This chapter describes the components of TL1 commands and autonomous messages for the Cisco ONS 15454, Release 3.1, including:
•TL1 default values
•Access identifiers (AIDs)
•Parameter types
4.1 TL1 Default Values
4.1.1 BLSR
Table 4-1 BLSR
BLSR
Default
RVRTV
Y
RVTM
5.0 minutes
SRVRTV
Y
SRVTM
5.0 minutes
4.1.2 Cross Connections
Table 4-2 Cross Connections
Cross Connections
Default
CCT
2WAY for both STSp and VT1 cross connections
4.1.3 Environmental Alarms and Controls
Table 4-3 Environmental Alarms and Controls
Environmental Alarms and Controls
Default
OPR-EXT-CONT
CONTTYPE is set as one provisioned in the respective AID, there is not default for it. It is only used as a filter if entered. DUR is always taken as CONT.
RTRV-ATTR-CONT
There is no default for CONTTYPE. It is only used as a filter if entered.
RTRV-ATTR-ENV
There is no default for both NTFCNCDE and ALMTYPE, which are only used as filters if entered.
RTRV-EXT-CONT
CONTTYPE defaults to the conttype associated with the AID.
SET-ATTR-ENV
NTFCNCDE defaults to NR. ALMTYPE defaults to NULL. ALMMSG defaults to \"Env Alarm Input 1\".
4.1.4 Equipment
Table 4-4 Equipment
Equipment
Default
ALW-SWTOPROTN-EQPT, INH-SWTOPROTN-EQPT and ALW-SWTOWKG-EQPT, ING-SWTOWKG-EQPT
DIRN defaults to BTH.
ENT-EQPT
PROTID, PRTYPE, RVRTV and RVTM defaults to NULL.
SW-DX-EQPT
MODE defaults to NORM.
SW-TOPROTN-EQPT and SW-TOWKG-EQPT
MODE defaults to NORM. DIRN defaults to BTH.
4.1.5 Performance
Table 4-5 Performance
Performance
Default
INIT-REG-<MOD2>
LOCN defaults to NEND (near end).
RTRV-PM-<MOD2>
LOCN defaults to NEND. TMPER defaults to 15 minutes.
RTRV-TH-<MOD2>
MONTYPE defaults to CVL for OCN, EC1, and DSN. MONTYPE defaults to ESP for STSp MONTYPE defaults to UASV for VT1. MONTYPE defaults to AISSP for the DS1 layer of the DS3XM card. LOCN defaults to NEND. TMPER defaults to 15 minutes.
SET-PMMODE-<STS_PATH>
PMSTATE defaults to ON.
SET-TH-<MOD2>
LOCN defaults to NEND. TMPER defaults to 15 minutes.
4.1.6 Ports
Table 4-6 Ports
Ports
Default
OCN Line
DCC defaults to N. TMGREF defaults to N. SYNCMSG defaults to Y. SENDDUS defaults to N. PJMON defaults to 0. SFBER defaults to 1E-4. SDBER defaults to 1E-7. MODE defaults to SONET. PST defaults to OOS.
EC1 Line
PJMON defaults to 0 (zero). LBO defaults to 0-225. RXEQUAL is Y. PST defaults to defaults to OOS.
T1 Line (DS1/DS1N)
LINECDE defaults to AMI. FMT defaults to D4. LBO defaults to 0-133. PST defaults to OOS.
T3 Line (DS3, DS3E, DS3NE, DS3XM)
DS3/T3 LINECDE defaults to 0-225. DS3 PST defaults to OOS. DS3E/DS3NE FMT defaults to UNFRAMED. DS3E.DS3NE LINECDE defaults to B3ZS. DS3E/DS3NE LBO defaults to 0-225. DS3 of DS3XM PST defaults to OOS.
4.1.7 SONET Line Protection
Table 4-7 SONET Line Protection
SONET Line Protection
Default
OCN Line Protection
PROTID defaults to the protecting port of the protection group (SLOT-#(OCN)PORT-#). It is a string that can have a maximum length of 32 characters. RVRTV defaults to N (non-revertive mode). RVTM defaults to 5.0 minutes. PSDIRN defaults to UNI.
OPR-PROTNSW-<OCN>
ST (switch type) is optional and for BLSR protection switch only. ST defaults to BLSR RING switch type.
4.1.8 STS and VT Paths
Table 4-8 STS and VT Paths
STS and VT Paths
Default
STS Path
SFBER, SDBER, RVRTV, and RVTM apply to UPSR STS paths only. SFBER defaults to 1E-4. SDBER defaults to 1E-6. RVRTV defaults to N. RVTM defaults to empty because RVRTV is N when UPSR STSp is created.
J1 is implemented on DS1, DS1N, DS3, DS3E, DS3NE, DS3XM, EC1, OC3, OC48AS AND OC192 cards. TRCMODE defaults to the OFF mode.
EXPTRC defaults to a copy of the provisioned string or NULL when TRCMODE is OFF mode. EXPTRC defaults to the user entered string when the TRCMODE is MANUAL mode. EXPTRC defaults to a copy of the acquired received string or NULL if the string has not been acquired when the TRCMODE is AUTO mode.
INCTRC defaults to the incoming string (NULL) when the TRCMODE is under OFF mode. INCTRC defaults to a copy of the received string or NULL if the string has not been received when the TRCMODE is under MANUAL or AUTO mode.
VT Path
RVRTV, RVTM apply to UPSR VT paths only. RVRTV defaults to N. RVTM defaults to empty because RVRTV is N when UPSR VT1 is created.
4.1.9 Synchronization
Table 4-9 Synchronization
Synchronization
Default
BITS
LINECDE defaults to B8ZS. FMT defaults to ESF. SYNCMSG defaults to Y. PST defaults to OOS.
NE-SYNCN
TMMDE defaults to EXTERNAL. SSMGEN defaults to GEN1. QRES defaults to SAM-AS-DUS. RVRTV defaults to Y. RVTM defaults to 5.0 minutes.
SYNCN
PRI/SEC QRES defaults to ABOVE-STU. PRI STATUS defaults to ACT. SEC STATUS defaults to STBY. THIRD QRES and STATUS defaults to NULL.
4.2 Access Identifiers
The AID code directs an input command to its intended physical or data entity inside the NE. Equipment modules and facilities are typical examples of entities addressed by the access code.
Indicates there is no protection group. Used when trying to delete a protection group.
SLOT-1
The No.1 slot of an NE
SLOT-3
The No.3 slot of an NE
SLOT-5
The No.5 slot of an NE
SLOT-13
The No.13 slot of an NE
SLOT-15
The No.15 slot of an NE
SLOT-17
The No.17 slot of an NE
4.2.3 BITS
AID for BITS
Table 4-12 BITS
Pattern
Description
BITS-ALL
BITS AIDS of both BITS-1 and BITS-2 in the RTRV-BITS command
BITS-{1,2}
Individual BITS AID
4.2.4 BLSR
BLSR AIDs are used to access the specific BLSR of the NE.
Table 4-13 BLSR
Pattern
Description
ALL
The whole BLSR of the NE
BLSR-{0-9999}
Individual BLSR of the NE
4.2.5 DS1
Used to access the DS-1 frame layer of the DS3XM.
Table 4-14 DS1
Pattern
Description
DS1-{1-6,12-17}-{1-6}-{1-28}
DS1 AID for the DX3XM card
4.2.6 ENV
The environmental AID for the AIC card
Table 4-15 ENV
Pattern
Description
ENV-{IN,OUT}-{1-4}
Environmental alarm AID. "IN" is used for environmental AID, "OUT" is used for control AID.
4.2.7 EQPT
Equipment AIDs are used to access specific cards. The OC48/OC192 cards can only use the high speed slots (Slot 5, Slot 6, Slot 12, Slot 13).
Table 4-16 EQPT
Pattern
Description
ALL
The ALL AID is only allowed for the RTRV-INV input command to retrieve AIP, BP, FAN and all the slots inventory information of the NE.
SLOT-ALL
All of the NE equipment AIDs
SLOT-{1-17}
Individual equipment AID of an NE
SLOT-{1-6,12-17}
Individual equipment AID of the I/O card units or slots
4.2.8 FACILITY
Used to access specific ports.
Table 4-17 FACILITY
Pattern
Description
FAC-{1-6,12-17}-ALL
All the facilities of an I/O unit or slot
FAC-{1-6,12-17}-{1-12}
Facilities AID for the EC1 and DS3 cards
FAC-{1-6,12-17}-{1-14}
Facilities for the DS1 card
FAC-{1-6,12-17}-{1-4}
Facilities for the OC3 card
FAC-{1-6,12-17}-{1-6}
Facilities for the DS3XM card
FAC-{1-6,12-17}-{1}
Facility AID for the OC12, and OC48AS cards
FAC-{5,6,12,13}-{1}
Facility AID for the OC48/OC192 card. The OC48/OC192 cards can only use the high speed slots (Slot 5, Slot 6, Slot 12, Slot 13).
4.2.9 STS
SONET frame-level AID set
Table 4-18 STS
AID
Description
STS-{1-6,12-17}-ALL
All the STSs of an STS bandwidth on an I/O unit
STS-{1-6,12-17}-{1,13,25,37}
STS12C AID for an OC48AS card
STS-{1-6,12-17}-{1,4,7,10-46}
STS3C AID for an OC48AS card
STS-{1-6,12-17}-{1,4,7,10}
STS3C AID for OC3 and OC12 cards
STS-{1-6,12-17}-{1,7,13,19-43}
STS6C AID for an OC48AS card
STS-{1-6,12-17}-{1-12}
STS1 AID for OC12, EC1, DS3 and OC3 cards
STS-{1-6,12-17}-{1-48}
STS1 AID for an OC48AS card
STS-{1-6,12-17}-{1-6}
STS1 AID for the DS3XM card
STS-{1-6,12-17}-{1}
STS1 AID for the DS1card STS3C AID for the OC3 card STS12C AID for the OC12 card STS48C AID for an OC48AS card
STS-{5,6,12,13}-{1,13,25,37-81}
STS12C AID for the OC192 card
STS-{5,6,12,13}-{1,13,25,37}
STS12C AID for the OC48 card
STS-{5,6,12,13}-{1,4,7,10-190}
STS3C AID for the OC192 card
STS-{5,6,12,13}-{1,4,7,10-46}
STS3C AID for the OC48 card
STS-{5,6,12,13}-{1,49,97,145}
STS48C AID for an OC48 card
STS-{5,6,12,13}-{1,7,13,19-187}
STS6C AID for an OC192 card
STS-{5,6,12,13}-{1,7,13,19-43}
STS6C AID for an OC48 card
STS-{5,6,12,13}-{1-192}
STS1 AID for the OC192 card
STS-{5,6,12,13}-{1-48}
STS1 AID for an OC48 card
STS-{5,6,12,13}-{1}
STS48C AID for the OC48 card STS192C AID for the OC192 card
4.2.10 SYN
Synchronization AIDs
Table 4-19 SYN
Pattern
Description
SYNC-NE
NE sync AID
4.2.11 SYN_SRC
Synchronization source
Table 4-20 SYN_SRC
Pattern
Description
FAC-{1-6,12-17}-{1-4}
Sync source is the optical card (OC3) facility
FAC-{1-6,12-17}-{1}
Sync source is the optical card (OC12) facility
FAC-{5,6,12,13}-{1}
Sync source is the optical card (OC48,OC192) facility
INTERNAL
Set the SYN_SRC to be the system default value. The "Internal" value of the SYN_SRC is only applied for the SYNC-NE AID on ED-SYNCN command.
SYNC-NE
SYNC-NE source. It is only used in the alarm report or alarm retrieve commands.
{BITS-1,BITS-2}
BITS-1 or BITS-2 of the synchronization source
4.2.12 SYNC_REF
Synchronization AIDs
Table 4-21 SYNC_REF
Pattern
Description
SYNC-ALL
NE, BITS1 and BITS2 sync AIDs used for the RTRV-SYNCN command only
SYNC-NE
NE sync AID
SYNC-{BITS1,BITS2}
BITS1 and BITS2 sync AIDs
4.2.13 SYNCSW
New synchronization reference that will be used
Table 4-22 SYNCSW
Pattern
Description
INT
Internal clock. The "INT" value of the syncsw is only applied for the SYNC-NE AID on OPR-SYNC-SW command.
PRI
Primary timing reference
SEC
Secondary timing reference
THIRD
Third timing reference
4.2.14 TAP
Test access path AID which indicates the TAP number
Table 4-23 TAP
Pattern
Description
{0, 1-999}
Indicates individual TAP number of the NE. The zero (0) number is used in the [<TACC>] field of the ED-rr test access related commands. When [<TACC>] is zero (0), the TAP is deleted.
4.2.15 VT1_5
Virtual termination AIDs
Table 4-24 VT1_5
Pattern
Description
ALL
All the VT cross connections of the NE. This <ALL> AID is only used for the RTRV-CRS-VT1 command.
VT1-{1-6,12-17}-1-{1-7}-{1-2}
DS1 card VT AID set
VT1-{1-6,12-17}-{1-12}-{1-7}-{1-4}
EC1, OC12, OC3 card VT AID set
VT1-{1-6,12-17}-{1-48}-{1-7}-{1-4}
OC48AS card VT AID set
VT1-{1-6,12-17}-{1-6}-{1-7}-{1-4}
DS3XM card VT AID set
VT1-{5-6,12-13}-{1-192}-{1-7}-{1-4}
OC192 card VT AID set
VT1-{5,6,12,13}-{1-48}-{1-7}-{1-4}
OC48 card VT AID set
4.3 Parameter Types
This section provides a description of all message parameter types defined for the TL1 messages used in the ONS 15454. The TL1 message descriptions frequently refer to this section.
4.3.1 ATAG Description
The ATAG is used for message sequencing. The number is incremented by one for each autonomous message sent by the ONS 15454. The ONS 15454 uses whole numbers 0000 to 9999.
4.3.2 CTAG Description
The CTAG is included in each command by the user and is repeated by the ONS 15454 in the response to allow the user to associate the command and response messages.
Note The valid values for a CTAG are strings of up to 6 characters comprised of identifiers (alphanumeric, beginning with a letter) or decimal numerals (a string of decimal digits with an optional non-trailing ".").
4.3.3 TID Description
The TID is the name of the NE where the command is addressed. TID is the Telcordia name for the system.
4.3.4 Parameter Notes
1. If a parameter is set to a value that is inconsistent with something already in the database, and that value is not changed to a consistent value then the command will be denied.
2. If a parameter is set to a value that is consistent with what is already in the database, but another parameter in the same command is incompatible, then the command will be denied.
3. The correct way to issue a command where parameters may be in conflict is to
a. first issue that command and change all relevant parameters to compatible values,
b. then issue the command again to change the target values.
For example, OC-N is syncmsg=y, to change SDH to y, ED-OCN needs to be called to set syncmsg=N, then called again to set SDH=y.
4. The attribute defaults have also been presented under RTRV commands, and they can be retrieved only if the RTRV commands follow the card/entity original provision.
5. The default for an optional field of an ED command is either the provisioned default value or the last provisioned value in the previous ED command.
4.3.5 ALL_MONTYPE
Monitoring type list
Table 4-25 ALL_MONTYPE Values
ALL_MONTYPE Values
Description
AISSP
Alarm Indication Signal Seconds - Path
CVCPP
Coding Violations - CP-Bit Path
CVL
Coding Violations - Line
CVP
Coding Violations - Path
CVS
Coding Violations - Section
CVV
Coding Violations
ESCPP
Errored Seconds - CP- Bit Path
ESL
Errored Seconds - Line
ESP
Errored Seconds - Path
ESS
Errored Seconds - Section
ESV
Errored Seconds - VT Path
FCL
Failure Count - Line
FCP
Failure Count - Path
LOSSL
Loss of Signal Seconds - Line
NPJC-PDET
PPJC-PDET:Negative Pointer Justification
NPJC-PGEN
PPJC-PDEN:Negative Pointer Justification
PPJC-PDET
PPJC-PDET:Positive Pointer Justification
PPJC-PGEN
PPJC-PDEN:Positive Pointer Justification
PSC
Protection Switching Count
PSD
Protection Switching Duration
SASCPP
Severely Errored Framing/AIS Second - CP-Bit Path
SASP
Severely Errored Framing/AIS Seconds Path
SEFS
Severely Errored Framing Seconds
SESCPP
Severely Errored Seconds - CP-Bit Path
SESL
Severely Errored Seconds - Line
SESP
Severely Errored Seconds - Path
SESS
Severely Errored Seconds - Section
SESV
Severely Errored Seconds - VT Path
UASCPP
Unavailable Seconds - CP-Bit Path
UASL
Unavailable Seconds - Line
UASP
Unavailable Seconds - Path
UASV
Unavailable Seconds - VT Path
4.3.6 ALL_THR
Threshold list
Table 4-26 ALL_THR Value
ALL_THR Values
Description
T-AISSP
Alarm Indication Signal Seconds - Path
T-CVCPP
Coding Violations - CP-Bit Path
T-CVL
Coding Violations - Line
T-CVP
Coding Violations - Path
T-CVS
Coding Violations - Section
T-CVV
Coding Violations - VT Path
T-ESCPP
Errored Seconds - CP-Bit Path
T-ESL
Errored Seconds - Line
T-ESP
Errored Seconds - Path
T-ESS
Errored Seconds - Section
T-ESV
Errored Seconds - VT Path
T-FCL
Failure Count - Line
T-FCP
Failure Count - Path
T-LOSSL
Loss of Signal Seconds - Line
T-PJNEG
PPJC-PDET:Negative Pointer Justification
T-PJNEG-GEN
PPJC-PGEN:Negative Pointer Justification
T-PJPOS
PPJC-PDET:Positive Pointer Justification
T-PJPOS-GEN
PPJC-PGEN:Positive Pointer Justification
T-PSC
Protection Switching Count
T-PSD
Protection Switching Duration
T-SASCPP
Severely Errored Framing/AIS Second - CP-Bit Path
T-SASP
Severely Errored Framing/AIS Seconds
T-SEFS
Severely Errored Framing Seconds
T-SESCPP
Severely Errored Second - CP-Bit Path
T-SESL
Severely Errored Second - Line
T-SESP
Severely Errored Second - Path
T-SESS
Severely Errored Second - Section
T-SESV
Severely Errored Second - VT Path
T-UASCPP
Unavailable Second - CP-Bit Path
T-UASL
Unavailable Second - Line
T-UASP
Unavailable Second - Path
T-UASV
Unavailable Second - VT Path
4.3.7 BLSR_MODE
BLSR mode
Table 4-27 BLSR_MODE Values
BLSR_MODE Values
Description
2F
Two fiber BLSR
4F
Four fiber BLSR
4.3.8 BLSR_TYPE
BLSR type of an OCN port
Table 4-28 BLSR_TYPE Values
BLSR_TYPE Values
Description
EASTPROT
Identifies that the OCN port is an east protecting port
EASTWORK
Identifies that the OCN port is an east working port
WESTPROT
Identifies that the OCN port is a west protecting port
WESTWORK
Identifies that the OCN port is a west working port
4.3.9 CCT
Defines the type of cross-connect to be created
Table 4-29 CCT Values
CCT Values
Description
1WAY
A unidirectional connection from a source tributary to a destination tributary
1WAYDC
UPSR mcast drop with (1-way) continue
1WAYEN
UPSR mcast end node (1-way continue)
2WAY
A bidirectional connection between the two tributaries
4.3.10 CMD_MODE
Command mode is used to force the system to execute a given command regardless of any standing conditions. Normal mode is the default behavior for all commands but the user may specify FRCD to force the system to override a state in which the command would normally be denied.
Table 4-30 CMD_MODE Values
CMD_MODE Values
Description
FRCD
Force the system to override a state in which the command would normally be denied
NORM
Execute the command normally. Do not override any conditions that may make the command fail.
4.3.11 COND_EFF
The affected unit's condition
Table 4-31 COND_EFF Values
COND_EFF Values
Description
CL
Standing condition cleared
SC
Standing condition raised
TC
Transient condition
4.3.12 CONDITION
The condition type of the alarm indication
Table 4-32 CONDITION Values
CONDITION Values
Description
ALM-SUPPRESS
Alarms/Events Suppressed for this Object
AUTOSW-SDBER
Automatic Switch - Signal Degrade Bit Error Rate
AUTOSW-SFBER
Automatic Switch - Signal Failure Bit Error Rate
EQPT-MISS
Replaceable Equipment/Unit is Missing
EXERCISE-RING- FAIL
Exercise Ring Failed
EXERCISE-RING-REQ
Exercise Ring
EXERCISE-SPAN-FAIL
Exercise Span Failed
EXERCISE-SPAN-REQ
Exercise Span
EXERCISING-RING
Exercise Ring Completed
EXERCISING-SPAN
Exercise Span Completed
FE-AIS
Far-end DS3 node is reporting an AIS
FE-DS1-MULTLOS
Multiple inputs detect a loss on the far-end
FE-DS1-NSA
Non-service affecting failure detected from the far-end DS1
FE-DS1-SA
Service affecting failure detected from the far-end DS1
FE-DS1-SNGLLOS
One of the DS1 inputs on the far-end detects a LOS
FE-DS3-NSA
Non-service affecting failure detected from the far-end DS3
FE-DS3-SA
Service affecting failure detected from the far-end DS3
FE-EQPT-NSA
Non-service affecting equipment failure is detected from the far-end DS3
FE-EXERCISING-RING
Far End Exercise Ring completed
FE-EXERCISING-SPAN
Far End Exercise Span completed
FE-FRCDWKSWPR-RING
Working facility forced to switch to protection unit - Ring Far end
FE-FRCDWKSWPR-SPAN
Working facility forced to switch to protection unit - Span Far end
FE-IDLE
Far end node detects an idle DS3 signal
FE-LOCKOUTOFPR-SPAN
Far end LockOut Working Channel Span
FE-LOF
Far end node reports a DS3 loss of frame
FE-LOS
Far end node reports a DS3 loss of signal
FE-MANWKSWPR-RING
Far end Manual Ring Switching command is activated
FE-MANWKSWPR-SPAN
Far end Manual Span Switching command is activated
FORCED-REQ
Forced switch request on facility/equipment
FORCED-REQ-RING
Forced switch request on a Ring
FORCED-REQ-SPAN
Forced switch request on a Span
FULLPASSTHR-BI
Bi-direction Full Pass Through is active
INC-ISD
DS3 idle condition
INHSWPR
Inhibit switch to protect request on equipment
INHSWWKG
Inhibit switch to working request on equipment
KB_PASSTHR
K-Byte Pass Through is active
LKOUTPR-S
Lockout of Protection - Span
LOCKOUT-REQ
Lockout switch request on facility/equipment
LPBKDS1FEAC
DS1 loopback signal is received from the far-end due to a Far-End Alarm and Control (FEAC) command
LPBKDS1FEAC-CMD
DS1 loopback command sent by the ONS 15454 to the far-end equipment
LPBKDS3FEAC
DS3 loopback signal is received from the far-end due to a Far-End Alarm and Control (FEAC) command
LPBKDS3FEAC-CMD
DS3 loopback command sent by the ONS 15454 to the far-end equipment
LPBKFACILITY
Loopback, Facility
LPBKTERMINAL
Loopback, Terminal
MAN
Manually caused abnormal condition
MAN-REQ
Manual Switch Request on facility/equipment
MANRESET
Recovery action - Manual system Reset
MANSWTOINT
Recovery action - Manual synchronization switch to internal clock
MANSWTOPRI
Recovery action - Manual synchronization Switch To Primary reference
MANSWTOSEC
Recovery action - Manual synchronization Switch To Second reference
MANSWTOTHIRD
Recovery action - Manual synchronization Switch To Third reference
Occurs in a BLSR when a node that originates or terminates STS circuits fails or is isolated by multiple fiber cuts
SSM-DUS
Synchronization Status Messaging - Don't use for timing synchronization
SSM-OFF
Synchronization Status Messaging - Off
SSM-PRS
Synchronization Status Messaging - Primary reference source - Stratum 1
SSM-RES
Synchronization Status Messaging - Reserved - quality level set by user
SSM-SMC
Synchronization Status Messaging - SONET minimum clock
SSM-ST2
Synchronization Status Messaging - Stratum 2
SSM-ST3
Synchronization Status Messaging - Stratum 3
SSM-ST3E
Synchronization Status Messaging - Stratum 3E
SSM-ST4
Synchronization Status Messaging - Stratum 4
SSM-STU
Synchronization Status Messaging - Sync traceability unknown
SSM-TNC
Synchronization Status Messaging - Transit node clock
SWTOPRI
Recovery action - Synchronization Switch To Primary reference
SWTOSEC
Recovery action - Synchronization Switch To Second refernce
SWTOTHIRD
Recovery action - Synchronization Switch To Third refernce
WKSWPR
Recovery action - Working facility/equipment switched to protection unit
WTR-RING
Recovery action - SONET ring is in Wait To Restore state
WTR-SPAN
Recovery action - SONET span in Wait To Restore state
4.3.13 CONTTYPE
The Environmental control types as defined by Telcordia GR-833-CORE, Issue 2, November 1996, Appendix G.
Table 4-33 CONTTYPE Values
CONTTYPE Values
Description
AIRCOND
Air conditioning
ENGINE
Engine
FAN
Fan
GEN
Generator
HEAT
Heat
LIGHT
Light
MISC
Miscellaneous
SPKLR
Sprinkler
4.3.14 DIRECTION
Transmit and receive directions
Table 4-34 DIRECTION Values
DIRECTION Values
Description
BTH
Both transmit and receive directions
RCV
Receive direction only
TRMT
Transmit direction only
4.3.15 DIRN
Specifies the discriminating level for the requested monitored parameter
Table 4-35 DIRN Values
DIRN Values
Description
DN
Monitored parameter with values equal to or greater than the level of LEV will be reported
UP
Monitored parameter with values equal to or less than the value of LEV will be reported
4.3.16 DS3_FMT
Indicates a DS3 digital signal format
Table 4-36 DS3_FMT Values
DS3_FMT Values
Description
ASYNC
The DS3 digital signal format is ASYNC
CBIT
The DS3 digital signal format is C-BIT
SYNC
The DS3 digital signal format is SYNC
UNFR
The DS3 digital signal format is unframed
4.3.17 DS_LINE_CODE
DS123 Line Code
Table 4-37 DS_LINE_CODE Values
DS_LINE_CODE Values
Description
B3ZS
Bipolar with Three-Zero Substitution
4.3.18 DS_LINE_TYPE
DS123 Line type
Table 4-38 DS_LINE_TYPE Values
DS_LINE_TYPE Values
Description
C-BIT
C-BIT line type applies to DS3XM and DS3E card
M23
M23 line type applies to DS3XM and DS3E card
UNFRAMED
Line Type is unframed. The old DS3 (L3M) and DS3CR cards can only run in unframed mode.
4.3.19 DURATION
Duration
Table 4-39 DURATION Values
DURATION Values
Description
CONTS
Continuous duration
4.3.20 E_LBO
Electrical signal line buildout
Table 4-40 E_LBO Values
E_LBO Values
Description
0-225
Electrical signal buildout range is 0-225
226-450
Electrical signal buildout range is 226-450
4.3.21 ENV_ALM
Environmental alarm types as defined by Telcordia GR-833-CORE, Issue 2, November 1996, Appendix F.
Table 4-41 ENV_ALM Values
ENV_ALM Values
Description
AIRCOMPR
Air compressor failure
AIRCOND
Air conditioning failure
AIRDRYR
Air dryer failure
BATDSCHRG
Battery discharging
BATTERY
Battery failure
CLFAN
Cooling fan failure
CPMAJOR
Centralized power major failure
CPMINOR
Centralized power minor failure
ENGINE
Engine failure
ENGOPRG
Engine operating
EXPLGS
Explosive gas
FIRDETR
Fire detector failure
FIRE
Fire
FLOOD
Flood
FUSE
Fuse failure
GEN
Generator failure
HIAIR
High airflow
HIHUM
High humidity
HITEMP
High temperature
HIWTR
High water
INTRUDER
Intrusion
LWBATVG
Low battery voltage
LWFUEL
Low fuel
LWHUM
Low humidity
LWPRES
Low cable pressure
LWTEMP
Low temperature
LWWTR
Low water
MISC
Miscellaneous
OPENDR
Open door
POWER
Commercial power failure
PUMP
Pump failure
PWR-48
48 Volt power supply failure
RECT
Rectifier failure
RECTHI
Rectifier high voltage
RECTLO
Rectifier low voltage
SMOKE
Smoke
TOXICGAS
Toxic gas
VENTN
Ventilation system failure
4.3.22 ENV_CRTL_MODE
Current state of the environmental control
Table 4-42 ENV_CRTL Values
ENV_CRTL_MODE Values
Description
CLOSE
Environmental control state is closed
OPEN
Environmental control state is opened
4.3.23 EQPT_TYPE
Identifies the type of equipment being provisioned into a slot
Table 4-43 EQPT_TYPE Values
EQPT_TYPE Values
Description
AIC
The Alarm Interface Controller Card is an optional card which expands system management capabilities for the customer defined alarm I/O and orderwire functionality
AIP
The Alarm Indicator Panel
BP
The Backplane of the NE
DCC
The Data Communications Channel
DS1-14
A 14 port interface card supporting DS1 facilities
DS1N-14
A 14 port interface card supporting DS1 facilities
DS3-12
A 12 port interface card supporting DS3 facilities
DS3-3
A 3 port interface card supporting DS3 facilities
DS3ATM-12
A 12 port interface card supporting DS3 ATM facilities
DS3CR-12
Cost reduced DS3
DS3E-12
A 12 port interface card supporting DS3E facilities
DS3NE-12
A 12 port interface card supporting DS3NE facilities
DS3N-12
A 12 port interface card supporting DS3 facilities
DS3XM-6
An interface card that converts six framed DS-3 network connections to 28x6 or 168 VT1.5s
E100T-12
A 2 port interface card supporting 1000 Base T ethernet facilities
E1000-2
A 12 port interface card supporting 100 Base T ethernet facilities
E100T-G
A 2 port interface card supporting 1000 Base T ethernet facilities and is compatible with the XC192 card
E1000-2-G
A 12 port interface card supporting 100 Base T ethernet facilities and is compatible with the XC192 card
EC1-12
A 12 port interface card supporting EC1 facilities
FTA
The Fan Tray of the NE
FTA1
The Fan Tray 1 of the NE
FTA2
The Fan Tray 2 of the NE
OC12
An interface card that supports one or more OC-12 (622Mbs) optical facilities
OC12-IR-1
An interface card that supports one intermediate range OC-12 (622Mbs) optical facilities
OC12-LR-1
An interface card that supports one long range OC-12 (622Mbs) optical facilities
OC12-SR-1
An interface card that supports one short range OC-12 (622Mbs) optical facilities
OC3
An interface card that supports multiple OC-3 (155Mbs) optical facilities
OC3-IR-4
An interface card that supports four intermediate range OC-3 (155Mbs) optical facilities
OC3-SR-4
An interface card that supports four short range OC-3 (155Mbs) optical facilities
OC3ATM-IR-6
An interface card that supports six intermediate range OC-3 (155Mbs) ATM optical fibers
OC3POS-SR-4
An interface card that supports four short range OC-3 (155Mbs) POS optical facilities
OC48
An interface card that supports one or more extended long range OC-48 (2.5Gbs) optical facility that can only be provisioned in the high-speed I/O slots
OC48-AS-1
An interface card that supports one short range OC-48 (2.5Gbs) optical facility that can be provisioned in any I/O slot
OC48-ELR-1
An interface card that supports one short range OC-48 (2.5Gbs) optical facility that can be provisioned in any I/O slot
OC48-IR-1
An interface card that supports one intermediate range OC-48 (2.5Gbs) optical facility
OC48-LR-1
An interface card that supports one long range OC-48 (2.5Gbs) optical facility
OC48-SR-1
An interface card that supports one short range OC-48 (10Gbs) optical facilities
OC192-LR-1
An interface card that supports one or more OC-192 optical facilities
TCC+
The Timing Communication and Control+ card
XC
A cross-connect card
XC192
A cross-connect card that cross-connects STS-12, STS-48, and STS-192 signal rates
XCVT
A cross-connect card
4.3.24 EQUIP
Indicates the presence of a plug-in unit
Table 4-44 EQUIP Values
EQUIP Values
Description
EQUIP
The unit is Equipped - present
UNEQUIP
The unit is Unequipped - absent
4.3.25 EQUIPMENT_TYPE
Equipment type
Table 4-45 EQUIPMENT_TYPE Values
EQUIPMENT_TYPE Values
Description
AIC
AIC card
DS1
DS1 card
DS1N
DS1N card
DS3
DS3 card
DS3E
DS3E card
DS3N
DS3N card
DS3NE
DS3NE card
DS3XM
DS3XM card
E100T-12
E100T-12 card
E1000T
E1000T card
E100T
E100T card
EC1
EC1 card
OC3
OC3 card
OC12
OC12 card
OC48
OC48 card
OC192
OC192 card
TCC+
TCC+ card
XC192
XC192 card
XC
XC card
XCVT
XCVT card
4.3.26 EXT_RING
Indicates if the ring supports the extended K1/K2/K3 protocol
Table 4-46 EXT_RING Values
EXT_RING Values
Description
N
Indicates the Ring does not support the extended K1/K2/K3 protocol
Y
Indicates the Ring does support the extended K1/K2/K3 protocol
4.3.27 FRAME_FORMAT
The frame format for a T1 port
Table 4-47 FRAME_FORMAT Values
FRAME_FORMAT Values
Description
D4
Frame format is D4
ESF
Frame format is ESF
UNFRAMED
Frame format is unframed
4.3.28 LINE_BUILDOUT
Line buildout
Table 4-48 LINE_BUILDOUT Values
LINE_BUILDOUT Values
Description
0-131
Line buildout range is 0-131
132-262
Line buildout range is 132-262
263-393
Line buildout range is 263-393
394-524
Line buildout range is 394-524
525-655
Line buildout range is 525-655
4.3.29 LINE_CODE
Line code
Table 4-49 LINE_CODE Values
LINE_CODE Values
Description
AMI
Line code value is AMI
B8ZS
Line code value is B8ZS (Bipolar with Three-Zero Substitution)
4.3.30 LOCATION
Identifies the location where the action is to take place
Table 4-50 LOCATION Values
LOCATION Values
Description
FEND
Action occurs on the Far End of the facility
NEND
Action occurs on the Near End of the facility
4.3.31 LPBK_TYPE
Indicates the type of loopback that is to be operated or released
Table 4-51 LPBK_TYPE Values
LPBK_TYPE Values
Description
FACILITY
A type of loopback that connects the incoming received signal immediately following the optical-to-electrical conversion (after descrambling) to the associated transmitter in the return direction
TERMINAL
A loopback that connects the signal that is about to be transmitted (after scrambling but before the electrical-to-optical conversion) is connected to the associated, incoming receiver
4.3.32 MOD2
Line/Path Modifier
Table 4-52 MOD2 Values
MOD2 Values
Description
DS1
DS1 line of a DS3XM card
EC1
EC1 facility
OC3
OC3 facility
OC12
OC12 facility
OC48
OC48 facility
OC192
OC192 facility
STS1
STS1 path
STS3C
STS3C path
STS6C
STS6C path
STS12C
STS12C path
STS48C
STS48C path
STS192C
STS192C path
T1
T1/DS1 facility/line
T3
T3/DS3 facility/line
VT1
VT1_5 path
4.3.33 MOD2_IO
Facility/Line Modifier
Table 4-53 MOD2_IO Values
MOD2_IO Values
Description
DS1
DS1 line of a DS3XM card
EC1
EC1 facility
OC3
OC3 facility
OC12
OC12 facility
OC48
OC48 facility
OC192
OC192 facility
T1
T1/DS1 facility
T3
T3/DS3 facility
4.3.34 MOD2ALM
Alarm type for certain generic TL1 commands
Table 4-54 MOD2ALM Values
MOD2ALM Values
Description
DS1
DS1 alarm
E100
E100 alarm
E1000
E1000 alarm
EC1
EC1 alarm
OC3
OC3 alarm
OC12
OC12 alarm
OC48
OC48 alarm
OC192
OC192 alarm
STS1
STS1 alarm
STS3C
STS3C alarm
STS6C
STS6C alarm
STS12C
STS12C alarm
STS48C
STS48C alarm
STS192C
STS192C alarm
T1
T1 alarm
T3
T3 alarm
VT1
VT1 alarm
4.3.35 MOD2B
Alarm type for certain generic TL1 commands
Table 4-55 MOD2B Values
MOD2B Values
Description
BITS
BITS alarm
COM
COM alarm
DS1
DS1 alarm
E100
E100 alarm
E1000
E1000 alarm
EC1
EC1 alarm
ENV
ENV alarm
EQPT
EQPT alarm
OC3
OC3 alarm
OC12
OC12 alarm
OC48
OC48 alarm
OC192
OC192 alarm
STS1
STS alarm
STS3C
STS alarm
STS6C
STS alarm
STS12C
STS alarm
STS48C
STS alarm
STS192C
STS Alarm
SYNCN
SYNCN alarm
T1
T1 alarm
T3
T3 alarm
TCC
TCC alarm
VT1
VT alarm
4.3.36 MOD_PATH
STS/VT Path Modifier
Table 4-56 MOD_PATH Values
MOD_PATH Values
Description
STS1
STS1 Path
STS3C
STS3C Path
STS6C
STS6C Path
STS12C
STS12C Path
STS48C
STS48C Path
STS192
STS192C Path
VT1
VT1_5 Path
4.3.37 MOD_PORT
Move from MOD2_IO without DS1
Table 4-57 MOD_PORT Values
MOD_PORT Values
Description
EC1
EC1 Port
OC3
OC3 Port
OC12
OC12 Port
OC48
OC48 Port
OC192
OC192 Port
T1
T1/DS1 Port
T3
T3/DS3 Port
4.3.38 MOD_TACC
Test Access Modifier
Table 4-58 MOD_TACC Values
MOD_TACC Values
Description
DS1
DS1 line of a DS3XM card
STS1
STS1 path
STS3C
STS3C path
STS6C
STS6C path
STS12C
STS12C path
STS48C
STS48C path
STS192C
STS192C path
T1
T1/DS1 facility/line
T3
T3/DS3 facility/line
VT1
VT1_5 path
4.3.39 MODIFIER
Modifier for certain TL1 commands that are generic in syntax
Table 4-59 MODIFIER Values
MODIFIER Values
Description
BITS
BITS command modifier
EQPT
Equipment command modifier
OC3
OC-3 command modifier
OC12
OC-12 command modifier
OC48
OC-48 command modifier
OC192
OC-192 command modifier
STS1
STS-1 command modifier
STS3C
STS-3C command modifier
STS12C
STS-12C command modifier
STS48C
STS-48C command modifier
SYNCN
Synchronization command modifier
T3
T3/DS3 command modifier
4.3.40 MODULE_OP
Module operation mode
Table 4-60 MOD_OP Values
MODULE_OP Values
Description
CLR
Clear switch operation mode
LOCKDX
Lock duplex switch operation mode
LOCKPRT
Lock switch to protection operation mode
LOCKWKG
Lock switch to working operation mode
RST
Reset operation mode
SWITCHDX
Switch duplex operation mode
SWITCHPRT
Switch to protection operation mode
SWITCHWKG
Switch to working operation mode
UNLOCKDX
Unlock duplex switch operation mode
UNLOCKPRT
Unlock switch to protection operation mode
UNLOCKWKG
Unlock switch to working operation mode
UPGRADE
Upgrade operation mode
4.3.41 MSGTYPE
Type of trace message
Table 4-61 MSGTYPE Values
MSGTYPE Values
Description
EXPTRC
Expected incoming Path trace message
INCTRC
Incoming Path trace message
TRC
Outgoing Path trace message
4.3.42 NOTIF_CODE
The 2-character Notification Code associated with an autonomous message
Table 4-62 NOTIF_CODE Values
NOTIF_CODE Values
Description
CL
The condition causing the alarm has Cleared
CR
A Critical alarm
MJ
A Major alarm
MN
A Minor alarm
NA
The condition is Not Alarmed
NR
The alarm is not reported
4.3.43 OCN_4F
Modifier used to differentiate the various levels of OC-N in 4F BLSR
Table 4-63 OCN_4F Values
OCN_4F Values
Description
OC48
Optical Carrier level-48 (2.4Gbs)
OC192
Optical Carrier level-192 (10Gbs)
4.3.44 OCN_BLSR
Modifier used to differentiate the various levels of OC-N in BLSR
Table 4-64 OCN_BLSR Values
OCN_BLSR Values
Description
OC12
Optical Carrier level-12 (662Mbs)
OC48
Optical Carrier level-48 (2.4Gbs)
OC192
Optical Carrier level-192 (10Gbs)
4.3.45 OCN_MONTYPE
OCN monitor type
Table 4-65 OCN_MONTYPE Values
OCN_MONTYPE Values
Description
CVL
Coding Violation - Line
ESL
Errored Second - Line
PJNEG
PPJC-PDET:Negative Pointer Justification
PJPOS
PPJC-PFEN:Negative Pointer Justification
PSC
Protection Switching Count
PSD
Protection Switching Duration
SEFS
Severely Errored Framing Seconds
UASL
Unavailable Second -Line
4.3.46 OCN_TYPE
Modifier used to differentiate the various levels of OC-N in the ENT/ED/DLT/RTRV commands
Table 4-66 OCN_TYPE Values
OCN_TYPE Values
Description
OC3
Optical Carrier level-3 (155Mbs)
OC12
Optical Carrier level-12 (622Mbs)
OC48
Optical Carrier level-48 (2.4Gbs)
OC192
Optical Carrier level-192 (10Gbs)
4.3.47 ON_OFF
Disable or Enable an attribute
Table 4-67 ON_OFF Values
ON_OFF Values
Description
N
Disable the attribute
Y
Enable the attribute
4.3.48 OPTICAL_MODE
The facility optical mode
Table 4-68 OPTICAL_MODE Values
OPTICAL_MODE Values
Description
SDH
The SDH optical mode the European format
SONET
The SONET optical mode the American format
4.3.49 PM_MODE
Identifies the type of PM parameters. Only P type is supported.
Table 4-69 PM_MODE Values
PM_MODE Values
Description
I
Transport Intermediate Node PM parameters
L
Transport Line PM parameters
NONE
No PM parameters are being stored for the entity
P
Transport Path PM parameters
S
Transport Section PM parameters
SEG
Transport Path Segment PM parameters (e.g., ISDN BRA)
4.3.50 PM_STATE
Directs the named PM mode type - path (P) state
Table 4-70 PM_STATE Values
PM_MODE Values
Description
OFF
Disable the mode
ON
Enable the mode
4.3.51 PRIVILEGE
Security level
Table 4-71 PRIVILEGE Values
PRIVILEGE Values
Description
MAINT
Maintenance security level
PROV
Provisioning security level
RTRV
Retrieve security level
SUPER
Superuser security level
4.3.52 PROTECTION_GROUP
Protection group type
Table 4-72 PROTECTION_GROUP Values
PROTECTION_GROUP Values
Description
1-1
1 to 1 protection group
1-N
1 to N protection group
4.3.53 PST
Primary State. This parameter indicates the current overall service condition of an entity.
Table 4-73 PST Values
PST Values
Description
IS
In-service
OOS
Out-of-Service
4.3.54 PSTQ
Primary State Qualifier. This parameter qualifies PST. If the entity is in-service, PSTQ indicates whether it is totally or partially in service. If the entity is out-of-service, PSTQ indicates whether this is due to an external management command or is determined by the NE itself based on an event that occurred in the NE.
Table 4-74 PSTQ Values
PSTQ Values
Description
ANR
(Abnormal) —The entity is allowed to perform all of its provisioned functions, but it is capable of performing only part of (but not none) these functions or of performing these functions at a degraded level. This value of PSTQ qualifies the PST value of IS.
ANRST
(Abnormal and Restricted) — The entity is capable of performing only part (but not none) of its provisioned functions or of performing these functions at a degraded level. This value of PSTQ qualifies the PST value of IS.
AU
(Autonomous) — The entity is incapable of performing any of its provisioned functions, and there is no external administrative restriction inhibiting the entity from performing this functions. This value of PSTQ qualifies the PST value of OOS.
AUMA
(Autonomous and Management) — The entity is incapable of performing any of its provisioned functions, and at the same time has been intentionally suspended from performing all of its provisioned functions.This value of PSTQ qualifies the PST value of OOS.
AURST
(Autonomous and Restricted) — The entity is incapable of performing any of its provisioned functions and at the same time being intentionally suspended from performing part of its provisioned functions. This value of PSTQ qualifies the PST value of OOS.
MA
(Management) — The entity is intentionally suspended by the external management command from performing all of its provisioned functions. This value of PSTQ qualifies the PST value of OOS.
MAANR
(Management and Abnormal) — The entity is operationally capable of performing only part of its provisioned functions or at a degraded level, and at the same time is intentionally suspended from performing all of its provisioned functions. This value of PSTQ qualifies the PST value of OOS.
NR
(Normal) — This value implies that the entity is normally in service. It is capable and allowed to provide all of its provisioned functions. This value of PSTQ qualifies the PST value of IS.
RST
(Restricted) — The entity is capable of performing all of its provisioned functions but is intentionally suspended from performing part of, but not all, these functions. This value of PSTQ qualifies the PST value of IS.
4.3.55 REVERTIVE_TIME
Revertive time
Table 4-75 REVERTIVE_TIME Values
REVERTIVE_TIME Values
Description
0.5 - 9.5
Revertive time is 0.5 to 9.5 minutes
4.3.56 RNG_TYPE
Defines the type of ring that is to be deployed for this path
Table 4-76 RNG_TYPE Values
RNG_TYPE Values
Description
BLSR2
2-Fiber Bidirectional Line Switched Ring
BLSR4
4-Fiber Bidirectional Line Switched Ring
UPSR
Unidirectional Path Switched Ring
4.3.57 SD_BER
The threshold for declaring Signal Degrade on a facility or path
Table 4-77 SD_BER Values
SD_BER Values
Description
1E-5 - 1E-9
SDBER is the 1E-5 to 1E-9
4.3.58 SDCC_MODE
Enables or disables the Section Data Communications Channel (SDCC) for the specified facility
Table 4-78 SDCC_MODE Values
SDCC_MODE Values
Description
N
Section Data Communications Channel is disabled for this facility
Y
Section Data Communications Channel is enabled for this facility
4.3.59 SERV_EFF
Indicates the effect of the alarm on service
Table 4-79 SERV_EFF Values
SERV_EFF Values
Description
NSA
The condition is Non-Service Affecting
SA
The condition is Service Affecting
4.3.60 SF_BER
The threshold for declaring Signal Failure on a facility or path
Table 4-80 SF_BER Values
SF_BER Values
Description
1E-3 - 1E-5
SFBER is the 1E-3 to 1E-5
4.3.61 SIDE
The role the unit is playing in the protection group
Table 4-81 SIDE Values
SIDE Values
Description
PROT
The entity is the protection unit in the protection group
WORK
The entity is a working unit in the protection group
4.3.62 SST
Secondary State. This parameter provides additional information pertaining to PST and PSTQ. Values for this state included here are a subset of the list in the GR document.
Table 4-82 SST Values
SST Values
Description
ACT
Active
FLT
Fault
LPBK
Loopback
MEA
Mismatch of Equipment and Attributes
STBYH
Standby Hot
STBYI
Standby Inhibited
STBYS
Standby Switched
SWDL
Software Downloading
UAS
Unassigned
UEQ
Unequipped
WKR
Working
4.3.63 STATE
The provisioned state of the equipment unit or facility
According to the Telcordia State Model which describes the current state of an NE defined in GR-1093-CORE, the 15454's Equipment state is mapped (roughly) to the Telcordia State Model.
The optional [<state>] field in the autonomous messages REPT RMV EQPT and REPT RST EQPT can be populated with the values below.
The [<state>] field is populated by the combination of the PST-PSTQ-SST. For the REPT RMV rr and REPT RST rr, the optional [<state>] field will be populated with just PST.
Table 4-83 STATE Values
STATE Values
Description
IS-NR-ACT
This Telcordia State Model is mapped to the 15454 State of ACTIVE.
IS-NR-STBYH
This Telcordia State Model is mapped to the 15454 State of STANDBY.
OOS-AU-FLT
This Telcordia State Model is mapped to the 15454 State of FAILED.
OOS-AU-MEA
This Telcordia State Model is mapped to the 15454 State of MISMATCH.
OOS-AUMA-UEQ
This Telcordia State Model is mapped to the 15454 State of NOT_PRESENT.
OOS-MA-UAS
This Telcordia State Model is mapped to the 15454 State of LOADING.
4.3.64 STATUS
Indicates whether the unit in the protection pair is Active or Standby
Table 4-84 STATUS Values
STATUS Values
Description
ACT
The entity is the Active unit on the shelf
NA
Status is unavailable
STBY
The entity is the standby unit on the shelf
4.3.65 STM_TYPE
The Synchronous Transport Mode of the NE
Table 4-85 STM_TYPE Values
STM_TYPE Values
Description
SDH
The NE is operating in Synchronous Digital Hierarchy mode
SONET
The NE is operating in Synchronous Optical Network mode
4.3.66 STS_MAP
The payload mapping of a terminated STS path
Table 4-86 STS_MAP Values
STS_MAP Values
Description
ASYNC
The STS path is carrying an Asynchronous DS3 payload
ATM
The STS path is carrying ATM cells
NONE
The STS path is not terminated
4.3.67 STS_MONTYPE
STS Monitor Type
Table 4-87 STS_MONTYPE Values
STS_MONTYPE Values
Description
CVP
Coding Violation - P
ESP
Errored Second - Path
SESP
Severely Errored Second - Path
UASP
Unavailable Second - Path
4.3.68 STS_PATH
Modifier for some of the STS commands
Table 4-88 STS_PATH Values
STS_PATH Values
Description
STS1
Synchronous Transport Signal level-1 (51Mbs)
STS3C
Synchronous Transport Signal level-3 Concatenated (155Mbs)
STS6C
Synchronous Transport Signal level-6 Concatenated (310Mbs)
STS12C
Synchronous Transport Signal level-12 Concatenated (622Mbs)
STS48C
Synchronous Transport Signal level-48 Concatenated (2488Mbs)
STS192C
Synchronous Transport Signal level-192 (9952Mbs)
4.3.69 SWITCH
The type of switch to be initiated
Table 4-89 SWITCH Values
SWITCH Values
Description
FRCD
Force a switch unless another FRCD or LOCKOUT is in effect
LOCKOUT
Locks the facility out of switching. The system cannot switch to the protect facility to carry service.
MAN
Requests a manual switch of the facility
4.3.70 SWITCH_TYPE
BLSR switch type
Table 4-90 SWITCH_TYPE Values
SWITCH_TYPE Values
Description
RING
BLSR ring switch type
SPAN
BLSR span switch type
4.3.71 SYNC_GENERATION
Synchronization status message set generation
Table 4-91 SYNC_GENERATION Values
SYNC_GENERATION Values
Description
GEN1
First generation SSM set
GEN2
Second generation SSM set
4.3.72 SYNC_QUALITY_LEVEL
Reserved for network synchronization quality level
Table 4-92 SYNC_QUALITY_LEVEL Values
SYNC_QUALITY_LEVEL Values
Description
ABOVE-PRS
Better than Primary Reference Source
ABOVE-SMC
Between SMC and ST3
ABOVE-ST2
Between ST2 and STU
ABOVE-ST3
Between ST3 and ST2
ABOVE-ST3E
Between ST3E and TNC
ABOVE-ST4
Between ST4 and ST3
ABOVE-STU
Between STU and PRS
ABOVE-TNC
Between TNC and PRS
BELOW-ST4
Below ST4 but still usable
SAME-AS-DUS
Disable the RES message by equating it to DUS
4.3.73 T1_MONTYPE
T1 monitor type
Table 4-93 T1_MONTYPE Values
T1_MONTYPE
Description
CVL
Coding Violation - Line
CVP
Coding Violation - Path
ESL
Errored Second - Line
SASP
Severely Errored Framing/AIS Seconds
SESL
Severely Errored Second - Line
SESP
Severely Errored Second - Path
UASP
Unavailable Second - Path
4.3.74 T3_MONTYPE
T3 monitor type
Table 4-94 T3_MONTYPE Values
T3_MONTYPE Values
Description
CVL
Coding Violation - Line
ESL
Errored Second - Line
SESL
Severely Errored Second - Line
4.3.75 TACC_MODE
Test access mode
Table 4-95 TACC_MODE Values
TACC_MODE Values
Description
LOOPE
Indicates to split both the A and B paths, connect the line incoming from E direction to the line outgoing in the E direction, and connect this looped configuration to the FAD. The line outgoing in the F direction shall have a QRS connected, and the line incoming from the F direction shall be terminated by the nominal characteristic impedance of the line.
LOOPF
Indicates to split both the A and B paths, connect the line incoming from F direction to the line outgoing in the F direction, and connect this looped configuration to the FAD. The line outgoing in the E direction shall have a QRS connected, and the line incoming from the E direction shall be terminated by the nominal characteristic impedance of the line.
MONE
Indicates that a monitor connection is to be provided from the FAD to the A transmission path of the accessed circuit.
MONEF
Indicates that a monitor connection is to be provided from the FAD1 to a DFAD, or the odd pair of a FAP, to the A transmission path and from FAD2 of the same DFAD, or the even pair of a FAP, to the B transmission path of the accessed circuit.
MONF
Indicates that a monitor connection is to be provided from the FAD to the B transmission path of the accessed circuit.
SPLTA
Indicates that a connection is to be provided from both the E and F sides of the A transmission path of the circuit under test to the FAD and split the A transmission path.
SPLTB
Indicates that a connection is to be provided from both the E and F sides of the B transmission path of the circuit under test to the FAD and split the B transmission path.
SPLTE
Indicates to split both the A and B paths and connect the E side of the accessed circuit to the FAD. The line outgoing in the F direction shall have a QRS connected, and the line incoming from the F direction shall have a QRS connected, and the line incoming from the E direction shall be terminated by the nominal characteristic impedance of the line.
SPLTEF
Indicates to split both the A and B paths, and connect the E side of the accessed circuit to FAD1 and the F side to FAD2.
SPLTF
Indicates to split both the A and B paths, and connect the F side of the accessed circuit to the FAD. The line outgoing in the E direction shall have a QRS connected, and the line incoming in the E direction shall have a QRS connected, and the line incoming from the E direction shall be terminated by the nominal characteristic impedance of the line.
4.3.76 TIMING_MODE
Timing mode for the current node
Table 4-96 TIMING_MODE Values
TIMING_MODE Values
Description
EXTERNAL
The node derives its clock from the BITS input
LINE
The node derives its clock from the SONET lines
MIXED
The node derives its clock from the BITS inputs and SONET lines
4.3.77 TMG_REF
Identifies whether or not this entity is the Timing Reference for its group. For equipment, it identifies the facility that is supplying the timing reference. For interface groups, it identifies the card that is supplying the main timing reference.
Table 4-97 TMG_REF Values
TMG_REF Values
Description
N
This facility or card is not a timing reference
Y
This facility or card is a timing reference
4.3.78 TMPER
Performance parameter
Table 4-98 TMPER Values
TMPER Values
Description
15-MIN
Performance Parameter Accumulation Interval Length - Every 15 Minutes
1-DAY
Performance Parameter Accumulation Interval Length - Every 24 Hours
4.3.79 TRCMODE
Path Trace Mode
Table 4-99 TRCMODE Values
TRCMODE Values
Description
AUTO
Use the incoming path trace message as the expected path trace message
MAN
Use the expected path trace message as the expected path trace message
OFF
No path trace processing
4.3.80 UNI_BI
Unidirectional and Bidirectional switch operations
Table 4-100 UNI_BI Values
UNI_BI Values
Description
BI
Bidirectional protection switching
UNI
Unidirectional protection switching
4.3.81 USE_DST
Identifies whether Daylight Saving Time is recognized in the area where this NE is deployed.
Feedback
TL1 default values
