
- ::= { xPDUSystemOutput 4 }
-
-xPDUSystemOutputTotalPowerFactor OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates the total power factor of the system output.
- A value of 100 representing a unity power factor (1.00).
- Measured in hundredths."
- ::= { xPDUSystemOutput 5 }
-
-xPDUSystemOutputFrequencyTolerance OBJECT-TYPE
- SYNTAX INTEGER{
- freqToleranceOff (1),
- freqTolerancePointTwo (2),
- freqTolerancePointFive (3),
- freqToleranceOne (4),
- freqToleranceOnePointFive (5),
- freqToleranceTwo (6),
- freqToleranceThree (7),
- freqToleranceFour (8),
- freqToleranceFive (9),
- freqToleranceNine (10)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Shows the circuit panel output frequency tolerance in Hertz."
- ::= { xPDUSystemOutput 6 }
-
-xPDUSystemOutputMaxKWPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Defines 100% load in kW.
- Purpose is to set to match UPS capabilities."
- ::= { xPDUSystemOutput 7 }
-
-xPDUSystemOutputOverVoltThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..30)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold above which an output over voltage condition will be generated.
- Specified as percent deviation from nominal."
- ::= { xPDUSystemOutput 8 }
-
-xPDUSystemOutputUnderVoltThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..30)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold below which an output under voltage condition will be generated.
- Specified as percent deviation from nominal."
- ::= { xPDUSystemOutput 9 }
-
-
-xPDUSystemOutputOverCurrentThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..100)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold above which an over current condition will be generated.
- Specified as a percent of the panel breaker rating."
- ::= { xPDUSystemOutput 10 }
-
-xPDUSystemOutputOverCurrentNeutralThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..100)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold above which an Over current neutral condition will be generated.
- Specified as a percent of the panel breaker rating."
- ::= { xPDUSystemOutput 11 }
-
-xPDUSystemOutputUnderCurrentThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..100)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold below which an under current condition will be generated.
- Specified as a percent of the panel breaker rating."
- ::= { xPDUSystemOutput 12 }
-
-xPDUSystemOutputTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of System Output phase entries."
- ::= { xPDUSystemOutput 13 }
-
-xPDUSystemOutputTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XPDUSystemOutputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of system output table entries.
- The number of entries is contained in the
- xPDUSystemOutputTableSize OID."
- ::= { xPDUSystemOutput 14 }
-
- xPDUSystemOutputPhaseEntry OBJECT-TYPE
- SYNTAX XPDUSystemOutputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular system output phase."
- INDEX { xPDUSystemOutputPhaseIndex }
- ::= { xPDUSystemOutputTable 1 }
-
- XPDUSystemOutputPhaseEntry ::= SEQUENCE {
- xPDUSystemOutputPhaseIndex INTEGER,
- xPDUSystemOutputVoltageLtoL INTEGER,
- xPDUSystemOutputVoltageLtoN INTEGER,
- xPDUSystemOutputPhaseCurrent INTEGER,
- xPDUSystemOutputPower INTEGER,
- xPDUSystemOutputApparentPower INTEGER,
- xPDUSystemOutputPowerFactor INTEGER
- }
-
- xPDUSystemOutputPhaseIndex OBJECT-TYPE
- SYNTAX INTEGER{
- phase1(1),
- phase2(2),
- phase3(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Description of each output phase entry in the table."
- ::= { xPDUSystemOutputPhaseEntry 1 }
-
- xPDUSystemOutputVoltageLtoL OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Line-to-line system output voltage available at the cicuit panel.
- Measured in tenths of Volts."
- ::= { xPDUSystemOutputPhaseEntry 2 }
-
- xPDUSystemOutputVoltageLtoN OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Line-to-neutral system output voltage available at the cicuit panel.
- Measured in tenths of Volts."
- ::= { xPDUSystemOutputPhaseEntry 3 }
-
-
- xPDUSystemOutputPhaseCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "System load current per phase. Measured in tenths of Amps."
- ::= { xPDUSystemOutputPhaseEntry 4 }
-
- xPDUSystemOutputPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "System output power per phase. Measured in tenths of kW."
- ::= { xPDUSystemOutputPhaseEntry 5 }
-
- xPDUSystemOutputApparentPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "System output power per phase. Measured in tenths of kVA."
- ::= { xPDUSystemOutputPhaseEntry 6 }
-
- xPDUSystemOutputPowerFactor OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates the Power Factor of the system output per phase.
- A value of 100 representing a unity Power Factor (1.00).
- Measured in hundredths."
- ::= { xPDUSystemOutputPhaseEntry 7 }
-
-xPDUGroundCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Shows the current measured in the earth ground conductor in tenths of Amps."
- ::= { xPDUGroundMonitorPoint 1 }
-
-xPDUGroundCurrentThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..50)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold above which a ground current over current
- condition will be generated. Measured in tenths of Amps."
- ::= { xPDUGroundMonitorPoint 2 }
-
--- System Breakers
-
-xPDUSystemBreakerTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of system breaker entries."
- ::= { xPDUSystemBreakers 1 }
-
-xPDUSystemBreakerTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XPDUSystemBreakerTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of system breaker entries.
- The number of entries is contained in the
- xPDUSystemBreakerTableSize OID."
- ::= { xPDUSystemBreakers 2 }
-
- xPDUSystemBreakerTableEntry OBJECT-TYPE
- SYNTAX XPDUSystemBreakerTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular system breaker."
- INDEX { xPDUSystemBreakerTableIndex }
- ::= { xPDUSystemBreakerTable 1 }
-
- XPDUSystemBreakerTableEntry ::= SEQUENCE {
- xPDUSystemBreakerTableIndex INTEGER,
- xPDUSystemBreakerDescription DisplayString,
- xPDUSystemBreakerPosition INTEGER
- }
-
- xPDUSystemBreakerTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of system breaker entries in the table."
- ::= { xPDUSystemBreakerTableEntry 1 }
-
-xPDUSystemBreakerDescription OBJECT-TYPE
- SYNTAX DisplayString (SIZE (0..79))
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A brief description of the system breakers."
- ::= { xPDUSystemBreakerTableEntry 2 }
-
- xPDUSystemBreakerPosition OBJECT-TYPE
- SYNTAX INTEGER {
- open (1),
- closed (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates whether this breaker is open(1) or closed(2)."
- ::= { xPDUSystemBreakerTableEntry 3 }
-
--- Branch Breakers (Breaker Panel)
-
-xPDUNumOfBranchBreakers OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of branch breakers in the Panel."
- ::= { xPDUBranchBreakers 1 }
-
--- Branch Breakers Table
-
-xPDUBranchBreakerTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of branch breaker entries."
- ::= { xPDUBranchBreakers 2 }
-
-xPDUBranchBreakerTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XPDUBranchBreakerEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of branch breaker table entries. The
- number of entries is given by the value of xPDUBranchBreakerTableSize
- The number of entries is contained in the
- xPDUBranchBreakerTableSize OID."
- ::= { xPDUBranchBreakers 3 }
-
- xPDUBranchBreakerEntry OBJECT-TYPE
- SYNTAX XPDUBranchBreakerEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular branch breaker."
- INDEX { xPDUBranchBreakerTableIndex }
- ::= { xPDUBranchBreakerTable 1 }
-
- XPDUBranchBreakerEntry ::= SEQUENCE {
- xPDUBranchBreakerTableIndex INTEGER,
- xPDUBranchBreakerRating INTEGER,
- xPDUBranchBreakerRDPFeed INTEGER,
- xPDUBranchBreakerTieIndicator INTEGER,
- xPDUBranchBreakerCurrent INTEGER,
- xPDUBranchBreakerOverCurrentThreshold INTEGER,
- xPDUBranchBreakerUnderCurrentThreshold INTEGER
- }
-
- xPDUBranchBreakerTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of branch breaker entries in the table."
- ::= { xPDUBranchBreakerEntry 1 }
-
- xPDUBranchBreakerRating OBJECT-TYPE
- SYNTAX INTEGER (0..100)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Indicates current rating of this breaker.
- 0=Breaker is not present.
- 1=Earth leakage connection.
- 2=Neutral connection.
- A value greater than 2 indicates breaker current rating in Amps."
- ::= { xPDUBranchBreakerEntry 2 }
-
- xPDUBranchBreakerRDPFeed OBJECT-TYPE
- SYNTAX INTEGER {
- remoteDistribution (1),
- noRemoteDistribution (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Indicates that a breaker position is feeding a remote
- distribution panel."
- ::= { xPDUBranchBreakerEntry 3 }
-
- xPDUBranchBreakerTieIndicator OBJECT-TYPE
- SYNTAX INTEGER {
- breakerTied (1),
- breakerUntied (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Indicates whether or not the breaker pole is physically
- connected to the breaker immediately below."
- ::= { xPDUBranchBreakerEntry 4 }
-
- xPDUBranchBreakerCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates the branch current in tenths of Amps or -1 when not available."
- ::= { xPDUBranchBreakerEntry 5 }
-
- xPDUBranchBreakerOverCurrentThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..100)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold above which a branch circuit over current
- condition will be generated.
- Specified as a percent of the branch breaker rating."
- ::= { xPDUBranchBreakerEntry 6 }
-
- xPDUBranchBreakerUnderCurrentThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..100)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold below which a branch circuit under current
- condition will be generated.
- Specified as a percent of the branch breaker rating."
- ::= { xPDUBranchBreakerEntry 7 }
-
--- the xPDUInputContacts group
-
-xPDUInputContactNumContacts OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of contacts supported by the PDU."
- ::= { xPDUInputContacts 1 }
-
-xPDUInputContactTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of input contact entries."
- ::= { xPDUInputContacts 2 }
-
-xPDUInputContactTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XPDUInputContactEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of contacts supported by the PDU.
- The number of entries is contained in the
- xPDUInputContactTableSize OID."
- ::= { xPDUInputContacts 3 }
-
-xPDUInputContactEntry OBJECT-TYPE
- SYNTAX XPDUInputContactEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A contact entry containing information for a given contact."
- INDEX { xPDUInputContactNumber }
- ::= { xPDUInputContactTable 1 }
-
-XPDUInputContactEntry ::=
- SEQUENCE {
- xPDUInputContactNumber INTEGER,
- xPDUInputContactName DisplayString,
- xPDUInputContactNormalState INTEGER,
- xPDUInputContactCurrentState INTEGER
- }
-
-xPDUInputContactNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An index identifying the contact on the PDU."
- ::= { xPDUInputContactEntry 1 }
-
-xPDUInputContactName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The description of the purpose/use of the contact."
- ::= { xPDUInputContactEntry 2 }
-
-xPDUInputContactNormalState OBJECT-TYPE
- SYNTAX INTEGER {
- open (1),
- closed (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The normal operating position of the contact."
- ::= { xPDUInputContactEntry 3 }
-
-xPDUInputContactCurrentState OBJECT-TYPE
- SYNTAX INTEGER {
- open (1),
- closed (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This value indicates the current state of the contact."
- ::= { xPDUInputContactEntry 4 }
-
--- the xPDUOutputRelays group
-
-xPDUOutputRelaysNumRelays OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of output relays supported by the PDU."
- ::= { xPDUOutputRelays 1 }
-
-xPDUOutputRelaysTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of output relay entries."
- ::= { xPDUOutputRelays 2 }
-
-xPDUOutputRelayTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XPDUOutputRelayEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of output relays supported by the PDU.
- The number of entries is contained in the
- xPDUOutputRelayTableSize OID."
- ::= { xPDUOutputRelays 3 }
-
-xPDUOutputRelayEntry OBJECT-TYPE
- SYNTAX XPDUOutputRelayEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A output relay entry containing information for a given contact."
- INDEX { xPDUOutputRelayNumber }
- ::= { xPDUOutputRelayTable 1 }
-
-XPDUOutputRelayEntry ::=
- SEQUENCE {
- xPDUOutputRelayNumber INTEGER,
- xPDUOutputRelayName DisplayString,
- xPDUOutputRelayNormalState INTEGER,
- xPDUOutputRelayCurrentState INTEGER
- }
-
-xPDUOutputRelayNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An index identifying the output relay on the PDU."
- ::= { xPDUOutputRelayEntry 1 }
-
-xPDUOutputRelayName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The description of the purpose/use of the output relay."
- ::= { xPDUOutputRelayEntry 2 }
-
-xPDUOutputRelayNormalState OBJECT-TYPE
- SYNTAX INTEGER {
- open (1),
- closed (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The normal operating position of the output relay."
- ::= { xPDUOutputRelayEntry 3 }
-
-xPDUOutputRelayCurrentState OBJECT-TYPE
- SYNTAX INTEGER {
- open (1),
- closed (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This value indicates the current state of the output relay."
- ::= { xPDUOutputRelayEntry 4 }
-
--- the xPDUMiscGroup
-
-xPDUEPOMode OBJECT-TYPE
- SYNTAX INTEGER {
- armed (1),
- disarmed (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates whether the EPO System is armed(1) or disarmed(2)."
- ::= { xPDUMiscGroup 1 }
-
-xPDUTransformTempStatus OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- overtemp (2),
- noTransformerPresent (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates if the PDU's isolation transformer is over temperature."
- ::= { xPDUMiscGroup 2 }
-
-xPDUCoolingFanStatus OBJECT-TYPE
- SYNTAX INTEGER {
- normal (1),
- failed (2),
- noCoolingFansPresent (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates if one or more of the PDU's cooling fans have failed."
- ::= { xPDUMiscGroup 3 }
-
--- The xATSIdent group
-
-xATSIdentProductName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the transfer switch unit."
- ::= { xATSIdent 1 }
-
-xATSIdentHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware revision of the transfer switch.
- This value is set at the factory."
- ::= { xATSIdent 2 }
-
-xATSIdentFirmwareAppRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An ID string identifying the application firmware revision of the transfer switch."
- ::= { xATSIdent 3 }
-
-xATSIdentFirmwareAppOSRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An ID string identifying the application operating system firmware revision of the transfer switch."
- ::= { xATSIdent 4 }
-
-xATSIdentFirmwareControllerRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An ID string identifying the transfer switch controller firmware revision."
- ::= { xATSIdent 5 }
-
-xATSIdentDateOfManufacture OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date when the transfer switch was manufactured in mm/dd/yyyy format.
- This value is set at the factory."
- ::= { xATSIdent 6 }
-
-xATSIdentModelNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the model number of the transfer switch.
- This value is set at the factory."
- ::= { xATSIdent 7 }
-
-xATSIdentSerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the serial number of the transfer switch.
- This value is set at the factory."
- ::= { xATSIdent 8 }
-
--- The xATSDevice group
-
-xATSDeviceServiceType OBJECT-TYPE
- SYNTAX INTEGER {
- threeWire (1),
- fourWire (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The type of utility input to the transfer switch.
- Either 3 wires (delta), or 4 wires (wye)."
- ::= { xATSDevice 1 }
-
-xATSDeviceNominalVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The nominal line-to-neutral system voltage.
- Measured in Volts, line-to-line for a 3-wire service or
- line-to-neutral for a 4-wire service. -1 if not available."
- ::= { xATSDevice 2 }
-
-xATSDeviceNominalFrequency OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The nominal system frequency. Measured in tenths of Hertz.
- -1 if not available."
- ::= { xATSDevice 3 }
-
-xATSDeviceTransferSwitchRating OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The rating of the transfer switch.
- Measured in Amps."
- ::= { xATSDevice 4 }
-
-xATSDeviceDCBackUpPresent OBJECT-TYPE
- SYNTAX INTEGER{
- yes (1),
- no (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Indicates if a DC backup is present or not."
- ::= { xATSDevice 5 }
-
--- The xATS Switch Status group
-
-xATSSwitchStatusSelectedSource OBJECT-TYPE
- SYNTAX INTEGER{
- none (1),
- source1 (2),
- source2 (3),
- fault (4),
- unknown (5)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The source which is currently selected, i.e. supplying power to the load."
- ::= { xATSSwitchStatus 1 }
-
-xATSSwitchStatusOperationalMode OBJECT-TYPE
- SYNTAX INTEGER{
- automatic (1),
- notInAutoAbnormal (2),
- notInAuto (3),
- unknown (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current operating mode of the transfer switch. When the ATS is in
- automatic mode, generator starting and ATS transferring is all done automatically
- as needed based on the state of source 1. Automatic operation is halted when the
- ATS is in either of the notInAuto modes.
- A mode of notInAuto indicates that the automatic operation switch is in the
- disabled position, as indicated by the xATSSwitchStatusAutomaticOperationSwitch OID.
- The notInAutoAbnormal condition indicates that an abnormal
- condition has caused the transfer switch to halt automatic operation.
- In this case, traps can indicate the exact problem. In the case of
- notInAutoAbnormal, refer to the operation manual for details
- on how debug the condition and restore automatic operation."
- ::= { xATSSwitchStatus 2 }
-
-xATSSwitchStatusAutomaticOperationSwitch OBJECT-TYPE
- SYNTAX INTEGER{
- disabled (1),
- enabled (2),
- unknown (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The position of the automatic operation switch on the front of the transfer switch."
- ::= { xATSSwitchStatus 3 }
-
-xATSSwitchStatusEngineStartSignal OBJECT-TYPE
- SYNTAX INTEGER{
- run (1),
- stop (2),
- unknown (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The position of the Start/Stop contact which signals the generator
- engine to start/run. When the ATS is in automatic mode,
- generator starting/stopping is under ATS control."
- ::= { xATSSwitchStatus 4 }
-
--- The xATS Switch Setting group
-
-xATSSwitchSettingsLowVoltageTransferPoint OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The lowest acceptable voltage condition at source 1.
- When any phase of source 1 is lower than this voltage,
- source quality is considered bad and the generator run signal
- is asserted to begin generator operation.
- Specified in volts, line-to-line for a 3-wire service or
- line-to-neutral for a 4-wire service.
- -1 if not available."
- ::= { xATSSwitchSettings 1 }
-
-xATSSwitchSettingsHighVoltageTransferPoint OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The highest acceptable voltage condition at source 1.
- When any phase of source 1 is greater than this voltage,
- source quality is considered bad and the generator run signal
- is asserted to begin generator operation.
- Specified in volts, line-to-line for a 3-wire service or
- line-to-neutral for a 4-wire service.
- -1 if not available."
- ::= { xATSSwitchSettings 2 }
-
-xATSSwitchSettingsMaxFrequencyDeviation OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The maximum acceptable frequency deviation condition from nominal at source 1.
- When source 1 frequency is outside the specified range,
- source quality is considered bad and the generator run signal
- is asserted to begin generator operation.
- Specified in tenths of Hertz above or below nominal.
- A value of zero indicates that frequency is ignored when
- determining source quality.
- -1 if not available."
- ::= { xATSSwitchSettings 3 }
-
-xATSSwitchSettingsMinPhaseBalance OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The minimum required phase balance at source 1.
- When the percentage difference between the minimum and maximum
- phase voltage measurements at source 1 is greater than this value,
- source quality is considered bad and the generator run signal
- is asserted to begin generator operation.
- Specified as a percentage. A value of zero indicates that phase balance
- is ignored when determining source quality.
- -1 if not available."
- ::= { xATSSwitchSettings 4 }
-
-xATSSwitchSettingsNominalRotation OBJECT-TYPE
- SYNTAX INTEGER{
- abc (1),
- cba (2),
- any (3),
- unknown (4)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The nominal phase rotation (or phase sequence) required by the load.
- For certain types of equipment, such as rotating machinery, phase rotation
- is critical for proper operation as it determines the direction which motors
- will rotate (clockwise or counterclockwise).
- Source quality will be seen as bad if the rotation measured at that
- ATS input does not match this setting.
- If this setting is set to any, phase rotation is ignored."
- ::= { xATSSwitchSettings 5 }
-
-xATSSwitchSettingsAllowClosedTransfer OBJECT-TYPE
- SYNTAX INTEGER{
- yes (1),
- no (2),
- unknown (3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This setting enables seemless (closed) transfers between sources.
- When possible, both source 1 and source 2 are closed to the output
- for a brief time. If closed transfer is not possible within the amount
- of time specified by the xATSSwitchSettingsMaxSyncTime OID,
- an open transfer will be executed."
- ::= { xATSSwitchSettings 6 }
-
-xATSSwitchSettingsMaxSyncTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "When attempting/seeking to perform a closed transfer, this setting defines
- the maximum time allowed before the transfer switch will give up and perform
- an open transfer. Specified in seconds.
- -1 if not available."
- ::= { xATSSwitchSettings 7 }
-
-xATSSwitchSettingsNeutralTransferTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This setting defines how long both source 1 and source 2 will be
- disconnected from the output, during an open transfer.
- Specified in seconds.
- -1 if not available."
- ::= { xATSSwitchSettings 8 }
-
-xATSSwitchSettingsClearLatchedAlarms OBJECT-TYPE
- SYNTAX INTEGER{
- yes (1),
- no (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Clears any latched alarm conditions."
- ::= { xATSSwitchSettings 9 }
-
-xATSSwitchSettingsSetToFactoryDefaults OBJECT-TYPE
- SYNTAX INTEGER{
- yes (1),
- no (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Sets all transfer switch settings to factory default values."
- ::= { xATSSwitchSettings 10 }
-
-
--- The xATSSwitchTimers group
-
- xATSSwitchTimersTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of transfer switch timer entries."
- ::= { xATSSwitchTimers 1 }
-
- xATSSwitchTimersTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XATSSwitchTimersEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of timers supported by ATS.
- The number of entries is contained in the xATSSwitchTimersTableSize OID."
- ::= { xATSSwitchTimers 2 }
-
- xATSSwitchTimersEntry OBJECT-TYPE
- SYNTAX XATSSwitchTimersEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information about an individual ATS timer."
- INDEX { xATSSwitchTimersIndex }
- ::= { xATSSwitchTimersTable 1 }
-
- XATSSwitchTimersEntry ::=
- SEQUENCE {
- xATSSwitchTimersIndex INTEGER,
- xATSSwitchTimersName DisplayString,
- xATSSwitchTimersAbort INTEGER,
- xATSSwitchTimersStatus INTEGER,
- xATSSwitchTimersRemainingTime INTEGER,
- xATSSwitchTimersDelaySetting INTEGER
- }
-
-xATSSwitchTimersIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of timer entries in the table."
- ::= { xATSSwitchTimersEntry 1 }
-
-xATSSwitchTimersName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Name of the individual timer.Refer to ATS operation manual,
- or on-line help, for detailed descriptions of ATS timers."
- ::= { xATSSwitchTimersEntry 2 }
-
-xATSSwitchTimersAbort OBJECT-TYPE
- SYNTAX INTEGER{
- yes (1),
- no (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This aborts the individual timer."
- ::= { xATSSwitchTimersEntry 3 }
-
-xATSSwitchTimersStatus OBJECT-TYPE
- SYNTAX INTEGER{
- inactive (1),
- active (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the individual timer. Designates whether this timer
- entry is currently running or inactive."
- ::= { xATSSwitchTimersEntry 4 }
-
-xATSSwitchTimersRemainingTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The time remaining for this timer entry.
- Specified in seconds."
- ::= { xATSSwitchTimersEntry 5 }
-
-xATSSwitchTimersDelaySetting OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The delay settings associated with this timer entry.
- When this timer entry is active, the timer value must exceed this setting
- before the ATS behavior associated with this timer is executed.
- Refer to ATS operation manual, or on-line help, for detailed
- descriptions of ATS timers."
- ::= { xATSSwitchTimersEntry 6 }
-
--- The xATSSwitchBlockMap group
-
- xATSSwitchBlockMapTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of blocking map entries, or how many ATS actions can be blocked."
- ::= { xATSSwitchBlockMap 1 }
-
- xATSSwitchBlockMapTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XATSSwitchBlockMapEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of blocking maps supported by the ATS.
- The number of entries is contained in the xATSSwitchBlockMapTableSize OID."
- ::= { xATSSwitchBlockMap 2 }
-
- xATSSwitchBlockMapEntry OBJECT-TYPE
- SYNTAX XATSSwitchBlockMapEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information about a specific ATS blocking map."
- INDEX { xATSSwitchBlockMapIndex }
- ::= { xATSSwitchBlockMapTable 1 }
-
- XATSSwitchBlockMapEntry ::=
- SEQUENCE {
- xATSSwitchBlockMapIndex INTEGER,
- xATSSwitchBlockMapName DisplayString,
- xATSSwitchBlockMapStatus INTEGER,
- xATSSwitchBlockMapSetting INTEGER
- }
-
- xATSSwitchBlockMapIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of blocking map entries in the table."
- ::= { xATSSwitchBlockMapEntry 1 }
-
- xATSSwitchBlockMapName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A string describing the ATS action to be blocked."
- ::= { xATSSwitchBlockMapEntry 2 }
-
- xATSSwitchBlockMapStatus OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Represents the status of this blocking map entry, in bit-mapped format.
- A non-zero value indicates that this entry's ATS action is currently being blocked.
- The bit(s) set indicate which input(s) are causing the blocking (bit0, bit1, etc).
-
- bit 0 - Contact 1
- bit 1 - Contact 2
- bit 2 - Contact 3
- bit 3 - Contact 4."
- ::= { xATSSwitchBlockMapEntry 3 }
-
- xATSSwitchBlockMapSetting OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This setting designates the inputs that block the ATS action
- The mapping is specified as a bit-field, where each bit set indicates
- the input that blocks the ATS action associated with the entry.
-
- bit 0 - Contact 1
- bit 1 - Contact 2
- bit 2 - Contact 3
- bit 3 - Contact 4."
- ::= { xATSSwitchBlockMapEntry 4 }
-
--- The xATSSwitchStatistics group
-
- xATSSwitchStatisticsTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of transfer switch statistics entries."
- ::= { xATSSwitchStatistics 1 }
-
- xATSSwitchStatisticsTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XATSSwitchStatisticsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of statistics supported by ATS.
- The number of entries is contained in the xATSSwitchStatisticsTableSize OID."
- ::= { xATSSwitchStatistics 2 }
-
- xATSSwitchStatisticsEntry OBJECT-TYPE
- SYNTAX XATSSwitchStatisticsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information about an individual ATS statistic."
- INDEX { xATSSwitchStatisticsIndex }
- ::= { xATSSwitchStatisticsTable 1 }
-
- XATSSwitchStatisticsEntry ::=
- SEQUENCE {
- xATSSwitchStatisticsIndex INTEGER,
- xATSSwitchStatisticsName DisplayString,
- xATSSwitchStatisticsValue DisplayString,
- xATSSwitchStatisticsReset INTEGER
- }
-
- xATSSwitchStatisticsIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Index of ATS statistics entries in the table."
- ::= { xATSSwitchStatisticsEntry 1 }
-
- xATSSwitchStatisticsName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This is the name of the ATS statistic associated with this entry."
- ::= { xATSSwitchStatisticsEntry 2 }
-
- xATSSwitchStatisticsValue OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This is the value of the ATS statistic associated with this entry."
- ::= { xATSSwitchStatisticsEntry 3 }
-
- xATSSwitchStatisticsReset OBJECT-TYPE
- SYNTAX INTEGER{
- yes (1),
- no (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This will reset the individual ATS statistic associated with this entry."
- ::= { xATSSwitchStatisticsEntry 4 }
-
--- The xATS Source 1 group
-
-xATSSource1Name OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "String used to identify source 1."
- ::= { xATSSource1 1 }
-
-xATSSource1Position OBJECT-TYPE
- SYNTAX INTEGER{
- open (1),
- closed (2),
- tripped (3),
- unknown (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current position of the switch at source 1."
- ::= { xATSSource1 2 }
-
-xATSSource1Frequency OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frequency at source 1 in tenths of Hertz.
- -1 if unavailable."
- ::= { xATSSource1 3 }
-
-xATSSource1Quality OBJECT-TYPE
- SYNTAX INTEGER{
- sourceGood (1),
- lowVoltage (2),
- highVoltage (3),
- phaseImbalance (4),
- freqOutOfRange (5),
- badRotation (6),
- unknown (7)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current line quality of source 1."
- ::= { xATSSource1 4 }
-
-xATSSource1Rotation OBJECT-TYPE
- SYNTAX INTEGER{
- abc (1),
- cba (2),
- unknown (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The phase rotation measured at the source 1 input of the ATS.
- The sequence is a reference to the order in which the three phases
- pass the zero-crossing boundary in time."
- ::= { xATSSource1 5 }
-
-xATSSource1TableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of input voltage entries at the source 1 input of the ATS."
- ::= { xATSSource1 6 }
-
- xATSSource1Table OBJECT-TYPE
- SYNTAX SEQUENCE OF XATSSource1PhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of voltage table entries for source 1. The number of
- entries are the phase entries. The number of entries is contained in the
- xATSSource1TableSize OID."
- ::= { xATSSource1 7 }
-
- xATSSource1PhaseEntry OBJECT-TYPE
- SYNTAX XATSSource1PhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular input voltage phase at the source 1 input of the ATS."
- INDEX { xATSSource1Index }
- ::= { xATSSource1Table 1 }
-
- XATSSource1PhaseEntry ::= SEQUENCE {
- xATSSource1Index INTEGER,
- xATSSource1VoltageLtoL INTEGER,
- xATSSource1VoltageLtoN INTEGER
- }
-
- xATSSource1Index OBJECT-TYPE
- SYNTAX INTEGER{
- phase1(1),
- phase2(2),
- phase3(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Description of each phase utilized at source 1."
- ::= { xATSSource1PhaseEntry 1 }
-
- xATSSource1VoltageLtoL OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Source 1 line-to-line input voltage.
- Measured in tenths of Volts."
- ::= { xATSSource1PhaseEntry 2 }
-
- xATSSource1VoltageLtoN OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Source 1 line-to-neutral input voltage.
- Measured in tenths of Volts. -1 for a 3-wire service type."
- ::= { xATSSource1PhaseEntry 3 }
-
--- The xATS Source 2 group
-
-xATSSource2Name OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "String used to identify source 2."
- ::= { xATSSource2 1 }
-
-xATSSource2Position OBJECT-TYPE
- SYNTAX INTEGER{
- open (1),
- closed (2),
- tripped (3),
- unknown (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current position of the switch at source 2."
- ::= { xATSSource2 2 }
-
-xATSSource2Frequency OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frequency at source 2 in tenths of Hertz.
- -1 if not available."
- ::= { xATSSource2 3 }
-
-xATSSource2Quality OBJECT-TYPE
- SYNTAX INTEGER{
- sourceGood (1),
- lowVoltage (2),
- highVoltage (3),
- phaseImbalance (4),
- freqOutOfRange (5),
- badRotation (6),
- unknown (7)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current line quality of source 2."
- ::= { xATSSource2 4 }
-
-xATSSource2Rotation OBJECT-TYPE
- SYNTAX INTEGER{
- abc (1),
- cba (2),
- unknown (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The phase rotation measured at the source 2 input of the ATS.
- -1 if not available."
- ::= { xATSSource2 5 }
-
-xATSSource2TableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of input voltage entries at the source 2 input of the ATS."
- ::= { xATSSource2 6 }
-
- xATSSource2Table OBJECT-TYPE
- SYNTAX SEQUENCE OF XATSSource2PhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of voltage table entries for the source 2. The number of
- entries are the phase entries. The number of entries is contained in the
- xATSSource2TableSize OID."
- ::= { xATSSource2 7 }
-
- xATSSource2PhaseEntry OBJECT-TYPE
- SYNTAX XATSSource2PhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular input voltage phase at the source 2 input of the ATS."
- INDEX { xATSSource2Index }
- ::= { xATSSource2Table 1 }
-
- XATSSource2PhaseEntry ::= SEQUENCE {
- xATSSource2Index INTEGER,
- xATSSource2VoltageLtoL INTEGER,
- xATSSource2VoltageLtoN INTEGER
- }
-
- xATSSource2Index OBJECT-TYPE
- SYNTAX INTEGER{
- phase1(1),
- phase2(2),
- phase3(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Description of each phase utilized at the source 2."
- ::= { xATSSource2PhaseEntry 1 }
-
- xATSSource2VoltageLtoL OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Source 2 line-to-line input voltage.
- Measured in tenths of Volts."
- ::= { xATSSource2PhaseEntry 2 }
-
- xATSSource2VoltageLtoN OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Source 2 line-to-neutral input voltage.
- Measured in tenths of Volts. -1 for a 3-wire service type."
- ::= { xATSSource2PhaseEntry 3 }
-
--- The xATSSystemOutput
-
-xATSSystemOutputFrequency OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system output frequency in tenths of Hertz."
- ::= { xATSSystemOutput 1 }
-
-xATSSystemOutputTotalPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Shows the total system output power in tenths of kW."
- ::= { xATSSystemOutput 2 }
-
-xATSSystemOutputTotalApparentPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Shows the total system output power in tenths of kVA."
- ::= { xATSSystemOutput 3 }
-
-xATSSystemOutputTotalPowerFactor OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates the total power factor of the system output.
- A value of 100 representing a unity power factor (1.00)
- Specified in hundredths."
- ::= { xATSSystemOutput 4 }
-
-xATSSystemOutputFrequencyTolerance OBJECT-TYPE
- SYNTAX INTEGER{
- freqToleranceOff (1),
- freqTolerancePointTwo (2),
- freqTolerancePointFive (3),
- freqToleranceOne (4),
- freqToleranceOnePointFive (5),
- freqToleranceTwo (6),
- freqToleranceThree (7),
- freqToleranceFour (8),
- freqToleranceFive (9),
- freqToleranceNine (10)
-
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Shows the panel output frequency tolerance in +/- Hertz."
- ::= { xATSSystemOutput 5 }
-
-xATSSystemOutputOverVoltThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold above which an output over voltage condition will be generated.
- Specified as tenths of percent deviation from nominal.
- A value of zero indicates that the threshold is disabled."
- ::= { xATSSystemOutput 6 }
-
-xATSSystemOutputUnderVoltThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold below which an output under voltage condition will be generated.
- Specified as tenths of percent deviation from nominal.
- A value of zero indicates that the threshold is disabled."
- ::= { xATSSystemOutput 7 }
-
-xATSSystemOutputOverCurrentThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..100)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold above which an over current condition will be generated.
- Specified as a percent of the transfer switch rating (xATSDeviceTransferSwitchRating OID).
- A value of zero indicates that the threshold is disabled."
- ::= { xATSSystemOutput 8 }
-
-xATSSystemOutputUnderCurrentThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..100)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold below which an under current condition will be generated.
- Specified as a percent of the transfer switch rating (xATSDeviceTransferSwitchRating OID).
- A value of zero indicates that the threshold is disabled."
- ::= { xATSSystemOutput 9 }
-
-xATSSystemOutputAlarmDelayThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Delay the generation of an output alarm.
- Specified in seconds."
- ::= { xATSSystemOutput 10 }
-
-xATSSystemOutputTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of system output phase entries."
- ::= { xATSSystemOutput 11 }
-
-xATSSystemOutputTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XATSSystemOutputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of system output table entries.
- The number of entries is contained in the xATSSystemOutputTableSize OID."
- ::= { xATSSystemOutput 12 }
-
- xATSSystemOutputPhaseEntry OBJECT-TYPE
- SYNTAX XATSSystemOutputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular system output phase."
- INDEX { xATSSystemOutputPhaseIndex }
- ::= { xATSSystemOutputTable 1 }
-
- XATSSystemOutputPhaseEntry ::= SEQUENCE {
- xATSSystemOutputPhaseIndex INTEGER,
- xATSSystemOutputVoltageLtoL INTEGER,
- xATSSystemOutputVoltageLtoN INTEGER,
- xATSSystemOutputPhaseCurrent INTEGER,
- xATSSystemOutputPower INTEGER,
- xATSSystemOutputApparentPower INTEGER,
- xATSSystemOutputPowerFactor INTEGER
- }
-
- xATSSystemOutputPhaseIndex OBJECT-TYPE
- SYNTAX INTEGER{
- phase1(1),
- phase2(2),
- phase3(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Description of each system output phase utilized in this device."
- ::= { xATSSystemOutputPhaseEntry 1 }
-
- xATSSystemOutputVoltageLtoL OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Line-to-line system output voltage, measured in tenths of Volts, available at the circuit panel.
- -1 if not available."
- ::= { xATSSystemOutputPhaseEntry 2 }
-
- xATSSystemOutputVoltageLtoN OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Line-to-neutral system output voltage, measured in tenths of Volts, available at the circuit panel.
- -1 for a 3-wire service type or if not available."
- ::= { xATSSystemOutputPhaseEntry 3 }
-
- xATSSystemOutputPhaseCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "System load current per phase. Measured in Amps.
- -1 if not available."
- ::= { xATSSystemOutputPhaseEntry 4 }
-
- xATSSystemOutputPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "System output power per phase. Measured in tenths of kW."
- ::= { xATSSystemOutputPhaseEntry 5 }
-
- xATSSystemOutputApparentPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "system output power per phase. Measured in tenths of kVA."
- ::= { xATSSystemOutputPhaseEntry 6 }
-
- xATSSystemOutputPowerFactor OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "indicates the power factor of the system output per phase.
- A value of 100 representing a unity power factor (1.00).
- Measured in hundredths."
- ::= { xATSSystemOutputPhaseEntry 7 }
-
--- xATS TestingStatus group
-
-xATSTestingStatusSelectTestProcess OBJECT-TYPE
- SYNTAX INTEGER {
- engineStartTest (1),
- systemLoadTest (2),
- generatorHoldTest (3),
- cancelTest (4)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Type of tests that can be selected when no test has been scheduled.
- engineStartTest and systemLoadTest may be selected when no tests
- are running. Tests that are selected may be cancelled manually."
- ::= { xATSTestingStatus 1 }
-
-xATSTestingStatusTestStatus OBJECT-TYPE
- SYNTAX INTEGER {
- noTestInProcess (1),
- testPending (2),
- startingEngine (3),
- engineWarmingUp (4),
- awaitingTransferToS2 (5),
- testingWithLoad (6),
- awaitingRetransferToS1 (7),
- testingWithoutLoad (8),
- stoppingEngine (9),
- holdingOnGenerator (10)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The present system test status/state."
- ::= { xATSTestingStatus 2 }
-
-xATSTestingStatusProfileWarmupTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The amount of time that the generator will warm up during a test.
- This is portion of the test when the xATSTestingStatusTestStatus
- OID returns the value engineWarmingUp.
- Specified in seconds."
- ::= { xATSTestingStatus 3 }
-
-xATSTestingStatusProfileLoadedTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The amount of time that ATS will apply the system load to the generator
- during a system load test.
- This is portion of the test when the xATSTestingStatusTestStatus
- OID returns the value testingWithLoad.
- Specified in minutes."
- ::= { xATSTestingStatus 4 }
-
-xATSTestingStatusProfileUnloadedTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The amount of time that the generator will run following the warm up
- portion of a start test, or the loaded portion of a load test.
- This is portion of the test when the xATSTestingStatusTestStatus
- OID returns the value testingWithoutLoad.
- Specified in seconds."
- ::= { xATSTestingStatus 5 }
-
--- xATS TestingResults group
-
-xATSTestingResultsLastDateOfTest OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Date of the last test that was performed, either scheduled or manual.
- Test results are available in the xATSTestingResultsLastResult OID.
- Specified in the dd/mm/yyyy format, or 'none' if not available."
- ::= { xATSTestingResults 1 }
-
-xATSTestingResultsLastResult OBJECT-TYPE
- SYNTAX INTEGER {
- startTestPassed (1),
- loadTestPassed (2),
- startSignalFailure (3),
- failedGenNotInAuto (4),
- failedGenEmerStop (5),
- failedGenShutdown (6),
- failedGenDidNotStart (7),
- failedS2NeverGood (8),
- genFailedDuringWarmup (9),
- failureOnXferToS1 (10),
- genFailedLoaded (11),
- failureOnRexferToS2 (12),
- genFailedToStop (13),
- failedAtsInternalFault (14),
- failedAtsNotInAuto (15),
- cancelledManualTest (16),
- cancelledScheduledTest (17)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The result of the last ATS/generator system test."
- ::= { xATSTestingResults 2 }
-
-xATSTestingResultsTestLastTestTime OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Time of day at which the last test was performed, either scheduled or manual.
- Test results are available in the xATSTestingResultsLastResult OID.
- Specified in the hh:mm:ss format, or 'none' if not available."
- ::= { xATSTestingResults 3 }
-
-xATSTestingResultsLastCrankDuration OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The time spent cranking the generator before it started during the last test.
- Specified in seconds, or -1 if not available."
- ::= { xATSTestingResults 4 }
-
-xATSTestingResultsLastWarmupDuration OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The time spent in the engineWarmingUp state during the last system test.
- Specified in seconds, or -1 if not available."
- ::= { xATSTestingResults 5 }
-
-xATSTestingResultsLastLoadedDuration OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The time spent in the testingWithLoad state during the last system test.
- Specified in seconds, or -1 if not available."
- ::= { xATSTestingResults 6 }
-
-xATSTestingResultsLastUnloadedDuration OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The time spent in the testingWithoutLoad state during the last system test.
- Specified in seconds, or -1 if not available."
- ::= { xATSTestingResults 7 }
-
--- xATS TestingSchedule group
-
-xATSTestingScheduleFrequency OBJECT-TYPE
- SYNTAX INTEGER {
- never (1),
- daily (2),
- weekly (3),
- monthly (4)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The frequency of running scheduled tests."
- ::= { xATSTestingSchedule 1 }
-
-xATSTestingScheduleTestDay OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The desired day for the scheduled test. This object applies only
- when the xATSTestingScheduleFrequency OID is set to weekly or monthly.
- For weekly test frequency, the string is the day the test will be run.
- For monthly test frequency, the string indicates the day,
- and the instance within the month.
- For example, for monthly frequency: 2nd sunday, 3rd monday, 4th tuesday,
- for weekly frequency: sunday, monday, tuesday."
- ::= { xATSTestingSchedule 2 }
-
-xATSTestingScheduleTestTime OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The time of day that the scheduled test will occur.
- Specified in the format hh:mm."
- ::= { xATSTestingSchedule 3 }
-
-xATSTestingScheduleTestWithLoadInterval OBJECT-TYPE
- SYNTAX INTEGER {
- applyLoadEveryTest (1),
- neverApplyLoad (2),
- applyLoadMonthly (3),
- applyLoadMonthlyDetailed (4)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This setting specifies which system tests should include applying the
- load to the generator. The applyLoadMonthlyDetailed entry
- in the list will apply load once, for each month represented in the
- xATSTestingScheduleTestWithLoadSelectMonth OID."
- ::= { xATSTestingSchedule 4 }
-
-xATSTestingScheduleTestWithLoadSelectMonth OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The detailed selection for testing with load on a month-by-month basis.
- This object is applicable when the xATSTestingScheduleTestWithLoadInterval
- is set to applyLoadMonthlyDetailed. Otherwise this selection will be ignored.
- Format for this string is a comma-separated entry of months.
- For example: Jan,Mar,Dec.
- The string will return 'No Months Scheduled' if no months have been selected."
- ::= { xATSTestingSchedule 5 }
-
-xATSTestingScheduleNextTestDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date of the next scheduled test, in the format dd-mmm-yyyy."
- ::= { xATSTestingSchedule 6 }
-
--- xATSTestingSimulatePowerFail group
-
-xATSTestingSimulatePowerFailTest OBJECT-TYPE
- SYNTAX INTEGER{
- cancelSimulation (1),
- fiveSecondsSimulation (2),
- tenSecondsSimulation (3),
- thirtySecondsSimulation (4),
- oneMinuteSimulation (5),
- threeMinutesSimulation (6),
- fiveMinutesSimulation (7),
- tenMinutesSimulation (8)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This object executes a simulated power failure for the duration indicated.
- Simulation can be aborted by selecting cancelSimulation."
- ::= { xATSTestingSimulatePowerFail 1 }
-
-xATSTestingSimulatePowerFailTimeRemaining OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates the time remaining in seconds, for a simulated power failure.
- a value of zero indicates that simulated power failure is not active."
- ::= { xATSTestingSimulatePowerFail 2 }
-
--- The xATS Input Contact group
-
-xATSInputContactNumContacts OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of contacts supported by the ATS."
- ::= { xATSInputContacts 1 }
-
-xATSInputContactTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of input contact entries."
- ::= { xATSInputContacts 2 }
-
-xATSInputContactTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XATSContactEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of contacts supported by the ATS.
- The number of entries is contained in the
- xATSInputContactTableSize OID."
- ::= { xATSInputContacts 3 }
-
- xATSInputContactEntry OBJECT-TYPE
- SYNTAX XATSContactEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A contact entry containing information for a given contact."
- INDEX { xATSInputContactNumber }
- ::= { xATSInputContactTable 1 }
-
- XATSContactEntry ::=
- SEQUENCE {
- xATSInputContactNumber INTEGER,
- xATSInputContactName DisplayString,
- xATSInputContactNormalState INTEGER,
- xATSInputContactCurrentState INTEGER
- }
-
- xATSInputContactNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An index identifying the contact on the ATS."
- ::= { xATSInputContactEntry 1 }
-
- xATSInputContactName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The description of the purpose/use of the contact."
- ::= { xATSInputContactEntry 2 }
-
- xATSInputContactNormalState OBJECT-TYPE
- SYNTAX INTEGER {
- open (1),
- closed (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The normal operating position of the contact."
- ::= { xATSInputContactEntry 3 }
-
- xATSInputContactCurrentState OBJECT-TYPE
- SYNTAX INTEGER {
- open (1),
- closed (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This value indicates the current state of the contact."
- ::= { xATSInputContactEntry 4 }
-
--- the xATS OutputRelays group
-
- xATSOutputRelayNumRelays OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of output relays supported by the ATS."
- ::= { xATSOutputRelays 1 }
-
- xATSOutputRelayTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of output relay entries."
- ::= { xATSOutputRelays 2 }
-
- xATSOutputRelayTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XATSOutputRelayEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of output relays supported by the ATS.
- The number of entries is contained in the
- xATSOutputRelayTableSize OID."
- ::= { xATSOutputRelays 3 }
-
- xATSOutputRelayEntry OBJECT-TYPE
- SYNTAX XATSOutputRelayEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A output relay entry containing information for a given contact."
- INDEX { xATSOutputRelayNumber }
- ::= { xATSOutputRelayTable 1 }
-
- XATSOutputRelayEntry ::=
- SEQUENCE {
- xATSOutputRelayNumber INTEGER,
- xATSOutputRelayName DisplayString,
- xATSOutputRelayNormalState INTEGER,
- xATSOutputRelayCurrentState INTEGER
- }
-
- xATSOutputRelayNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An index identifying the output relay on the ATS."
- ::= { xATSOutputRelayEntry 1 }
-
- xATSOutputRelayName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The description of the purpose/use of the output relay."
- ::= { xATSOutputRelayEntry 2 }
-
- xATSOutputRelayNormalState OBJECT-TYPE
- SYNTAX INTEGER {
- open (1),
- closed (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The normal operating position of the output relay."
- ::= { xATSOutputRelayEntry 3 }
-
- xATSOutputRelayCurrentState OBJECT-TYPE
- SYNTAX INTEGER {
- open (1),
- closed (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This value indicates the current state of the output relay."
- ::= { xATSOutputRelayEntry 4 }
-
--- The xATS Generator Ident group
-
-xATSGeneratorIdentModelNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the model number of the generator.
- This value is set at the factory."
- ::= { xATSGeneratorIdent 1 }
-
-xATSGeneratorIdentSerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the serial number of the generator.
- This value is set at the factory."
- ::= { xATSGeneratorIdent 2 }
-
-xATSGeneratorIdentDateofManufacture OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying when the generator was manufactured in mm/dd/yyyy format.
- This value is set at the factory."
- ::= { xATSGeneratorIdent 3 }
-
-xATSGeneratorIdentVoltageConfiguration OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The voltage for which the generator's alternator is designed.
- Specified in Volts line-to-line."
- ::= { xATSGeneratorIdent 4 }
-
-xATSGeneratorIdentMaxPowerRating OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The max power rating of the generator. Specified in kW."
- ::= { xATSGeneratorIdent 5 }
-
-xATSGeneratorIdentAlternatorFrequency OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frequency for which the generator's alternator is designed.
- Specified in Hertz."
- ::= { xATSGeneratorIdent 6 }
-
--- The xATS Generator Status group
-
-xATSGeneratorStatusGeneratorName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name or label for the generator connected to the source 2 of the ATS."
- ::= { xATSGeneratorStatus 1 }
-
-xATSGeneratorStatusOperational OBJECT-TYPE
- SYNTAX INTEGER{
- nocomm (1),
- off (2),
- ready (3),
- starting (4),
- idle (5),
- running (6),
- normalStop (7),
- emergencyStop (8),
- notInAuto (9),
- shutdown (10),
- unknown (11)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The operational status of the generator. unavailable when unrecognized status is received."
- ::= { xATSGeneratorStatus 2 }
-
-xATSGeneratorStatusModeSwitchPosition OBJECT-TYPE
- SYNTAX INTEGER{
- off (1),
- manual (2),
- automatic (3),
- unknown (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The position of the generator's auto-mode switch.
- In automatic mode, the generator is started and stopped via the
- remote start contact, which has state indicated in the
- xATSGeneratorStatusRemoteStart OID.
- In manual mode generator start/stop control is via local command only.
- Off prevents the generator from running."
- ::= { xATSGeneratorStatus 3 }
-
-xATSGeneratorStatusRemoteStart OBJECT-TYPE
- SYNTAX INTEGER{
- stop (1),
- run (2),
- unknown (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the generator's remote start contact, which is
- provided as an output from the transfer switch to start/stop the
- generator when in automatic mode."
- ::= { xATSGeneratorStatus 4 }
-
--- The xATS Generator Advanced Status group
-
-xATSGeneratorAdvStatusBatteryVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The voltage of the generator's starting battery.
- Measured in tenths of VDC, or -1 if not available."
- ::= { xATSGeneratorAdvStatus 1 }
-
-xATSGeneratorAdvStatusOilPressure OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The generator's engine oil pressure.
- Measured in tenths of Psi or kPa, based on the
- value of the xATSGeneratorSettingsMetricUnit OID,
- or -1 if not available."
- ::= { xATSGeneratorAdvStatus 2 }
-
-xATSGeneratorAdvStatusCoolantTemperature OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Current coolant temperature in the generator.
- Measured in degrees Celsius or Fahrenheit, based on the
- value of the xATSGeneratorSettingsMetricUnit OID,
- or -1 if not available."
- ::= { xATSGeneratorAdvStatus 3 }
-
-xATSGeneratorAdvStatusEngineRPM OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Current engine speed of the generator.
- Measured in RPM, or -1 if not available."
- ::= { xATSGeneratorAdvStatus 4 }
-
-xATSGeneratorAdvStatusOilLevel OBJECT-TYPE
- SYNTAX INTEGER{
- ok (1),
- low (2),
- unknown (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates adequate oil level in the generator."
- ::= { xATSGeneratorAdvStatus 5 }
-
-xATSGeneratorAdvStatusCoolantLevel OBJECT-TYPE
- SYNTAX INTEGER{
- ok (1),
- low (2),
- unknown (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates adequate coolant level in the generator."
- ::= { xATSGeneratorAdvStatus 6 }
-
--- The xATS Generator Output group
-
-xATSGeneratorOutputFrequency OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output frequency of the generator.
- Measured in tenths of Hertz, or -1 if not avaialble."
- ::= { xATSGeneratorOutput 1 }
-
-xATSGeneratorOutputTotalPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The total output power of the generator.
- Measured in tenths of tenths of kW, or -1 if not avaialble."
- ::= { xATSGeneratorOutput 2 }
-
-xATSGeneratorOutputTotalApparentPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The total output power of the generator.
- Measured in tenths of kVA, or -1 if not avaialble."
- ::= { xATSGeneratorOutput 3 }
-
-xATSGeneratorOutputTotalPowerFactor OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates the total load power factor of the generator.
- A value of 100 representing a unity power factor (1.00),
- or -1 when if not avaialble."
- ::= { xATSGeneratorOutput 4 }
-
-xATSGeneratorOutputTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of generator output phase entries."
- ::= { xATSGeneratorOutput 5 }
-
- xATSGeneratorOutputTable OBJECT-TYPE
- SYNTAX SEQUENCE OF XATSGeneratorOutputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of generator output table entries.
- The number of entries is contained in the xATSGeneratorOutputTableSize OID."
- ::= { xATSGeneratorOutput 6 }
-
- xATSGeneratorOutputPhaseEntry OBJECT-TYPE
- SYNTAX XATSGeneratorOutputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular generator output phase."
- INDEX { xATSGeneratorOutputPhaseIndex }
- ::= { xATSGeneratorOutputTable 1 }
-
- XATSGeneratorOutputPhaseEntry ::= SEQUENCE {
- xATSGeneratorOutputPhaseIndex INTEGER,
- xATSGeneratorOutputVoltageLtoL INTEGER,
- xATSGeneratorOutputVoltageLtoN INTEGER,
- xATSGeneratorOutputPhaseCurrent INTEGER,
- xATSGeneratorOutputPower INTEGER,
- xATSGeneratorOutputApparentPower INTEGER,
- xATSGeneratorOutputPowerFactor INTEGER
- }
-
- xATSGeneratorOutputPhaseIndex OBJECT-TYPE
- SYNTAX INTEGER{
- phase1(1),
- phase2(2),
- phase3(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Description of each generator output phase utilized in this device."
- ::= { xATSGeneratorOutputPhaseEntry 1 }
-
- xATSGeneratorOutputVoltageLtoL OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Line-to-line generator output voltage.
- Measured in Volts, or -1 if not available."
- ::= { xATSGeneratorOutputPhaseEntry 2 }
-
- xATSGeneratorOutputVoltageLtoN OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Line-to-neutral generator output voltage.
- Measured in volts, or -1 if not avaialble."
- ::= { xATSGeneratorOutputPhaseEntry 3 }
-
- xATSGeneratorOutputPhaseCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Generator load current per phase.
- Measured in Amps, or -1 if not avaialble."
- ::= { xATSGeneratorOutputPhaseEntry 4 }
-
- xATSGeneratorOutputPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Generator output power per phase.
- Measured in tenths of kW, or -1 if not avaialble."
- ::= { xATSGeneratorOutputPhaseEntry 5 }
-
- xATSGeneratorOutputApparentPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Generator output power per phase.
- Measured in tenths of kVA, or -1 if not available."
- ::= { xATSGeneratorOutputPhaseEntry 6 }
-
- xATSGeneratorOutputPowerFactor OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates the load power factor of the generator output per phase.
- A value of 100 representing a unity power factor (1.00),
- or -1 if not avaialble."
- ::= { xATSGeneratorOutputPhaseEntry 7 }
-
--- xATS Generator Settings group
-
-xATSGeneratorSettingsVoltageAdjust OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The voltage adjust of the generator.
- Specified in volts line-to-line,
- or -1 if not available."
- ::= { xATSGeneratorSettings 1 }
-
-xATSGeneratorSettingsFrequencyAdjust OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frequency adjust of the generator.
- Specified in tenths of Hertz."
- ::= { xATSGeneratorSettings 2 }
-
-xATSGeneratorSettingsStartDelay OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The delay, in seconds, after the remote run signal is activated
- before the generator's engine will be cranked to start,
- or -1 if not available."
- ::= { xATSGeneratorSettings 3 }
-
-xATSGeneratorSettingsStopDelay OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The delay, in seconds, before the generator will stop
- after the remote run signal is deactivated,
- or -1 if not available."
- ::= { xATSGeneratorSettings 4 }
-
-xATSGeneratorSettingsCrankCycleEnable OBJECT-TYPE
- SYNTAX INTEGER{
- disabled (1),
- enabled (2),
- unknown (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "When Crank Cycle is enabled, the engine will be cranked up to the time
- specified by the xATSGeneratorSettingsCrankTime OID.
- If the generator's engine does not start, there will be a pause as
- specified by the xATSGeneratorSettingsCrankRestTime OID before the
- engine will be cranked again. This cycle is repeated as specified by
- the xATSGeneratorSettingsNumberCrank OID.
- When crank cycle is disabled, the generator's engine will be
- cranked continuously until it starts."
- ::= { xATSGeneratorSettings 5 }
-
-xATSGeneratorSettingsCrankTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The duration of engine cranking, in seconds, when starting the generator.
- Applicable when the xATSGeneratorSettingsCrankCycleEnable OID is enabled.
- -1 if not available."
- ::= { xATSGeneratorSettings 6 }
-
-xATSGeneratorSettingsCrankRestTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The pause duration, in seconds, following an unsuccessful attempt to start the generator.
- Applicable when the xATSGeneratorSettingsCrankCycleEnable OID is enabled.
- -1 if not available."
- ::= { xATSGeneratorSettings 7 }
-
-xATSGeneratorSettingsNumberCrank OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of failed crank attempts before giving up on starting the generator.
- Applicable when the xATSGeneratorSettingsCrankCycleEnable OID is enabled.
- -1 if not available."
- ::= { xATSGeneratorSettings 8 }
-
-xATSGeneratorSettingsMetricUnit OBJECT-TYPE
- SYNTAX INTEGER{
- disabled (1),
- enabled (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Specifies the use of metric units in generator related OIDs, as well
- as on all other interfaces including the generator's local interface."
- ::= { xATSGeneratorSettings 9 }
-
--- xATS generator service group
-
-xATSGeneratorServiceTotalRunHoursLifetime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Total time that the generator engine has been run,
- over the life of the generator. Measured in hours.
- -1 if not available."
- ::= { xATSGeneratorService 1 }
-
-xATSGeneratorServiceEngineStartsLifetime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Number of engine starts over the life of the generator.
- -1 if not available."
- ::= { xATSGeneratorService 2 }
-
-xATSGeneratorServiceTotalkWhLifetime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Total kWh of operation over the life of the generator.
- -1 if not available."
- ::= { xATSGeneratorService 3 }
-
-xATSGeneratorServiceTotalRunHoursSinceMaintanence OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Total time that the generator engine has been run,
- since last service maintenance. Measured in tenths of hours.
- -1 if not available."
- ::= { xATSGeneratorService 4 }
-
-xATSGeneratorServiceEngineStartsSinceMaintanence OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Number of engine starts since last service maintenance.
- -1 if not available."
- ::= { xATSGeneratorService 5 }
-
-xATSGeneratorServiceTotalkWhMaintanence OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Total kWh of operation since last service maintenance.
- -1 if not available."
- ::= { xATSGeneratorService 6 }
-
-xATSGeneratorServiceResetRecord OBJECT-TYPE
- SYNTAX INTEGER{
- yes (1),
- no (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Resets the engine start counter, engine run-hours, and kWh values that have
- accumulated in the generator since last maintenance.
- Also, the last service date will be reset to the current system date, and
- any service alarms will be cleared."
- ::= { xATSGeneratorService 7 }
-
-xATSGeneratorServiceRecordResetDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Date at which the generator's service record was reset, in dd-mmm-yyyy format."
- ::= { xATSGeneratorService 8 }
-
-xATSGeneratorServiceNextServiceDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Date at which the next generator service is due in dd-mmm-yyyy format.
- Based on the xATSGeneratorServiceCalendarIntervalThreshold OID
- or '' if the calander-based threshold is set to off."
- ::= { xATSGeneratorService 9 }
-
-xATSGeneratorServiceRunHoursUntilServiceDate OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Runhours until the next generator service is due, in hours.
- Based on the xATSGeneratorServiceRunHoursThreshold OID
- or -1 if the runhour-based threshold is set to off."
- ::= { xATSGeneratorService 10 }
-
-xATSGeneratorServiceRunHoursThreshold OBJECT-TYPE
- SYNTAX INTEGER{
- disabled (1),
- runThreshold100Hours (2),
- runThreshold150Hours (3),
- runThreshold200Hours (4),
- runThreshold250Hours (5),
- runThreshold300Hours (6),
- runThreshold400Hours (7),
- runThreshold500Hours (8)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Runhour-based service interval. When the run-hours since
- service surpasses this threshold, generator service is due."
- ::= { xATSGeneratorService 11 }
-
-xATSGeneratorServiceCalendarIntervalThreshold OBJECT-TYPE
- SYNTAX INTEGER{
- disabled (1),
- interval1month (2),
- interval2month (3),
- interval3month (4),
- interval6month (5),
- intervalyearly (6)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Calander-based service interval. When the next service date,
- as indicated by the xATSGeneratorServiceNextServiceDate OID
- is in the past, generator is due for service."
- ::= { xATSGeneratorService 12 }
-
--- The xATS Generator Fuel system group
-
-xATSGeneratorFuelSystemType OBJECT-TYPE
- SYNTAX INTEGER{
- diesel (1),
- propane (2),
- naturalGas (3),
- unknown (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The type of fuel used by the generator."
- ::= { xATSGeneratorFuelSystem 1 }
-
-xATSGeneratorFuelSystemTankSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Size of the generator's fuel tank.
- Specified in gallons or liters, based on the value of the
- xATSGeneratorSettingsMetricUnit OID, or -1 if not available."
- ::= { xATSGeneratorFuelSystem 2 }
-
-xATSGeneratorFuelSystemFuelLevel OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Fuel remaining in the generator tank.
- Measured in percent of tank fill, or -1 if if not available."
- ::= { xATSGeneratorFuelSystem 3 }
-
-xATSGeneratorFuelSystemRuntimePower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The power value used in the runtime remaining calculation.
- Measured in tenths of kW, or -1 if not available."
- ::= { xATSGeneratorFuelSystem 4 }
-
-xATSGeneratorFuelSystemEstimatedRunTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An estimate of available runtime for the generator, based on
- available fuel as specified in the xATSGeneratorFuelSystemFuelLevel OID
- and kW load as specified in the xATSGeneratorFuelSystemRuntimePower OID.
- Measured in tenths of hours, or -1 if not available."
- ::= { xATSGeneratorFuelSystem 5 }
-
-xATSGeneratorFuelSystemLowRunTimeThreshold OBJECT-TYPE
- SYNTAX INTEGER{
- disabled (1),
- oneHour (2),
- twoHours (3),
- threeHours (4),
- fourHours (5),
- fiveHours (6),
- sixHours (7),
- twelveHours (8),
- oneDay (9),
- twoDays (10),
- threeDays (11),
- fourDays (12),
- fiveDays (13),
- sixDays (14),
- sevenDays (15)
-
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold below which a low runtime alarm will exist."
- ::= { xATSGeneratorFuelSystem 6 }
-
-xATSGeneratorFuelSystemVeryLowRunTimeThreshold OBJECT-TYPE
- SYNTAX INTEGER{
- disabled (1),
- oneHour (2),
- twoHours (3),
- threeHours (4),
- fourHours (5),
- fiveHours (6),
- sixHours (7),
- twelveHours (8),
- oneDay (9),
- twoDays (10),
- threeDays (11),
- fourDays (12),
- fiveDays (13),
- sixDays (14),
- sevenDays (15)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold below which a very low runtime alarm will exist."
- ::= { xATSGeneratorFuelSystem 7 }
-
-xATSGeneratorFuelSystemLowFuelLevelThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..100)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold below which a low fuel alarm will exist, with a value of 0 indicating disabled.
- Specified as percent of tank fill."
- ::= { xATSGeneratorFuelSystem 8 }
-
-xATSGeneratorFuelSystemVeryLowFuelLevelThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..100)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold below which a very low fuel alarm will exist, with a value of 0 indicating disabled.
- Specified as percent of tank fill."
- ::= { xATSGeneratorFuelSystem 9 }
-
--- the software group
--- the powerNetSubAgent group
--- the powerNetSoftwareSystem group
-
-powerNetSoftwareSystemDescription OBJECT-TYPE
- SYNTAX DisplayString (SIZE (0..79))
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A brief description of the PowerNet sub-agent."
- ::= { powerNetSoftwareSystem 1 }
-
-powerNetSoftwareOid OBJECT-TYPE
- SYNTAX OBJECT IDENTIFIER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The object identifier of the PowerNet sub-agent."
- ::= { powerNetSoftwareSystem 2 }
-
--- powerNetSmuxPeer OBJECT IDENTIFIER ::= { powerNetSoftwareOid 1 }
--- powerNetDPIPeer OBJECT IDENTIFIER ::= { powerNetSoftwareOid 2 }
-
-powerNetSoftwareSystemUpTime OBJECT-TYPE
- SYNTAX TimeTicks
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The time that the sub-agent has been running."
- ::= { powerNetSoftwareSystem 3 }
-
-
--- powerNetSoftwareConfig group
-
-powerNetSoftwareTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of software modules supporting the UPS."
- ::= { powerNetSoftwareConfig 1 }
-
-powerNetSoftwareTable OBJECT-TYPE
- SYNTAX SEQUENCE OF SoftwareEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of the software monitoring the UPS."
- ::= { powerNetSoftwareConfig 2 }
-
-powerNetSoftwareEntry OBJECT-TYPE
- SYNTAX SoftwareEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information on a software module."
- INDEX { moduleNumber }
- ::= { powerNetSoftwareTable 1 }
-
-SoftwareEntry ::=
- SEQUENCE {
- moduleNumber
- INTEGER,
- moduleName
- DisplayString,
- moduleVersion
- DisplayString,
- moduleDate
- DisplayString
- }
-
-moduleNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index into the Software Entry Table"
- ::= { powerNetSoftwareEntry 1 }
-
-moduleName OBJECT-TYPE
- SYNTAX DisplayString (SIZE (0..79))
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the software module."
- ::= { powerNetSoftwareEntry 2 }
-
-moduleVersion OBJECT-TYPE
- SYNTAX DisplayString (SIZE (0..8))
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The version of the software module."
- ::= { powerNetSoftwareEntry 3 }
-
-moduleDate OBJECT-TYPE
- SYNTAX DisplayString (SIZE (0..9))
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date of the software module represented as mm-dd-yy."
- ::= { powerNetSoftwareEntry 4 }
-
-
--- the ups group
--- the upsIdent group
--- the upsBasicIdent
-
-upsBasicIdentModel OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The UPS model name (e.g. 'APC Smart-UPS 600')."
- ::= { upsBasicIdent 1 }
-
-upsBasicIdentName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "An 8 byte ID string identifying the UPS. This object
- can be set by the administrator."
- ::= { upsBasicIdent 2 }
-
-
--- the upsAdvIdent group
-
-upsAdvIdentFirmwareRevision OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The firmware revision of the UPS system's microprocessor."
- ::= { upsAdvIdent 1 }
-
-upsAdvIdentDateOfManufacture OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date when the UPS was manufactured in mm/dd/yy format."
- ::= { upsAdvIdent 2 }
-
-upsAdvIdentSerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An 8-character string identifying the serial number of
- the UPS internal microprocessor. This number is set at
- the factory. NOTE: This number does NOT correspond to
- the serial number on the rear of the UPS."
- ::= { upsAdvIdent 3 }
-
-
-
--- the upsBattery group
--- the upsBasicBattery group
-
-upsBasicBatteryStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown(1),
- batteryNormal(2),
- batteryLow(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the UPS batteries. A batteryLow(3)
- value indicates the UPS will be unable to sustain the
- current load, and its services will be lost if power is
- not restored. The amount of run time in reserve at the
- time of low battery can be configured by the
- upsAdvConfigLowBatteryRunTime."
- ::= { upsBasicBattery 1 }
-
-upsBasicBatteryTimeOnBattery OBJECT-TYPE
- SYNTAX TimeTicks
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The elapsed time since the UPS has switched to battery
- power."
- ::= { upsBasicBattery 2 }
-
-upsBasicBatteryLastReplaceDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The date when the UPS system's batteries were last replaced
- in mm/dd/yy format. For Smart-UPS models, this value
- is originally set in the factory. When the UPS batteries
- are replaced, this value should be reset by the administrator."
- ::= { upsBasicBattery 3 }
-
-
-
--- the upsAdvBattery group
-
-upsAdvBatteryCapacity OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The remaining battery capacity expressed in
- percent of full capacity."
- ::= { upsAdvBattery 1 }
-
-upsAdvBatteryTemperature OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current internal UPS temperature expressed in
- Celsius."
- ::= { upsAdvBattery 2 }
-
-upsAdvBatteryRunTimeRemaining OBJECT-TYPE
- SYNTAX TimeTicks
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The UPS battery run time remaining before battery
- exhaustion."
- ::= { upsAdvBattery 3 }
-
-upsAdvBatteryReplaceIndicator OBJECT-TYPE
- SYNTAX INTEGER {
- noBatteryNeedsReplacing(1),
- batteryNeedsReplacing(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Indicates whether the UPS batteries need replacing."
- ::= { upsAdvBattery 4 }
-
-upsAdvBatteryNumOfBattPacks OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of external battery packs connected to the UPS. If
- the UPS does not use smart cells then the agent reports
- ERROR_NO_SUCH_NAME."
- ::= { upsAdvBattery 5 }
-
-upsAdvBatteryNumOfBadBattPacks OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of external battery packs connected to the UPS that
- are defective. If the UPS does not use smart cells then the
- agent reports ERROR_NO_SUCH_NAME."
- ::= { upsAdvBattery 6 }
-
-upsAdvBatteryNominalVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The nominal battery voltage in Volts."
- ::= { upsAdvBattery 7 }
-
-upsAdvBatteryActualVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The actual battery bus voltage in Volts."
- ::= { upsAdvBattery 8 }
-
-upsAdvBatteryCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The battery current in Amps."
- ::= { upsAdvBattery 9 }
-
-upsAdvTotalDCCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The total DC current in Amps."
- ::= { upsAdvBattery 10 }
-
-
--- the upsBasicInput group
-
-upsBasicInputPhase OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current AC input phase."
- ::= { upsBasicInput 1 }
-
-
--- the upsAdvInput group
-
-upsAdvInputLineVoltage OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current utility line voltage in VAC."
- ::= { upsAdvInput 1 }
-
-upsAdvInputMaxLineVoltage OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum utility line voltage in VAC over the
- previous 1 minute period."
- ::= { upsAdvInput 2 }
-
-upsAdvInputMinLineVoltage OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum utility line voltage in VAC over the
- previous 1 minute period."
- ::= { upsAdvInput 3 }
-
-upsAdvInputFrequency OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current input frequency to the UPS system in Hz."
- ::= { upsAdvInput 4 }
-
-
-upsAdvInputLineFailCause OBJECT-TYPE
- SYNTAX INTEGER {
- noTransfer(1),
- highLineVoltage(2),
- brownout(3),
- blackout(4),
- smallMomentarySag(5),
- deepMomentarySag(6),
- smallMomentarySpike(7),
- largeMomentarySpike(8),
- selfTest(9),
- rateOfVoltageChnage(10)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The reason for the occurrence of the last transfer to UPS
- battery power. The variable is set to:
- - noTransfer(1) -- if there is no transfer yet.
- - highLineVoltage(2) -- if the transfer to battery is caused
- by an over voltage greater than the high transfer voltage.
- - brownout(3) -- if the duration of the outage is greater than
- five seconds and the line voltage is between 40% of the
- rated output voltage and the low transfer voltage.
- - blackout(4) -- if the duration of the outage is greater than five
- seconds and the line voltage is between 40% of the rated
- output voltage and ground.
- - smallMomentarySag(5) -- if the duration of the outage is less
- than five seconds and the line voltage is between 40% of the
- rated output voltage and the low transfer voltage.
- - deepMomentarySag(6) -- if the duration of the outage is less
- than five seconds and the line voltage is between 40% of the
- rated output voltage and ground. The variable is set to
- - smallMomentarySpike(7) -- if the line failure is caused by a
- rate of change of input voltage less than ten volts per cycle.
- - largeMomentarySpike(8) -- if the line failure is caused by
- a rate of change of input voltage greater than ten volts per cycle.
- - selfTest(9) -- if the UPS was commanded to do a self test.
- - rateOfVoltageChange(10) -- if the failure is due to the rate of change of
- the line voltage."
- ::= { upsAdvInput 5 }
-
-
--- the upsBasicOutput group
-
-upsBasicOutputStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown(1),
- onLine(2),
- onBattery(3),
- onSmartBoost(4),
- timedSleeping(5),
- softwareBypass(6),
- off(7),
- rebooting(8),
- switchedBypass(9),
- hardwareFailureBypass(10),
- sleepingUntilPowerReturn(11),
- onSmartTrim(12)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current state of the UPS. If the UPS is unable
- to determine the state of the UPS this variable is set
- to unknown(1)."
- ::= { upsBasicOutput 1 }
-
-upsBasicOutputPhase OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current output phase."
- ::= { upsBasicOutput 2 }
-
-
--- the upsAdvOutput group
-
-upsAdvOutputVoltage OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output voltage of the UPS system in VAC."
- ::= { upsAdvOutput 1 }
-
-upsAdvOutputFrequency OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current output frequency of the UPS system in Hz."
- ::= { upsAdvOutput 2 }
-
-upsAdvOutputLoad OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current UPS load expressed in percent
- of rated capacity."
- ::= { upsAdvOutput 3 }
-
-upsAdvOutputCurrent OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current in amperes drawn by the load on the UPS."
- ::= { upsAdvOutput 4 }
-
-
--- the upsBasicConfig group
-
-upsBasicConfigNumDevices OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of devices that are plugged into the UPS."
- ::= { upsBasicConfig 1 }
-
-upsBasicConfigDeviceTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsBasicConfigDeviceEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of devices that are plugged into the UPS.
- The number of entries is given by the value of
- upsBasicConfigNumDevices."
- ::= { upsBasicConfig 2 }
-
-upsBasicConfigDeviceEntry OBJECT-TYPE
- SYNTAX UpsBasicConfigDeviceEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The devices plugged in to the UPS."
- INDEX { deviceIndex }
- ::= { upsBasicConfigDeviceTable 1 }
-
-UpsBasicConfigDeviceEntry ::=
- SEQUENCE {
- deviceIndex
- INTEGER,
- deviceName
- DisplayString,
- vaRating
- INTEGER,
- acceptThisDevice
- INTEGER
- }
-
-deviceIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the device that is plugged into the UPS."
- ::= { upsBasicConfigDeviceEntry 1 }
-
-deviceName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name/description of the device plugged into the UPS."
- ::= { upsBasicConfigDeviceEntry 2 }
-
-vaRating OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The volt-amp rating of the device plugged into the UPS."
- ::= { upsBasicConfigDeviceEntry 3 }
-
-acceptThisDevice OBJECT-TYPE
- SYNTAX INTEGER {
- yes(1),
- no(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "An entry is added if yes, the entry is deleted if no."
- ::= { upsBasicConfigDeviceEntry 4 }
-
-
-
-
--- the upsAdvConfig group
-
-upsAdvConfigRatedOutputVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The nominal output voltage from the UPS in VAC.
-
- For a list of allowed values supported by your UPS model,
- see the UPS User's Manual.
-
- If a value other than a supported value is provided in a
- set request, the UPS interprets it as the next lower
- acceptable value. If the provided value is lower than
- the lowest acceptable value, the lowest acceptable
- value is used."
- ::= { upsAdvConfig 1 }
-
-upsAdvConfigHighTransferVolt OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The maximum line voltage in VAC allowed before the
- UPS system transfers to battery backup.
-
- For a list of allowed values supported by your UPS model,
- see the UPS User's Manual.
-
- If a value other than a supported value is provided in a
- set request, the UPS interprets it as a the next higher
- acceptable value. If the provided value is higher than
- the highest acceptable value, the highest acceptable
- value is used."
- ::= { upsAdvConfig 2 }
-
-upsAdvConfigLowTransferVolt OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The minimum line voltage in VAC allowed before the
- UPS system transfers to battery backup.
-
- For a list of allowed values supported by your UPS model,
- see the UPS User's Manual.
-
- If a value other than a supported value is provided in a
- set request, the UPS interprets it as the next lower
- acceptable value. If the provided value is lower than
- the lowest acceptable value, the lowest acceptable
- value is used."
- ::= { upsAdvConfig 3 }
-
-upsAdvConfigAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- timed(1),
- atLowBattery(2),
- never(3),
- mute(4)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A flag indicating how the UPS should handle audible
- line fail alarms:
- timed(1): UPS alarm will sound after a preset timed duration starting
- from the line fail condition (see OID upsAdvConfigAlarmTimer for the
- alarm timer value)
- atLowBattery(2): UPS alarm will sound when the UPS has reached a Low
- Battery condition during a line fail
- never(3): Disables the UPS audible alarm
- mute(4): Mutes the current alarm for some UPSs only when it is in an
- alarm state and will return to the previously configured option when
- the UPS recovers from the alarm condition"
- ::= { upsAdvConfig 4 }
-
-upsAdvConfigAlarmTimer OBJECT-TYPE
- SYNTAX TimeTicks
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The time after initial line failure at which the UPS
- begins emitting audible alarms (beeping). This timer is
- observed only if the value of extControlAlarm is timed(2).
- Allowed values are 0 or 30 seconds.
-
- If a value other than a supported value is provided in a
- set request, the UPS interprets it as a the next lower
- acceptable value. If the provided value is lower than
- the lowest acceptable value, the lowest acceptable
- value is used."
- ::= { upsAdvConfig 5 }
-
-upsAdvConfigMinReturnCapacity OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The minimum battery capacity required before the UPS will
- return from a low battery shutdown condition. The capacity is
- measured from 0% battery capacity (or Low Battery) as a percent
- of full capacity (100%). In other words, the UPS will not re-energize
- the output until the battery has charged so that its' capacity is equal
- to this value.
-
- For a list of allowed values supported by your UPS model,
- see the UPS User's Manual.
-
- If a value other than a supported value is provided in a
- set request, the UPS interprets it as a the next higher
- acceptable value. If the provided value is higher than
- the highest acceptable value, the highest acceptable
- value is used."
- ::= { upsAdvConfig 6 }
-
-upsAdvConfigSensitivity OBJECT-TYPE
- SYNTAX INTEGER {
- auto(1),
- low(2),
- medium(3),
- high(4)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The sensitivity of the UPS to utility line abnormalities
- or noises."
- ::= { upsAdvConfig 7 }
-
-upsAdvConfigLowBatteryRunTime OBJECT-TYPE
- SYNTAX TimeTicks
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The desired run time of the UPS, in seconds, once the
- low battery condition is reached. During this time the UPS will
- produce a constant warning tone which can not be disabled.
-
- For a list of allowed values supported by your UPS model,
- see the UPS User's Manual.
-
- If a value other than a supported value is provided in a set
- request, the UPS interprets the value as the next higher
- acceptable value. If the provided value is higher than the
- highest acceptable value, the highest acceptable value is used."
- ::= { upsAdvConfig 8 }
-
-upsAdvConfigReturnDelay OBJECT-TYPE
- SYNTAX TimeTicks
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The delay in seconds after utility line power returns
- before the UPS will turn on. This value is also used
- when the UPS comes out of a reboot and before the UPS
- wakes up from 'sleep' mode.
-
- For a list of allowed values supported by your UPS model,
- see the UPS User's Manual.
-
- If a value other than a supported value is provided in a
- set request, the UPS interprets it as a the next higher
- acceptable value. If the provided value is higher than
- the highest acceptable value, the highest acceptable
- value is used."
- ::= { upsAdvConfig 9 }
-
-upsAdvConfigShutoffDelay OBJECT-TYPE
- SYNTAX TimeTicks
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The delay in seconds the UPS remains on after being told
- to turn off.
-
- For a list of allowed values supported by your UPS model,
- see the UPS User's Manual.
-
- If a value other than a supported value is provided in a
- set request, the UPS interprets it as a the next higher
- acceptable value. If the provided value is higher than
- the highest acceptable value, the highest acceptable
- value is used."
- ::= { upsAdvConfig 10 }
-
-upsAdvConfigUpsSleepTime OBJECT-TYPE
- SYNTAX TimeTicks
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The time in seconds for the UPS to go to 'sleep' when
- instructed. When in sleep mode, the UPS will not provide
- output power regardless of the input line state. Once the
- specified time has elapsed, output power will be restored.
-
- This is a configuration setting. The UPS will not go to
- sleep until told to do so by the manager from a management
- station.
-
- Any input value is allowed, however the UPS only recognizes
- 1/10 of an hour increments. The provided value will be
- rounded to the closest 1/10 of an hour with one exception:
- Any value entered between 1 and 540 seconds will be rounded
- to 360 seconds (or 6 minutes)."
- ::= { upsAdvConfig 11 }
-
-
-upsAdvConfigSetEEPROMDefaults OBJECT-TYPE
- SYNTAX INTEGER {
- noSetEEPROMDefaults(1),
- setEEPROMDefaults(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "WRITE: Resets the UPS EEPROM variables to default values.
- READ: returns 0"
- ::= { upsAdvConfig 12 }
-
-upsAdvConfigDipSwitchSetting OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsAdvConfigDipSwitchEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Current settings of UPS dip switches."
- ::= { upsAdvConfig 13 }
-
-upsAdvConfigDipSwitchEntry OBJECT-TYPE
- SYNTAX UpsAdvConfigDipSwitchEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The current setting of one dip switch."
- INDEX { dipSwitchIndex }
- ::= { upsAdvConfigDipSwitchSetting 1 }
-
-UpsAdvConfigDipSwitchEntry ::=
- SEQUENCE {
- dipSwitchIndex
- INTEGER,
- dipSwitchStatus
- INTEGER
- }
-
-dipSwitchIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of a UPS dip switch."
- ::= { upsAdvConfigDipSwitchEntry 1 }
-
-dipSwitchStatus OBJECT-TYPE
- SYNTAX INTEGER {
- on(1),
- off(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The setting of a UPS dip switch."
- ::= { upsAdvConfigDipSwitchEntry 2 }
-
-upsAdvConfigBattExhaustThresh OBJECT-TYPE
- SYNTAX TimeTicks
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The number of seconds prior to battery exhaustion when the
- UPS will switch off power to its load."
- ::= { upsAdvConfig 14 }
-
-upsAdvConfigPassword OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The password entered at the UPS front panel to enable local
- configuration of the EEProm. If the password is disabled or
- is not supported, then the agent returns a null string."
- ::= { upsAdvConfig 15 }
-
-upsAdvConfigAllowedSetTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ApcUpsConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The table listing the allowed values for all discrete
- configurable UPS variables."
- ::= { upsAdvConfig 16 }
-
-apcUpsConfigEntry OBJECT-TYPE
- SYNTAX ApcUpsConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The table entry for a configurable UPS variable."
- INDEX { apcUpsConfigFieldIndex }
- ::= { upsAdvConfigAllowedSetTable 1 }
-
-ApcUpsConfigEntry ::= SEQUENCE {
- apcUpsConfigFieldIndex INTEGER,
- apcUpsConfigFieldOID OBJECT IDENTIFIER,
- apcUpsConfigFieldValueRange DisplayString
- }
-
-apcUpsConfigFieldIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to an eeprom field entry."
- ::= { apcUpsConfigEntry 1 }
-
-apcUpsConfigFieldOID OBJECT-TYPE
- SYNTAX OBJECT IDENTIFIER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The OID of the current configurable value."
- ::= { apcUpsConfigEntry 2 }
-
-apcUpsConfigFieldValueRange OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The discrete set of allowed values of a configurable
- register. Individual values are delimited by a comma."
- ::= { apcUpsConfigEntry 3 }
-
-upsAdvConfigBattCabAmpHour OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Configure settings of UPS battery cabinet amp hour setting."
- ::= { upsAdvConfig 17 }
-
-upsAdvConfigPositionSelector OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- rack (2),
- tower (3)
- }
-
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Configure UPS position selector. If the UPS doesn't
- support this configuration it will report unknown (1).
- The positions are either rack (2) for rack mounted or
- tower (3) for tower unit."
- ::= { upsAdvConfig 18 }
-
-upsAdvConfigOutputFreqRange OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- freqRangeAUTO (2),
- freqRange60Var1 (3),
- freqRange60Var3 (4),
- freqRange50Var1 (5),
- freqRange50Var3 (6),
- freqRange60Var10 (7),
- freqRange50Var10 (8)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Configure the output frequency tolerance range.
- unknown(1) indicates the output frequency is unknown.
- freqRangeAUTO(2) configure the output frequency range for automatic.
- freqRange60Var1(3) configure the output frequency range for 60 +/- 0.1 Hz
- freqRange60Var3(4) configure the output frequency range for 60 +/- 3.0 Hz
- freqRange50Var1(5) configure the output frequency range for 50 +/- 0.1 Hz
- freqRange50Var3(6) configure the output frequency range for 50 +/- 3.0 Hz
- freqRange60Var10(7) configure the output frequency range for 60 +/- 10 Hz
- freqRange50Var10(8) configure the output frequency range for 50 +/- 10 Hz"
- ::= { upsAdvConfig 19 }
-
-upsAdvConfigUPSFail OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- gotoBypass (2),
- dropLoad (3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Configure the UPS fail action. If UPS fails,
- and frequency or voltage is out of range it will either
- GotoBypass (2) or DropLoad (3). This OID will report
- unknown (1) if it is not supported feature or option."
- ::= { upsAdvConfig 20 }
-
-upsAdvConfigAlarmRedundancy OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Configure settings of UPS alarm if the redundancy is
- under the current redundancy. Use -1 for never."
- ::= { upsAdvConfig 21 }
-
-upsAdvConfigAlarmLoadOver OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Configure settings of UPS alarm if the load is
- over the current load in kVA. Use -1 for never."
- ::= { upsAdvConfig 22 }
-
-upsAdvConfigAlarmRuntimeUnder OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Configure settings of UPS alarm if the runtime is
- under the current time of minutes. Use -1 for never."
- ::= { upsAdvConfig 23 }
-
-upsAdvConfigVoutReporting OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- voutAUTO (2),
- vout208 (3),
- vout240 (4)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Configure the way the UPS scales its output voltage readings.
- unknown(1) indicates the Vout Reporting is unknown.
- voutAUTO(2) configure the Vout Reporting for automatic scalling.
- vout208(3) configure the Vout Reporting for 208 Volts.
- vout240(4) configure the Vout Reporting for 240 Volts."
- ::= { upsAdvConfig 24 }
-
-upsAdvConfigNumExternalBatteries OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Configure the number of external batteries connected to the UPS."
- ::= { upsAdvConfig 25 }
-
-upsAdvConfigSimpleSignalShutdowns OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- disabled (2),
- enabled (3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Configure Simple Signal shutdown commands from the Simple Signal
- port to be issued to the UPS.
- unknown(1) indicates the Simple Signal Shutdown setting is unknown.
- disabled(2) configure to disable Simple Signal Shutdowns.
- enabled(3) configure to enable Simple Signal Shutdowns."
- ::= { upsAdvConfig 26 }
-
-
--- the upsSyncCtrlGroupConfig group
-
-upsSCGMembershipGroupNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The SCG Membership Group number (MGN) is a 16-bit number allowing
- up to 65534 separate groups that can be identified and distinguished
- per IP subnet. Zero and 65535 are not used. The MGN is used in all
- communication between members of the SCG and a Network Management Card
- (NMC) will listen and only respond to commands sent to it using its
- configured SCG ID."
- ::= { upsSyncCtrlGroupConfig 1 }
-
-upsSCGActiveMembershipStatus OBJECT-TYPE
- SYNTAX INTEGER {
- enabledSCG (1),
- disabledSCG (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Membership in the configured SCG can be enabled and
- disabled. If an NMC is configured for an SCG, but
- has its membership disabled, all synchronized control commands
- received will be ignored."
- ::= { upsSyncCtrlGroupConfig 2 }
-
-upsSCGPowerSynchronizationDelayTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The Power Synchronization Delay Time (PSD) setting is the maximum
- number of seconds an SCG Initiator will wait for all SCG members to
- recover utility power before completing the reboot sequence of a
- reboot or sleep command. If all SCG members are ready to proceed,
- no additional delay is introduced."
- ::= { upsSyncCtrlGroupConfig 3 }
-
-upsSCGReturnBatteryCapacityOffset OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A reboot command uses the InitiatorÂ’s Return battery Capacity (RBC) to control
- when the SCG completes this operation. In a Normal Control Operation (NCC) the
- UPS will only complete the reboot if RBC is reached. Due to normal battery
- charge rate variations it may be desirable for the Followers to complete the
- reboot if they are within some range of the InitiatorÂ’s RBC when the Initiator
- is prepared (charged to RBC) to complete the reboot. The Return Battery
- Capacity Offset (RBCO) defines a percent battery capacity subtracted from an
- RBC above which a FollowerÂ’s battery must be charged for it to complete a
- reboot. For example, if the InitiatorÂ’s RBC is 50% and the InitiatorÂ’s RBCO is
- 5% then a FollowerÂ’s battery capacity is within range if it is greater or equal
- to 45% (50% - 5%) at the time when the Initiator tries to complete the reboot
- command. The default RBCO is 10%. "
- ::= { upsSyncCtrlGroupConfig 4 }
-
-upsSCGMultiCastIP OBJECT-TYPE
- SYNTAX IpAddress
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The MultiCast IP address of the SCG Group."
- ::= { upsSyncCtrlGroupConfig 5 }
-
--- the upsSyncCtrlGroupStatus group
-
-upsSCGNumOfGroupMembers OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of active, communicating members in the Sync Control Group (SCG).
- This variable indicates the number of rows in the SCG Status Table."
- ::= { upsSyncCtrlGroupStatus 1 }
-
--- Sync Control Group Status Table
-
-upsSCGStatusTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsSCGStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of SCG status table entries. The number of entries
- is given by the value of upsSCGNumOfGroupMembers."
- ::= { upsSyncCtrlGroupStatus 2 }
-
- upsSCGStatusEntry OBJECT-TYPE
- SYNTAX UpsSCGStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular SCG Member."
- INDEX { upsSCGStatusTableIndex }
- ::= { upsSCGStatusTable 1 }
-
- UpsSCGStatusEntry ::= SEQUENCE {
- upsSCGStatusTableIndex INTEGER,
- upsSCGMemberIP IpAddress,
- upsSCGACInputStatus INTEGER,
- upsSCGACOutputStatus INTEGER
- }
-
- upsSCGStatusTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of a status entry for an active, communicating SCG member."
- ::= { upsSCGStatusEntry 1 }
-
- upsSCGMemberIP OBJECT-TYPE
- SYNTAX IpAddress
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The IP address of an active, communicating SCG Member."
- ::= { upsSCGStatusEntry 2 }
-
- upsSCGACInputStatus OBJECT-TYPE
- SYNTAX INTEGER {
- acInGood(1),
- acInBad(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID indicates the AC Input Status of the SCG Member.
- acInGood(1) indicates the AC Input is within tolerance.
- acInBad(2) indicates the AC Input is not within tolerance."
- ::= { upsSCGStatusEntry 3 }
-
- upsSCGACOutputStatus OBJECT-TYPE
- SYNTAX INTEGER {
- acOutOn(1),
- acOutOff(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID indicates the AC Output Status of the SCG Member.
- acOutOn(1) indicates the UPS output is providing power to the load.
- acOutOff(2) indicates the UPS output is not providing power to the load. "
- ::= { upsSCGStatusEntry 4 }
-
--- the upsBasicState group
-
-upsBasicStateOutputState OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An ASCII string containing the 64 flags representing
- the current state(s) of the UPS. If the Network Card
- is unable to determine the state of the UPS, this
- variable is set to ‘UNKNOWN’.
-
- The flags are numbered 1 to 64, read from left to
- right. The flags are defined as follows:
-
- Flag 1: Abnormal Condition Present
- Flag 2: On Battery
- Flag 3: Low Battery
- Flag 4: On Line
-
- Flag 5: Replace Battery
- Flag 6: Serial Communication Established
- Flag 7: AVR Boost Active*
- Flag 8: AVR Trim Active*
-
- Flag 9: Overload
- Flag 10: Runtime Calibration
- Flag 11: Batteries Discharged
- Flag 12: Manual Bypass
-
- Flag 13: Software Bypass
- Flag 14: In Bypass due to Internal Fault
- Flag 15: In Bypass due to Supply Failure*
- Flag 16: In Bypass due to Fan Failure*
-
- Flag 17: Sleeping on a Timer
- Flag 18: Sleeping until Utility Power Returns
- Flag 19: On
- Flag 20: Rebooting
-
- Flag 21: Battery Communication Lost*
- Flag 22: Graceful Shutdown Initiated
- Flag 23: Smart Boost or Smart Trim Fault*
- Flag 24: Bad Output Voltage*
-
- Flag 25: Battery Charger Failure*
- Flag 26: High Battery Temperature
- Flag 27: Self Test In Progress
- Flag 28: Low Battery / On Battery
-
- Flag 29: Graceful Shutdown Issued by Upstream Device
- Flag 30: Graceful Shutdown Issued by Downstream Device
- Flag 31: No Batteries Attached*
- Flag 32: Synchronized command is in progress
-
- Flag 33: <Not Used>
- Flag 34: <Not Used>
- Flag 35: <Not Used>
- Flag 36: <Not Used>
-
- Flag 37: <Not Used>
- Flag 38: <Not Used>
- Flag 39: <Not Used>
- Flag 40: <Not Used>
-
- Flag 41: <Not Used>
- Flag 42: <Not Used>
- Flag 43: <Not Used>
- Flag 44: <Not Used>
-
- Flag 45: <Not Used>
- Flag 46: <Not Used>
- Flag 47: <Not Used>
- Flag 48: <Not Used>
-
- Flag 49: <Not Used>
- Flag 50: <Not Used>
- Flag 51: <Not Used>
- Flag 52: <Not Used>
-
- Flag 53: <Not Used>
- Flag 54: <Not Used>
- Flag 55: <Not Used>
- Flag 56: <Not Used>
-
- Flag 57: <Not Used>
- Flag 58: <Not Used>
- Flag 59: <Not Used>
- Flag 60: <Not Used>
-
- Flag 61: <Not Used>
- Flag 62: <Not Used>
- Flag 63: <Not Used>
- Flag 64: <Not Used>"
-
- ::= { upsBasicState 1 }
-
--- the upsAdvState group
-
-upsAdvStateAbnormalConditions OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An ASCII string containing the 32 flags representing
- the current active UPS faults. If the Network Card
- is unable to determine the values of the flags, this
- variable is set to ‘UNKNOWN’. If this variable is not
- supported by the connected UPS, this variable is set to
- ‘NOT SUPPORTED’.
-
- The flags are numbered from 1 to 32, and read from left to
- right. The flags are defined as follows:
-
- Flag 1: Power Module Failure
- Flag 2: Main Intelligence Module Failure
- Flag 3: Redundant Intelligence Module Failure
- Flag 4: Battery Failure
-
- Flag 5: Load(kVA) Alarm Threshold Violation
- Flag 6: Redundancy Lost
- Flag 7: Redundancy Below Alarm Threshold
- Flag 8: Bypass notin Range; Either Frequency or Voltage
-
- Flag 9: Bypass Contactor Stuck in Bypass Condition
- Flag 10: Bypass Contactor Stuck in On-Line Condition
- Flag 11: In Bypass due to an Internal Fault
- Flag 12: In Bypass due to an Overload
-
- Flag 13: In Maintanence Bypass
- Flag 14: Input Circuit Braker Tripped Open
- Flag 15: System Level Fan Failure
- Flag 16: Redundant Intelligent Module in Control
-
- Flag 17: IIC Inter-Module Communication Failure
- Flag 18: No Working Power Modules
- Flag 19: Load Shutdown From Bypass; Input Frequency
- Flag 20: Runtime Below Alarm Threshold
-
- Flag 21: Extended Run Frame Fault
- Flag 22: Output Voltage out of Range
- Flag 23: UPS Not Synchronized
- Flag 24: No Batteries Installed
-
- Flag 25: Battery Voltage High
- Flag 26: UPS Specific Fault Detected
- Flag 27: Site Wiring Fault
- Flag 28: Backfeed Protection Relay Opened
-
- Flag 29: <Not Used>
- Flag 30: <Not Used>
- Flag 31: <Not Used>
- Flag 32: <Not Used>"
- ::= { upsAdvState 1 }
-
-upsAdvStateSymmetra3PhaseSpecificFaults OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An ASCII string containing the 64 flags representing
- the current active UPS specific faults for the Symmetra
- 3-Phase UPS models. If the Network Card is unable to
- determine the values of the flags, this variable is set
- to ‘UNKNOWN’. If the connected UPS does not use this
- variable, it is set to ‘NOT SUPPORTED’.
-
- The flags are numbered from 1 to 64, and read from left
- to right. The bits are defined as follows:
-
- Flag 1: External Switch Gear Failure
- Flag 2: External Transformer Over Temperature
- Flag 3: External DC Circuit Breaker Tripped
- Flag 4: System Power Supply Failure
-
- Flag 5: Battery Monitor Card Failure
- Flag 6: Battery Monitor Card Removed
- Flag 7: XR Communication Card Failure
- Flag 8: XR Communication Card Removed
-
- Flag 9: External Switch Gear Monitoring Card Failure
- Flag 10: External Switch Gear Monitoring Card Removed
- Flag 11: Internal DC Circiut Breaker Tripped
- Flag 12: Static Bypass Switch Failure
-
- Flag 13: System EEPROM Removed
- Flag 14: System EEPROM Failure
- Flag 15: UPS in Forced Bypass
- Flag 16: <Not Used>
-
- Flag 17: <Not Used>
- Flag 18: <Not Used>
- Flag 19: <Not Used>
- Flag 20: <Not Used>
-
- Flag 21: <Not Used>
- Flag 22: <Not Used>
- Flag 23: <Not Used>
- Flag 24: <Not Used>
-
- Flag 25: <Not Used>
- Flag 26: <Not Used>
- Flag 27: <Not Used>
- Flag 28: <Not Used>
-
- Flag 29: <Not Used>
- Flag 30: <Not Used>
- Flag 31: <Not Used>
- Flag 32: <Not Used>
-
- Flag 33: <Not Used>
- Flag 34: <Not Used>
- Flag 35: <Not Used>
- Flag 36: <Not Used>
-
- Flag 37: <Not Used>
- Flag 38: <Not Used>
- Flag 39: <Not Used>
- Flag 40: <Not Used>
-
- Flag 41: <Not Used>
- Flag 42: <Not Used>
- Flag 43: <Not Used>
- Flag 44: <Not Used>
-
- Flag 45: <Not Used>
- Flag 46: <Not Used>
- Flag 47: <Not Used>
- Flag 48: <Not Used>
-
- Flag 49: <Not Used>
- Flag 50: <Not Used>
- Flag 51: <Not Used>
- Flag 52: <Not Used>
-
- Flag 53: <Not Used>
- Flag 54: <Not Used>
- Flag 55: <Not Used>
- Flag 56: <Not Used>
-
- Flag 57: <Not Used>
- Flag 58: <Not Used>
- Flag 59: <Not Used>
- Flag 60: <Not Used>
-
- Flag 61: <Not Used>
- Flag 62: <Not Used>
- Flag 63: <Not Used>
- Flag 64: <Not Used>"
- ::= { upsAdvState 2 }
-
-upsAdvStateDP300ESpecificFaults OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An ASCII string containing the 64 flags representing
- the current active UPS specific faults for the Silcon
- DP300E UPS models. If the Network Card is unable to
- determine the values of the flags, this variable is set
- to ‘UNKNOWN’. If the connected UPS does not use this
- variable, it is set to ‘NOT SUPPORTED’.
-
- The flags are numbered from 1 to 64, and read from left
- to right. The bits are defined as follows:
-
- Flag 1: Peak Current Limiter Avtive
- Flag 2: Bypass Power Supply Fault
- Flag 3: Delta Current LImiter Active
- Flag 4: Fan Fault
-
- Flag 5: High DC warning
- Flag 6: Inverter Voltage Error
- Flag 7: Parallel Synchronization Error
- Flag 8: Second Power Supply Fault
-
- Flag 9: Internal Power Supply Fault
- Flag 10: <Not Used>
- Flag 11: <Not Used>
- Flag 12: <Not Used>
-
- Flag 13: <Not Used>
- Flag 14: Bypass Static Switch High Temperature
- Flag 15: High Battery Temperature
- Flag 16: Battery Weak
-
- Flag 17: <Not Used>
- Flag 18: System Locked in Operation Mode
- Flag 19: RAM1 Memory Write Error
- Flag 20: Memory Write Error
-
- Flag 21: Communication to VQ Bypass Lost
- Flag 22: Communication to VQ Output Lost
- Flag 23: Communication to DMU Lost
- Flag 24: Communication to Controller Lost
-
- Flag 25: Communication to Parallel IF Lost
- Flag 26: External Shutdown Accepted
- Flag 27: DC Capacitor Charge Error
- Flag 28: Communication to VQ Mains Lost
-
- Flag 29: Bypass Synchronization Error
- Flag 30: Charge Error
- Flag 31: <Not Used>
- Flag 32: <Not Used>
-
- Flag 33: <Not Used>
- Flag 34: <Not Used>
- Flag 35: <Not Used>
- Flag 36: <Not Used>
-
- Flag 37: <Not Used>
- Flag 38: <Not Used>
- Flag 39: <Not Used>
- Flag 40: <Not Used>
-
- Flag 41: <Not Used>
- Flag 42: <Not Used>
- Flag 43: <Not Used>
- Flag 44: <Not Used>
-
- Flag 45: <Not Used>
- Flag 46: <Not Used>
- Flag 47: <Not Used>
- Flag 48: <Not Used>
-
- Flag 49: <Not Used>
- Flag 50: <Not Used>
- Flag 51: <Not Used>
- Flag 52: <Not Used>
-
- Flag 53: <Not Used>
- Flag 54: <Not Used>
- Flag 55: <Not Used>
- Flag 56: <Not Used>
-
- Flag 57: <Not Used>
- Flag 58: <Not Used>
- Flag 59: <Not Used>
- Flag 60: <Not Used>
-
- Flag 61: <Not Used>
- Flag 62: <Not Used>
- Flag 63: <Not Used>
- Flag 64: <Not Used>"
- ::= { upsAdvState 3 }
-
-
--- the upsBasicControl group
-
-upsBasicControlConserveBattery OBJECT-TYPE
- SYNTAX INTEGER {
- noTurnOffUps(1),
- turnOffUpsToConserveBattery(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this variable to turnUpsOffToConserveBattery(2)
- causes a UPS on battery to be put into 'sleep' mode. The
- UPS will turn back on when utility power is restored.
- Attempting to turn off a UPS that is not on battery will
- result in a badValue error.
-
- Setting this value to noTurnOffUps(1) has no
- effect.
-
- The value noTurnOffUps(1) will always be returned
- when the variable is read."
-::= { upsBasicControl 1 }
-
-
-
--- the upsAdvControl group
-
-upsAdvControlUpsOff OBJECT-TYPE
- SYNTAX INTEGER {
- noTurnUpsOff(1),
- turnUpsOff(2),
- turnUpsOffGracefully(3),
- turnUpsSyncGroupOff(4),
- turnUpsSyncGroupOffAfterDelay(5),
- turnUpsSyncGroupOffGracefully(6)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this variable to turnUpsOff(2) causes
- the UPS to shut off. When in this state, the UPS
- will not provide output power regardless of the input
- line state.
-
- Setting this variable to turnUpsOffGracefully(3) causes
- the UPS to shut off after a delay period. This allows the
- host to shut down in a graceful manner. When in this state,
- the UPS will not provide output power regardless of the
- input line state.
-
- If this UPS is an active member of a Synchronized
- Control Group (SCG) the turnUpsSyncGroupOff(4) command
- will perform a Synchronized Turn Off of all active Group
- members regardless of their current AC output status.
-
- If this UPS is an active member of a Synchronized
- Control Group (SCG) the turnUpsSyncGroupOffAfterDelay(5)
- command will perform a Synchronized Turn Off After Delay
- of all active Group members regardless of their current
- AC output status. This unit's Shutdown Delay will be used
- to execute the Turn Off After Delay command.
-
- If this UPS is an active member of an SCG, the
- turnUpsSyncGroupOffGracefully(6) command will perform a
- Synchronized Turn Off Gracefully of all active Group
- members regardless of their current AC output status.
- This unit's Maximum Shutdown Time and Shutdown Delay will
- be used to execute the Turn Off Gracefully command.
-
- Setting this value to noTurnUpsOff(1) has no
- effect.
-
- The value noTurnUpsOff(1) will always be returned
- when the variable is read."
- ::= { upsAdvControl 1 }
-
-upsAdvControlRebootUps OBJECT-TYPE
- SYNTAX INTEGER {
- noRebootUps(1),
- rebootUps(2),
- rebootUpsGracefully(3),
- rebootSyncGroupUps(4),
- rebootSyncGroupUpsGracefully(5)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this variable to rebootUps(2) causes the
- UPS to shut off and turn back on.
-
- Setting this variable to rebootUpsGracefully(3) causes the
- UPS to shut off and turn back on after a delay period.
- This allows the host to shut down in a graceful manner.
-
- If this UPS is an active member of a Synchronized Control
- Group (SCG) the rebootSyncGroupUps(4) command will perform
- a Synchronized Reboot of all active Group members regardless
- of their current AC output status. This unit's Power
- Synchronization Delay, Shutdown Delay, Return Delay,
- Return Battery Capacity, and Return Battery Capacity Offset
- will be used to execute the Reboot command.
-
- If this UPS is an active member of a SCG the
- rebootSyncGroupUpsGracefully(5) command will perform a
- Synchronized Reboot of all active Group members regardless
- of their current AC output status. This unit's Power
- Synchronization Delay, Maximum Shutdown Time,
- Shutdown Delay, Return Delay, Return Battery Capacity, and
- Return Battery Capacity Offset will be used
- to execute the Reboot command.
-
- Setting this value to noRebootUps(1) has no effect.
-
- The value noRebootUps(1) will always be returned
- when the variable is read."
- ::= { upsAdvControl 2 }
-
-upsAdvControlUpsSleep OBJECT-TYPE
- SYNTAX INTEGER {
- noPutUpsToSleep(1),
- putUpsToSleep(2),
- putUpsToSleepGracefully(3),
- putUpsSyncGroupToSleep(4),
- putUpsSyncGroupToSleepGracefully(5)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this variable to putUpsToSleep(2) causes
- the UPS to go to sleep for the time specified by
- upsAdvConfigUpsSleepTime.
-
- Setting this variable to putUpsToSleepGracefully(3)
- causes the UPS to go to sleep for the time specified
- by upsAdvConfigUpsSleepTime after a delay period.
- This allows the host to shut down in a graceful manner.
-
- If this UPS is an active member of a Synchronized Control
- Group (SCG), the putUpsSyncGroupToSleep(4) command will perform
- a Synchronized Sleep of all active Group members regardless
- of their current AC output status. This unit's Power
- Synchronization Delay, Shutdown Delay, Sleep Time,
- and Return Delay will be used to execute the sleep command.
-
- If this UPS is an active member of a SCG the
- putUpsSyncGroupToSleepGracefully(5) command will perform a
- Synchronized Sleep Gracefully of all active Group members
- regardless of their current AC output status. This unit's
- Power Synchronization Delay, Maximum Shutdown Time, Shutdown
- Delay, Sleep Time, and Return Delay to execute the sleep
- command.
-
- When in sleep mode, the UPS will not provide output
- power regardless of the input line state. Once the
- specified time has elapsed, output power will be
- restored.
-
- Setting this value to noPutUpsToSleep(1) has no
- effect.
-
- The value noPutUpsToSleep(1) will always be returned
- when the variable is read."
- ::= { upsAdvControl 3 }
-
-
-upsAdvControlSimulatePowerFail OBJECT-TYPE
- SYNTAX INTEGER {
- noSimulatePowerFailure(1),
- simulatePowerFailure(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this variable to simulatePowerFailure(2) causes
- the UPS switch to battery power.
-
- Setting this value to noSimulatePowerFailure(1) has no
- effect.
-
- The value noSimulatePowerFailure(1) will always be returned
- when the variable is read."
- ::= { upsAdvControl 4 }
-
-
-upsAdvControlFlashAndBeep OBJECT-TYPE
- SYNTAX INTEGER {
- noFlashAndBeep(1),
- flashAndBeep(2),
- flashAndBeepSyncGroup(3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this variable to flashAndBeep(2) causes the
- UPS to beep and simultaneously turn on the UPS front
- panel lights (Smart-UPS only).
-
- If this UPS is an active member of a Synchronized Control
- Group (SCG), the flashAndBeepSyncGroup(3) command will
- Flash and Beep all active Group members regardless of
- current AC output status.
-
- Setting this value to noFlashAndBeep(1) has no
- effect.
-
- The value noFlashAndBeep(1) will always be returned
- when the variable is read."
- ::= { upsAdvControl 5 }
-
-
-upsAdvControlTurnOnUPS OBJECT-TYPE
- SYNTAX INTEGER {
- noTurnOnUPS(1),
- turnOnUPS(2),
- turnOnUPSSyncGroup(3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this variable to turnOnUPS(2) causes the
- UPS to be turned on immediately.
-
- If this UPS is an active member of a Synchronized Control
- Group (SCG), the turnOnUPSSyncGroup(3) command will perform
- a Synchronized Turn On of all active Group members
- regardless of their current AC output status.
-
- Setting this value to noTurnOnUPS(1) has no
- effect.
-
- The value noTurnOnUPS(1) will always be returned
- when the variable is read."
- ::= { upsAdvControl 6 }
-
-upsAdvControlBypassSwitch OBJECT-TYPE
- SYNTAX INTEGER {
- noBypassSwitch (1),
- switchToBypass (2),
- switchOutOfBypass(3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This switch puts the UPS in or out of bypass mode."
- ::= { upsAdvControl 7 }
-
-
--- the upsTest group
-
--- the upsBasicTest group
-
--- the upsAdvTest group
-
-upsAdvTestDiagnosticSchedule OBJECT-TYPE
- SYNTAX INTEGER {
- unknown(1),
- biweekly(2),
- weekly(3),
- atTurnOn(4),
- never(5)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The UPS system's automatic battery test schedule."
- ::= { upsAdvTest 1 }
-
-
-upsAdvTestDiagnostics OBJECT-TYPE
- SYNTAX INTEGER {
- noTestDiagnostics(1),
- testDiagnostics(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this variable to testDiagnostics(2) causes
- the UPS to perform a diagnostic self test.
-
- Setting this value to noTestDiagnostics(1) has no
- effect.
-
- The value noTestDiagnostics(1) will always be returned
- when the variable is read."
- ::= { upsAdvTest 2 }
-
-upsAdvTestDiagnosticsResults OBJECT-TYPE
- SYNTAX INTEGER {
- ok(1),
- failed(2),
- invalidTest(3),
- testInProgress(4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The results of the last UPS diagnostics test performed."
- ::= { upsAdvTest 3 }
-
-upsAdvTestLastDiagnosticsDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date the last UPS diagnostics test was performed in
- mm/dd/yy format."
- ::= { upsAdvTest 4 }
-
-upsAdvTestRuntimeCalibration OBJECT-TYPE
- SYNTAX INTEGER {
- noPerformCalibration(1),
- performCalibration(2),
- cancelCurrentCalibration(3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this variable to performCalibration(2) causes
- the UPS to discharge to calibrate the UPS.
- The test will only start if the battery capacity is 100%.
- The test runs until capacity is less than 25%.
-
- Setting this variable to cancelCurrentCalibration(3)
- after setting performCalibration(2) will cancel the
- current discharge.
-
- Setting this variable to noPerformCalibration(1)
- will have no effect.
-
- The value noPerformCalibration(1) will always be returned
- when the variable is read.
-
- The result of the calibration will be saved in
- upsAdvTestCalibrationResult."
- ::= { upsAdvTest 5 }
-
-upsAdvTestCalibrationResults OBJECT-TYPE
- SYNTAX INTEGER {
- ok(1),
- invalidCalibration(2),
- calibrationInProgress(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The results of the last runtime calibration.
-
- Value ok(1) means a successful runtime calibration.
-
- Value invalidCalibration(2) indicates last calibration did
- not take place since the battery capacity was below
- 100%.
-
- Value calibrationInProgress(3) means a calibration
- is occurring now. "
- ::= { upsAdvTest 6 }
-
-upsAdvTestCalibrationDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date the last UPS runtime calibration was
- performed in mm/dd/yy format."
- ::= { upsAdvTest 7 }
-
--- the upsComm group
-
-upsCommStatus OBJECT-TYPE
- SYNTAX INTEGER {
- ok(1),
- noComm(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of agent's communication with UPS. "
- ::= { upsComm 1 }
-
-
--- the measureUps group
--- the Environ group
-
-mUpsEnvironAmbientTemperature OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The ambient temperature in Celsius for Probe 1."
- ::= { mUpsEnviron 1 }
-
-mUpsEnvironRelativeHumidity OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The relative humidity as a percentage for Probe 1."
- ::= { mUpsEnviron 2 }
-
-
-mUpsEnvironAmbientTemperature2 OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The ambient temperature in Celsius for Probe 2."
- ::= { mUpsEnviron 3 }
-
-mUpsEnvironRelativeHumidity2 OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The relative humidity as a percentage for Probe 2."
- ::= { mUpsEnviron 4 }
-
--- the mUpsContact group
-
-mUpsContactNumContacts OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of contacts supported by the Measure-UPS."
- ::= { mUpsContact 1 }
-
-mUpsContactTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ContactEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of contacts supported by the Measure-UPS."
- ::= { mUpsContact 2 }
-
-mUpsContactEntry OBJECT-TYPE
- SYNTAX ContactEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A contact entry containing information for a given contact."
- INDEX { contactNumber }
- ::= { mUpsContactTable 1 }
-
-ContactEntry ::=
- SEQUENCE {
- contactNumber
- INTEGER,
- normalState
- INTEGER,
- description
- DisplayString,
- monitoringStatus
- INTEGER,
- currentStatus
- INTEGER
- }
-
-contactNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An index identifying the contact on the Measure-UPS."
- ::= { mUpsContactEntry 1 }
-
-normalState OBJECT-TYPE
- SYNTAX INTEGER {
- unknown(1),
- open(2),
- closed(3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The normal operating position of the contact. If the normal
- operating position cannot be set then it is controlled via the
- dip switch on the Measure-UPS and is therefore read-only."
- ::= { mUpsContactEntry 2 }
-
-description OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The description of the purpose/use of the contact."
- ::= { mUpsContactEntry 3 }
-
-monitoringStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown(1),
- enabled(2),
- disabled(3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A flag indicating whether this contact is
- monitored, or not."
- ::= { mUpsContactEntry 4 }
-
-currentStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown(1),
- noFault(2),
- fault(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This value indicates the current state of the contact.
- If the contact is not in its normal state. This value
- is set to fault(2)."
- ::= { mUpsContactEntry 5 }
-
--- Three Phase Group
-
---
--- Reset Max/Min Values Group
---
-
- upsPhaseResetMaxMinValues OBJECT-TYPE
- SYNTAX INTEGER {
- none (1),
- reset (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Reset the maximum and minimum UPS values:
- upsPhaseInputMaxVoltage, upsPhaseInputMinVoltage,
- upsPhaseInputMaxCurrent, upsPhaseInputMinCurrent,
- upsPhaseInputMaxPower, upsPhaseInputMinPower,
- upsPhaseOutputMaxCurrent, upsPhaseOutputMinCurrent,
- upsPhaseOutputMaxLoad, upsPhaseOutputMinLoad,
- upsPhaseOutputMaxPercentLoad, upsPhaseOutputMinPercentLoad,
- upsPhaseOutputMaxPower, upsPhaseOutputMinPower,
- upsPhaseOutputMaxPercentPower, upsPhaseOutputMinPercentPower."
- ::= { upsPhaseResetValues 1 }
-
---
--- Input Group
---
-
--- Number of Inputs
-
- upsPhaseNumInputs OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of input feeds to this device.
- This variable indicates the number of rows in the
- input table."
- ::= { upsPhaseInput 1 }
-
--- Input Table
-
- upsPhaseInputTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsPhaseInputEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of input table entries. The number of entries
- is given by the value of upsPhaseNumInputs."
- ::= { upsPhaseInput 2 }
-
- upsPhaseInputEntry OBJECT-TYPE
- SYNTAX UpsPhaseInputEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular input."
- INDEX { upsPhaseInputTableIndex }
- ::= { upsPhaseInputTable 1 }
-
- UpsPhaseInputEntry ::= SEQUENCE {
- upsPhaseInputTableIndex INTEGER,
- upsPhaseNumInputPhases INTEGER,
- upsPhaseInputVoltageOrientation INTEGER,
- upsPhaseInputFrequency INTEGER,
- upsPhaseInputType INTEGER,
- upsPhaseInputName DisplayString
- }
-
- upsPhaseInputTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input identifier."
- ::= { upsPhaseInputEntry 1 }
-
- upsPhaseNumInputPhases OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of input phases utilized in this
- device. The sum of all the upsPhaseNumInputPhases
- variable indicates the number of rows in the
- input phase table."
- ::= { upsPhaseInputEntry 2 }
-
- upsPhaseInputVoltageOrientation OBJECT-TYPE
- SYNTAX INTEGER {
- unknown(1),
- singlePhase(2),
- splitPhase(3),
- threePhasePhaseToNeutral(4),
- threePhasePhaseToPhase(5)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input voltage orientation:
- 1: unknown for this UPS
- 2: singlePhase - phase 1 voltage is between Phase 1
- and Neutral.
- 3: splitPhase - phase 1 voltage is between Phase 1 and
- Neutral; phase 2 voltage is between Phase 2 and Neutral;
- phase 3 voltage is between Phase 1 and Phase2.
- 4: threePhasePhaseToNeutral - phase 1 voltage is between
- Phase 1 and Neutral; phase 2 voltage is between Phase 2
- and Neutral; phase 3 voltage is between Phase3 and
- Neutral.
- 5: threePhasePhaseToPhase - phase 1 voltage is between
- Phase 1 and Phase 2; phase 2 voltage is between Phase 2
- and Phase 3; phase 3 voltage is between Phase 3 and
- Phase 1."
- ::= { upsPhaseInputEntry 3 }
-
- upsPhaseInputFrequency OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input frequency in 0.1 Hertz, or -1 if it's unsupported
- by this UPS."
- ::= { upsPhaseInputEntry 4 }
-
- upsPhaseInputType OBJECT-TYPE
- SYNTAX INTEGER {
- unknown(1),
- main(2),
- bypass(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input type."
- ::= { upsPhaseInputEntry 5 }
-
- upsPhaseInputName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A name given to a particular input."
- ::= { upsPhaseInputEntry 6 }
-
--- Input Phase Table
-
- upsPhaseInputPhaseTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsPhaseInputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of input table entries. The number of entries
- is given by the sum of the upsPhaseNumInputPhases."
- ::= { upsPhaseInput 3 }
-
- upsPhaseInputPhaseEntry OBJECT-TYPE
- SYNTAX UpsPhaseInputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular input phase."
- INDEX { upsPhaseInputPhaseTableIndex, upsPhaseInputPhaseIndex }
- ::= { upsPhaseInputPhaseTable 1 }
-
- UpsPhaseInputPhaseEntry ::= SEQUENCE {
- upsPhaseInputPhaseTableIndex INTEGER,
- upsPhaseInputPhaseIndex INTEGER,
- upsPhaseInputVoltage INTEGER,
- upsPhaseInputMaxVoltage INTEGER,
- upsPhaseInputMinVoltage INTEGER,
- upsPhaseInputCurrent INTEGER,
- upsPhaseInputMaxCurrent INTEGER,
- upsPhaseInputMinCurrent INTEGER,
- upsPhaseInputPower INTEGER,
- upsPhaseInputMaxPower INTEGER,
- upsPhaseInputMinPower INTEGER
- }
-
- upsPhaseInputPhaseTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input identifier."
- ::= { upsPhaseInputPhaseEntry 1 }
-
- upsPhaseInputPhaseIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input phase identifier."
- ::= { upsPhaseInputPhaseEntry 2 }
-
- upsPhaseInputVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input voltage in VAC, or -1 if it's unsupported
- by this UPS."
- ::= { upsPhaseInputPhaseEntry 3 }
-
- upsPhaseInputMaxVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum input voltage in VAC measured
- since the last reset (upsPhaseResetMaxMinValues), or
- -1 if it's unsupported by this UPS.
- Sampled every 30 seconds."
- ::= { upsPhaseInputPhaseEntry 4 }
-
- upsPhaseInputMinVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum input voltage in VAC measured
- since the last reset (upsPhaseResetMaxMinValues), or
- -1 if it's unsupported by this UPS.
- Sampled every 30 seconds."
- ::= { upsPhaseInputPhaseEntry 5 }
-
- upsPhaseInputCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input current in 0.1 amperes, or -1 if it's
- unsupported by this UPS."
- ::= { upsPhaseInputPhaseEntry 6 }
-
- upsPhaseInputMaxCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum input current in 0.1 amperes measured
- since the last reset (upsPhaseResetMaxMinValues), or
- -1 if it's unsupported by this UPS.
- Sampled every 30 seconds."
- ::= { upsPhaseInputPhaseEntry 7 }
-
- upsPhaseInputMinCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum input current in 0.1 amperes measured
- since the last reset (upsPhaseResetMaxMinValues), or
- -1 if it's unsupported by this UPS.
- Sampled every 30 seconds."
- ::= { upsPhaseInputPhaseEntry 8 }
-
- upsPhaseInputPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input power in Watts, or -1 if it's unsupported
- by this UPS."
- ::= { upsPhaseInputPhaseEntry 9 }
-
- upsPhaseInputMaxPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum input power in Watts measured
- since the last reset (upsPhaseResetMaxMinValues), or
- -1 if it's unsupported by this UPS.
- Sampled every 30 seconds."
- ::= { upsPhaseInputPhaseEntry 10 }
-
- upsPhaseInputMinPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum input power in Watts measured
- since the last reset (upsPhaseResetMaxMinValues), or
- -1 if it's unsupported by this UPS.
- Sampled every 30 seconds."
- ::= { upsPhaseInputPhaseEntry 11 }
-
- --
- -- The Output group.
- --
-
- -- Number of Outputs
-
- upsPhaseNumOutputs OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of output feeds to this device.
- This variable indicates the number of rows in the
- output table."
- ::= { upsPhaseOutput 1 }
-
- -- Output Table
-
- upsPhaseOutputTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsPhaseOutputEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of output table entries. The number of entries
- is given by the value of upsOutputNumPhases."
- ::= { upsPhaseOutput 2 }
-
- upsPhaseOutputEntry OBJECT-TYPE
- SYNTAX UpsPhaseOutputEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular output."
- INDEX { upsPhaseOutputTableIndex }
- ::= { upsPhaseOutputTable 1 }
-
- UpsPhaseOutputEntry ::= SEQUENCE {
- upsPhaseOutputTableIndex INTEGER,
- upsPhaseNumOutputPhases INTEGER,
- upsPhaseOutputVoltageOrientation INTEGER,
- upsPhaseOutputFrequency INTEGER
- }
-
- upsPhaseOutputTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output identifier."
- ::= { upsPhaseOutputEntry 1 }
-
- upsPhaseNumOutputPhases OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of output phases utilized in this
- device. The sum of all the upsPhaseNumOutputPhases
- variable indicates the number of rows in the
- output phase table."
- ::= { upsPhaseOutputEntry 2 }
-
- upsPhaseOutputVoltageOrientation OBJECT-TYPE
- SYNTAX INTEGER {
- unknown(1),
- singlePhase(2),
- splitPhase(3),
- threePhasePhaseToNeutral(4),
- threePhasePhaseToPhase(5)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output voltage orientation:
- 1: unknown for this UPS
- 2: singlePhase - phase 1 voltage is between Phase 1
- and Neutral.
- 3: splitPhase - phase 1 voltage is between Phase 1 and
- Neutral; phase 2 voltage is between Phase 2 and Neutral;
- phase 3 voltage is between Phase 1 and Phase2.
- 4: threePhasePhaseToNeutral - phase 1 voltage is between
- Phase 1 and Neutral; phase 2 voltage is between Phase 2
- and Neutral; phase 3 voltage is between Phase3 and
- Neutral.
- 5: threePhasePhaseToPhase - phase 1 voltage is between
- Phase 1 and Phase 2; phase 2 voltage is between Phase 2
- and Phase 3; phase 3 voltage is between Phase 3 and
- Phase 1."
- ::= { upsPhaseOutputEntry 3 }
-
- upsPhaseOutputFrequency OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output frequency in 0.1 Hertz, or -1 if it's
- unsupported by this UPS."
- ::= { upsPhaseOutputEntry 4 }
-
- -- Output Phase Table
-
- upsPhaseOutputPhaseTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsPhaseOutputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of output table entries. The number of
- entries is given by the sum of the upsPhaseNumOutputPhases."
- ::= { upsPhaseOutput 3 }
-
- upsPhaseOutputPhaseEntry OBJECT-TYPE
- SYNTAX UpsPhaseOutputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular output phase."
- INDEX { upsPhaseOutputPhaseTableIndex, upsPhaseOutputPhaseIndex }
- ::= { upsPhaseOutputPhaseTable 1 }
-
- UpsPhaseOutputPhaseEntry ::= SEQUENCE {
- upsPhaseOutputPhaseTableIndex INTEGER,
- upsPhaseOutputPhaseIndex INTEGER,
- upsPhaseOutputVoltage INTEGER,
- upsPhaseOutputCurrent INTEGER,
- upsPhaseOutputMaxCurrent INTEGER,
- upsPhaseOutputMinCurrent INTEGER,
- upsPhaseOutputLoad INTEGER,
- upsPhaseOutputMaxLoad INTEGER,
- upsPhaseOutputMinLoad INTEGER,
- upsPhaseOutputPercentLoad INTEGER,
- upsPhaseOutputMaxPercentLoad INTEGER,
- upsPhaseOutputMinPercentLoad INTEGER,
- upsPhaseOutputPower INTEGER,
- upsPhaseOutputMaxPower INTEGER,
- upsPhaseOutputMinPower INTEGER,
- upsPhaseOutputPercentPower INTEGER,
- upsPhaseOutputMaxPercentPower INTEGER,
- upsPhaseOutputMinPercentPower INTEGER
- }
-
- upsPhaseOutputPhaseTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output identifier."
- ::= { upsPhaseOutputPhaseEntry 1 }
-
- upsPhaseOutputPhaseIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output phase identifier."
- ::= { upsPhaseOutputPhaseEntry 2 }
-
- upsPhaseOutputVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output voltage in VAC, or -1 if it's unsupported
- by this UPS."
- ::= { upsPhaseOutputPhaseEntry 3 }
-
- upsPhaseOutputCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output current in 0.1 amperes drawn
- by the load on the UPS, or -1 if it's unsupported
- by this UPS."
- ::= { upsPhaseOutputPhaseEntry 4 }
-
- upsPhaseOutputMaxCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum output current in 0.1 amperes measured
- since the last reset (upsPhaseResetMaxMinValues), or
- -1 if it's unsupported by this UPS.
- Sampled every 30 seconds."
- ::= { upsPhaseOutputPhaseEntry 5 }
-
- upsPhaseOutputMinCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum output current in 0.1 amperes measured
- since the last reset (upsPhaseResetMaxMinValues), or
- -1 if it's unsupported by this UPS.
- Sampled every 30 seconds."
- ::= { upsPhaseOutputPhaseEntry 6 }
-
- upsPhaseOutputLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output load in VA, or -1 if it's unsupported
- by this UPS."
- ::= { upsPhaseOutputPhaseEntry 7 }
-
- upsPhaseOutputMaxLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum output load in VA measured
- since the last reset (upsPhaseResetMaxMinValues), or
- -1 if it's unsupported by this UPS.
- Sampled every 30 seconds."
- ::= { upsPhaseOutputPhaseEntry 8 }
-
- upsPhaseOutputMinLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum output load in VA measured
- since the last reset (upsPhaseResetMaxMinValues), or
- -1 if it's unsupported by this UPS.
- Sampled every 30 seconds."
- ::= { upsPhaseOutputPhaseEntry 9 }
-
- upsPhaseOutputPercentLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The percentage of the UPS load capacity in VA at
- redundancy @ (n + x) presently being used on this
- output phase, or -1 if it's unsupported by this UPS."
- ::= { upsPhaseOutputPhaseEntry 10 }
-
- upsPhaseOutputMaxPercentLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum percentage of the UPS load capacity in
- VA measured at redundancy @ (n + x) presently
- being used on this output phase since the last reset
- (upsPhaseResetMaxMinValues), or -1 if it's unsupported
- by this UPS. Sampled every 30 seconds."
- ::= { upsPhaseOutputPhaseEntry 11 }
-
- upsPhaseOutputMinPercentLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum percentage of the UPS load capacity in
- VA measured at redundancy @ (n + x) presently
- being used on this output phase since the last reset
- (upsPhaseResetMaxMinValues), or -1 if it's unsupported
- by this UPS. Sampled every 30 seconds."
- ::= { upsPhaseOutputPhaseEntry 12 }
-
- upsPhaseOutputPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output power in Watts, or -1 if it's
- unsupported by this UPS."
- ::= { upsPhaseOutputPhaseEntry 13 }
-
- upsPhaseOutputMaxPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum output power in Watts measured
- since the last reset (upsPhaseResetMaxMinValues), or
- -1 if it's unsupported by this UPS.
- Sampled every 30 seconds."
- ::= { upsPhaseOutputPhaseEntry 14 }
-
- upsPhaseOutputMinPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum output power in Watts measured
- since the last reset (upsPhaseResetMaxMinValues), or
- -1 if it's unsupported by this UPS.
- Sampled every 30 seconds."
- ::= { upsPhaseOutputPhaseEntry 15 }
-
- upsPhaseOutputPercentPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The percentage of the UPS power capacity in Watts at
- redundancy @ (n + x) presently being used on this
- output phase, or -1 if it's unsupported by this UPS."
- ::= { upsPhaseOutputPhaseEntry 16 }
-
- upsPhaseOutputMaxPercentPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum percentage of the UPS power capacity
- in Watts measured at redundancy @ (n + x) presently
- being used on this output phase since the last
- reset (upsPhaseResetMaxMinValues), or -1 if it's
- unsupported by this UPS. Sampled every 30 seconds."
- ::= { upsPhaseOutputPhaseEntry 17 }
-
- upsPhaseOutputMinPercentPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum percentage of the UPS power capacity
- in Watts measured at redundancy @ (n + x) presently
- being used on this output phase since the last
- reset (upsPhaseResetMaxMinValues), or -1 if it's
- unsupported by this UPS. Sampled every 30 seconds."
- ::= { upsPhaseOutputPhaseEntry 18 }
-
--- the upsOutletGroupStatus group
-
-upsOutletGroupStatusTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of outlet groups for the UPS."
- ::= { upsOutletGroupStatus 1 }
-
-upsOutletGroupStatusTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsOutletGroupStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting status of the outlet groups. The number of
- entries is contained in the upsOutletGroupStatusTableSize OID."
- ::= { upsOutletGroupStatus 2 }
-
-upsOutletGroupStatusEntry OBJECT-TYPE
- SYNTAX UpsOutletGroupStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlet group status to get."
- INDEX { upsOutletGroupStatusIndex}
- ::= { upsOutletGroupStatusTable 1 }
-
-UpsOutletGroupStatusEntry ::=
- SEQUENCE {
- upsOutletGroupStatusIndex INTEGER,
- upsOutletGroupStatusName DisplayString,
- upsOutletGroupStatusGroupState INTEGER,
- upsOutletGroupStatusCommandPending INTEGER
- }
-
-upsOutletGroupStatusIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet group entry."
- ::= { upsOutletGroupStatusEntry 1 }
-
-upsOutletGroupStatusName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet group. This OID is provided
- for informational purposes only. This value is set
- by the upsOutletGroupConfigName OID."
- ::= { upsOutletGroupStatusEntry 2 }
-
-upsOutletGroupStatusGroupState OBJECT-TYPE
- SYNTAX INTEGER {
- upsOutletGroupStatusOn (1),
- upsOutletGroupStatusOff (2),
- upsOutletGroupStatusUnknown (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the outlet group state. If the outlet
- group is on, the upsOutletGroupStatusOn (1) value will be returned. If
- the outlet group is off, the upsOutletGroupStatusOff (2) value will be
- returned. If the state of the outlet group cannot be determined, the
- upsOutletGroupStatusUnknown (3) value will be returned."
-
- ::= { upsOutletGroupStatusEntry 3 }
-
-upsOutletGroupStatusCommandPending OBJECT-TYPE
- SYNTAX INTEGER {
- upsOutletGroupCommandPending (1),
- upsOutletGroupNoCommandPending (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the command pending
- state of the outlet group. If a command is pending on the
- outlet group, the upsOutletGroupCommandPending (1) value
- will be returned. If there is not a command pending
- on the outlet group, the upsOutletGroupNoCommandPending (2)
- will be returned."
- ::= { upsOutletGroupStatusEntry 4 }
-
--- the upsOutletGroupConfig group
-
-upsOutletGroupConfigTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of outlet groups for the UPS."
- ::= { upsOutletGroupConfig 1 }
-
-upsOutletGroupConfigTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsOutletGroupConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The list of outlet groups to configure. The number of entries
- is defined by the upsOutletGroupConfigTableSize OID."
- ::= { upsOutletGroupConfig 2 }
-
-upsOutletGroupConfigEntry OBJECT-TYPE
- SYNTAX UpsOutletGroupConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlet groups to configure."
- INDEX { upsOutletGroupConfigIndex}
- ::= { upsOutletGroupConfigTable 1 }
-
-UpsOutletGroupConfigEntry ::=
- SEQUENCE {
- upsOutletGroupConfigIndex INTEGER,
- upsOutletGroupConfigName DisplayString,
- upsOutletGroupConfigPowerOnDelay INTEGER,
- upsOutletGroupConfigPowerOffDelay INTEGER,
- upsOutletGroupConfigRebootDuration INTEGER
- }
-
-upsOutletGroupConfigIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet group entry."
- ::= { upsOutletGroupConfigEntry 1 }
-
-upsOutletGroupConfigName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet group."
- ::= { upsOutletGroupConfigEntry 2 }
-
-upsOutletGroupConfigPowerOnDelay OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The amount of time (in seconds) the outlet group will delay
- powering on when the delayed on or reboot command is applied.
- Allowed values are -1 (for Never) or 0 to 600 seconds."
- ::= { upsOutletGroupConfigEntry 3 }
-
-upsOutletGroupConfigPowerOffDelay OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The amount of time (in seconds) the outlet group will delay
- powering off when the delayed off command is applied.
- Allowed values are 0 to 600 seconds."
- ::= { upsOutletGroupConfigEntry 4 }
-
-upsOutletGroupConfigRebootDuration OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "During a reboot sequence, power is turned off and then
- back on. This OID defines the amount of time to wait,
- in seconds, after turning the power off, at the start
- of the sequence, before initiating the power on sequence.
- Allowed values are 0 to 600 seconds."
- ::= { upsOutletGroupConfigEntry 5 }
-
--- the upsOutletGroupControl group
-
-upsOutletGroupControlTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of outlet groups for the UPS."
- ::= { upsOutletGroupControl 1 }
-
-upsOutletGroupControlTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsOutletGroupControlEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for control of individual outlet groups. The number of
- entries is contained in the upsOutletGroupControlTableSize OID."
- ::= { upsOutletGroupControl 2 }
-
-upsOutletGroupControlEntry OBJECT-TYPE
- SYNTAX UpsOutletGroupControlEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlet group to control."
- INDEX { upsOutletGroupControlIndex}
- ::= { upsOutletGroupControlTable 1 }
-
-UpsOutletGroupControlEntry ::=
- SEQUENCE {
- upsOutletGroupControlIndex INTEGER,
- upsOutletGroupControlName DisplayString,
- upsOutletGroupControlCommand INTEGER
- }
-
-upsOutletGroupControlIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet group entry."
- ::= { upsOutletGroupControlEntry 1 }
-
-upsOutletGroupControlName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet group. This OID is provided
- for informational purposes only. This value is set
- by the upsOutletGroupConfigName OID."
- ::= { upsOutletGroupControlEntry 2 }
-
-upsOutletGroupControlCommand OBJECT-TYPE
- SYNTAX INTEGER {
- upsOutletGroupImmediateOn (1),
- upsOutletGroupImmediateOff (2),
- upsOutletGroupImmediateReboot (3),
- upsOutletGroupDelayedOn (4),
- upsOutletGroupDelayedOff (5),
- upsOutletGroupDelayedReboot (6),
- upsOutletGroupCancelPendingCommand (7),
- upsOutletGroupControlUnknown (8)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the outlet group state. If the outlet
- group is on, the upsOutletGroupImmediateOn (1) value will be returned. If
- the outlet group is off, the upsOutletGroupImmediateOff (2) value will be
- returned.
-
- If the state of the outlet group cannot be determined, the
- upsOutletGroupControlUnknown (8) value will be returned.
-
- Setting this variable to upsOutletGroupImmediateOn (1) will turn the
- outlet group on.
-
- Setting this variable to upsOutletGroupImmediateOff (2) will turn the
- outlet group off.
-
- Setting this variable to upsOutletGroupImmediateReboot (3) will turn the outlet
- group off, wait the upsOutletGroupConfigRebootDuration OID time, wait the
- upsOutletGroupConfigPowerOnDelay OID, and then turn the outlet group on.
-
- Setting this variable to upsOutletGroupDelayedOn (4) will turn the outlet
- group on after the upsOutletGroupConfigPowerOnDelay OID has elapsed.
-
- Setting this variable to upsOutletGroupDelayedOff (5) will turn the outlet
- group off after the upsOutletGroupConfigPowerOffDelay OID has elapsed.
-
- Setting this variable to upsOutletGroupDelayedReboot (6) will turn the outlet
- group off after the upsOutletGroupConfigPowerOffDelay OID has elapsed, wait the
- upsOutletGroupConfigRebootDuration OID time, wait the
- upsOutletGroupConfigPowerOnDelay OID, and then turn the outlet group on.
-
- Setting this variable to upsOutletGroupCancelPendingCommand (7) will
- cause any pending command to this outlet group to be canceled."
- ::= { upsOutletGroupControlEntry 3 }
-
--- the upsDiagnosticIM group
-
-upsDiagIMTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of Intelligence Modules in or attached to the UPS."
- ::= { upsDiagnosticIM 1 }
-
-upsDiagIMTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsDiagIMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for diagnostics of individual Intelligence Modules. The number of
- entries is contained in the upsDiagIMTableSize OID."
- ::= { upsDiagnosticIM 2 }
-
-upsDiagIMEntry OBJECT-TYPE
- SYNTAX UpsDiagIMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The diagnostics and information of an Intelligence Module."
- INDEX { upsDiagIMIndex}
- ::= { upsDiagIMTable 1 }
-
-UpsDiagIMEntry ::=
- SEQUENCE {
- upsDiagIMIndex INTEGER,
- upsDiagIMType INTEGER,
- upsDiagIMStatus INTEGER,
- upsDiagIMFirmwareRev DisplayString,
- upsDiagIMSlaveFirmwareRev DisplayString,
- upsDiagIMHardwareRev DisplayString,
- upsDiagIMSerialNum DisplayString,
- upsDiagIMManufactureDate DisplayString
- }
-
-upsDiagIMIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the Intelligence Module entry."
- ::= { upsDiagIMEntry 1 }
-
-upsDiagIMType OBJECT-TYPE
- SYNTAX INTEGER {
- imUnknown (1),
- imMIM (2),
- imRIM (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The type of the Intelligence Module.
- imUnknown(1) indicates the IM type is unknown.
- imMIM(2) indicates the IM type is a Main Intelligence Module.
- imRIM(3) indicates the IM type is Redundant Intelligence Module."
- ::= { upsDiagIMEntry 2 }
-
-upsDiagIMStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- offOk (3),
- onOk (4),
- offFail (5),
- onFail (6),
- lostComm (7)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the Intelligence Module.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- offOk(3) indicates the device status is off and OK.
- onOk(4) indicates the device status is on and OK.
- offFail(5) indicates the device status is off and failed.
- onFail(6) indicates the device status is on and failed.
- lostComm(7) indicates the device has lost communication."
- ::= { upsDiagIMEntry 3 }
-
-upsDiagIMFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The firmware revision of the Intelligence Module."
- ::= { upsDiagIMEntry 4 }
-
-upsDiagIMSlaveFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The slave firmware revision of the Intelligence Module."
- ::= { upsDiagIMEntry 5 }
-
-upsDiagIMHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware revision of the Intelligence Module."
- ::= { upsDiagIMEntry 6 }
-
-upsDiagIMSerialNum OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The serial number of the Intelligence Module."
- ::= { upsDiagIMEntry 7 }
-
-upsDiagIMManufactureDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The manufacture date of the Intelligence Module."
- ::= { upsDiagIMEntry 8 }
-
--- the upsDiagnosticPowerModules group
-
-upsDiagPMTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of Power Modules in or attached to the UPS."
- ::= { upsDiagnosticPowerModules 1 }
-
-upsDiagPMTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsDiagPMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for diagnostics of Individual Power modules. The number of
- entries is contained in the upsDiagPMTableSize OID."
- ::= { upsDiagnosticPowerModules 2 }
-
-upsDiagPMEntry OBJECT-TYPE
- SYNTAX UpsDiagPMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The diagnostics of an Power Module."
- INDEX { upsDiagPMIndex}
- ::= { upsDiagPMTable 1 }
-
-UpsDiagPMEntry ::=
- SEQUENCE {
- upsDiagPMIndex INTEGER,
- upsDiagPMStatus INTEGER,
- upsDiagPMFirmwareRev DisplayString,
- upsDiagPMHardwareRev DisplayString,
- upsDiagPMSerialNum DisplayString,
- upsDiagPMManufactureDate DisplayString
- }
-
-upsDiagPMIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the Power Module entry."
- ::= { upsDiagPMEntry 1 }
-
-upsDiagPMStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- offOk (3),
- onOk (4),
- offFail (5),
- onFail (6),
- lostComm (7)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the Power Module.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- offOk(3) indicates the device status is off and OK.
- onOk(4) indicates the device status is on and OK.
- offFail(5) indicates the device status is off and failed.
- onFail(6) indicates the device status is on and failed.
- lostComm(7) indicates the device has lost communication."
- ::= { upsDiagPMEntry 2 }
-
-upsDiagPMFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The firmware revision of the Power Module."
- ::= { upsDiagPMEntry 3 }
-
-upsDiagPMHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware revision of the Power Module."
- ::= { upsDiagPMEntry 4 }
-
-upsDiagPMSerialNum OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The serial number of the Power Module."
- ::= { upsDiagPMEntry 5 }
-
-upsDiagPMManufactureDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The manufacture date of the Power Module."
- ::= { upsDiagPMEntry 6 }
-
--- the upsDiagnosticBatteries group
-
-upsDiagBatteryTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of batteries in or attached to the UPS."
- ::= { upsDiagnosticBatteries 1 }
-
-upsDiagBatteryTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsDiagBatteryEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for diagnostics of individual batteries. The number of
- entries is contained in the upsDiagBattTableSize OID."
- ::= { upsDiagnosticBatteries 2 }
-
-upsDiagBatteryEntry OBJECT-TYPE
- SYNTAX UpsDiagBatteryEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The diagnostics of a battery."
- INDEX { upsDiagBatteryIndex}
- ::= { upsDiagBatteryTable 1 }
-
-UpsDiagBatteryEntry ::=
- SEQUENCE {
- upsDiagBatteryFrameIndex INTEGER,
- upsDiagBatteryIndex INTEGER,
- upsDiagBatteryStatus INTEGER,
- upsDiagBatterySerialNumber DisplayString,
- upsDiagBatteryFirmwareRev DisplayString,
- upsDiagBatteryManufactureDate DisplayString,
- upsDiagBatteryType DisplayString
- }
-
-upsDiagBatteryFrameIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the battery frame entry.
- Frame 0 indicates the Main frame. Extended Run (XR) frames
- start from index 1."
- ::= { upsDiagBatteryEntry 1 }
-
-upsDiagBatteryIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the battery entry."
- ::= { upsDiagBatteryEntry 2 }
-
-upsDiagBatteryStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- ok (3),
- failed (4),
- highTemperature (5),
- replaceImmediately (6),
- lowCapacity (7)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the battery.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- ok(3) indicates the battery status is OK.
- failed(4) indicates the battery status is failed.
- highTemperature(5) indicates the battery has a high temperature condition.
- replaceImmediately(6) indicates the battery must be replaced immediately.
- lowCapacity(7) indicates the battery has a low capacity."
- ::= { upsDiagBatteryEntry 3 }
-
-upsDiagBatterySerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The serial number of the battery."
- ::= { upsDiagBatteryEntry 4 }
-
-upsDiagBatteryFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The firmware revision of the battery."
- ::= { upsDiagBatteryEntry 5 }
-
-upsDiagBatteryManufactureDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The manufacture date of the battery."
- ::= { upsDiagBatteryEntry 6 }
-
-upsDiagBatteryType OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The battery type or rating for the battery."
- ::= { upsDiagBatteryEntry 7 }
-
--- the upsDiagnosticSubsystem group
-
-upsDiagSubSysFrameTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of frames attached to the UPS including the Main frame."
- ::= { upsDiagnosticSubsystem 1 }
-
-upsDiagSubSysFrameTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsDiagSubSysFrameEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for diagnostics of individual XR Frames."
- ::= { upsDiagnosticSubsystem 2 }
-
-upsDiagSubSysFrameEntry OBJECT-TYPE
- SYNTAX UpsDiagSubSysFrameEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The diagnostics of an XR Frame."
- INDEX { upsDiagSubSysFrameIndex}
- ::= { upsDiagSubSysFrameTable 1 }
-
-UpsDiagSubSysFrameEntry ::=
- SEQUENCE {
- upsDiagSubSysFrameIndex INTEGER,
- upsDiagSubSysFrameType INTEGER,
- upsDiagSubSysFrameFirmwareRev DisplayString,
- upsDiagSubSysFrameHardwareRev DisplayString,
- upsDiagSubSysFrameSerialNum DisplayString,
- upsDiagSubSysFrameManufactureDate DisplayString
- }
-
-upsDiagSubSysFrameIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frame index entry."
- ::= { upsDiagSubSysFrameEntry 1 }
-
-upsDiagSubSysFrameType OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- frameTypeMain (3),
- frameTypeXR (4),
- frameTypeLXR (5)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The type of Frame.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- frameTypeMain(3) indicates the the frame type is the Main Frame.
- frameTypeXR(4) indicates the frame type is an XR Frame.
- frameTypeLXR(5) indicates the frame type is an LXR Frame."
- ::= { upsDiagSubSysFrameEntry 2 }
-
-upsDiagSubSysFrameFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The firmware revision of the frame."
- ::= { upsDiagSubSysFrameEntry 3 }
-
-upsDiagSubSysFrameHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware revision of the frame."
- ::= { upsDiagSubSysFrameEntry 4 }
-
-upsDiagSubSysFrameSerialNum OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The serial number of the frame."
- ::= { upsDiagSubSysFrameEntry 5 }
-
-upsDiagSubSysFrameManufactureDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The manufacture date of the frame."
- ::= { upsDiagSubSysFrameEntry 6 }
-
-upsDiagSubSysIntBypSwitchTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of Internal Bypass switches attached to the UPS."
- ::= { upsDiagnosticSubsystem 3 }
-
-upsDiagSubSysIntBypSwitchTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsDiagSubSysIntBypSwitchEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for diagnostics of the Internal Bypass Switch."
- ::= { upsDiagnosticSubsystem 4 }
-
-upsDiagSubSysIntBypSwitchEntry OBJECT-TYPE
- SYNTAX UpsDiagSubSysIntBypSwitchEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The diagnostics of the Internal Bypass Switch."
- INDEX { upsDiagSubSysIntBypSwitchIndex}
- ::= { upsDiagSubSysIntBypSwitchTable 1 }
-
-UpsDiagSubSysIntBypSwitchEntry ::=
- SEQUENCE {
- upsDiagSubSysIntBypSwitchFrameIndex INTEGER,
- upsDiagSubSysIntBypSwitchIndex INTEGER,
- upsDiagSubSysIntBypSwitchStatus INTEGER,
- upsDiagSubSysIntBypSwitchFirmwareRev DisplayString,
- upsDiagSubSysIntBypSwitchHardwareRev DisplayString,
- upsDiagSubSysIntBypSwitchSerialNum DisplayString,
- upsDiagSubSysIntBypSwitchManufactureDate DisplayString
- }
-
-upsDiagSubSysIntBypSwitchFrameIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frame index entry."
- ::= { upsDiagSubSysIntBypSwitchEntry 1 }
-
-upsDiagSubSysIntBypSwitchIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The Internal Bypass Switch index entry."
- ::= { upsDiagSubSysIntBypSwitchEntry 2 }
-
-upsDiagSubSysIntBypSwitchStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- offOk (3),
- onOk (4),
- offFail (5),
- onFail (6),
- lostComm (7)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The Internal Bypass Switch status.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- offOk(3) indicates the device status is off and OK.
- onOk(4) indicates the device status is on and OK.
- offFail(5) indicates the device status is off and failed.
- onFail(6) indicates the device status is on and failed.
- lostComm(7) indicates the device has lost communication."
- ::= { upsDiagSubSysIntBypSwitchEntry 3 }
-
-upsDiagSubSysIntBypSwitchFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The firmware revision of the Internal Bypass Switch."
- ::= { upsDiagSubSysIntBypSwitchEntry 4 }
-
-upsDiagSubSysIntBypSwitchHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware revision of the Internal Bypass Switch."
- ::= { upsDiagSubSysIntBypSwitchEntry 5 }
-
-upsDiagSubSysIntBypSwitchSerialNum OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The serial number of the Internal Bypass Switch."
- ::= { upsDiagSubSysIntBypSwitchEntry 6 }
-
-upsDiagSubSysIntBypSwitchManufactureDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The manufacture date of the Internal Bypass Switch."
- ::= { upsDiagSubSysIntBypSwitchEntry 7 }
-
-upsDiagSubSysBattMonitorTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of Battery Monitor Boards attached to the UPS."
- ::= { upsDiagnosticSubsystem 5 }
-
-upsDiagSubSysBattMonitorTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsDiagSubSysBattMonitorEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for diagnostics of the Battery Monitor Board."
- ::= { upsDiagnosticSubsystem 6 }
-
-upsDiagSubSysBattMonitorEntry OBJECT-TYPE
- SYNTAX UpsDiagSubSysBattMonitorEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The diagnostics of the Battery Monitor Board."
- INDEX { upsDiagSubSysBattMonitorIndex}
- ::= { upsDiagSubSysBattMonitorTable 1 }
-
-UpsDiagSubSysBattMonitorEntry ::=
- SEQUENCE {
- upsDiagSubSysBattMonitorFrameIndex INTEGER,
- upsDiagSubSysBattMonitorIndex INTEGER,
- upsDiagSubSysBattMonitorStatus INTEGER,
- upsDiagSubSysBattMonitorFirmwareRev DisplayString,
- upsDiagSubSysBattMonitorHardwareRev DisplayString,
- upsDiagSubSysBattMonitorSerialNum DisplayString,
- upsDiagSubSysBattMonitorManufactureDate DisplayString
- }
-
-upsDiagSubSysBattMonitorFrameIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frame index entry."
- ::= { upsDiagSubSysBattMonitorEntry 1 }
-
-upsDiagSubSysBattMonitorIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the Battery Monitor Board."
- ::= { upsDiagSubSysBattMonitorEntry 2 }
-
-upsDiagSubSysBattMonitorStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- offOk (3),
- onOk (4),
- offFail (5),
- onFail (6),
- lostComm (7)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the Battery Monitor Board.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- offOk(3) indicates the device status is off and OK.
- onOk(4) indicates the device status is on and OK.
- offFail(5) indicates the device status is off and failed.
- onFail(6) indicates the device status is on and failed.
- lostComm(7) indicates the device has lost communication."
- ::= { upsDiagSubSysBattMonitorEntry 3 }
-
-upsDiagSubSysBattMonitorFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The firmware revision of the Battery Monitor Board."
- ::= { upsDiagSubSysBattMonitorEntry 4 }
-
-upsDiagSubSysBattMonitorHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware revision of the Battery Monitor Board."
- ::= { upsDiagSubSysBattMonitorEntry 5 }
-
-upsDiagSubSysBattMonitorSerialNum OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The serial number of the Battery Monitor Board."
- ::= { upsDiagSubSysBattMonitorEntry 6 }
-
-upsDiagSubSysBattMonitorManufactureDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date of the manufacture for the Battery Monitor Board."
- ::= { upsDiagSubSysBattMonitorEntry 7 }
-
-upsDiagSubSysExternalSwitchGearTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of External Switch Gears attached to the UPS."
- ::= { upsDiagnosticSubsystem 7 }
-
-upsDiagSubSysExternalSwitchGearTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsDiagSubSysExternalSwitchGearEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for diagnostics of the individual External Switch Gear."
- ::= { upsDiagnosticSubsystem 8 }
-
-upsDiagSubSysExternalSwitchGearEntry OBJECT-TYPE
- SYNTAX UpsDiagSubSysExternalSwitchGearEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The diagnostics of an individual External Switch Gear."
- INDEX { upsDiagSubSysExternalSwitchGearIndex}
- ::= { upsDiagSubSysExternalSwitchGearTable 1 }
-
-UpsDiagSubSysExternalSwitchGearEntry ::=
- SEQUENCE {
- upsDiagSubSysExternalSwitchGearFrameIndex INTEGER,
- upsDiagSubSysExternalSwitchGearIndex INTEGER,
- upsDiagSubSysExternalSwitchGearStatus INTEGER,
- upsDiagSubSysExternalSwitchGearFirmwareRev DisplayString,
- upsDiagSubSysExternalSwitchGearHardwareRev DisplayString,
- upsDiagSubSysExternalSwitchGearSerialNum DisplayString,
- upsDiagSubSysExternalSwitchGearManufactureDate DisplayString
- }
-
-upsDiagSubSysExternalSwitchGearFrameIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frame index entry."
- ::= { upsDiagSubSysExternalSwitchGearEntry 1 }
-
-upsDiagSubSysExternalSwitchGearIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the External Switch Gear."
- ::= { upsDiagSubSysExternalSwitchGearEntry 2 }
-
-upsDiagSubSysExternalSwitchGearStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- offOk (3),
- onOk (4),
- offFail (5),
- onFail (6),
- lostComm (7)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the External Switch Gear.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- offOk(3) indicates the device status is off and OK.
- onOk(4) indicates the device status is on and OK.
- offFail(5) indicates the device status is off and failed.
- onFail(6) indicates the device status is on and failed.
- lostComm(7) indicates the device has lost communication."
- ::= { upsDiagSubSysExternalSwitchGearEntry 3 }
-
-upsDiagSubSysExternalSwitchGearFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The firmware revision of the External Switch Gear monitor card."
- ::= { upsDiagSubSysExternalSwitchGearEntry 4 }
-
-upsDiagSubSysExternalSwitchGearHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware revision of the External Switch Gear monitor card."
- ::= { upsDiagSubSysExternalSwitchGearEntry 5 }
-
-upsDiagSubSysExternalSwitchGearSerialNum OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The serial number of the External Switch Gear monitor card."
- ::= { upsDiagSubSysExternalSwitchGearEntry 6 }
-
-upsDiagSubSysExternalSwitchGearManufactureDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date of the manufacture for the External Switch Gear monitor card."
- ::= { upsDiagSubSysExternalSwitchGearEntry 7 }
-
-upsDiagSubSysDisplayInterfaceCardTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of Display Interface Cards attached to the UPS."
- ::= { upsDiagnosticSubsystem 9 }
-
-upsDiagSubSysDisplayInterfaceCardTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsDiagSubSysDisplayInterfaceCardEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for diagnostics of individual Display Interface Cards."
- ::= { upsDiagnosticSubsystem 10 }
-
-upsDiagSubSysDisplayInterfaceCardEntry OBJECT-TYPE
- SYNTAX UpsDiagSubSysDisplayInterfaceCardEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The diagnostics of a Display Interface Card."
- INDEX { upsDiagSubSysDisplayInterfaceCardIndex}
- ::= { upsDiagSubSysDisplayInterfaceCardTable 1 }
-
-UpsDiagSubSysDisplayInterfaceCardEntry ::=
- SEQUENCE {
- upsDiagSubSysDisplayInterfaceCardFrameIndex INTEGER,
- upsDiagSubSysDisplayInterfaceCardIndex INTEGER,
- upsDiagSubSysDisplayInterfaceCardStatus INTEGER
- }
-
-upsDiagSubSysDisplayInterfaceCardFrameIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frame index entry."
- ::= { upsDiagSubSysDisplayInterfaceCardEntry 1 }
-
-upsDiagSubSysDisplayInterfaceCardIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the Display Interface Card."
- ::= { upsDiagSubSysDisplayInterfaceCardEntry 2 }
-
-upsDiagSubSysDisplayInterfaceCardStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- offOk (3),
- onOk (4),
- offFail (5),
- onFail (6),
- lostComm (7)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the Display Interface Card.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- offOk(3) indicates the device status is off and OK.
- onOk(4) indicates the device status is on and OK.
- offFail(5) indicates the device status is off and failed.
- onFail(6) indicates the device status is on and failed.
- lostComm(7) indicates the device has lost communication."
- ::= { upsDiagSubSysDisplayInterfaceCardEntry 3 }
-
-upsDiagSubSysDCCircuitBreakerTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC Circuit Breakers attached to the UPS."
- ::= { upsDiagnosticSubsystem 11 }
-
-upsDiagSubSysDCCircuitBreakerTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsDiagSubSysDCCircuitBreakerEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for diagnostics of individual DC Circuit Breakers."
- ::= { upsDiagnosticSubsystem 12 }
-
-upsDiagSubSysDCCircuitBreakerEntry OBJECT-TYPE
- SYNTAX UpsDiagSubSysDCCircuitBreakerEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The diagnostics of a DC Circuit Breaker."
- INDEX { upsDiagSubSysDCCircuitBreakerIndex}
- ::= { upsDiagSubSysDCCircuitBreakerTable 1 }
-
-UpsDiagSubSysDCCircuitBreakerEntry ::=
- SEQUENCE {
- upsDiagSubSysDCCircuitBreakerFrameIndex INTEGER,
- upsDiagSubSysDCCircuitBreakerIndex INTEGER,
- upsDiagSubSysDCCircuitBreakerStatus INTEGER
- }
-
-upsDiagSubSysDCCircuitBreakerFrameIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frame index entry."
- ::= { upsDiagSubSysDCCircuitBreakerEntry 1 }
-
-upsDiagSubSysDCCircuitBreakerIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the DC Circuit Breaker."
- ::= { upsDiagSubSysDCCircuitBreakerEntry 2 }
-
-upsDiagSubSysDCCircuitBreakerStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- opened (3),
- closed (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the DC Circuit Breaker.
- unknown(1) indicates the circuit breaker status is unknown.
- notInstalled(2) indicates the circuit breaker is not installed.
- opened(3) indicates the circuit breaker is opened.
- closed(4) indicates the circuit breaker is closed."
- ::= { upsDiagSubSysDCCircuitBreakerEntry 3 }
-
-upsDiagSubSysSystemPowerSupplyTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of System Power Supplies attached to the UPS."
- ::= { upsDiagnosticSubsystem 13 }
-
-upsDiagSubSysSystemPowerSupplyTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsDiagSubSysSystemPowerSupplyEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for diagnostics of individual System Power Supplies."
- ::= { upsDiagnosticSubsystem 14 }
-
-upsDiagSubSysSystemPowerSupplyEntry OBJECT-TYPE
- SYNTAX UpsDiagSubSysSystemPowerSupplyEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The diagnostics of a System Power Supply."
- INDEX { upsDiagSubSysSystemPowerSupplyIndex}
- ::= { upsDiagSubSysSystemPowerSupplyTable 1 }
-
-UpsDiagSubSysSystemPowerSupplyEntry ::=
- SEQUENCE {
- upsDiagSubSysSystemPowerSupplyFrameIndex INTEGER,
- upsDiagSubSysSystemPowerSupplyIndex INTEGER,
- upsDiagSubSysSystemPowerSupplyStatus INTEGER
- }
-
-upsDiagSubSysSystemPowerSupplyFrameIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frame index entry."
- ::= { upsDiagSubSysSystemPowerSupplyEntry 1 }
-
-upsDiagSubSysSystemPowerSupplyIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of a System Power Supply."
- ::= { upsDiagSubSysSystemPowerSupplyEntry 2 }
-
-upsDiagSubSysSystemPowerSupplyStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- offOk (3),
- onOk (4),
- offFail (5),
- onFail (6),
- lostComm (7)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the System Power Supply.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- offOk(3) indicates the device status is off and OK.
- onOk(4) indicates the device status is on and OK.
- offFail(5) indicates the device status is off and failed.
- onFail(6) indicates the device status is on and failed.
- lostComm(7) indicates the device has lost communication."
- ::= { upsDiagSubSysSystemPowerSupplyEntry 3 }
-
-upsDiagSubSysXRCommunicationCardTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of XR Communication Cards attached to the UPS."
- ::= { upsDiagnosticSubsystem 15 }
-
-upsDiagSubSysXRCommunicationCardTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsDiagSubSysXRCommunicationCardEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for diagnostics of individual XR Communication Cards."
- ::= { upsDiagnosticSubsystem 16 }
-
-upsDiagSubSysXRCommunicationCardEntry OBJECT-TYPE
- SYNTAX UpsDiagSubSysXRCommunicationCardEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The diagnostics of an XR Communication Card."
- INDEX { upsDiagSubSysXRCommunicationCardIndex}
- ::= { upsDiagSubSysXRCommunicationCardTable 1 }
-
-UpsDiagSubSysXRCommunicationCardEntry ::=
- SEQUENCE {
- upsDiagSubSysXRCommunicationCardFrameIndex INTEGER,
- upsDiagSubSysXRCommunicationCardIndex INTEGER,
- upsDiagSubSysXRCommunicationCardStatus INTEGER
- }
-
-upsDiagSubSysXRCommunicationCardFrameIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frame index entry."
- ::= { upsDiagSubSysXRCommunicationCardEntry 1 }
-
-upsDiagSubSysXRCommunicationCardIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of an XR Communication Card."
- ::= { upsDiagSubSysXRCommunicationCardEntry 2 }
-
-upsDiagSubSysXRCommunicationCardStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- offOk (3),
- onOk (4),
- offFail (5),
- onFail (6),
- lostComm (7)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the XR Communication Card.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- offOk(3) indicates the device status is off and OK.
- onOk(4) indicates the device status is on and OK.
- offFail(5) indicates the device status is off and failed.
- onFail(6) indicates the device status is on and failed.
- lostComm(7) indicates the device has lost communication."
- ::= { upsDiagSubSysXRCommunicationCardEntry 3 }
-
-upsDiagSubSysExternalPowerFrameBoardTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of External Power Frame Boards attached to the UPS."
- ::= { upsDiagnosticSubsystem 17 }
-
-upsDiagSubSysExternalPowerFrameBoardTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsDiagSubSysExternalPowerFrameBoardEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for diagnostics of individual External Power Frame Boards."
- ::= { upsDiagnosticSubsystem 18 }
-
-upsDiagSubSysExternalPowerFrameBoardEntry OBJECT-TYPE
- SYNTAX UpsDiagSubSysExternalPowerFrameBoardEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The diagnostics of an External Power Frame Board."
- INDEX { upsDiagSubSysExternalPowerFrameBoardIndex}
- ::= { upsDiagSubSysExternalPowerFrameBoardTable 1 }
-
-UpsDiagSubSysExternalPowerFrameBoardEntry ::=
- SEQUENCE {
- upsDiagSubSysExternalPowerFrameBoardFrameIndex INTEGER,
- upsDiagSubSysExternalPowerFrameBoardIndex INTEGER,
- upsDiagSubSysExternalPowerFrameBoardStatus INTEGER
- }
-
-upsDiagSubSysExternalPowerFrameBoardFrameIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frame index entry."
- ::= { upsDiagSubSysExternalPowerFrameBoardEntry 1 }
-
-upsDiagSubSysExternalPowerFrameBoardIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of an External Power Frame Board."
- ::= { upsDiagSubSysExternalPowerFrameBoardEntry 2 }
-
-upsDiagSubSysExternalPowerFrameBoardStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- offOk (3),
- onOk (4),
- offFail (5),
- onFail (6),
- lostComm (7)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the External Power Frame Board.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- offOk(3) indicates the device status is off and OK.
- onOk(4) indicates the device status is on and OK.
- offFail(5) indicates the device status is off and failed.
- onFail(6) indicates the device status is on and failed.
- lostComm(7) indicates the device has lost communication."
- ::= { upsDiagSubSysExternalPowerFrameBoardEntry 3 }
-
-upsDiagSubSysChargerTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of Chargers attached to the UPS."
- ::= { upsDiagnosticSubsystem 19 }
-
- upsDiagSubSysChargerTable OBJECT-TYPE
- SYNTAX SEQUENCE OF UpsDiagSubSysChargerEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for diagnostics of individual chargers."
- ::= { upsDiagnosticSubsystem 20 }
-
-upsDiagSubSysChargerEntry OBJECT-TYPE
- SYNTAX UpsDiagSubSysChargerEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The diagnostics of a charger."
- INDEX { upsDiagSubSysChargerIndex}
- ::= { upsDiagSubSysChargerTable 1 }
-
-UpsDiagSubSysChargerEntry ::=
- SEQUENCE {
- upsDiagSubSysChargerFrameIndex INTEGER,
- upsDiagSubSysChargerIndex INTEGER,
- upsDiagSubSysChargerStatus INTEGER
- }
-
-upsDiagSubSysChargerFrameIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The frame index entry."
- ::= { upsDiagSubSysChargerEntry 1 }
-
-upsDiagSubSysChargerIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of a charger."
- ::= { upsDiagSubSysChargerEntry 2 }
-
-upsDiagSubSysChargerStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- offOk (3),
- onOk (4),
- offFail (5),
- onFail (6),
- lostComm (7)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the Charger.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- offOk(3) indicates the device status is off and OK.
- onOk(4) indicates the device status is on and OK.
- offFail(5) indicates the device status is off and failed.
- onFail(6) indicates the device status is on and failed.
- lostComm(7) indicates the device has lost communication."
- ::= { upsDiagSubSysChargerEntry 3 }
-
--- the upsDiagnosticExternalDevices group
-
-upsDiagSwitchGearStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- ok (3),
- fail (4),
- lostComm (5),
- overtemp (6)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the Switch Gear.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- ok(3) indicates the device status is OK.
- fail(4) indicates the device status has failed.
- lostComm(5) indicates the device has lost communication.
- overtemp(6) indicates the device has an over temperature condition."
- ::= { upsDiagSwitchGear 1 }
-
-upsDiagSwitchGearInputSwitchStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- opened (3),
- closed (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the Switch Gear Input Switch.
- unknown(1) indicates the switch status is unknown.
- notInstalled(2) indicates the switch is not installed.
- opened(3) indicates the switch is opened.
- closed(4) indicates the switch is closed."
- ::= { upsDiagSwitchGear 2 }
-
-upsDiagSwitchGearOutputSwitchStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- opened (3),
- closed (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the Switch Gear Output Switch.
- unknown(1) indicates the switch status is unknown.
- notInstalled(2) indicates the switch is not installed.
- opened(3) indicates the switch is opened.
- closed(4) indicates the switch is closed."
- ::= { upsDiagSwitchGear 3 }
-
-upsDiagSwitchGearBypassSwitchStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- opened (3),
- closed (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the Switch Gear Bypass Switch.
- unknown(1) indicates the switch status is unknown.
- notInstalled(2) indicates the switch is not installed.
- opened(3) indicates the switch is opened.
- closed(4) indicates the switch is closed."
- ::= { upsDiagSwitchGear 4 }
-
-upsDiagMCCBBoxStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- opened (3),
- closed (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the MCCB Box (Molded Case Circuit Breaker Box) external device.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- opened(3) indicates the circuit is opened.
- closed(4) indicates the circuit is closed."
- ::= { upsDiagMCCBBox 1 }
-
-upsDiagTransformerStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- ok (3),
- fail (4),
- lostComm (5),
- overtemp (6),
- opened (7),
- closed (8)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the External Transformer.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- ok(3) indicates the device status is OK.
- fail(4) indicates the device status has failed.
- lostComm(5) indicates the device has lost communication.
- overtemp(6) indicates the device has an over temperature condition.
- opened(7) indicates the circuit is opened.
- closed(8) indicates the circuit is closed."
- ::= { upsDiagTransformer 1 }
-
--- the upsDiagnosticComBus group
-
-upsDiagComBusInternalMIMStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- ok (3),
- lostComm (4),
- rxFailure (5),
- txFailure (6)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the internal MIM communication bus.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- ok(3) indicates the device status is OK.
- lostComm(4) indicates the device has lost communication.
- rxFailure(5) indicates the device has a receive failure.
- txFailure(6) indicates the device has a transmit failure."
- ::= { upsDiagnosticComBus 1 }
-
-upsDiagComBusInternalRIMStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- ok (3),
- lostComm (4),
- rxFailure (5),
- txFailure (6)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the internal RIM communication bus.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- ok(3) indicates the device status is OK.
- lostComm(4) indicates the device has lost communication.
- rxFailure(5) indicates the device has a receive failure.
- txFailure(6) indicates the device has a transmit failure."
- ::= { upsDiagnosticComBus 2 }
-
-upsDiagComBusMIMtoRIMStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- ok (3),
- lostComm (4),
- rxFailure (5),
- txFailure (6)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the MIM to RIM communication bus.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- ok(3) indicates the device status is OK.
- lostComm(4) indicates the device has lost communication.
- rxFailure(5) indicates the device has a receive failure.
- txFailure(6) indicates the device has a transmit failure."
- ::= { upsDiagnosticComBus 3 }
-
-upsDiagComBusExternalMIMStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- ok (3),
- lostComm (4),
- rxFailure (5),
- txFailure (6)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the external MIM communication bus.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- ok(3) indicates the device status is OK.
- lostComm(4) indicates the device has lost communication.
- rxFailure(5) indicates the device has a receive failure.
- txFailure(6) indicates the device has a transmit failure."
- ::= { upsDiagnosticComBus 4 }
-
-upsDiagComBusExternalRIMStatus OBJECT-TYPE
- SYNTAX INTEGER {
- unknown (1),
- notInstalled (2),
- ok (3),
- lostComm (4),
- rxFailure (5),
- txFailure (6)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the external RIM communication bus.
- unknown(1) indicates the device status is unknown.
- notInstalled(2) indicates the device is not installed.
- ok(3) indicates the device status is OK.
- lostComm(4) indicates the device has lost communication.
- rxFailure(5) indicates the device has a receive failure.
- txFailure(6) indicates the device has a transmit failure."
- ::= { upsDiagnosticComBus 5 }
-
--- the serialPort2Config group
-
-serialPort2Mode OBJECT-TYPE
- SYNTAX INTEGER {
- localConsole(1),
- passthrough(2)
- }
- ACCESS read-write
- STATUS obsolete
- DESCRIPTION
- "Setting this variable to passthrough will enable mini's port2
- behave like a UPS port. Choosing localConsole will enable the port
- to be used as local console."
- ::= { serialPort2Config 1 }
--- the serialPort2Control group
-
-setPulseOnTXD OBJECT-TYPE
- SYNTAX INTEGER {
- noSetPulseOnTXD(1),
- setPulseOnTXD(2),
- setTXDLow(3),
- setTXDHigh(4)
-
- }
- ACCESS read-write
- STATUS obsolete
- DESCRIPTION
- "Setting this variable to setPulseOnTXD(2)
- causes adapter to generate a PULSE on TXD pin of serial port 2.
- The duration in the prototype implementation will be 1 second.
-
- Setting this value to noSetPulseOnTXD(1) has no
- effect.
-
- The value noSetPulseOnTXD(1) will always be returned
- when the variable is read.
-
- Setting this value to setTXDLow(3), or setTXDHigh(4) will keep TXD
- always low or high respectively."
- ::= { serialPort2Control 1 }
-
--- the sPDUIdent group
-
-sPDUIdentHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware revision of the PDU. This value
- is set at the factory."
- ::= { sPDUIdent 1 }
-
-sPDUIdentFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An 8 byte ID string identifying the PDU firmware revision.
- This value is set at the factory."
- ::= { sPDUIdent 2 }
-
-
-sPDUIdentDateOfManufacture OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date when the PDU was manufactured in mm/dd/yy format.
- This value is set at the factory. The year 2000 will be
- represented by 00."
- ::= { sPDUIdent 3 }
-
-sPDUIdentModelNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A 10-character string identifying the model number of
- the PDU internal. This value is set at the factory."
- ::= { sPDUIdent 4 }
-
-sPDUIdentSerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A 12-character string identifying the serial number of
- the PDU internal microprocessor. This value is set at
- the factory."
- ::= { sPDUIdent 5 }
-
-
--- the sPDUMasterControl group
-
-sPDUMasterControlSwitch OBJECT-TYPE
- SYNTAX INTEGER {
- turnAllOnNow (1),
- turnAllOnSequence (2),
- turnAllOffNow (3),
- rebootAllNow (4),
- rebootAllSequence (5),
- noCommand (6),
- turnAllOffSequence (7)
- }
-
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to turnAllOnNow (1) will turn all outlets
- on immediately.
-
- Setting this OID to turnAllOnSequence (2) will turn all outlets
- on as defined by each outlet's sPDUOutletPowerOnTime OID value.
-
- Setting this OID to turnAllOff (3) will turn all outlets
- off immediately.
-
- Setting this OID to rebootAllNow (4) will reboot all outlets
- immediately.
-
- For MasterSwitch firmware version 1.X, setting this OID to
- rebootAllSequence (5) reboots all outlets, with power returned
- to the outlets in the sequence defined by each outlet's
- sPDUOutletPowerOnTime OID value.
-
- For MasterSwitch firmware version 2.X, setting this OID to
- rebootAllSequence (5) will cause a turnAllOffSequence to be performed.
- Once all outlets are off, the MasterSwitch will then delay the
- sPDUMasterConfigReboot OID time, and then perform a turnAllOnSequence.
-
- For MasterSwitch firmware version 2.X, setting this OID to
- turnAllOffSequence (7) will turn all outlets off as defined by
- each outlet's sPDUOutletPowerOffTime OID value.
-
- For MasterSwitch firmware version 1.X, setting this OID to
- turnAllOffSequence (7) will have no effect.
-
- Getting this OID will return the noCommand (6) value."
-
- ::= { sPDUMasterControl 1 }
-
-
-sPDUMasterState OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will cause the status of all outlets to be
- returned. This OID is provided for informational purposes only.
- To change the outlet state, the user should use the sPDUOutletCtl
- OID in the sPDUOutletControlTable.
-
- The format of the data returned is a character string consisting
- of the word 'On' if the outlet is on or 'Off' if the outlet is
- off. At least one space will delimit each outlet entry in the
- string.
-
- If the outlet states are unknown, the character string 'Unknown'
- will be returned. This signifies that there is an inconsistancy
- in the PDU. In the rare case that this should happen, the user
- is advised to shut down all equipment powered by the PDU and
- then cycle the PDU's power. This will put the PDU in a consistent
- state."
-
- ::= { sPDUMasterControl 2 }
-
-sPDUMasterPending OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will cause the command pending status of all outlets to be returned.
-
- The format of the data returned is a character string consisting
- of the word 'Yes' if a command is pending for the outlet or 'No'
- if there is no command pending for the outlet. At least one
- space will delimit each outlet entry in the string.
-
- If the pending states are unknown, the character string 'Unknown'
- will be returned. This signifies that there is an inconsistancy
- in the PDU. In the rare case that this should happen, the user
- is advised to shut down all equipment powered by the PDU and then
- cycle the PDU's power. This will put the PDU in a consistent state."
- ::= { sPDUMasterControl 3 }
-
-
--- the sPDUMasterConfig group
-
-sPDUMasterConfigPowerOn OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- " The amount of delay, in seconds, between when
- power is provided to the PDU and when the PDU
- provides basic master power to the outlets.
-
- Allowed values are:
-
- -1 never apply power automatically.
- 0 apply power immediately.
- 15 apply power in 15 seconds.
- 30 apply power in 30 seconds.
- 45 apply power in 45 seconds.
- 60 apply power in 60 seconds (1 minute).
- 120 apply power in 120 seconds (2 minutes).
- 300 apply power in 300 seconds (5 minutes).
-
- If a value other than a supported value is provided in a
- set request, the PDU interprets it as the next lower
- acceptable value. If the provided value is lower than
- the lowest acceptable value, the lowest acceptable
- value is used."
-
- ::= { sPDUMasterConfig 1 }
-
-sPDUMasterConfigReboot OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "During a reboot sequence, power is turned off and then
- back on. This OID defines the amount of time to wait,
- in seconds, after turning the power off, at the start
- of the sequence, before turning power back on, at the
- end of the reboot sequence.
-
- Allowed values are:
-
- 5 wait 5 seconds between off/on.
- 10 wait 10 seconds between off/on.
- 15 wait 15 seconds between off/on.
- 20 wait 20 seconds between off/on.
- 30 wait 30 seconds between off/on.
- 45 wait 45 seconds between off/on.
- 60 wait 60 seconds (1 minute) between off/on.
-
- If a value other than a supported value is provided in a
- set request, the PDU interprets it as the next lower
- acceptable value. If the provided value is lower than
- the lowest acceptable value, the lowest acceptable
- value is used.
-
- This OID is read-only for the MasterSwitch version 2.X and is the
- maximum sPDUOutletRebootDuration OID of the individual outlets."
-
- ::= { sPDUMasterConfig 2 }
-
-sPDUMasterConfigPDUName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the PDU. The maximum value is 20 characters."
- ::= { sPDUMasterConfig 3 }
-
-
-
--- the sPDUOutletControl group
-sPDUOutletControlTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of outlets for the PDU."
- ::= { sPDUOutletControl 1 }
-
-
-sPDUOutletControlTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutletControlEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for control of individual outlet switches. The number of
- entries is contained in the sPDUOutletControlTableSize OID."
- ::= { sPDUOutletControl 2 }
-
-sPDUOutletControlEntry OBJECT-TYPE
- SYNTAX OutletControlEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to control."
- INDEX { sPDUOutletControlIndex}
- ::= { sPDUOutletControlTable 1 }
-
-OutletControlEntry ::=
- SEQUENCE {
- sPDUOutletControlIndex INTEGER,
- sPDUOutletPending INTEGER,
- sPDUOutletCtl INTEGER,
- sPDUOutletCtlName DisplayString
- }
-
-sPDUOutletControlIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { sPDUOutletControlEntry 1 }
-
-sPDUOutletPending OBJECT-TYPE
- SYNTAX INTEGER{
- commandPending (1),
- noCommandPending (2),
- commandPendingUnknown (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Reports whether the current outlet has a pending command.
-
- If the commandPendingUnknown (3) value is returned, all
- devices powered by the PDU should be shut down. The PDU's
- power should then be cycled to clear this condition."
-
- ::= { sPDUOutletControlEntry 2 }
-
-sPDUOutletCtl OBJECT-TYPE
- SYNTAX INTEGER {
- outletOn (1),
- outletOff (2),
- outletReboot (3),
- outletUnknown (4),
- outletOnWithDelay (5),
- outletOffWithDelay (6),
- outletRebootWithDelay (7)
- }
-
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the outlet state. If
- the outlet is on, the outletOn (1) value will be returned.
- If the outlet is off, the outletOff (2) value will be
- returned.
-
- If the state of the outlet cannot be determined, the
- outletUnknown (4) value will be returned. If the
- outletUnknown condition should occur, all devices
- powered by the PDU should be shut down. The PDU's power
- should then be cycled to clear this condition.
-
- Setting this variable to outletOn (1) will turn the outlet on.
-
- Setting this variable to outletOff (2) will turn the outlet off.
-
- Setting this variable to outletReboot (3) will reboot the outlet.
-
- Setting this variable to outletOnWithDelay (5) will turn the outlet on
- after the sPDUOutletPowerOnTime OID has elapsed. This option is not
- valid for MasterSwitch firmware version 1.X.
-
- Setting this variable to outletOffWithDelay (6) will turn the outlet off
- after the sPDUOutletPowerOffTime OID has elapsed. This option is not valid
- for MasterSwitch firmware version 1.X.
-
- Setting this variable to outletRebootWithDelay (7) will turn the outlet off
- after the sPDUOutletPowerOffTime OID has elapsed, wait the sPDUOutletRebootDuration
- OID time, then turn the outlet back on.
- This option is not valid for MasterSwitch firmware version 1.X."
-
- ::= { sPDUOutletControlEntry 3 }
-
-sPDUOutletCtlName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. Maximum size is 20 characters.
- This OID is provided for informational purposes only.
- This value is set by the sPDUOutletName OID."
-
- ::= { sPDUOutletControlEntry 4 }
-
--- the sPDUOutletConfig group
-sPDUOutletConfigTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of outlets for the PDU."
- ::= { sPDUOutletConfig 1 }
-
-sPDUOutletConfigTable OBJECT-TYPE
- SYNTAX SEQUENCE OF SPDUOutletConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The list of outlets to configure. The number of
- entries is defined by the sPDUOutletConfigTableSize
- OID."
-
- ::= { sPDUOutletConfig 2 }
-
-sPDUOutletConfigEntry OBJECT-TYPE
- SYNTAX SPDUOutletConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to control."
- INDEX { sPDUOutletConfigIndex}
- ::= { sPDUOutletConfigTable 1 }
-
-SPDUOutletConfigEntry ::=
- SEQUENCE {
- sPDUOutletConfigIndex INTEGER,
- sPDUOutletPowerOnTime INTEGER,
- sPDUOutletName DisplayString,
- sPDUOutletPowerOffTime INTEGER,
- sPDUOutletRebootDuration INTEGER
- }
-
-sPDUOutletConfigIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { sPDUOutletConfigEntry 1 }
-
-sPDUOutletPowerOnTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The amount of time (in seconds) the outlet will delay
- powering on when the MasterSwitch is powered on.
-
- Allowed values are:
-
- -1 never power on automatically.
- 0 power on with the Master Switch.
- 15 power on 15 seconds after the MasterSwitch has power applied.
- 30 power on 30 seconds after the MasterSwitch has power applied.
- 45 power on 45 seconds after the MasterSwitch has power applied.
- 60 power on 60 seconds (1 minute) after the MasterSwitch has power applied.
- 120 power on 120 seconds (2 minutes) after the MasterSwitch has power applied.
- 300 power on 300 seconds (5 minutes) after the MasterSwitch has power applied.
-
- If a value other than a supported value is provided in a
- set request, the PDU interprets it as the next lower
- acceptable value. If the provided value is lower than
- the lowest acceptable value, the lowest acceptable
- value is used."
-
- ::= { sPDUOutletConfigEntry 2 }
-
-sPDUOutletName OBJECT-TYPE
- SYNTAX DisplayString ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. Maximum size is 20 characters."
-
- ::= { sPDUOutletConfigEntry 3 }
-
-sPDUOutletPowerOffTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The amount of time (in seconds) the outlet will delay
- powering off.
-
- Allowed values are:
-
- -1 never power off automatically.
- 0 power off with the MasterSwitch.
- 15 power off 15 seconds after being commanded.
- 30 power off 30 seconds after being commanded.
- 45 power off 45 seconds after being commanded.
- 60 power off 60 seconds (1 minute) after being commanded.
- 120 power off 120 seconds (2 minutes) after being commanded.
- 300 power off 300 seconds (5 minutes) after being commanded.
-
- If a value other than a supported value is provided in a
- set request, the PDU interprets it as the next lower
- acceptable value. If the provided value is lower than
- the lowest acceptable value, the lowest acceptable
- value is used.
-
- This OID is not available for MasterSwitch firmware version 1.X."
-
- ::= { sPDUOutletConfigEntry 4 }
-
-sPDUOutletRebootDuration OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "During a reboot sequence, power is turned off and then
- back on. This OID defines the amount of time to wait,
- in seconds, after turning the power off, at the start
- of the sequence, before turning power back on, at the
- end of the reboot sequence.
-
- Allowed values are:
-
- 5 wait 5 seconds between off/on.
- 10 wait 10 seconds between off/on.
- 15 wait 15 seconds between off/on.
- 20 wait 20 seconds between off/on.
- 30 wait 30 seconds between off/on.
- 45 wait 45 seconds between off/on.
- 60 wait 60 seconds (1 minute) between off/on.
-
- If a value other than a supported value is provided in a
- set request, the PDU interprets it as the next lower
- acceptable value. If the provided value is lower than
- the lowest acceptable value, the lowest acceptable
- value is used.
-
- This OID is not available for MasterSwitch firmware version 1.X."
-
- ::= { sPDUOutletConfigEntry 5 }
-
-
--- the sPDUIdentVM group
-
-sPDUIdentVMTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of MasterSwitch VMs controllable
- by this IP address."
- ::= { sPDUIdentVM 1 }
-
-
-sPDUIdentVMTable OBJECT-TYPE
- SYNTAX SEQUENCE OF IdentVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for query of the individual MasterSwitch VMs.
- The number of entries is contained in the
- sPDUIdentVMTableSize OID."
- ::= { sPDUIdentVM 2 }
-
-sPDUIdentVMEntry OBJECT-TYPE
- SYNTAX IdentVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The MasterSwitch VMs to query."
- INDEX { sPDUIdentVMIndex}
- ::= { sPDUIdentVMTable 1 }
-
-IdentVMEntry ::=
- SEQUENCE {
- sPDUIdentVMIndex INTEGER,
- sPDUIdentNameVM DisplayString,
- sPDUIdentHardwareRevVM DisplayString,
- sPDUIdentFirmwareRevVM DisplayString,
- sPDUIdentDateOfManufactureVM DisplayString,
- sPDUIdentModelNumberVM DisplayString,
- sPDUIdentSerialNumberVM DisplayString
- }
-
-sPDUIdentVMIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch VM entry."
- ::= { sPDUIdentVMEntry 1 }
-
-sPDUIdentNameVM OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A 23-character string identifying the
- MasterSwitch VM. "
- ::= { sPDUIdentVMEntry 2 }
-
-sPDUIdentHardwareRevVM OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware version of the MasterSwitch VM.
- This value is set at the factory."
- ::= { sPDUIdentVMEntry 3 }
-
-sPDUIdentFirmwareRevVM OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An 6-character ID string identifying the MasterSwitch VM
- firmware version. This value is set at the factory."
- ::= { sPDUIdentVMEntry 4 }
-
-
-sPDUIdentDateOfManufactureVM OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date when the MasterSwitch VM was manufactured in mm/dd/yyyy format.
- This value is set at the factory. "
- ::= { sPDUIdentVMEntry 5 }
-
-sPDUIdentModelNumberVM OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A 17-character string identifying the model number of
- the MasterSwitch VM. This value is set at the factory."
- ::= { sPDUIdentVMEntry 6 }
-
-sPDUIdentSerialNumberVM OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A 17-character string identifying the serial number of
- the MasterSwitch VM. This value is set at the factory."
- ::= { sPDUIdentVMEntry 7 }
-
-
--- the sPDUMasterControlVM group
-
-sPDUMasterControlVMTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of MasterSwitch VMs controllable
- by this IP address."
- ::= { sPDUMasterControlVM 1 }
-
-
-sPDUMasterControlVMTable OBJECT-TYPE
- SYNTAX SEQUENCE OF MasterControlVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for control of the individual MasterSwitch VMs.
- The number of entries is contained in the
- sPDUMasterControlVMTableSize OID."
- ::= { sPDUMasterControlVM 2 }
-
-sPDUMasterControlVMEntry OBJECT-TYPE
- SYNTAX MasterControlVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The MasterSwitch VMs to control."
- INDEX { sPDUMasterControlVMIndex}
- ::= { sPDUMasterControlVMTable 1 }
-
-MasterControlVMEntry ::=
- SEQUENCE {
- sPDUMasterControlVMIndex INTEGER,
- sPDUMasterControlVMName DisplayString,
- sPDUMasterControlVMCommand INTEGER
- }
-
-sPDUMasterControlVMIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch VM entry."
- ::= { sPDUMasterControlVMEntry 1 }
-
-sPDUMasterControlVMName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch VM. The maximum
- value is 23 characters. The name is set by
- using the sPDUMasterConfigVMName OID."
- ::= { sPDUMasterControlVMEntry 2 }
-
-sPDUMasterControlVMCommand OBJECT-TYPE
- SYNTAX INTEGER {
- noCommandAllVM (1),
- immediateAllOnVM (2),
- immediateAllOffVM (3),
- immediateAllRebootVM (4),
- delayedAllOnVM (5),
- delayedAllOffVM (6),
- sequencedAllRebootVM (7),
- delayedAllRebootVM (8),
- delayedSequenceAllRebootVM (9),
- cancelAllPendingCommandsVM (10),
- audioAlarmMute (11)
- }
-
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to immediateAllOnVM (2) will turn all outlets
- on immediately.
-
- Setting this OID to immediateAllOffVM (3) will turn all outlets
- off immediately.
-
- Setting this OID to immediateAllRebootVM (4) will reboot all outlets
- immediately.
-
- Setting this OID to delayedAllOnVM (5) will turn all outlets on as
- defined by each outlet's sPDUOutletConfigVMPowerOnTime OID value.
-
- Setting this OID to delayedAllOffVM (6) will turn all outlets
- off as defined by each outlet's sPDUOutletConfigVMPowerOffTime OID value.
-
- Setting this OID to sequencedAllRebootVM (7) will cause a
- immediateAllOffVM command to be performed. The MasterSwitch VM will
- then delay the sPDUMasterStatusVMRebootDuration OID time, and then
- perform a delayedAllOnVM command.
-
- Setting this OID to delayedAllRebootVM (8) will cause a delayedAllOffVM
- command to be performed. Each outlet will then wait its
- sPDUOutletConfigVMRebootDuration before returning power to the outlet.
-
- Setting this OID to delayedSequenceAllRebootVM (9) will cause a
- delayedAllOffVM command to be performed. Once all outlets are off,
- the MasterSwitch VM will then delay the sPDUMasterStatusVMRebootDuration
- OID time, and then perform a delayedAllOnVM command.
-
- Setting this OID to cancelAllPendingCommandsVM (10) will cause all pending
- commands on the MasterSwitch VM to be canceled.
-
-
- Setting this OID to audioAlarmMute (11) will temporarily silence the audible
- alarm for the duration of the current overload condition. The audible alarm
- will be activated on subsequent overload alarms.
-
- Getting this OID will return the noCommandAllVM (1) value."
- ::= { sPDUMasterControlVMEntry 3 }
-
-
--- the sPDUMasterConfigVM group
-
-sPDUMasterConfigVMTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of MasterSwitch VMs configurable
- by this IP address."
- ::= { sPDUMasterConfigVM 1 }
-
-
-sPDUMasterConfigVMTable OBJECT-TYPE
- SYNTAX SEQUENCE OF MasterConfigVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of the individual MasterSwitch VMs.
- The number of entries is contained in the
- sPDUMasterConfigVMTableSize OID."
- ::= { sPDUMasterConfigVM 2 }
-
-sPDUMasterConfigVMEntry OBJECT-TYPE
- SYNTAX MasterConfigVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The MasterSwitch VMs to configure."
- INDEX { sPDUMasterConfigVMIndex}
- ::= { sPDUMasterConfigVMTable 1 }
-
-MasterConfigVMEntry ::=
- SEQUENCE {
- sPDUMasterConfigVMIndex INTEGER,
- sPDUMasterConfigVMName DisplayString,
- sPDUMasterConfigVMColdstartDelay INTEGER,
- sPDUMasterConfigVMAudioAlarmActivated INTEGER,
- sPDUMasterConfigVMHighLoadWarningThreshold INTEGER,
- sPDUMasterConfigVMLowLoadWarningThreshold INTEGER,
- sPDUMasterConfigVMOverloadRestriction INTEGER
- }
-
-sPDUMasterConfigVMIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch VM entry."
- ::= { sPDUMasterConfigVMEntry 1 }
-
-
-sPDUMasterConfigVMName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch VM. Maximum size is 23 characters."
- ::= { sPDUMasterConfigVMEntry 2 }
-
-sPDUMasterConfigVMColdstartDelay OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- " The amount of delay, in seconds, between when
- power is provided to the MasterSwitch VM and
- when the MasterSwitch VM provides basic master
- power to the outlets.
-
- Allowed values are:
-
- -1 never apply power automatically.
- 0 apply power immediately.
- 15 apply power in 15 seconds.
- 30 apply power in 30 seconds.
- 45 apply power in 45 seconds.
- 60 apply power in 60 seconds (1 minute).
- 120 apply power in 120 seconds (2 minutes).
- 300 apply power in 300 seconds (5 minutes).
-
- If a value other than a supported value is provided in a
- set request, the MasterSwitch VM interprets it as the next lower
- acceptable value. If the provided value is lower than
- the lowest acceptable value, the lowest acceptable
- value is used."
- ::= { sPDUMasterConfigVMEntry 3 }
-
-sPDUMasterConfigVMAudioAlarmActivated OBJECT-TYPE
- SYNTAX INTEGER {
- audioAlarmActiveNever (1),
- audioAlarmActiveOnOverload (2),
- audioAlarmActiveOnOverloadImminent (3)
- }
-
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to audioAlarmActiveNever (1) will disable
- the audio alarm on the MasterSwitch VM.
-
- Setting this OID to audioAlarmActiveOnOverload (2) will
- activate the audio alarm on the MasterSwitch VM when an
- overload condition is present.
-
- Setting this OID to audioAlarmActiveOnOverloadImminent (3)
- will activate the audio alarm on the MasterSwitch VM when
- the load on the MasterSwitch VM has surpassed the
- sPDUMasterConfigVMHighLoadWarningThreshold OID value."
- ::= { sPDUMasterConfigVMEntry 4 }
-
-sPDUMasterConfigVMHighLoadWarningThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..100)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A threshold that indicates the power consumption of
- the load is nearing an overload condition. It is
- represented as a percentage of full load."
- ::= { sPDUMasterConfigVMEntry 5 }
-
-sPDUMasterConfigVMLowLoadWarningThreshold OBJECT-TYPE
- SYNTAX INTEGER (0..100)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A threshold that indicates the power consumption of
- the load is nearing a low consumption condition. It is
- represented as a percentage of full load."
- ::= { sPDUMasterConfigVMEntry 6 }
-
-sPDUMasterConfigVMOverloadRestriction OBJECT-TYPE
- SYNTAX INTEGER {
- alwaysAllowTurnON (1),
- restrictOnWarning (2),
- restrictOnOverload (3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This OID controls the behavior of the MasterSwitch VM
- when an overload condition is possible and additional
- outlets are requested to be turned on.
-
- Setting this OID to alwaysAllowTurnON (1) will always allow
- the outlets to turn on.
-
- Setting this OID to restrictOnWarning (2) will not allow
- outlets to turn on if the sPDUMasterConfigVMHighLoadWarningThreshold
- OID is exceeded.
-
- Setting this OID to restrictOnOverload (3) will not allow
- outlets to turn on if the MasterSwitch Vm is in an
- overload condition."
- ::= { sPDUMasterConfigVMEntry 7 }
-
--- the sPDUMasterStatusVM group
-
-sPDUMasterStatusVMTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of MasterSwitch VMs at
- this IP address."
- ::= { sPDUMasterStatusVM 1 }
-
-
-sPDUMasterStatusVMTable OBJECT-TYPE
- SYNTAX SEQUENCE OF MasterStatusVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for gathering of status from the individual
- MasterSwitch VMs. The number of entries is contained
- in the sPDUMasterStatusVMTableSize OID."
- ::= { sPDUMasterStatusVM 2 }
-
-sPDUMasterStatusVMEntry OBJECT-TYPE
- SYNTAX MasterStatusVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The MasterSwitch VMs to gather status from."
- INDEX { sPDUMasterStatusVMIndex}
- ::= { sPDUMasterStatusVMTable 1 }
-
-MasterStatusVMEntry ::=
- SEQUENCE {
- sPDUMasterStatusVMIndex INTEGER,
- sPDUMasterStatusVMName DisplayString,
- sPDUMasterStatusVMCommandPending INTEGER,
- sPDUMasterStatusVMOverloadCondition INTEGER,
- sPDUMasterStatusVMLowLoadCondition INTEGER,
- sPDUMasterStatusVMCurrentLoad INTEGER,
- sPDUMasterStatusVMMaxLoad INTEGER,
- sPDUMasterStatusVMOutletCount INTEGER,
- sPDUMasterStatusVMRebootDuration INTEGER
- }
-
-sPDUMasterStatusVMIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch VM entry."
- ::= { sPDUMasterStatusVMEntry 1 }
-
-sPDUMasterStatusVMName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch VM. Maximum size is 23 characters."
- ::= { sPDUMasterStatusVMEntry 2 }
-
-sPDUMasterStatusVMCommandPending OBJECT-TYPE
- SYNTAX INTEGER {
- commandPendingMasterTrueVM (1),
- commandPendingMasterFalseVM (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return commandPendingMasterTrueVM (1)
- if the MasterSwitch VM has a pending command on any of its
- outlets.
-
- commandPendingMasterFalseVM (2) will be returned if there are
- no pending commands."
- ::= { sPDUMasterStatusVMEntry 3 }
-
-sPDUMasterStatusVMOverloadCondition OBJECT-TYPE
- SYNTAX INTEGER {
- overloadConditionTrueVM (1),
- overloadConditionFalseVM (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return overloadConditionTrueVM (1)
- if the sPDUMasterConfigVMHighLoadWarningThreshold OID is
- violated.
-
- overloadConditionFalseVM (2) will be returned if the
- sPDUMasterConfigVMHighLoadWarningThreshold OID is not
- violated."
- ::= { sPDUMasterStatusVMEntry 4 }
-
-sPDUMasterStatusVMLowLoadCondition OBJECT-TYPE
- SYNTAX INTEGER {
- lowLoadConditionTrueVM (1),
- lowLoadConditionFalseVM (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return lowLoadConditionTrueVM (1)
- if the sPDUMasterConfigVMLowLoadWarningThreshold OID is
- violated.
-
- lowLoadConditionFalseVM (2) will be returned if the
- sPDUMasterConfigVMHighLoadWarningThreshold OID is not
- violated. "
- ::= { sPDUMasterStatusVMEntry 5 }
-
-sPDUMasterStatusVMCurrentLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the total amount of power
- being consumed by the load. It is represented as a
- percentage of full load."
- ::= { sPDUMasterStatusVMEntry 6 }
-
-sPDUMasterStatusVMMaxLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the total amount of power
- that this MasterSwitch VM can provide. It is represented
- in Amps."
- ::= { sPDUMasterStatusVMEntry 7 }
-
-sPDUMasterStatusVMOutletCount OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the number of controllable
- outlets for this MasterSwitch VM."
- ::= { sPDUMasterStatusVMEntry 8 }
-
-sPDUMasterStatusVMRebootDuration OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the largest
- sPDUOutletConfigVMRebootDuration OID time
- for this MasterSwitch VM."
- ::= { sPDUMasterStatusVMEntry 9 }
-
--- the sPDUOutletControlVM group
-
-
-sPDUOutletControlVMTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutletControlVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for control of individual outlet switches. The number of
- entries is contained in the sPDUMasterStatusOutletCount OID."
- ::= { sPDUOutletControlVM 1 }
-
-sPDUOutletControlVMEntry OBJECT-TYPE
- SYNTAX OutletControlVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to control."
- INDEX { sPDUOutletControlVMIndex, sPDUOutletControlVMOutletIndex }
- ::= { sPDUOutletControlVMTable 1 }
-
-OutletControlVMEntry ::=
- SEQUENCE {
- sPDUOutletControlVMIndex INTEGER,
- sPDUOutletControlVMName DisplayString,
- sPDUOutletControlVMOutletIndex INTEGER,
- sPDUOutletControlVMOutletName DisplayString,
- sPDUOutletControlVMOutletCommand INTEGER
- }
-
-sPDUOutletControlVMIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch VM."
- ::= { sPDUOutletControlVMEntry 1 }
-
-sPDUOutletControlVMName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch VM. Maximum size is 23 characters.
- This OID is provided for informational purposes only."
- ::= { sPDUOutletControlVMEntry 2 }
-
-sPDUOutletControlVMOutletIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { sPDUOutletControlVMEntry 3 }
-
-sPDUOutletControlVMOutletName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. Maximum size is 23 characters.
- This OID is provided for informational purposes only."
- ::= { sPDUOutletControlVMEntry 4 }
-
-sPDUOutletControlVMOutletCommand OBJECT-TYPE
- SYNTAX INTEGER {
- immediateOnVM (1),
- immediateOffVM (2),
- immediateRebootVM (3),
- delayedOnVM (4),
- delayedOffVM (5),
- delayedRebootVM (6),
- cancelPendingCommandVM (7)
-
- }
-
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the outlet state. If
- the outlet is on, the immediateOnVM (1) value will be returned.
- If the outlet is off, the immediateOffVM (2) value will be
- returned.
-
-
- Setting this variable to immediateOnVM (1) will immediately turn the outlet on.
-
- Setting this variable to immediateOffVM (2) will immediately turn the outlet off.
-
- Setting this variable to immediateRebootVM (3) will immediately reboot the outlet.
-
- Setting this variable to delayedOnVM (4) will turn the outlet on
- after the sPDUOutletConfigVMPowerOnTime OID time has elapsed.
-
- Setting this variable to delayedOffVM (5) will turn the outlet off
- after the sPDUOutletConfigVMPowerOffTime OID time has elapsed.
-
- Setting this variable to delayedRebootVM (6) will cause the
- MasterSwitch VM to perform a delayedOffVM command, wait the
- sPDUOutletConfigVMRebootDuration OID time, and then perform the
- immediateOnVM command.
-
- Setting this variable to cancelPendingCommandVM (7) will cause any
- pending command to this outlet to be canceled."
- ::= { sPDUOutletControlVMEntry 5 }
-
--- the sPDUOutletConfigVM group
-
-sPDUOutletConfigVMTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutletConfigVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of individual outlets. The number of
- entries is contained in the sPDUMasterStatusOutletCount OID."
- ::= { sPDUOutletConfigVM 1 }
-
-sPDUOutletConfigVMEntry OBJECT-TYPE
- SYNTAX OutletConfigVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to configure."
- INDEX { sPDUOutletConfigVMIndex, sPDUOutletConfigVMOutletIndex }
- ::= { sPDUOutletConfigVMTable 1 }
-
-OutletConfigVMEntry ::=
- SEQUENCE {
- sPDUOutletConfigVMIndex INTEGER,
- sPDUOutletConfigVMName DisplayString,
- sPDUOutletConfigVMOutletIndex INTEGER,
- sPDUOutletConfigVMOutletName DisplayString,
- sPDUOutletConfigVMPowerOnTime INTEGER,
- sPDUOutletConfigVMPowerOffTime INTEGER,
- sPDUOutletConfigVMRebootDuration INTEGER
- }
-
-sPDUOutletConfigVMIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch VM."
- ::= { sPDUOutletConfigVMEntry 1 }
-
-sPDUOutletConfigVMName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch VM. Maximum size is 23 characters."
- ::= { sPDUOutletConfigVMEntry 2 }
-
-sPDUOutletConfigVMOutletIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { sPDUOutletConfigVMEntry 3 }
-
-
-sPDUOutletConfigVMOutletName OBJECT-TYPE
- SYNTAX DisplayString ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. Maximum size is 23 characters."
- ::= { sPDUOutletConfigVMEntry 4 }
-
-sPDUOutletConfigVMPowerOnTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The amount of time (in seconds) the outlet will delay
- powering on at coldstart or when a command that requires
- a turn-on delay is issued.
-
- Allowed values are:
-
- -1 never power on.
- 0 power on immediately.
- 15 power on 15 seconds after being commanded.
- 30 power on 30 seconds after being commanded.
- 45 power on 45 seconds after being commanded.
- 60 power on 60 seconds (1 minute) after being commanded.
- 120 power on 120 seconds (2 minutes) after being commanded.
- 300 power on 300 seconds (5 minutes) after being commanded.
-
- If a value other than a supported value is provided in a
- set request, the MasterSwitch VM interprets it as the next lower
- acceptable value. If the provided value is lower than
- the lowest acceptable value, the lowest acceptable
- value is used."
- ::= { sPDUOutletConfigVMEntry 5 }
-
-
-sPDUOutletConfigVMPowerOffTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The amount of time (in seconds) the outlet will delay
- powering off when a command that requires
- a turn-off delay is issued.
-
-
- Allowed values are:
-
- -1 never power off automatically.
- 0 power off immediately.
- 15 power off 15 seconds after being commanded.
- 30 power off 30 seconds after being commanded.
- 45 power off 45 seconds after being commanded.
- 60 power off 60 seconds (1 minute) after being commanded.
- 120 power off 120 seconds (2 minutes) after being commanded.
- 300 power off 300 seconds (5 minutes) after being commanded.
-
- If a value other than a supported value is provided in a
- set request, the MasterSwitch VM interprets it as the next lower
- acceptable value. If the provided value is lower than
- the lowest acceptable value, the lowest acceptable
- value is used."
- ::= { sPDUOutletConfigVMEntry 6 }
-
-sPDUOutletConfigVMRebootDuration OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "During a reboot sequence, power is turned off and then
- back on. This OID defines the amount of time to wait,
- in seconds, after turning the power off, at the start
- of the sequence, before turning power back on, at the
- end of the reboot sequence.
-
- Allowed values are:
-
- 5 wait 5 seconds between off/on.
- 10 wait 10 seconds between off/on.
- 15 wait 15 seconds between off/on.
- 20 wait 20 seconds between off/on.
- 30 wait 30 seconds between off/on.
- 45 wait 45 seconds between off/on.
- 60 wait 60 seconds (1 minute) between off/on.
-
- If a value other than a supported value is provided in a
- set request, the MasterSwitch VM interprets it as the next lower
- acceptable value. If the provided value is lower than
- the lowest acceptable value, the lowest acceptable
- value is used."
- ::= { sPDUOutletConfigVMEntry 7 }
-
--- the sPDUOutletStatusVM group
-
-sPDUOutletStatusVMTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutletStatusVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting of status of individual outlets. The number of
- entries is contained in the sPDUMasterStatusOutletCount OID."
- ::= { sPDUOutletStatusVM 1 }
-
-sPDUOutletStatusVMEntry OBJECT-TYPE
- SYNTAX OutletStatusVMEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to gather status from."
- INDEX { sPDUOutletStatusVMIndex, sPDUOutletStatusVMOutletIndex }
- ::= { sPDUOutletStatusVMTable 1 }
-
-OutletStatusVMEntry ::=
- SEQUENCE {
- sPDUOutletStatusVMIndex INTEGER,
- sPDUOutletStatusVMName DisplayString,
- sPDUOutletStatusVMOutletIndex INTEGER,
- sPDUOutletStatusVMOutletName DisplayString,
- sPDUOutletStatusVMOutletState INTEGER,
- sPDUOutletStatusVMCommandPending INTEGER
- }
-
-sPDUOutletStatusVMIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch VM."
- ::= { sPDUOutletStatusVMEntry 1 }
-
-sPDUOutletStatusVMName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch VM. Maximum size is 23 characters."
- ::= { sPDUOutletStatusVMEntry 2 }
-
-sPDUOutletStatusVMOutletIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { sPDUOutletStatusVMEntry 3 }
-
-sPDUOutletStatusVMOutletName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. Maximum size is 23 characters."
- ::= { sPDUOutletStatusVMEntry 4 }
-
-sPDUOutletStatusVMOutletState OBJECT-TYPE
- SYNTAX INTEGER {
- outletStatusVMOn (1),
- outletStatusVMOff (2)
- }
-
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the outlet state. If
- the outlet is on, the outletStatusOnVM (1) value will be returned.
- If the outlet is off, the outletStatusOffVM (2) value will be
- returned. "
- ::= { sPDUOutletStatusVMEntry 5 }
-
-sPDUOutletStatusVMCommandPending OBJECT-TYPE
- SYNTAX INTEGER {
- outletStatusVMCommandPending (1),
- outletStatusVMNoCommandPending (2)
- }
-
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the command pending
- state of the outlet. If a command is pending on the
- outlet, the outletStatusVMCommandPending (1) value
- will be returned. If there is not a command pending
- on the outlet, the outletStatusVMNoCommandPending (2)
- will be returned."
- ::= { sPDUOutletStatusVMEntry 6 }
-
--- the sPDUIdentMSP group
-
-sPDUIdentMSPTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of MasterSwitch pluses controllable
- by this IP address."
- ::= { sPDUIdentMSP 1 }
-
-
-sPDUIdentMSPTable OBJECT-TYPE
- SYNTAX SEQUENCE OF IdentMSPEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for query of the individual MasterSwitch pluses.
- The number of entries is contained in the
- sPDUIdentMSPTableSize OID."
- ::= { sPDUIdentMSP 2 }
-
-sPDUIdentMSPEntry OBJECT-TYPE
- SYNTAX IdentMSPEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The MasterSwitch pluses to query."
- INDEX { sPDUIdentMSPIndex}
- ::= { sPDUIdentMSPTable 1 }
-
-IdentMSPEntry ::=
- SEQUENCE {
- sPDUIdentMSPIndex INTEGER,
- sPDUIdentNameMSP DisplayString,
- sPDUIdentHardwareRevMSP DisplayString,
- sPDUIdentFirmwareRevMSP DisplayString,
- sPDUIdentDateOfManufactureMSP DisplayString,
- sPDUIdentModelNumberMSP DisplayString,
- sPDUIdentSerialNumberMSP DisplayString
- }
-
-sPDUIdentMSPIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch plus entry."
- ::= { sPDUIdentMSPEntry 1 }
-
-sPDUIdentNameMSP OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch plus. The maximum
- value is 23 characters. The name is set by
- using the sPDUMasterConfigMSPName OID."
- ::= { sPDUIdentMSPEntry 2 }
-
-sPDUIdentHardwareRevMSP OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware version of the MasterSwitch plus.
- This value is set at the factory."
- ::= { sPDUIdentMSPEntry 3 }
-
-sPDUIdentFirmwareRevMSP OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An 6-character ID string identifying the MasterSwitch plus
- firmware version. This value is set at the factory."
- ::= { sPDUIdentMSPEntry 4 }
-
-sPDUIdentDateOfManufactureMSP OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date when the MasterSwitch plus was manufactured in mm/dd/yyyy format.
- This value is set at the factory. "
- ::= { sPDUIdentMSPEntry 5 }
-
-sPDUIdentModelNumberMSP OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A 17-character string identifying the model number of
- the MasterSwitch plus. This value is set at the factory."
- ::= { sPDUIdentMSPEntry 6 }
-
-sPDUIdentSerialNumberMSP OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A 17-character string identifying the serial number of
- the MasterSwitch plus. This value is set at the factory."
- ::= { sPDUIdentMSPEntry 7 }
-
-
--- the sPDUMasterControlMSP group
-
-sPDUMasterControlMSPTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of MasterSwitch pluses controllable
- by this IP address."
- ::= { sPDUMasterControlMSP 1 }
-
-sPDUMasterControlMSPTable OBJECT-TYPE
- SYNTAX SEQUENCE OF MasterControlMSPEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for control of the individual MasterSwitch pluses.
- The number of entries is contained in the
- sPDUMasterControlMSPTableSize OID."
- ::= { sPDUMasterControlMSP 2 }
-
-sPDUMasterControlMSPEntry OBJECT-TYPE
- SYNTAX MasterControlMSPEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The MasterSwitch pluses to control."
- INDEX { sPDUMasterControlMSPIndex}
- ::= { sPDUMasterControlMSPTable 1 }
-
-MasterControlMSPEntry ::=
- SEQUENCE {
- sPDUMasterControlMSPIndex INTEGER,
- sPDUMasterControlMSPName DisplayString,
- sPDUMasterControlMSPCommand INTEGER
- }
-
-sPDUMasterControlMSPIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch plus entry."
- ::= { sPDUMasterControlMSPEntry 1 }
-
-sPDUMasterControlMSPName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch plus. The maximum
- value is 23 characters. The name is set by
- using the sPDUMasterConfigMSPName OID."
- ::= { sPDUMasterControlMSPEntry 2 }
-
-sPDUMasterControlMSPCommand OBJECT-TYPE
- SYNTAX INTEGER {
- noCommandAllMSP (1),
- immediateAllOnMSP (2),
- sequencedAllOnMSP (3),
- immediateAllOffMSP (4),
- gracefulAllRebootMSP (5),
- immediateAllRebootMSP (6),
- gracefulAllShutdownMSP (7),
- overrideAllBatCapThreshMSP (8),
- cancelAllPendingCommandsMSP (9),
- restoreFactoryDefaultsMSP (10)
- }
-
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to immediateAllOnMSP (2) will turn all outlets
- on immediately.
-
- Setting this OID to sequencedAllOnMSP (3) will turn all outlets
- on as defined by each outlet's sPDUOutletConfigMSPPowerOnDelay OID value.
-
- Setting this OID to immediateAllOffMSP (4) will turn all outlets
- off immediately.
-
- Setting this OID to gracefulAllRebootMSP (5) will reboot all outlets
- (after the device running PowerChute confirms shutdown) as defined
- by each outlet's sPDUOutletConfigMSPRebootDuration OID time value.
-
- Setting this OID to immediateAllRebootMSP (6) will reboot all outlets
- immediately.
-
- Setting this OID to gracefulAllShutdownMSP (7) will shutdown all outlets
- (after the device running PowerChute confirms shutdown) as defined
- by each outlet's sPDUOutletConfigMSPPowerOffDelay OID time value. Each
- outlet will then turn on after the sum of its
- sPDUOutletConfigMSPRestartDelay and sPDUOutletConfigMSPPowerOnDelay OID
- values.
-
- Setting this OID to overrideAllBatCapThreshMSP (8) will cause the
- outlet to ignore the Battery Capacity Threshold and proceed turning on
- the outlets as defined by each outlet's sPDUOutletConfigMSPPowerOnDelay
- OID value.
-
- Setting this OID to cancelAllPendingCommandsMSP (9) will cause all pending
- commands on the MasterSwitch plus to be canceled.
-
- Setting this OID to restoreFactoryDefaultsMSP (10) will cause the settings of
- the MasterSwitch plus to be restored to the factory defaults.
-
- Getting this OID will return the noCommandAllMSP (1) value."
- ::= { sPDUMasterControlMSPEntry 3 }
-
-
--- the sPDUMasterConfigMSP group
-
-sPDUMasterConfigMSPTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of MasterSwitch pluses configurable
- by this IP address."
- ::= { sPDUMasterConfigMSP 1 }
-
-sPDUMasterConfigMSPTable OBJECT-TYPE
- SYNTAX SEQUENCE OF MasterConfigMSPEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of the individual MasterSwitch pluses.
- The number of entries is contained in the
- sPDUMasterConfigMSPTableSize OID."
- ::= { sPDUMasterConfigMSP 2 }
-
-sPDUMasterConfigMSPEntry OBJECT-TYPE
- SYNTAX MasterConfigMSPEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The MasterSwitch pluses to configure."
- INDEX { sPDUMasterConfigMSPIndex}
- ::= { sPDUMasterConfigMSPTable 1 }
-
-MasterConfigMSPEntry ::=
- SEQUENCE {
- sPDUMasterConfigMSPIndex INTEGER,
- sPDUMasterConfigMSPName DisplayString,
- sPDUMasterConfigMSPPowerOnTimeDelay INTEGER,
- sPDUMasterConfigMSPManualButton INTEGER
- }
-
-sPDUMasterConfigMSPIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch plus entry."
- ::= { sPDUMasterConfigMSPEntry 1 }
-
-sPDUMasterConfigMSPName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch plus. Maximum size is 23 characters."
- ::= { sPDUMasterConfigMSPEntry 2 }
-
-sPDUMasterConfigMSPPowerOnTimeDelay OBJECT-TYPE
- SYNTAX INTEGER (0..9999)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- " The amount of delay, in seconds, between when
- power is provided to the MasterSwitch plus and
- when the MasterSwitch plus provides basic master
- power to the outlets.
-
- Allowed values are:
-
- 0 - 9999 seconds (0 - 2hrs, 46 mins, 39 secs).
- 0 indicates to apply power immediately."
- ::= { sPDUMasterConfigMSPEntry 3 }
-
-
-sPDUMasterConfigMSPManualButton OBJECT-TYPE
- SYNTAX INTEGER {
- manualButtonDisabled (1),
- manualButtonEnabled (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to manualButtonDisabled (1) will disable
- the manual button on the MasterSwitch plus.
-
- Setting this OID to manualButtonEnabled (2) will enable
- the manual button on the MasterSwitch plus."
- ::= { sPDUMasterConfigMSPEntry 4 }
-
--- the sPDUMasterStatusMSP group
-
-sPDUMasterStatusMSPTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of MasterSwitch pluses at
- this IP address."
- ::= { sPDUMasterStatusMSP 1 }
-
-
-sPDUMasterStatusMSPTable OBJECT-TYPE
- SYNTAX SEQUENCE OF MasterStatusMSPEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for gathering of status from the individual
- MasterSwitch pluses. The number of entries is contained
- in the sPDUMasterStatusMSPTableSize OID."
- ::= { sPDUMasterStatusMSP 2 }
-
-sPDUMasterStatusMSPEntry OBJECT-TYPE
- SYNTAX MasterStatusMSPEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The MasterSwitch pluses to gather status from."
- INDEX { sPDUMasterStatusMSPIndex}
- ::= { sPDUMasterStatusMSPTable 1 }
-
-MasterStatusMSPEntry ::=
- SEQUENCE {
- sPDUMasterStatusMSPIndex INTEGER,
- sPDUMasterStatusMSPName DisplayString,
- sPDUMasterStatusMSPOutletCount INTEGER
- }
-
-sPDUMasterStatusMSPIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch plus entry."
- ::= { sPDUMasterStatusMSPEntry 1 }
-
-sPDUMasterStatusMSPName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch plus. The maximum
- value is 23 characters. The name is set by
- using the sPDUMasterConfigMSPName OID."
- ::= { sPDUMasterStatusMSPEntry 2 }
-
-sPDUMasterStatusMSPOutletCount OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the number of controllable
- outlets for this MasterSwitch plus."
- ::= { sPDUMasterStatusMSPEntry 3 }
-
--- the sPDUOutletControlMSP group
-
-sPDUOutletControlMSPTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutletControlMSPEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for control of individual outlet switches. The number of
- entries is contained in the sPDUMasterStatusMSPOutletCount OID."
- ::= { sPDUOutletControlMSP 1 }
-
-sPDUOutletControlMSPEntry OBJECT-TYPE
- SYNTAX OutletControlMSPEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to control."
- INDEX { sPDUOutletControlMSPIndex, sPDUOutletControlMSPOutletIndex }
- ::= { sPDUOutletControlMSPTable 1 }
-
-OutletControlMSPEntry ::=
- SEQUENCE {
- sPDUOutletControlMSPIndex INTEGER,
- sPDUOutletControlMSPName DisplayString,
- sPDUOutletControlMSPOutletIndex INTEGER,
- sPDUOutletControlMSPOutletName DisplayString,
- sPDUOutletControlMSPOutletCommand INTEGER
- }
-
-sPDUOutletControlMSPIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch plus."
- ::= { sPDUOutletControlMSPEntry 1 }
-
-sPDUOutletControlMSPName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch plus. The maximum
- value is 23 characters. The name is set by
- using the sPDUMasterConfigMSPName OID."
- ::= { sPDUOutletControlMSPEntry 2 }
-
-sPDUOutletControlMSPOutletIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { sPDUOutletControlMSPEntry 3 }
-
-sPDUOutletControlMSPOutletName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. The maximum size is
- 23 characters. The name is set by using the
- sPDUOutletConfigMSPallOutletName OID.
- This OID is provided for informational purposes only."
- ::= { sPDUOutletControlMSPEntry 4 }
-
-sPDUOutletControlMSPOutletCommand OBJECT-TYPE
- SYNTAX INTEGER {
- immediateOnMSP (1),
- delayedOnMSP (2),
- immediateOffMSP (3),
- gracefulRebootMSP (4),
- immediateRebootMSP (5),
- gracefulshutdownMSP (6),
- overrideBatCapThreshMSP (7),
- cancelPendingCommandMSP (8)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the outlet state. If
- the outlet is on, the immediateOnMSP (1) value will be returned.
- If the outlet is off, the immediateOffMSP (3) value will be
- returned.
-
- Setting this variable to immediateOnMSP (1) will immediately turn the outlet on.
-
- Setting this variable to delayedOnMSP (2) will turn the outlet on
- after the sPDUOutletConfigMSPPowerOnDelay OID time has elapsed.
-
- Setting this variable to immediateOffMSP (3) will immediately turn the outlet off.
-
- Setting this variable to gracefulRebootMSP (4) will cause the outlet to wait for
- device confirmation (if applicable) and then turn the outlet off after the
- sPDUOutletConfigMSPPowerOffDelay OID time has elapsed. The outlet will then turn
- on after the sPDUOutletConfigMSPRebootDuration OID time has elapsed.
-
- Setting this variable to immediateRebootMSP (5) will immediately reboot the outlet.
-
- Setting this variable to gracefulshutdownMSP (6) will cause the outlet to wait for
- device confirmation (if applicable) and then turn the outlet off after the
- sPDUOutletConfigMSPPowerOffDelay OID time has elapsed. The outlet will then turn
- on after the sum of the sPDUOutletConfigMSPRestartTime OID time and the
- sPDUOutletConfigMSPPowerOnDelay OID time has elapsed.
-
- Setting this variable to overrideBatCapThreshMSP (7) will cause the outlet to
- ignore the Battery Capacity Threshold and proceed waiting on the
- sPDUOutletConfigMSPPowerOnDelay OID time before turning the outlet on.
-
- Setting this variable to cancelPendingCommandMSP (8) will cause any
- pending command to this outlet to be canceled."
- ::= { sPDUOutletControlMSPEntry 5 }
-
--- the sPDUOutletConfigMSPall group
-
-sPDUOutletConfigMSPallTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutletConfigMSPallEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of individual outlets. The number of
- entries is contained in the sPDUMasterStatusMSPOutletCount OID."
- ::= { sPDUOutletConfigMSPall 1 }
-
-sPDUOutletConfigMSPallEntry OBJECT-TYPE
- SYNTAX OutletConfigMSPallEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to configure."
- INDEX { sPDUOutletConfigMSPallIndex, sPDUOutletConfigMSPallOutletIndex }
- ::= { sPDUOutletConfigMSPallTable 1 }
-
-OutletConfigMSPallEntry ::=
- SEQUENCE {
- sPDUOutletConfigMSPallIndex INTEGER,
- sPDUOutletConfigMSPallName DisplayString,
- sPDUOutletConfigMSPallOutletIndex INTEGER,
- sPDUOutletConfigMSPallOutletName DisplayString,
- sPDUOutletConfigMSPallOutletCtrlMode INTEGER
- }
-
-sPDUOutletConfigMSPallIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch plus."
- ::= { sPDUOutletConfigMSPallEntry 1 }
-
-sPDUOutletConfigMSPallName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch plus. The maximum
- value is 23 characters. The name is set by
- using the sPDUMasterConfigMSPName OID."
- ::= { sPDUOutletConfigMSPallEntry 2 }
-
-sPDUOutletConfigMSPallOutletIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { sPDUOutletConfigMSPallEntry 3 }
-
-sPDUOutletConfigMSPallOutletName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. Maximum size is 23 characters."
- ::= { sPDUOutletConfigMSPallEntry 4 }
-
-sPDUOutletConfigMSPallOutletCtrlMode OBJECT-TYPE
- SYNTAX INTEGER {
- modeGracefulShutdown (1),
- modeAnnunciator (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to modeGracefulShutdown (1) will put this
- outlet into the Graceful Shutdown control mode.
-
- Setting this OID to modeAnnunciator (2) will put this outlet
- into the Annunciator control mode."
- ::= { sPDUOutletConfigMSPallEntry 5 }
-
-
--- the sPDUOutConfigMSPgs group
-
-sPDUOutletConfigMSPgsTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutletConfigMSPgsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of individual outlets. The number of
- entries is contained in the sPDUMasterStatusMSPOutletCount OID."
- ::= { sPDUOutletConfigMSPgs 1 }
-
-sPDUOutletConfigMSPgsEntry OBJECT-TYPE
- SYNTAX OutletConfigMSPgsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to configure."
- INDEX { sPDUOutletConfigMSPgsIndex, sPDUOutletConfigMSPgsOutletIndex }
- ::= { sPDUOutletConfigMSPgsTable 1 }
-
-OutletConfigMSPgsEntry ::=
- SEQUENCE {
- sPDUOutletConfigMSPgsIndex INTEGER,
- sPDUOutletConfigMSPgsName DisplayString,
- sPDUOutletConfigMSPgsOutletIndex INTEGER,
- sPDUOutletConfigMSPgsOutletName DisplayString,
- sPDUOutletConfigMSPgsOutletCtrlMode INTEGER,
- sPDUOutletConfigMSPgsDeviceConfirm INTEGER,
- sPDUOutletConfigMSPgsLowBattWarning INTEGER,
- sPDUOutletConfigMSPgsLowBattMult INTEGER,
- sPDUOutletConfigMSPgsRestartDelay INTEGER,
- sPDUOutletConfigMSPgsPowerOnDelay INTEGER,
- sPDUOutletConfigMSPgsPowerOffDelay INTEGER,
- sPDUOutletConfigMSPgsBattCapThresh INTEGER,
- sPDUOutletConfigMSPgsRebootDuration INTEGER
- }
-
-sPDUOutletConfigMSPgsIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch plus."
- ::= { sPDUOutletConfigMSPgsEntry 1 }
-
-sPDUOutletConfigMSPgsName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch plus. The maximum
- value is 23 characters. The name is set by
- using the sPDUMasterConfigMSPName OID."
- ::= { sPDUOutletConfigMSPgsEntry 2 }
-
-sPDUOutletConfigMSPgsOutletIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { sPDUOutletConfigMSPgsEntry 3 }
-
-sPDUOutletConfigMSPgsOutletName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. The maximum size is
- 23 characters. The name is set by using the
- sPDUOutletConfigMSPallOutletName OID.
- This OID is provided for informational purposes only."
- ::= { sPDUOutletConfigMSPgsEntry 4 }
-
-sPDUOutletConfigMSPgsOutletCtrlMode OBJECT-TYPE
- SYNTAX INTEGER {
- modeGracefulShutdown (1),
- modeAnnunciator (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The Control Mode of the outlet.
- This OID is provided for informational purposes only."
- ::= { sPDUOutletConfigMSPgsEntry 5 }
-
-sPDUOutletConfigMSPgsDeviceConfirm OBJECT-TYPE
- SYNTAX INTEGER {
- deviceConfirmNo (1),
- deviceConfirmYes (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to deviceConfirmNo (1) cause the outlet to
- NOT wait for device confirmation while performing graceful
- operations.
-
- Setting this OID to deviceConfirmYes (2) cause the outlet to
- wait for device confirmation while performing graceful
- operations."
- ::= { sPDUOutletConfigMSPgsEntry 6 }
-
-sPDUOutletConfigMSPgsLowBattWarning OBJECT-TYPE
- SYNTAX INTEGER (-2..9999)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- " The amount of delay, in 6 second intervals, between
- when the UPS goes on battery and the power down sequence for
- the outlet is initiated.
-
- Allowed values are:
-
- -2 - Never initiate the power down sequence on low battery warning.
- -1 - Initiate power down sequence based on remaining runtime.
- 1 - 9999 six second intervals (6 secs - 16hrs, 39 mins, 54 secs).
- 0 indicates to immediately initiate power down sequence on low
- battery warning."
- ::= { sPDUOutletConfigMSPgsEntry 7 }
-
-sPDUOutletConfigMSPgsLowBattMult OBJECT-TYPE
- SYNTAX INTEGER (1..7)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- " Only applicable if sPDUOutletConfigMSPgsLowBattWarning OID is
- set to -1 (On Runtime Remaining).
-
- Allows you to set the value to stagger the shutdown sequence of the outlets.
- 1 provides the longest delay (the outlet to shutoff first), and 7 would
- provide the shortest delay (the outlet to shut off last).
-
- Allowed values are:
- 1 - 7."
- ::= { sPDUOutletConfigMSPgsEntry 8 }
-
-sPDUOutletConfigMSPgsRestartDelay OBJECT-TYPE
- SYNTAX INTEGER (-1..9999)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- " The amount of delay, in 6 minute intervals, between
- when the outlet is turned off and the outlet is turned back on
- when performing a Graceful Shutdown.
-
- Allowed values are:
-
- -1 - Never turn outlet back on after a Graceful shutdown.
- 0 - 9999 six minute intervals (0 - 999hrs, 54 mins)."
- ::= { sPDUOutletConfigMSPgsEntry 9 }
-
-sPDUOutletConfigMSPgsPowerOnDelay OBJECT-TYPE
- SYNTAX INTEGER (-1..9999)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- " The amount of delay, in seconds, between the UPS entering
- normal (on-line) state and the outlet being powered on.
-
- Allowed values are:
-
- -1 - Remain Off when the UPS enters the on-line state.
- 0 - 9999 seconds (0 - 2 hrs, 46 mins, 39 secs)."
- ::= { sPDUOutletConfigMSPgsEntry 10 }
-
-
-sPDUOutletConfigMSPgsPowerOffDelay OBJECT-TYPE
- SYNTAX INTEGER (0..9999)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- " The amount of delay, in seconds, between when the server
- shuts down and the outlet is powered off.
-
- Allowed values are:
-
- 0 - 9999 seconds (0 - 2 hrs, 46 mins, 39 secs)."
- ::= { sPDUOutletConfigMSPgsEntry 11 }
-
-sPDUOutletConfigMSPgsBattCapThresh OBJECT-TYPE
- SYNTAX INTEGER (0..100)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- " The minimum battery capacity, as a percent (0-100%), required
- of the UPS before an outlet will be allowed to power on.
-
- Allowed values are:
-
- 0 - 100 percent."
- ::= { sPDUOutletConfigMSPgsEntry 12 }
-
-sPDUOutletConfigMSPgsRebootDuration OBJECT-TYPE
- SYNTAX INTEGER (0..9999)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- " The amount of delay, in seconds, from outlet off until
- outlet on during a reboot.
-
- Allowed values are:
-
- 0 - 9999 seconds (0 - 2 hrs, 46 mins, 39 secs)."
- ::= { sPDUOutletConfigMSPgsEntry 13 }
-
-
--- the sPDUOutConfigMSPannun group
-
-sPDUOutletConfigMSPannunTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutletConfigMSPannunEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of individual outlets. The number of
- entries is contained in the sPDUMasterStatusMSPOutletCount OID."
- ::= { sPDUOutletConfigMSPannun 1 }
-
-sPDUOutletConfigMSPannunEntry OBJECT-TYPE
- SYNTAX OutletConfigMSPannunEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to configure."
- INDEX { sPDUOutletConfigMSPannunIndex, sPDUOutletConfigMSPannunOutletIndex }
- ::= { sPDUOutletConfigMSPannunTable 1 }
-
-OutletConfigMSPannunEntry ::=
- SEQUENCE {
- sPDUOutletConfigMSPannunIndex INTEGER,
- sPDUOutletConfigMSPannunName DisplayString,
- sPDUOutletConfigMSPannunOutletIndex INTEGER,
- sPDUOutletConfigMSPannunOutletName DisplayString,
- sPDUOutletConfigMSPannunOutletCtrlMode INTEGER,
- sPDUOutletConfigMSPannunInitialState INTEGER,
- sPDUOutletConfigMSPannunAlarmActionDly INTEGER
- }
-
-sPDUOutletConfigMSPannunIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch plus."
- ::= { sPDUOutletConfigMSPannunEntry 1 }
-
-sPDUOutletConfigMSPannunName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch plus. The maximum
- value is 23 characters. The name is set by
- using the sPDUMasterConfigMSPName OID."
- ::= { sPDUOutletConfigMSPannunEntry 2 }
-
-sPDUOutletConfigMSPannunOutletIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { sPDUOutletConfigMSPannunEntry 3 }
-
-sPDUOutletConfigMSPannunOutletName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. The maximum size is
- 23 characters. The name is set by using the
- sPDUOutletConfigMSPallOutletName OID.
- This OID is provided for informational purposes only."
- ::= { sPDUOutletConfigMSPannunEntry 4 }
-
-sPDUOutletConfigMSPannunOutletCtrlMode OBJECT-TYPE
- SYNTAX INTEGER {
- modeGracefulShutdown (1),
- modeAnnunciator (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The Control Mode of the outlet.
- This OID is provided for informational purposes only."
- ::= { sPDUOutletConfigMSPannunEntry 5 }
-
-sPDUOutletConfigMSPannunInitialState OBJECT-TYPE
- SYNTAX INTEGER {
- initialStateOff (1),
- initialStateOn (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to initialStateOff (1) causes the outlet
- to default to off when in the non-alarmed condition.
-
- Setting this OID to initialStateOn (2) causes the outlet
- to default to on when in the non-alarmed condition."
- ::= { sPDUOutletConfigMSPannunEntry 6 }
-
-sPDUOutletConfigMSPannunAlarmActionDly OBJECT-TYPE
- SYNTAX INTEGER (0..9999)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- " The amount of time, in seconds, that an enabled Measure-UPS
- alarm must be asserted before an alarm condition is recognized.
-
- Allowed values are:
-
- 0 - 9999 seconds (0 - 2 hrs, 46 mins, 39 secs)."
- ::= { sPDUOutletConfigMSPannunEntry 7 }
-
-
--- the sPDUOutConfigMSPmups group
-
-sPDUOutletConfigMSPmupsTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutletConfigMSPmupsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of individual outlets. The number of
- entries is contained in the sPDUMasterStatusMSPOutletCount OID."
- ::= { sPDUOutletConfigMSPmups 1 }
-
-sPDUOutletConfigMSPmupsEntry OBJECT-TYPE
- SYNTAX OutletConfigMSPmupsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to configure."
- INDEX { sPDUOutletConfigMSPmupsIndex, sPDUOutletConfigMSPmupsOutletIndex }
- ::= { sPDUOutletConfigMSPmupsTable 1 }
-
-OutletConfigMSPmupsEntry ::=
- SEQUENCE {
- sPDUOutletConfigMSPmupsIndex INTEGER,
- sPDUOutletConfigMSPmupsName DisplayString,
- sPDUOutletConfigMSPmupsOutletIndex INTEGER,
- sPDUOutletConfigMSPmupsOutletName DisplayString,
- sPDUOutletConfigMSPmupsZone1 INTEGER,
- sPDUOutletConfigMSPmupsZone2 INTEGER,
- sPDUOutletConfigMSPmupsZone3 INTEGER,
- sPDUOutletConfigMSPmupsZone4 INTEGER,
- sPDUOutletConfigMSPmupsP1LowHum INTEGER,
- sPDUOutletConfigMSPmupsP1HiHum INTEGER,
- sPDUOutletConfigMSPmupsP1LowTemp INTEGER,
- sPDUOutletConfigMSPmupsP1HiTemp INTEGER,
- sPDUOutletConfigMSPmupsP2LowHum INTEGER,
- sPDUOutletConfigMSPmupsP2HiHum INTEGER,
- sPDUOutletConfigMSPmupsP2LowTemp INTEGER,
- sPDUOutletConfigMSPmupsP2HiTemp INTEGER
- }
-
-sPDUOutletConfigMSPmupsIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch plus."
- ::= { sPDUOutletConfigMSPmupsEntry 1 }
-
-sPDUOutletConfigMSPmupsName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch plus. The maximum
- value is 23 characters. The name is set by
- using the sPDUMasterConfigMSPName OID."
- ::= { sPDUOutletConfigMSPmupsEntry 2 }
-
-sPDUOutletConfigMSPmupsOutletIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { sPDUOutletConfigMSPmupsEntry 3 }
-
-sPDUOutletConfigMSPmupsOutletName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. The maximum size is
- 23 characters. The name is set by using the
- sPDUOutletConfigMSPallOutletName OID.
- This OID is provided for informational purposes only."
- ::= { sPDUOutletConfigMSPmupsEntry 4 }
-
-sPDUOutletConfigMSPmupsZone1 OBJECT-TYPE
- SYNTAX INTEGER {
- disableAlarm (1),
- enableAlarm (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to disableAlarm (1) disables the
- Zone 1 alarm for this outlet.
-
- Setting this OID to enableAlarm (2) enables the
- Zone 1 alarm for this outlet."
- ::= { sPDUOutletConfigMSPmupsEntry 5 }
-
-sPDUOutletConfigMSPmupsZone2 OBJECT-TYPE
- SYNTAX INTEGER {
- disableAlarm (1),
- enableAlarm (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to disableAlarm (1) disables the
- Zone 2 alarm for this outlet.
-
- Setting this OID to enableAlarm (2) enables the
- Zone 2 alarm for this outlet."
- ::= { sPDUOutletConfigMSPmupsEntry 6 }
-
-sPDUOutletConfigMSPmupsZone3 OBJECT-TYPE
- SYNTAX INTEGER {
- disableAlarm (1),
- enableAlarm (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to disableAlarm (1) disables the
- Zone 3 alarm for this outlet.
-
- Setting this OID to enableAlarm (2) enables the
- Zone 3 alarm for this outlet."
- ::= { sPDUOutletConfigMSPmupsEntry 7 }
-
-sPDUOutletConfigMSPmupsZone4 OBJECT-TYPE
- SYNTAX INTEGER {
- disableAlarm (1),
- enableAlarm (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to disableAlarm (1) disables the
- Zone 4 alarm for this outlet.
-
- Setting this OID to enableAlarm (2) enables the
- Zone 4 alarm for this outlet."
- ::= { sPDUOutletConfigMSPmupsEntry 8 }
-
-sPDUOutletConfigMSPmupsP1LowHum OBJECT-TYPE
- SYNTAX INTEGER {
- disableAlarm (1),
- enableAlarm (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to disableAlarm (1) disables the
- Probe 1 low humidity alarm for this outlet.
-
- Setting this OID to enableAlarm (2) enables the
- Probe 1 low humidity alarm for this outlet."
- ::= { sPDUOutletConfigMSPmupsEntry 9 }
-
-sPDUOutletConfigMSPmupsP1HiHum OBJECT-TYPE
- SYNTAX INTEGER {
- disableAlarm (1),
- enableAlarm (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to disableAlarm (1) disables the
- Probe 1 high humidity alarm for this outlet.
-
- Setting this OID to enableAlarm (2) enables the
- Probe 1 high humidity alarm for this outlet."
- ::= { sPDUOutletConfigMSPmupsEntry 10 }
-
-sPDUOutletConfigMSPmupsP1LowTemp OBJECT-TYPE
- SYNTAX INTEGER {
- disableAlarm (1),
- enableAlarm (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to disableAlarm (1) disables the
- Probe 1 low temperature alarm for this outlet.
-
- Setting this OID to enableAlarm (2) enables the
- Probe 1 low temperature alarm for this outlet."
- ::= { sPDUOutletConfigMSPmupsEntry 11 }
-
-sPDUOutletConfigMSPmupsP1HiTemp OBJECT-TYPE
- SYNTAX INTEGER {
- disableAlarm (1),
- enableAlarm (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to disableAlarm (1) disables the
- Probe 1 high temperature alarm for this outlet.
-
- Setting this OID to enableAlarm (2) enables the
- Probe 1 high temperature alarm for this outlet."
- ::= { sPDUOutletConfigMSPmupsEntry 12 }
-
-sPDUOutletConfigMSPmupsP2LowHum OBJECT-TYPE
- SYNTAX INTEGER {
- disableAlarm (1),
- enableAlarm (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to disableAlarm (1) disables the
- Probe 2 low humidity alarm for this outlet.
-
- Setting this OID to enableAlarm (2) enables the
- Probe 2 low humidity alarm for this outlet."
- ::= { sPDUOutletConfigMSPmupsEntry 13 }
-
-sPDUOutletConfigMSPmupsP2HiHum OBJECT-TYPE
- SYNTAX INTEGER {
- disableAlarm (1),
- enableAlarm (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to disableAlarm (1) disables the
- Probe 2 high humidity alarm for this outlet.
-
- Setting this OID to enableAlarm (2) enables the
- Probe 2 high humidity alarm for this outlet."
- ::= { sPDUOutletConfigMSPmupsEntry 14 }
-
-sPDUOutletConfigMSPmupsP2LowTemp OBJECT-TYPE
- SYNTAX INTEGER {
- disableAlarm (1),
- enableAlarm (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to disableAlarm (1) disables the
- Probe 2 low temperature alarm for this outlet.
-
- Setting this OID to enableAlarm (2) enables the
- Probe 2 low temperature alarm for this outlet."
- ::= { sPDUOutletConfigMSPmupsEntry 15 }
-
-sPDUOutletConfigMSPmupsP2HiTemp OBJECT-TYPE
- SYNTAX INTEGER {
- disableAlarm (1),
- enableAlarm (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to disableAlarm (1) disables the
- Probe 2 high temperature alarm for this outlet.
-
- Setting this OID to enableAlarm (2) enables the
- Probe 2 high temperature alarm for this outlet."
- ::= { sPDUOutletConfigMSPmupsEntry 16 }
-
--- the sPDUOutletStatusMSP group
-
-sPDUOutletStatusMSPTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutletStatusMSPEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting of status of individual outlets. The number of
- entries is contained in the sPDUMasterStatusOutletCount OID."
- ::= { sPDUOutletStatusMSP 1 }
-
-sPDUOutletStatusMSPEntry OBJECT-TYPE
- SYNTAX OutletStatusMSPEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to gather status from."
- INDEX { sPDUOutletStatusMSPIndex, sPDUOutletStatusMSPOutletIndex }
- ::= { sPDUOutletStatusMSPTable 1 }
-
-OutletStatusMSPEntry ::=
- SEQUENCE {
- sPDUOutletStatusMSPIndex INTEGER,
- sPDUOutletStatusMSPName DisplayString,
- sPDUOutletStatusMSPOutletIndex INTEGER,
- sPDUOutletStatusMSPOutletName DisplayString,
- sPDUOutletStatusMSPOutletState INTEGER,
- sPDUOutletStatusMSPCommandPending INTEGER,
- sPDUOutletStatusMSPOutletCtrlMode INTEGER
- }
-
-sPDUOutletStatusMSPIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the MasterSwitch MSP."
- ::= { sPDUOutletStatusMSPEntry 1 }
-
-sPDUOutletStatusMSPName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the MasterSwitch plus. The maximum
- value is 23 characters. The name is set by
- using the sPDUMasterConfigMSPName OID."
- ::= { sPDUOutletStatusMSPEntry 2 }
-
-sPDUOutletStatusMSPOutletIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { sPDUOutletStatusMSPEntry 3 }
-
-sPDUOutletStatusMSPOutletName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. The maximum size is
- 23 characters. The name is set by using the
- sPDUOutletConfigMSPallOutletName OID.
- This OID is provided for informational purposes only."
- ::= { sPDUOutletStatusMSPEntry 4 }
-
-sPDUOutletStatusMSPOutletState OBJECT-TYPE
- SYNTAX INTEGER {
- outletStatusMSPOn (1),
- outletStatusMSPOff (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the outlet state. If
- the outlet is on, the outletStatusMSPOn (1) value will be returned.
- If the outlet is off, the outletStatusMSPOff (2) value will be
- returned. "
- ::= { sPDUOutletStatusMSPEntry 5 }
-
-sPDUOutletStatusMSPCommandPending OBJECT-TYPE
- SYNTAX INTEGER {
- outletStatusMSPCommandPending (1),
- outletStatusMSPNoCommandPending (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the command pending
- state of the outlet. If a command is pending on the
- outlet, the outletStatusMSPCommandPending (1) value
- will be returned. If there is not a command pending
- on the outlet, the outletStatusMSPNoCommandPending (2)
- will be returned."
- ::= { sPDUOutletStatusMSPEntry 6 }
-
-sPDUOutletStatusMSPOutletCtrlMode OBJECT-TYPE
- SYNTAX INTEGER {
- modeGracefulShutdown (1),
- modeAnnunciator (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The Control Mode of the outlet.
- This OID is provided for informational purposes only."
- ::= { sPDUOutletStatusMSPEntry 7 }
-
-
--- the rPDUIdent group
-
-rPDUIdentName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the Rack PDU.
- The maximum string size is device dependent."
- ::= { rPDUIdent 1 }
-
-rPDUIdentHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware revision of the Rack PDU.
- This value is set at the factory."
- ::= { rPDUIdent 2 }
-
-rPDUIdentFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An 8-byte ID string identifying the Rack PDU firmware revision.
- This value is set at the factory."
- ::= { rPDUIdent 3 }
-
-
-rPDUIdentDateOfManufacture OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date when the Rack PDU was manufactured in mm/dd/yy format.
- This value is set at the factory. The year 2000 will be
- represented by 00."
- ::= { rPDUIdent 4 }
-
-rPDUIdentModelNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A 10-character string identifying the model number of
- the Rack PDU. This value is set at the factory."
- ::= { rPDUIdent 5 }
-
-rPDUIdentSerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A 12-character string identifying the serial number of
- the Rack PDU. This value is set at the factory."
- ::= { rPDUIdent 6 }
-
-rPDUIdentDeviceRating OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the electrical rating of the device."
-
- ::= { rPDUIdent 7 }
-
-rPDUIdentDeviceNumOutlets OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the number of outlets contained in the device."
-
- ::= { rPDUIdent 8 }
-
-rPDUIdentDeviceNumPhases OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the number of phases supported by the device."
-
- ::= { rPDUIdent 9 }
-
-rPDUIdentDeviceNumBreakers OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the number of circuit breakers supported by the device.
- This is the same as the number of banks of outlets."
-
- ::= { rPDUIdent 10 }
-
-rPDUIdentDeviceBreakerRating OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return rating of the circuit breakers on the device if it has any."
-
- ::= { rPDUIdent 11 }
-
-rPDUIdentDeviceOrientation OBJECT-TYPE
- SYNTAX INTEGER {
- orientHorizontal (1),
- orientVertical (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the intended physical orientation of the device.
-
- OrientHorizonatal(1) indicates Horizontal.
- OrientVertical(2) indicates Vertical."
-
- ::= { rPDUIdent 12 }
-
-rPDUIdentDeviceOutletLayout OBJECT-TYPE
- SYNTAX INTEGER {
- seqPhaseToNeutral (1),
- seqPhaseToPhase (2),
- seqPhToNeu21PhToPh (3),
- seqPhToPhGrouped (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return outlet layout for the device.
-
- SeqPhaseToNeutral(1) indicates outlet layout as follows:
- 1:1-N,2:2-N,3:3-N,4:1-N,5:2-N,...
-
- SeqPhaseToPhase(2) indicates outlet layout as follows:
- 1:1-2,2:2-3,3:3-1,4:1-2,5:2-3,...
-
- SeqPhToNeu21PhToPh(3) indicates outlet layout as follows:
- 1:1-N,2:2-N...21:3-N,22:1-2,23:2-3,24:3-1,...
-
- SeqPhToPhGrouped(4) indicates outlet layout as follows:
- Otlts1-8::(3-1),Otlts9-16::(2-3),Otlts17-24::(1-2)."
- ::= { rPDUIdent 13 }
-
-
-
--- the rPDULoadDevice group
-
-rPDULoadDevMaxPhaseLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the maximum rated power
- that each phase of the Rack PDU can provide. It is
- represented in Amps."
- ::= { rPDULoadDevice 1 }
-
-rPDULoadDevNumPhases OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of phases available with this Rack PDU."
- ::= { rPDULoadDevice 2 }
-
-rPDULoadDevMaxBankLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the maximum rated power
- that each bank of the Rack PDU can provide. It is
- represented in Amps.
-
- 0 will be returned if the device does not have any banks."
-
- ::= { rPDULoadDevice 3 }
-
-rPDULoadDevNumBanks OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of banks of outlets available with this Rack PDU.
- A bank of outlets has a unique circuit breaker for a subset
- of the total number of outlets on the rPDU."
- ::= { rPDULoadDevice 4 }
-
--- the rPDULoadPhaseConfig group
-
-rPDULoadPhaseConfigTable OBJECT-TYPE
- SYNTAX SEQUENCE OF LoadPhaseConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of each Rack PDU phase.
- The number of entries is contained in the
- rPDULoadDevNumPhases OID."
- ::= { rPDULoadPhaseConfig 1 }
-
-rPDULoadPhaseConfigEntry OBJECT-TYPE
- SYNTAX LoadPhaseConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The Rack PDU phase to configure."
- INDEX { rPDULoadPhaseConfigIndex}
- ::= { rPDULoadPhaseConfigTable 1 }
-
-LoadPhaseConfigEntry ::=
- SEQUENCE {
- rPDULoadPhaseConfigIndex INTEGER,
- rPDULoadPhaseConfigLowLoadThreshold INTEGER,
- rPDULoadPhaseConfigNearOverloadThreshold INTEGER,
- rPDULoadPhaseConfigOverloadThreshold INTEGER
- }
-
-rPDULoadPhaseConfigIndex OBJECT-TYPE
- SYNTAX INTEGER {
- phase1 (1),
- phase2 (2),
- phase3 (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the Rack PDU phase entry."
- ::= { rPDULoadPhaseConfigEntry 1 }
-
-rPDULoadPhaseConfigLowLoadThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A threshold that indicates the power consumption of
- the load is nearing a low consumption condition. It is
- represented in amps. A warning will be issued when the
- load is less than the threshold value.
-
- A threshold value of 0 amps effectively disables this
- warning.
-
- Maximum value must be less than the value returned
- by the rPDULoadPhaseConfigNearOverloadThreshold OID."
- ::= { rPDULoadPhaseConfigEntry 2 }
-
-rPDULoadPhaseConfigNearOverloadThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A threshold that indicates the power consumption of
- the load is nearing an overload condition. It is
- represented in amps. A warning will be issued when the
- load is greater than or equal to the threshold value.
-
- Minimum value must be greater than the value returned by
- the rPDULoadPhaseConfigLowLoadThreshold OID.
-
- Maximum value must be less than or equal to the value
- returned by the rPDULoadPhaseConfigOverloadThreshold OID."
- ::= { rPDULoadPhaseConfigEntry 3 }
-
-rPDULoadPhaseConfigOverloadThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A threshold that indicates the power consumption of
- the load has entered an overload condition. It is
- represented in amps. A warning will be issued when the
- load is greater than or equal to the threshold value.
-
- Minimum value must be greater than or equal to the value
- returned by the rPDULoadPhaseConfigNearOverloadThreshold OID.
-
- Maximum value must be less than or equal to the value
- returned by the rPDULoadDevMaxPhaseLoad OID."
- ::= { rPDULoadPhaseConfigEntry 4 }
-
-
--- the rPDULoadStatus group
-
-rPDULoadStatusTable OBJECT-TYPE
- SYNTAX SEQUENCE OF LoadStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting of status of each Rack PDU phase/bank.
- The number of entries is calculated by adding
- the number of phases (rPDULoadDevNumPhases OID) and
- the number of banks of outlets (rPDULoadDevNumBanks)
- Number of entries = #phases + #banks.
- NOTE: If a device has phase and bank information, all phase information
- shall preceed the bank information."
- ::= { rPDULoadStatus 1 }
-
-rPDULoadStatusEntry OBJECT-TYPE
- SYNTAX LoadStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The Rack PDU phase/bank to gather status from."
- INDEX { rPDULoadStatusIndex}
- ::= { rPDULoadStatusTable 1 }
-
-LoadStatusEntry ::=
- SEQUENCE {
- rPDULoadStatusIndex INTEGER,
- rPDULoadStatusLoad Gauge,
- rPDULoadStatusLoadState INTEGER,
- rPDULoadStatusPhaseNumber INTEGER,
- rPDULoadStatusBankNumber INTEGER
- }
-
-rPDULoadStatusIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the Rack PDU phase/bank entry. All phase information will preceed
- any bank information"
- ::= { rPDULoadStatusEntry 1 }
-
-rPDULoadStatusLoad OBJECT-TYPE
- SYNTAX Gauge
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the phase/bank load measured
- in tenths of amps."
- ::= { rPDULoadStatusEntry 2 }
-
-rPDULoadStatusLoadState OBJECT-TYPE
- SYNTAX INTEGER {
- phaseLoadNormal (1),
- phaseLoadLow (2),
- phaseLoadNearOverload (3),
- phaseLoadOverload (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the phase/bank load state.
-
- phaseLoadNormal(1) indicates that the phase/bank is
- operating properly within the rPDULoadConfigLowLoadThreshold
- and rPDULoadConfigNearOverloadThreshold OID values.
-
- phaseLoadLow(2) indicates that the phase/bank load has
- dropped below the rPDULoadConfigLowLoadThreshold OID value.
- An SNMP trap will occur when this state is entered or cleared.
-
- phaseLoadNearOverload(3) indicates that the phase/bank load
- is greater than or equal to the
- rPDULoadConfigNearOverloadThreshold OID value.
- An SNMP trap will occur when this state is entered or cleared.
-
- phaseLoadOverload(4) indicates that the phase/bank load is
- greater than or equal to the rPDULoadConfigOverloadThreshold
- OID value.
- An SNMP trap will occur when this state is entered or cleared."
- ::= { rPDULoadStatusEntry 3 }
-
-rPDULoadStatusPhaseNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The phase number to which this record refers. A value of 0 will be returned if
- this is bank related information."
- ::= { rPDULoadStatusEntry 4 }
-
-rPDULoadStatusBankNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The bank number to which this record refers. A value of 0 will be returned if
- this is phase related information."
- ::= { rPDULoadStatusEntry 5 }
-
--- the rPDULoadBankConfig group
-
-rPDULoadBankConfigTable OBJECT-TYPE
- SYNTAX SEQUENCE OF LoadBankConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of each Rack PDU bank.
- The number of entries is contained in the
- rPDULoadDevNumBanks OID."
- ::= { rPDULoadBankConfig 1 }
-
-rPDULoadBankConfigEntry OBJECT-TYPE
- SYNTAX LoadBankConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The Rack PDU bank to configure."
- INDEX { rPDULoadBankConfigIndex}
- ::= { rPDULoadBankConfigTable 1 }
-
-LoadBankConfigEntry ::=
- SEQUENCE {
- rPDULoadBankConfigIndex INTEGER,
- rPDULoadBankConfigLowLoadThreshold INTEGER,
- rPDULoadBankConfigNearOverloadThreshold INTEGER,
- rPDULoadBankConfigOverloadThreshold INTEGER
- }
-
-rPDULoadBankConfigIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the Rack PDU bank entry."
- ::= { rPDULoadBankConfigEntry 1 }
-
-rPDULoadBankConfigLowLoadThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A threshold that indicates the power consumption of
- the load is nearing a low consumption condition. It is
- represented in amps. A warning will be issued when the
- load is less than the threshold value.
-
- A threshold value of 0 amps effectively disables this
- warning.
-
- Maximum value must be less than the value returned
- by the rPDULoadBankConfigNearOverloadThreshold OID.
-
- -1 will be returned if the device has no banks."
-
- ::= { rPDULoadBankConfigEntry 2 }
-
-rPDULoadBankConfigNearOverloadThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A threshold that indicates the power consumption of
- the load is nearing an overload condition. It is
- represented in amps. A warning will be issued when the
- load is greater than or equal to the threshold value.
-
- Minimum value must be greater than the value returned by
- the rPDULoadBankConfigLowLoadThreshold OID.
-
- Maximum value must be less than or equal to the value
- returned by the rPDULoadBankConfigOverloadThreshold OID.
-
- -1 will be returned if the device has no banks."
-
- ::= { rPDULoadBankConfigEntry 3 }
-
-rPDULoadBankConfigOverloadThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A threshold that indicates the power consumption of
- the load has entered an overload condition. It is
- represented in amps. A warning will be issued when the
- load is greater than or equal to the threshold value.
-
- Minimum value must be greater than or equal to the value
- returned by the rPDULoadBankConfigNearOverloadThreshold OID.
-
- Maximum value must be less than or equal to the value
- returned by the rPDULoadDevMaxBankLoad OID.
-
- -1 will be returned if the device has no banks."
-
- ::= { rPDULoadBankConfigEntry 4 }
-
-
--- the rPDUOutletDevice group
-
-rPDUOutletDevCommand OBJECT-TYPE
- SYNTAX INTEGER {
- noCommandAll (1),
- immediateAllOn (2),
- immediateAllOff (3),
- immediateAllReboot (4),
- delayedAllOn (5),
- delayedAllOff (6),
- delayedAllReboot (7),
- cancelAllPendingCommands (8),
- gracefulAllOff (9),
- gracefulAllReboot (10)
- }
-
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this OID to immediateAllOn (2) will turn all outlets
- on immediately.
-
- Setting this OID to immediateAllOff (3) will turn all outlets
- off immediately.
-
- Setting this OID to immediateAllReboot (4) will reboot all outlets
- immediately.
-
- Setting this OID to delayedAllOn (5) will turn all outlets on as
- defined by each outlet's rPDUOutletConfigPowerOnTime OID value.
-
- Setting this OID to delayedAllOff (6) will turn all outlets
- off as defined by each outlet's rPDUOutletConfigPowerOffTime OID value.
-
- Setting this OID to delayedAllReboot (7) will cause a
- delayedAllOff command to be performed. Once all outlets are off,
- the Switched Rack PDU will then delay the largest
- rPDUOutletConfigRebootDuration OID time, and then perform a
- delayedAllOn command.
-
- Setting this OID to cancelAllPendingCommands (8) will cause all pending
- commands on the Switched Rack PDU to be canceled.
-
- Setting this variable to gracefulAllOff (9) will cause the
- Switched Rack PDU to shut all outlets off after it waits the
- servers graceful shutdown time and each outlet's shutdown delay.
-
- Setting this variable to gracefulAllReboot (10) will cause the
- Switched Rack PDU to shut all outlets off after it waits the
- servers graceful shutdown time and each outlet's shutdown delay.
- Once all outlet are off, it will wait until the UPS reaches the
- configured minimum return battery capacity, then each outlet's
- return delay before it turns the outlet back on.
-
- Getting this OID will return the noCommandAll (1) value."
- ::= { rPDUOutletDevice 1 }
-
-rPDUOutletDevColdstartDelay OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The amount of delay, in seconds, between when
- power is provided to the Switched Rack PDU and
- when the Switched Rack PDU provides basic master
- power to the outlets.
-
- Allowed values are:
-
- -1 - never apply power automatically.
- 0 - apply power immediately.
- 1 to 300 - delay up to 300 seconds (5 minutes)."
- ::= { rPDUOutletDevice 2 }
-
-rPDUOutletDevNumCntrlOutlets OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of controlled outlets on this Switched Rack PDU."
- ::= { rPDUOutletDevice 3 }
-
-rPDUOutletDevNumTotalOutlets OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The total number of outlets on this Rack PDU."
- ::= { rPDUOutletDevice 4 }
-
-
--- the rPDUOutletPhase group
-
-rPDUOutletPhaseTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutletPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for management of outlets on a per phase basis."
- ::= { rPDUOutletPhase 1 }
-
-rPDUOutletPhaseEntry OBJECT-TYPE
- SYNTAX OutletPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The phase to manage."
- INDEX { rPDUOutletPhaseIndex}
- ::= { rPDUOutletPhaseTable 1 }
-
-OutletPhaseEntry ::=
- SEQUENCE {
- rPDUOutletPhaseIndex INTEGER,
- rPDUOutletPhaseOverloadRestriction INTEGER
- }
-
-rPDUOutletPhaseIndex OBJECT-TYPE
- SYNTAX INTEGER {
- phase1 (1),
- phase2 (2),
- phase3 (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the Switched Rack PDU phase entry."
- ::= { rPDUOutletPhaseEntry 1 }
-
-rPDUOutletPhaseOverloadRestriction OBJECT-TYPE
- SYNTAX INTEGER {
- alwaysAllowTurnON (1),
- restrictOnNearOverload (2),
- restrictOnOverload (3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This OID controls the behavior of a Switched Rack PDU
- phase when an overload condition is possible and
- additional outlets are requested to be turned on.
-
- Setting this OID to alwaysAllowTurnON (1) will always allow
- the outlets on the corresponding phase to turn on.
-
- Setting this OID to restrictOnNearOverload (2) will not allow
- outlets on the corresponding phase to turn on if the
- rPDULoadConfigNearOverloadThreshold OID is exceeded.
-
- Setting this OID to restrictOnOverload (3) will not allow
- outlets on the corresponding phase to turn on if the
- rPDULoadConfigOverloadThreshold OID is exceeded."
- ::= { rPDUOutletPhaseEntry 2 }
-
-
--- the rPDUOutletControl group
-
-rPDUOutletControlTable OBJECT-TYPE
- SYNTAX SEQUENCE OF RPDUOutletControlEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for control of the individual outlets.
- The number of entries is contained in the
- rPDUOutletDevNumCntrlOutlets OID."
- ::= { rPDUOutletControl 1 }
-
-rPDUOutletControlEntry OBJECT-TYPE
- SYNTAX RPDUOutletControlEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlet to control."
- INDEX { rPDUOutletControlIndex}
- ::= { rPDUOutletControlTable 1 }
-
-RPDUOutletControlEntry ::=
- SEQUENCE {
- rPDUOutletControlIndex INTEGER,
- rPDUOutletControlOutletName DisplayString,
- rPDUOutletControlOutletPhase INTEGER,
- rPDUOutletControlOutletCommand INTEGER,
- rPDUOutletControlOutletBank INTEGER
- }
-
-rPDUOutletControlIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { rPDUOutletControlEntry 1 }
-
-rPDUOutletControlOutletName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. Maximum size is dependent on device.
- An error will be returned if the set request exceeds the max size.
- This OID is provided for informational purposes only."
- ::= { rPDUOutletControlEntry 2 }
-
-rPDUOutletControlOutletPhase OBJECT-TYPE
- SYNTAX INTEGER {
- phase1 (1),
- phase2 (2),
- phase3 (3),
- phase1-2 (4),
- phase2-3 (5),
- phase3-1 (6)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The phase/s associated with this outlet.
-
- For single phase devices, this object will always
- return phase1(1).
-
- For 3-phase devices, this object will return phase1 (1),
- phase2 (2), or phase3 (3) for outlets tied to a single
- phase. For outlets tied to two phases, this object will
- return phase1-2 (4) for phases 1 and 2, phase2-3 (5) for
- phases 2 and 3, and phase3-1 (6) for phases 3 and 1."
- ::= { rPDUOutletControlEntry 3 }
-
-rPDUOutletControlOutletCommand OBJECT-TYPE
- SYNTAX INTEGER {
- immediateOn (1),
- immediateOff (2),
- immediateReboot (3),
- delayedOn (4),
- delayedOff (5),
- delayedReboot (6),
- cancelPendingCommand (7),
- gracefulOff (8),
- gracefulReboot (9)
-
- }
-
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the outlet state. If
- the outlet is on, the immediateOn (1) value will be returned.
- If the outlet is off, the immediateOff (2) value will be
- returned.
-
-
- Setting this variable to immediateOn (1) will immediately turn
- the outlet on.
-
- Setting this variable to immediateOff (2) will immediately turn
- the outlet off.
-
- Setting this variable to immediateReboot (3) will immediately
- reboot the outlet.
-
- Setting this variable to delayedOn (4) will turn the outlet on
- after the rPDUOutletConfigPowerOnTime OID time has elapsed.
-
- Setting this variable to delayedOff (5) will turn the outlet off
- after the rPDUOutletConfigPowerOffTime OID time has elapsed.
-
- Setting this variable to delayedReboot (6) will cause the
- Switched Rack PDU to perform a delayedOff command, wait the
- rPDUOutletConfigRebootDuration OID time, and then perform a
- delayedOn command.
-
- Setting this variable to cancelPendingCommand (7) will cause any
- pending command to this outlet to be canceled.
-
- Setting this variable to gracefulOff (8) will cause the
- Switched Rack PDU to shut the outlet off after it waits the
- servers graceful shutdown time and the outlets shutdown delay.
-
- Setting this variable to gracefulReboot (9) will cause the
- Switched Rack PDU to shut the outlet off after it waits the
- servers graceful shutdown time and the outlets shutdown delay.
- Once the outlet is off, it will wait until the UPS reaches the
- configured minimum return battery capacity, then the outlets
- return delay before it turns the outlet back on."
-
- ::= { rPDUOutletControlEntry 4 }
-
-rPDUOutletControlOutletBank OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The bank associated with this outlet."
- ::= { rPDUOutletControlEntry 5 }
-
-
--- the rPDUOutletConfig group
-
-rPDUOutletConfigTable OBJECT-TYPE
- SYNTAX SEQUENCE OF RPDUOutletConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of individual outlets. The number of
- entries is contained in the rPDUOutletDevNumCntrlOutlets OID."
- ::= { rPDUOutletConfig 1 }
-
-rPDUOutletConfigEntry OBJECT-TYPE
- SYNTAX RPDUOutletConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlet to configure."
- INDEX { rPDUOutletConfigIndex}
- ::= { rPDUOutletConfigTable 1 }
-
-RPDUOutletConfigEntry ::=
- SEQUENCE {
- rPDUOutletConfigIndex INTEGER,
- rPDUOutletConfigOutletName DisplayString,
- rPDUOutletConfigOutletPhase INTEGER,
- rPDUOutletConfigPowerOnTime INTEGER,
- rPDUOutletConfigPowerOffTime INTEGER,
- rPDUOutletConfigRebootDuration INTEGER,
- rPDUOutletConfigOutletBank INTEGER
- }
-
-rPDUOutletConfigIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { rPDUOutletConfigEntry 1 }
-
-rPDUOutletConfigOutletName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. Maximum size is dependent on device.
- An error will be returned if the set request exceeds the max size."
- ::= { rPDUOutletConfigEntry 2 }
-
-rPDUOutletConfigOutletPhase OBJECT-TYPE
- SYNTAX INTEGER {
- phase1 (1),
- phase2 (2),
- phase3 (3),
- phase1-2 (4),
- phase2-3 (5),
- phase3-1 (6)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The phase/s associated with this outlet.
-
- For single phase devices, this object will always
- return phase1(1).
-
- For 3-phase devices, this object will return phase1 (1),
- phase2 (2), or phase3 (3) for outlets tied to a single
- phase. For outlets tied to two phases, this object will
- return phase1-2 (4) for phases 1 and 2, phase2-3 (5) for
- phases 2 and 3, and phase3-1 (6) for phases 3 and 1."
- ::= { rPDUOutletConfigEntry 3 }
-
-rPDUOutletConfigPowerOnTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The amount of time (in seconds) the outlet will delay
- powering on at coldstart or when a command that requires
- a turn-on delay is issued.
-
- Allowed values are:
-
- -1 - never power on.
- 0 - power on immediately.
- 1 to 300 - power on up to 300 seconds (5 minutes) after being
- commanded."
- ::= { rPDUOutletConfigEntry 4 }
-
-rPDUOutletConfigPowerOffTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The amount of time (in seconds) the outlet will delay
- powering off when a command that requires
- a turn-off delay is issued.
-
- Allowed values are:
-
- -1 - never power off.
- 0 - power off immediately.
- 1 to 300 - power off up to 300 seconds (5 minutes) after being
- commanded."
- ::= { rPDUOutletConfigEntry 5 }
-
-rPDUOutletConfigRebootDuration OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "During a reboot sequence, power is turned off and then
- back on. This OID defines the amount of time to wait,
- in seconds, after turning the power off, at the start
- of the sequence, before turning power back on, at the
- end of the reboot sequence.
-
- Allowed range is any value between 5 and 60 seconds (1 minute)."
- ::= { rPDUOutletConfigEntry 6 }
-
-rPDUOutletConfigOutletBank OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The bank associated with this outlet."
- ::= { rPDUOutletConfigEntry 7 }
-
-
--- the rPDUOutletStatus group
-
-rPDUOutletStatusTable OBJECT-TYPE
- SYNTAX SEQUENCE OF RPDUOutletStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting of status of individual outlets. The number of
- entries is contained in the rPDUOutletDevNumCntrlOutlets OID."
- ::= { rPDUOutletStatus 1 }
-
-rPDUOutletStatusEntry OBJECT-TYPE
- SYNTAX RPDUOutletStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlet to gather status from."
- INDEX { rPDUOutletStatusIndex}
- ::= { rPDUOutletStatusTable 1 }
-
-RPDUOutletStatusEntry ::=
- SEQUENCE {
- rPDUOutletStatusIndex INTEGER,
- rPDUOutletStatusOutletName DisplayString,
- rPDUOutletStatusOutletPhase INTEGER,
- rPDUOutletStatusOutletState INTEGER,
- rPDUOutletStatusCommandPending INTEGER,
- rPDUOutletStatusOutletBank INTEGER
- }
-
-rPDUOutletStatusIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { rPDUOutletStatusEntry 1 }
-
-rPDUOutletStatusOutletName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet. Maximum size is dependent on device.
- An error will be returned if the set request exceeds the max size.
- This OID is provided for informational purposes only."
- ::= { rPDUOutletStatusEntry 2 }
-
-rPDUOutletStatusOutletPhase OBJECT-TYPE
- SYNTAX INTEGER {
- phase1 (1),
- phase2 (2),
- phase3 (3),
- phase1-2 (4),
- phase2-3 (5),
- phase3-1 (6)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The phase/s associated with this outlet.
-
- For single phase devices, this object will always
- return phase1(1).
-
- For 3-phase devices, this object will return phase1 (1),
- phase2 (2), or phase3 (3) for outlets tied to a single
- phase. For outlets tied to two phases, this object will
- return phase1-2 (4) for phases 1 and 2, phase2-3 (5) for
- phases 2 and 3, and phase3-1 (6) for phases 3 and 1."
- ::= { rPDUOutletStatusEntry 3 }
-
-rPDUOutletStatusOutletState OBJECT-TYPE
- SYNTAX INTEGER {
- outletStatusOn (1),
- outletStatusOff (2)
- }
-
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the outlet state. If
- the outlet is on, the outletStatusOn (1) value will be returned.
- If the outlet is off, the outletStatusOff (2) value will be
- returned. "
- ::= { rPDUOutletStatusEntry 4 }
-
-rPDUOutletStatusCommandPending OBJECT-TYPE
- SYNTAX INTEGER {
- outletStatusCommandPending (1),
- outletStatusNoCommandPending (2)
- }
-
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the command pending
- state of the outlet. If a command is pending on the
- outlet, the outletStatusCommandPending (1) value
- will be returned. If there is not a command pending
- on the outlet, the outletStatusNoCommandPending (2)
- will be returned."
- ::= { rPDUOutletStatusEntry 5 }
-
-rPDUOutletStatusOutletBank OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The bank associated with this outlet."
- ::= { rPDUOutletStatusEntry 6 }
-
-
--- the rPDUOutletBank group
-
-rPDUOutletBankTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutletBankEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for management of outlets on a per bank basis."
- ::= { rPDUOutletBank 1 }
-
-rPDUOutletBankEntry OBJECT-TYPE
- SYNTAX OutletBankEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The bank to manage."
- INDEX { rPDUOutletBankIndex}
- ::= { rPDUOutletBankTable 1 }
-
-OutletBankEntry ::=
- SEQUENCE {
- rPDUOutletBankIndex INTEGER,
- rPDUOutletBankOverloadRestriction INTEGER
- }
-
-rPDUOutletBankIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the Switched Rack PDU bank entry."
- ::= { rPDUOutletBankEntry 1 }
-
-rPDUOutletBankOverloadRestriction OBJECT-TYPE
- SYNTAX INTEGER {
- alwaysAllowTurnON (1),
- restrictOnNearOverload (2),
- restrictOnOverload (3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This OID controls the behavior of a Switched Rack PDU
- bank when an overload condition is possible and
- additional outlets are requested to be turned on.
-
- Setting this OID to alwaysAllowTurnON (1) will always allow
- the outlets on the corresponding bank to turn on.
-
- Setting this OID to restrictOnNearOverload (2) will not allow
- outlets on the corresponding bank to turn on if the
- rPDULoadConfigNearOverloadThreshold OID is exceeded.
-
- Setting this OID to restrictOnOverload (3) will not allow
- outlets on the corresponding bank to turn on if the
- rPDULoadConfigOverloadThreshold OID is exceeded."
- ::= { rPDUOutletBankEntry 2 }
-
--- the rPDUPowerSupplyDevice group
-
-rPDUPowerSupply1Status OBJECT-TYPE
- SYNTAX INTEGER {
- powerSupply1Ok (1),
- powerSupply1Failed (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return powerSupply1Ok(1) if power
- supply 1 is functioning normally. If not functioning normally,
- this OID will return powerSupply1Failed(2)."
- ::= { rPDUPowerSupplyDevice 1 }
-
-rPDUPowerSupply2Status OBJECT-TYPE
- SYNTAX INTEGER {
- powerSupply2Ok (1),
- powerSupply2Failed (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return powerSupply2Ok(1) if power
- supply 2 is functioning normally. If not functioning normally,
- this OID will return powerSupply2Failed(2)."
- ::= { rPDUPowerSupplyDevice 2 }
-
-
-
--- the dm3IdentSystem group
-
-dm3IdentSysDescriptionTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC description records."
- ::= { dm3IdentSystem 1 }
-
-dm3IdentSysDescriptionTable OBJECT-TYPE
- SYNTAX SEQUENCE OF IdentSysDescriptionEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing description records of the powerplant. The number of
- entries is contained in the dm3IdentSysDescriptionTableSize OID."
- ::= { dm3IdentSystem 2 }
-
-dm3IdentSysDescriptionEntry OBJECT-TYPE
- SYNTAX IdentSysDescriptionEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The powerplant description record to reference."
- INDEX { dm3IdentSysDescriptionIndex }
- ::= { dm3IdentSysDescriptionTable 1 }
-
-IdentSysDescriptionEntry ::=
- SEQUENCE {
- dm3IdentSysDescriptionIndex INTEGER,
- dm3IdentSysDescriptionText DisplayString
- }
-
-dm3IdentSysDescriptionIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant description record."
- ::= { dm3IdentSysDescriptionEntry 1 }
-
-dm3IdentSysDescriptionText OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A 16 character text field describing the DC power plant device.
- This field can be configured from the dm3ConfigSysDescriptionText OID."
- ::= { dm3IdentSysDescriptionEntry 2 }
-
-dm3IdentSysModel OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Model type of the DC power plant."
- ::= { dm3IdentSystem 3 }
-
-dm3IdentSysCntrlRev OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Integer representation of the hardware revision of the Master Controller board."
- ::= { dm3IdentSystem 4 }
-
-dm3IdentSysFWVersion OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Integer representation of the power plant Master Controller firmware revision."
- ::= { dm3IdentSystem 5 }
-
--- the dm3ConfigSystem group
-
-dm3ConfigSysDescriptionTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC description records."
- ::= { dm3ConfigSystem 1 }
-
-dm3ConfigSysDescriptionTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ConfigSysDescriptionEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing description records of the powerplant. The number of
- entries is contained in the dm3ConfigSysDescriptionTableSize OID."
- ::= { dm3ConfigSystem 2 }
-
-dm3ConfigSysDescriptionEntry OBJECT-TYPE
- SYNTAX ConfigSysDescriptionEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The powerplant description record to reference."
- INDEX { dm3ConfigSysDescriptionIndex }
- ::= { dm3ConfigSysDescriptionTable 1 }
-
-ConfigSysDescriptionEntry ::=
- SEQUENCE {
- dm3ConfigSysDescriptionIndex INTEGER,
- dm3ConfigSysDescriptionText DisplayString
- }
-
-dm3ConfigSysDescriptionIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant description record."
-
- ::= { dm3ConfigSysDescriptionEntry 1 }
-
-dm3ConfigSysDescriptionText OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "16 character text field describing the DC power plant device."
-
- ::= { dm3ConfigSysDescriptionEntry 2 }
-
-dm3ConfigSysHighTempThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Ambient high temperature threshold. Temperature sensor located on Master
- Controller board.
-
- Values are represented in thousandths of a degree.
- Units are displayed in the scale shown in
- the 'dm3StatusSysTempUnits' OID (Celsius or Fahrenheit).
-
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigSystem 3 }
-
-dm3ConfigSysHighTempAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the System High Temperature Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
- ::= { dm3ConfigSystem 4 }
-
-dm3ConfigSysLowTempThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Ambient low temperature threshold. Temperature sensor located on Master
- Controller board.
-
- Values are represented in thousandths of a degree.
- Units are displayed in the scale shown in
- the 'dm3StatusSysTempUnits' OID (Celsius or Fahrenheit).
-
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigSystem 5 }
-
-dm3ConfigSysLowTempAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the System Low Temperature Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
- ::= { dm3ConfigSystem 6 }
-
-dm3ConfigSysHardwareTempAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the System Hardware Temperature Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
- ::= { dm3ConfigSystem 7 }
-
-dm3ConfigSysRemoteAccess OBJECT-TYPE
- SYNTAX INTEGER {
- accessEnabled (1),
- accessDisabled (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "
- This OID is used to disable remote write access to the power plant.
- Setting this OID to accessEnabled (1) will have no affect.
- Setting this OID to accessDisabled (2) will disable the ability to
- remotely configure the DC powerplant.
-
- Once remote access is disabled, it can only be restored from the front
- panel of the DC power plant."
- ::= { dm3ConfigSystem 8 }
-
-
--- the dm3ConfigLVD group
-
-dm3ConfigLVDTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant LVDs controllable
- by this IP address."
- ::= { dm3ConfigLVD 1 }
-
-dm3ConfigLVDTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ConfigLVDEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing settings of the LVDs. The number of
- entries is contained in the dm3ConfigLVDTableSize OID."
- ::= { dm3ConfigLVD 2 }
-
-dm3ConfigLVDEntry OBJECT-TYPE
- SYNTAX ConfigLVDEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The LVD to configure."
- INDEX { dm3ConfigLVDIndex }
- ::= { dm3ConfigLVDTable 1 }
-
-ConfigLVDEntry ::=
- SEQUENCE {
- dm3ConfigLVDIndex INTEGER,
- dm3ConfigLVDName DisplayString,
- dm3ConfigLVDEnable INTEGER,
- dm3ConfigLVDTripThresh INTEGER,
- dm3ConfigLVDResetThresh INTEGER,
- dm3ConfigLVDOpenAlarm INTEGER,
- dm3ConfigLVDHWAlarm INTEGER
- }
-
-dm3ConfigLVDIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant LVD."
- ::= { dm3ConfigLVDEntry 1 }
-
-dm3ConfigLVDName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the LVD. The maximum value is 16 characters."
- ::= { dm3ConfigLVDEntry 2 }
-
-dm3ConfigLVDEnable OBJECT-TYPE
- SYNTAX INTEGER {
- enabledYes (1),
- enabledNo (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This OID is used to control and indicate if the LVD is on or off.
- Setting this OID to enabledYes (1) will enable (turn on) the LVD.
- Setting this OID to enabledNo (2) will disable (turn off) the LVD."
- ::= { dm3ConfigLVDEntry 3 }
-
-dm3ConfigLVDTripThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "LVD Trip threshold. If voltage exceeds threshold, the LVD will trip.
-
- Values are represented in thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigLVDEntry 4 }
-
-dm3ConfigLVDResetThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "LVD Reset threshold. If voltage exceeds threshold, the LVD will reset.
-
- Values are represented in thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigLVDEntry 5 }
-
-dm3ConfigLVDOpenAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the LVD Open Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
- ::= { dm3ConfigLVDEntry 6 }
-
-dm3ConfigLVDHWAlarm OBJECT-TYPE
-SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the LVD Hardware Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
- ::= { dm3ConfigLVDEntry 7 }
-
-
--- the dm3ConfigBattery group
-
-dm3ConfigBattFloatVolt OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Battery Float Voltage. This setting controls the power plant voltage.
-
- Values are represented in thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigBattery 1 }
-
-dm3ConfigBattMaxRecharge OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Battery Maximum Recharge Rate. This setting controls the battery max
- recharge rate. The value is based on C/20 for 240 AHr battery string.
-
- Values are represented in thousandths of Amps (mA).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigBattery 2 }
-
-dm3ConfigBattDischargeThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Battery discharge threshold. If battery output current exceeds threshold
- a battery discharge alarm will occur.
-
- Values are represented in thousandths of Amps (mA).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigBattery 3 }
-
-dm3ConfigBattDischargeAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Battery Discharge Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigBattery 4 }
-
-dm3ConfigBattHighVoltThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Battery high voltage threshold. If system battery voltage exceeds threshold
- a battery high voltage alarm will occur.
-
- Values are represented in thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigBattery 5 }
-
-dm3ConfigBattHighVoltAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Battery High Voltage Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigBattery 6 }
-
-dm3ConfigBattLowVoltThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Battery low voltage threshold. If system battery voltage is under threshold
- a battery low voltage alarm will occur.
-
- Values are represented in thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigBattery 7 }
-
-dm3ConfigBattLowVoltAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Battery Low Voltage Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigBattery 8 }
-
-dm3ConfigBattHighTempThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Battery high temperature threshold. If system battery temperature exceeds threshold
- a battery high temperature alarm will occur.
-
- Values are represented in thousandths of a degree.
- Units are displayed in the scale shown in
- the 'dm3StatusSysTempUnits' OID (Celsius or Fahrenheit).
-
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
-
- ::= { dm3ConfigBattery 9 }
-
-dm3ConfigBattHighTempAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Battery High Temperature Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigBattery 10 }
-
-dm3ConfigBattLowTempThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Battery low temperature threshold. If system battery temperature is under threshold
- a battery low temperature alarm will occur.
-
- Values are represented in thousandths of a degree.
- Units are displayed in the scale shown in
- the 'dm3StatusSysTempUnits' OID (Celsius or Fahrenheit).
-
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
-
- ::= { dm3ConfigBattery 11 }
-
-dm3ConfigBattLowTempAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Battery Low Temperature Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigBattery 12 }
-
-dm3ConfigBattAmpHour OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Battery Amp-Hour Size. Units are thousandths of Amp hours (mAHr).
-
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigBattery 13 }
-
-dm3ConfigCompMethod OBJECT-TYPE
- SYNTAX INTEGER {
- tempcompOn (1),
- tempcompOff (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This OID is used to configure and get the state of the battery
- temperature compensation.
-
- Setting this OID to tempcompOn (1) will enable/turn on the battery temperature compensation.
- Setting this OID to tempcompOff (2) will disable/turn off the battery temperature compensation."
- ::= { dm3ConfigBattery 14 }
-
-dm3ConfigCompTempCoeff OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Compensation Temperature Coefficient. (uV/degC/cell).
-
- Units are presented in microvolts.
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigBattery 15 }
-
-dm3ConfigHighKneeTemp OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "High Knee for temperature compensation: Compensation temperature coefficient
- becomes 0mV/degC/cell.
-
- Values are represented in thousandths of degrees Celcius.
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigBattery 16 }
-
-dm3ConfigLowKneeTemp OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Low Knee for temperature compensation: Compensation temperature coefficient
- becomes 0mV/degC/cell.
-
- Values are represented in thousandths of degrees Celcius.
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigBattery 17 }
-
-dm3ConfigBattHwCurrentAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Battery Current Hardware Alarm (indicating current is outside realistic
- limits, or a possible measurement fault;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigBattery 18 }
-
-dm3ConfigBattHwTempAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Battery Temperature Hardware Alarm (indicating temperature is outside realistic
- limits, or a possible measurement fault;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigBattery 19 }
-
-
--- the dm3ConfigRectThresh group
-dm3ConfigRectHighVoltThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Rectifier high voltage threshold. If rectifier voltage exceeds threshold
- a rectifier high voltage alarm will occur.
-
- Values are represented in thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigRectThresh 1 }
-
-
-dm3ConfigRectLowVoltThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Rectifier low voltage threshold. If rectifier voltage is under threshold
- a rectifier low voltage alarm will occur.
-
- Values are represented in thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigRectThresh 2 }
-
-dm3ConfigRectFailSafe OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Rectifier Fail Safe point. This OID represents the value sent to rectifier controllers
- to use in the event of communications loss with the Master Controller or Master Controller
- board failure.
-
- Values are represented in thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigRectThresh 3 }
-
-dm3ConfigRectFailComm OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Rectifier Communication Fail timeout. This OID represents the time interval in which there is no
- communication between the rectifier and the master controller at which the rectifier will reset
- all its values to default.
-
- Values are represented in hundredths of Seconds.
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigRectThresh 4 }
-
--- the dm3ConfigRectAlarms group
-
-dm3ConfigRectHighVoltAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Rectifier High Voltage Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigRectAlarms 1 }
-
-dm3ConfigRectLowVoltAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Rectifier Low Voltage Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigRectAlarms 2 }
-
-dm3ConfigRectConfigAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This alarm is activated when a new rectifier is detected;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigRectAlarms 3 }
-
-dm3ConfigRect1ofNAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This setting indicates the action if ONE rectifier of a N+1 system has failed;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigRectAlarms 4 }
-
-dm3ConfigRect2ofNAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This setting indicates the action if TWO OR MORE rectifiers of a N+1 system have failed;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigRectAlarms 5 }
-
-dm3ConfigRectDiagAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9),
- alarmNofN (10)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Rectifier Controller Diagnostics Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition.
- Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID
- to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the
- dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system."
-
- ::= { dm3ConfigRectAlarms 6 }
-
-dm3ConfigRectImbalanceAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Rectifier Imbalance Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigRectAlarms 7 }
-
-dm3ConfigRectCurrLimitAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9),
- alarmNofN (10)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Rectifier Current Limit Alarm (indicating rectifier in the Current Limit state);
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition.
- Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID
- to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the
- dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system."
-
- ::= { dm3ConfigRectAlarms 8 }
-
-dm3ConfigRectStandbyAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9),
- alarmNofN (10)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Rectifier Standby Alarm (indicating output DC has been turned off);
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition.
- Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID
- to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the
- dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system."
-
- ::= { dm3ConfigRectAlarms 9 }
-
-dm3ConfigRectFanFailAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9),
- alarmNofN (10)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Rectifier Fan Fail Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition.
- Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID
- to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the
- dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system."
-
- ::= { dm3ConfigRectAlarms 10 }
-
-dm3ConfigRectFailAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9),
- alarmNofN (10)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Rectifier Fail Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition.
- Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigRect1ofNAlarm OID
- to be activated if ONE rectifier fails in an N+1 system. It causes the alarm specified in the
- dm3ConfigRect2ofNAlarm OID to be activated if TWO OR MORE rectifiers fail in an N+1 system."
-
- ::= { dm3ConfigRectAlarms 11 }
-
-dm3ConfigRectHwVoltAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Rectifier Hardware Voltage Alarm (indicating voltage outside realistic limits,
- or a possible measurement fault);
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigRectAlarms 12 }
-
-
--- the dm3ConfigConvThresh group
-
-dm3ConfigConvHighVoltThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Converter high voltage threshold. If converter voltage exceeds threshold
- a converter high voltage alarm will occur.
-
- Values are represented in thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
-
- ::= { dm3ConfigConvThresh 1 }
-
-dm3ConfigConvLowVoltThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Converter low voltage threshold. If converter voltage exceeds threshold
- a converter low voltage alarm will occur.
-
- Values are represented in thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigConvThresh 2 }
-
-dm3ConfigConvFailSafe OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Converter Fail Safe point. This OID represents the value sent to converter controllers
- to use in the event of communications loss with the Master Controller or Master Controller
- board failure.
-
- Values are represented in thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigConvThresh 3 }
-
-dm3ConfigConvSetPoint OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Converter Set point. This OID represents the initial set point used in the
- voltage control loop.
-
- Units are thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigConvThresh 4 }
-
-dm3ConfigConvFailMax OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Converter Fail Maximum limit. This OID represents the value sent to the converter
- controllers to define the maximum set point allowed.
-
- Units are thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigConvThresh 5 }
-
-dm3ConfigConvFailMin OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Converter Fail Minimum limit. This OID represents the value sent to the converter
- controllers to define the minimum set point allowed.
-
- Units are thousandths of Volts (mV).
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigConvThresh 6 }
-
-dm3ConfigConvFailComm OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Converter Communication Fail timeout. This OID represents the time interval in which there is no
- communication between the converter and the master controller at which the converter will reset
- all its values to default.
-
- Values are represented in hundredths of Seconds.
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigConvThresh 7 }
-
--- the dm3ConfigConvAlarms group
-dm3ConfigConvHighVoltAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Converter High Voltage Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigConvAlarms 1 }
-
-dm3ConfigConvLowVoltAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Converter Low Voltage Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigConvAlarms 2 }
-
-dm3ConfigConvConfigAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Converter Configuration Alarm (indicating a new converter has been detected);
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigConvAlarms 3 }
-
-dm3ConfigConv1ofNAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Converter 1ofN Alarm (indicating action if ONE converter of a N+1 system has failed);
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigConvAlarms 4 }
-
-dm3ConfigConv2ofNAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Converter 2ofN Alarm (indicating action if TWO OR MORE converters of a N+1 system has failed);
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigConvAlarms 5 }
-
-dm3ConfigConvDiagAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9),
- alarmNofN (10)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Converter Diagnostics Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition.
- Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
- to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
- dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
-
- ::= { dm3ConfigConvAlarms 6 }
-
-dm3ConfigConvImbalanceAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9),
- alarmNofN (10)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Converter Imbalance Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition.
- Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
- to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
- dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
-
- ::= { dm3ConfigConvAlarms 7 }
-
-dm3ConfigConvCurrLimitAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9),
- alarmNofN (10)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Converter Current Limit Alarm (indicating the converter is in the Current Limit state);
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition.
- Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
- to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
- dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
-
- ::= { dm3ConfigConvAlarms 8 }
-
-dm3ConfigConvStandbyAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9),
- alarmNofN (10)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Converter Standby Alarm (indicating the converter is in the Standby state);
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition.
- Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
- to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
- dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
-
- ::= { dm3ConfigConvAlarms 9 }
-
-dm3ConfigConvFanFailAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9),
- alarmNofN (10)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Converter Fan Fail Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition.
- Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
- to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
- dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
-
- ::= { dm3ConfigConvAlarms 10 }
-
-dm3ConfigConvFailAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9),
- alarmNofN (10)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Converter Fail Alarm;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition.
- Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
- to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
- dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
-
- ::= { dm3ConfigConvAlarms 11 }
-
-dm3ConfigConvHwVoltAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9),
- alarmNofN (10)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "For the Converter Voltage Alarm (indicating voltage outside realistic limits, or a
- possible measurement fault);
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition.
- Setting this OID to alarmNofN (10) causes the alarm specified in the dm3ConfigConv1ofNAlarm OID
- to be activated if ONE converter fails in an N+1 system. It causes the alarm specified in the
- dm3ConfigConv2ofNAlarm OID to be activated if TWO OR MORE converters fail in an N+1 system."
-
- ::= { dm3ConfigConvAlarms 12 }
-
-
--- the dm3ConfigOutputRelays group
-
-dm3ConfigOutRlyTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant Output Relays controllable
- by this IP address."
- ::= { dm3ConfigOutputRelays 1 }
-
-dm3ConfigOutRlyTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ConfigOutRlyEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing settings of the Output Relays. The number of
- entries is contained in the dm3ConfigOutRlyTableSize OID."
- ::= { dm3ConfigOutputRelays 2 }
-
-dm3ConfigOutRlyEntry OBJECT-TYPE
- SYNTAX ConfigOutRlyEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The output relay to configure."
- INDEX { dm3ConfigOutRlyIndex }
- ::= { dm3ConfigOutRlyTable 1 }
-
-ConfigOutRlyEntry ::=
- SEQUENCE {
- dm3ConfigOutRlyIndex INTEGER,
- dm3ConfigOutRlyName DisplayString,
- dm3ConfigOutRlyDelay INTEGER,
- dm3ConfigOutRlyAlarm INTEGER
- }
-
-dm3ConfigOutRlyIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant output relay."
- ::= { dm3ConfigOutRlyEntry 1 }
-
-dm3ConfigOutRlyName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the output relay. The maximum value is 16 characters."
- ::= { dm3ConfigOutRlyEntry 2 }
-
-dm3ConfigOutRlyDelay OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Output Relay Delay. This OID represents the time delay from the initiation of an
- output relay action to when the output relay action does occur. If the alarm condition
- disappears before the end of the delay, no action will occur. Delay for Major
- and Minor alarms is not configurable and is always set to 0.
-
- Values are represented in hundredths of seconds.
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigOutRlyEntry 3 }
-
-dm3ConfigOutRlyAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Output Relay Alarm. This setting indicates what action to perform in the event of
- an output relay alarm condition;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition.
-
- Relay Alarm for Major and Minor alarms is not configurable and is always set to
- alarmMajor and alarmMinor respectively."
-
- ::= { dm3ConfigOutRlyEntry 4 }
-
-
--- the dm3ConfigInputRelays group
-
-dm3ConfigInRlyTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant Input Relays controllable
- by this IP address."
- ::= { dm3ConfigInputRelays 1 }
-
-dm3ConfigInRlyTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ConfigInRlyEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing settings of the Input Relays. The number of
- entries is contained in the dm3ConfigInRlyTableSize OID."
- ::= { dm3ConfigInputRelays 2 }
-
-dm3ConfigInRlyEntry OBJECT-TYPE
- SYNTAX ConfigInRlyEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The input relay to configure."
- INDEX { dm3ConfigInRlyIndex }
- ::= { dm3ConfigInRlyTable 1 }
-
-ConfigInRlyEntry ::=
- SEQUENCE {
- dm3ConfigInRlyIndex INTEGER,
- dm3ConfigInRlyName DisplayString,
- dm3ConfigInRlyDelay INTEGER,
- dm3ConfigInRlyAlarm INTEGER
- }
-
-dm3ConfigInRlyIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant input relay."
- ::= { dm3ConfigInRlyEntry 1 }
-
-dm3ConfigInRlyName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the input relay. The maximum value is 16 characters."
-
- ::= { dm3ConfigInRlyEntry 2 }
-
-dm3ConfigInRlyDelay OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Input Relay Delay. This OID represents the time delay from the initiation of an
- input relay action to when the input relay action does occur. If the alarm condition
- disappears before the end of the delay, no action will occur.
-
- Values are represented in hundredths of seconds.
-
- Attempts to set the value above or below the acceptable range of the powerplant
- will cause the value to be set at the high or low point of the range respectively."
- ::= { dm3ConfigInRlyEntry 3 }
-
-dm3ConfigInRlyAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Input Relay Alarm. This setting indicates what action to perform in the event of
- an input relay alarm condition;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigInRlyEntry 4 }
-
--- the dm3ConfigBreakers group
-
-dm3ConfigBreakersTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant circuit breakers controllable
- by this IP address."
- ::= { dm3ConfigBreakers 1 }
-
-dm3ConfigBreakersTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ConfigBreakersEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing settings of the circuit breakers. The number of
- entries is contained in the dm3ConfigBreakersTableSize OID."
- ::= { dm3ConfigBreakers 2 }
-
-dm3ConfigBreakersEntry OBJECT-TYPE
- SYNTAX ConfigBreakersEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The circuit breaker to configure."
- INDEX { dm3ConfigBreakersIndex }
- ::= { dm3ConfigBreakersTable 1 }
-
-ConfigBreakersEntry ::=
- SEQUENCE {
- dm3ConfigBreakersIndex INTEGER,
- dm3ConfigBreakersName DisplayString,
- dm3ConfigBreakersAlarm INTEGER
- }
-
-dm3ConfigBreakersIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant circuit breaker."
- ::= { dm3ConfigBreakersEntry 1 }
-
-dm3ConfigBreakersName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the circuit breaker. The maximum value is 16 characters."
- ::= { dm3ConfigBreakersEntry 2 }
-
-dm3ConfigBreakersAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Circuit Breaker Alarm. This setting indicates what action to perform in the event of
- a circuit breaker alarm condition;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigBreakersEntry 3 }
-
--- the dm3ConfigFuses group
-
-dm3ConfigFusesTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant Fuses controllable
- by this IP address."
- ::= { dm3ConfigFuses 1 }
-
-dm3ConfigFusesTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ConfigFusesEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing settings of the Fuses. The number of
- entries is contained in the dm3ConfigFusesTableSize OID."
- ::= { dm3ConfigFuses 2 }
-
-dm3ConfigFusesEntry OBJECT-TYPE
- SYNTAX ConfigFusesEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The fuse to configure."
- INDEX { dm3ConfigFusesIndex }
- ::= { dm3ConfigFusesTable 1 }
-
-ConfigFusesEntry ::=
- SEQUENCE {
- dm3ConfigFusesIndex INTEGER,
- dm3ConfigFusesName DisplayString,
- dm3ConfigFusesAlarm INTEGER
- }
-
-dm3ConfigFusesIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant fuse."
- ::= { dm3ConfigFusesEntry 1 }
-
-dm3ConfigFusesName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the fuse. The maximum value is 16 characters."
- ::= { dm3ConfigFusesEntry 2 }
-
-dm3ConfigFusesAlarm OBJECT-TYPE
- SYNTAX INTEGER {
- alarmIgnore (1),
- alarmRelay1 (2),
- alarmRelay2 (3),
- alarmRelay3 (4),
- alarmRelay4 (5),
- alarmRelay5 (6),
- alarmRelay6 (7),
- alarmMinor (8),
- alarmMajor (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Fuses Alarm. This setting indicates what action to perform in the event of
- a Fuse alarm condition;
- Setting this OID to alarmIgnore (1) results in the alarm condition being ignored.
- Setting this OID to alarmRelay1 (2) causes relay 1 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay2 (3) causes relay 2 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay3 (4) causes relay 3 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay4 (5) causes relay 4 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay5 (6) causes relay 5 to be activated for an
- alarm condition.
- Setting this OID to alarmRelay6 (7) causes relay 6 to be activated for an
- alarm condition.
- Setting this OID to alarmMinor (8) causes the Minor relay to be activated for an
- alarm condition.
- Setting this OID to alarmMajor (9) causes the Major relay to be activated for an
- alarm condition."
-
- ::= { dm3ConfigFusesEntry 3 }
-
--- the dm3StatusSystem group
-
-dm3StatusSystemTemp OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "System temperature based on sensor on Master Controller PCB.
-
- Values are represented in thousandths of a degree.
- Units are displayed in the scale shown in
- the 'dm3StatusSysTempUnits' OID (Celsius or Fahrenheit)."
-
- ::= { dm3StatusSystem 1 }
-
-dm3StatusSystemStart OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Time stamp at DC powerplant initialization.
- The time is represented as MMM,DD,YYYY,HH:MM:SS."
- ::= { dm3StatusSystem 2 }
-
-dm3StatusSysRemoteAccess OBJECT-TYPE
- SYNTAX INTEGER {
- accessEnabled (1),
- accessDisabled (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Remote Access indicator
- This setting indicates if configuration (write) access to the powerplant is enabled or
- disabled at the powerplant level.
- This value will be accessEnabled (1) if remote configuration is enabled, and
- accessDisabled (2) if remote configuration is disabled."
- ::= { dm3StatusSystem 3 }
-
-dm3StatusSysSecurityLevel OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This variable shows the current active security access level of controller. This
- can only be changed directly from the front panel."
- ::= { dm3StatusSystem 4 }
-
-dm3StatusSysTempSanity OBJECT-TYPE
- SYNTAX INTEGER{
- saneYES (1),
- saneNO (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "System temperature sanity indicator. Indicates if the system temperature is
- reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1)
- indicates temperature is reasonable, a value of saneNo (2) indicates it is not."
- ::= { dm3StatusSystem 5 }
-
-dm3StatusSysAlarmState OBJECT-TYPE
- SYNTAX INTEGER{
- alarmMinor (1),
- alarmMajor (2),
- alarmBoth (3),
- alarmNone (4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "System Alarm State. Reflects the alarm status of the overall DC system.
- If a minor alarm is present, the value will be alarmMinor(1).
- If a major alarm is present, the value will be alarmMajor(2).
- If both minor and a major alarm is present, the value will be alarmBoth(3).
- If no alarm is present, the value will be alarmNone(4)."
- ::= { dm3StatusSystem 6 }
-
-dm3StatusSysTempUnits OBJECT-TYPE
- SYNTAX INTEGER {
- celsius(1),
- fahrenheit(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The temperature scale used to display the temperature
- in the DC system, Celsius(1) or Fahrenheit(2).
- This setting is based on the system preferences
- configuration in the agent."
- ::= { dm3StatusSystem 7 }
-
-
--- the dm3StatusAlarms group
-
-dm3StatusAlarmsTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant alarms viewable
- by this IP address."
- ::= { dm3StatusAlarms 1 }
-
-dm3StatusAlarmsTable OBJECT-TYPE
- SYNTAX SEQUENCE OF StatusAlarmsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing system alarms. The number of
- entries is contained in the dm3StatusAlarmsTableSize OID."
- ::= { dm3StatusAlarms 2 }
-
-dm3StatusAlarmsEntry OBJECT-TYPE
- SYNTAX StatusAlarmsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The alarm to display."
- INDEX { dm3StatusAlarmsIndex }
- ::= { dm3StatusAlarmsTable 1 }
-
-StatusAlarmsEntry ::=
- SEQUENCE {
- dm3StatusAlarmsIndex INTEGER,
- dm3StatusAlarmsText DisplayString
- }
-
-dm3StatusAlarmsIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the system alarm."
- ::= { dm3StatusAlarmsEntry 1 }
-
-dm3StatusAlarmsText OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The 16 character text describing the active alarm condition."
- ::= { dm3StatusAlarmsEntry 2 }
-
--- the dm3StatusBattery group
-
-dm3StatusBattCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Battery Current: This OID shows the battery current in thousandths of Amps (mA)."
- ::= { dm3StatusBattery 1 }
-
-dm3StatusBattTemp OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Battery Temperature:
-
- Values are represented in thousandths of a degree.
- Units are displayed in the scale shown in
- the 'dm3StatusSysTempUnits' OID (Celsius or Fahrenheit)."
-
- ::= { dm3StatusBattery 2 }
-
-dm3StatusBattCurrentSanity OBJECT-TYPE
- SYNTAX INTEGER{
- saneYES (1),
- saneNO (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Battery current sanity indicator. Indicates if the battery current is
- reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1)
- indicates current is reasonable, a value of saneNo (2) indicates it is not."
- ::= { dm3StatusBattery 3 }
-
-dm3StatusBattTempSanity OBJECT-TYPE
- SYNTAX INTEGER{
- saneYES (1),
- saneNO (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Battery temperature sanity indicator. Indicates if the battery temperature is
- reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1)
- indicates temperature is reasonable, a value of saneNo (2) indicates it is not."
- ::= { dm3StatusBattery 4 }
-
--- the dm3StatusOEM group
-
-dm3StatusOEMrectOffset OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the rectifier offset value in thousandths of Volts (mV)."
- ::= { dm3StatusOEM 1 }
-
-dm3StatusOEMrectGain OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the rectifier gain value in thousandths of Volts (mV/V)."
- ::= { dm3StatusOEM 2 }
-
-dm3StatusOEMconvOffset OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the converter offset value in thousandths of Volts (mV)."
- ::= { dm3StatusOEM 3 }
-
-dm3StatusOEMconvGain OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the converter gain value in thousandths of Volts (mV/V)."
- ::= { dm3StatusOEM 4 }
-
-dm3StatusOEMshuntOffset OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the shunt offset value in thousandths of Amps (mA)."
- ::= { dm3StatusOEM 5 }
-
-dm3StatusOEMshuntGain OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the shunt gain value in thousandths of Amps (mA/A)."
- ::= { dm3StatusOEM 6 }
-
--- the dm3StatusLVD group
-
-dm3StatusLVDTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant LVDs viewable
- by this IP address."
- ::= { dm3StatusLVD 1 }
-
-dm3StatusLVDTable OBJECT-TYPE
- SYNTAX SEQUENCE OF StatusLVDEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing settings of the LVDs. The number of
- entries is contained in the dm3StatusLVDTableSize OID."
- ::= { dm3StatusLVD 2 }
-
-dm3StatusLVDEntry OBJECT-TYPE
- SYNTAX StatusLVDEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The LVD to gather status from."
- INDEX { dm3StatusLVDIndex }
- ::= { dm3StatusLVDTable 1 }
-
-StatusLVDEntry ::=
- SEQUENCE {
- dm3StatusLVDIndex INTEGER,
- dm3StatusLVDName DisplayString,
- dm3StatusLVDState INTEGER,
- dm3StatusLVDHwFault INTEGER
- }
-
-dm3StatusLVDIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant LVD."
- ::= { dm3StatusLVDEntry 1 }
-
-dm3StatusLVDName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the LVD. The maximum size is
- 16 characters. The name is set by using the
- dm3ConfigLVDName OID.
- This OID is provided for informational purposes only."
- ::= { dm3StatusLVDEntry 2 }
-
-dm3StatusLVDState OBJECT-TYPE
- SYNTAX INTEGER {
- statusClosed (1),
- statusOpened (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusClosed (1) if the LVD is closed.
- statusOpened (2) will be returned if the LVD is opened."
- ::= { dm3StatusLVDEntry 3 }
-
-dm3StatusLVDHwFault OBJECT-TYPE
- SYNTAX INTEGER {
- statusFault (1),
- statusNofault (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusFault (1) if the LVD is faulted.
- statusNofault (2) will be returned if the LVD is not faulted."
- ::= { dm3StatusLVDEntry 4 }
-
--- the dm3StatusRectifier group
-
-dm3StatusRectTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant rectifiers viewable
- by this IP address."
- ::= { dm3StatusRectifier 1 }
-
-dm3StatusRectTable OBJECT-TYPE
- SYNTAX SEQUENCE OF StatusRectEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing settings of the rectifiers. The number of
- entries is contained in the dm3StatusRectTableSize OID."
- ::= { dm3StatusRectifier 2 }
-
-dm3StatusRectEntry OBJECT-TYPE
- SYNTAX StatusRectEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The rectifier to gather status from."
- INDEX { dm3StatusRectIndex }
- ::= { dm3StatusRectTable 1 }
-
-StatusRectEntry ::=
- SEQUENCE {
- dm3StatusRectIndex INTEGER,
- dm3StatusRectID INTEGER,
- dm3StatusRectDesc DisplayString,
- dm3StatusRectCurrent INTEGER,
- dm3StatusRectCurrentLimit INTEGER,
- dm3StatusRectStandby INTEGER,
- dm3StatusRectFanFail INTEGER,
- dm3StatusRectFail INTEGER,
- dm3StatusRectDevType INTEGER,
- dm3StatusRectPhyAddr INTEGER,
- dm3StatusRectCfg INTEGER,
- dm3StatusRectPcbRev INTEGER,
- dm3StatusRectFwVer INTEGER,
- dm3StatusRectPresent INTEGER,
- dm3StatusRectDiagPass INTEGER,
- dm3StatusRectState INTEGER
- }
-
-dm3StatusRectIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant rectifier."
- ::= { dm3StatusRectEntry 1 }
-
-dm3StatusRectID OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the rectifier ID. This enumerates the number of the rectifier within
- a group of rectifiers."
- ::= { dm3StatusRectEntry 2 }
-
-dm3StatusRectDesc OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the 16-character rectifier description."
- ::= { dm3StatusRectEntry 3 }
-
-dm3StatusRectCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the rectifier current in thousandths of Amps (mA)."
- ::= { dm3StatusRectEntry 4 }
-
-dm3StatusRectCurrentLimit OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the rectifier is in the Current Limit state.
- statusFalse (2) will be returned if the rectifier is not in the Current Limit state."
- ::= { dm3StatusRectEntry 5 }
-
-dm3StatusRectStandby OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the rectifier is in the Standby state.
- statusFalse (2) will be returned if the rectifier is not in the Standby state."
- ::= { dm3StatusRectEntry 6 }
-
-dm3StatusRectFanFail OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the rectifier Fan has failed.
- statusFalse (2) will be returned if the rectifier Fan has not failed."
- ::= { dm3StatusRectEntry 7 }
-
-dm3StatusRectFail OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the rectifier has failed.
- statusFalse (2) will be returned if the rectifier has not failed."
- ::= { dm3StatusRectEntry 8 }
-
-dm3StatusRectDevType OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the rectifier device type."
- ::= { dm3StatusRectEntry 9 }
-
-dm3StatusRectPhyAddr OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the rectifier physical address (the address on the bus)."
- ::= { dm3StatusRectEntry 10 }
-
-dm3StatusRectCfg OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the rectifier is present after
- power-up or set-configuration.
- statusFalse (2) will be returned if the rectifier is not configured."
- ::= { dm3StatusRectEntry 11 }
-
-dm3StatusRectPcbRev OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the rectifier device PCB serial number."
- ::= { dm3StatusRectEntry 12 }
-
-dm3StatusRectFwVer OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the rectifier device firmware revision."
- ::= { dm3StatusRectEntry 13 }
-
-dm3StatusRectPresent OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the rectifier is present.
- statusFalse (2) will be returned if the rectifier is not present."
- ::= { dm3StatusRectEntry 14 }
-
-dm3StatusRectDiagPass OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the rectifier diagnostics have passed.
- statusFalse (2) will be returned if the rectifier diagnostics have not passed."
- ::= { dm3StatusRectEntry 15 }
-
-dm3StatusRectState OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the rectifier device state as defined by the device status register."
- ::= { dm3StatusRectEntry 16 }
-
-dm3StatusSysRectVoltSanity OBJECT-TYPE
- SYNTAX INTEGER {
- saneYES (1),
- saneNO (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Rectifier voltage sanity indicator. Indicates if the rectifier voltage is
- reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1)
- indicates voltage is reasonable, a value of saneNo (2) indicates it is not."
- ::= { dm3StatusRectifier 3 }
-
-dm3StatusSysRectAvailable OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the rectifier is available.
- statusFalse (2) will be returned if the rectifier is not available."
- ::= { dm3StatusRectifier 4 }
-
-dm3StatusSysRectType OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the type of rectifier the system has. There can only be a single type of
- rectifier in the power plant"
- ::= { dm3StatusRectifier 5 }
-
-dm3StatusSysRectVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the system level rectifier voltage in thousandths of Volts (mV)."
- ::= { dm3StatusRectifier 6 }
-
-dm3StatusSysRectCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the system level rectifier current in thousandths of Amps (mA)."
- ::= { dm3StatusRectifier 7 }
-
-
--- the dm3StatusConverter group
-
-dm3StatusConvTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant converters viewable
- by this IP address."
- ::= { dm3StatusConverter 1 }
-
-dm3StatusConvTable OBJECT-TYPE
- SYNTAX SEQUENCE OF StatusConvEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for viewing status of the converters. The number of
- entries is contained in the dm3StatusConvTableSize OID."
- ::= { dm3StatusConverter 2 }
-
-dm3StatusConvEntry OBJECT-TYPE
- SYNTAX StatusConvEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The converter to gather status from."
- INDEX { dm3StatusConvIndex }
- ::= { dm3StatusConvTable 1 }
-
-StatusConvEntry ::=
- SEQUENCE {
- dm3StatusConvIndex INTEGER,
- dm3StatusConvID INTEGER,
- dm3StatusConvDesc DisplayString,
- dm3StatusConvCurrent INTEGER,
- dm3StatusConvCurrentLimit INTEGER,
- dm3StatusConvStandby INTEGER,
- dm3StatusConvFanFail INTEGER,
- dm3StatusConvFail INTEGER,
- dm3StatusConvDevType INTEGER,
- dm3StatusConvPhyAddr INTEGER,
- dm3StatusConvCfg INTEGER,
- dm3StatusConvPcbRev INTEGER,
- dm3StatusConvFwVer INTEGER,
- dm3StatusConvPresent INTEGER,
- dm3StatusConvDiagPass INTEGER,
- dm3StatusConvState INTEGER
- }
-
-dm3StatusConvIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant converter."
- ::= { dm3StatusConvEntry 1 }
-
-dm3StatusConvID OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the converter ID. This enumerates the number of the converter within
- a group of converters."
- ::= { dm3StatusConvEntry 2 }
-
-dm3StatusConvDesc OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the 16 character converter description."
- ::= { dm3StatusConvEntry 3 }
-
-dm3StatusConvCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the converter current in thousandths of Amps (mA)."
- ::= { dm3StatusConvEntry 4 }
-
-dm3StatusConvCurrentLimit OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the converter is in the Current Limit state.
- statusFalse (2) will be returned if the converter is not in the Current Limit state."
- ::= { dm3StatusConvEntry 5 }
-
-dm3StatusConvStandby OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the converter is in the Standby state.
- statusFalse (2) will be returned if the converter is not in the Standby state."
- ::= { dm3StatusConvEntry 6 }
-
-dm3StatusConvFanFail OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the converter Fan has failed.
- statusFalse (2) will be returned if the converter Fan has not failed."
- ::= { dm3StatusConvEntry 7 }
-
-dm3StatusConvFail OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the converter has failed.
- statusFalse (2) will be returned if the converter has not failed."
- ::= { dm3StatusConvEntry 8 }
-
-dm3StatusConvDevType OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the converter device type."
- ::= { dm3StatusConvEntry 9 }
-
-dm3StatusConvPhyAddr OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the converter physical address (the address on the bus)."
- ::= { dm3StatusConvEntry 10 }
-
-dm3StatusConvCfg OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the converter is present after
- power-up or set-configuration.
- statusFalse (2) will be returned if the converter is not configured."
- ::= { dm3StatusConvEntry 11 }
-
-dm3StatusConvPcbRev OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the converter device PCB serial number."
- ::= { dm3StatusConvEntry 12 }
-
-dm3StatusConvFwVer OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the converter device firmware version."
- ::= { dm3StatusConvEntry 13 }
-
-dm3StatusConvPresent OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the converter is present.
- statusFalse (2) will be returned if the converter is not present."
- ::= { dm3StatusConvEntry 14 }
-
-dm3StatusConvDiagPass OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the converter diagnostics have passed.
- statusFalse (2) will be returned if the converter diagnostics have not passed."
- ::= { dm3StatusConvEntry 15 }
-
-dm3StatusConvState OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the converter state as defined by the device status register."
- ::= { dm3StatusConvEntry 16 }
-
-dm3StatusSysConvVoltSanity OBJECT-TYPE
- SYNTAX INTEGER{
- saneYES (1),
- saneNO (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Converter voltage sanity indicator. Indicates if the converter voltage is
- reasonable. Reasonable is defined based on powerplant type. A value of saneYes (1)
- indicates voltage is reasonable, a value of saneNo (2) indicates it is not."
- ::= { dm3StatusConverter 3 }
-
-dm3StatusSysConvAvailable OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the converter is available.
- statusFalse (2) will be returned if the converter is not available."
- ::= { dm3StatusConverter 4 }
-
-dm3StatusSysConvType OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the converter type."
- ::= { dm3StatusConverter 5 }
-
-dm3StatusSysConvVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the system level converter voltage in thousandths of volts (mV)."
- ::= { dm3StatusConverter 6 }
-
-dm3StatusSysConvCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the system level converter current in thousandths of Amps (mA)."
- ::= { dm3StatusConverter 7 }
-
--- the dm3StatusOutputRelays group
-
-dm3StatusOutRlyTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant output relays viewable
- by this IP address."
- ::= { dm3StatusOutputRelays 1 }
-
-dm3StatusOutRlyTable OBJECT-TYPE
- SYNTAX SEQUENCE OF StatusOutRlyEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for viewing status of the output relays. The number of
- entries is contained in the dm3StatusOutRlyTableSize OID."
- ::= { dm3StatusOutputRelays 2 }
-
-dm3StatusOutRlyEntry OBJECT-TYPE
- SYNTAX StatusOutRlyEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The output relay to gather status from."
- INDEX { dm3StatusOutRlyIndex }
- ::= { dm3StatusOutRlyTable 1 }
-
-StatusOutRlyEntry ::=
- SEQUENCE {
- dm3StatusOutRlyIndex INTEGER,
- dm3StatusOutRlyName DisplayString,
- dm3StatusOutRlyStatus INTEGER
- }
-
-dm3StatusOutRlyIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant output relay."
- ::= { dm3StatusOutRlyEntry 1 }
-
-dm3StatusOutRlyName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the output relay. The maximum size is
- 16 characters. The name is set by using the
- dm3ConfigOutRlyName OID.
- This OID is provided for informational purposes only."
- ::= { dm3StatusOutRlyEntry 2 }
-
-dm3StatusOutRlyStatus OBJECT-TYPE
- SYNTAX INTEGER {
- statusOn (1),
- statusOff (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusOn (1) if the output relay is enabled/on.
- statusOff (2) will be returned if the output relay is disabled/off."
- ::= { dm3StatusOutRlyEntry 3 }
-
-
--- the dm3StatusInputRelays group
-
-dm3StatusInRlyTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant input relays viewable
- by this IP address."
- ::= { dm3StatusInputRelays 1 }
-
-dm3StatusInRlyTable OBJECT-TYPE
- SYNTAX SEQUENCE OF StatusInRlyEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for viewing status of the input relays. The number of
- entries is contained in the dm3StatusInRlyTableSize OID."
- ::= { dm3StatusInputRelays 2 }
-
-
-dm3StatusInRlyEntry OBJECT-TYPE
- SYNTAX StatusInRlyEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The input relays to gather status from."
- INDEX { dm3StatusInRlyIndex }
- ::= { dm3StatusInRlyTable 1 }
-
-StatusInRlyEntry ::=
- SEQUENCE {
- dm3StatusInRlyIndex INTEGER,
- dm3StatusInRlyName DisplayString,
- dm3StatusInRlyStatus INTEGER
- }
-
-dm3StatusInRlyIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant input relay."
- ::= { dm3StatusInRlyEntry 1 }
-
-dm3StatusInRlyName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the input relay. The maximum size is
- 16 characters. The name is set by using the
- dm3ConfigInRlyName OID.
- This OID is provided for informational purposes only."
- ::= { dm3StatusInRlyEntry 2 }
-
-dm3StatusInRlyStatus OBJECT-TYPE
- SYNTAX INTEGER {
- statusOn (1),
- statusOff (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusOn (1) if the input relay is enabled/on.
- statusOff (2) will be returned if the input relay is disabled/off."
- ::= { dm3StatusInRlyEntry 3 }
-
--- the dm3StatusBreakers group
-
-dm3StatusBreakersTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant circuit breakers viewable
- by this IP address."
- ::= { dm3StatusBreakers 1 }
-
-dm3StatusBreakersTable OBJECT-TYPE
- SYNTAX SEQUENCE OF StatusBreakersEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for viewing status of the circuit breakers. The number of
- entries is contained in the dm3StatusBreakersTableSize OID."
- ::= { dm3StatusBreakers 2 }
-
-dm3StatusBreakersEntry OBJECT-TYPE
- SYNTAX StatusBreakersEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The circuit breaker to gather status from."
- INDEX { dm3StatusBreakersIndex }
- ::= { dm3StatusBreakersTable 1 }
-
-StatusBreakersEntry ::=
- SEQUENCE {
- dm3StatusBreakersIndex INTEGER,
- dm3StatusBreakersName DisplayString,
- dm3StatusBreakersStatus INTEGER
- }
-
-dm3StatusBreakersIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant circuit breaker."
- ::= { dm3StatusBreakersEntry 1 }
-
-dm3StatusBreakersName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the circuit breaker. The maximum size is
- 16 characters. The name is set by using the
- dm3ConfigBreakersName OID.
- This OID is provided for informational purposes only."
- ::= { dm3StatusBreakersEntry 2 }
-
-dm3StatusBreakersStatus OBJECT-TYPE
- SYNTAX INTEGER {
- statusClosed (1),
- statusOpen (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusClosed (1) if the circuit breaker is closed.
- statusOpen (2) will be returned if the circuit breaker is open."
- ::= { dm3StatusBreakersEntry 3 }
-
--- the dm3StatusFuses group
-
-dm3StatusFusesTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant fuses controllable
- by this IP address."
- ::= { dm3StatusFuses 1 }
-
-dm3StatusFusesTable OBJECT-TYPE
- SYNTAX SEQUENCE OF StatusFusesEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for viewing status of the fuses. The number of
- entries is contained in the dm3StatusFusesTableSize OID."
- ::= { dm3StatusFuses 2 }
-
-dm3StatusFusesEntry OBJECT-TYPE
- SYNTAX StatusFusesEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The fuse to gather status from."
- INDEX { dm3StatusFusesIndex }
- ::= { dm3StatusFusesTable 1 }
-
-StatusFusesEntry ::=
- SEQUENCE {
- dm3StatusFusesIndex INTEGER,
- dm3StatusFusesName DisplayString,
- dm3StatusFusesStatus INTEGER
- }
-
-dm3StatusFusesIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant fuse."
- ::= { dm3StatusFusesEntry 1 }
-
-dm3StatusFusesName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the fuse. The maximum size is
- 16 characters. The name is set by using the
- dm3ConfigFuseName OID.
- This OID is provided for informational purposes only."
- ::= { dm3StatusFusesEntry 2 }
-
-dm3StatusFusesStatus OBJECT-TYPE
- SYNTAX INTEGER {
- statusClosed (1),
- statusOpen (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusClosed (1) if the fuse is closed.
- statusOpen (2) will be returned if the fuse is open."
- ::= { dm3StatusFusesEntry 3 }
-
--- the atsIdent group
-
-atsIdentHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware version of the Automatic Transfer Switch.
- This value is set at the factory."
- ::= { atsIdent 1 }
-
-atsIdentFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A string identifying the Automatic Transfer Switch
- firmware version."
- ::= { atsIdent 2 }
-
-atsIdentFirmwareDate OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date of release for this Automatic Transfer Switch
- firmware version. "
- ::= { atsIdent 3 }
-
-atsIdentDateOfManufacture OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date when the Automatic Transfer Switch was manufactured in mm/dd/yyyy format.
- This value is set at the factory. "
- ::= { atsIdent 4 }
-
-atsIdentModelNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A string identifying the model number of the Automatic Transfer Switch.
- This value is set at the factory."
- ::= { atsIdent 5 }
-
-atsIdentSerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A string identifying the serial number of
- the Automatic Transfer Switch. This value is set at the factory."
- ::= { atsIdent 6 }
-
-atsIdentNominalLineVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "RMS Utility Voltage measured in V."
- ::= { atsIdent 7 }
-
-atsIdentNominalLineFrequency OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Utility Power Frequency measured in Hz."
- ::= { atsIdent 8 }
-
--- the atsCalibration group
-
--- Input Voltage Calibration Factor table
-
- atsCalibrationNumInputs OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of inputs to this device."
- ::= { atsCalibrationInput 1 }
-
- atsCalibrationNumInputPhases OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of phases per input for this device."
- ::= { atsCalibrationInput 2 }
-
- atsCalibrationInputTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ATSCalibrationInputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The number of phases per input line to this device."
- ::= { atsCalibrationInput 3 }
-
- atsCalibrationInputPhaseEntry OBJECT-TYPE
- SYNTAX ATSCalibrationInputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing calibration information applicable to a
- particular input phase."
- INDEX { atsCalibrationInputTableIndex, atsCalibrationInputPhaseTableIndex }
- ::= { atsCalibrationInputTable 1 }
-
- ATSCalibrationInputPhaseEntry ::= SEQUENCE {
- atsCalibrationInputTableIndex INTEGER,
- atsCalibrationInputPhaseTableIndex INTEGER,
- atsLineVoltageCalibrationFactor INTEGER
- }
-
- atsCalibrationInputTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input identifier."
- ::= { atsCalibrationInputPhaseEntry 1 }
-
- atsCalibrationInputPhaseTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input phase identifier."
- ::= { atsCalibrationInputPhaseEntry 2 }
-
- atsLineVoltageCalibrationFactor OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The Line Voltage Calibration factor.
- This value is set at the factory."
- ::= { atsCalibrationInputPhaseEntry 3 }
-
--- Power Supply Voltage Calibration table
-
- atsCalibrationPowerSupplyVoltages OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of power supply voltages supported by this device.
- This variable indicates the number of rows in the
- atsCalibrationPowerSupplyTable. There is one entry per
- supported voltage: 24V, 12V and 5V"
- ::= { atsCalibrationPowerSupply 1 }
-
- atsCalibrationPowerSupplyVoltageTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ATSCalibrationPowerSupplyVoltageEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of Power Supply table entries."
- ::= { atsCalibrationPowerSupply 2 }
-
- atsCalibrationPowerSupplyVoltageEntry OBJECT-TYPE
- SYNTAX ATSCalibrationPowerSupplyVoltageEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular Power Supply Voltage."
- INDEX { atsCalibrationPowerSupplyVoltageTableIndex }
- ::= { atsCalibrationPowerSupplyVoltageTable 1 }
-
- ATSCalibrationPowerSupplyVoltageEntry ::= SEQUENCE {
- atsCalibrationPowerSupplyVoltageTableIndex INTEGER,
- atsCalibrationPowerSupplyVoltage INTEGER,
- atsPowerSupplyVoltageCalibrationFactor INTEGER
- }
-
- atsCalibrationPowerSupplyVoltageTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The power supply voltage identifier.
- Three power supply voltages are supported by the ATS:
- 24V , 12V and 5V .
- The value of this index indicates the power supply voltage:
- 1 = 24V
- 2 = 12V
- 3 = 5V"
- ::= { atsCalibrationPowerSupplyVoltageEntry 1 }
-
- atsCalibrationPowerSupplyVoltage OBJECT-TYPE
- SYNTAX INTEGER {
- powerSupply24V(1),
- powerSupply12V(2),
- powerSupply(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This value describes the power supply voltage."
- ::= { atsCalibrationPowerSupplyVoltageEntry 2 }
-
- atsPowerSupplyVoltageCalibrationFactor OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The Line Voltage Calibration factor.
- This value is set at the factory."
- ::= { atsCalibrationPowerSupplyVoltageEntry 3 }
-
--- Output Current Calibration table
-
- atsCalibrationNumOutputs OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of output lines from this device.
- This variable indicates the number of rows in the
- atsCalibrationOutputTable."
- ::= { atsCalibrationOutput 1 }
-
- atsCalibrationNumOutputPhases OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of output phases utilized in this
- device."
- ::= { atsCalibrationOutput 2 }
-
- atsCalibrationOutputTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ATSCalibrationOutputEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of output table entries."
- ::= { atsCalibrationOutput 3 }
-
- atsCalibrationOutputEntry OBJECT-TYPE
- SYNTAX ATSCalibrationOutputEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular output."
- INDEX { atsCalibrationOutputTableIndex, atsCalibrationOutputPhasesTableIndex }
- ::= { atsCalibrationOutputTable 1 }
-
- ATSCalibrationOutputEntry ::= SEQUENCE {
- atsCalibrationOutputTableIndex INTEGER,
- atsCalibrationOutputPhasesTableIndex INTEGER,
- atsOutputCurrentCalibrationFactor INTEGER
- }
-
- atsCalibrationOutputTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output identifier."
- ::= { atsCalibrationOutputEntry 1 }
-
- atsCalibrationOutputPhasesTableIndex OBJECT-TYPE
- SYNTAX INTEGER{
- phase1(1),
- phase2(2),
- phase3(3),
- neutral(4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Description of each calibration factor for each
- output phase utilized in this device and one for neutral. "
- ::= { atsCalibrationOutputEntry 2 }
-
- atsOutputCurrentCalibrationFactor OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output current calibration factor measured in Amps."
- ::= { atsCalibrationOutputEntry 3 }
-
-
--- the atsControl group
-
-atsControlResetATS OBJECT-TYPE
- SYNTAX INTEGER {
- none(1),
- reset(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this variable will cause the Automatic Transfer Switch to
- perform a power-on reset."
- ::= { atsControl 1 }
-
-atsControlClearAllAlarms OBJECT-TYPE
- SYNTAX INTEGER {
- none(1),
- clear(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this variable will clear all alarms in the Automatic Transfer Switch."
- ::= { atsControl 2 }
-
--- the atsConfig group
-
-atsConfigProductName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A configurable character string."
- ::= { atsConfig 1 }
-
-atsConfigPreferredSource OBJECT-TYPE
- SYNTAX INTEGER {
- sourceA(1),
- sourceB(2),
- none(3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This variable returns the preferred source of power when both sources are OK."
- ::= { atsConfig 2 }
-
-atsConfigFrontPanelLockout OBJECT-TYPE
- SYNTAX INTEGER {
- disableFrontPanel(1),
- enableFrontPanel(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Setting this variable to disableFrontPanel(1) will disallow source
- preference configuration of the Automatic Transfer Switch via the
- Front Panel. Once this value is set, it can only be re-enabled through
- the serial interface of the ATS.
- When this variable is set to enableFrontPanel(2), source preference
- configuration of the Automatic Transfer Switch via the Front Panel
- is allowed."
- ::= { atsConfig 3 }
-
-atsConfigVoltageSensitivity OBJECT-TYPE
- SYNTAX INTEGER {
- high(1),
- low(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This variable defines the sensitivity to changes in voltage:
- high(1) for best protection, low(2) for frequent small line
- voltage changes."
- ::= { atsConfig 4 }
-
-atsConfigTransferVoltageRange OBJECT-TYPE
- SYNTAX INTEGER {
- wide(1),
- medium(2),
- narrow(3)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This variable defines the range of acceptable voltage from a power source.
- If the voltage measured from the selected input source is not within this
- range, the Automatic Transfer Switch will switch over (transfer) to the
- alternate power source."
-
- ::= { atsConfig 5 }
-
-atsConfigCurrentLimit OBJECT-TYPE
- SYNTAX INTEGER (0..20)
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The threshold (in Amps) at which an Over Current Alarm will be generated."
-
- ::= { atsConfig 6 }
-
-
-atsConfigResetValues OBJECT-TYPE
- SYNTAX INTEGER {
- none(1),
- reset(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Resets the ATS configuration to its default values."
-
- ::= { atsConfig 7 }
-
--- the atsStatus group
-
- atsStatusCommStatus OBJECT-TYPE
- SYNTAX INTEGER {
- atsNeverDiscovered(1),
- atsCommEstablished(2),
- atsCommLost(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This variable returns the current communication status
- of the Automatic Transfer Switch. "
- ::= { atsStatusDeviceStatus 1 }
-
- atsStatusSelectedSource OBJECT-TYPE
- SYNTAX INTEGER {
- sourceA(1),
- sourceB(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This variable returns the current source of power. "
- ::= { atsStatusDeviceStatus 2 }
-
- atsStatusRedundancyState OBJECT-TYPE
- SYNTAX INTEGER {
- atsRedundancyLost(1),
- atsFullyRedundant(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This variable returns the current redundancy state of the ATS.
- atsRedundancyLost(1) indicates that the ATS is unable to
- switch over to the alternate power source if the current source fails.
- atsFullyRedundant(2) indicates that the ATS will switch over to
- the alternate power source if the current source fails."
- ::= { atsStatusDeviceStatus 3 }
-
- atsStatusOverCurrentState OBJECT-TYPE
- SYNTAX INTEGER {
- atsOverCurrent(1),
- atsCurrentOK(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This variable returns the output current state of the ATS.
- atsOverCurrent(1) indicates that the ATS has exceeded the output
- current threshold and will not allow a switch over to the alternate power
- source if the current source fails.
- atsCurrentOK(2) indicates that the output current is below the
- output current threshold."
- ::= { atsStatusDeviceStatus 4 }
-
- atsStatus5VPowerSupply OBJECT-TYPE
- SYNTAX INTEGER {
- atsPowerSupplyFailure(1),
- atsPowerSupplyOK(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This variable returns the current state of the ATS 5-volt power supply.
- atsPowerSupplyFailure(1) indicates the 5-volt power supply has failed
- and that the ATS serial port Configuration Menu is not accessible .
- atsPowerSupplyOK(2) indicates that the ATS 5-volt power supply
- is operating within tolerance."
- ::= { atsStatusDeviceStatus 5 }
-
- atsStatus24VPowerSupply OBJECT-TYPE
- SYNTAX INTEGER {
- atsPowerSupplyFailure(1),
- atsPowerSupplyOK(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This variable returns the current state of the ATS 24-volt power supply.
- atsPowerSupplyFailure(1) indicates the 24-volt power supply has failed
- and the ATS is unable to switch over to the alternate power source if
- the current source fails.
- atsPowerSupplyOK(2) indicates that the ATS 24-volt power supply
- is operating within tolerance."
- ::= { atsStatusDeviceStatus 6 }
-
- atsStatusResetMaxMinValues OBJECT-TYPE
- SYNTAX INTEGER {
- none(1),
- reset(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Resets the maximum and minimum ATS values:
- atsInputMaxVoltage, atsInputMinVoltage,
- atsInputMaxCurrent, atsInputMinCurrent,
- atsInputMaxPower, atsInputMinPower,
- atsOutputMaxCurrent, atsOutputMinCurrent,
- atsOutputMaxLoad, atsOutputMinLoad,
- atsOutputMaxPercentLoad, atsOutputMinPercentLoad,
- atsOutputMaxPower, atsOutputMinPower,
- atsOutputMaxPercentPower, atsOutputMinPercentPower.
- These variables represent the maximum and minimum ATS values
- since the last time they were read or reset by this OID.
- Values unsupported by this ATS will return (-1)."
- ::= { atsStatusResetValues 1 }
-
---
--- Input Group
---
-
--- Number of Inputs
-
- atsNumInputs OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of input feeds to this device.
- This variable indicates the number of rows in the
- input table."
- ::= { atsStatusInput 1 }
-
--- Input Table
-
- atsInputTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ATSPhaseInputEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of input table entries. The number of entries
- is given by the value of atsNumInputs."
- ::= { atsStatusInput 2 }
-
- atsInputEntry OBJECT-TYPE
- SYNTAX ATSPhaseInputEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular input."
- INDEX { atsInputTableIndex }
- ::= { atsInputTable 1 }
-
- ATSPhaseInputEntry ::= SEQUENCE {
- atsInputTableIndex INTEGER,
- atsNumInputPhases INTEGER,
- atsInputVoltageOrientation INTEGER,
- atsInputFrequency INTEGER,
- atsInputType INTEGER,
- atsInputName DisplayString
- }
-
- atsInputTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input identifier."
- ::= { atsInputEntry 1 }
-
- atsNumInputPhases OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of input phases utilized in this
- device. The sum of all the atsNumInputPhases
- variable indicates the number of rows in the
- input phase table."
- ::= { atsInputEntry 2 }
-
- atsInputVoltageOrientation OBJECT-TYPE
- SYNTAX INTEGER {
- unknown(1),
- singlePhase(2),
- splitPhase(3),
- threePhasePhaseToNeutral(4),
- threePhasePhaseToPhase(5)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input voltage orientation:
- 1: unknown for this Source
- 2: singlePhase - phase 1 voltage is between Phase 1
- and Neutral.
- 3: splitPhase - phase 1 voltage is between Phase 1 and
- Neutral; phase 2 voltage is between Phase 2 and Neutral;
- phase 3 voltage is between Phase 1 and Phase2.
- 4: threePhasePhaseToNeutral - phase 1 voltage is between
- Phase 1 and Neutral; phase 2 voltage is between Phase 2
- and Neutral; phase 3 voltage is between Phase3 and
- Neutral.
- 5: threePhasePhaseToPhase - phase 1 voltage is between
- Phase 1 and Phase 2; phase 2 voltage is between Phase 2
- and Phase 3; phase 3 voltage is between Phase 3 and
- Phase 1."
- ::= { atsInputEntry 3 }
-
- atsInputFrequency OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input frequency in Hertz, or -1 if it's unsupported
- by this Source."
- ::= { atsInputEntry 4 }
-
- atsInputType OBJECT-TYPE
- SYNTAX INTEGER {
- unknown(1),
- main(2),
- bypass(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input type."
- ::= { atsInputEntry 5 }
-
- atsInputName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A name given to a particular input."
- ::= { atsInputEntry 6 }
-
--- Input Phase Table
-
- atsInputPhaseTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ATSPhaseInputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of input table entries. The number of entries
- is given by the sum of the atsNumInputPhases."
- ::= { atsStatusInput 3 }
-
- atsInputPhaseEntry OBJECT-TYPE
- SYNTAX ATSPhaseInputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular input phase."
- INDEX { atsInputPhaseTableIndex, atsInputPhaseIndex }
- ::= { atsInputPhaseTable 1 }
-
- ATSPhaseInputPhaseEntry ::= SEQUENCE {
- atsInputPhaseTableIndex INTEGER,
- atsInputPhaseIndex INTEGER,
- atsInputVoltage INTEGER,
- atsInputMaxVoltage INTEGER,
- atsInputMinVoltage INTEGER,
- atsInputCurrent INTEGER,
- atsInputMaxCurrent INTEGER,
- atsInputMinCurrent INTEGER,
- atsInputPower INTEGER,
- atsInputMaxPower INTEGER,
- atsInputMinPower INTEGER
- }
-
- atsInputPhaseTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input identifier."
- ::= { atsInputPhaseEntry 1 }
-
- atsInputPhaseIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input phase identifier."
- ::= { atsInputPhaseEntry 2 }
-
- atsInputVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input voltage in VAC, or -1 if it's unsupported
- by this Source."
- ::= { atsInputPhaseEntry 3 }
-
- atsInputMaxVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum input voltage in VAC measured
- since the last time this variable was read
- or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsInputPhaseEntry 4 }
-
- atsInputMinVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum input voltage in VAC measured
- since the last time this variable was read
- or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsInputPhaseEntry 5 }
-
- atsInputCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input current in amperes, or -1 if it's
- unsupported by this Source."
- ::= { atsInputPhaseEntry 6 }
-
- atsInputMaxCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum input current in amperes measured
- since the last time this variable was read
- or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsInputPhaseEntry 7 }
-
- atsInputMinCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum input current in amperes measured
- since the last time this variable was read
- or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsInputPhaseEntry 8 }
-
- atsInputPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The input power in Watts, or -1 if it's unsupported
- by this Source."
- ::= { atsInputPhaseEntry 9 }
-
- atsInputMaxPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum input power in Watts measured
- since the last time this variable was read
- or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsInputPhaseEntry 10 }
-
- atsInputMinPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum input power in Watts measured
- since the last time this variable was read
- or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsInputPhaseEntry 11 }
-
- --
- -- The Output group.
- --
-
- -- Number of Outputs
-
- atsNumOutputs OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of output feeds to this device.
- This variable indicates the number of rows in the
- output table."
- ::= { atsStatusOutput 1 }
-
- -- Output Table
-
- atsOutputTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ATSPhaseOutputEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of output table entries. The number of entries
- is given by the value of atsOutputNumPhases."
- ::= { atsStatusOutput 2 }
-
- atsOutputEntry OBJECT-TYPE
- SYNTAX ATSPhaseOutputEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular output."
- INDEX { atsOutputTableIndex }
- ::= { atsOutputTable 1 }
-
- ATSPhaseOutputEntry ::= SEQUENCE {
- atsOutputTableIndex INTEGER,
- atsNumOutputPhases INTEGER,
- atsOutputVoltageOrientation INTEGER,
- atsOutputFrequency INTEGER
- }
-
- atsOutputTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output identifier."
- ::= { atsOutputEntry 1 }
-
- atsNumOutputPhases OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of output phases utilized in this
- device. The sum of all the atsNumOutputPhases
- variable indicates the number of rows in the
- output phase table."
- ::= { atsOutputEntry 2 }
-
- atsOutputVoltageOrientation OBJECT-TYPE
- SYNTAX INTEGER {
- unknown(1),
- singlePhase(2),
- splitPhase(3),
- threePhasePhaseToNeutral(4),
- threePhasePhaseToPhase(5)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output voltage orientation:
- 1: unknown for this ATS
- 2: singlePhase - phase 1 voltage is between Phase 1
- and Neutral.
- 3: splitPhase - phase 1 voltage is between Phase 1 and
- Neutral; phase 2 voltage is between Phase 2 and Neutral;
- phase 3 voltage is between Phase 1 and Phase2.
- 4: threePhasePhaseToNeutral - phase 1 voltage is between
- Phase 1 and Neutral; phase 2 voltage is between Phase 2
- and Neutral; phase 3 voltage is between Phase3 and
- Neutral.
- 5: threePhasePhaseToPhase - phase 1 voltage is between
- Phase 1 and Phase 2; phase 2 voltage is between Phase 2
- and Phase 3; phase 3 voltage is between Phase 3 and
- Phase 1."
- ::= { atsOutputEntry 3 }
-
- atsOutputFrequency OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output frequency in Hertz, or -1 if it's
- unsupported by this ATS."
- ::= { atsOutputEntry 4 }
-
- -- Output Phase Table
-
- atsOutputPhaseTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ATSPhaseOutputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of output table entries. The number of
- entries is given by the sum of the atsNumOutputPhases."
- ::= { atsStatusOutput 3 }
-
- atsOutputPhaseEntry OBJECT-TYPE
- SYNTAX ATSPhaseOutputPhaseEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "An entry containing information applicable to a
- particular output phase."
- INDEX { atsOutputPhaseTableIndex, atsOutputPhaseIndex }
- ::= { atsOutputPhaseTable 1 }
-
- ATSPhaseOutputPhaseEntry ::= SEQUENCE {
- atsOutputPhaseTableIndex INTEGER,
- atsOutputPhaseIndex INTEGER,
- atsOutputVoltage INTEGER,
- atsOutputCurrent INTEGER,
- atsOutputMaxCurrent INTEGER,
- atsOutputMinCurrent INTEGER,
- atsOutputLoad INTEGER,
- atsOutputMaxLoad INTEGER,
- atsOutputMinLoad INTEGER,
- atsOutputPercentLoad INTEGER,
- atsOutputMaxPercentLoad INTEGER,
- atsOutputMinPercentLoad INTEGER,
- atsOutputPower INTEGER,
- atsOutputMaxPower INTEGER,
- atsOutputMinPower INTEGER,
- atsOutputPercentPower INTEGER,
- atsOutputMaxPercentPower INTEGER,
- atsOutputMinPercentPower INTEGER
- }
-
- atsOutputPhaseTableIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output identifier."
- ::= { atsOutputPhaseEntry 1 }
-
- atsOutputPhaseIndex OBJECT-TYPE
- SYNTAX INTEGER{
- phase1(1),
- phase2(2),
- phase3(3),
- neutral(4)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Description of each output phase utilized in
- this device and one for neutral. "
- ::= { atsOutputPhaseEntry 2 }
-
- atsOutputVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output voltage in VAC, or -1 if it's unsupported
- by this ATS."
- ::= { atsOutputPhaseEntry 3 }
-
- atsOutputCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output current in 0.1 amperes drawn
- by the load on the ATS, or -1 if it's unsupported
- by this ATS."
- ::= { atsOutputPhaseEntry 4 }
-
- atsOutputMaxCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum output current in 0.1 amperes measured
- since the last time this variable was read
- or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsOutputPhaseEntry 5 }
-
- atsOutputMinCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum output current in 0.1 amperes measured
- since the last time this variable was read
- or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsOutputPhaseEntry 6 }
-
- atsOutputLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output load in VA, or -1 if it's unsupported
- by this ATS."
- ::= { atsOutputPhaseEntry 7 }
-
- atsOutputMaxLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum output load in VA measured
- since the last time this variable was read
- or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsOutputPhaseEntry 8 }
-
- atsOutputMinLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum output load in VA measured
- since the last time this variable was read
- or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsOutputPhaseEntry 9 }
-
- atsOutputPercentLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The percentage of the ATS load capacity in VA at
- redundancy @ (n + x) presently being used on this
- output phase, or -1 if it's unsupported by this ATS."
- ::= { atsOutputPhaseEntry 10 }
-
- atsOutputMaxPercentLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum percentage of the ATS load capacity in
- VA measured at redundancy @ (n + x) presently
- being used on this output phase since the last time
- this variable was read or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsOutputPhaseEntry 11 }
-
- atsOutputMinPercentLoad OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum percentage of the ATS load capacity in
- VA measured at redundancy @ (n + x) presently
- being used on this output phase since the last time
- this variable was read or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsOutputPhaseEntry 12 }
-
- atsOutputPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The output power in Watts, or -1 if it's
- unsupported by this ATS."
- ::= { atsOutputPhaseEntry 13 }
-
- atsOutputMaxPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum output power in Watts measured
- since the last time this variable was read
- or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsOutputPhaseEntry 14 }
-
- atsOutputMinPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum output power in Watts measured
- since the last time this variable was read
- or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsOutputPhaseEntry 15 }
-
- atsOutputPercentPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The percentage of the ATSpower capacity in Watts at
- redundancy @ (n + x) presently being used on this
- output phase, or -1 if it's unsupported by this ATS."
- ::= { atsOutputPhaseEntry 16 }
-
- atsOutputMaxPercentPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The maximum percentage of the ATSpower capacity
- in Watts measured at redundancy @ (n + x) presently
- being used on this output phase since the last time
- this variable was read or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsOutputPhaseEntry 17 }
-
- atsOutputMinPercentPower OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The minimum percentage of the ATSpower capacity
- in Watts measured at redundancy @ (n + x) presently
- being used on this output phase since the last time
- this variable was read or reset (atsStatusResetMaxMinValues).
- Returns (-1) if unsupported."
- ::= { atsOutputPhaseEntry 18 }
-
--- the dcmim2IdentSystem group
-
-dcmim2IdentSysFWVersion OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Integer representation of the power plant Master Controller firmware revision."
- ::= { dcmim2IdentSystem 1 }
-
-
--- the dcmim2ControlSystem group
-
-dcmim2ControlRunFunctBatteryTest OBJECT-TYPE
- SYNTAX INTEGER {
- battTestOff (1),
- battTestOn (2)
-}
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the battery functional test state. If
- the test is off, the battTestOff (1) value will be returned.
- If the test is on, the battTestOn (2) value will be
- returned.
-
- Setting this OID to battTestOff (1) will turn the battery functional test off.
- Setting this OID to battTestOn (2) will turn the battery functional test on."
-
- ::= { dcmim2ControlSystem 1 }
-
-dcmim2ControlRunCapacityBatteryTest OBJECT-TYPE
- SYNTAX INTEGER {
- battTestOff (1),
- battTestOn (2)
-}
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return the battery capacity test state. If
- the test is off, the battTestOff (1) value will be returned.
- If the test is on, the battTestOn (2) value will be
- returned.
-
- Setting this OID to battTestOff (1) will turn the battery capacity test off.
- Setting this OID to battTestOn (2) will turn the battery capacity test on."
-
- ::= { dcmim2ControlSystem 2 }
-
-
--- the dcmim2ConfigSystem group
-
-dcmim2ConfigSysHighTempTrip OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Trip level (threshold) at which System High Temp alarm condition is created.
- Range 28 to 100 (degC).
-
- Values are represented in thousandths of a degree.
- Units are displayed in the scale shown in
- the 'dcmim2StatusSysTempUnits' OID (Celsius or Fahrenheit)."
-
-
- ::= { dcmim2ConfigSystem 1 }
-
-dcmim2ConfigSysHighTempReset OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Level at which System High Temp alarm condition is reset (cleared).
- Range 25 to (upper temp - 3) (degC).
-
- Values are represented in thousandths of a degree.
- Units are displayed in the scale shown in
- the 'dcmim2StatusSysTempUnits' OID (Celsius or Fahrenheit)."
-
- ::= { dcmim2ConfigSystem 2 }
-
-dcmim2ConfigSysLowTempTrip OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Trip level (threshold) at which System Low Temp alarm condition is created.
- Range -100 to 10 (degC).
- Values are represented in thousandths of a degree.
- Units are displayed in the scale shown in
- the 'dcmim2StatusSysTempUnits' OID (Celsius or Fahrenheit)."
-
- ::= { dcmim2ConfigSystem 3 }
-
-dcmim2ConfigSysLowTempReset OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Level at which System Low Temp alarm condition is reset (cleared).
- Range (lower temp + 3) to 13 (degC).
- Values are represented in thousandths of a degree.
- Units are displayed in the scale shown in
- the 'dcmim2StatusSysTempUnits' OID (Celsius or Fahrenheit)."
-
- ::= { dcmim2ConfigSystem 4 }
-
--- the dcmim2ConfigBattery group
-
-dcmim2ConfigBattFloatVolt OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Battery Float Voltage defined at 25 degrees Celsius.
-
- Values are represented in thousandths of Volts (mV)."
-
- ::= { dcmim2ConfigBattery 1 }
-
-dcmim2ConfigBattMaxRecharge OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Battery Maximum Recharge Rate. This is the maximum current used
- during battery charging.
-
- Values are represented in thousandths of Amps (mA)."
-
- ::= { dcmim2ConfigBattery 2 }
-
-dcmim2ConfigBattMfgCapacity OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Battery capacity (Amp-Hour Size) as specified by the battery manufacturer.
-
- Values are represented in thousandths of Amp hours (mAHr)."
-
- ::= { dcmim2ConfigBattery 3 }
-
-dcmim2ConfigBattType OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Type of battery in the powerplant
-
- Valid values range from 0 to 254."
-
- ::= { dcmim2ConfigBattery 4 }
-
-dcmim2ConfigBattFunctTestDuration OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Duration of the battery functional test.
-
- Values are represented in thousandths of seconds (mSecs)."
-
- ::= { dcmim2ConfigBattery 5 }
-
-dcmim2ConfigBattFunctTestThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold the battery voltage of the system must remain above
- in order to pass the battery functional test.
-
- Values are represented in thousandths of Volts (mV)."
-
- ::= { dcmim2ConfigBattery 6 }
-
-dcmim2ConfigBattCapacityTestPercent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Threshold for good battery capacity test results.
-
- Values range from 0 to 100 percent."
-
- ::= { dcmim2ConfigBattery 7 }
-
-dcmim2ConfigBattCapacityTestEndThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Safeguard voltage at which battery capacity test will end
- if there is a battery problem.
-
- Values are represented in thousandths of Volts (mV)."
-
- ::= { dcmim2ConfigBattery 8 }
-
-dcmim2ConfigBattCapacityTestCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Constant current value used during battery capacity testing.
-
- Values are represented in thousandths of Amps (mA)."
-
- ::= { dcmim2ConfigBattery 9 }
-
-
--- the dcmim2ConfigLVD group
-
-dcmim2ConfigLVDTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant LVDs controllable
- by this IP address."
- ::= { dcmim2ConfigLVD 1 }
-
-dcmim2ConfigLVDTable OBJECT-TYPE
- SYNTAX SEQUENCE OF DC2ConfigLVDEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing settings of the LVDs. The number of
- entries is contained in the dcmim2ConfigLVDTableSize OID."
- ::= { dcmim2ConfigLVD 2 }
-
-dcmim2ConfigLVDEntry OBJECT-TYPE
- SYNTAX DC2ConfigLVDEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The LVD to configure."
- INDEX { dcmim2ConfigLVDIndex }
- ::= { dcmim2ConfigLVDTable 1 }
-
-DC2ConfigLVDEntry ::=
- SEQUENCE {
- dcmim2ConfigLVDIndex INTEGER,
- dcmim2ConfigLVDTrip INTEGER,
- dcmim2ConfigLVDReset INTEGER,
- dcmim2ConfigLVDState INTEGER
- }
-
-dcmim2ConfigLVDIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant LVD."
- ::= { dcmim2ConfigLVDEntry 1 }
-
-dcmim2ConfigLVDTrip OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "LVD Trip threshold. System bus voltage at which LVD will trip (open)
- during a battery backup operation.
-
- Values are represented in thousandths of Volts (mV)."
- ::= { dcmim2ConfigLVDEntry 2 }
-
-dcmim2ConfigLVDReset OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "LVD Reset threshold. System bus voltage at which LVD will reset (close)
- after AC power has been restored.
-
- Values are represented in thousandths of Volts (mV)."
- ::= { dcmim2ConfigLVDEntry 3 }
-
-dcmim2ConfigLVDState OBJECT-TYPE
- SYNTAX INTEGER {
- statusClosed (1),
- statusOpened (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusClosed (1) if the LVD is closed.
- statusOpened (2) will be returned if the LVD is opened."
- ::= { dcmim2ConfigLVDEntry 4 }
-
-
--- the dcmim2StatusSystem group
-
-dcmim2StatusSysRectCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "System (Total Rectifier) current in thousandths of Amps (mA)."
- ::= { dcmim2StatusSystem 1 }
-
-dcmim2StatusSysLoadCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Load current in thousandths of Amps (mA)."
- ::= { dcmim2StatusSystem 2 }
-
-dcmim2StatusSysBusVoltage OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "System bus voltage in thousandths of Volts (mV)."
- ::= { dcmim2StatusSystem 3 }
-
-dcmim2StatusSysAmbientTemp OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "System temperature based on sensor on Master Controller PCB.
-
- Values are represented in thousandths of a degree.
- Units are displayed in the scale shown in
- the 'dcmim2StatusSysTempUnits' OID (Celsius or Fahrenheit)."
- ::= { dcmim2StatusSystem 4 }
-
-dcmim2StatusSysUpTime OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Length of time since the DC Powerplant controller has been powered up."
- ::= { dcmim2StatusSystem 5 }
-
-dcmim2StatusSysTempUnits OBJECT-TYPE
- SYNTAX INTEGER {
- celsius(1),
- fahrenheit(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The temperature scale used to display the temperature
- in the DC system, Celsius(1) or Fahrenheit(2).
- This setting is based on the system preferences
- configuration in the agent."
- ::= { dcmim2StatusSystem 6 }
-
-
--- the dcmim2StatusRectifier group
-
-dcmim2StatusRectTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant rectifiers viewable
- by this IP address."
- ::= { dcmim2StatusRectifier 1 }
-
-dcmim2StatusRectTable OBJECT-TYPE
- SYNTAX SEQUENCE OF DC2StatusRectEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing settings of the rectifiers. The number of
- entries is contained in the dcmim2StatusRectTableSize OID."
- ::= { dcmim2StatusRectifier 2 }
-
-dcmim2StatusRectEntry OBJECT-TYPE
- SYNTAX DC2StatusRectEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The rectifier to gather status from."
- INDEX { dcmim2StatusRectIndex }
- ::= { dcmim2StatusRectTable 1 }
-
-DC2StatusRectEntry ::=
- SEQUENCE {
- dcmim2StatusRectIndex INTEGER,
- dcmim2StatusRectDevType INTEGER,
- dcmim2StatusRectID INTEGER,
- dcmim2StatusRectPhyAddr INTEGER,
- dcmim2StatusRectFail INTEGER,
- dcmim2StatusRectCurrent INTEGER
- }
-
-dcmim2StatusRectIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant rectifier."
- ::= { dcmim2StatusRectEntry 1 }
-
-dcmim2StatusRectDevType OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the rectifier device type."
- ::= { dcmim2StatusRectEntry 2 }
-
-dcmim2StatusRectID OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the rectifier ID. This enumerates the number of the rectifier within
- a group of rectifiers."
- ::= { dcmim2StatusRectEntry 3 }
-
-dcmim2StatusRectPhyAddr OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the rectifier physical address (the address on the bus)."
- ::= { dcmim2StatusRectEntry 4 }
-
-dcmim2StatusRectFail OBJECT-TYPE
- SYNTAX INTEGER {
- statusTrue (1),
- statusFalse (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusTrue (1) if the rectifier has failed.
- statusFalse (2) will be returned if the rectifier has not failed."
- ::= { dcmim2StatusRectEntry 5 }
-
-dcmim2StatusRectCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID shows the individual rectifier current in thousandths of Amps (mA)."
- ::= { dcmim2StatusRectEntry 6 }
-
-
--- the dcmim2StatusBattery group
-
-dcmim2StatusBattFloatVolt OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Battery Float Voltage represented in thousandths of Volts (mV)."
- ::= { dcmim2StatusBattery 1 }
-
-dcmim2StatusBattCurrent OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Battery Current: This OID shows the battery current in thousandths of Amps (mA)."
- ::= { dcmim2StatusBattery 2 }
-
-dcmim2StatusBattTemp OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Battery Temperature:
-
- Values are represented in thousandths of a degree.
- Units are displayed in the scale shown in
- the 'dcmim2StatusSysTempUnits' OID (Celsius or Fahrenheit)."
- ::= { dcmim2StatusBattery 3 }
-
-dcmim2StatusBattMfgCapacity OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Battery capacity (Amp-Hour Size) as specified by the battery manufacturer.
- Values are represented in thousandths of Amp hours (mAHr)."
- ::= { dcmim2StatusBattery 4 }
-
-dcmim2StatusBattTestCapacity OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Battery capacity (Amp-Hour Size) as determined by the battery capacity test.
- Values are represented in thousandths of Amp hours (mAHr)."
- ::= { dcmim2StatusBattery 5 }
-
-dcmim2StatusBattFunctTestResult OBJECT-TYPE
- SYNTAX INTEGER{
- functTestNotPerformed (1),
- functTestInProcess (2),
- functTestInterrupted (3),
- functTestPass (4),
- functTestFail (5)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Results of the last battery functional test that was run."
- ::= { dcmim2StatusBattery 6 }
-
-dcmim2StatusBattCapacityTestResult OBJECT-TYPE
- SYNTAX INTEGER{
- capacityTestNotPerformed (1),
- capacityTestInProcess (2),
- capacityTestInterrupted (3),
- capacityTestPass (4),
- capacityTestFail (5)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Results of the last battery capacity test that was run."
- ::= { dcmim2StatusBattery 7 }
-
-
--- the dcmim2StatusLVD group
-
-dcmim2StatusLVDTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant LVDs accessible
- by this IP address."
- ::= { dcmim2StatusLVD 1 }
-
-dcmim2StatusLVDTable OBJECT-TYPE
- SYNTAX SEQUENCE OF DC2StatusLVDEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing the LVDs. The number of
- entries is contained in the dcmim2StatusLVDTableSize OID."
- ::= { dcmim2StatusLVD 2 }
-
-dcmim2StatusLVDEntry OBJECT-TYPE
- SYNTAX DC2StatusLVDEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The LVD to access."
- INDEX { dcmim2StatusLVDIndex }
- ::= { dcmim2StatusLVDTable 1 }
-
-DC2StatusLVDEntry ::=
- SEQUENCE {
- dcmim2StatusLVDIndex INTEGER,
- dcmim2StatusLVDState INTEGER
- }
-
-dcmim2StatusLVDIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the DC powerplant LVD."
- ::= { dcmim2StatusLVDEntry 1 }
-
-dcmim2StatusLVDState OBJECT-TYPE
- SYNTAX INTEGER {
- statusClosed (1),
- statusOpened (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this OID will return statusClosed (1) if the LVD is closed.
- statusOpened (2) will be returned if the LVD is opened."
- ::= { dcmim2StatusLVDEntry 2 }
-
-
--- the dcmim2StatusAlarms group
-
-dcmim2StatusAlarmsTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of DC powerplant alarms viewable
- by this IP address."
- ::= { dcmim2StatusAlarms 1 }
-
-dcmim2StatusAlarmsTable OBJECT-TYPE
- SYNTAX SEQUENCE OF DC2StatusAlarmsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for accessing system alarms. The number of
- entries is contained in the dcmim2StatusAlarmsTableSize OID."
- ::= { dcmim2StatusAlarms 2 }
-
-dcmim2StatusAlarmsEntry OBJECT-TYPE
- SYNTAX DC2StatusAlarmsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The alarm to display."
- INDEX { dcmim2StatusAlarmsIndex }
- ::= { dcmim2StatusAlarmsTable 1 }
-
-DC2StatusAlarmsEntry ::=
- SEQUENCE {
- dcmim2StatusAlarmsIndex INTEGER,
- dcmim2StatusAlarmsText DisplayString
- }
-
-dcmim2StatusAlarmsIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the system alarm."
- ::= { dcmim2StatusAlarmsEntry 1 }
-
-dcmim2StatusAlarmsText OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The 16 character text describing the active alarm condition."
- ::= { dcmim2StatusAlarmsEntry 2 }
-
--- External Environmental Monitor
-
-emIdentFirmwareRevision OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The firmware revision of the Environmental Monitor."
- ::= { emIdent 1 }
-
-emConfigProbesNumProbes OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of temperature and humidity probes available."
- ::= { emConfig 1 }
-
-emConfigProbesTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EmConfigProbesEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of probes supported by the Environmental Monitor
- and their configurations."
- ::= { emConfig 2 }
-
-emConfigProbesEntry OBJECT-TYPE
- SYNTAX EmConfigProbesEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The Environmental Monitor probe configurations."
- INDEX { emConfigProbeNumber }
- ::= { emConfigProbesTable 1 }
-
-EmConfigProbesEntry ::=
- SEQUENCE {
- emConfigProbeNumber
- INTEGER,
- emConfigProbeName
- DisplayString,
- emConfigProbeHighTempThreshold
- INTEGER,
- emConfigProbeLowTempThreshold
- INTEGER,
- emConfigProbeTempUnits
- INTEGER,
- emConfigProbeHighHumidThreshold
- INTEGER,
- emConfigProbeLowHumidThreshold
- INTEGER,
- emConfigProbeHighTempEnable
- INTEGER,
- emConfigProbeLowTempEnable
- INTEGER,
- emConfigProbeHighHumidEnable
- INTEGER,
- emConfigProbeLowHumidEnable
- INTEGER
- }
-
-emConfigProbeNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index into an Environmental Monitor probe entry."
- ::= { emConfigProbesEntry 1 }
-
-emConfigProbeName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A descriptive name of the probe set by the user,
- possibly denoting its location or purpose."
- ::= { emConfigProbesEntry 2 }
-
-emConfigProbeHighTempThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The high temperature alarm threshold for the probe.
- Units are displayed in the scale selected in
- the 'emConfigProbeTempUnits' OID (Celsius or Fahrenheit)."
- ::= { emConfigProbesEntry 3 }
-
-emConfigProbeLowTempThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The low temperature alarm threshold for the probe.
- Units are displayed in the scale selected in
- the 'emConfigProbeTempUnits' OID (Celsius or Fahrenheit)."
- ::= { emConfigProbesEntry 4 }
-
-emConfigProbeTempUnits OBJECT-TYPE
- SYNTAX INTEGER {
- celsius(1),
- fahrenheit(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The temperature scale used to display the temperature
- thresholds of the probe, Celsius(1) or Fahrenheit(2).
- This setting is based on the system preferences
- configuration in the agent."
- ::= { emConfigProbesEntry 5 }
-
-emConfigProbeHighHumidThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The high humidity alarm threshold for the probe in
- percent relative humidity."
- ::= { emConfigProbesEntry 6 }
-
-emConfigProbeLowHumidThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The low humidity alarm threshold for the probe in
- percent relative humidity."
- ::= { emConfigProbesEntry 7 }
-
-emConfigProbeHighTempEnable OBJECT-TYPE
- SYNTAX INTEGER {
- disabled(1),
- enabled(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The high temperature alarm enable/disable for the
- probe. No alarm will be generated if this value
- is set to disabled(1). The alarm will be
- generated if this value is set to enabled(2) and
- the threshold has been violated."
- ::= { emConfigProbesEntry 8 }
-
-emConfigProbeLowTempEnable OBJECT-TYPE
- SYNTAX INTEGER {
- disabled(1),
- enabled(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The low temperature alarm enable/disable for the
- probe. No alarm will be generated if this value
- is set to disabled(1). The alarm will be
- generated if this value is set to enabled(2) and
- the threshold has been violated."
- ::= { emConfigProbesEntry 9 }
-
-emConfigProbeHighHumidEnable OBJECT-TYPE
- SYNTAX INTEGER {
- disabled(1),
- enabled(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The high humidity alarm enable/disable for the
- probe. No alarm will be generated if this value
- is set to disabled(1). The alarm will be
- generated if this value is set to enabled(2) and
- the threshold has been violated."
- ::= { emConfigProbesEntry 10 }
-
-emConfigProbeLowHumidEnable OBJECT-TYPE
- SYNTAX INTEGER {
- disabled(1),
- enabled(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The low humidity alarm enable/disable for the
- probe. No alarm will be generated if this value
- is set to disabled(1). The alarm will be
- generated if this value is set to enabled(2) and
- the threshold has been violated."
- ::= { emConfigProbesEntry 11 }
-
-emConfigContactsNumContacts OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of contacts supported by the Environmental
- Monitor."
- ::= { emConfig 3 }
-
-emConfigContactsTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EmConfigContactsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of contacts supported by the Environmental Monitor
- and their configurations."
- ::= { emConfig 4 }
-
-emConfigContactsEntry OBJECT-TYPE
- SYNTAX EmConfigContactsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The Environmental Monitor contact configurations."
- INDEX { emConfigContactNumber }
- ::= { emConfigContactsTable 1 }
-
-EmConfigContactsEntry ::=
- SEQUENCE {
- emConfigContactNumber
- INTEGER,
- emConfigContactName
- DisplayString,
- emConfigContactEnable
- INTEGER
- }
-
-emConfigContactNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of an Environmental Monitor contact."
- ::= { emConfigContactsEntry 1 }
-
-emConfigContactName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A descriptive name for an Environmental Monitor
- contact set by the user, possibly denoting its
- location or purpose."
- ::= { emConfigContactsEntry 2 }
-
-emConfigContactEnable OBJECT-TYPE
- SYNTAX INTEGER {
- disabled(1),
- enabled(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "An Environmental Monitor contact alarm enable/disable.
- No alarm will be generated if the contact is disabled(1).
- An alarm will be generated if the contact is enabled(2)
- and the contact has been faulted."
- ::= { emConfigContactsEntry 3 }
-
-emStatusCommStatus OBJECT-TYPE
- SYNTAX INTEGER {
- noComm(1),
- comm(2),
- commLost(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The communication status between the agent
- and the Environmental Monitor.
-
- noComm(1), Communication has never been established.
- comm(2), Communication has been established.
- commLost(3), Communication was established, but was lost."
- ::= { emStatus 1 }
-
-emStatusProbesNumProbes OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of available probes on the Environmental
- Monitor."
- ::= { emStatus 2 }
-
-emStatusProbesTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EmStatusProbesEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of probes supported by the Environmental Monitor
- and their status."
- ::= { emStatus 3 }
-
-emStatusProbesEntry OBJECT-TYPE
- SYNTAX EmStatusProbesEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The status of the probe."
- INDEX { emStatusProbeNumber }
- ::= { emStatusProbesTable 1 }
-
-EmStatusProbesEntry ::=
- SEQUENCE {
- emStatusProbeNumber
- INTEGER,
- emStatusProbeName
- DisplayString,
- emStatusProbeStatus
- INTEGER,
- emStatusProbeCurrentTemp
- INTEGER,
- emStatusProbeTempUnits
- INTEGER,
- emStatusProbeCurrentHumid
- INTEGER,
- emStatusProbeHighTempViolation
- INTEGER,
- emStatusProbeLowTempViolation
- INTEGER,
- emStatusProbeHighHumidViolation
- INTEGER,
- emStatusProbeLowHumidViolation
- INTEGER
- }
-
-emStatusProbeNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the probe."
- ::= { emStatusProbesEntry 1 }
-
-emStatusProbeName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A descriptive name for the probe set by the user,
- possibly denoting its location or purpose."
- ::= { emStatusProbesEntry 2 }
-
-emStatusProbeStatus OBJECT-TYPE
- SYNTAX INTEGER {
- disconnected(1),
- connected(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The connected status of the probe, either
- disconnected(1) or connected(2)."
- ::= { emStatusProbesEntry 3 }
-
-emStatusProbeCurrentTemp OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current temperature reading from the probe displayed
- in the units shown in the 'emStatusProbeTempUnits' OID
- (Celsius or Fahrenheit)."
- ::= { emStatusProbesEntry 4 }
-
-emStatusProbeTempUnits OBJECT-TYPE
- SYNTAX INTEGER {
- celsius(1),
- fahrenheit(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The temperature scale used to display the temperature
- thresholds of the probe, Celsius(1) or Fahrenheit(2).
- This setting is based on the system preferences
- configuration in the agent."
- ::= { emStatusProbesEntry 5 }
-
-emStatusProbeCurrentHumid OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current humidity reading from the probe in
- percent relative humidity."
- ::= { emStatusProbesEntry 6 }
-
-emStatusProbeHighTempViolation OBJECT-TYPE
- SYNTAX INTEGER {
- noViolation(1),
- highTempViolation(2),
- disabled(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The high temperature violation status of the probe
- temperature reading. This OID will show a highTempViolation(2)
- if the current temperature reading shown in the
- 'emStatusProbeCurrentTemp' OID is greater than or equal to
- the high temperature threshold value, the
- 'emConfigProbeHighTempThreshold' OID, and the value of the
- 'emConfigProbeHighTempEnable' OID is enabled. Otherwise it will show
- noViolation(1). If the 'emConfigProbeHighTempEnable' OID is disabled,
- this OID will show disabled(3)."
- ::= { emStatusProbesEntry 7 }
-
-emStatusProbeLowTempViolation OBJECT-TYPE
- SYNTAX INTEGER {
- noViolation(1),
- lowTempViolation(2),
- disabled(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The high temperature violation status of the probe
- temperature reading. This OID will show a lowTempViolation(2)
- if the current temperature reading shown in the
- 'emStatusProbeCurrentTemp' OID is less than or equal to
- the low temperature threshold value, the
- 'emConfigProbeLowTempThreshold' OID, and the value of the
- 'emConfigProbeLowTempEnable' OID is enabled. Otherwise it will show
- noViolation(1). If the 'emConfigProbeLowTempEnable' OID is disabled,
- this OID will show disabled(3)."
- ::= { emStatusProbesEntry 8 }
-
-emStatusProbeHighHumidViolation OBJECT-TYPE
- SYNTAX INTEGER {
- noViolation(1),
- highHumidViolation(2),
- disabled(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The high humidity violation status of the probe humidity
- reading. This OID will show a highTempViolation(2)
- if the current humidity reading shown in the
- 'emStatusProbeCurrentHumid' OID is greater than or equal to
- the high humidity threshold value, the
- 'emConfigProbeHighHumidThreshold' OID, and the value of the
- 'emConfigProbeHighHumidEnable' OID is enabled. Otherwise it will
- show noViolation(1). If the 'emConfigProbeHighHumidEnable' OID is
- disabled, this OID will show disabled(3)"
- ::= { emStatusProbesEntry 9 }
-
-emStatusProbeLowHumidViolation OBJECT-TYPE
- SYNTAX INTEGER {
- noViolation(1),
- lowHumidViolation(2),
- disabled(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The low humidity violation status of the probe humidity
- reading. This OID will show a lowTempViolation(2)
- if the current humidity reading shown in the
- 'emStatusProbeCurrentHumid' OID is less than or equal to
- the low humidity threshold value, the
- 'emConfigProbeLowHumidThreshold' OID, and the value of the
- 'emConfigProbeLowHumidEnable' OID is enabled. Otherwise it will
- show noViolation(1). If the 'emConfigProbeLowHumidEnable' OID is
- disabled, this OID will show disabled(3)."
- ::= { emStatusProbesEntry 10 }
-
-emStatusContactsNumContacts OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of contacts supported by the
- Environmental Monitor."
- ::= { emStatus 4 }
-
-emStatusContactsTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EmStatusContactsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of contacts supported by the Environmental Monitor
- and their status."
- ::= { emStatus 5 }
-
-emStatusContactsEntry OBJECT-TYPE
- SYNTAX EmStatusContactsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The status of the contact."
- INDEX { emStatusContactNumber }
- ::= { emStatusContactsTable 1 }
-
-EmStatusContactsEntry ::=
- SEQUENCE {
- emStatusContactNumber
- INTEGER,
- emStatusContactName
- DisplayString,
- emStatusContactStatus
- INTEGER
- }
-
-emStatusContactNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the Environmental Monitor contact."
- ::= { emStatusContactsEntry 1 }
-
-emStatusContactName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A descriptive name for the Environmental Monitor contact
- set by the user, possibly denoting its location or purpose."
- ::= { emStatusContactsEntry 2 }
-
-emStatusContactStatus OBJECT-TYPE
- SYNTAX INTEGER {
- noFault(1),
- fault(2),
- disabled(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the Environmental Monitor contact. The status
- will show noFault(1) if the contact is in the normal state
- and the 'emConfigContactEnable' OID is enabled. The status will
- show a fault(2) if the contact is faulted and the
- 'emContactEnable' OID is enabled. If the 'emConfigContactEnable'
- OID is disabled, the status will show disabled(3)."
- ::= { emStatusContactsEntry 3 }
-
--- Integrated Environmental Monitor (IEM)
-
-iemIdentHardwareRevision OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware revision of the Integrated Environmental
- Monitor."
- ::= { iemIdent 1 }
-
-iemConfigProbesNumProbes OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of temperature and humidity probes available."
- ::= { iemConfig 1 }
-
-iemConfigProbesTable OBJECT-TYPE
- SYNTAX SEQUENCE OF IemConfigProbesEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of probes supported by the Environmental Monitor
- and their configurations."
- ::= { iemConfig 2 }
-
-iemConfigProbesEntry OBJECT-TYPE
- SYNTAX IemConfigProbesEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The Environmental Monitor probe configurations."
- INDEX { iemConfigProbeNumber }
- ::= { iemConfigProbesTable 1 }
-
-IemConfigProbesEntry ::=
- SEQUENCE {
- iemConfigProbeNumber
- INTEGER,
- iemConfigProbeName
- DisplayString,
- iemConfigProbeHighTempThreshold
- INTEGER,
- iemConfigProbeLowTempThreshold
- INTEGER,
- iemConfigProbeTempUnits
- INTEGER,
- iemConfigProbeHighHumidThreshold
- INTEGER,
- iemConfigProbeLowHumidThreshold
- INTEGER,
- iemConfigProbeHighTempEnable
- INTEGER,
- iemConfigProbeLowTempEnable
- INTEGER,
- iemConfigProbeHighHumidEnable
- INTEGER,
- iemConfigProbeLowHumidEnable
- INTEGER
- }
-
-iemConfigProbeNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to a Environmental Monitor probe entry."
- ::= { iemConfigProbesEntry 1 }
-
-iemConfigProbeName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A descriptive name for the probe set by the user,
- possibly denoting its location or purpose."
- ::= { iemConfigProbesEntry 2 }
-
-iemConfigProbeHighTempThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The high temperature alarm threshold for the probe.
- Units are displayed in the scale selected in the
- 'iemConfigProbeTempUnits' OID (Celsius or Fahrenheit)."
- ::= { iemConfigProbesEntry 3 }
-
-iemConfigProbeLowTempThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The low temperature alarm threshold for the probe.
- Units are displayed in the scale selected in the
- 'iemConfigProbeTempUnits' OID (Celsius or Fahrenheit)."
- ::= { iemConfigProbesEntry 4 }
-
-iemConfigProbeTempUnits OBJECT-TYPE
- SYNTAX INTEGER {
- celsius(1),
- fahrenheit(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The temperature scale used to display the temperature
- thresholds of the probe, Celsius(1) or Fahrenheit(2).
- This setting is based on the system preferences
- configuration in the agent."
- ::= { iemConfigProbesEntry 5 }
-
-iemConfigProbeHighHumidThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The high humidity alarm threshold for the probe in
- percent relative humidity."
- ::= { iemConfigProbesEntry 6 }
-
-iemConfigProbeLowHumidThreshold OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The low humidity alarm threshold for the probe in
- percent relative humidity."
- ::= { iemConfigProbesEntry 7 }
-
-iemConfigProbeHighTempEnable OBJECT-TYPE
- SYNTAX INTEGER {
- disabled(1),
- enabled(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The high temperature alarm enable/disable for the
- probe. No alarm will be generated if this value
- is set to disabled(1). The alarm will be
- generated if this value is set to enabled(2) and
- the threshold has been violated."
- ::= { iemConfigProbesEntry 8 }
-
-iemConfigProbeLowTempEnable OBJECT-TYPE
- SYNTAX INTEGER {
- disabled(1),
- enabled(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The low temperature alarm enable/disable for the
- probe. No alarm will be generated if this value
- is set to disabled(1). The alarm will be
- generated if this value is set to enabled(2) and
- the threshold has been violated."
- ::= { iemConfigProbesEntry 9 }
-
-iemConfigProbeHighHumidEnable OBJECT-TYPE
- SYNTAX INTEGER {
- disabled(1),
- enabled(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The high humidity alarm enable/disable for the
- probe. No alarm will be generated if this value
- is set to disabled(1). The alarm will be
- generated if this value is set to enabled(2) and
- the threshold has been violated."
- ::= { iemConfigProbesEntry 10 }
-
-iemConfigProbeLowHumidEnable OBJECT-TYPE
- SYNTAX INTEGER {
- disabled(1),
- enabled(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The low humidity alarm enable/disable for the
- probe. No alarm will be generated if this value
- is set to disabled(1). The alarm will be
- generated if this value is set to enabled(2) and
- the threshold has been violated."
- ::= { iemConfigProbesEntry 11 }
-
-iemConfigContactsNumContacts OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of contacts available on the Environmental
- Monitor."
- ::= { iemConfig 3 }
-
-iemConfigContactsTable OBJECT-TYPE
- SYNTAX SEQUENCE OF IemConfigContactsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of contacts supported by the Environmental Monitor
- and their configurations."
- ::= { iemConfig 4 }
-
-iemConfigContactsEntry OBJECT-TYPE
- SYNTAX IemConfigContactsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The Environmental Monitor contact configurations."
- INDEX { iemConfigContactNumber }
- ::= { iemConfigContactsTable 1 }
-
-IemConfigContactsEntry ::=
- SEQUENCE {
- iemConfigContactNumber
- INTEGER,
- iemConfigContactName
- DisplayString,
- iemConfigContactEnable
- INTEGER
- }
-
-iemConfigContactNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of an Environmental Monitor contact."
- ::= { iemConfigContactsEntry 1 }
-
-iemConfigContactName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "A descriptive name for the Environmental Monitor contact
- set by the user, possibly denoting its location or purpose."
- ::= { iemConfigContactsEntry 2 }
-
-iemConfigContactEnable OBJECT-TYPE
- SYNTAX INTEGER {
- disabled(1),
- enabled(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "An Environmental Monitor contact alarm enable/disable."
- ::= { iemConfigContactsEntry 3 }
-
-
-iemStatusProbesNumProbes OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of available probes on the Environmental
- Monitor."
- ::= { iemStatus 1 }
-
-iemStatusProbesTable OBJECT-TYPE
- SYNTAX SEQUENCE OF IemStatusProbesEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of probes supported by the Environmental Monitor
- and their status."
- ::= { iemStatus 2 }
-
-iemStatusProbesEntry OBJECT-TYPE
- SYNTAX IemStatusProbesEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The status of the probe."
- INDEX { iemStatusProbeNumber }
- ::= { iemStatusProbesTable 1 }
-
-IemStatusProbesEntry ::=
- SEQUENCE {
- iemStatusProbeNumber
- INTEGER,
- iemStatusProbeName
- DisplayString,
- iemStatusProbeStatus
- INTEGER,
- iemStatusProbeCurrentTemp
- INTEGER,
- iemStatusProbeTempUnits
- INTEGER,
- iemStatusProbeCurrentHumid
- INTEGER,
- iemStatusProbeHighTempViolation
- INTEGER,
- iemStatusProbeLowTempViolation
- INTEGER,
- iemStatusProbeHighHumidViolation
- INTEGER,
- iemStatusProbeLowHumidViolation
- INTEGER
- }
-
-iemStatusProbeNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the probe."
- ::= { iemStatusProbesEntry 1 }
-
-iemStatusProbeName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A descriptive name for the probe set by the user,
- denoting its location or purpose."
- ::= { iemStatusProbesEntry 2 }
-
-iemStatusProbeStatus OBJECT-TYPE
- SYNTAX INTEGER {
- disconnected(1),
- connected(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The connected status of the probe, either
- disconnected(1) or connected(2)."
- ::= { iemStatusProbesEntry 3 }
-
-iemStatusProbeCurrentTemp OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current temperature reading from the probe displayed
- in the units shown in the 'iemStatusProbeTempUnits' OID
- (Celsius or Fahrenheit)."
- ::= { iemStatusProbesEntry 4 }
-
-iemStatusProbeTempUnits OBJECT-TYPE
- SYNTAX INTEGER {
- celsius(1),
- fahrenheit(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The temperature scale used to display the temperature
- thresholds of the probe, Celsius(1) or Fahrenheit(2).
- This setting is based on the system preferences
- configuration in the agent."
- ::= { iemStatusProbesEntry 5 }
-
-iemStatusProbeCurrentHumid OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current humidity reading from the probe in percent
- relative humidity."
- ::= { iemStatusProbesEntry 6 }
-
-iemStatusProbeHighTempViolation OBJECT-TYPE
- SYNTAX INTEGER {
- noViolation(1),
- highTempViolation(2),
- disabled(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The high temperature violation status of the probe
- temperature reading. This OID will show a highTempViolation(2)
- if the current temperature reading shown in the
- 'iemStatusProbeCurrentTemp' OID is greater than or equal to
- the high temperature threshold value, the
- 'iemConfigProbeHighTempThreshold' OID, and the value of the
- 'iemConfigProbeHighTempEnable' OID is enabled. Otherwise it will show
- noViolation(1). If the 'iemConfigProbeHighTempEnable' OID is disabled,
- this OID will show disabled(3)."
- ::= { iemStatusProbesEntry 7 }
-
-iemStatusProbeLowTempViolation OBJECT-TYPE
- SYNTAX INTEGER {
- noViolation(1),
- lowTempViolation(2),
- disabled(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The high temperature violation status of the probe
- temperature reading. This OID will show a lowTempViolation(2)
- if the current temperature reading shown in the
- 'iemStatusProbeCurrentTemp' OID is less than or equal to
- the low temperature threshold value, the
- 'iemConfigProbeLowTempThreshold' OID, and the value of the
- 'iemPConfigrobeLowTempEnable' OID is enabled. Otherwise it will show
- noViolation(1). If the 'iemConfigProbeLowTempEnable' OID is disabled,
- this OID will show disabled(3)."
- ::= { iemStatusProbesEntry 8 }
-
-iemStatusProbeHighHumidViolation OBJECT-TYPE
- SYNTAX INTEGER {
- noViolation(1),
- highHumidViolation(2),
- disabled(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The high humidity violation status of the probe humidity
- reading. This OID will show a highTempViolation(2)
- if the current humidity reading shown in the
- 'iemStatusProbeCurrentHumid' OID is greater than or equal to
- the high humidity threshold value, the
- 'iemConfigProbeHighHumidThreshold' OID, and the value of the
- 'iemConfigProbeHighHumidEnable' OID is enabled. Otherwise it will
- show noViolation(1). If the 'iemConfigProbeHighHumidEnable' OID is
- disabled, this OID will show disabled(3)."
- ::= { iemStatusProbesEntry 9 }
-
-iemStatusProbeLowHumidViolation OBJECT-TYPE
- SYNTAX INTEGER {
- noViolation(1),
- lowHumidViolation(2),
- disabled(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The low humidity violation status of the probe humidity
- reading. This OID will show a lowTempViolation(2)
- if the current humidity reading shown in the
- 'iemStatusProbeCurrentHumid' OID is less than or equal to
- the low humidity threshold value, the
- 'iemConfigProbeLowHumidThreshold' OID, and the value of the
- 'iemConfigProbeLowHumidEnable' OID is enabled. Otherwise it will
- show noViolation(1). If the 'iemConfigProbeLowHumidEnable' OID is
- disabled, this OID will show disabled(3)."
- ::= { iemStatusProbesEntry 10 }
-
-iemStatusContactsNumContacts OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of contacts supported on the
- Environmental Monitor."
- ::= { iemStatus 3 }
-
-iemStatusContactsTable OBJECT-TYPE
- SYNTAX SEQUENCE OF IemStatusContactsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of contacts supported by the Environmental Monitor
- and their status."
- ::= { iemStatus 4 }
-
-iemStatusContactsEntry OBJECT-TYPE
- SYNTAX IemStatusContactsEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The status of the contact."
- INDEX { iemStatusContactNumber }
- ::= { iemStatusContactsTable 1 }
-
-IemStatusContactsEntry ::=
- SEQUENCE {
- iemStatusContactNumber
- INTEGER,
- iemStatusContactName
- DisplayString,
- iemStatusContactStatus
- INTEGER
- }
-
-iemStatusContactNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the Environmental Monitor contact."
- ::= { iemStatusContactsEntry 1 }
-
-iemStatusContactName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A descriptive name for the Environmental Monitor contact
- set by the user, denoting its location or purpose."
- ::= { iemStatusContactsEntry 2 }
-
-iemStatusContactStatus OBJECT-TYPE
- SYNTAX INTEGER {
- noFault(1),
- fault(2),
- disabled(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the Environmental Monitor contact. The status
- will show noFault(1) if the contact is in the normal state
- and the 'iemConfigContactEnable' OID is enabled. The status will
- show a fault(2) if the contact is faulted and the
- 'iemConfigContactEnable' OID is enabled. If the
- 'iemConfigContactEnable' OID is disabled, the status will show
- disabled(3)."
- ::= { iemStatusContactsEntry 3 }
-
-iemStatusRelaysNumRelays OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of output relays supported on the
- Environmental Monitor."
- ::= { iemStatus 6 }
-
-iemStatusRelaysTable OBJECT-TYPE
- SYNTAX SEQUENCE OF IemStatusRelaysEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "A list of output relays supported by the
- Environmental Monitor and their status."
- ::= { iemStatus 7 }
-
-iemStatusRelaysEntry OBJECT-TYPE
- SYNTAX IemStatusRelaysEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The status of the relay."
- INDEX { iemStatusRelayNumber }
- ::= { iemStatusRelaysTable 1 }
-
-IemStatusRelaysEntry ::=
- SEQUENCE {
- iemStatusRelayNumber
- INTEGER,
- iemStatusRelayName
- DisplayString,
- iemStatusRelayStatus
- INTEGER
- }
-
-iemStatusRelayNumber OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the output relay."
- ::= { iemStatusRelaysEntry 1 }
-
-iemStatusRelayName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A descriptive name for the output relay set by the
- user, denoting its location or purpose."
- ::= { iemStatusRelaysEntry 2 }
-
-iemStatusRelayStatus OBJECT-TYPE
- SYNTAX INTEGER {
- faultState(1),
- normalState(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the output relay, either faultState(1) or
- normalState(2)."
- ::= { iemStatusRelaysEntry 3 }
-
--- Environmental Management System (EMS)
-
--- EMS IDENT
-
-emsIdentEMSName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the
- device. "
- ::= { emsIdent 1 }
-
-emsIdentProductNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the model number of
- the device. This value is set at the factory."
- ::= { emsIdent 2 }
-
-emsIdentFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The firmware revision of the device."
- ::= { emsIdent 3 }
-
-emsIdentHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The hardware revision of the device.
- This value is set at the factory."
- ::= { emsIdent 4 }
-
-emsIdentDateOfManufacture OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The date when the device was manufactured in mm/dd/yyyy format.
- This value is set at the factory. "
- ::= { emsIdent 5 }
-
-emsIdentSerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the serial number of
- the device. This value is set at the factory."
- ::= { emsIdent 6 }
-
--- EMS CONTROL
-
--- EMS OUTPUT RELAY CONTROL STATUS TABLE
-
-emsOutputRelayControlTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutputRelayControlEMSEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for control of individual output relays. The number of
- entries is contained in the emsStatusOutputRelayCount OID."
- ::= { emsOutputRelayControl 1 }
-
-emsOutputRelayControlEntry OBJECT-TYPE
- SYNTAX OutputRelayControlEMSEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The output relays to control."
- INDEX { emsOutputRelayControlOutputRelayIndex }
- ::= { emsOutputRelayControlTable 1 }
-
-OutputRelayControlEMSEntry ::=
- SEQUENCE {
- emsOutputRelayControlOutputRelayIndex INTEGER,
- emsOutputRelayControlOutputRelayName DisplayString,
- emsOutputRelayControlOutputRelayCommand INTEGER
- }
-
-emsOutputRelayControlOutputRelayIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the output relay entry."
- ::= { emsOutputRelayControlEntry 1 }
-
-emsOutputRelayControlOutputRelayName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the output relay.
- This OID is provided for informational purposes only."
- ::= { emsOutputRelayControlEntry 2 }
-
-emsOutputRelayControlOutputRelayCommand OBJECT-TYPE
- SYNTAX INTEGER {
- immediateCloseEMS (1),
- immediateOpenEMS (2)
- }
-
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the output relay state. If
- the output relay is closed, the immediateCloseEMS (1) value will be returned.
- If the output relay is open, the immediateOpenEMS (2) value will be
- returned.
-
- Setting this variable to immediateCloseEMS (1) will immediately close the relay.
-
- Setting this variable to immediateOpenEMS (2) will immediately open the relay."
- ::= { emsOutputRelayControlEntry 3 }
-
--- EMS OUTLET CONTROL TABLE
-
-emsOutletControlTable OBJECT-TYPE
- SYNTAX SEQUENCE OF OutletControlEMSEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for control of individual outlet switches. The number of
- entries is contained in the emsStatusOutletCount OID."
- ::= { emsOutletControl 1 }
-
-emsOutletControlEntry OBJECT-TYPE
- SYNTAX OutletControlEMSEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to control."
- INDEX { emsOutletControlOutletIndex }
- ::= { emsOutletControlTable 1 }
-
-OutletControlEMSEntry ::=
- SEQUENCE {
- emsOutletControlOutletIndex INTEGER,
- emsOutletControlOutletName DisplayString,
- emsOutletControlOutletCommand INTEGER
- }
-
-emsOutletControlOutletIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { emsOutletControlEntry 1 }
-
-emsOutletControlOutletName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet.
- This OID is provided for informational purposes only."
- ::= { emsOutletControlEntry 2 }
-
-emsOutletControlOutletCommand OBJECT-TYPE
- SYNTAX INTEGER {
- immediateOnEMS (1),
- immediateOffEMS (2)
- }
-
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the outlet state. If
- the outlet is on, the immediateOnEMS (1) value will be returned.
- If the outlet is off, the immediateOffEMS (2) value will be
- returned.
-
- Setting this variable to immediateOnEMS (1) will immediately turn the outlet on.
-
- Setting this variable to immediateOffEMS (2) will immediately turn the outlet off."
- ::= { emsOutletControlEntry 3 }
-
--- EMS SENSOR CONTROL TABLE
-
-emsSensorControlTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EMSSensorControlEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for control/reset of individual sensors. The number of
- entries is contained in the emsStatusSensorCount OID."
- ::= { emsSensorControl 1 }
-
-emsSensorControlEntry OBJECT-TYPE
- SYNTAX EMSSensorControlEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The sensors to control/reset."
- INDEX { emsSensorControlSensorIndex }
- ::= { emsSensorControlTable 1 }
-
-EMSSensorControlEntry ::=
- SEQUENCE {
- emsSensorControlSensorIndex INTEGER,
- emsSensorControlSensorSystemName DisplayString,
- emsSensorControlSensorUserName DisplayString,
- emsSensorControlSensorCommand INTEGER
- }
-
-emsSensorControlSensorIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the sensor entry."
- ::= { emsSensorControlEntry 1 }
-
-emsSensorControlSensorSystemName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system name of the sensor. This describes the hardware system
- intent of this sensor."
- ::= { emsSensorControlEntry 2 }
-
-emsSensorControlSensorUserName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the sensor as given by the system user."
- ::= { emsSensorControlEntry 3 }
-
-emsSensorControlSensorCommand OBJECT-TYPE
- SYNTAX INTEGER {
- noCommandEMS (1),
- resetCommandEMS (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return noCommandEMS(1).
-
- Setting this variable to resetCommandEMS(2) will issue a reset command to the
- sensor. Some sensors cannot be manually reset and will not be affected
- by this command."
- ::= { emsSensorControlEntry 4 }
-
--- EMS ALARM DEVICE CONTROL TABLE
-
-emsAlarmDeviceControlTable OBJECT-TYPE
- SYNTAX SEQUENCE OF AlarmDeviceControlEMSEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for control of individual alarm devices.
- Note: Some alarm devices are not controllable. The number of
- entries is contained in the emsStatusAlarmDeviceCount OID."
- ::= { emsAlarmDeviceControl 1 }
-
-emsAlarmDeviceControlEntry OBJECT-TYPE
- SYNTAX AlarmDeviceControlEMSEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The alarm devices to control."
- INDEX { emsAlarmDeviceControlDeviceIndex }
- ::= { emsAlarmDeviceControlTable 1 }
-
-AlarmDeviceControlEMSEntry ::=
- SEQUENCE {
- emsAlarmDeviceControlDeviceIndex INTEGER,
- emsAlarmDeviceControlDeviceName DisplayString,
- emsAlarmDeviceControlDeviceCommand INTEGER
- }
-
-emsAlarmDeviceControlDeviceIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the alarm device entry."
- ::= { emsAlarmDeviceControlEntry 1 }
-
-emsAlarmDeviceControlDeviceName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the alarm device.
- This OID is provided for informational purposes only."
- ::= { emsAlarmDeviceControlEntry 2 }
-
-emsAlarmDeviceControlDeviceCommand OBJECT-TYPE
- SYNTAX INTEGER {
- alarmDeviceOnEMS (1),
- alarmDeviceOffEMS (2),
- alarmDeviceNotInstalledEMS (3)
- }
-
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the device state. If
- the device is active, the alarmDeviceOnEMS (1) value will be returned.
- If the device is inactive, the alarmDeviceOffEMS (2) value will be
- returned. If the device is not installed, the
- alarmDeviceNotInstalledEMS (3) value will be returned.
-
- Actions resulting from setting this variable are device-dependent.
-
- Setting this variable to alarmDeviceOnEMS (1) will turn that device (ex. Beacon) on.
- Setting this variable to alarmDeviceOffEMS (2) will turn that device off."
-
- ::= { emsAlarmDeviceControlEntry 3 }
-
-
--- EMS CONFIG
-
-emsConfigName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the device."
- ::= { emsConfig 1 }
-
-emsConfigCheckLogLight OBJECT-TYPE
- SYNTAX INTEGER {
- lightDisabled (1),
- lightOnInformational (2),
- lightOnWarning (3),
- lightOnSevere (4)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The setting of this OID determines the level of event that will
- trigger the check-log light on the EMS. This is not available on the EMU2.
-
- lightDisabled (1) disables the check-log light.
- lightOnInformational (2) lights check-log for any event of
- informational severity or above.
- lightOnWarning (3) lights check-log for any event of
- warning severity or above.
- lightOnSevere (4) lights check-log for any event of severe severity."
-
- ::= { emsConfig 2 }
-
--- EMS PROBE CONFIG TABLE
-
-emsProbeConfigTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EMSProbeConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of individual probes. The number of
- entries is contained in the emsStatusProbeCount OID."
- ::= { emsProbeConfig 1 }
-
-emsProbeConfigEntry OBJECT-TYPE
- SYNTAX EMSProbeConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The probes to configure."
- INDEX { emsProbeConfigProbeIndex }
- ::= { emsProbeConfigTable 1 }
-
-EMSProbeConfigEntry ::=
- SEQUENCE {
- emsProbeConfigProbeIndex INTEGER,
- emsProbeConfigProbeName DisplayString,
- emsProbeConfigProbeHighTempThresh INTEGER,
- emsProbeConfigProbeLowTempThresh INTEGER,
- emsProbeConfigProbeHighHumidityThresh INTEGER,
- emsProbeConfigProbeLowHumidityThresh INTEGER,
- emsProbeConfigProbeMaxTempThresh INTEGER,
- emsProbeConfigProbeMinTempThresh INTEGER,
- emsProbeConfigProbeDeltaTemp INTEGER,
- emsProbeConfigProbeMaxHumidityThresh INTEGER,
- emsProbeConfigProbeMinHumidityThresh INTEGER,
- emsProbeConfigProbeDeltaHumidity INTEGER,
- emsProbeConfigProbeSTIncTempVariance INTEGER,
- emsProbeConfigProbeSTIncTempTime INTEGER,
- emsProbeConfigProbeSTDecTempVariance INTEGER,
- emsProbeConfigProbeSTDecTempTime INTEGER,
- emsProbeConfigProbeLTIncTempVariance INTEGER,
- emsProbeConfigProbeLTIncTempTime INTEGER,
- emsProbeConfigProbeLTDecTempVariance INTEGER,
- emsProbeConfigProbeLTDecTempTime INTEGER
- }
-
-emsProbeConfigProbeIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the probe entry."
- ::= { emsProbeConfigEntry 1 }
-
-emsProbeConfigProbeName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the probe."
- ::= { emsProbeConfigEntry 2 }
-
-emsProbeConfigProbeHighTempThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe high temperature threshold.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeConfigEntry 3 }
-
-emsProbeConfigProbeLowTempThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe low temperature threshold.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeConfigEntry 4 }
-
-emsProbeConfigProbeHighHumidityThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe high humidity threshold.
-
- Values are represented in whole number percentage."
- ::= { emsProbeConfigEntry 5 }
-
-emsProbeConfigProbeLowHumidityThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe low humidity threshold.
-
- Values are represented in whole number percentage."
- ::= { emsProbeConfigEntry 6 }
-
-emsProbeConfigProbeMaxTempThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe maximum temperature threshold.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeConfigEntry 7 }
-
-emsProbeConfigProbeMinTempThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe minimum temperature threshold.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeConfigEntry 8 }
-
-emsProbeConfigProbeDeltaTemp OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe delta temperature.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeConfigEntry 9 }
-
-emsProbeConfigProbeMaxHumidityThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe maximum humidity threshold.
-
- Values are represented in whole number percentage."
- ::= { emsProbeConfigEntry 10 }
-
-emsProbeConfigProbeMinHumidityThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe minimum humidity threshold.
-
- Values are represented in whole number percentage."
- ::= { emsProbeConfigEntry 11 }
-
-emsProbeConfigProbeDeltaHumidity OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe delta humidity.
-
- Values are represented in whole number percentage."
- ::= { emsProbeConfigEntry 12 }
-
-emsProbeConfigProbeSTIncTempVariance OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe short-term increasing temperature variance used for rate of change alarms.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeConfigEntry 13 }
-
-emsProbeConfigProbeSTIncTempTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe short-term increasing temperature time used for rate of change alarms.
-
- Values are represented in whole number minutes."
- ::= { emsProbeConfigEntry 14 }
-
-emsProbeConfigProbeSTDecTempVariance OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe short-term decreasing temperature variance used for rate of change alarms.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeConfigEntry 15 }
-
-emsProbeConfigProbeSTDecTempTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe short-term decreasing temperature time used for rate of change alarms.
-
- Values are represented in whole number minutes."
- ::= { emsProbeConfigEntry 16 }
-
-emsProbeConfigProbeLTIncTempVariance OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe long-term increasing temperature variance used for rate of change alarms.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeConfigEntry 17 }
-
-emsProbeConfigProbeLTIncTempTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe long-term increasing temperature time used for rate of change alarms.
-
- Values are represented in whole number hours."
- ::= { emsProbeConfigEntry 18 }
-
-emsProbeConfigProbeLTDecTempVariance OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe long-term decreasing temperature variance used for rate of change alarms.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeConfigEntry 19 }
-
-emsProbeConfigProbeLTDecTempTime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Probe long-term decreasing temperature time used for rate of change alarms.
-
- Values are represented in whole number hours."
- ::= { emsProbeConfigEntry 20 }
-
-
--- EMS INPUT CONTACT CONFIG STATUS TABLE
-
-emsInputContactConfigTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EMSInputContactConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of individual input contacts. The number of
- entries is contained in the emsStatusInputContactCount OID."
- ::= { emsInputContactConfig 1 }
-
-emsInputContactConfigEntry OBJECT-TYPE
- SYNTAX EMSInputContactConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The input contacts to configure."
- INDEX { emsInputContactConfigInputContactIndex }
- ::= { emsInputContactConfigTable 1 }
-
-EMSInputContactConfigEntry ::=
- SEQUENCE {
- emsInputContactConfigInputContactIndex INTEGER,
- emsInputContactConfigInputContactName DisplayString,
- emsInputContactConfigInputContactNormalState INTEGER
- }
-
-emsInputContactConfigInputContactIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the input contact entry."
- ::= { emsInputContactConfigEntry 1 }
-
-emsInputContactConfigInputContactName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the input contact."
- ::= { emsInputContactConfigEntry 2 }
-
-emsInputContactConfigInputContactNormalState OBJECT-TYPE
- SYNTAX INTEGER {
- normallyClosedEMS (1),
- normallyOpenEMS (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the normal state of the input contact. If
- the normal state is closed, the normallyClosedEMS (1) value will be returned.
- If the normal state is closed, the normallyOpenEMS (2) value will be
- returned.
-
- Setting this variable will change the normal state of the input contact"
- ::= { emsInputContactConfigEntry 3 }
-
--- EMS OUTPUT RELAY CONFIG STATUS TABLE
-
-emsOutputRelayConfigTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EMSOutputRelayConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of individual output relays. The number of
- entries is contained in the emsStatusOutputRelayCount OID."
- ::= { emsOutputRelayConfig 1 }
-
-emsOutputRelayConfigEntry OBJECT-TYPE
- SYNTAX EMSOutputRelayConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The output relays to configure."
- INDEX { emsOutputRelayConfigOutputRelayIndex }
- ::= { emsOutputRelayConfigTable 1 }
-
-EMSOutputRelayConfigEntry ::=
- SEQUENCE {
- emsOutputRelayConfigOutputRelayIndex INTEGER,
- emsOutputRelayConfigOutputRelayName DisplayString,
- emsOutputRelayConfigOutputRelayNormalState INTEGER
- }
-
-emsOutputRelayConfigOutputRelayIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the output relay entry."
- ::= { emsOutputRelayConfigEntry 1 }
-
-emsOutputRelayConfigOutputRelayName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the output relay."
- ::= { emsOutputRelayConfigEntry 2 }
-
-emsOutputRelayConfigOutputRelayNormalState OBJECT-TYPE
- SYNTAX INTEGER {
- normallyClosedEMS (1),
- normallyOpenEMS (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the normal state of the output relay. If
- the normal state is closed, the normallyClosedEMS (1) value will be returned.
- If the normal state is closed, the normallyOpenEMS (2) value will be
- returned.
-
- Setting this variable will change the normal state of the output relay"
- ::= { emsOutputRelayConfigEntry 3 }
-
--- EMS OUTLET CONFIG TABLE
-
-emsOutletConfigTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EMSOutletConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of individual outlets. The number of
- entries is contained in the emsStatusOutletCount OID."
- ::= { emsOutletConfig 1 }
-
-emsOutletConfigEntry OBJECT-TYPE
- SYNTAX EMSOutletConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to configure."
- INDEX { emsOutletConfigOutletIndex }
- ::= { emsOutletConfigTable 1 }
-
-EMSOutletConfigEntry ::=
- SEQUENCE {
- emsOutletConfigOutletIndex INTEGER,
- emsOutletConfigOutletName DisplayString,
- emsOutletConfigOutletNormalState INTEGER
- }
-
-emsOutletConfigOutletIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { emsOutletConfigEntry 1 }
-
-emsOutletConfigOutletName OBJECT-TYPE
- SYNTAX DisplayString ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet."
- ::= { emsOutletConfigEntry 2 }
-
-emsOutletConfigOutletNormalState OBJECT-TYPE
- SYNTAX INTEGER {
- normallyOnEMS (1),
- normallyOffEMS (2)
- }
-
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the normal state of the outlet. If
- the normal state is on, the normallyOnEMS (1) value will be returned.
- If the normal state is off, the normallyOffEMS (2) value will be
- returned.
-
- Setting this variable will change the normal state of the outlet"
- ::= { emsOutletConfigEntry 3 }
-
--- EMS SENSOR CONFIG TABLE
-
-emsSensorConfigTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EMSSensorConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of individual sensors. The number of
- entries is contained in the emsStatusSensorCount OID."
- ::= { emsSensorConfig 1 }
-
-emsSensorConfigEntry OBJECT-TYPE
- SYNTAX EMSSensorConfigEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The sensors to configure."
- INDEX { emsSensorConfigSensorIndex }
- ::= { emsSensorConfigTable 1 }
-
-EMSSensorConfigEntry ::=
- SEQUENCE {
- emsSensorConfigSensorIndex INTEGER,
- emsSensorConfigSensorSystemName DisplayString,
- emsSensorConfigSensorUserName DisplayString,
- emsSensorConfigSensorNormalState INTEGER,
- emsSensorConfigSensorAlarmDelay INTEGER
- }
-
-emsSensorConfigSensorIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the sensor entry."
- ::= { emsSensorConfigEntry 1 }
-
-emsSensorConfigSensorSystemName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system name of the sensor. This describes the hardware system
- intent of this sensor."
- ::= { emsSensorConfigEntry 2 }
-
-emsSensorConfigSensorUserName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the sensor as given by the system user."
- ::= { emsSensorConfigEntry 3 }
-
-emsSensorConfigSensorNormalState OBJECT-TYPE
- SYNTAX INTEGER {
- normallyClosedEMS (1),
- normallyOpenEMS (2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the normal state of the sensor. If
- the normal state is closed, the normallyClosedEMS (1) value will be returned.
- If the normal state is closed, the normallyOpenEMS (2) value will be
- returned.
-
- Setting this variable will change the normal state of the sensor. Note:
- Only the AUX sensor in the EMS has a configurable Normal State"
- ::= { emsSensorConfigEntry 4 }
-
-emsSensorConfigSensorAlarmDelay OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The delay (in seconds) after a sensor detects an alarm condition before the
- condition is reported."
- ::= { emsSensorConfigEntry 5 }
-
--- EMS STATUS
---- EMS MASTER status
-
-emsStatusEMSName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the
- device. "
- ::= { emsStatus 1 }
-
-emsStatusCommStatus OBJECT-TYPE
- SYNTAX INTEGER {
- noComm(1),
- comm(2),
- commLost(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The communication status between the agent
- and the device.
-
- noComm(1), Communication has never been established.
- comm(2), Communication has been established.
- commLost(3), Communication was established, but was lost."
- ::= { emsStatus 2 }
-
-emsStatusProbeCount OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The total number of T/H probes (both local and remote) that
- is supported by this device."
- ::= { emsStatus 3 }
-
-emsStatusInputContactCount OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The total number of Input Contacts that
- is supported by this device."
- ::= { emsStatus 4 }
-
-emsStatusOutputRelayCount OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The total number of Output Relays that
- is supported by this device."
- ::= { emsStatus 5 }
-
-emsStatusOutletCount OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The total number of AC Outlets that
- is supported by this device."
- ::= { emsStatus 6 }
-
-emsStatusSensorCount OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The total number of Sensors that
- is supported by this device."
- ::= { emsStatus 7 }
-
-emsStatusAlinkAruDeviceCount OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The total number of remote Aru's supported by this device."
- ::= { emsStatus 8 }
-
-emsStatusAlinkProbeDeviceCount OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The total number of remote T/H probes supported by this device."
- ::= { emsStatus 9 }
-
-emsStatusAlarmDeviceCount OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of alarm devices supported by this device."
- ::= { emsStatus 10 }
-
-emsStatusSysTempUnits OBJECT-TYPE
- SYNTAX INTEGER {
- celsius(1),
- fahrenheit(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The temperature scale used to display the temperature
- in the system, Celsius(1) or Fahrenheit(2).
- This setting is based on the system preferences
- configuration in the agent."
- ::= { emsStatus 11 }
-
-emsStatusCheckLogLight OBJECT-TYPE
- SYNTAX INTEGER {
- lightOff (1),
- lightOn (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the check-log light on the device.
- For the EMU2, this will always indicate lightOff(1).
-
- lightOff (1) indicates the light is off (no new log entries).
- lightOn (2) indicates the light is on (new log entries present)."
-
- ::= { emsStatus 12 }
-
-emsStatusHardwareStatus OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the EMS hardware. This integer should be interpreted
- as a bit map, with each bit representing the presence or absence of
- a specific hardware error condition.
-
- 0 indicates there are no error conditions detected in the EMS hardware.
- 1 indicates a Current Limit error condition related to the Alink port.
- 2 indicates incorrect hardware is plugged into an EMS port.
- 3 indicates that both of these error conditions are present."
-
- ::= { emsStatus 13 }
-
--- EMS PROBE STATUS TABLE
-
-emsProbeStatusTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EMSProbeStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for access of individual probes. The number of
- entries is contained in the emsStatusProbeCount OID."
- ::= { emsProbeStatus 1 }
-
-emsProbeStatusEntry OBJECT-TYPE
- SYNTAX EMSProbeStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The probes to access."
- INDEX { emsProbeStatusProbeIndex }
- ::= { emsProbeStatusTable 1 }
-
-EMSProbeStatusEntry ::=
- SEQUENCE {
- emsProbeStatusProbeIndex INTEGER,
- emsProbeStatusProbeName DisplayString,
- emsProbeStatusProbeTemperature INTEGER,
- emsProbeStatusProbeHighTempThresh INTEGER,
- emsProbeStatusProbeLowTempThresh INTEGER,
- emsProbeStatusProbeHumidity INTEGER,
- emsProbeStatusProbeHighHumidityThresh INTEGER,
- emsProbeStatusProbeLowHumidityThresh INTEGER,
- emsProbeStatusProbeSerialNumber DisplayString,
- emsProbeStatusProbeCommStatus INTEGER,
- emsProbeStatusProbeAlarmStatus INTEGER,
- emsProbeStatusProbeMaxTempThresh INTEGER,
- emsProbeStatusProbeMinTempThresh INTEGER,
- emsProbeStatusProbeMaxHumidityThresh INTEGER,
- emsProbeStatusProbeMinHumidityThresh INTEGER
- }
-
-emsProbeStatusProbeIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the probe entry."
- ::= { emsProbeStatusEntry 1 }
-
-emsProbeStatusProbeName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the probe."
- ::= { emsProbeStatusEntry 2 }
-
-emsProbeStatusProbeTemperature OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Probe temperature reading.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeStatusEntry 3 }
-
-emsProbeStatusProbeHighTempThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Probe high temperature threshold.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeStatusEntry 4 }
-
-emsProbeStatusProbeLowTempThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Probe low temperature threshold.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeStatusEntry 5 }
-
-emsProbeStatusProbeHumidity OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Probe humidity reading.
-
- Values are represented in whole number percentage."
- ::= { emsProbeStatusEntry 6 }
-
-emsProbeStatusProbeHighHumidityThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Probe high humidity threshold.
-
- Values are represented in whole number percentage."
- ::= { emsProbeStatusEntry 7 }
-
-emsProbeStatusProbeLowHumidityThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Probe low humidity threshold.
-
- Values are represented in whole number percentage."
- ::= { emsProbeStatusEntry 8 }
-
-emsProbeStatusProbeSerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A label indicating the type (Local[L] or Remote[R]) and Number
- of the probe. For example, the first local probe would be L1 and
- the third remote probe would be R3."
- ::= { emsProbeStatusEntry 9 }
-
-emsProbeStatusProbeCommStatus OBJECT-TYPE
- SYNTAX INTEGER {
- commsNeverDiscovered(1),
- commsEstablished(2),
- commsLost(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- " The state of communications to the probe.
- commNeverDiscovered(1) indicates there has never been communications with this device.
- commsEstablished(2) indicates communication is normal and active with this device.
- commsLost(3) indicates communication had been established, but is no longer."
- ::= { emsProbeStatusEntry 10 }
-
-emsProbeStatusProbeAlarmStatus OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The alarm status of the probe. This integer should be interpreted
- as a bit map, with each bit representing the presence or absence of
- the specific alarm conditions listed below. The bit will be '1' if
- the condition is present, and '0' if the condition is not present.
-
- Bit Hex. Value Description
- 1 0x0001 Maximum temperature exceeded.
- 2 0x0002 High temperature exceeded.
- 3 0x0004 Low temperature exceeded.
- 4 0x0008 Minimum temperature exceeded.
- 5 0x0010 Short-term increasing temperature rate exceeded.
- 6 0x0020 Short-term decreasing temperature rate exceeded.
- 7 0x0040 Long-term increasing temperature rate exceeded.
- 8 0x0080 Long-term decreasing temperature rate exceeded.
- 9 0x0100 Maximum humidity exceeded.
- 10 0x0200 High humidity exceeded.
- 11 0x0400 Low humidity exceeded.
- 12 0x0800 Minimum humidity exceeded."
- ::= { emsProbeStatusEntry 11 }
-
-emsProbeStatusProbeMaxTempThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Probe maximum temperature threshold.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeStatusEntry 12 }
-
-emsProbeStatusProbeMinTempThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Probe minimum temperature threshold.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the emsStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { emsProbeStatusEntry 13 }
-
-emsProbeStatusProbeMaxHumidityThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Probe maximum humidity threshold.
-
- Values are represented in whole number percentage."
- ::= { emsProbeStatusEntry 14 }
-
-emsProbeStatusProbeMinHumidityThresh OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Probe minimum humidity threshold.
-
- Values are represented in whole number percentage."
- ::= { emsProbeStatusEntry 15 }
-
-
--- EMS INPUT CONTACT STATUS TABLE
-
-emsInputContactStatusTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EMSInputContactStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for access of individual input contacts. The number of
- entries is contained in the emsStatusInputContactCount OID."
- ::= { emsInputContactStatus 1 }
-
-emsInputContactStatusEntry OBJECT-TYPE
- SYNTAX EMSInputContactStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The input contacts to access."
- INDEX { emsInputContactStatusInputContactIndex }
- ::= { emsInputContactStatusTable 1 }
-
-EMSInputContactStatusEntry ::=
- SEQUENCE {
- emsInputContactStatusInputContactIndex INTEGER,
- emsInputContactStatusInputContactName DisplayString,
- emsInputContactStatusInputContactState INTEGER,
- emsInputContactStatusInputContactNormalState INTEGER
- }
-
-emsInputContactStatusInputContactIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the input contact entry."
- ::= { emsInputContactStatusEntry 1 }
-
-emsInputContactStatusInputContactName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the input contact."
- ::= { emsInputContactStatusEntry 2 }
-
-emsInputContactStatusInputContactState OBJECT-TYPE
- SYNTAX INTEGER {
- contactClosedEMS (1),
- contactOpenEMS (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the state of the input contact. If
- the input contact is closed, the contactClosedEMS (1) value will be returned.
- If the input contact state is open, the contactOpenEMS (2) value will be
- returned. "
-
- ::= { emsInputContactStatusEntry 3 }
-
-emsInputContactStatusInputContactNormalState OBJECT-TYPE
- SYNTAX INTEGER {
- normallyClosedEMS (1),
- normallyOpenEMS (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the normal state of the input contact. If
- the normal state is closed, the normallyClosedEMS (1) value will be returned.
- If the normal state is open, the normallyOpenEMS (2) value will be
- returned. "
-
- ::= { emsInputContactStatusEntry 4 }
-
-
--- EMS OUTPUT RELAY STATUS TABLE
-
-emsOutputRelayStatusTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EMSOutputRelayStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for access of individual output relays. The number of
- entries is contained in the emsStatusOutputRelayCount OID."
- ::= { emsOutputRelayStatus 1 }
-
-emsOutputRelayStatusEntry OBJECT-TYPE
- SYNTAX EMSOutputRelayStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The output relays to access."
- INDEX { emsOutputRelayStatusOutputRelayIndex }
- ::= { emsOutputRelayStatusTable 1 }
-
-EMSOutputRelayStatusEntry ::=
- SEQUENCE {
- emsOutputRelayStatusOutputRelayIndex INTEGER,
- emsOutputRelayStatusOutputRelayName DisplayString,
- emsOutputRelayStatusOutputRelayState INTEGER,
- emsOutputRelayStatusOutputRelayNormalState INTEGER
- }
-
-emsOutputRelayStatusOutputRelayIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the output relay entry."
- ::= { emsOutputRelayStatusEntry 1 }
-
-emsOutputRelayStatusOutputRelayName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the output relay."
- ::= { emsOutputRelayStatusEntry 2 }
-
-emsOutputRelayStatusOutputRelayState OBJECT-TYPE
- SYNTAX INTEGER {
- relayClosedEMS (1),
- relayOpenEMS (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the state of the output relay. If
- the output relay is closed, the relayClosedEMS (1) value will be returned.
- If the output relay is open, the relayOpenEMS (2) value will be
- returned. "
-
- ::= { emsOutputRelayStatusEntry 3 }
-
-emsOutputRelayStatusOutputRelayNormalState OBJECT-TYPE
- SYNTAX INTEGER {
- normallyClosedEMS (1),
- normallyOpenEMS (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the normal state of the output relay. If
- the normal state is closed, the normallyClosedEMS (1) value will be returned.
- If the normal state is open, the normallyOpenEMS (2) value will be
- returned. "
-
- ::= { emsOutputRelayStatusEntry 4 }
-
--- EMS OUTLET STATUS TABLE
-
-emsOutletStatusTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EMSOutletStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for access of individual outlets. The number of
- entries is contained in the emsStatusOutletCount OID."
- ::= { emsOutletStatus 1 }
-
-emsOutletStatusEntry OBJECT-TYPE
- SYNTAX EMSOutletStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The outlets to access."
- INDEX { emsOutletStatusOutletIndex }
- ::= { emsOutletStatusTable 1 }
-
-EMSOutletStatusEntry ::=
- SEQUENCE {
- emsOutletStatusOutletIndex INTEGER,
- emsOutletStatusOutletName DisplayString,
- emsOutletStatusOutletState INTEGER,
- emsOutletStatusOutletNormalState INTEGER
- }
-
-emsOutletStatusOutletIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the outlet entry."
- ::= { emsOutletStatusEntry 1 }
-
-emsOutletStatusOutletName OBJECT-TYPE
- SYNTAX DisplayString ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the outlet."
- ::= { emsOutletStatusEntry 2 }
-
-emsOutletStatusOutletState OBJECT-TYPE
- SYNTAX INTEGER {
- outletOnEMS (1),
- outletOffEMS (2)
- }
-
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the state of the outlet. If
- the outlet is on, the outletOnEMS (1) value will be returned.
- If the outlet is off, the outletOffEMS (2) value will be
- returned. "
-
- ::= { emsOutletStatusEntry 3 }
-
-emsOutletStatusOutletNormalState OBJECT-TYPE
- SYNTAX INTEGER {
- normallyOnEMS (1),
- normallyOffEMS (2)
- }
-
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the normal state of the outlet. If
- the normal state is on, the normallyOnEMS (1) value will be returned.
- If the normal state is off, the normallyOffEMS (2) value will be
- returned. "
-
- ::= { emsOutletStatusEntry 4 }
-
--- EMS ALARM DEVICE STATUS TABLE
-
-emsAlarmDeviceStatusTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EMSAlarmDeviceStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for access of individual alarm devices. The number of
- entries is contained in the emsStatusAlarmDeviceCount OID."
- ::= { emsAlarmDeviceStatus 1 }
-
-emsAlarmDeviceStatusEntry OBJECT-TYPE
- SYNTAX EMSAlarmDeviceStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The alarm devices to access."
- INDEX { emsAlarmDeviceStatusDeviceIndex }
- ::= { emsAlarmDeviceStatusTable 1 }
-
-EMSAlarmDeviceStatusEntry ::=
- SEQUENCE {
- emsAlarmDeviceStatusDeviceIndex INTEGER,
- emsAlarmDeviceStatusDeviceName DisplayString,
- emsAlarmDeviceStatusDeviceState INTEGER
- }
-
-emsAlarmDeviceStatusDeviceIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the alarm device entry."
- ::= { emsAlarmDeviceStatusEntry 1 }
-
-emsAlarmDeviceStatusDeviceName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the alarm device.
- This OID is provided for informational purposes only."
- ::= { emsAlarmDeviceStatusEntry 2 }
-
-emsAlarmDeviceStatusDeviceState OBJECT-TYPE
- SYNTAX INTEGER {
- alarmDeviceOnEMS (1),
- alarmDeviceOffEMS (2),
- alarmDeviceNotInstalledEMS (3)
- }
-
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the device state. If
- the device is active, the alarmDeviceOnEMS (1) value will be returned.
- If the device is inactive, the alarmDeviceOffEMS (2) value will be
- returned. If the device is not installed, the
- alarmDeviceNotInstalledEMS (3) value will be returned."
-
- ::= { emsAlarmDeviceStatusEntry 3 }
-
-
--- EMS SENSOR STATUS TABLE
-
-emsSensorStatusTable OBJECT-TYPE
- SYNTAX SEQUENCE OF EMSSensorStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for access of individual sensors. The number of
- entries is contained in the emsStatusSensorCount OID."
- ::= { emsSensorStatus 1 }
-
-emsSensorStatusEntry OBJECT-TYPE
- SYNTAX EMSSensorStatusEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The sensors to access."
- INDEX { emsSensorStatusSensorIndex }
- ::= { emsSensorStatusTable 1 }
-
-EMSSensorStatusEntry ::=
- SEQUENCE {
- emsSensorStatusSensorIndex INTEGER,
- emsSensorStatusSensorSystemName DisplayString,
- emsSensorStatusSensorName DisplayString,
- emsSensorStatusSensorState INTEGER,
- emsSensorStatusSensorNormalState INTEGER,
- emsSensorStatusSensorAlarmDelay INTEGER
- }
-
-emsSensorStatusSensorIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the sensor entry."
- ::= { emsSensorStatusEntry 1 }
-
-emsSensorStatusSensorSystemName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system name of the sensor. This describes the hardware system
- intent of this sensor."
- ::= { emsSensorStatusEntry 2 }
-
-emsSensorStatusSensorName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the sensor as given by the system user."
- ::= { emsSensorStatusEntry 3 }
-
-emsSensorStatusSensorState OBJECT-TYPE
- SYNTAX INTEGER {
- sensorFaultedEMS (1),
- sensorOKEMS (2),
- sensorNotInstalledEMS (3)
- }
-
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the sensor state. If the sensor is faulted,
- the sensorFaultedEMS (1) value will be returned.
- If the sensor is not faulted, the sensorOKEMS (2) value will be
- returned. If the sensor is not installed, the sensorNotInstalledEMS (3)
- value will be returned."
- ::= { emsSensorStatusEntry 4 }
-
-emsSensorStatusSensorNormalState OBJECT-TYPE
- SYNTAX INTEGER {
- normallyClosedEMS (1),
- normallyOpenEMS (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "Getting this variable will return the normal state of the sensor. If
- the normal state is closed, the normallyClosedEMS (1) value will be returned.
- If the normal state is closed, the normallyOpenEMS (2) value will be
- returned."
- ::= { emsSensorStatusEntry 5 }
-
-emsSensorStatusSensorAlarmDelay OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The delay (in seconds) after a sensor detects an alarm condition before the
- condition is reported."
- ::= { emsSensorStatusEntry 6 }
-
-
-
--- airFM AIR CONDITIONER IDENT
-
-airFMIdentName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the
- device. "
- ::= { airFMIdent 1 }
-
-airFMIdentTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the airFMIdentTable. "
- ::= { airFMIdent 2 }
-
-airFMIdentTable OBJECT-TYPE
- SYNTAX SEQUENCE OF AirFMIdentTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting identification information
- from each module in the system. "
- ::= { airFMIdent 3 }
-
-airFMIdentTableEntry OBJECT-TYPE
- SYNTAX AirFMIdentTableEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The module to get information from."
- INDEX { airFMIdentModuleIndex }
- ::= { airFMIdentTable 1 }
-
-AirFMIdentTableEntry ::=
- SEQUENCE {
- airFMIdentModuleIndex INTEGER,
- airFMIdentModuleModelNumber DisplayString,
- airFMIdentModuleDateOfMfg DisplayString,
- airFMIdentModuleSerialNumber DisplayString,
- airFMIdentModuleFirmwareRev DisplayString,
- airFMIdentModuleHardwareRev DisplayString
- }
-
-airFMIdentModuleIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the module information."
- ::= { airFMIdentTableEntry 1 }
-
-airFMIdentModuleModelNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the
- model number. "
- ::= { airFMIdentTableEntry 2 }
-
-airFMIdentModuleDateOfMfg OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the
- manufacture date. "
- ::= { airFMIdentTableEntry 3 }
-
-airFMIdentModuleSerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the
- unit serial number. "
- ::= { airFMIdentTableEntry 4 }
-
-airFMIdentModuleFirmwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the
- firmware revision. "
- ::= { airFMIdentTableEntry 5 }
-
-airFMIdentModuleHardwareRev OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the
- hardware revision. "
- ::= { airFMIdentTableEntry 6 }
-
--- airFM AIR CONDITIONER STATUS
-
-airFMStatusSystemOn OBJECT-TYPE
- SYNTAX INTEGER {
- statusOn (1),
- statusOff (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The operating state of the system. "
- ::= { airFMStatus 1 }
-
-airFMStatusSystemAverageRetTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system average return air
- temperature in tenths of degrees Celsius. "
- ::= { airFMStatus 2 }
-
-airFMStatusSystemAverageRetTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system average return air
- temperature in tenths of degrees Fahrenheit. "
- ::= { airFMStatus 3 }
-
-airFMStatusSystemAverageRetHum OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system average return air
- humidity. "
- ::= { airFMStatus 4 }
-
-airFMStatusSystemActionTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system action air
- temperature in tenths of degrees Celsius. "
- ::= { airFMStatus 5 }
-
-airFMStatusSystemActionTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system action air
- temperature in tenths of degrees Fahrenheit. "
- ::= { airFMStatus 6 }
-
-airFMStatusSystemActionHum OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system action air humidity. "
- ::= { airFMStatus 7 }
-
-airFMStatusSystemRemoteHighTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system remote high air
- temperature in tenths of degrees Celsius. "
- ::= { airFMStatus 8 }
-
-airFMStatusSystemRemoteHighTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system remote high air
- temperature in tenths of degrees Fahrenheit. "
- ::= { airFMStatus 9 }
-
-airFMStatusSystemRemoteAvgTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system remote average air
- temperature in tenths of degrees Celsius. "
- ::= { airFMStatus 10 }
-
-airFMStatusSystemRemoteAvgTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system remote average air
- temperature in tenths of degrees Fahrenheit. "
- ::= { airFMStatus 11 }
-
-airFMStatusSystemRemoteAvgHum OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system remote average air
- humidity. "
- ::= { airFMStatus 12 }
-
-airFMStatusSystemRemoteLowTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system remote low air
- temperature in tenths of degrees Celsius. "
- ::= { airFMStatus 13 }
-
-airFMStatusSystemRemoteLowTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The system remote low air
- temperature in tenths of degrees Fahrenheit. "
- ::= { airFMStatus 14 }
-
-airFMStatusSystemCoolingEnabled OBJECT-TYPE
- SYNTAX INTEGER {
- enabledYes (1),
- enabledNo (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The state of the system cooling
- function enable. "
- ::= { airFMStatus 15 }
-
-airFMStatusSystemReheatingEnabled OBJECT-TYPE
- SYNTAX INTEGER {
- enabledYes (1),
- enabledNo (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The state of the system reheating
- function enable. "
- ::= { airFMStatus 16 }
-
-airFMStatusSystemHumidifyEnabled OBJECT-TYPE
- SYNTAX INTEGER {
- enabledYes (1),
- enabledNo (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The state of the system humidify
- function enable. "
- ::= { airFMStatus 17 }
-
-airFMStatusSystemDehumidifyEnabled OBJECT-TYPE
- SYNTAX INTEGER {
- enabledYes (1),
- enabledNo (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The state of the system dehumidify
- function enable. "
- ::= { airFMStatus 18 }
-
-airFMStatusModuleTableSize OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of entries in the airFMStatusModuleTable. "
- ::= { airFMStatus 19 }
-
-airFMStatusModuleTable OBJECT-TYPE
- SYNTAX SEQUENCE OF AirFMStatusModuleEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for getting information from each module
- in the system. "
- ::= { airFMStatus 20 }
-
-airFMStatusModuleEntry OBJECT-TYPE
- SYNTAX AirFMStatusModuleEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The module to get status from."
- INDEX { airFMStatusModuleIndex }
- ::= { airFMStatusModuleTable 1 }
-
-AirFMStatusModuleEntry ::=
- SEQUENCE {
- airFMStatusModuleIndex INTEGER,
- airFMStatusModuleOutputCapacity INTEGER,
- airFMStatusModuleSupplyTempC INTEGER,
- airFMStatusModuleSupplyTempF INTEGER,
- airFMStatusModuleSupplyHum INTEGER,
- airFMStatusModuleReturnTempC INTEGER,
- airFMStatusModuleReturnTempF INTEGER,
- airFMStatusModuleReturnHum INTEGER
- }
-
-airFMStatusModuleIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index of the module information."
- ::= { airFMStatusModuleEntry 1 }
-
-airFMStatusModuleOutputCapacity OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The module output capacity in kilowatts."
- ::= { airFMStatusModuleEntry 2 }
-
-airFMStatusModuleSupplyTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The module supply air temperature in
- tenths of degrees Celsius. "
- ::= { airFMStatusModuleEntry 3 }
-
-airFMStatusModuleSupplyTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The module supply air temperature in
- tenths of degrees Fahrenheit. "
- ::= { airFMStatusModuleEntry 4 }
-
-airFMStatusModuleSupplyHum OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The module supply air humidity. "
- ::= { airFMStatusModuleEntry 5 }
-
-airFMStatusModuleReturnTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The module return air temperature in
- tenths of degrees Celsius. "
- ::= { airFMStatusModuleEntry 6 }
-
-airFMStatusModuleReturnTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The module return air temperature in
- tenths of degrees Fahrenheit. "
- ::= { airFMStatusModuleEntry 7 }
-
-airFMStatusModuleReturnHum OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The module return air humidity. "
- ::= { airFMStatusModuleEntry 8 }
-
--- airFM AIR CONDITIONER GROUP DATA
-
-airFMGroupSysStatus OBJECT-TYPE
- SYNTAX INTEGER {
- statusOnLine (1),
- statusIdle (2),
- statusLoadShare (3),
- statusOffLine (4),
- statusFailed (5)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of this system within the group. "
- ::= { airFMGroup 1 }
-
-airFMGroupSysRuntime OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The number of hours the system has been running. "
- ::= { airFMGroup 2 }
-
-airFMGroupSysRole OBJECT-TYPE
- SYNTAX INTEGER {
- rolePrimary (1),
- roleBackup (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The role of this system within the group. "
- ::= { airFMGroup 3 }
-
--- airPA Portable Air Conditioner Ident
-
-airPAIdentName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the device name. "
- ::= { airPAIdent 1 }
-
-airPAModelNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the device model number. "
- ::= { airPAIdent 2 }
-
-airPADateOfManufacture OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying when the device was produced. "
- ::= { airPAIdent 3 }
-
-airPASerialNumber OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the device serial number. "
- ::= { airPAIdent 4 }
-
-airPAFirmwareRevision OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the device firmware revision. "
- ::= { airPAIdent 5 }
-
-airPAHardwareRevision OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the device hardware revision. "
- ::= { airPAIdent 6 }
-
--- airPA Portable Air Conditioner Status
-
-airPASystemPower OBJECT-TYPE
- SYNTAX INTEGER {
- powerON (1),
- powerOFF (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The status of the unit's system power setting.
-
- ON(1) The system power is turned on.
- OFF(2) The system power is turned off. "
- ::= { airPAStatus 1 }
-
-airPAOperatingMode OBJECT-TYPE
- SYNTAX INTEGER {
- modeOFF (1),
- modeVENTING (2),
- modeCOOLING (3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The current operating mode of the unit.
-
- OFF(1) The system is off.
- VENTING(2) The system's venting function is active.
- COOLING(3) The system's cooling function is active. "
- ::= { airPAStatus 2 }
-
-airPASetpointTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The temperature setpoint in Fahrenheit to which the unit is controlling. "
- ::= { airPAStatus 3 }
-
-airPASetpointTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The temperature setpoint in Celsius to which the unity is controlling. "
- ::= { airPAStatus 4 }
-
-airPABlowerSpeed OBJECT-TYPE
- SYNTAX INTEGER {
- speedLOW (1),
- speedHIGH (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The unit's blower speed setting.
-
- LOW(1) The blower speed is low.
- HIGH(2) The blower speed is high. "
- ::= { airPAStatus 5 }
-
-airPACompressor OBJECT-TYPE
- SYNTAX INTEGER {
- statusON (1),
- statusOFF (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The unit's compressor status.
-
- ON(1) The compressor is turned on.
- OFF(2) The compressor is turned off. "
- ::= { airPAStatus 6 }
-
-airPACondenserFan OBJECT-TYPE
- SYNTAX INTEGER {
- statusON (1),
- statusOFF (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The unit's condenser fan status.
-
- ON(1) The condenser fan is turned on.
- OFF(2) The condenser fan is turned off. "
- ::= { airPAStatus 7 }
-
-airPACondensatePump OBJECT-TYPE
- SYNTAX INTEGER {
- statusON (1),
- statusOFF (2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The unit's condensate pump status.
-
- ON(1) The condensate pump is turned on.
- OFF(2) The condensate pump is turned off. "
- ::= { airPAStatus 8 }
-
-airPASupplyTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The supply temperature in degrees Fahrenheit. "
- ::= { airPAStatus 9 }
-
-airPASupplyTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The supply temperature in degrees Celsius. "
- ::= { airPAStatus 10 }
-
-airPAReturnTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The return temperature in degrees Fahrenheit. "
- ::= { airPAStatus 11 }
-
-airPAReturnTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The return temperature in degrees Celsius. "
- ::= { airPAStatus 12 }
-
-airPARemoteTempF OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The remote temperature in degrees Fahrenheit. "
- ::= { airPAStatus 13 }
-
-airPARemoteTempC OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The remote temperature in degrees Celsius. "
- ::= { airPAStatus 14 }
-
-airPARemoteHumidity OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The remote humidity. "
- ::= { airPAStatus 15 }
-
--- RACK AIR REMOVAL UNIT IDENT
-
-rARUIdentTable OBJECT-TYPE
- SYNTAX SEQUENCE OF IdentRARUEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for query of the individual devices.
- The number of entries is contained in the
- rARUStatusAruDeviceCount OID."
- ::= { rARUIdent 1 }
-
-rARUIdentEntry OBJECT-TYPE
- SYNTAX IdentRARUEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The device to query."
- INDEX { rARUIdentIndex}
- ::= { rARUIdentTable 1 }
-
-IdentRARUEntry ::=
- SEQUENCE {
- rARUIdentIndex INTEGER,
- rARUIdentName DisplayString
- }
-
-rARUIdentIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the device entry."
- ::= { rARUIdentEntry 1 }
-
-rARUIdentName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "A character string identifying the
- device. "
- ::= { rARUIdentEntry 2 }
-
-
--- RACK AIR REMOVAL UNIT CONFIGURATION
-
-rARUConfigTable OBJECT-TYPE
- SYNTAX SEQUENCE OF ConfigRARUEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for configuration of individual ARUs. The number of
- entries is contained in the rARUStatusAruDeviceCount OID."
- ::= { rARUConfig 1 }
-
-rARUConfigEntry OBJECT-TYPE
- SYNTAX ConfigRARUEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The ARUs to configure."
- INDEX { rARUConfigAruIndex }
- ::= { rARUConfigTable 1 }
-
-ConfigRARUEntry ::=
- SEQUENCE {
- rARUConfigAruIndex INTEGER,
- rARUConfigAruName DisplayString,
- rARUConfigAruRemoteSetpoint INTEGER,
- rARUConfigAruTempOvrdEnableDisable INTEGER,
- rARUConfigAruTempOvrdSetpoint INTEGER
- }
-
-rARUConfigAruIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the device entry."
- ::= { rARUConfigEntry 1 }
-
-rARUConfigAruName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "The name of the ARU."
- ::= { rARUConfigEntry 2 }
-
-rARUConfigAruRemoteSetpoint OBJECT-TYPE
- SYNTAX INTEGER {
- aruOff (1),
- aru85F-29C (2),
- aru90F-32C (3),
- aru95F-35C (4),
- aru100F-38C (5),
- aru7kW (6),
- aru5kW (7),
- aru3kW (8),
- aru2kW (9)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This OID is the Remote setpoint of the ARU.
- NOTE: -1 will be returned if the ARU is not communicating."
-
- ::= { rARUConfigEntry 3 }
-
-rARUConfigAruTempOvrdEnableDisable OBJECT-TYPE
- SYNTAX INTEGER {
- disabled(1),
- enabled(2)
- }
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This OID is used to enable/disable the remote temperature override setting of the ARU.
-
- If this OID is set to 1, the remote setting for temperature override is disabled.
- If this OID is set to 2, the remote setting for temperature override is enabled."
- ::= { rARUConfigEntry 4 }
-
-rARUConfigAruTempOvrdSetpoint OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-write
- STATUS mandatory
- DESCRIPTION
- "This OID is the Temperature Override setpoint of the ARU.
- NOTE: -1 will be returned if the ARU is not communicating."
-
- ::= { rARUConfigEntry 5 }
-
--- RACK AIR REMOVAL UNIT STATUS
-
-rARUStatusAruDeviceCount OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The total number of ARUs accessible from this IP."
- ::= { rARUStatus 1 }
-
-rARUStatusSysTempUnits OBJECT-TYPE
- SYNTAX INTEGER {
- celsius(1),
- fahrenheit(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The temperature scale used to display the temperature
- in the system, Celsius(1) or Fahrenheit(2).
- This setting is based on the system preferences
- configuration in the agent."
- ::= { rARUStatus 2 }
-
-rARUStatusTable OBJECT-TYPE
- SYNTAX SEQUENCE OF StatusRARUEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "Allows for access of individual ARUs. The number of
- entries is contained in the rARUStatusAruDeviceCount OID."
- ::= { rARUStatus 3 }
-
-rARUStatusEntry OBJECT-TYPE
- SYNTAX StatusRARUEntry
- ACCESS not-accessible
- STATUS mandatory
- DESCRIPTION
- "The ARUs to access."
- INDEX { rARUStatusAruIndex }
- ::= { rARUStatusTable 1 }
-
-StatusRARUEntry ::=
- SEQUENCE {
- rARUStatusAruIndex INTEGER,
- rARUStatusAruName DisplayString,
- rARUStatusAruRemoteSetpoint INTEGER,
- rARUStatusAruManualSetpoint INTEGER,
- rARUStatusAruTemp1 INTEGER,
- rARUStatusAruTemp2 INTEGER,
- rARUStatusAruTemp3 INTEGER,
- rARUStatusAruTempOvrdEnableDisable INTEGER,
- rARUStatusAruTempOvrdSetpoint INTEGER,
- rARUStatusAruAlarmState DisplayString,
- rARUStatusAruCommStatus INTEGER
- }
-
-rARUStatusAruIndex OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The index to the ARU entry."
- ::= { rARUStatusEntry 1 }
-
-rARUStatusAruName OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The name of the ARU."
- ::= { rARUStatusEntry 2 }
-
-rARUStatusAruRemoteSetpoint OBJECT-TYPE
- SYNTAX INTEGER {
- aruOff (1),
- aru85F-29C (2),
- aru90F-32C (3),
- aru95F-35C (4),
- aru100F-38C (5),
- aru7kW (6),
- aru5kW (7),
- aru3kW (8),
- aru2kW (9)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "ARU remote setpoint temperature setting.
-
- NOTE: -1 will be returned if the ARU is not communicating.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the rARUStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { rARUStatusEntry 3 }
-
-rARUStatusAruManualSetpoint OBJECT-TYPE
- SYNTAX INTEGER {
- aruOff (1),
- aru85F-29C (2),
- aru90F-32C (3),
- aru95F-35C (4),
- aru100F-38C (5),
- aru7kW (6),
- aru5kW (7),
- aru3kW (8),
- aru2kW (9),
- aruRem (10)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "ARU manual setpoint temperature setting.
-
- NOTE: -1 will be returned if the ARU is not communicating.
-
- Values are represented in whole number degrees.
- If the manual setpoint is set to Remote, this OID will return 0.
- Units are displayed in the scale shown in
- the rARUStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { rARUStatusEntry 4 }
-
-rARUStatusAruTemp1 OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "ARU temperature probe #1 reading.
-
- NOTE: -1 will be returned if the ARU is not communicating.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the rARUStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { rARUStatusEntry 5 }
-
-rARUStatusAruTemp2 OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "ARU temperature probe #2 reading.
-
- NOTE: -1 will be returned if the ARU is not communicating.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the rARUStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { rARUStatusEntry 6 }
-
-rARUStatusAruTemp3 OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "ARU temperature probe #3 reading.
-
- NOTE: -1 will be returned if the ARU is not communicating.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the rARUStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { rARUStatusEntry 7 }
-
-rARUStatusAruTempOvrdEnableDisable OBJECT-TYPE
- SYNTAX INTEGER {
- disabled(1),
- enabled(2)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "This OID indicates whether the ARU remote temperature override is enabled or disabled.
- If this OID is a 1, the remote setting for temperature override is disabled.
- If this OID is a 2, the remote setting for temperature override is enabled."
- ::= { rARUStatusEntry 8 }
-
-rARUStatusAruTempOvrdSetpoint OBJECT-TYPE
- SYNTAX INTEGER
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "ARU remote temperature override setpoint setting.
-
- NOTE: -1 will be returned if the ARU is not communicating.
-
- Values are represented in whole number degrees.
- Units are displayed in the scale shown in
- the rARUStatusSysTempUnits OID (Celsius or Fahrenheit)."
- ::= { rARUStatusEntry 9 }
-
-rARUStatusAruAlarmState OBJECT-TYPE
- SYNTAX DisplayString
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "An ASCII string containing the 8 flags representing
- the current alarm state of the ARU. If the state of
- the ARU is unknown, this variable is set to ‘UNKNOWN’.
-
- The flags are numbered 1 to 8, read from left to
- right. The flags are defined as follows:
-
- Flag 1: Fan Fail 1
- Flag 2: Fan Fail 2
- Flag 3: Fan Fail 3
- Flag 4: Smoke
-
- Flag 5: High Temp (Out of Thermal Control)
- Flag 6: Over Temp (Exhaust Temp. Exceeds Override Setpoint)
- Flag 7: Reserved
- Flag 8: Reserved"
- ::= { rARUStatusEntry 10 }
-
-rARUStatusAruCommStatus OBJECT-TYPE
- SYNTAX INTEGER {
- commsNeverDiscovered(1),
- commsEstablished(2),
- commsLost(3)
- }
- ACCESS read-only
- STATUS mandatory
- DESCRIPTION
- "The state of communications to the device.
- commNeverDiscovered(1) indicates there has never been communications with this device.
- commsEstablished(2) indicates communication is normal and active with this device.
- commsLost(3) indicates communication had been established, but is no device."
- ::= { rARUStatusEntry 11 }
-
--- Traps
--- Annotations are provided for Novell's NMS product
---
--- Each trap has at least one variable (mtrapargsString) which always appears
--- as the last variable in the list. This variable contains either a static
--- or dynamically-constructed string which provides an enhanced description of
--- the trap's purpose and any pertinent information about the trap.
-
-communicationLost TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: Communication to the UPS has been lost. Steps
- to reestablish communication are in progress."
- --#TYPE "APC UPS: Communication lost"
- --#SUMMARY "Communication lost between the agent and the UPS."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE DEGRADED
- ::= 1
-
-upsOverload TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: The UPS has sensed a load greater than 100 percent
- of its rated capacity."
- --#TYPE "APC UPS: Overload"
- --#SUMMARY "The UPS has sensed a load greater than 100 percent of its rated capacity."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE DEGRADED
- ::= 2
-
-upsDiagnosticsFailed TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: The UPS failed its internal diagnostic self-test."
- --#TYPE "APC UPS: Failed self-test"
- --#SUMMARY "The UPS has failed its internal self-test."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE DEGRADED
- ::= 3
-
-upsDischarged TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: The UPS batteries are discharged; if utility power fails
- an immediate low battery condition will exist. Sufficient runtime
- for necessary action cannot be guaranteed."
- --#TYPE "APC UPS: batteries are discharged"
- --#SUMMARY "The UPS batteries are discharged."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE DEGRADED
- ::= 4
-
-upsOnBattery TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: The UPS has switched to battery backup power."
- --#TYPE "APC UPS: On battery"
- --#SUMMARY "The UPS has switched to battery backup power."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 5
-
-smartBoostOn TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: The UPS has enabled SmartBoost(TM)."
- --#TYPE "APC UPS: SmartBoost(TM)"
- --#SUMMARY "The UPS has enabled SmartBoost(TM); low incoming line voltage."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 6
-
-lowBattery TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: The UPS batteries are low and will soon be exhausted.
- If utility power is not restored the UPS will put itself
- to 'sleep' and immediately cut power to the load."
- --#TYPE "APC UPS: Low battery"
- --#SUMMARY "The UPS system's batteries are low and will soon be exhausted."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE DEGRADED
- ::= 7
-
-communicationEstablished TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: Communication with the UPS has been established."
- --#TYPE "APC UPS: Communication established"
- --#SUMMARY "UPS communication has been established."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 8
-
-powerRestored TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: Utility power has been restored."
- --#TYPE "APC UPS: Utility power restored"
- --#SUMMARY "Returned from battery backup power; utility power restored."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 9
-
-upsDiagnosticsPassed TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The UPS passed its internal self-test."
- --#TYPE "APC UPS: Passed self-test"
- --#SUMMARY "The UPS passed internal self-test."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 10
-
-returnFromLowBattery TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The UPS has returned from a low battery
- condition."
- --#TYPE "APC UPS: Returned from Low-Battery condition"
- --#SUMMARY "The UPS has returned from a Low-Battery condition."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 11
-
-upsTurnedOff TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: The UPS has been turned 'off' by the management station."
- --#TYPE "APC UPS: Turned off"
- --#SUMMARY "The UPS has been switched off by a management station."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE NONOPERATIONAL
- ::= 12
-
-upsSleeping TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: The UPS is entering 'sleep' mode. Power
- to the load will be cut off."
- --#TYPE "APC UPS: Entered sleep mode"
- --#SUMMARY "The UPS entered sleep mode. Power to the load will be cut off."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE NONOPERATIONAL
- ::= 13
-
-upsWokeUp TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATION: The UPS has returned from 'sleep' mode. Power
- to the load has been restored."
- --#TYPE "APC UPS: Wake up"
- --#SUMMARY "The UPS has returned from sleep mode. Power to the load has been restored."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 14
-
-upsRebootStarted TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: The UPS has started its reboot sequence.
- The UPS will reboot itself at this time."
- --#TYPE "APC UPS: Starting reboot"
- --#SUMMARY "The UPS has started its reboot sequence."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE NONOPERATIONAL
- ::= 15
-
-upsDipSwitchChanged TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: The dip switch settings on the UPS have been
- changed, possibly altering UPS performance."
- --#TYPE "APC UPS: DIP switch altered"
- --#SUMMARY "The DIP switch settings on the UPS have been changed."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 16
-
-upsBatteryNeedsReplacement TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: The batteries of the UPS need immediate replacement."
- --#TYPE "APC UPS: UPS batteries need replacement"
- --#SUMMARY "The UPS batteries require immediate replacement."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE DEGRADED
- ::= 17
-
-
--- the Environmental Monitor traps
-
-contactFault TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString }
- DESCRIPTION
- "SEVERE: One of the contacts on the Environmental Monitor has
- changed from its default position. The first variable is
- the contact number that is faulted."
- --#TYPE "APC Environment: Contact fault"
- --#SUMMARY "An Environment contact closure has faulted."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 18
-
-contactFaultResolved TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A fault on one of the Environmental Monitor contacts
- has been resolved. The first variable is
- the contact number that has been resolved."
- --#TYPE "APC Environment: Contact fault cleared."
- --#SUMMARY "A Environment contact closure has returned to it's default state."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 19
-
--- the Matrix-UPS traps
-
-hardwareFailureBypass TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: UPS on bypass due to internal fault"
- --#TYPE "APC UPS: On bypass due to internal fault"
- --#SUMMARY "The UPS is on bypass due to an internal fault."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE DEGRADED
- ::= 20
-
-softwareBypass TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: UPS on bypass - user set via software or panel"
- --#TYPE "APC UPS: On bypass by user via software or panel"
- --#SUMMARY "UPS put on bypass by user via software or front UPS panel."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 21
-
-switchedBypass TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: UPS on bypass - initiated by user"
- --#TYPE "APC UPS: On bypass initiated by user"
- --#SUMMARY "UPS put on bypass by user."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 22
-
-returnFromBypass TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: UPS has returned from bypass"
- --#TYPE "APC UPS: UPS has returned from bypass"
- --#SUMMARY "The UPS has returned from bypass mode."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 23
-
-bypassPowerSupplyFailure TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: Base module bypass power supply needs repair"
- --#TYPE "APC UPS: Base module bypass power supply needs repair"
- --#SUMMARY "The base module bypass power supply needs repair."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE NONOPERATIONAL
- ::= 24
-
-baseFanFailure TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: Base module fan needs repair"
- --#TYPE "APC UPS: Base module fan needs repair"
- --#SUMMARY "The base module fan needs repair."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE NONOPERATIONAL
- ::= 25
-
-batteryPackCommLost TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: Check installation of external battery packs signal cable"
- --#TYPE "APC UPS: Communication lost with battery packs"
- --#SUMMARY "Communication lost with external battery packs, check battery signal cable."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE DEGRADED
- ::= 26
-
-batteryPackCommEstablished TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: UPS is communicating with the external battery packs."
- --#TYPE "APC UPS: Communication established with battery packs"
- --#SUMMARY "Communication established with external battery packs."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 27
-
-calibrationStart TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A battery calibration test has been initiated on the UPS."
- --#TYPE "APC UPS: Calibration initiated"
- --#SUMMARY "A battery run time calibration test has been initiated."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 28
-
--- Misc. Traps
-
-restartAgent TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: Agent restarting as commanded by manager."
- --#TYPE "APC SNMP Agent: Agent restarting"
- --#SUMMARY "Agent restarting as commanded by manager."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 29
-
-upsTurnedOn TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A UPS is turned on."
- --#TYPE "APC UPS: A UPS is turned on."
- --#SUMMARY " A UPS is turned on."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 30
-
-smartAvrReducing TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: The UPS is reducing the line voltage via SmartTrim(TM)."
- --#TYPE "APC UPS: SmartTrim(TM) reducing"
- --#SUMMARY "The UPS has enabled SmartTrim(TM) voltage reduction."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 31
-
-codeAuthenticationDone TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mconfigTFTPServerIP, newCodeAuthentViaTFTP }
- DESCRIPTION
- "INFORMATIONAL: Authentication on agent code image is done."
- --#TYPE "APC CODE: Authentication on agent code image is done."
- --#SUMMARY "Authentication on agent code image is done."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 32
-
-upsOverloadCleared TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The overload condition has been cleared."
- --#TYPE "APC UPS: Overload cleared."
- --#SUMMARY "The overload condition has been cleared. ."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 33
-
-smartBoostOff TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The UPS has returned from SmartBoost(TM)."
- --#TYPE "APC UPS: SmartBoost(TM) off."
- --#SUMMARY "The UPS has returned from SmartBoost(TM)."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 34
-
-smartAvrReducingOff TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The UPS has returned from SmartTrim(TM)."
- --#TYPE "APC UPS: SmartTrim(TM) reducing off"
- --#SUMMARY "The UPS has returned from SmartTrim(TM) voltage reduction."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 35
-
-upsBatteryReplaced TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A bad battery fault has been cleared."
- --#TYPE "APC UPS: Bad battery replaced"
- --#SUMMARY "The UPS has returned from a bad battery fault."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 36
-
-calibrationEnd TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The UPS has finished calibrating."
- --#TYPE "APC UPS: Calibration end"
- --#SUMMARY "The UPS has finished calibrating"
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 37
-
-dischargeCleared TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A UPS discharge condition has been cleared."
- --#TYPE "APC UPS: Discharge cleared."
- --#SUMMARY "The UPS discharge condition has been cleared."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 38
-
-gracefullShutdown TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A graceful shutdown has been initiated."
- --#TYPE "APC UPS: A graceful shutdown has been initiated."
- --#SUMMARY "A graceful shutdown has been initiated."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 39
-
-
-outletOn TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUOutletControlIndex }
- DESCRIPTION
- "WARNING: The specified PDU outlet has turned on.
- If sPDUOutletControlIndex equals zero, then all outlets have
- turned on."
- --#TYPE "APC PDU: Outlet has been turned on."
- --#SUMMARY "Outlet has been turned on"
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 41
-
-
-outletOff TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUOutletControlIndex }
- DESCRIPTION
- "WARNING: The specified PDU outlet has turned off.
- If sPDUOutletControlIndex equals zero, then all outlets
- have turned off."
- --#TYPE "APC PDU: Outlet has turned off."
- --#SUMMARY "Outlet has turned off."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 42
-
-outletReboot TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUOutletControlIndex }
- DESCRIPTION
- "WARNING: The specified PDU outlet has rebooted.
- If sPDUOutletControlIndex equals zero, then all outlets
- have rebooted."
- --#TYPE "APC PDU: Outlet has rebooted."
- --#SUMMARY "Outlet has rebooted."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 43
-
-configChangeSNMP TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: The SNMP configuration has been changed."
- --#TYPE "APC: The SNMP configuration has been changed."
- --#SUMMARY "The SNMP configuration has been changed."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 44
-
-
-configChangeOutlet TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUOutletConfigIndex }
- DESCRIPTION
- "WARNING: The specified PDU outlet has changed configuration.
- If sPDUOutletConfigIndex equals zero, then the Master outlet
- has changed configuration."
- --#TYPE "APC PDU: Outlet configuration has been changed."
- --#SUMMARY "Outlet configuration has been changed."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 45
-
-accessViolationConsole TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: Someone has attempted to login via the console with the incorrect password."
- --#TYPE "APC: Access violation via the console."
- --#SUMMARY "Three unsuccessful logins have been attempted via the console."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 46
-
-accessViolationHTTP TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: Someone has attempted to login via HTTP with the incorrect password."
- --#TYPE "APC: Access violation via HTTP."
- --#SUMMARY "An unsuccessful attempt to login via HTTP."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 47
-
-passwordChange TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: The password for the device has been changed."
- --#TYPE "APC: Password change for the device."
- --#SUMMARY "Someone has changed the password on the device."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 48
-
-badVoltage TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: The output voltage is not within acceptable range."
- --#TYPE "APC UPS: Bad output voltage."
- --#SUMMARY "The output voltage is not within acceptable range."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 49
-
-badVoltageCleared TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The output voltage has returned to an acceptable level."
- --#TYPE "APC UPS: The bad voltage output condition has been cleared."
- --#SUMMARY "The output voltage has returned to an acceptable level."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 50
-
-chargerFailure TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: The battery charger has failed."
- --#TYPE "APC UPS: The battery charger has failed."
- --#SUMMARY "The battery charger has failed."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 51
-
-chargerFailureCleared TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The battery charger failure condition has been cleared."
- --#TYPE "APC UPS: The battery charger failure condition cleared"
- --#SUMMARY "The battery charger failure condition has been cleared."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 52
-
-batteryOverTemperature TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: The battery temperature threshold has been violated."
- --#TYPE "APC UPS: The battery temperature threshold has been violated."
- --#SUMMARY "The battery temperature threshold has been violated."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 53
-
-batteryOverTemperatureCleared TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The battery over temperature has been cleared."
- --#TYPE "APC UPS: The battery over temperature has been cleared."
- --#SUMMARY "The battery over temperature has been cleared."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 54
-
- smartRelayFault TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: SmartBoost(TM) or SmartTrim(TM) relay fault."
- --#TYPE "APC UPS: SmartBoost(TM) or SmartTrim(TM) relay fault."
- --#SUMMARY "SmartBoost(TM) or SmartTrim(TM) relay fault."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 55
-
-smartRelayFaultCleared TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: SmartBoost(TM) or SmartTrim(TM) relay fault has been cleared."
- --#TYPE "APC UPS: SmartBoost(TM) or SmartTrim(TM) relay fault cleared."
- --#SUMMARY "SmartBoost(TM) or SmartTrim(TM) relay fault has been cleared."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 56
-
-humidityThresholdViolation1 TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString }
- DESCRIPTION
- "SEVERE: Probe 1 humidity threshold violated. The
- first variable is the current humidity."
- --#TYPE "APC Environmental Monitor: Probe 1 humidity threshold violation"
- --#SUMMARY "A humidity threshold has been violated on probe 1."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 57
-
-humidityThresholdViolationCleared1 TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An Environmental Monitor humidity threshold violation has been cleared on probe 1."
- --#TYPE "APC Environmental Monitor: Probe 1 humidity violation cleared"
- --#SUMMARY "A humidity threshold violation has been cleared on probe 1."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 58
-
-temperatureThresholdViolation1 TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString }
- DESCRIPTION
- "SEVERE: An Environmental Monitor temperature threshold has been violated on probe 1.
- The first variable is the current temperature."
- --#TYPE "APC Environmental Monitor: Probe 1 temperature violation"
- --#SUMMARY "A temperature threshold has been violated on probe 1."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 59
-
-temperatureThresholdViolationCleared1 TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An Environmental Monitor temperature threshold violation has been cleared on probe 1."
- --#TYPE "APC Environmental Monitor: Probe 1 temperature violation cleared"
- --#SUMMARY "A temperature threshold violation has been cleared on probe 1."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 60
-
-humidityThresholdViolation2 TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString }
- DESCRIPTION
- "SEVERE: An Environmental Monitor humidity threshold has been violated on probe 2.
- The first variable is the current humidity."
- --#TYPE "APC Environmental Monitor: Probe 2 humidity violation"
- --#SUMMARY "A humidity threshold has been violated on probe 2."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 61
-
-humidityThresholdViolationCleared2 TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An Environmental Monitor humidity threshold violation has been cleared on probe 2."
- --#TYPE "APC Environmental Monitor: Probe 2 humidity violation cleared"
- --#SUMMARY "A humidity threshold violation has been cleared on probe 2."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 62
-
-temperatureThresholdViolation2 TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString }
- DESCRIPTION
- "SEVERE: An Environmental Monitor temperature threshold has been violated on probe 2.
- The first variable is the current temperature."
- --#TYPE "APC Environmental Monitor: Probe 2 temperature violation"
- --#SUMMARY "A temperature threshold has been violated on probe 2."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 63
-
-temperatureThresholdViolationCleared2 TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An Environmental Monitor temperature threshold violation has been cleared on probe 2."
- --#TYPE "APC Environmental Monitor: Probe 2 temperature violation cleared"
- --#SUMMARY "A temperature threshold violation has been cleared on probe 2."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 64
-
-mupsCommunicationEstablished TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: Communication with the Environmental Monitor has been established."
- --#TYPE "APC Environmental Monitor: Communication established"
- --#SUMMARY "Communication established between the agent and the Environmental Monitor."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 65
-
-mupsCommunicationLost TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: Communication to the Environmental Monitor has been lost. Steps
- to reestablish communication are in progress."
- --#TYPE "APC Environmental Monitor: Communication failure"
- --#SUMMARY "Communication lost between the agent and the Environmental Monitor."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE DEGRADED
- ::= 66
-
-batteryIncrease TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The number of batteries has increased."
- --#TYPE "APC UPS: The number of batteries has increased."
- --#SUMMARY "The number of batteries has increased."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 67
-
-batteryDecrease TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The number of batteries has decreased."
- --#TYPE "APC UPS: The number of batteries has decreased."
- --#SUMMARY "The number of batteries has decreased."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 68
-
-powerModuleIncrease TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The number of power modules has increased."
- --#TYPE "APC UPS: The number of power modules has increased."
- --#SUMMARY "The number of power modules has increased."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 69
-
-powerModuleDecrease TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The number of power modules has decreased."
- --#TYPE "APC UPS: The number of power modules has decreased."
- --#SUMMARY "The number of power modules has decreased."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 70
-
-intelligenceModuleInserted TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An intelligence module has been inserted."
- --#TYPE "APC UPS: An intelligence module has been inserted."
- --#SUMMARY "An intelligence module has been inserted."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 71
-
-intelligenceModuleRemoved TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An intelligence module has been removed."
- --#TYPE "APC UPS: An intelligence module has been removed."
- --#SUMMARY "An intelligence module has been removed."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 72
-
-rintelligenceModuleInserted TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A redundant intelligence module has been inserted."
- --#TYPE "APC UPS: A redundant intelligence module has been inserted."
- --#SUMMARY "A redundant intelligence module has been inserted."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 73
-
-rintelligenceModuleRemoved TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A redundant intelligence module has been removed."
- --#TYPE "APC UPS: A redundant intelligence module has been removed."
- --#SUMMARY "A redundant intelligence module has been removed."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 74
-
-extBatteryFrameIncease TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An external battery frame has been added."
- --#TYPE "APC UPS: An external battery frame has been added."
- --#SUMMARY "An external battery frame has been added."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 75
-
-extBatteryFrameDecrease TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An external battery frame has been removed."
- --#TYPE "APC UPS: An external battery frame has been removed."
- --#SUMMARY "An external battery frame has been removed."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 76
-
-abnormalCondition TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString }
- DESCRIPTION
- "SEVERE: An abnormal condition has been detected.
- The first variable is the fault condition."
- --#TYPE "APC: An abnormal condition has been detected."
- --#SUMMARY "An abnormal condition has been detected."
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 77
-
-abnormalConditionCleared TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An abnormal condition has been cleared.
- The first variable is the fault condition."
- --#TYPE "APC: An abnormal condition has been cleared."
- --#SUMMARY "An abnormal condition has been cleared."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 78
-
-deviceStatusChange TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString}
- DESCRIPTION
- "INFORMATIONAL: The status of the device being monitored has changed."
- --#TYPE "APC : The status of the device being monitored has changed."
- --#SUMMARY "The status of the device being monitored has changed."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 79
-
-noBatteries TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: The UPS has no batteries attached."
- --#TYPE "APC UPS: No batteries attached."
- --#SUMMARY "The UPS has no batteries attached."
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 80
-
-noBatteriesCleared TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The UPS's batteries have been attached."
- --#TYPE "APC UPS: The no batteries attached condition has been cleared."
- --#SUMMARY "The UPS's batteries have been attached."
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 81
-
-userAdded TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A new user has been added."
- --#TYPE "APC: A new user has been added."
- --#SUMMARY "A new user has been added."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 82
-
-userDeleted TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A user has been deleted."
- --#TYPE "APC: A user has been deleted."
- --#SUMMARY "A user has been deleted."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 83
-
-userModified TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A user has been modified."
- --#TYPE "APC: A user has been modified."
- --#SUMMARY "A user has been modified."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 84
-
--- MasterSwitch Vm Traps
-
-msvmCommunicationEstablished TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: Communications with the MasterSwitch VM has been established."
- --#TYPE "APC: Communications established with the MasterSwitch VM."
- --#SUMMARY "Communications with the MasterSwitch VM has been established."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 85
-
-msvmCommunicationLost TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
- DESCRIPTION
- "SEVERE: Communications with the MasterSwitch VM has been lost."
- --#TYPE "APC: Communications lost with the MasterSwitch VM."
- --#SUMMARY "Communications with the MasterSwitch VM has been lost."
- --#ARGUMENTS { }
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 86
-
-msvmOverload TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
- DESCRIPTION
- "SEVERE: The MasterSwitch VM in an overload condition."
- --#TYPE "APC: The MasterSwitch VM is near or at an overload condition."
- --#SUMMARY "The MasterSwitch VM is near or at an overload condition."
- --#ARGUMENTS { }
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 87
-
-msvmOverloadCleared TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The overload condition on the MasterSwitch VM has been cleared."
- --#TYPE "APC: The overload condition cleared on the MasterSwitch VM."
- --#SUMMARY "The overload condition on the MasterSwitch VM has been cleared."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 88
-
-msvmOutletOn TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName,
- sPDUOutletControlVMOutletIndex, sPDUOutletControlVMOutletName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An outlet on the MasterSwitch VM has turned on."
- --#TYPE "APC: An outlet on the MasterSwitch VM has turned on."
- --#SUMMARY "An outlet on the MasterSwitch VM has turned on."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 89
-
-msvmOutletOff TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName,
- sPDUOutletControlVMOutletIndex, sPDUOutletControlVMOutletName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An outlet on the MasterSwitch VM has turned off."
- --#TYPE "APC: An outlet on the MasterSwitch VM has turned off."
- --#SUMMARY "An outlet on the MasterSwitch VM has turned off."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 90
-
-msvmDeviceConfigChange TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A device configuration change has been made on a MasterSwitch VM."
- --#TYPE "APC: A device configuration change on a MasterSwitch VM."
- --#SUMMARY "A device configuration change has been made on a MasterSwitch VM."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 91
-
-msvmOutletConfigChange TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName,
- sPDUOutletControlVMOutletIndex, sPDUOutletControlVMOutletName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An outlet configuration change has been made on a MasterSwitch VM."
- --#TYPE "APC: An outlet configuration change on a MasterSwitch VM."
- --#SUMMARY "An outlet configuration change has been made on a MasterSwitch VM."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 92
-
-msvmLowLoad TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The MasterSwitch VM has violated the low load threshold."
- --#TYPE "APC: The MasterSwitch VM has violated the low load threshold."
- --#SUMMARY "The MasterSwitch VM has violated the low load threshold."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 93
-
-msvmLowLoadCleared TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The low load condition on the MasterSwitch VM has been cleared."
- --#TYPE "APC: The low load condition cleared on the MasterSwitch VM."
- --#SUMMARY "The low load condition on the MasterSwitch VM has been cleared."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 94
-
-msvmNearOverload TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
- DESCRIPTION
- "SEVERE: The MasterSwitch VM is approaching an overload condition."
- --#TYPE "APC: The MasterSwitch VM is near or at an overload condition."
- --#SUMMARY "The MasterSwitch VM is near or at an overload condition."
- --#ARGUMENTS { }
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 95
-
-msvmNearOverloadCleared TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The near overload condition on the MasterSwitch VM has been cleared."
- --#TYPE "APC: The overload condition cleared on the MasterSwitch VM."
- --#SUMMARY "The overload condition on the MasterSwitch VM has been cleared."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 96
-
-msvmPowerSupplyStatusChange TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlVMIndex, sPDUMasterControlVMName, mtrapargsInteger, mtrapargsString }
- DESCRIPTION
- "WARNING: The power supply status of the MasterSwitch VM has changed."
- --#TYPE "APC: The power supply status changed on MasterSwitch VM"
- --#SUMMARY "The power supply status of the MasterSwitch VM has changed."
- --#ARGUMENTS { }
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 97
-
--- MasterSwitch plus (MSP) Traps
-
-mspCommunicationEstablished TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: Communications with the MasterSwitch plus has been established."
- --#TYPE "APC: Communications established with the MasterSwitch plus."
- --#SUMMARY "Communications with the MasterSwitch plus has been established."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 98
-
-mspCommunicationLost TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, mtrapargsString }
- DESCRIPTION
- "SEVERE: Communications with the MasterSwitch plus has been lost."
- --#TYPE "APC: Communications lost with the MasterSwitch plus."
- --#SUMMARY "Communications with the MasterSwitch plus has been lost."
- --#ARGUMENTS { }
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 99
-
-mspOutletOn TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName,
- sPDUOutletControlMSPOutletIndex, sPDUOutletControlMSPOutletName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An outlet on the MasterSwitch plus has turned on."
- --#TYPE "APC: An outlet on the MasterSwitch plus has turned on."
- --#SUMMARY "An outlet on the MasterSwitch plus has turned on."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 100
-
-mspOutletOff TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName,
- sPDUOutletControlMSPOutletIndex, sPDUOutletControlMSPOutletName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An outlet on the MasterSwitch plus has turned off."
- --#TYPE "APC: An outlet on the MasterSwitch plus has turned off."
- --#SUMMARY "An outlet on the MasterSwitch plus has turned off."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 101
-
-mspDeviceConfigChange TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A device configuration change has been made on a MasterSwitch plus."
- --#TYPE "APC: A device configuration change on a MasterSwitch plus."
- --#SUMMARY "A device configuration change has been made on a MasterSwitch plus."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 102
-
-mspOutletConfigChange TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { sPDUMasterControlMSPIndex, sPDUMasterControlMSPName, sPDUOutletControlMSPOutletIndex, sPDUOutletControlMSPOutletName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An outlet configuration change has been made on a MasterSwitch plus."
- --#TYPE "APC: An outlet configuration change on a MasterSwitch plus."
- --#SUMMARY "An outlet configuration change has been made on a MasterSwitch plus."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 103
-
-rsSourceSwitched TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger02, mtrapargsString03, mtrapargsInteger, mtrapargsString02, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The Redundant Switch has switched source.
- The first variable is an integer representing the current source: 0=A, 1=B.
- The second variable is the 32-character name of the current source.
- The third variable is an integer representing the transfer cause:
- 0=No Transfers Recorded, 1=Due to user action or preferred switching,
- 3=Due to line notch or spike, 5=Due to low line voltage,
- 7=Transfer due to high line voltage,
- 9=Transfer due to frequency out of range.
- The fourth variable is a character string listing the transfer cause."
- --#TYPE "APC Redundant Switch: The Redundant Switch has switched source"
- --#SUMMARY "The Redundant Switch has switched source."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 104
-
-rsLostRedundancy TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString }
- DESCRIPTION
- "SEVERE: The Redundant Switch has lost redundancy.
- The first variable is an integer representing the source which is no longer available: 0=A, 1=B.
- The second variable is the 32-character name of the source which is no longer available."
- --#TYPE "APC Redundant Switch: The Redundant Switch has lost redundancy"
- --#SUMMARY "The Redundant Switch has has lost redundancy."
- --#ARGUMENTS { }
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 105
-
-rsRedundancyRestored TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: Redundancy has been restored to the Redundant Switch .
- The first variable is an integer representing the source which has been restored: 0=A, 1=B.
- The second variable is the 32-character name of the source which has been restored."
- --#TYPE "APC Redundant Switch: Redundancy has been restored."
- --#SUMMARY "Redundancy has been restored to the Redundant Switch ."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 106
-
-rsConfigChange TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A configuration change has been made on a Redundant Switch."
- --#TYPE "APC: A configuration change on a Redundant Switch."
- --#SUMMARY "A configuration change has been made on a Redundant Switch."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 107
-
-rsCommunicationEstablished TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: Communications with the Redundant Switch has been established."
- --#TYPE "APC: Communications established with the Redundant Switch."
- --#SUMMARY "Communications with the Redundant Switch has been established."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 108
-
-rsCommunicationLost TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: Communications with the Redundant Switch has been lost."
- --#TYPE "APC: Communications lost with the Redundant Switch."
- --#SUMMARY "Communications with the Redundant Switch has been lost."
- --#ARGUMENTS { }
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE DEGRADED
- ::= 109
-
-dcCommunicationEstablished TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: Communications with the DC power plant has been established."
- --#TYPE "APC: Communications established with the DC power plant."
- --#SUMMARY "Communications with the DC power plant has been established."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 110
-
-dcCommunicationLost TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: Communications with the DC power plant has been lost."
- --#TYPE "APC: Communications lost with the DC power plant."
- --#SUMMARY "Communications with the DC power plant has been lost."
- --#ARGUMENTS { }
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE DEGRADED
- ::= 111
-
-dcPINChanged TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The active PIN on the DC controller has been changed."
- --#TYPE "APC: The active PIN on the DC controller has been changed."
- --#SUMMARY "The active PIN on the DC controller has been changed."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 112
-
-dcMajorAlarm TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: A Major alarm is active in the DC power plant."
- --#TYPE "APC: A Major alarm is active in the DC power plant."
- --#SUMMARY "A Major alarm is active in the DC power plant."
- --#ARGUMENTS { }
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE DEGRADED
- ::= 113
-
-dcMajorAlarmCleared TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A Major alarm is no longer active in the DC power plant."
- --#TYPE "APC: A Major alarm is no longer active in the DC power plant."
- --#SUMMARY "A Major alarm is no longer active in the DC power plant."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 114
-
-dcMinorAlarm TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "WARNING: A Minor alarm is active in the DC power plant."
- --#TYPE "APC: A Minor alarm is active in the DC power plant."
- --#SUMMARY "A Minor alarm is active in the DC power plant."
- --#ARGUMENTS { }
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 115
-
-dcMinorAlarmCleared TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A Minor alarm is no longer active in the DC power plant."
- --#TYPE "APC: A Minor alarm is no longer active in the DC power plant."
- --#SUMMARY "A Minor alarm is no longer active in the DC power plant."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 116
-
-dcOutputRelayOn TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { dm3StatusOutRlyIndex, dm3StatusOutRlyName, mtrapargsString }
- DESCRIPTION
- "WARNING: An output relay for the powerplant has been activated (state changed to on).
- The first variable is an integer representing the output relay number that has gone on.
- The second variable is the 16-character name of the output relay."
- --#TYPE "APC: An output relay has gone on."
- --#SUMMARY "An output relay has gone on in the DC power plant."
- --#ARGUMENTS { }
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 117
-
-dcOutputRelayOff TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { dm3StatusOutRlyIndex, dm3StatusOutRlyName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An output relay for the powerplant has been deactivated (state changed to off).
- The first variable is an integer representing the output relay number that has gone off.
- The second variable is the 16-character name of the output relay."
- --#TYPE "APC: An output relay has gone off."
- --#SUMMARY "An output relay has gone off in the DC power plant."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 118
-
-dcInputRelayOn TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { dm3StatusInRlyIndex, dm3StatusInRlyName, mtrapargsString }
- DESCRIPTION
- "WARNING: An input relay for the powerplant has been activated (state changed to on).
- The first variable is an integer representing the input relay number that has gone on.
- The second variable is the 16-character name of the input relay."
- --#TYPE "APC: An input relay has gone on."
- --#SUMMARY "An input relay has gone on in the DC power plant."
- --#ARGUMENTS { }
- --#SEVERITY WARNING
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 119
-
-dcInputRelayOff TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { dm3StatusInRlyIndex, dm3StatusInRlyName, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: An input relay for the powerplant has been deactivated (state changed to off).
- The first variable is an integer representing the input relay number that has gone off.
- The second variable is the 16-character name of the input relay."
- --#TYPE "APC: An input relay has gone off."
- --#SUMMARY "An input relay has gone off in the DC power plant."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 120
-
-logicPowerSuppliesIncreased TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The number of system power supplies has increased."
- --#TYPE "APC UPS: The number of system power supplies has increased."
- --#SUMMARY "The number of system power supplies has increased."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 121
-
-logicPowerSuppliesDecreased TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The number of system power supplies has decreased."
- --#TYPE "APC UPS: The number of system power supplies has decreased."
- --#SUMMARY "The number of system power supplies has decreased."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 122
-
-externalSwitchGearClosed TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString02, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: External Switch Gear closed."
- --#TYPE "APC UPS: External Switch Gear closed."
- --#SUMMARY "External Switch Gear closed."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 123
-
-externalSwitchGearOpened TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString02, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: External Switch Gear opened."
- --#TYPE "APC UPS: External Switch Gear opened."
- --#SUMMARY "External Switch Gear opened."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 124
-
-generalDeviceEvent TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: APC Device event."
- --#TYPE "APC Device event"
- --#SUMMARY "APC Device event."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 125
-
-atsSourceSwitched TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: The Automatic Transfer Switch has switched source.
- The first variable is an integer representing the current source: 0=A, 1=B.
- The second variable is the 32-character name of the current source."
- --#TYPE "APC Automatic Transfer Switch: The ATS has switched source"
- --#SUMMARY "The Automatic Transfer Switch has switched source."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 126
-
-atsLostRedundancy TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString }
- DESCRIPTION
- "SEVERE: The Automatic Transfer Switch has lost redundancy.
- The first variable is an integer representing the source which is no longer available: 0=A, 1=B.
- The second variable is the 32-character name of the source which is no longer available."
- --#TYPE "APC Automatic Transfer Switch: The ATS has lost redundancy. "
- --#SUMMARY "The Automatic Transfer Switch has has lost redundancy."
- --#ARGUMENTS { }
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 127
-
-atsRedundancyRestored TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString02, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: Redundancy has been restored to the Automatic Transfer Switch .
- The first variable is an integer representing the source which has been restored: 0=A, 1=B.
- The second variable is the 32-character name of the source which has been restored."
- --#TYPE "APC Automatic Transfer Switch: Redundancy has been restored."
- --#SUMMARY "Redundancy has been restored to the Automatic Transfer Switch ."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 128
-
-atsConfigChange TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsInteger, mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: A configuration change has been made on the Automatic Transfer Switch.
- The first variable is an integer representing the configuration setting which changed:
- 0=Transfer Voltage Range, 1=Sensitivity 2=Preferred Source
- 3=Front Panel Lockout 4=Current Limit"
- --#TYPE "APC Automatic Transfer Switch: ATS configuration changed."
- --#SUMMARY "A configuration change has been made on a Automatic Transfer Switch."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 129
-
-atsCommunicationEstablished TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "INFORMATIONAL: Communications with the Automatic Transfer Switch has been established."
- --#TYPE "APC Automatic Transfer Switch: Communications established."
- --#SUMMARY "Communications with the Automatic Transfer Switch has been established."
- --#ARGUMENTS { }
- --#SEVERITY INFORMATIONAL
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE OPERATIONAL
- ::= 130
-
-atsCommunicationLost TRAP-TYPE
- ENTERPRISE apc
- VARIABLES { mtrapargsString }
- DESCRIPTION
- "SEVERE: Communications with the Automatic Transfer Switch has been lost."
- --#TYPE "APC Automatic Transfer Switch: Communications lost."
- --#SUMMARY "Communications with the Automatic Transfer Switch has been lost."
- --#ARGUMENTS { }
- --#SEVERITY SEVERE
- --#TIMEINDEX 1
- --#HELP ""
- --#HELPTAG 0
- --#STATE DEGRADED
- ::= 131
-
-atsOverCurrent TRA