LG Electronics USA 3G1XOUTBTS STAREX-IS 1900 Outdoor BTS User Manual STAREX IS User s Manual

LG Electronics USA STAREX-IS 1900 Outdoor BTS STAREX IS User s Manual

Users Manual Part 5

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Document Description	Users Manual Part 5
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Date Submitted	2001-11-09 00:00:00
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STAREX-IS BSM Manual
5. BSM On-Line Message
5.1. Fault/Alarm Message
5.1.1. Alarm Message
5.1.1.1. CAN Occurrence Alarm Message
5.1.1.1.1. CAMB
5.1.1.1.1.1. CNP Processor
1) When A-Side of the duplicated CNP is normal and functional problems occur on
the B- side board
Fig. 5.1-1 CNP Single Function Fail
2) When functional problems occur on the B-Side after functional problems occur
on the A-Side of the duplicated CNP,
Fig. 5.1-2 CNP Dual Function Fail
3) When A-Side of the duplicated CNP is normal and the B-Side board is removed
SMD-011-PMA210
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Fig. 5.1-3 CNP Single Board Open Fail
4) When B-Side is removed after A-Side of the duplicated CNP is removed
Fig. 5.1-4 CNP Dual Board Open Fail
5.1.1.1.1.2. ASCA Board
1) When A-Side of the duplicated ASCA is normal and functional problems occur
on the B-Side board
Fig. 5.1-5 CAN ASCA Single Function Fail
2) When functional problems occur on the B-Side after functional problems occur
on the A-Side of the duplicated ASCA
SMD-011-PMA210
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Fig. 5.1-6 CAN ASCA Dual Function Fail
3) When A-Side of the duplicated ASCA is normal and B-Side board is removed
Fig. 5.1-7 CAN ASCA Single Board Open Fail
4) When B-Side is removed after A-Side of the duplicated ASCA is removed
Fig. 5.1-8 CAN ASCA Dual Open Fail
5.1.1.1.1.3. ASIA Board
1) When A-Side of the duplicated ASIA is normal and functional problems occur on
the B-Side board
SMD-011-PMA210
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Fig. 5.1-9 CAN ASIA Single Function Fail
2) When functional problems occur on the B-Side board after functional problems
occur on the A-Side of the duplicated ASIA
Fig. 5.1-10 CAN ASIA Dual Function Fail
3) When A-Side of the duplicated ASIA is normal and B-Side board is removed
Fig. 5.1-11 CAN ASIA Single Board Open Fail
4) When B-Side board is removed after A-Side of the duplicated ASIA is removed
SMD-011-PMA210
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Fig. 5.1-12 CAN ASIA Single Board Open Fail
5.1.1.1.1.4. AOTA Board
1) When functional faults occur on AOTA board
Fig. 5.1-13 CAN AOTA Function Fail
2) When AOTA board is removed
Fig. 5.1-14 CAN AOTA Board Open Fail
5.1.1.1.1.5. ATSA Board
1) When functional faults occur on ATSA board
SMD-011-PMA210
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Fig. 5.1-15 CAN ATSA Function Fail
2) When ATSA board is removed
Fig. 5.1-16 CAN ATSA Board Open Fail
5.1.1.1.1.6. PRI Board
1) When A-Side of the duplicated PRI is normal and functional problems occur on
the B-Side board
Fig. 5.1-17 CAMB PRI Single Power Fail
2) When functional problems occur on the A-Side after functional problems occur
on the B-Side of the duplicated PRI
SMD-011-PMA210
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Fig. 5.1-18 CAMB PRI Dual Power Fail
3) When A-Side of the duplicated PRI is normal and B-Side board is removed
Fig. 5.1-19 CAMB PRI Single Power Open Fail
4) When A-Side is removed after B-Side of the duplicated PRI is removed
Fig. 5.1-20 CAMB PRI Dual Power Open Fail
5.1.1.1.1.7. Others
1) When CAMB Alarm Cable is removed
SMD-011-PMA210
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Fig. 5.1-21 CAN Alarm Cable Open
5.1.1.1.2. CPNB
5.1.1.1.2.1. PNP Processor
1) When A-Side of the duplicated PNP is normal and functional problems occur on
the B-Side board
Fig. 5.1-22 CAN PNP Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
PNP has a functional problem
Fig. 5.1-23 CAN PNP Dual Function Fail
3) When A-Side of the duplicated PNP is normal and B-Side board is removed
SMD-011-PMA210
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Fig. 5.1-24 CAN PNP Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated PNP is removed
Fig. 5.1-25 CAN PNP Dual Board Open Fail
5.1.1.1.2.2. ASCA Board
1) When A-Side of the duplicated ASCA is normal and functional problems occur
on the B-Side board
Fig. 5.1-26 CPNB ASCA Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
ASCA has a functional problem
SMD-011-PMA210
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Fig. 5.1-27 CPNB ASCA Dual Function Fail
3) When A-Side of the duplicated ASCA is normal and B-Side board is removed
Fig. 5.1-28 CPNB ASCA Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated ASCA is removed
Fig. 5.1-29 CPNB ASCA Dual Board Open Fail
5.1.1.1.2.3. ASIA Board
1) When A-Side of the duplicated ASIA is normal and functional problems occur on
the B-Side board
SMD-011-PMA210
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Fig. 5.1-30 CPNB ASIA Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
ASIA has a functional problem
Fig. 5.1-31 CPNB ASIA Dual Function Fail
3) When A-Side of the duplicated ASIA is normal and B-Side board is removed
Fig. 5.1-32 CPNB ASIA Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated ASIA is removed
SMD-011-PMA210
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Fig. 5.1-33 CPNB ASIA Dual Board Open Fail
5.1.1.1.2.4. PRI Board
1) When A-Side of the duplicated PRI is normal and functional problems occur on
the B-Side board
Fig. 5.1-34 CPNB PRI Single Power Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
PRI has a functional problem
Fig. 5.1-35 CPNB PRI Dual Power Fail
3) When A-Side of the duplicated PRI is normal and B-Side board is removed
SMD-011-PMA210
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Fig. 5.1-36 CPNB PRI Single Power Open Fail
4) When A-Side is removed after B-Side of the duplicated PRI is removed
Fig. 5.1-37 CPNB PRI Dual Power Open Fail
5.1.1.1.2.5. Others
1) CPNB Alarm Cable is removed
Fig. 5.1-38 CPNB Alarm Cable Open
5.1.1.1.3. PCFB(PCP)
5.1.1.1.3.1. PCP Processor
1) When A-Side of the duplicated PCP is normal and functional problems occur on
the B-Side board
SMD-011-PMA210
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Fig. 5.1-39 PCFB PCP Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
PCP has a functional problem
Fig. 5.1-40 PCFB PCP Dual Function Fail
3) When A-Side of the duplicated PCP is normal and B-Side board is removed
Fig. 5.1-41 PCFB PCP Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated PCP is removed
SMD-011-PMA210
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Fig. 5.1-42 PCFB PCP Dual Board Open Fail
5.1.1.1.3.2. BCRA Board
1) When A-Side of the duplicated BCRA is normal and functional problems occur
on the B-Side board
Fig. 5.1-43 CPNB(PCP) BCRA Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
BCRA has a functional problem
Fig. 5.1-44 CPNB(PCP) BCRA Dual Function Fail
3) When A-Side of the duplicated BCRA is normal and B-Side board is removed
SMD-011-PMA210
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Fig. 5.1-45 CPNB(PCP) BCRA Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated BCRA is removed
Fig. 5.1-46 CPNB(PCP) BCRA Dual Board Open Fail
5.1.1.1.3.3. UCPA(PIP) Board
1) When functional faults occur on UCPA(PIP) board
Fig. 5.1-47 CPNB(PCP) PIP Function Fail
2) When UPCA(PIP) board is removed
SMD-011-PMA210
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Fig. 5.1-48 CPNB(PCP) PIP Board Open Fail
5.1.1.1.3.4. FERA Board
1) When A-Side of the duplicated FERA is normal and functional problems occur
on the B-Side board
Fig. 5.1-49 CPNB(PCP) FERA Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
FERA has a functional problem
Fig. 5.1-50 CPNB(PCP) FERA Dual Function Fail
3) When A-Side of the duplicated FERA is normal and B-Side board is removed
SMD-011-PMA210
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Fig. 5.1-51 CPNB(PCP) FERA Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated FERA is removed
Fig. 5.1-52 CPNB(PCP) FERA Dual Board Open Fail
5.1.1.1.3.5. FETA Board
1) When functional faults occur on FETA board
Fig. 5.1-53 CPNB(PCP) FETA Function Fail
2) When FETA board is removed
SMD-011-PMA210
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Fig. 5.1-54 CPNB(PCP) FETA Board Open Fail
5.1.1.1.3.6. PRI Board
1) When A-Side of the duplicated PRI is normal and functional problems occur on
the B-Side board
Fig. 5.1-55 CPNB(PCP) PRI Single Power Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
PRI has a functional problem
Fig. 5.1-56 CPNB(PCP) PRI Dual Power Fail
3) When A-Side of the duplicated PRI is normal and B-Side board is removed
SMD-011-PMA210
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Fig. 5.1-57 CPNB(PCP) PRI Single Power Open Fail
4) When A-Side is removed after B-Side of the duplicated PRI is removed
Fig. 5.1-58 CPNB(PCP) PRI Dual Power Open Fail
5.1.1.1.3.7. Others
1) When PCFU(PCP) Alarm Cable is removed
Fig. 5.1-59 CPNB(PCP) Alarm Cable Open
2) When faults occur in the link between FERA B-Side and FETA after the link
between FERA A-Side and FETA operates normally (maximum 3 links exist)
SMD-011-PMA210
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Fig. 5.1-60 LINK Fail between CPNB(PCP) FERA and FETA
3) When faults occur in the link between FERA A-Side and FETA after faults occur
in the link between FERA B-Side and FETA(maximum 3 links exist)
Fig. 5.1-61 LINK Fail between CPNB(PCP) FERA and FETA
4) When faults occur in the link between FETA and PDSN(maximum3 links exist)
Fig. 5.1-62 LINK Fail between CPNB(PCP) FETA and PDSN
5) When 1pps Clock is not provided for PCP normally
SMD-011-PMA210
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Fig. 5.1-63 PCFB PCP 1pps Clock Fail
6) When 10MHz Clock is not provided for PCP normally
Fig. 5.1-64 PCFB PCP 10MHz Clock Fail
5.1.1.1.4. PCFB(PMP)
5.1.1.1.4.1. PMP Processor
1) When A-Side of the duplicated PMP is normal and functional problems occur on
the B-Side board
Fig. 5.1-65 PCFB(PMP) PMP Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
PMP has a functional problem
SMD-011-PMA210
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Fig. 5.1-66 PCFB(PMP) PMP Dual Function Fail
3) When A-Side of the duplicated PMP is normal and B-Side board is removed
Fig. 5.1-67 PCFB(PMP) PMP Single Board Open Fail
4) When A-Side is removed after B-Side board of the duplicated PMP is removed
Fig. 5.1-68 PCFB(PMP) PMP Dual Board Open Fail
5.1.1.1.4.2. BCRA Board
See BCRA of PCFU(PCP).
5.1.1.1.4.3. UCPA(PIP) Board
See UCPA(PIP) of PCFU(PCP).
5.1.1.1.4.4. FERA Board
See FERA of PCFU(PCP).
SMD-011-PMA210
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5.1.1.1.4.5. FETA Board
See FETA of PCFU(PCP).
5.1.1.1.4.6. PRI Board
See
PRI of PCFU(PCP).
5.1.1.1.4.7. Others
See others of PCFU(PCP).
5.1.1.1.5. TGDB
5.1.1.1.5.1. GPSR Board
1) When A-Side of the duplicated GPSR is normal and functional problems occur
on the B-Side board
Fig. 5.1-69 TGDB GPSR Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
GPSR has a functional problem
Fig. 5.1-70 TGDB GPSR Dual Function Fail
3) When A-Side of the duplicated GPSR is normal and faults occur on the B-Side
power
SMD-011-PMA210
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Fig. 5.1-71 TGDB GPSR Single Power Fail
4) When a problem occurs on the A-Side power after B-Side power of the
duplicated GPSR has a problem
Fig. 5.1-72 TGDB GPSR Dual Power Fail
5) When A-Side of the duplicated GPSR is normal and B-Side board is removed
Fig. 5.1-73 TGDB GPSR Single Board Open Fail
6) When A-Side is removed after B-Side of the duplicated GPSR is removed
SMD-011-PMA210
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Fig. 5.1-74 TGDB GPSR Dual Board Open Fail
5.1.1.1.5.2. GPSD Board
1) When A-Side of the duplicated GPSD is normal and functional problems occur
on the B-Side board
Fig. 5.1-75 TGDB GPSD Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
GPSD has a functional problem
Fig. 5.1-76 TGDB GPSD Dual Function Fail
3) When A-Side of the duplicated GPSD is normal and faults occur on the B-Side
power
SMD-011-PMA210
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Fig. 5.1-77 TGDB GPSD Single Power Fail
4) When faults occur on the A-Side power after faults occur on the B-Side power
of the duplicated GPSD
Fig. 5.1-78 TGDB GPSD Dual Power Fail
5.1.1.1.5.3. AMP Processor
1) When faults occur in AMP Processor or a problem occurs in TCP/IP link
between BSM and AMP
Fig. 5.1-79 TGDB AMP Abnormal
5.1.1.1.5.4. Others
1) When a problem occurs in GPSR Alarm Cable
SMD-011-PMA210
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Fig. 5.1-80 TGDB GPSR Alarm Cable Open
2) When a problem occurs in GPSD Alarm Cable
Fig. 5.1-81 TGDB GPSD Alarm Cable Open
3) When a problem occurs in GPSR Control Cable
Fig. 5.1-82 TGDB GPSR Control Cable Open
5.1.1.1.6. FAN and Others
1) When a problem occurs in CAN FAN
SMD-011-PMA210
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Fig. 5.1-83 CAN Rack FAN Fail
5.1.1.2. BSC Occurrence Alarm Message
5.1.1.2.1. CCSB
5.1.1.2.1.1. CCP Processor
1) When A-Side of the duplicated CCP is normal and functional problems occur on
the B-Side board
Fig. 5.1-84 CCSB CCP Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
CCP has a functional problem
Fig. 5.1-85 CCSB CCP Dual Function Fail
3) When A-Side of the duplicated CCP is normal and B-Side board is removed
SMD-011-PMA210
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Fig. 5.1-86 CCSB CCP Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated CCP is removed
Fig. 5.1-87 CCSB CCP Dual Board Open Fail
5.1.1.2.1.2. SCP Processor
1) When A-Side of the duplicated SCP is normal and functional problems occur on
the B-Side board
Fig. 5.1-88 CCSB SCP Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
SCP has a functional problem
SMD-011-PMA210
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Fig. 5.1-89 CCSB SCP Dual Function Fail
3) When A-Side of the duplicated SCP is normal and B-Side board is removed
Fig. 5.1-90 CCSB SCP Single Board Open Fail
4) When A-Side is removed entire B-Side of the duplicated SCP is removed
Fig. 5.1-91 CCSB SCP Dual Board Open Fail
5.1.1.2.1.3. STIA Board
1) When functional faults occur on STIA board
SMD-011-PMA210
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Fig. 5.1-92 CCSB STIA Function Fail
2) When STIA board is removed
Fig. 5.1-93 CCSB STIA Board Open Fail
5.1.1.2.1.4. PRI Board
1) When A-Side of the duplicated PRI is normal and functional problems occur on
the B-Side board
Fig. 5.1-94 CCSB PRI Single Power Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
PRI has a functional problem
SMD-011-PMA210
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Fig. 5.1-95 CCSB PRI Dual Power Fail
3) When A-Side of the duplicated PRI is normal and B-Side board is removed
Fig. 5.1-96 CCSB PRI Single Power Open Fail
4) When A-Side is removed after B-Side of the duplicated PRI is removed
Fig. 5.1-97 CCSB PRI Dual Power Open Fail
5.1.1.2.1.5. Others
1) When ABID board is removed
SMD-011-PMA210
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Fig. 5.1-98 CCSB ABID Board Open
2) When CCP does not receive 1pps Clock from GPSD normally
Fig. 5.1-99 CCSB 1PPS Clock Fail
3) When CCP does not receive 10MHz Clock from GPSD normally
Fig. 5.1-100 CCSB 10MHz Clock Fail
4) When faults occur in SubHiway Cable between STIA and VLIA
SMD-011-PMA210
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Fig. 5.1-101 CCSB STIA SHW Link Fail
5) When faults occur in CCBU Alarm Cable
Fig. 5.1-102 CCSB Alarm Cable Open
5.1.1.2.2. ASMB
5.1.1.2.2.1. NCP Processor
1) When A-Side of the duplicated NCP is normal and functional problems occur on
B-Side board
Fig. 5.1-103 ASMB NCP Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
NCP has a functional problem
Fig. 5.1-104 ASMB NCP Dual Function Fail
SMD-011-PMA210
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3) When A-Side of the duplicated NCP is normal and B-Side board is removed
Fig. 5.1-105 ASMB NCP Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated NCP is removed
Fig. 5.1-106 ASMB NCP Dual Board Open Fail
5.1.1.2.2.2. ASCA Board
1) When A-Side of the duplicated ASCA is normal and functional problems occur
on the B-Side board
Fig. 5.1-107 ASMB ASCA Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
ASCA has a functional problem
SMD-011-PMA210
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Fig. 5.1-108 ASMB ASCA Dual Function Fail
3) When A-Side of the duplicated ASCA is normal and B-Side board is removed
Fig. 5.1-109 ASMB ASCA Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated ASCA is removed
Fig. 5.1-110 ASMB ASCA Dual Board Open Fail
5.1.1.2.2.3. ASIA Board
1) When A-Side of the duplicated ASIA is normal and functional problems occur on
the B-Side board
SMD-011-PMA210
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Fig. 5.1-111 ASMB ASIA Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
ASIA has a functional problem
Fig. 5.1-112 ASMB ASIA Dual Function Fail
3) When A-Side of the duplicated ASIA is normal and B-Side board is removed
Fig. 5.1-113 ASMB ASIA Single Board Fail
4) When A-Side is removed after B-Side of the duplicated ASIA is removed
SMD-011-PMA210
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Fig. 5.1-114 ASMB ASIA Dual Board Open Fail
5.1.1.2.2.4. ATSA Board
6) When functional problems occur on ATSA board
Fig. 5.1-115 ASMB ATSA Function Fail
7) When ATSA board is removed
Fig. 5.1-116 ASMB ATSA Board Open Fail
5.1.1.2.2.5. PRI Board
1) When A-Side of the duplicated PRI is normal and functional problems occur on
the B-Side board
SMD-011-PMA210
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Fig. 5.1-117 ASMB PRI Single Power Fail
2) When functional problems occur on the A-Side and B-Side of the duplicated PRI
has a functional problem
Fig. 5.1-118 ASMB PRI Dual Power Fail
3) When A-Side of the duplicated PRI is normal and B-Side board is removed
Fig. 5.1-119 ASMB PRI Single Power Open Fail
4) When A-Side is removed after B-Side of the duplicated PRI is removed
SMD-011-PMA210
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Fig. 5.1-120 ASMB PRI Dual Power Open Fail
5.1.1.2.2.6. Others
1) When ASMB Alarm Cable opens
Fig. 5.1-121 ASMB Alarm Cable Open
5.1.1.2.3. ALSB
5.1.1.2.3.1. ALP Processor
1) When A-Side of the duplicated ALP is normal and functional problems occur on
the B-Side board
Fig. 5.1-122 ASLB ALP Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
ALP has a functional problem
SMD-011-PMA210
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Fig. 5.1-123 ASLB ALP Dual Function Fail
3) When A-Side of the duplicated ALP is normal and B-Side board is removed
Fig. 5.1-124 ASLB ALP Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated ALP is removed
Fig. 5.1-125 ASLB ALP Dual Board Open Fail
5.1.1.2.3.2. ALMA Board
1) When A-Side of the duplicated ALMA is normal and functional problems occur
on the B-Side board
SMD-011-PMA210
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Fig. 5.1-126 ASLB ALMA Single Function Fail
2) When functional problems occur A-Side after B-Side of the duplicated ALMA
has a functional problem
Fig. 5.1-127 ASLB ALP Dual Function Fail
3) When A-Side of the duplicated ALMA is normal and B-Side board is removed
Fig. 5.1-128 ASLB ALP Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated ALMA is removed
SMD-011-PMA210
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Fig. 5.1-129 ASLB ALP Dual Board Open Fail
5.1.1.2.3.3. ALPA Board
1) When functional faults occur on ALPA board
Fig. 5.1-130 ASLB ALPA Function Fail
2) When ALPA board is removed
Fig. 5.1-131 ASLB ALPA Board Open Fail
5.1.1.2.3.4. PRI Board
1) When A-Side of the duplicated PRI is normal and functional problems occur on
the B-Side board
SMD-011-PMA210
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Fig. 5.1-132 ASLB PRI Single Power Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
PRI has a functional problem
Fig. 5.1-133 ASLB PRI Dual Power Fail
3) When A-Side of the duplicated PRI is normal and B-Side board is removed
Fig. 5.1-134 ASLB PRI Single Power Open Fail
4) When A-Side is removed after B–Side of the duplicated PRI is removed
SMD-011-PMA210
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Fig. 5.1-135 ASLB PRI Dual Power Open Fail
5.1.1.2.3.5. Others
1) When ALSB Shelf Alarm Cable is removed
Fig. 5.1-136 ASLB Alarm Cable Open
2) When Loss Of Signal Error occurs in ALPA link
Fig. 5.1-137 ASLB ALPA Link Fail((LOS)
3) When Out Of Frame Error occurs in ALPA link
SMD-011-PMA210
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Fig. 5.1-138 ASLB ALPA Link Fail((OOF)
4) When Alarm Indication Signal Error occurs in ALPA link
Fig. 5.1-139 ASLB ALPA Link Fail((AIS)
5) When Remote Alarm Indication Error occurs in ALPA link
Fig. 5.1-140 ASLB ALPA Link Fail((RAI)
5.1.1.2.4. SLB
5.1.1.2.4.1. SMP(SLMA) Processor
1) When functional faults occur on SLMA board
SMD-011-PMA210
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Fig. 5.1-141 SLB SMP Function Fail
2) When SLMA board is removed
Fig. 5.1-142 SLB SMP Board Open Fail
5.1.1.2.4.2. SLPA Board
1) When functional faults occur on SLPA board
Fig. 5.1-143 SLB SLPA Function Fail
2) When SLPA board is removed
SMD-011-PMA210
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Fig. 5.1-144 SLB SLPA Board Open Fail
5.1.1.2.4.3. PRI
1) When functional faults occur on PRI board
Fig. 5.1-145 SLB PRI Power Fail
2) When PRI board is removed
Fig. 5.1-146 SLB PRI Power Open Fail
5.1.1.2.4.4. Others
1) When SLB Shelf Alarm Cable is removed
SMD-011-PMA210
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Fig. 5.1-147 SLB Alarm Cable Open
2) When Clock Cable is removed from CCP
Fig. 5.1-148 SLB SMP Clock Fail
3) When SAID board is removed
Fig. 5.1-149 SLB SMP SAID Open Fail
5.1.1.2.5. VCB
5.1.1.2.5.1. VMP(VCMA) Processor
1) When functional problems occur on VCMA board
SMD-011-PMA210
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Fig. 5.1-150 VCB VMP Function Fail
2) When VCMA board is removed
Fig. 5.1-151 VCB VMP Board Open Fail
5.1.1.2.5.2. VCPA Board
1) When functional faults occur on VCPA board
Fig. 5.1-152 VCB VCPA Function Fail
2) When VCPA board is removed
SMD-011-PMA210
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Fig. 5.1-153 VCB VCPA Board Open Fail
5.1.1.2.5.3. VLIA Board
1) When a functional board occurs on VLIA board
Fig. 5.1-154 VCB VLIA Function Fail
2) When VLIA board is removed
Fig. 5.1-155 VCB VLIA Board Open Fail
3) When Remote Error occurs in the link between VLIA and MSC
SMD-011-PMA210
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Fig. 5.1-156 VCB VLIA Link Fail(Remote Error)
4) When Local Error occurs in the link between VLIA and MSC
Fig. 5.1-157 VCB VLIA Link Fail(Local Error)
5) When SLIP Error occurs in the link between VLIA and MSC
Fig. 5.1-158 VCB VLIA Link Fail(SLIP Error)
6) When BIT Error occurs in the link between VLIA and MSC
SMD-011-PMA210
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Fig. 5.1-159 VCB VLIA Link Fail(BIT Error)
5.1.1.2.5.4. PRI
1) When functional faults occur on PRI board
Fig. 5.1-160 VCB PRI Power Fail
2) When PRI board is removed
Fig. 5.1-161 VCB PRI Power Open Fail
5.1.1.2.5.5. Others
1) When VCB Shelf Alarm Cable is removed
Fig. 5.1-162 VCB Alarm Cable Open
2) When Clock Cable is removed from CCP
SMD-011-PMA210
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Fig. 5.1-163 VCB VMP Clock Cable Open Fail
3) When SAID board is removed
Fig. 5.1-164 VCB SAID Board Open
5.1.1.2.6. FAN and Others
1) When a problem occurs in BSC FAN
Fig. 5.1-165 VCB Rack FAN Fail
5.1.1.3. BTS Occurrence Alarm Message
5.1.1.3.1. BSPB
5.1.1.3.1.1. BSP Processor
1) When A-Side of the duplicated BSP is normal and functional problems occur on
the B-Side board
SMD-011-PMA210
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Fig. 5.1-166 BSPB BSP Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
BSP has a functional problem
Fig. 5.1-167 BSPB BSP Dual Function Fail
3) When A-Side of the duplicated BSP is normal and B-Side board is removed
Fig. 5.1-168 BSPB BSP Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated BSP is removed
SMD-011-PMA210
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Fig. 5.1-169 BSPB BSP Dual Board Open Fail
5.1.1.3.1.2. PRI within BSPB, BANB Unit
1) When A-Side of the duplicated PRI is normal and functional problems occur on
the B-Side board
Fig. 5.1-170 BSPB PRI Single Power Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
PRI has a functional problem
Fig. 5.1-171 BSPB PRI Dual Power Fail
3) When A-Side of the duplicated PRI is normal and B –Side board is removed
SMD-011-PMA210
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Fig. 5.1-172 BSPB PRI Single Power Open Fail
4) When A-Side is removed after B-Side of the duplicated PRI is removed
Fig. 5.1-173 BSPB PRI Dual Power Open Fail
5.1.1.3.1.3. Others
1) When BSP does not receive 1pps Clock from GPSD normally
Fig. 5.1-174 BSPB BSP 1PPS Clock Fail
2) When BSP does not receive 10MHz Clock from GPSD normally
SMD-011-PMA210
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Fig. 5.1-175 BSPB BSP 10MHz Clock Fail
5.1.1.3.2. BANB
5.1.1.3.2.1. ARIA Board
1) When functional faults occur on ARIA board
Fig, 5.1-176 BANB ARIA Function Fail
2) When ARIA board is removed
Fig. 5.1-177 BANB ARIA Board Open Fail
5.1.1.3.2.2. BPPA Board
1) When functional faults occur on BPPA board
SMD-011-PMA210
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Fig. 5.1-178 BANB BPPA Function Fail
2) When BPPA board is removed
Fig. 5.1-179 BANB BPPA Board Open Fail
5.1.1.3.2.3. BCRA Board
1) When A-Side of the duplicated BCRA is normal and functional problems occur
on the B-Side board
Fig. 5.1-180 BANB BCRA Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
BCRA has a functional problem
SMD-011-PMA210
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Fig. 5.1-181 BANB BCRA Dual Function Fail
3) When A-Side of the duplicated BCRA is normal and B-Side board is removed
Fig. 5.1-182 BANB BCRA Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated BCRA is removed.
Fig. 5.1-183 BANB BCRA Dual Board Open Fail
5.1.1.3.2.4. LICA Board
1) When functional faults occur on LICA board
SMD-011-PMA210
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Fig. 5.1-184 BANB LICA Function Fail
2) When LICA board is removed
Fig. 5.1-185 BANB LICA Board Fail
5.1.1.3.3. BSTB
5.1.1.3.3.1. BADA Board
1) When BADA Board Alarm Cable is removed
Fig. 5.1-186 BSTB BADA Alarm Cable Open
2) When a problem occurs in BADA Board power
SMD-011-PMA210
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Fig. 5.1-187 BSTB BADA Power Fail
3) When functional faults occur on BADA board
Fig. 5.1-188 BSTB BADA Function Fail
5.1.1.3.4. RISB
5.1.1.3.4.1. RISA Board
1) When RISA Board Alarm Cable is removed
Fig. 5.1-189 RISB RISA Alarm Cable Open
2) When a problem occurs in RISA board power
SMD-011-PMA210
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Fig. 5.1-190 RISB RISA Power Fail
3) When functional faults occur on RISA board
Fig. 5.1-191 RISB RISA Function Fail
5.1.1.3.5. BOTB
5.1.1.3.5.1. BOTA Board
1) When BOTA Board Alarm Cable is removed
Fig. 5.1-192 BOTB BOTA Alarm Cable Open
2) When a problem occurs in BOTA board power
SMD-011-PMA210
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Fig. 5.1-193 BOTB BOTA Power Fail
3) When functional faults occur on BOTA board
Fig. 5.1-194 BOTB BOTA Board Open Fail
5.1.1.3.6. BTGB
5.1.1.3.6.1. GPS-R Board
1) When A-Side of the duplicated GPSR is normal and functional problems occur
on B –Side board
Fig. 5.1-195 BTGB GPS Single Function Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
GPSR has a functional problem
SMD-011-PMA210
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Fig. 5.1-196 BTGB GPS Dual Function Fail
3) When A-Side of the duplicated GPSR is normal and faults occur in B-Side
power
Fig. 5.1-197 BTGB GPS Single Power Fail
4) When a problem occurs in A-Side power after B-Side power of the duplicated
GPSR has a problem
Fig. 5.1-198 BTGB GPS Dual Power Fail
5) When A-Side of the duplicated GPSR is normal and B-Side board is removed
SMD-011-PMA210
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Fig. 5.1-199 BTGB GPS Single Board Open Fail
6) When A-Side is removed after B-Side of the duplicated GPSR is removed
Fig. 5.1-200 BTGB GPS Dual Board Open Fail
7) When GPSR Control Cable is removed
Fig. 5.1-201 BTGB GPS Control Cable Open
8) When GPSR Alarm Cable is removed
SMD-011-PMA210
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Fig. 5.1-202 BTGB GPS Alarm Cable Open
5.1.1.3.7. DBPB
5.1.1.3.7.1. DBPA Board
1) When functional faults occur on DBPA board
Fig. 5.1-203 DBPB DBPA Function Fail
2) When DBPA board is removed
Fig. 5.1-204 DBPB DBPA Board Open Fail
5.1.1.3.8. RCCB
5.1.1.3.8.1. RCP Processor
1) When A-Side of the duplicated RCP is normal and functional problems occur on
the B-Side board
Fig. 5.1-205 RCCB RCP Single Function Fail
SMD-011-PMA210
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2) When functional problems occur on the A-Side after B-Side of the duplicated
RCP has a functional problem
Fig. 5.1-206 RCCB RCP Dual Function Fail
3) When A-Side of the duplicated RCP is normal and B-Side board is removed
Fig. 5.1-207 RCCB RCP Single Board Open Fail
4) When A-Side is removed after B-Side of the duplicated RCP is removed
Fig. 5.1-208 RCCB RCP Dual Board Open Fail
5.1.1.3.8.2. BUDA Board
1) When functional faults occur on BUDA board
SMD-011-PMA210
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Fig. 5.1-209 RCCB BUDA Function Fail
2) When BUDA board is removed
Fig. 5.1-210 RCCB BUDA Board Open Fail
5.1.1.3.8.3. PACA Board
1) When functional faults occur on PACA board
Fig. 5.1-211 RCCB PACA Function Fail
2) When PACA board is removed
SMD-011-PMA210
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Fig. 5.1-212 RCCB PACA Board Open Fail
5.1.1.3.8.4. PRI Board for Providing DBPB/RCCB UNIT Power
1) When A-Side of the duplicated PRI is normal and functional problems occur on
the B-Side board
Fig. 5.1-213 DBPB/RCCB PRI Single Power Fail
2) When functional problems occur on the A-Side after B-Side of the duplicated
PRI has a functional problem
Fig. 5.1-214 DBPB/RCCB PRI Dual Power Fail
3) When A-Side of the duplicated PRI is normal and B-Side board is removed
SMD-011-PMA210
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Fig. 5.1-215 DBPB/RCCB PRI Single Power Open Fail
4) When A-Side is removed after B-Side of the duplicated PRI is removed
Fig. 5.1-216 DBPB/RCCB PRI Dual Power Open Fail
5.1.1.3.8.5. Others
1) When DBPB/RCCB UNIT Alarm Cable is removed
Fig. 5.1-217 DBPB/RCCB Alarm Cable Open
5.1.1.3.9. LPAB
5.1.1.3.9.1. LPAU Board
1) When LPAB Alarm Cable is removed
SMD-011-PMA210
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Fig. 5.1-218 LPAB Alarm Cable Open
2) When functional faults occur in LPAB Combiner
Fig. 5.1-219 LPAB LPA Combiner Fail
3) When faults occur in LPAB Combiner FAN
Fig. 5.1-220 LPAB LPA Combiner FAN Fail
4) When LPA board is removed
SMD-011-PMA210
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Fig. 5.1-221 LPAB LPA Board Open Fail
5) When functional faults occur on LPA board
Fig. 5.1-222 LPAB LPA Board Function Fail
6) When DC power of LPA board is unstable
Fig. 5.1-223 LPAB LPA DC/DC Alarm
7) When much RF power is reflected in output end of LPA board
Fig. 5.1-224 LPAB LPA VSWR Alarm
8) When LPA board is disabled
SMD-011-PMA210
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Fig. 5.1-225 LPAB LPA Disable Alarm
9) When input power level of LPA board is high
Fig. 5.1-226 LPAB LPA Over Power Warning
10) When LPA board temperature is high
Fig. 5.1-227 LPAB LPA Over Temperature Alarm
11) When input Power level of LPA board is high
SMD-011-PMA210
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Fig. 5.1-228 LPAB LPA Over Power Alarm
5.1.1.3.10. HPAB
5.1.1.3.10.1. HPA Board
1) When HPAB Alarm Cable is removed
Fig. 5.1-229 HPAB HPA Alarm Cable Open
2) When HPA board is removed
Fig. 5.1-230 HPAB HPA Board Open Fail
3) When functional faults occur on HPA board
Fig. 5.1-231 HPAB HPA Power Fail
4) When faults occur in HPA Board Power Supply
SMD-011-PMA210
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Fig. 5.1-232 HPAB HPA Power Supply Alarm
5) When much RF power is reflected in HPA output end
Fig. 5.1-233 HPAB HPA VSWR Alarm
6) When HPA board is disabled
Fig. 5.1-234 HPAB HPA Disable Alarm
7) When HPA board temperature is high
Fig. 5.1-235 HPAB HPA Over Temperature Alarm
8) When input Power level of HPA board is high
SMD-011-PMA210
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Fig. 5.1-236 HPAB HPA Over Power Alarm
5.1.1.3.11. CFEB
5.1.1.3.11.1. LNA Board
1) When LNA Alarm Cable board is removed
Fig. 5.1-237 CFEB LNA Alarm Cable Open Fail
2) When LNA board is removed
Fig. 5.1-238 CFEB LNA Board Open Fail
3) When functional faults occur on LNA board
Fig. 5.1-239 CFEB LNA Function Fail
5.1.1.3.12. Environment
Alarm
1) When outdoor BTS Environment Alarm Cable is removed
SMD-011-PMA210
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Fig. 5.1-240 Outdoor BTS ENV Alarm Cable Open
2) When outdoor BTS Rectifier Alarm Cable is removed
Fig. 5.1-241 Outdoor BTS ENV Rectifier Unit Alarm Cable Open
3) When outdoor BTS Cold Starter fails
Fig. 5.1-242 Outdoor BTS ENV Cold Starter Fail
4) When outdoor BTS Rectifier Unit fails
SMD-011-PMA210
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Fig. 5.1-243 Outdoor BTS ENV Rectifier Unit Fail
5) Outdoor BTS Voltage High Alarm
Fig. 5.1-244 Outdoor BTS ENV Voltage High Alarm
6) Outdoor BTS Voltage Low Alarm
Fig. 5.1-245 Outdoor BTS ENV Voltage Low Alarm
7) When outdoor BTS AC fails
Fig. 5.1-246 Outdoor BTS AC Fail
8) Outdoor BTS Battery Voltage Low Alarm
SMD-011-PMA210
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Fig. 5.1-247 Outdoor BTS ENV Battery Low Voltage Alarm
9) Outdoor BTS Fuse/Relay Loss Alarm
Fig. 5.1-248 Outdoor BTS ENV Fuse/Relay Loss Alarm
10) When outdoor BTS DMC-14 fails
Fig. 5.1-249 Outdoor BTS ENV DMC-14 Fail
11) Outdoor BTS Power Cut Alarm
SMD-011-PMA210
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Fig. 5.1-250 Outdoor BTS ENV Power Cut Alarm
12) Outdoor BTS Temperature High Alarm
Fig. 5.1-251 Outdoor BTS ENV Temperature High Alarm
13) Outdoor BTS Temperature Low Alarm
Fig. 5.1-252 Outdoor BTS ENV Temperature Low Alarm
14) Outdoor BTS Water High Alarm
Fig. 5.1-253 Outdoor BTS ENV Water High Alarm
15) Outdoor BTS Water Low Alarm
SMD-011-PMA210
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Fig. 5.1-254 Outdoor BTS ENV Water Low Alarm
16) Outdoor BTS Fire Alarm
Fig. 5.1-255 Outdoor BTS ENV Fire Alarm
17) Outdoor BTS Humidity High Alarm
Fig. 5.1-256 Outdoor BTS ENV Humidity High Alarm
18) When outdoor BTS ACU Module fails
SMD-011-PMA210
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Fig. 5.1-257 Outdoor BTS ENV ACU Module Fail
19) When outdoor BTS Heat Exchanger Power fails
Fig. 5.1-258 Outdoor BTS ENV Heat Exchanger Power Fail
20) When outdoor BTS Heat Exchanger fails
Fig. 5.1-259 Outdoor BTS ENV Heat Exchanger Fail
21) When outdoor BTS LPA FAN fails
Fig. 5.1-260 Outdoor BTS ENV LPA FAN Fail
22) When outdoor BTS AC Equipment Heater fails
SMD-011-PMA210
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Fig. 5.1-261 Outdoor BTS ENV AC Equipment Heater Fail
23) Outdoor BTS Front/Rear Door Open Alarm
Fig. 5.1-262 Outdoor BTS ENV Front/Rear Door Open Alarm
24) Outdoor BTS Side Door Open Alarm
Fig. 5.1-263 Outdoor BTS ENV Side Door Open Alarm
25) When outdoor BTS FAN fails
SMD-011-PMA210
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Fig. 5.1-264 Outdoor BTS ENV FAN Fail
26) When outdoor BTS AC Battery Heater fails
Fig. 5.1-265 Outdoor BTS ENV AC Battery Heater Fail
27) Indoor BTS Temperature High Alarm
Fig. 5.1-266 Indoor BTS ENV Temperature High Alarm
28) Indoor BTS Temperature Low Alarm
Fig. 5.1-267 Indoor BTS ENV Temperature Low Alarm
30) Indoor BTS Flood Alarm
SMD-011-PMA210
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Fig. 5.1-268 Indoor BTS ENV Flood Alarm
31) Indoor BTS Door #1 Open Alarm
Fig. 5.1-269 Indoor BTS ENV Door #1 Open Alarm
32) Indoor BTS Door #2 Open Alarm
Fig. 5.1-270 Indoor BTS ENV Door #2 Open Alarm
33) Indoor BTS Fire Alarm
SMD-011-PMA210
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Fig. 5.1-271 Indoor BTS ENV Fire Alarm
34) When indoor BTS Rectifier #1 fails
Fig. 5.1-272 Indoor BTS ENV Rectifier #1 fails
35) When indoor BTS Rectifier #2 fails
Fig. 5.1-273 Indoor BTS ENV Rectifier #2 Fail
36) When indoor BTS Aircon #1 fails
Fig. 5.1-274 Indoor BTS ENV Aircon #1 Fail
37) When indoor BTS Aircon #2 fails
SMD-011-PMA210
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Fig. 5.1-275 Indoor BTS ENV Aircon #2 Fail
38) Indoor BTS Water Leakage Alarm
Fig. 5.1-276 Indoor BTS ENV Water Leakage Alarm
5.1.1.3.13. Others
1) If a problem occurs in BTS FAN
Fig. 5.1-277 BTS Rack FAN Fail
5.1.2. Fault Message
5.1.2.1. Keep-Alive-related Fault
Keep-Alive Fault occurs by two reasons. One in Tx section
SMD-011-PMA210
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5.1.2.1.1.1. CNP Report
1) CNP
NCP section
Fig. 5.1-278 Keep-Alive Fault between CNP and NCP
5.1.2.1.1.2. PNP Report
1) PNP
NCP section
Fig. 5.1-279 Keep-Alive Fault between PNP and NCP
2) PNP
PCP section
Fig. 5.1-280 Keep-Alive Fault between PNP and PCP
5.1.2.1.1.3. PCP Report
1) PCP
CCP section
SMD-011-PMA210
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Fig. 5.1-281 Keep-Alive Fault between PCP and CCP
2) PCP
PNP section
Fig. 5.1-282 Keep-Alive Fault between PCP and PNP
5.1.2.1.1.4. CCP Report
1) CCP
NCP section
Fig. 5.1-283 Keep-Alive Fault between CCP and NCP
2) CCP
PCP section
SMD-011-PMA210
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Fig. 5.1-284 Keep-Alive Fault between CCP and PCP
3) CCP
BSP section
Fig. 5.1-285 Keep-Alive Fault between CCP and BSP
4) CCP
SCP section
Fig. 5.1-286 Keep-Alive Fault between CCP and SCP
5) CCP
SMP section
SMD-011-PMA210
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Fig. 5.1-287 Keep-Alive Fault between CCP and SMP
6) CCP
VMP section
Fig. 5.1-288 Keep-Alive Fault between CCP and VMP
5.1.2.1.1.5. NCP Report
1) NCP
CNP section
Fig. 5.1-289 Keep-Alive Fault between NCP and CNP
2) NCP
CCP section
SMD-011-PMA210
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Fig. 5.1-290 Keep-Alive Fault between NCP and CCP
3) NCP
PNP section
Fig. 5.1-291 Keep-Alive Fault between NCP and PNP
4) NCP
CRP section
Fig. 5.1-292 Keep-Alive Fault between NCP and CRP
5.1.2.1.1.6. SCP Report
1) SCP
CCP section
SMD-011-PMA210
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Fig. 5.1-293 Keep-Alive Fault between SCP and CCP
2) SCP
STIA section
Fig. 5.1-294 Keep-Alive Fault between SCP and STIA
5.1.2.1.1.7. BSP Report
1) BSP
CCP section
Fig. 5.1-295 Keep-Alive Fault between BSP and CCP
2) BSP
RCP section
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Fig. 5.1-296 Keep-Alive Fault between BSP and RCP
3) BSP
BPP section
Fig. 5.1-297 Keep-Alive Fault between BSP and BPP
4) RCP
DBPA section
Fig. 5.1-298 Keep-Alive Fault between RCP and DBPA
5.1.2.2. CCP Processing-related Fault
5.1.2.2.1. VCE Qcelp Algorithm Test Fault
1)
Vocoder Clock Fault
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Fig. 5.1-299 Vocoder Clock Fault
2) QCELP0 Algorithm Fault
Fig. 5.1-300 QCELP0 Algorithm Fault
3) QCELP1 Algorithm Fault
Fig. 5.1-301 QCELP1 Algorithm Fault
4) QCELP2 Algorithm Fault
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Fig. 5.1-302 QCELP2 Algorithm Fault
5) QCELP3 Algorithm Fault
Fig. 5.1-303 QCELP3 Algorithm Fault
6) VCPA LoopBack Test Fault
Fig. 5.1-304 VCPA Loop-Back Test Fault
5.1.2.2.2. VCE DSP Test Fault
1) When faults occur upon DSP ROM TEST
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Fig. 5.1-305 Vocoder DSP ROM TEST Fault
2) When faults occur upon DSP RAM TEST
Fig. 5.1-306 Vocoder DSP RAM TEST Fault
3) When faults occur upon DSP ROM/RAM TEST
Fig. 5.1-307 Vocoder DSP ROM/RAM TEST Fault
4) When faults occur upon DSP ALU TEST
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Fig. 5.1-308 Vocoder DSP ALU TEST Fault
5) When faults occur DSP ROM/ALU TEST
Fig. 5.1-309 Vocoder DSP ROM/ALU TEST Fault
6) When faults occur upon DSP RAM/ALU TEST
Fig. 5.1-310 Vocoder DSP RAM/ALU TEST Fault
7) When faults occur upon DSP ROM/RAM/ALU TEST
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Fig. 5.1-311 Vocoder DSP ROM/RAM/ALU TEST Fault
5.1.2.2.3. VLIA T1/E1 Trunk Time Slot Fault
1) When faults occur upon VLIA E1/T1 Trunk Time-Slot TEST
Fig. 5.1-312 VLIA E1/T1 Trunk Time-Slot Test Fault
5.1.2.2.4. Call Fail
1) SCI Fault
Fig. 5.1-313 SCI Fault
2) BASE ID Fault
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Fig. 5.1-314 Base ID Fault
3) BTS ID Fault
Fig. 5.1-315 BTS ID Fault
4) Sector ID Fault
Fig. 5.1-316 Sector ID Fault
5) Neighbor List Fault
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Fig. 5.1-317 Neighbor List Fault
6) MSC Overload Fault
Fig. 5.1-318 MSC Overload Fault
7) CCP Overload Fault
Fig. 5.1-319 CCP Overload Fault
8) BSP Overload Fault
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Fig. 5.1-320 BSP Overload Fault
9) Get Task Function Fault
Fig. 5.1-321 Get Task Function Fault
10) Free Task Function Fault
Fig. 5.1-322 Free Task Function Fault
11) Get Buffer Function Fault
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Fig. 5.1-323 Get Buffer Function Fault
12) Authentication Fault
Fig. 5.1-324 Authentication Fault
5.1.2.3. RCP Processing-related Fault
1) When a problem occurs in STM SYSTEM TIME
Fig. 5.1-325 STM System Time Fault
2) CDM TX Parity Fault
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Fig. 5.1-326 CDM TX Parity Fault
3) CDM RX Parity Fault
Fig. 5.1-327 CDM RX Parity Fault
4) CDM TX Over-Flow Fault
Fig. 5.1-328 CDM TX Over-Flow Fault
5) CDM TX M2R DATA Error
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Fig. 5.1-329 CDM TX M2R DATA Error
6) CDM TX R2B DATA Error
Fig. 5.1-330 CDM TX R2B DATA Error
7) CDM RX B2R DATA Error
Fig. 5.1-331 CDM RX B2R DATA Error
8) OverHead Channel Config No Received Fault
Fig. 5.1-332 OverHead Channel Config No Received Fault
9) OverHead Channel Config Invalid Fault
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Fig. 5.1-333 OverHead Channel Config Invalid Fault
5.1.2.4. DBPA Processing-related Fault
1) When faults occur in DBPA Internal Even Clock
Fig. 5.1-334 DBPA Internal Even Clock Fault
2) When faults occur in DBPA External System Clock
Fig. 5.1-335 DBPA External System Clock Fault
3) When DBPA Channel Card can not receive TOD within 10 seconds
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Fig. 5.1-336 DBPA TOD Not Active Fault
4) DBPA Common Channel No Free Queue Fail
Fig. 5.1-337 DBPA CMC No Free Queue Fault
5) When faults occur in DBPA Internal System Clock
Fig. 5.1-338 DBPA Internal Sync Clock Fault
6) DBPA Core No Free Queue Fail
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Fig. 5.1-339 DBPA Core No Free Queue Fault
7) DBPA Queue Put Fail
Fig. 5.1-340 DBPA Queue Put Fault
8) DBPA Queue Get Fail
Fig. 5.1-341 DBPA Queue Get Fault
9) DPBA S/W WatchDog TimeOut Fail
Fig. 5.1-342 DBPA S/W Watchdog Timeout Fault
10) DBPA Fatal Fault
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Fig. 5.1-343 DBPA Fatal Fault
11) When DBPA Clock and Modem Control are bad
Fig. 5.1-344 DBPA Bad Channel Modem Fault
12) When DBPA has a false TOD information
Fig. 5.1-345 DBPA External TOD Fault
13) DBPA Internal OS Clock Fail
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Fig. 5.1-346 DBPA Internal OS Clock Fault
14) DBPA BIT Chip Fail
Fig. 5.1-347 DBPA BIT Fail
5.1.2.5. Channel-related Fault
1) When messages cannot be transferred to SVC because Message Queue for
messages to be delivered to SVC is empty
Fig. 5.1-348 DBPA TC No SVC Free Queue Fail
2) When Queue resources that save messages from BSP and RCP are used up
Fig. 5.1-349 DBPA TC No Normal Free Queue Fail
3) When a problem occurs during Built-In Test
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Fig. 5.1-350 DBPA TC Tx FWHENO Full Fail
4) When Queue resources that save messages to be sent to BSP are used up
Fig. 5.1-351 DBPA ACH No Free Queue Fail
5) When Encoder Queue resources are used up
Fig. 5.1-352 DBPA PC No Encoder Free Queue Fail
6) When Queue resources that save page messages except General Page
messages are used up
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Fig. 5.1-353 DBPA PC No Page Free Queue Fail
7) When Queue resources that save Quick Page messages are used up
Fig. 5.1-354 DBPA PC No Quick Page Free Queue Fail
8) When Queue resources that save Reply Message are consumed as Reply is
requested for the messages from BSP
Fig. 5.1-355 DBPA PC No Reply Free Queue Fail
9) When Write errors occur more than 20 times continuously as Paging Channel
performs Write Frame every 20ms
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Fig. 5.1-356 DBPA PC Write Frame Fail
10) When Queue resources that save General Page messages from BSP are
consumed
Fig. 5.1-357 DBPA PC No General Page Free Queue Fail
5.1.2.6. BUDA Processing-related Fault
1) BUDA CHIPx16 Fault
Fig. 5.1-358 BUDA CHIPx16 Fault
2) BUDA Forward Sync Fault
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Fig. 5.1-359 BUDA Forward Sync Fault
3) BUDA Tx Saturation Fault
Fig. 5.1-360 BUDA Tx Saturation Fault
4) BUDA Frame Error Fault
Fig. 5.1-361 BUDA Frame Error Fault
5.1.2.7. BOTA Processing-related Fault
1) BOTA TOD Error Fault
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Fig. 5.1-362 BOTA TOD Error Fault
2) BOTA TOD Not Active Fault
Fig. 5.1-363 BOTA TOD Not Active Fault
5.2. Status Command
5.2.1. Processor Status Change Report
When processor status is changed in state block, the status change report messages
are displayed on Console Window. This function can allow or inhibit messages display
as a function that allows/inhibits the status message display..
5.2.1.1. CNP Status Change Report
When CNP processor status is changed, the messages are displayed on Console Window.
It is the processor that the BSM keeps Alive and displays the messages, judging from
the BSM status block.
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Fig. 5.2-1 CNP Processor Status Change Report
5.2.1.2. PNP Status Change Report
When PNP processor status is changed, the messages are displayed on Console Window.
It is the processor that the BSM keeps Alive and displays the messages, judging from
the BSM status block.
Fig. 5.2-2 PNP Processor Status Change Report
5.2.1.3. PCP Status Change Report
When PCP processor status is changed, the messages are displayed on Console Window.
It is the processor that the BSM keeps Alive and displays the messages, judging from
the BSM status block.
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Fig. 5.2-3 PCP Processor Status Change Report
5.2.1.4. PMP Status Change Report
When PMP processor status is changed, the messages are displayed on Console Window.
It is the processor that PCP keeps Alive and reports the messages to the upper level
BSM, judging from the PCP status block.
Fig. 5.2-4 PMP Processor Status Change Report
5.2.1.5. CCP Status Change Report
When CCP processor status is changed, the messages are displayed on Console Window.
It is the processor that the BSM keeps Alive and displays the messages, judging from
the BSM status block.
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Fig. 5.2-5 CCP Processor Status Change Report
5.2.1.6. NCP Status Change Report
When NCP processor status is changed, the messages are displayed on Console Window.
It is the processor that the BSM keeps Alive and displays the messages, judging from
the BSM status block.
Fig. 5.2-6 NCP Processor Status Change Report
5.2.1.7. SCP Status Change Report
When SCP processor status is changed, the messages are displayed on Console Window.
It is the processor that the BSM keeps Alive and displays the messages, judging from
the BSM status block.
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Fig. 5.2-7 SCP Processor Status Change Report
5.2.1.8. SMP Status Change Report
When SMP processor status is changed, the messages are displayed on Console Window.
It is the processor that the CCP keeps Alive and reports the messages to the upper
level BSM, judging from the CCP status block.
Fig. 5.2-8 SMP Processor Status Change Report
5.2.1.9. VMP Status Change Report
When VMP processor status is changed, the messages are displayed on Console Window.
It is the processor that the CCP keeps Alive and reports the messages to the upper
level BSM, judging from the CCP status block.
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Fig. 5.2-9 VMP Processor Status Change Report
5.2.1.10. ALP Status Change Report
When ALP processor status is changed, the messages are displayed on Console Window.
It is the processor that the CCP keeps Alive and reports the messages to the upper
level BSM, judging from the CCP status block.
Fig. 5.2-10 ALP Processor Status Change Report
5.2.1.11. BSP Status Change Report
When BSP processor status is changed, the messages are displayed on Console Window.
It is the processor that the CCP keeps Alive and reports the messages to the upper
level BSM, judging from the CCP status block.
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Fig. 5.2-11 BSP Processor Status Change Report
5.2.1.12. CRP Status Change Report
When CRP processor status is changed, the messages are displayed on Console Window.
It is the processor that the NCP keeps Alive and reports the messages to the upper
level BSM, judging from the NCP status block.
Fig. 5.2-12 CRP Processor Status Change Report
5.2.1.13. RCP Status Change Report
When RCP processor status is changed, the messages are displayed on Console Window.
It is the processor that the BSP keeps Alive and reports the messages to the upper
level BSM, judging from the BSP status block.
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Fig. 5.2-13 RCP Processor Status Change Report
5.2.1.14. BPP Status Change Report
When BPP processor status is changed, the messages are displayed on Console Window.
It is the processor that the BSP keeps Alive and reports the messages to the upper
level BSM, judging from the BSP status block.
Fig. 5.2-14 BPP Processor Status Change Report
5.2.2. Overload Status Change Report Function
When overload occurs/is changed/is released in CCP or BSP processor, it is displayed
on Console Window. This function can allow or inhibit message display as a function
that allows/inhibits the status message display.
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5.2.2.1. Overload Status Occurred Message
When overload occurs in CCP or BSP processor, it is reported to upper level BSM.
Overload occurs when Level is 12.
Fig. 5.2-15 Overload Status Occurred Message
5.2.2.2. Overload Status Change Message
After overload occurs in CCP or BSP processor, when overload status is changed, it is
reported to upper level BSM.
Fig. 5.2-16 Overload Status Change Message
5.2.2.3. Overload Status Released Message
When overload is released in CCP or BSP processor, it is reported to upper level BSM.
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Fig. 5.2-17 Overload Status Released Message
5.3. Loading Message
5.3.1. Processor Initialization Start Message
Processor initialization start message is displayed when a target processor starts
initialization. The following messages are displayed depending on the initialization type.
Classification
Message Type
Initial Loading
S2002 PROCESSOR INITIALIZATION START
Standby Loading
S2002 PROCESSOR STANDBY INITIALIZATION START
Fig. 5.3-1 Processor Initialization Start Message
5.3.2. Processor Initialization End Message
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Processor initialization end message is displayed when a target processor ends
initialization. The following messages are displayed depending on the initialization type.
Classification
Message Type
Initial Loading
S2100 PROCESSOR INITIALIZATION END
Standby Loading
S2100 PROCESSOR STANDBY INITIALIZATION END
Fig. 5.3-2 Processor Initialization End Message
5.3.3. Loading Start Message
Processor loading start message is a message that reports loading start of each block
upon loading target processor. The following messages are displayed depending on the
loading type.
Classification
Message Type
General Loading
S2000 PROCESSOR LOADING START
Block Loading
S2000 PROCESSOR BLOCK LOADING START
Activation Loading
S2000 PROCESSOR ACTIVATION LOADING START
Standby Loading
S2000 PROCESSOR STANDBY LOADING START
Firmware Loading
S2000 PROCESSOR FIRMWARE LOADING START
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Fig. 5.3-3 Loading Start Message
5.3.4. Loading Completion Message
Processor loading completion message is a message that reports loading completion of
each block upon loading target processor. The following messages are displayed
depending on the loading type.
Classification
Message Type
General Loading
S2001 PROCESSOR LOADING COMPLETE
Block Loading
S2001 PROCESSOR BLOCK LOADING COMPLETE
Activation Loading
S2001 PROCESSOR ACTIVATION LOADING COMPLETE
Standby Loading
S2001 PROCESSOR STANDBY LOADING COMPLETE
Firmware Loading
S2001 PROCESSOR FIRMWARE LOADING COMPLETE
Fig. 5.3-4 Loading Completion Message
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5.3.5. Loading Failure Message
Processor loading failure message is a message displayed when block fails in loading
upon loading target processor. The following messages are displayed depending on the
loading type.
Classification
Message Type
General Loading
S2105 PROCESSOR LOADING FAIL
Block Loading
S2105 PROCESSOR BLOCK LOADING FAIL
Activation Loading
S2105 PROCESSOR ACTIVATION LOADING FAIL
Standby Loading
S2105 PROCESSOR STANDBY LOADING FAIL
Fig. 5.3-5 Loading Failure Message
5.3.6. Firmware Update Report Message
Firmware update report message is a message that reports if the update succeeds
when firmware update is completed.
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6. Trouble Shoot
This chapter describes problems caused by operating and solution to them.
6.1. If BSM is not operated
6.1.1. If BSM is not initialized
6.1.1.1. Shared Memory or Queue Problem
6.1.1.1.1. IPC Initialization Problem
If the following messages are displayed
start of MMI_server program
[mmi] mmi is already in service.
You can remove a file "IPCHEAD" and try again... sorry!!!
The above cases can occur when BSM is already initialized and used or when
the formerly executed BSM ends abnormally or by force. When these cases
occur, it is possible to delete them compulsorily using rmipc command provided
by BSM. However, when initializing IPC by force, perform the work after
checking if it is currently in operation. (See “ Overlapped Use Problem of IPC” if
UNIX ID which operated BSM previously is different from the ID currently
logged in.
6.1.1.1.2. Overlapped Use Problem of IPC
BSM initialization and operation can be performed by logging in as one UNIX
ID. But after executing BSM by logging in as other UNIX IDs, none can
reoperate BSM except the operated ID. Therefore, check Queue and Shared
Memory currently in use by using UNIX command called “/usr/bin/ipcs –a” to
see if other IDs operated BSM. In this case, remove the generated IPC Header
and the assigned IPC by performing “rmipc” command with ID or UNIX Root
authorization that operates BSM
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6.1.1.1.3. If IPC is not deleted
If IPC is not deleted by “rmipc” command to operate BSM, delete it by force
through the following command.
ipcrm
[ -m shmid ]
[ -q msqid ]
[ -Q msgkey ]
[ -s semid ]
[ -M shmkey
[ -S semkey ]
Description of each factor
-m shmid
Remove the shared memory identWhenier shmid from
the
system.
The shared memory segment and data struc-
ture associated with it are
destroyed
after
the
last detach.
-q msqid Remove the message queue identWhenier msqid from the
system
and
destroy
the
message
queue and data
structure associated with it.
-s semid
Remove the semaphore
identWhenier
semid
from
the
system
and destroy the set of semaphores and data
structure associated with it.
-M shmkey Removes the shared memory identWhenier, created
with
key shmkey, from the system. The shared memory
segment and data structure associated with it
are
destroyed after the last detach.
-Q msgkey Remove the message queue identWhenier, created
with
key
msgkey,
from the system and destroy the mes-
sage queue and data structure associated with it.
-S semkey Remove the semaphore identWhenier, created with key
semkey,
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from
the
system
and destroy the set of
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semaphores and data structure associated with it.
6.1.2. It can not function normally despite of its initialization
6.1.2.1. Informix Problem
BSM Applications are saved as temporary data and data for reference in other
blocks using Informix Database. Therefore, if Informix does not operate, BMS
Applications cannot be run or run abnormally.
6.1.2.1.1. Informix Initialization
Check to see if Informix Database is normally operated by using the following
command:
“onstat –“
Normal if messages similar to the following are displayed.
Informix Dynamic Server Version 7.31.UD1
-- On-Line -- Up 1 days 22:53:08 -- 133904 Kbytes
If error messages are displayed, refer to the item “ Informix Installation” of BSM
environmental configuration.
6.1.2.1.2. Informix Database Error
Informix DB errors occur in the following cases: 1) when Database is damaged while
operating the BSM; 2) when Applications are not normally run after normal
initialization of Informix and 3) when a part of all Applications cannot be run. In this
case, it is able to run Applications normally by dropping DB Table of Informix
Database artificially.
6.2. If Graphic Application is not run
BSM inputs a command in the user-friendly environment and provides a variety of
GUIs to monitor the system. However, the user should check the environment to
run GUI.
The following describes causes for errors and its solution when environment
variables are wrongly set up or the files needed for operating GUI do not exist.
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6.2.1. Environment Variables
6.2.1.1. Display Setup Problem
Register the system that corresponds to /etc/host files to protect BSM from external
Access and allow to use the authenticated system.
Make the format consistent with the following contents:
6.2.1.1.1. Main Server Name
150.150.62.100
zen.lgic.co.kr
zen
loghost
In the above example, it is /etc/hosts file to operate the host called “zen” as a
main server.
If the following is registered, the BSM causes segmentation fault and stops
operation.
150.150.62.100
zen
zen.lgic.co.kr
loghost
6.2.1.1.2. Remote Server
Even if PC/Workstation to be operated in remote area is the same as the above
item, register the following contents in /etc/hosts file.
150.150.62.102
feel.lgic.co.kr
feel
The above example is the contents that register the system called “feel” to
access the Main Server. Register the following contents in a /etc/hosts file of
the
Main Server.
6.2.1.2. GUI Library
When GUI is operated, the following messages are displayed on xterm window
that runs mmi. If GUI is not operated, it can be regarded as GUI without library.
ld.so.1: stmGUI: fatal: libXpm.so.4.10: open failed: No such file or directory
Killed
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The above is an example when GUI is not operated in spite of the attempt to
operate GUI called “stmGUI”. It means that libXpm.so.x.xx file does not exist as
shown above. In this case, two problems can be taken into consideration.
6.2.1.2.1. LD_LIBRARY_PATH Setup
Setting up GUI Library is to change the system environment variables called
LD_LIBRARY_PATH. The following is an example of how to set up variables.
setenv
LD_LIBRARY_PATH
“paths”
The above path would be composed of the following contents:
/home/informix/lib:/home/informix/lib/esql:/opt/TclPro1.5/solarissparc/lib:/usr/openwin/lib:/usr/lib:/usr/ucblib:/usr/dt/lib:../DATA/LIB
GUI Libraries are generally installed in “/usr/dt/lib” or “/usr/openwin/lib”.
However, add “:your_lib_path_dir” upon using them additionally.
6.2.1.2.2. libXpm File Absence
Even though OS is normally installed, XPM Library is not provided as a basic.
Therefore, it is possible to set up by duplicating XPM Library provided by BSM
and
by
adding
Library
to
variables.
Refer
to
the
above
item
“LD_LIBRARY_PATH” for setting up.
6.2.2. If Manager in Remote Area is not operated
For safety, BSM does not allow to use two managers in one system remotely.
Therefore, check to see if it corresponds to the following cases:
6.2.2.1. If the same name is already used
Check to see if the system attempting a remote operation uses the name already.
It is possible to check if it is registered by operating controller on Main BSM
Server. In this case, if the current system does not use the name, it means that it
was abnormally terminated during the previous use. Therefore, it will be
possible to reuse it if Main BSM controller deletes the corresponding host name.
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6.2.2.2. If it is not registered in /etc/hosts file
It is when registration is not allowed for security reasons. In this case, refer to
how to compile /etc/hosts file of BSM environment variables setting among the
above items and then add remote server name.
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7. CHG- Appendix
7.1. Alarm/Fault Message Description and List
7.1.1. Alarm Message Description and List
7.1.1.1. CAN Generated Alarm Message
Table 7.1-1 CAN Generated Alarm Message List
Alarm
Code
Alarm Description
A7500
CAN GPSR CONTROL CABLE OPEN
A7600
CAN ALARM CABLE OPEN
A7800
CAN RACK FAN FAIL
A8000
CAN GPSR SINGLE ABNORMAL
A8001
CAN GPSR DUAL ABNORMAL
A8050
CAN GPSD SINGLE ABNORMAL
A8051
CAN GPSD DUAL ABNORMAL
A8100
CAN RAPU ABNORMAL
A8110
CAN RAPU LINK_OR_POWER FAIL
A8500
CAN CNPA SINGLE ABNORMAL
A8501
CAN CNPA DUAL ABNORMAL
A8550
CAN ASCA(CAMU) SINGLE ABNORMAL
A8551
CAN ASCA(CAMU) DUAL ABNORMAL
A8560
CAN FERA SINGLE ABNORMAL
A8561
CAN FERA DUAL ABNORMAL
A8570
CAN ASCA(CPNU) SINGLE ABNORMAL
A8571
CAN ASCA(CPNU) DUAL ABNORMAL
A8600
CAN PNPA SINGLE ABNORMAL
A8601
CAN PNPA DUAL ABNORMAL
A8700
CAN AMPA ABNORMAL
A8710
CAN PCPA SINGLE ABNORMAL
A8711
CAN PCPA DUAL ABNORMAL
A8720
CAN PMPA SINGLE ABNORMAL
SMD-011-PMA210
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A8721
CAN PMPA DUAL ABNORMAL
A8730
CAN ENPA SINGLE ABNORMAL
A8731
CAN ENPA DUAL ABNORMAL
A8740
CAN BCRA SINGLE ABNORMAL
A8741
CAN BCRA DUAL ABNORMAL
A8800
CAN PCPA 1PPS CLOCK FAIL
A8810
CAN PCPA 10MHz CLOCK FAIL
A8820
CAN FERA LINK FAIL
A8840
CAN FERA PDSN LINK FAIL
A9000
CAN CAMU SINGLE POWER FAIL
A9001
CAN CAMU DUAL POWER FAIL
A9010
CAN PCFU(PCP) SINGLE POWER FAIL
A9011
CAN PCFU(PCP) DUAL POWER FAIL
A9020
CAN PCFU(PMP) SINGLE POWER FAIL
A9021
CAN PCFU(PMP) DUAL POWER FAIL
A9030
CAN ATSU SINGLE POWER FAIL
A9031
CAN ATSU DUAL POWER FAIL
A9040
CAN CPNU SINGLE POWER FAIL
A9041
CAN CPNU DUAL POWER FAIL
A9220
CAN ASIA(CAMU) SINGLE ABNORMAL
A9221
CAN ASIA(CAMU) DUAL ABNORMAL
A9230
CAN ASIA(CPNU) SINGLE ABNORMAL
A9231
CAN ASIA(CPNU) DUAL ABNORMAL
A9240
CAN AOTA BOARD DELETION
A9250
CAN AOTA FUNCTION FAIL
A9260
CAN ATSA(ASMU) BOARD DELETION
A9270
CAN ATSA(ASMU) FUNCTION FAIL
A9300
CAN PIPA BOARD DELETION
A9310
CAN PIPA FUNCTION FAIL
A9320
CAN FETA BOARD DELETION
A9330
CAN FETA FUNCTION FAIL
A9400
CAN ATSA(ATSU) BOARD DELETION
A9410
CAN ATSA(ATSU) FUNCTION FAIL
SMD-011-PMA210
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STAREX-IS BSM Manual
7.1.1.2. BSC Generated Alarm Message
Table 7.1-2 BSC Generated Alarm Message List
Alarm
Code
Alarm Description
A4600
BSC ALARM CABLE OPEN
A4800
BSC RACK FAN FAIL
A5500
BSC NCPA SINGLE ABNORMAL
A5501
BSC NCPA DUAL ABNORMAL
A5510
BSC ALP SINGLE ABNORMAL
A5511
BSC ALP DUAL ABNORMAL
A5550
BSC ALMA SINGLE ABNORMAL
A5551
BSC ALMA DUAL ABNORMAL
A5560
BSC ASCA SINGLE ABNORMAL
A5561
BSC ASCA DUAL ABNORMAL
A5700
BSC CCPA SINGLE ABNORMAL
A5701
BSC CCPA DUAL ABNORMAL
A5710
BSC SCPA SINGLE ABNORMAL
A5711
BSC SCPA DUAL ABNORMAL
A5720
BSC SLMA ABNORMAL
A5730
BSC VCMA ABNORMAL
A5800
BSC CCPA 1PPS CLOCK FAIL
A5810
BSC CCPA 10MHz CLOCK FAIL
A6000
BSC CCPU SINGLE POWER FAIL
A6001
BSC CCPU DUAL POWER FAIL
A6010
BSC ASMU SINGLE POWER FAIL
A6011
BSC ASMU DUAL POWER FAIL
A6020
BSC ALBU SINGLE POWER FAIL
A6021
BSC ALBU DUAL POWER FAIL
A6030
BSC SLBU POWER FAIL
A6040
BSC VCBU POWER FAIL
SMD-011-PMA210
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A6220
BSC ASIA SINGLE ABNORMAL
A6221
BSC ASIA DUAL ABNORMAL
A6240
BSC AOTA BOARD DELETION
A6250
BSC AOTA FUNCTION FAIL
A6260
BSC ATSA BOARD DELETION
A6270
BSC ATSA FUNCTION FAIL
A6280
BSC ALPA BOARD DELETION
A6290
BSC ALPA FUNCTION FAIL
A6300
BSC STIA BOARD DELETION
A6310
BSC STIA FUNCTION FAIL
A6350
BSC STIA SHW LINK FAIL
A6400
BSC SLPA BOARD DELETION
A6410
BSC SLPA FUNCTION FAIL
A6500
BSC VCPA BOARD DELETION
A6510
BSC VCPA FUNCTION FAIL
A6520
BSC VLIA BOARD DELETION
A6530
BSC VLIA FUNCTION FAIL
A6540
BSC VLIA T1(E1) #x REMOTE ERROR
A6541
BSC VLIA T1(E1) #x LOCAL ERROR
A6542
BSC VLIA T1(E1) #x SLIP ERROR
A6543
BSC VLIA T1(E1) #x BIT ERROR
A6610
BSC CCP ABID BOARD DELETION
A6611
BSC NCP ABID BOARD DELETION
A6620
BSC SMP SAID BOARD DELETION
A6630
BSC SMP SINGLE CLOCK FAIL
A6631
BSC SMP DUAL CLOCK FAIL
A6640
BSC VMP SAID BOARD DELETION
A6650
BSC VMP SINGLE CLOCK FAIL
A6651
BSC VMP DUAL CLOCK FAIL
A6900
BSC ALPA E1/T1 LINK NODE FAIL
A6910
BSC ALPA STM1 LINK NODE FAIL
SMD-011-PMA210
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STAREX-IS BSM Manual
7.1.1.3. BTS Generated Alarm Message
Table 7.1-3 BTS Generated Alarm Message List
Alarm
Code
Alarm Description
A0100
BTS TEMPERATURE HIGH ALARM
A0110
BTS TEMPERATURE LOW ALARM
A0120
BTS WATER HIGH ALARM
A0130
BTS WATER LOW ALARM
A0140
BTS FIRE ALARM
A0150
BTS HUMIDITY HIGH ALARM
A0160
BTS FRONT/REAR DOOR OPEN ALARM
A0170
BTS SIDE DOOR OPEN ALARM
A0200
BTS ACU MODULE FAIL
A0210
BTS LPA FAN FAIL
A0220
BTS FAN FAIL
A0300
BTS COLD START ALARM
A0310
BTS RECTIFIER UNIT FAIL
A0320
BTS VOLTAGE HIGH ALARM
A0321
BTS VOLTAGE LOW ALARM
A0330
BTS AC FAIL
A0340
BTS BATTERY LOW VOLTAGE ALARM
A0350
BTS FUSE/RELAY LOSS ALARM
A0360
BTS DMC-14 FAIL
A0370
BTS POWER CUT ALARM
A0380
BTS HEAT EXCHANGER POWER FAIL
A0381
BTS HEAT EXCHANGER FAIL
A0390
BTS AC EQUIPMENT HEATER FAIL
A0391
BTS AC BATTERY HEATER FAIL
A0400
BTS FLOOD ALARM
A0410
BTS DOOR #1 OPEN FAIL
A0411
BTS DOOR #2 OPEN FAIL
SMD-011-PMA210
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A0420
BTS RECTIFIER #1 FAIL
A0421
BTS RECTIFIER #2 FAIL
A0430
BTS AIRCON #1 FAIL
A0431
BTS AIRCON #2 FAIL
A0440
BTS WATER LEAKAGE ALARM
A0500
BTS GPSR CONTROL CABLE OPEN
A0600
BTS ALARM CABLE OPEN
A0610
BTS FAN CABLE OPEN
A0620
BTS ENVIRONMENT ALARM CABLE OPEN
A0800
BTS RACK FAN FAIL
A1000
BTS GPS SINGLE ABNORMAL
A1001
BTS GPS DUAL ABNORMAL
A1500
BTS BCRA SINGLE ABNORMAL
A1501
BTS BCRA DUAL ABNORMAL
A1550
BTS DRAN POWER FAIL
A1560
BTS DRAN FUNCTION FAIL
A1700
BTS BSPA SINGLE ABNORMAL
A1701
BTS BSPA DUAL ABNORMAL
A1750
BTS RCPA SINGLE ABNORMAL
A1751
BTS RCPA DUAL ABNORMAL
A1760
BTS BPPA BOARD DELETION
A1770
BTS BPPA FUNCTION FAIL
A1800
BTS BSPA 1PPS CLOCK FAIL
A1810
BTS BSPA 10MHz CLOCK FAIL
A1850
BTS RCMD BOARD DELETION
A1860
BTS RCMD FUNCTION FAIL
A2000
BTS BSPU SINGLE POWER FAIL
A2001
BTS BSPU DUAL POWER FAIL
A2010
BTS RCBU SINGLE POWER FAIL
A2011
BTS RCBU DUAL POWER FAIL
A2300
BTS DBPA BOARD DELETION
A2310
BTS DBPA FUNCTION FAIL
A2320
BTS BUDA BOARD DELETION
SMD-011-PMA210
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A2330
BTS BUDA FUNCTION FAIL
A2340
BTS PACA BOARD DELETION
A2350
BTS PACA FUNCTION FAIL
A2400
BTS BADA POWER FAIL
A2410
BTS BADA FUNCTION FAIL
A2420
BTS LICA BOARD DELETION
A2430
BTS LICA FUNCTION FAIL
A2440
BTS ARIA BOARD DELETION
A2450
BTS ARIA FUNCTION FAIL
A2470
BTS BOTA POWER FAIL
A2480
BTS BOTA FUNCTION FAIL
A2490
BTS RISA FUNCTION FAIL
A2491
BTS RISA POWER FAIL
A2500
BTS LPA BOARD DELETION
A2510
BTS LPA FUNCTION FAIL
A2520
BTS LPA CONBINER FAIL
A2530
BTS LPA CONBINER FAN FAIL
A2540
BTS LPA DC/DC ALARM
A2550
BTS LPA VSWR ALARM
A2560
BTS LPA DISABLE ALARM
A2570
BTS LPA OVER POWER WARNING
A2580
BTS LPA OVER TEMPERATURE ALARM
A2590
BTS LPA OVER POWER ALARM
A2600
BTS LNA BOARD DELETION
A2610
BTS LNA FUNCTION FAIL
A2700
BTS HPA BOARD DELETION
A2710
BTS HPA POWER FAIL
A2720
BTS HPA POWER SUPPLY FAIL
A2730
BTS HPA VSWR ALARM
A2740
BTS HPA DISABLE ALARM
SMD-011-PMA210
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7.1.2. Fault Message Description and List
Table 7.1-4 Fault Message List
Alarm Code
Alarm Description
F1000
BTS PROCESSOR KEEP-ALIVE FAULT
F1100
BTS STM SYSTEM TIME FAULT
F1110
BTS CDM TX PARITY FAULT
F1120
BTS CDM RX PARITY FAULT
F1130
BTS CDM TX OVF FAULT
F1140
BTS CDM TX M2R DATA ERROR
F1150
BTS CDM TX R2B DATA ERROR
F1160
BTS CDM RX B2R DATA ERROR
F1170
BTS CHANNEL CONFIG NO RECEIVED ERROR
F1180
BTS CHANNEL CONFIG DATA INVALID ERROR
F1300
BTS DBPA INTERNAL EVEN SEC ERROR
F1301
BTS DBPA EXTERNAL SYSTEM CLOCK ERROR
F1302
BTS DBPA TOD NOT ACTIVE
F1303
BTS DBPA NO BTSC FREE Q Error
F1304
BTS DBPA INTERNAL 80ms CLOCK Error
F1305
BTS DBPA DIAG NO FREE Q FAULT
F1306
BTS DBPA QUEUE PUT FAULT
F1307
BTS DBPA QUEUE GET FAULT
F1308
BTS DBPA S/W WATCHDOG TIMEOUT FAULT
F1309
BTS DBPA FATAL FAULT
F1310
BTS DBPA BAD CHANNEL MODEM FAULT
F1311
BTS DBPA TOD Error
F1312
BTS DBPA INTERNAL OS CLOCK Error
F1313
BTS DBPA BIT CHIP FAULT
F1400
BTS DBPA TC NO SI OUT FREE Q ERROR
F1410
BTS DBPA TC NO NORMAL FREE Q ERROR
F1420
BTS DBPA TC TX FIFO ERROR
F1510
BTS DBPA ACH NO FREE QUEUE ERROR
SMD-011-PMA210
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F1600
BTS DBPA NO PC ENCODER BUFFER ERROR
F1610
BTS DBPA PC NO PAGE FREE QUEUE ERROR
F1620
BTS DBPA PC NO QUICK PAGE FREE QUEUE ERROR
F1630
BTS DBPA PC NO REPLY FREE QUEUE ERROR
F1640
BTS DBPA PC WRITE FRAME FAIL
F1650
BTS DBPA PC NO GEN PAGE FREE QUEUE ERROR
F1700
BTS BUDA CHIPx16 FAULT
F1710
BTS BUDA FORWARD SYNC FAULT
F1720
BTS BUDA TX SATURATION FAULT
F1730
BTS BUDA FRAME ERROR FAULT
F2000
BTS BPPA TOD ERROR
F2010
BTS BPPA TOD NOT ACTIVE FAULT
F3000
BSC PROCESSOR KEEP-ALIVE FAULT
F3020
BSC VCE QCELP ALGORITHM TEST FAULT
F3030
BSC VCE DSP TEST FAULT
F3040
BSC VLIA E1/T1 TRUNK TIME SLOT FAULT
F3050
BSC CALL FAIL
F4000
BSC PROCESSOR KEEP-ALIVE FAULT
F5000
BSC PROCESSOR KEEP-ALIVE FAULT
F7000
CAN PROCESSOR KEEP-ALIVE FAULT
F8000
CAN PROCESSOR KEEP-ALIVE FAULT
F9000
CAN PROCESSOR KEEP-ALIVE FAULT
7.1.3. Measures for Alarm Message
Table 7.1-5 Measures for Alarm Message
ALM
Description
Measures
CODE
A0100
If temperature is normal, replace
(BTS)
Generated when temperature in BTS sensor and ACU, and if temperature
is far above the basic level, or is
sensor and ACU are abnormal
high,
check
if
FAN,
Air
Conditioner. Heat exchanger, etc.
are normal.
SMD-011-PMA210
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A0110
(BTS)
Generated when temperature in BTS
is below the basic level, or sensor
and ACU are abnormal
Generated when BTS is submerged
(BTS)
owing to natural disaster and other
reasons, or sensor and ACU are
abnormal
(BTS)
Generated
right
before
low
temperature,
check
if
heater(Heating PAD) is normal, and
upon normal temperature, replace
sensor and ACU.
A0120
A0130
Upon
BTS
is
submerged owing to natural disaster
and other reason, or sensor and ACU
are abnormal.
As it does not operate normally even
after water subsides, activate BTS
through ACU OFF/ON.
As
this
alarm
reports
critical
situation of BTS, take necessary
measures, and replace sensor and
ACU
if
they
are
not
actually
submerged.
A0140
Generated when fire occurs in BTS, When sensor and ACU are abnormal,
(BTS)
or sensor and ACU are abnormal.
A0150
Generated when humidity in BTS is
(BTS)
higher or lower than the basic level,
replace sensor and ACU.
or sensor and ACU are abnormal.
A0160
Generated when the entrance of BTS
(BTS)
is open and closed, or sensor and
cable are abnormal.
A0170
Generated when side entrance of
(BTS)
BTS is open and closed, or sensor
and cable are abnormal.
A0200
(BTS)
Generated when ACU-I4 module is
abnormal.
When humidity is normal, replace
sensor and ACU.
If the entrance is not open, replace
sensor and cable.
If the entrance is not open, replace
sensor and cable.
After
checking
it
is
normally
positioned and power is normal,
replace ACU if normal.
A0210
Generated when cooling FAN of Check the power of FAN and replace
(BTS)
LPA/HPA is abnormal
A0220
Generated
(BTS)
abnormal
A0300
Generated when initial power is
(BTS)
applied at a very low temperature Release that at more than +5℃.
when
BTS
FAN when power is normal.
FAN
is Check the power of FAN and replace
FAN when power is normal.
(below -5℃)
A0310
Generated when rectifier of BTS,
(BTS)
AC/DC(MDR30), AC, and power are AC/DC(MDR30), AC, and power are
SMD-011-PMA210
Generated when rectifier of BTS,
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abnormal
abnormal
A0320
If normal, DC 27V is abnormal, but it
(BTS)
is generated when voltage of more
than 28.5V
is supplied.
A0321
Generated
when
(BTS)
voltage
is
BTS
below
24V
rectifier
(AC-
commercial power fail)
A0330
(BTS)
Generated when AC (220V/60Hz)
input power is abnormal
Replace
rectifier
if
the
status
continues upon restart.
If it continues while AC is normal,
replace rectifier.
Check if power is normally inlet, and
check, upon normal inlet, if voltage
is within 170V~270V.
A0340
Generated when battery voltage
(BTS)
below 22.5V, which is similar to low
commercial power.
voltage alarm
generated before shutdown at 20.5V.
initial
power
is
Charge battery after recovery of
Final alarm is
A0350
Upon
application,
(BTS)
battery is not connected, or fuse When upon AC Fail, switchover is
damage of battery power supply not made, replace rectifier.
circuit.
A0360
(BTS)
If problem continues, replace DMC-
DMC-I4 fault
I4.
A0370
Generated
(BTS)
rectifier shutdown after major fault
A0380
(BTS)
A0381
(BTS)
A0390
(BTS)
A0391
(BTS)
10
before
When major fault is cleared, recover
the rectifier for auto clear.
Heat Exchanger Power Fault
Heat Exchanger Fault
Internal Heater Fault
Heating Pad Fault
A0400
(BTS)
seconds
Check
cable,
replace
FAN,
and
replace
FAN,
and
replace devices.
Check
cable,
replace devices.
Replace power cable and heater.
As it does not automatically operate
BTS submersion
even after water subsides, activate
BTS by ACU OFF/ON.
A0410
(BTS)
A0411
(BTS)
BTS Door #1 Open
BTS Door #2 Open
SMD-011-PMA210
Check BTS Door and close the open
door.
Check BTS Door and close the open
door.
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A0420
(BTS)
A0421
(BTS)
A0430
(BTS)
A0431
(BTS)
Rectifier #1 Fault
Replace rectifier.
Rectifier #2 Fault
Replace rectifier.
Check
Aircon #1 fault
AirCon
operates,
and
replace that upon non-operation.
Check
Aircon #2 fault
if
AirCon
operates,
and
replace that upon non-operation.
A0440
(BTS)
if
Prevent A/C water leakage from its
Water leakage
affecting BTS operation.
Replace
sensor and ACU.
A0500
Generated when GPS Control Cable After checking BackBoard Cable,
(BTS)
of corresponding rack, shelf is open. replace that if abnormal.
Check if Control Cable is normal.
when
alarm
cable
connected, take quick measure.
A0600
Generated
(BTS)
corresponding rack, shelf is open. replace that if abnormal.
of After checking BackBoard Cable,
Check if Alarm Cable is normal.
A0610
(BTS)
Cable is Open.
Generated
(BTS)
environmental sensor is open
(BTS)
alarm
cable
replace that if abnormal.
Generated when Rack FAN Alarm
Cable is Open.
that if normally connected.
After checking BackBoard Cable,
replace that if abnormal.
As alarm generated from GPS-R may
Generated when the status of the be
generated
owing
GPS-R
to
board
Antenna
Cable
other board is abnormal while one
deletion,
side of dual GPS-R is normal.
Failure , OSC failure, etc., check up
A1001
Replace power output module.
As alarm generated from GPS-R may
Generated when both sides of dual
GPS-R are abnormal.
be
generated
deletion,
owing
GPS-R
to
board
Antenna
Cable
Failure , OSC failure, etc., check up
that.
A1500
If not
connected, take quick measure.
that.
(BTS)
If not
of Check cable connection, and replace
A1000
(BTS)
After checking BackBoard Cable,
connected, take quick measure.
A0620
A0800
If not
connected, take quick measure.
Generated when Rack FAN Alarm
when
If not
Replace power output module.
Generated when the status of the BCRA HW mounting check or INIT
SMD-011-PMA210
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STAREX-IS BSM Manual
(BTS)
A1501
(BTS)
other board is abnormal while one
LED
side of dual BCRA is normal
operation/ BCRA HW check
Generated when both sides of dual
BCRA are abnormal.
red
or
OFF,
BCRA
non-
BCRA HW mounting check or INIT
LED
red
or
OFF,
BCRA
non-
operation/ BCRA HW check
A1700
Generated when the other side is Upon board deletion, reinstall that,
(BTS)
abnormal while one side of dual
or
BSP(UCPA) is normal
execution/R.C result.
check
FAIL
LED
ON/R.C
A1701
Generated when both sides of dual Upon board deletion, reinstall that,
(BTS)
BSP(UCPA) are abnormal. ( Board
or
deletion, CPU or FPGA Fail)
execution/R.C result.
A1750
Generated when the other side is
(BTS)
abnormal while one side of dual
RCP(RCCA)
is
normal.(
Board
deletion, CPU or FPGA Fail)
check
FAIL
LED
ON/R.C
Upon board deletion, reinstall that,
or
check
FAIL
LED
ON/R.C
execution/R.C result.
A1751
Generated when both sides of dual Upon board deletion, reinstall that,
(BTS)
RCP(RCCA) are abnormal. ( Board or
deletion, CPU or FPGA Fail)
FAIL
LED
ON/R.C
execution/R.C result.
A1760
(BTS)
check
Check the status of BPPA by status
check command. Check BPPA Slot,
Generated when BPPA is removed
and if normal, check BackBoard Pin,
and if abnormal, replace the board.
A1770
Generated when BPPA application
(BTS)
falls into free running loop, thus
generating watchdog, and Fault address/bus error- occurs by BPPA
application
malfunction,
and
hardware is reset by Low Power
Check the status of BPPA by status
check command. Check BPPA Slot,
and if normal, check BackBoard Pin,
and if abnormal, replace the board
warning
A1800
Generated
(BTS)
reception
when
from
1pps
GPS-R
clock
fails,
or
received clock is wrong.
A1810
Generated
(BTS)
reception
when
from
10MHz
GPS-R
received clock is wrong
A1850
Clock
fails,
or
Check power, 1pps cable and UCPA
H/W.
Check
power,
10MHz
cable
and
UCPA H/W.
Generated when BTS RCMD board is Check if RCMD board is removed
SMD-011-PMA210
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STAREX-IS BSM Manual
(BTS)
A1860
(BTS)
deleted.
and mount that if removed.
Generated when CPU or FPGA Fail
occurs in RCMD board.
Check
the
following
as
to
RCMD.( check FAIL LED ON/R.C
execution/R.C result)
A2000
Generated when one side of dual PRI Check power and replace that if
(BTS)
boards of BSPB, BANB is abnormal.
A2001
Generated when both sides of dual
(BTS)
PRI boards of BSPB, BANB are
abnormal.
abnormal.
Check power and replace that if
abnormal.
A2010
Generated when one side of dual PRI Check power and replace that if
(BTS)
boards of RCCB, DBPB is abnormal.
A2011
Generated when both sides of dual
(BTS)
PRI boards of BSPU, BANU are
abnormal.
A2300
(BTS)
abnormal.
Check power and replace that if
abnormal.
Check DBPA Slot, and if normal,
Generated when DBPA is removed
check
Backboard
Pin,
and
if
abnormal, replace board.
A2310
(BTS)
Generated when DBPA is removed
or abnormal owing to other cause
A2320
(BTS)
Check DBPA Slot, and if normal,
check
Backboard
Pin,
and
if
abnormal, replace board
Check BUDA Slot, and if normal, and
Generated when BUDA is removed.
if normal, check Backboard Pin, and
if abnormal, replace board.
A2330
(BTS)
- REF(10MHz) : Check 10M Cable,
Generated
10MHz
or
PLL(IF,RF,
and if normal, replace BUDA.
7.2(DCN case)) or DC power (5Vd,
- SYNT1(RF PLL) : Replace BUDA.
+/-12Va, 5Va) fail, or reset.
- SYNT2(IF PLL) : Replace BUDA.
- SYNT3(7.2MHz) : Replace BUDA.
A2340
(BTS)
Check PACA Slot, and if normal,
PACA removal (active high).
check
Backboard
Pin,
and
if
abnormal, replace board.
A2350
- power fail : TTL
- H/W, S/W Reset : auto recovery
(BTS)
- H/W, S/W Reset
- PLL Lock Fail : Check RCCA
- PLL LOCK Fail (TTL)
- GPS 10MHz Reference Signal
Fail(TTL)
SMD-011-PMA210
status or replace board.
- GPS Signal Fail : Check PACA GPS
Input Cable.
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- shunt port open
- Aging Fail : Backboard shunt open
(enable)/Short(disable).
A2400
(BTS)
Generated +27V status is abnormal.
A2410
(BTS)
PWR_FAIL : Check up+27V status
supplied from BUS BAR.
- MS_OPEN
MS_OPEN, MAT_OPEN,
: check MS status.
- MAT_OPEN :
DPDT_OPEN or CTL_OPEN(BDCD)
check BRMD
status.
DC power (27V, +/-12V, 5V) or - DPDT_OPEN:
Reset
check DPDT
status.
- CTL_OPEN :
A2420
(BTS)
check BDCD status.
Check LICA Slot, and if normal,
LICA deletion
check
Backboard
Pin,
and
if
abnormal, replace board.
A2430
CPU
fail,
SW
reset,
(BTS)
remote reset, power fail
HW
reset,
operation/ LICA HW check
A2440
(BTS)
INIT LED red or OFF, ALPA non-
By status check command, check the
status of ARIA.
ARIA deletion (active high).
Check ARIA Slot,
and if normal, check BackBoard Pin,
and if abnormal, replace board.
A2450
When ARIA Application falls into
(BTS)
free running loop, thus generating
watchdog, and Fault -address/bus Check ARIA status and ARIA Slot,
error-
occurs
application
owing
to
malfunction,
ARIA and if normal, check Backboard Pin
and
and if abnormal, replace board.
hardware is reset by Low Power
warning
A2470
(BTS)
RUN
Power failure (active high)
LED
off,
BOTA
non-
operation/BOTA power fail message/
power cable check and BOTA HW
check
A2480
Reference signal cable open(A AND
(BTS)
B) or system clock(A AND B) or
even clock(A AND B) or 10M or
reset or PLL unlock(A or B or G) or
CPU faile
A2490
- H/W, S/W, PWR Reset : TTL High
SMD-011-PMA210
Function Fail LED red, BOTA nonoperation/
analysis
MMC
/clock
for
and
fail
cause
10M
cable
connection check, BOTA HW check
- H/W, S/W Reset : auto recovery
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(BTS)
- PLL LOCK Fail : TTL High
- PLL Lock Fail : RISA status check
or board replacement
A2491
(BTS)
Power
- Power Fail : TTL High
+12V,
-12V,
+5V,
-5V
Power Short : H/W replacement and
repair
A2500
LPA reportsd the status of insertion
Check if LPA is normally installed in
(BTS)
and deletion to combiner.
combiner.
A2510
(BTS)
DC Power off, or switch off, or
Major alarm and Disable, or H/W
reset.
A2520
(BTS)
A2530
(BTS)
Combiner DC power off or Combiner
H/W reset.
Combiner Alpha FAN fail report.
Check if LPA DC switch is ON /
check
if
DC
power
is
normally
applied while LPA is installed /
check if major alarm was generated.
Check
if
DC
is
connected
to
Combiner #N / check is H/W is
reset.
Check FAN power cable connection/
bad FAN?
FAN replacement
A2540
Generated when LPA DC power is Check if DC voltage operates within
(BTS)
unstable.
A2550
(BTS)
A2560
(BTS)
A lot of RF power reflected on LPA
output port
LPA disabled
A2570
(BTS)
operating voltage(21~30V).
Check
LPA
connection/
and
combiner
RF
check
combiner
RF
output cable connection.
Send RF enable command.
As it is generated owing to high LPA
high input power level.
RF input power level, check RF input
power level.
A2580
(BTS)
High LPA temperature.
A2590
(BTS)
Check if Shelf FAN is normal.
Drop LPA output level, and send
High input Power level.
Status request or reset command to
enable LPA.
A2600
(BTS)
- monitors status monitor line
cable open.
- connects pin assigned to internal
Check and connect cable.
Front End to GROUND.
A2610
Apply power to LNA inside of Front FEU(LNA) replacement.
SMD-011-PMA210
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(BTS)
End or detect the status of supplied
voltage
and
RF
device,
and
composite them for provision at
TTL Active High upon fail with one
pin.
A2700
Reports
(BTS)
insertion/deletion.
A2710
(BTS)
the
status
of
HPA
HPA DC power off or power failure.
Check if HPA cable is normal.
Check if HPA DC power is normally
supplied.
A2720
(BTS)
A2730
(BTS)
A2740
(BTS)
A2750
(BTS)
A lot of RF power reflected on HPA
output port.
Check
if
HPA
RF
output
cable
connection is normal / replace RF
output cable.
HPA disables.
Send HPA enable command.
Check if fan that provides ait flow to
High HPA temperature
HPA is normal.
A2760
High input Power level / disable
(BTS)
alarm
along
with
Over
Power Check if RF input power level is
warning alarm is defined as over
high, which is applied to HPA.
power alarm.
A4600
Generated if alarm cable connected
(BSC)
to CCSB, ASMB, ALSB, SLB, VCB
Shelf is deleted.
A4800
(BSC)
FAN if normal.
A5500
Generated when the other side is
(BSC)
abnormal while one side of dual
is
normal.(
replace that if normal.
Check FAN Alarm Cable, and replace
Abnormal FAN in BSC.
NCP(UCPA)
Check the status of Alarm Cable, and
Board
deletion, CPU or FPGA Fail)
Reinstall board upon deletion, or
check
FAIL
LED
ON/R.C
execution/R.C result.
A5501
Generated when both sides of dual
Reinstall board upon deletion, or
(BSC)
NCP(UCPA) are abnormal. ( Board
check FAIL LED ON/R.C
deletion, CPU or FPGA Fail)
A5510
execution/R.C result.
Generated when the other side is Reinstall board upon deletion, or
abnormal while one side of dual
SMD-011-PMA210
check
FAIL
LED
ON/R.C
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STAREX-IS BSM Manual
ALP(UCPA)
is
normal.(
Board
execution/R.C result.
deletion, CPU or FPGA Fail)
A5511
A5550
Generated when both sides of dual Reinstall board upon deletion, or
ALP(UCPA) are abnormal. ( Board
check
FAIL
LED
deletion, CPU or FPGA Fail)
execution/R.C result.
ON/R.C
Generated when the other side is
abnormal while one side of dual
- check ALMA HW status.
ALMA
- INIT LED red or OFF, ALMA
CPU
is
fail,
normal.(board
SW
reset,
deletion,
HW
reset,
non-operation / ALMA HW check
remote reset, power failure)
A5551
Generated when both sides of dual
ALMA are abnormal. (board deletion,
CPU
fail,
SW
reset,
HW
reset,
remote reset, power failure)
A5560
- Check ALMA HW status.
- INIT LED red or OFF, ALMA
non-operation/ ALMA HW check
Generated when the other side is
abnormal while one side of dual
- Check ASCA HW status.
ASCA is normal.(board deletion, CPU - INIT LED red or OFF, ASIA-E
fail, SW reset, HW reset, remote
non-operation/ Check ASCA HW.
reset, power failure)
A5561
Generated when both sides of dual
ASCA are abnormal. (board deletion,
CPU
fail,
SW
reset,
HW
reset,
remote reset, power failure)
A5700
Generated when the other side is
abnormal while one side of dual
CCP(UCPA)
is
normal.(
Board
deletion, CPU or FPGA Fail)
- Check ASCA HW status.
- INIT LED red or OFF, ASIA-E
non-operation/ ASCA HW check
Reinstall board upon deletion, or
check
FAIL
LED
ON/R.C
execution/R.C result.
A5701
Generated when both sides of dual Reinstall board upon deletion, or
(BSC)
CCP(UCPA) are abnormal. ( Board check
deletion, CPU or FPGA Fail)
Generated when the other side is
(BSC)
abnormal while one side of dual
is
normal.(
LED
ON/R.C
execution/R.C result.
A5710
CCP(UCPA)
FAIL
Reinstall board upon deletion, or
Board
deletion, CPU or FPGA Fail)
check FAIL LED ON/R.C
execution/R.C result.
A5711
Generated when both sides of dual Reinstall board upon deletion, or
(BSC)
CCP(UCPA) are abnormal. ( Board check
SMD-011-PMA210
FAIL
LED
ON/R.C
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STAREX-IS BSM Manual
deletion, CPU or FPGA Fail)
execution/R.C result.
A5720
Generated when SLMA is abnormal.
(BSC)
(board deletion, CPU fail, SW reset,
HW
reset,
remote
reset,
power
failure)
A5730
Generated
when
VCMA
is
(BSC)
abnormal. (board deletion, CPU fail,
SW reset, HW reset, remote reset,
power failure)
A5800
Generated when CCP fails to receive
(BSC)
1pps Clock from GPS-D, or the
received clock is wrong.
A5810
Generated when CCP fails to receive
(BSC)
10MHz Clock from GPS-D, or the
received clock is wrong.
- check SLMA HW status.
- INIT LED red or OFF, SLMA nonoperation/ SLMA HW check
- check VCMA HW status.
- INIT LED red or OFF, VCMA nonoperation/ VCMA HW check
Check power, 1PPS cable and UCPA
H/W.
Check
power,
10MHz
cable
and
UCPA H/W.
A6000
Generated when one side of dual PRI Check power and replace that if
(BSC)
board is abnormal.
A6001
Generated when both sides of dual Check power and replace that if
(BSC)
PRI board are abnormal.
A6010
Generated when one side of dual Check power and replace that if
(BSC)
PRI board is abnormal.
A6011
Generated when both sides of dual Check power and replace that if
(BSC)
PRI board are abnormal.
A6020
Generated when one side of dual Check power and replace that if
(BSC)
PRI board is abnormal.
A6021
Generated when both sides of dual Check power and replace that if
(BSC)
PRI board are abnormal.
A6030
(BSC)
A6040
(BSC)
When PRI board of SLB is abnormal
When PEI board of VCB is abnormal
A6220
Generated when the other side is
(BSC)
abnormal while one side of dual
abnormal.
abnormal.
abnormal.
abnormal.
abnormal.
abnormal.
Check power and replace that if
abnormal.
Check power and replace that if
abnormal.
- check ASIA HW status.
ASIA is normal.(board deletion, CPU - INIT LED red or OFF, ASIA HW
fail, SW reset, HW reset, remote
check
reset, power failure)
SMD-011-PMA210
Page:754(877)
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STAREX-IS BSM Manual
A6221
Generated when both sides of dual
(BSC)
ASIA are abnormal. (board deletion,
CPU
fail,
SW
reset,
HW
reset,
remote reset, power failure)
A6260
(BSC)
- check ASIA HW status.
- INIT LED red or OFF, ASIA HW
check
Check ATSA Slot, and if normal,
ATSA Board deletion
check
BackBoard
Pin,
and
if
abnormal, replace the board.
A6270
Generated when ATSA Application
(BSC)
falls into free running loop, thus
generating watchdog, and Fault address/bus error occurs owing to
ATSA Application malfunction, and
Although
it
attempts
recovery
automatically, replace the board if
Function Fail continuously occurs.
hardware is reset
A6280
(BSC)
Check ALPA Slot, and if normal,
ALPA Board Deletion
check
BackBoard
Pin,
and
if
abnormal, replace the board.
A6290
CPU fail, SW reset, HW reset, remote
INIT LED red or OFF, ALPA non-
(BSC)
reset, power failure
operation / ALPA HW check
A6300
By state check command, check the
(BSC)
status of STIA. Check the status of
STIA Board deletion
STIA Slot, and if normal, check
BackBoard Pin, and if abnormal,
replace the board.
A6310
Generated when STIA Application
(BSC)
falls into free running loop, thus
generating watchdog, and Fault address/bus error occurs owing to
STIA Application malfunction, and
hardware is reset
By status check command, check the
status of STIA.
recovery
is
Generally, auto
attempted,
but
if
Function Fail continues, replace the
board.
A6350
Generated subhighway cable open Check the cable, and if normal,
(BSC)
from STIA to VLIA.
A6400
(BSC)
replace STIA.
Check SLPA Slot, and if normal,
Generated if SLPA is deleted.
check
BackBoard
Pin,
and
if
abnormal, replace the board.
A6410
Generated when SLPA Application
(BSC)
falls into free running loop, thus automatically, replace the board if
SMD-011-PMA210
Although
it
attempts
recovery
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STAREX-IS BSM Manual
generating watchdog, and Fault -
Function Fail continuously occurs.
address/bus error occurs owing to
SLPA Application malfunction, and
hardware is reset
A6500
(BSC)
Check VCPA Slot, and if normal,
VCPA Board deletion
check
BackBoard
Pin,
and
if
abnormal, replace the board.
A6510
Generated when SLPA Application
(BSC)
falls into free running loop, thus
generating watchdog, and Fault address/bus error occurs owing to
SLPA Application malfunction, and
Although
it
attempts
recovery
automatically, replace the board if
Function Fail continuously occurs.
hardware is reset
A6520
(BSC)
Check VLIA Slot, and if normal,
VLIA Board deletion
check
BackBoard
Pin,
and
if
abnormal, replace the board.
A6530
Generated when VLIA Application
(BSC)
falls into free running loop, thus
generating watchdog, and Fault address/bus error occurs owing to
VLIA Application malfunction, and
Although
it
attempts
recovery
automatically, replace the board if
Function Fail continuously occurs.
hardware is reset
A6540
Generated when link fault of target
(BSC)
MSC on the link between VLIA and
MSC is detected
Check the status of the link on MSC
part and the status of trunk board.
A6541
Local Trunk Error due to Frame Check the status of VLIA kink and
(BSC)
Error, Sync Error
A6542
When more than 30 slips occur for 1
(BSC)
hour due to environmental cause Check VLIA status and if normal,
replace the board if normal.
concerning the link connected to replace the board.
MSC
A6543
When more than 288 BIT Errors
(BSC)
occur
for
hour
due
to Check VLIA status and if normal,
environmental cause concerning the replace the board.
link connected to MSC
A6610
Generated if ABID Board of CCSB Check the status of ABID BOARD,
SMD-011-PMA210
Page:756(877)
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STAREX-IS BSM Manual
(BSC)
Shelf is removed.
and
if
fault
occurs
despite
its
connection, replace ABID BOARD.
A6611
(BSC)
Generated
when
ABID
Board
of
ASMB Shelf is removed.
and
if
fault
occurs
despite
its
connection, replace ABID BOARD.
A6620
(BSC)
Check the status of ABID BOARD,
Check the status of SAID BOARD,
SAID Board of SLB Shelf is removed.
and
if
fault
occurs
despite
its
connection, replace SAID BOARD.
A6630
When
the
other
clock
recept
(BSC)
encounters a problem while one side
of clock to clock cable of dual SMP
is normally received
A6631
When
the
other
clock
recept
(BSC)
encounters a problem while one side
of clock to clock cable of dual SMP
is normally received
A6640
(BSC)
Generated when SAID Board of VCB
Shelf is deleted.
the
other
When
(BSC)
encounters a problem while one side
clock
receipt
of clock to clock cable of dual VMP
is normally received
other
A6651
When
(BSC)
encounters a problem while one side
clock
receipt
of clock to clock cable of dual VMP
is normally received
A6900
Error of E1/T1 link connected to
(BSC)
ALPA (LOSS OF SYNC, REMOTE
ALARM
INDICATION,
INDICATION
and CCP status.
cable status
If normal, replace
SMP board.
Check corresponding
and CCP status.
cable status
If normal, replace
SMP board.
Check if SAID BOARD is equipped,
and if a fault occurs despite its
connection, replace SAID BOARD.
A6650
the
Check corresponding
SIGNAL,
ALARM
OUT
OF
Check corresponding
and CCP status.
cable status
If normal, replace
SMP board.
Check corresponding
and CCP status.
cable status
If normal, replace
SMP board.
Check E1/T1 link cable and ALPA,
LICA, and if abnormal, replace that.
FRAME)
A6910
Error of STM-1 link connected to
(BSC)
ALPA (LOSS OF SYNC, REMOTE Check STM-1 link cable and ALPA,
ALARM
INDICATION,
INDICATION
SMD-011-PMA210
SIGNAL,
ALARM LICA, and if abnormal, replace that.
OUT
OF
Page:757(877)
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STAREX-IS BSM Manual
FRAME)
A7500
Generated
when
GPS-R
Control Check
(CAN)
Cable is open
A7600
Alarm cable connected to CAMB,
(CAN)
CPNB, PCFB is open or other fault
Cable,
and
if
abnormal, replace that.
occurs
A7800
(CAN)
BackBoard
Check cable status, and if normal,
replace cable.
Check FAN power status and alarm
CAN Rack FAN failure.
cable status, and if normal, replace
FAN or Cable.
A8000
(CAN)
As
Generated when the other side is
abnormal while one side of dual
GPS-R is normal.
alarms
generated
by
GPS-R
may be generated owing to board
deletion,
GPS-R
Antenna
Cable
open, OSC defect, etc., check up
that.
Replace
power
output
module.
A8001
As
alarms
(CAN)
may be generated owing to board
Generated when both sides of dual deletion,
GPS-R are abnormal.
generated
GPS-R
by
Antenna
GPS-R
Cable
open, OSC defect, etc., check up
that.
Replace
power
output
module
A8050
(CAN)
As alarms generated from GPSD may
Generated when the internal status be
generated
owing
to
GPSD
of GPSD are abnormal. Generated if
Antenna Cable open, OSC defect,
power output module is abnormal.
etc., check up that. Replace power
output module.
A8110
Generated
(CAN)
connects RAPU(Remote Alarm Panel
Unit)
to
if
RS422
AMPA
communication
Cable
is
that
open
between
them
or
is
Check if RS422 Cable is open, and if
it continues, replace cable.
impossible due to fault.
A8500
Generated when the other side is
(CAN)
abnormal while one side of dual
CNP(UCPA)
is
normal.(
deletion, CPU or FPGA Fail)
A8501
When
both
SMD-011-PMA210
sides
of
Board
Upon board deletion, reinstall the
board or if not, check FAIL LED
ON/R.C execution /R.C result.
dual Upon board deletion, reinstall the
Page:758(877)
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(CAN)
CNP(UCPA) are abnormal. ( Board
board or if not, check FAIL LED
deletion, CPU or FPGA Fail)
ON/R.C execution /R.C result.
A8550
Generated when the other side is
(CAN)
abnormal while one side of dual
- check ASCA HW status
ASCA is normal.(board deletion, CPU - INIT LED red or OFF, ASIA-E
fail, SW reset, HW reset, remote
non-operation / ASCA HW check
reset, power defect)
A8551
Generated when the other side is
(CAN)
abnormal while one side of dual
- check ASCA HW status.
ASCA is normal.(board deletion, CPU - INIT LED red or OFF, ASIA-E
fail, SW reset, HW reset, remote
non-operation / ASCA HW check
reset, power defect)
A8560
Pcgenerated when the other side is
(CAN)
abnormal while obe side of dual
FERA is normal.
Check FERA status and if normal,
replace bpard.
A8561
Generatede when both sides of dual Check FERA status and if normal,
(CAN)
FERA are abnormal.
A8570
Generated when the other side is
(CAN)
abnormal while one side of dual
ASCA
CPU
is
fail,
replace the board.
nlormal.(board
SW
reset,
- check ASCA HW status.
deletion, - INIT LED red or OFF, ASIA-E
HW
reset,
non-operation / ASCA HW check.
remote reset, power failure)
A8571
Generated when both sides of dual
(CAN)
ASCA are abnormal. (board deletion,
CPU
fail,
SW
reset,
HW
reset,
- check ASCA HW status.
- INIT LED red or OFF, ASIA-E
non-operation/ ASCA HW check.
remote reset, power failure)
A8600
Generated when the other side is
(CAN)
abnormal while one side of dual
PNP(UCPA)
is
abnormal.(
Board
deletion, CPU or FPGA Fail)
Upon board deletion, reinstall that,
or
check
FAIL
LED
ON/R.C
execution/R.C result.
A8601
Generated when both sides of dual Upon board deletion, reinstall that,
(CAN)
PNP(UCPA) are abnormal. ( Board
or
deletion, CPU or FPGA Fail)
execution/R.C result.
A8700
Controlled by communication with
If AMPA is normal, check alarm
(CAN)
AMPA in case AMPA(Remote Alarm panel
check
FAIL
status,
and
LED
if
ON/R.C
AMPA
is
Panel Unit) connected to AMPA via abnormal, immediate measure should
SMD-011-PMA210
Page:759(877)
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STAREX-IS BSM Manual
Ethernet is abnormal.
be taken.
A8710
Generated when the other side is
(CAN)
abnormal while one side of dual
PCP(UCPA)
is
normal.(
Board
deletion, CPU or FPGA Fail)
Upon board deletion, reinstall that,
or
check
FAIL
LED
ON/R.C
execution/R.C result.
A8711
Generated when both sides of dual Upon board deletion, reinstall that,
(CAN)
PCP(UCPA) are abnormal. ( Board or
deletion, CPU or FPGA Fail)
Generated when the other side is
(CAN)
abnormal while one side of dual
is
normal(
FAIL
LED
ON/R.C
execution/R.C result.
A8720
PMP(UCPA)
check
Board
deletion, CPU or FPGA Fail)
Upon board deletion, reinstall that,
or
check
FAIL
LED
ON/R.C
execution/R.C result.
A8721
Generated when both sides of dual Upon board deletion, reinstall that,
(CAN)
PMP(UCPA) are abnormal. ( Board
or
deletion, CPU or FPGA Fail)
execution/R.C result.
A8740
generated when the other side is
(CAN)
abnormal while one side of dual
check
FAIL
LED
ON/R.C
BCRA HW status checj or INIT LED
BCRA is normal.(board deletion, CPU red or OFF, BCRA non-operation/
fail, SW reset, HW reset, remote BCRA HW check
reset, power failure)
A8741
Generated when both sides of dual
(CAN)
BCRA are abnormal. (board deletion,
CPU
fail,
SW
reset,
HW
reset,
remote reset, power failure)
A8800
When PCP could not receive 1pps
(CAN)
Clock from GPS-D, or the received
clock is wrong.
A8810
When PCP could not receive 10MHz
(CAN)
Clock from GPS-D, or the received
clock is wrong.
A8820
While one side of FERA is normal,
(CAN)
there occurs a failure on the link
between FERA and FETA of the
other side.
BCRA HW status check or INIT LED
red or OFF, BCRA non-operation/
BCRA HW check
power, 1PPS cable and UCPA H/W
check
power, 10MHz cable and UCPA H/W
check
Check the link between FETA and
PDSN, and if normally connected,
replace FERA, FETA.
A8821
While one side of FERA is abnormal, Check the link between FETA and
(CAN)
there occurs a failure on the link
SMD-011-PMA210
PDSN, and if normally connected,
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between FERA and FETA of the replace FERA, FETA.
other side.
A8840
(CAN)
Failure in link between FETA and
PDSN
Check the link between FETA and
PDSN, and if normally connected,
replace FETA.
A9000
One side failure of dual PRI board of Check up power and replace that if
(CAN)
CAMB.
abnormal.
A9001
Both side failure of dual PRI board of
Check up power and replace that if
(CAN)
CAMB.
abnormal.
A9010
One side failure of dual PRI board of Check up power and replace that if
(CAN)
PCFB(PCP included Shelf).
abnormal.
A9011
Both side failure of dual PRI board of
Check up power and replace that if
(CAN)
PCFB(PCP included Shelf).
abnormal.
A9020
One side failure of dual PRI board of Check up power and replace that if
(CAN)
PCFB(PMP included Shelf).
abnormal.
A9021
Both side failure of dual PRI board of
Check up power and replace that if
(CAN)
PCFB(PMP included Shelf).
abnormal.
A9040
One side failure of dual PRI board of Check up power and replace that if
(CAN)
CPNB.
A9041
One side failure of dual PRI board of Check up power and replace that if
(CAN)
CPNB.
A9220
Generated when the other side is
(CAN)
abnormal while one side of dual
abnormal.
abnormal.
- Check ASIA HW status.
ASIA in CAMB is normal. (board - INIT LED red or OFF, ASIA HW
deletion, CPU fail, SW reset, HW
check
reset, remote reset, power failure)
A9221
Bothy sides of dual ASIA in CAMB
(CAN)
are abnormal. (board deletion, CPU
fail, SW reset, HW reset, remote
reset, power failure)
- Check ASIA HW status.
- INIT LED red or OFF, ASIA HW
check
A9230
When the other side is abnormal
(CAN)
while one side of dual ASIA is - Check ASIA HW status.
normal.(board deletion, CPU fail, SW
reset,
HW
reset,
remote
reset,
- INIT LED red or OFF, ASIA HW
check
power failure)
A9231
Both
sides
SMD-011-PMA210
of
dual
ASIA
are - Check ASIA HW status.
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(CAN)
abnormal. (board deletion, CPU fail,
SW reset, HW reset, remote reset,
- INIT LED red or OFF, ASIA HW
check
power failure)
A9240
(CAN)
AOTA Board deletion
Check AOTA HW status.
A9250
In-CAMB AOTA Board CPU fail, SW
(CAN)
reset, HW reset, remote reset, power
failure, etc.
A9260
(CAN)
INIT LED red or OFF, AOTA nonoperation/ AOTA HW check
Check ATSA Slot, and if normal,
In-CAMB ATSA Board deletion
check BackBoard Pin, and if normal,
replace the board.
A9270
When ATSA Application falls into
(CAN)
free running loop, thus generating Generally,
watchdog, and Fault, address/bus
attempted,
auto
but
if
recovery
is
Function
Fail
error occurs by ATSA Application continues, replace the board.
malfunction, and hardware is reset.
A9300
(CAN)
Check PIPA Slot, and if normal,
In-PCFB PIPA Board deletion
check
BackBoard
Pin,
and
if
abnormal, replace the board.
A9310
When PIPA Application falls into free
(CAN)
running
loop,
thus
generating Generally,
watchdog, and Fault, address/bus
auto
recovery
attempted, but if
is
Function Fail
error occurs by ATSA Application continues, replace the board.
malfunction, and hardware is reset.
A9320
(CAN)
Check FETA Slot, and if normal,
FETA Board deletion
check
BackBoard
Pin,
and
if
abnormal, replace the board.
A9330
When FETA Application falls into
(CAN)
free running loop, thus generating Generally,
watchdog, and Fault, address/bus
attempted,
auto
but
if
recovery
is
Function
Fail
error occurs by ATSA Application continues, replace the board.
malfunction, and hardware is reset.
7.1.4. Measures for Fault Message
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FAULT
F1000
Description
Generated
response
when
after
there
Measures
is
Processor
no Check
Network
Link,
and
if
Keep abnormal, check Network Card.
Alive, and link is blocked or there is
actual problem in processor.
F1110
Tx
Parity
Fault
in
CDMA
Data 1. Check BUDA contact
Combine Module.
F1170
over RCP
2. Switch
3. Replace BUDA
Channel Configuration info receipt Check BSP and network between
failure.
BSP/RCP, and if normal, switch over
or reset RCP.
F1180
Wrong Channel Configuration info
F1300
When there is an error in Even Reset
System Clock.
Switch over BSP.
CH
CARD
malfunctions
as
or
interrupt
CH
S/W
malfunctions.
F1301
Error in external system clock.
F1302
Generated
when
after
Reset Channel Card.
CHC Reset
Channel
Card,
and
if
it
activation, it can’t receive TOD info continues, check BSP status and
within 10 seconds.
F1303
IPC PATH.
No FREE_Q for message transfer Reset Channel Card.
from Channel to RCP
F1304
Generated when internal time of Reset Channel Card.
channel is different from the time
that increases by 80ms INT, and call
setup malfunctions.
F1310
Generated upon Clock Error and Reset Channel Card.
Modem Control Defect.
F1311
Wrong TOD information.
Reset Channel Card.
F1400
Generated when there is no message Reset Channel Card.
to SVC as Message Free Queue to
SVC is empty.
F1410
Generated when there is no queue Reset Channel Card.
resources to store message from
BSP or RCP.
F1420
If Tx FIFO for Traffic Channel is Reset Channel Card.
Full.
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F1510
Generated when there is no queue Reset Channel Card.
resource to store message to be
sent to BSP.
F1600
When there is no Encoder Queue Reset Channel Card.
resource.
F1610
No queue resource to store page
Reset Channel Card.
message except for General Page
message.
F1620
No queue message to generate and Reset Channel Card.
store Quick Page message.
F1630
No queue resource to store Reply Reset Channel Card.
Message when reply is required
regarding message from BSP.
F1640
As the case that Paging Channel Reset Channel Card.
prroly writes frame every 20ms, it
is generated more than 20 times
consecutively.
F1650
No queue resource to store General Reset Channel Card.
Page message from BSP.
F3000
Generated
when
there
is
no Check Network Link, and if there is
response after keeping alive the any error, check Network Card.
processor, and link is blocked or the
processor
itself
encounters
problem.
F3020
Error occurs in the course of testing Generated also if there is no None
VCE
Zero PCM Frame from TSLU. But,
as QAT_F does not conduct vocoder
test as to VOC that was once
generated, test that by giving load to
entire SVC Card.
If the problem
continues, replace VOC.
F3030
Error in the course of testing DSP
Check up Checksum, Read/Write,
Flag Set, etc.
F3040
There is error in time-slot in the As
course of testing VLIA T1/E1 Trunk.
there
is
high
possibility
of
physical problem in corresponding
trunk itself, check up trunk section
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and replace that if necessary.
F3050
If call is not connected in the course Check PLD Data and modify wrong
of call processing, this cause is DATA.
displayed.
Check Parameter DATA
error cause and value and request
the
person
in
charge
to
take
measures.
F4000
Generated
when
there
is
no Check Network Link, and if there is
response after keeping alive the any error, check Network Card..
processor, and link is blocked or the
processor
itself
encounters
when
there
problem.
F5000
Generated
is
no Check Network Link, and if there is
response after keeping alive the any error, check Network Card..
processor, and link is blocked or the
processor
itself
encounters
when
there
problem.
F6000
Generated
is
no Check Network Link, and if there is
response after keeping alive the any error, check Network Card..
processor, and link is blocked or the
processor
itself
encounters
when
there
problem.
F7000
Generated
is
no Check Network Link, and if there is
response after keeping alive the any error, check Network Card..
processor, and link is blocked or the
processor
itself
encounters
when
there
problem.
F8000
Generated
is
no Check Network Link, and if there is
response after keeping alive the any error, check Network Card.
processor, and link is blocked or the
processor
itself
encounters
when
there
problem.
F9000
Generated
is
no Check Network Link, and if there is
response after keeping alive the any error, check Network Card.
processor, and link is blocked or the
processor
itself
encounters
problem.
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7.2. Status Message Description and LIST Status
Definition and LIST
Table 7.2-1 Status Message LIST
Code
Definition
Description
S3002 CAN CNP/PNP Status Change Displayed upon processor status change
Display
S3003 AMP Status Change Display
Displayed upon processor status change
S3004 ALP Status Change Display
Displayed upon processor status change
S3005 CCP Status Change Display
Displayed upon processor status change
S3006 SMP Status Change Display
Displayed upon processor status change
S3007 VMP Status Change Display
Displayed upon processor status change
S3008 PCP Status Change Display
Displayed upon processor status change
S3009 BSC-NCP Status Change Display Displayed upon processor status change
S3010 BSP Status Change Display
Displayed upon processor status change
S3011 SCP Status Change Display
Displayed upon processor status change
S3012 BPP Status Change Display
Displayed upon processor status change
S3013 RCP Status Change Display
Displayed upon processor status change
S3017 CRP Status Change Display
Displayed upon processor status change
S3020 PMP Status Change Display
Displayed upon processor status change
S3201 CNP ASIA Status Change Display Displayed upon device status change
S3202 CNP
ASCA
Status
Change Displayed upon device status change
Display
S3205 PNP ASIA Status Change Display Displayed upon device status change
S3206 PNP
ASCA
Status
Change Displayed upon device status change
BCRA
Status
Change Displayed upon device status change
BCRA
Status
Change Displayed upon device status change
Display
S3209 PCP
Display
S3210 PMP
Display
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S3211 AMP
GPSR
Status
Change Displayed upon device status change
Display
S3220 NCP ASIA Status Change Display Displayed upon device status change
S3221
NCP ASCA Status Change
Displayed upon device status change
Display
S3222 NCP
ATSA
Status
Change Displayed upon device status change
ALMA
Status
Change Displayed upon device status change
Display
S3224 ALP
Display
S3230 BSP GPS Status Change Display Displayed upon device status change
S3501 CCP
Overload
State
Change Displayed when overload status is generated,
Display
released and changed owing to load change in
CCP
S3502 BSP
Overload
State
Change Displayed when overload status is generated,
Display
released and changed owing to load change in
BSP
Table7.2-2 Processor Status LIST
Status Type
Definition
NORM
NORMAL
ABNM
Abnormal
DCPY
Dual Copy
LDNG
StandBy Loading
NORM(OLD)
Normal (after StandBy Loading, Old version)
NORM(NEW)
Normal (after StandBy Loading, New version)
ABN_K
Abnormal with Keep Alive Fault
ABN_I
Abnormal with Process Isolation
UNDEF
Undefined Status
Table 7.2-3 Network Node Status LIST
Status Type
Definition
Description
NORM
Normal
Normal
NOR_A
Normal Act
Normal Activation (dual node)
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NOR_S
Normal Standby
Normal Standby (dual node)
ABN_D
Abnormal Deletion
Card deltion
ABN_F
Abnormal Fault
Local Fault
ABN_M
Abnormal MMC Block
Abnormal MMC block
Despite being equipped in PLD, processor in
INIT
Initial
charge of corresponding device malfunctions from
the start to the present.
AB_OB
Abnormal Online Block
N_EQP
Not Equipped
Device blocked as normal call is impossible diw
to other device fault
Card type is not defined in PLD
Table 7.2-4 Vocoder Channel Element Status LIST
Status Type
Definition
Description
IDLE
Idle
Idle
8K_Qcelp
8k Qcelp Call
8k QCELP call setup
8K_EVRC
8k EVRC Call
8k EVRC call setup
13K_Qcelp
13k Qcelp Call
13k QCELP call setup
13K_EVRC
13k EVRC Call
13k EVRC call setup
ABN_M
Abnormal MMC Block
Abnormal MMC block
UNDEF
Undefined Status
Undefined status
Table 7.2-5 Network Node Mode List
Mode Type
Definition
Description
ACT
Active
Normal (ACT LED ON)
SBY
StandBy
Normal (ACT LED OFF)
Table7.2-6 DEVICE Status List
Status Tyoe
Definition
NORM
Normal
ABN_D
Abnormal Deletion
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ABN_F
Abnormal Fault
(Test: As a result of DSP Chip Hardware test, NOK)
ABN_M
Abnormal MMC Block
INIT
Initial
AB_OB
Abnormal Online Block
IDLE
Idle (CE, VCE)
BUSY
Busy (CE, VCE)
N_EQP
Not Equipped in PLD
READY
Device mounted although not defined in PLD
UNDEF
Undefined status
ABN_I
H/W Reset isolation
ABN_B
On-demand BER Test status
NOR_PB
Status until call is disconnected if there is a call when blocking CHC, Chip,
Status until call is terminated for vocoder test
REDNCY
Standby side Redundancy (FETA Only)
CB_OPN
Faulty Cable Open
CLK_F
As a result of Timing-Module test, NOK (Test Only)
TSW_F
As a result of TSLU Loopback test, NOK (Test Only)
ABN_AT
Auto test of vocoder (Online) (Test Only)
ABN_MT
Manual test of vocoder (Ondemand) (Test Only)
QAT0_F
As a result of QCELP Algorithm test, NOK in State0 (Test Only)
QAT1_F
As a result of QCELP Algorithm test, NOK in State1 (Test Only)
QAT2_F
As a result of QCELP Algorithm test, NOK in State2 (Test Only)
QAT3_F
As a result of QCELP Algorithm test, NOK in State3 (Test Only)
VPLB_F
As a result of VCPA Loopback test result, NOK (Test Only)
VMLB_F
As a result of VCMA Loopback test result, NOK (Test Only)
VLLB_F
As a result of VLIA Loopback test, NOK (Test Only)
7.3. DCI Debugger Command
7.3.1. Tx/Rx Message Trace Function
This function includes asf, arf command, etc.
asf command trances message from BSM
to lower processor, and arf command traces message from lower processor to BSM.
7.3.1.1. asf Command
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7.3.1.1.1. Input
asf [all/off] : If a factor is not set in asf command, or as a factor, all is set,
it can trace all messages from BSM.
It can stop Tx message trace set to asf off
command.
asf sigid [dstaddr] : It can be used to trace only Tx message to specific IP or
specific signal ID value without tracing all messages.
To trace specific signal ID
to all targets, it is used in the form of asf sigid, and to trace specific signal ID
to specific target, it can be used in the form of asf sigid dstaddr.
Here, dstaddr
can set a factor in the form of hexadecimal 32bit-word value or dotted-decimal.
asf ffff dstaddr : It can be used to trace all signals to specific IP. Likewise, IP
address is set in the form of 32bit-word or dotted-decimal.
7.3.1.1.2. Output
Message traced by asf command has the following output format.
The output contents
are message Tx time and message header information.
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Message Tx time
=> ASF(qid:5101) at Fri Feb
Msg_flag
[0xF634]
2 10:40:25 2001
Msg_len
[0028]
Message
length
Src_IP
[0x1DC00001]
Src_TID
[000682]
Remain_conn [FALSE ]
Dest_IP [0x11400101]
Dest_TID [000000]
Sig_id
Dest(target)
IP & Task ID
[0x0A66]
signal ID
Remain_time [00 sec]
Src(BSM) IP and Task ID
7.3.1.2. arf Command
7.3.1.2.1. Input
arf [all/off] : This can trace all messages received to BSM if a factor is not set
in arf command, or all is set as factor.
IT can stop tracing Rx message set as arf
off command.
arf sigid [srcaddr] : Without tracing all messages, this can be used only to trace
specific signal ID value or Rx message from specific IP.
To trace specific signal
ID from all targets, it is ued in the form of arf sigid, and to trace specific
signal ID from specific target, it can be used in the form of arf sigid srcaddr.
Here,
srcaddr can set a factor in the form of hexademical 32bit-word value or
dotted-decimal.
asf ffff srcaddr : This is to trace all signals from specific IP. Likewise, IP
address is set in the form of 32bit-word or dotted-decimal.
7.3.1.2.2. Output
Message traced by arf command has the following output format.
The output contents
are message Tx time and message header information.
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Info on App to receive message
Message Rx time
=> ARF[0x0A65](qid:5105/pid:670) at Fri Feb
Msg_flag
Src_IP
[0xF634]
2 10:40:25 2001
Msg_len [0225]
[0x11400201]
Message length
Dest_IP
[0x1DC00001]
Dest_TID [000000]
IP &
Dest(BSM)
Src_TID
[000074]
Task ID
Remain_conn [FALSE ]
Sig_id
[0x0A65]
Signal ID
Remain_time [00 sec]
Src(Target) IP & Task ID
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7.3.2. Function to test Function
This function includes sis and ipclog console command.
sis command is to send IPC
signal message for test to message queue, and ipclog command is to send test message
to monitor the status of slave processor.
7.3.2.1. sis Command
7.3.2.1.1. Input
If simply inputting sis, the following question is displayed:
Message queue key? (HEX) 20B
key value of message queue to store message
Message type? (DECIMAL) 1920
message type: Sets task ID(or process ID) of
processor to receive message.
Source IP address? (HEX or DOTTED-DECIMAL) 11400201
message header Src IP value
Source Task ID? (DECIMAL) 82
message header Src TID value
Destination IP address? (HEX or DOTTED-DECIMAL) 1DC00001
message header Dest IP value
Destination Task ID? (DECIMAL) 1920
message header Dest TID value
Signal ID? (HEX) A30
message header signal ID value
Body Length? (DECIMAL) 8
test message body length
Body Message? (8 HEX's) 01 23 45 67 89 AB CD EF
test message body
To avoid the above procedure, you can set the following factor:
sis [Qkey Mtype SrcIP SrcTID DstIP DstTID SigID BodyLen Msg]
To create test message the same as the above example, you can enter the following:
sis 20B 1920 11400201 82 1DC00001 1920 A30 8 "01 23 45 67 89 AB CD EF”
7.3.2.1.2. Output
Display of this command is to display the status of messsssage sending to message
queue.
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COMPLETED! (sis)
ERROR! sending IPC message... (sis)
7.3.2.2. ipclog Command
7.3.2.2.1. Input
Enter ipclog in DCI console to display a window for ping test on target.
To adjust
$DISPLAY environmental variable, use display command(see 5.5).
Figure 7.3-1 IP Input Request Window in DCI Window
Factors to enter are as follows:
Target IP?(HEX or DOTTED-DECIMAL) 11400201
IP address of target to send test
message
Target=17.64.2.1
Packet Size?(byte) 512
test message byte number
Test count? 20
test message count to send
Test interval?(usec) 10
interval to send test message
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7.3.2.2.2. Output
The result of test message sending is as follows:
### RESULT ###
====================================
TargetIP
SEND
RECV
CORRUPT
-----------------------------------11400201
0020
0016
0001
====================================
message number with
broken contents
message number with test message received
target address sent
number of messasges sent
7.3.3. Status Display Funciton
This function includes ipcs, isig, status, rsock, ssock, etc.
ipcs command is to
display the status of current IPC message queue in window, and isig command is to
display the contents of link table in window, and status displays the status of DCI
console in window.
rsock command displays the status of socket connection for
message receipt in window.
for message sending.
ssock command displays the status of socket connection
ssock command displays only the status of the connection to
use connection maintenance function.
7.3.3.1. ipcs Command
7.3.3.1.1. Input
ipcs command is to be unput with only ipcs without factor.
7.3.3.1.2. Output
ipcs command is displayed in window as follows:
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### IPC Status Information ###
TX Errors
RX Errors
txerr_msgq: 000000
rxerr_msgq: 000000
txerr_leng: 000000
rxerr_leng: 000000
txerr_sock: 000028
rxerr_sock: 000000
message Tx
related
message Rx
rxerr_udst: 000032
related accumulated
accumulated---------------------------------------------------
error
number
error number QKEY
QID
CBYTES
QNUM
FLUSH
RLOST
--------------------------------------------------0200
00000800
00000000
000000
000000
000000
0201
00000001
00000120
000002
000000
000000
0202
00000002
00000080
000001
000000
000000
…
…
…
…
…
…
0209
00000009
00000322
000002
000001
000000
020A
00000010
00000000
000000
000000
000000
020B
00000011
00000000
000000
000000
000000
020C
00000012
00000000
000000
000000
000000
020D
00000013
00000000
000000
000000
000000
020E 00000014 00000000 000000 000000 000000
lost message
number
queue-key
queue-id
in-queue
in-queue
message
message number
queue flush count
byte number
7.3.3.2. isig Command
7.3.3.2.1. Input
isig command is to be entered only with isig without factor.
7.3.3.2.2. Output
Te result of isig command output is as follows:
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queue key
### Initial Signal ID Information ###
[#2561] SID(0x0A01) / QKey(0x020D) / PID(00779)
signal ID
[#2562] SID(0x0A02) / QKey(0x020D) / PID(00779)
application
to receive corresponding signal [#2563] SID(0x0A03) / QKey(0x020D) / PID(00779)
[#2573] SID(0x0A0D) / QKey(0x020D) / PID(00779)
process id
[#2656] SID(0x0A60) / QKey(0x0205) / PID(00787)
…
…
…
…
[#2690] SID(0x0A82) / QKey(0x0207) / PID(00792)
[#2691] SID(0x0A83) / QKey(0x0208) / PID(00798)
[#2705] SID(0x0A91) / QKey(0x0209) / PID(00829)
[#2707] SID(0x0A93) / QKey(0x0209) / PID(00829)
7.3.3.3. status command
7.3.3.3.1. Input
Only status is input without factor.
7.3.3.3.2. Output
Output type of status command is as follows:
Debug flag
For developer only
log flag
eprt flag
status(see 5.2)
status(see 5.3)
### DCI Console Status ###
PRINTF flag [OFF]
LOG flag [ON ]
ASF flag [ON ]
ASF SIGID [ALL ]
ARF flag [ON ]
ARF SIGID [0A00]
EPRT flag [ON ]
ASF DST.IP [ALL
asf flag
ARF SRC.IP [11400101]
state(see
2.1)
arf flag state(see 2.2)
7.3.3.4. rsock command
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7.3.3.4.1. input
Withput factor, rsock should be input.
7.3.3.4.2. Output
The output of rsock command is reported in the following format.
### RECEIVE SOCKET TABLE ###
[0]
FD[4]
IP[11400201]
READY[0]
CREAT[02-26 12:06:11]
[1]
FD[6]
IP[12400501]
READY[1]
CREAT[02-26 11:03:23]
[2]
FD[7]
IP[11400101]
READY[0]
CREAT[02-26 11:22:13]
…
socket
target
receipt message
descriptor
IP address
connection creation
time
waiting status
7.3.3.5. ssock command
7.3.3.5.1. Input
Only ssock should be input withput factor.
7.3.3.5.2. Output
The output of ssock command is reported in the following format:
### SEND SOCKET TABLE ###
[0]
FD[3]
IP[11400201]
CREAT[02-26 12:06:11]
FINISH[02-26 12:06:28]
[1]
FD[4]
IP[11400101]
CREAT[02-26 12:06:15]
FINISH[02-26 12:06:32]
…
socket
target
descriptor
SMD-011-PMA210
IP address
connection creation time
connection end
time expected
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7.3.4. Other Supplementary Function
ls command can display available command list in window.
log command is used to
switch on and off the function to store event generated from DCI console and DCI in
log file, and eprt command is used to switch on and off the function to display
error generated from DCI in window. History related command is used for convenience
in the case of repeatedly executing the previous command in DCI console.
display
command can be used to change $DISPLAY environmental variable necessary for ipclog
window display.
7.3.4.1. ls command
ls command is used to display the list of commands acailable in current DCI console
in window.
7.3.4.2. log command
log command can adjust save of DCI related log file.
The usage of log command can
be done in the format of log [on/off], and the status
of current log flag can be
checked by status command.
The location for log file save is $EXECPATH/DCI_LOGS/dci.logdd, and (dd being
current date), log file is stored for one month from the record date.
7.3.4.3. eprt command
eprt command can adjust the status of whether to display various error messages
generated from DCI in window, and default is on state.
The usage of eprt command
can be done in the format of eprt [on/off], and the status of current eprt flag can
be checked by status command.
7.3.4.4. history, !!, !n command
By history command, you can check the list of commands that have been used for 10
times, and by !!, !n command, you can repeat the previous command.
History related commands can be used as follows:
SMD-011-PMA210
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DCI_CON>> history
### Command History ###
9 :
8 : ls
7 : asf a01
6 : arf a03 11400101
5 : arf off
4 : rsock
3 : ipclog
2 : isig
1 : status
0 : ls
DCI_CON>> !2
isig
### Initial Signal ID Information ###
[#2690] SID(0x0A82) / QKey(0x0207) / PID(00792)
[#2691] SID(0x0A83) / QKey(0x0208) / PID(00798)
…
7.3.4.5. display command
By display command, you can change the address to display ipclog window. When using
DCI console for remote host other than workstation that activates BSM, upon use of
ipclog, you should use display command in advance to change the value of $DISPLAY
environmental variable.
Set IP address of the host for display in the form of
display 150.150.62.71.
SMD-011-PMA210
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7.4. Statistic Message
7.4.1. Traffic Related
7.4.1.1. Traffic Statistics by Service Option
7.4.1.1.1. SERVICE OPTION
Table 7.4-1 IS-2000 Service Option Type
VOICE
Basic Variable Rate (8K Voice)
VARI_VOICE
Enhanced Variable Rate (8K Voice)
ASYNC
Asyncronous Data (9.6 Kbps) : To provide Dial Up MODEM function, it provides AT command,
and subscriber can use this for end-to-end communication or access public data network.
G3FAX
Group 3 Facsimile (9.6 Kbps) : By adding the function to process extension AT command for
FAX to Dial Up MODEM, subscriber with FAX can use FAX accommodated in PSTN.
SMS
Short Message (Rate Set 1) : Service to exchange SMS between external device and PCS
network or MS and Network
PPP_PKT
PPP protocol Stack is mounted on Packet Data (Internet/ISO Protocol Stack), MS and IWF.
Point-to-Point Packet Data Service
13K_ASYNC
Asyncronous Data (14.4 Kbps)
13K_G3FAX
Group 3 Facsimile (14.4 Kbps)
13K_SMS
Short Message (Rate Set 2)
13K_VOICE
PKT_TYPE1_22
13K VOICE (IS-96)
High Speed Packet Data Service - Internet or IOS Protocol Stack (RS1 forward, RS1 reverse) :
IS-707A
PKT_TYPE2_25
High Speed Packet Data Service - Internet or IOS Protocol Stack (RS2 forward, RS2 reverse) :
IS-707A
144K Packet Data
144kbps Packet Data, Internet or IOS Protocol Stack : IS-707A
SMD-011-PMA210
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7.4.1.1.2. ORIGINATION
Table 7.4-2
Origination Call Traffic Statistics
Statistic ITEM
Cause
ATTEMPT
Origination attempt count
SEIZURE
Count of all procedure completion related to cal between MS-CE-SVC
CALL_DROP
TRAFFIC
Call DROP count
Origination call erlang
AVG_HOLD
Average call holding time of origination call
NOR_REL
Release by user, release by MS power down
BAD_FR
MS_SLP_TO
ACQFAIL
TCE_SLP_TO
SO_REJ
Release owing to electronic wave environment defect before normal call
Release owing to control message switch failure between MS and SLP
Count of CE having failed in obtaining MS preamble
TimeSync message switch failure between CE and SLP
Call release owing to service processing impossible of MS
VOC_ERR
After vocoder assignment by CCP, call release owing to error in the course of vocoder initialization
TC_FAIL
TCE assignment impossible owing to no TCE to assign or channel for handoff only residing, and
no code channel for TC assignment
TC_UNAV
TC_PWR_FAIL
VOC_UNA
Abnormal TC assigned
No spare TC TOTAL POWER
No vocoder
CCP_SMP_TO
No response after CCP sends call setup message to SMP ( 10 seconds )
CCP_VMP_TO
Timeout between CCP-VMP
CCP_NCP_TO
Timeout between CCP-VMP
NETWORK_FAIL
TRM_REL
Normal release from MSC
BSP_REJ
TC assignment rejected, BTS rejection to calls connected owing to abnormal call
SCCP_FAIL
SCCP connection setup failure between BSC-MSC or call setup failure owing to abnormal SCCP
Connection release
CCP_PCP_TO
Timeout between CCP-PCP(PCF)
PCP_FAIL
Call setup failure owint to internal PCF error
SEL_ERR
Call setup failure owint to internal selector error
SEL_UNA
No selector available
SMD-011-PMA210
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7.4.1.1.3. TERMINATION
Table 7.4-3
Termination Call Traffic Statistics
Statistic ITEM
Cause
ATTEMPT
Paging response count
SEIZURE
Count of all procedure completion related to cal between MS-CE-SVC
ALERT
ANSWER
CALL_DROP
TRAFFIC
AVG_HOLD
After TC_Link completion, the count that MSC ordered Ring on to termination MS
Call access count with termination response
Call DROP count ( Bad frame included )
Termination call erlang
Average call holding time
TRM_REL
Release by user, release by MS power down
BAD_FR
Release owing to electronic wave environment defect before normal call
MS_SLP_TO
ACQFAIL
TCE_SLP_TO
SO_REJ
Release owing to control message switch failure between MS and SLP
Count of CE having failed in obtaining MS preamble
TimeSync message switch failure between CE and SLP
Call release owing to service processing impossible of MS
VOC_ERR
After vocoder assignment by CCP, call release owing to error in the course of vocoder initialization
TC_FAIL
TCE assignment impossible owing to no TCE to assign or channel for handoff only residing, and
no code channel for TC assignment
TC_UNAV
TC_PWR_FAIL
VOC_UNA
Abnormal TC assigned
No spare TC TOTAL POWER
No vocoder
CCP_SMP_TO
No response after CCP sends call setup message to SMP ( 10 seconds )
CCP_VMP_TO
Timeout between CCP-VMP
CCP_NCP_TO
Timeout between CCP-VMP
NETWORK_FAIL
ORG_REL
Normal release from MSC
BSP_REJ
TC assignment rejected, BTS rejection to calls connected owing to abnormal call
SCCP_FAIL
SCCP connection setup failure between BSC-MSC or call setup failure owing to abnormal SCCP
Connection release
CCP_PCP_TO
Timeout between CCP-PCP(PCF)
PCP_FAIL
Call setup failure owint to internal PCF error
SEL_ERR
Call setup failure owint to internal selector error
SMD-011-PMA210
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SEL_UNA
No selector available
7.4.2. Handoff Statistic Function
7.4.2.1. Handoff Statistic Type
Table 7.4-4 Handoff Statistic Type
ITEM
Description
Softer Handoff
Softer ADD handoff
Soft
Intra BSC Soft Handoff
Soft ADD handoff
Inter BSC Soft Handoff
Soft ADD handoff between other BSCs
Intra Cell Hard Handoff
Hard handoff by frequency change
Intra BSC FR Hard Handoff
Intra-BSC Hard handoff by frequency change
Intra BSC FO Hard Handoff
Hard handoff by frame offset change
Inter BSC FR Hard Handoff
Hard handoff by frequency change
Inter BSC FO Hard Handoff
Hard handoff by frame offset change between other BSCs
Handoff
Hard
Handoff
Inter-RC Hard Handoff
7.4.2.2. Hand off Statistic Collection ITEM
Table 7.4-5
Handoff Statistic Collection ITEM
Item
Cause
ATTEMPT
Handoff count
SUCCESS
Success count
NETWORK_FAIL
TC_UNAV
TC_FAIL
BSP_CAPA_FAIL
BSP_REJ
A3_CONN_FAIL
FO_UNAV
CAI_TO
ATM Connection Fail
NO_CDMA_AVAIL, NO_CODE_CH, NO_FRAME_OFFSET, NO_TC_AVAIL received from BSP
TX_ON_TIMEOUT received from BSP
TC_PWR_ALLOC_ERR, EXCESS_CAPACITY_UNAVAIL
Value other than TC_UNAV, TC_FAIL, BSP_CAPA_FAIL
A3 Connection Fail
For FO Hard Handoff, unavailable to assign changed frame offset to SLP
CAI Message Timeout ( i.e. HDM ACK timeout, HCM MSG Timeout )
CCP_NCP_TO
Timeout between CCP and NCP
CCP_BSP_TO
Timeout between CCP and BSP
CCP_SMP_TO
Timeout between CCP and SMP
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INTER_CCP_TO
OTHER_FAIL
Timeout between Source CCP and Target CCP
Fail other than #2 ~ 14
7.4.3. Call Related Statistic Function
7.4.3.1. Channel Element Statistics
Table 7.4-6
Channel Element Statistics
ITEM
DESCRIPTION
tc_att
Traffic Channel Assignment Count
tc_suc
Traffic Channel Assignment Success Count
tc_hold
Traffic Channel Assignment Success and total seizure time of used tc resource
ho_att
Handoff Channel assignment count
ho_suc
Handoff Channel assignment success count
ho_hold
Handoff Channel assignment success and total seizure time of used tc resource
7.4.3.2. Vocoder Statistics
Table 7.4-7
Vocoder Statistics
ITEM
DESCRIPTION
NUM_SEIZURES
Total seizure call count
TOTAL_DURATION
Total seizure time (second)
SMD-011-PMA210
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7.4.3.3. Network Link Statistics
7.4.3.3.1. (ALPA,LICA,ASCA,ASIA)
Table 7.4-8
ATM Network Statistics (LINK/PORT statistics)
ITEM
DESCRIPTION
Rx_cnt
Cell Counter received from Link
Tx_cnt
Cell Counter sent from Link
7.4.3.3.2. BSC-MSC Trunk Statistics
Table 7.4-9
Trunk Statistic Item between MSC-BSC
ITEM
DESCRIPTION
NORMAL TIME
REMOTE ABNORMAL TIME
LOCAL ABNORMAL TIME
SLIP ABNORMAL TIME
BIT ERROR ABNORMAL TIME
Normal T1/E1 Trunk time (sec)
Abnormal MSC time (sec)
Abnormal T1/E1 Trunk itself duw to Frame Error, Sync. Error (sec)
SLIP time due to environmental cause of link connected to MSC (sec)
AIS(Alarm Indication Signal) – E1 : When alarm with All 1’s Condition (all receipt
data are 1) is detected for more than 100ms, T1 : when alaem with All ‘s Condition
is detected for more than 60ms
RED Alarm – E1 : Out of Frame(Incorrect Frameing Format) for more than 100ms,
T1 : Out of Frame(Incorrect Framing Format) for more than 40ms
OTHER ABNORMAL TIME
Abnormal time other than the above item (sec)
7.4.3.4. Radio Channel Quality Statistics
Table 7.4-10
Radio Channel Quality Statistic Item
ITEM
DESCRIPTION
rx_fr_cnt
Number of frame from MS by CE
tx_fr_cnt
Number of frame that CE sent to MS
fr_err_cnt
Packet error count from MS
fr_miss_cnt
SMD-011-PMA210
Error count that CE count not send, to MS, packet
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7.4.3.5. Processor Statistics
Table 7.4-11
Processor Statistic Item
ITEM
DESCRIPTION
CPU Load : xx.xx * 100
CPU_IDLE
SEND_IPC_NUM
Total IPC Send Number
RECEIVE_IPC_NUM
Total IPC Receive Number
SEND_AVERAGE_LENGTH
Average Send IPC Length
RECEIVE_AVERGAE_LENGTH
Average Receive IPC Length
7.4.3.6. Selector Statistics
Table 7.4-12
Selector Statistic Item
ITEM
DESCRIPTION
NUM_SEIZURES
Number of total seizure calls
TOTAL_DURATION
Total seizure time (seconds)
NUM_BIT_ERRS
Reverse FCH CRC error frame number
NUM_ERASURES
Reverse FCH Bad frame number
FORWARD_SCH_DURATION
Forward SCH seizure time (second)
REVERSE_SCH_DURATION
Reverse SCH seizure time (sec)
AVERAGE_FORWARD_SCH_RATE
Seized forward SCH’s average rate (OOXX º OO.XX)
AVERAGE_REVERSE_SCH_RATE
Seized reverse SCH’s average rate (OOXX º OO.XX)
7.4.3.7. BTS Performance Statistics (Call Delay Statistics)
Table 7.4-13
ITEM
BTS Performance Statistics (Call Delay Statistics) Item
DESCRIPTION
Origination Call Statistics
ms_500_under
Under 500ms, origination call setup count
ms_500
Under 600ms, origination call setup count
ms_600
Under 700ms, origination call setup count
ms_700
Under 800ms, origination call setup count
ms_800
Under 900ms, origination call setup count
ms_900
Under 1000ms, origination call setup count
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ms_1000
ms_1100_over
Under 1100ms, origination call setup count
Over 1100ms, origination call setup count
s_3_under
Under 3SEC, termination call setup count
s_3
Under 4SEC, termination call setup count
s_40
Under 4.5 SEC, termiknation call setup count
s_45
Under 5SEC, termination call setup
s_5
Under 6SEC, termination call setup count
s_6
Under 7SEC, termination call setup count
s_7
Under 8SEC, termination call setup count
s_8_over
Over 8SEC, termination call setup count
7.4.3.8. Paging Statristics
Table 7.4-14
Paging Statistics Item
ITEM
DESCRIPTION
page_cnt(1,2)
1st, 2nd paging attempt count
rsps_cnt(1,2)
Response count
pc_unav(1,2)
Failure count owing to pc unavailable
tc_unav(1,2)
Failure count owing to TC unavailable
page_tmo(1,2)
sys_fail(1,2)
Paging Time-out count
Failure count by other reason
7.4.3.9. CAI Signaling Statistics
Table 7.4-15
CAI Signaling Statistics Item
ITEM
DESCRIPTION
Access Channel related
msg_cnt
Message count received to access channel
orig_cnt
MS Call Origination message count
reg_cnt
Location registration count
order_cnt
Count that MS transmitted order message to BTS via access channel
page_rsps
MS answer count
data_burst
Count that BTS received Data Burst message
Paging Channel reloated
msg_cnt
paging
SMD-011-PMA210
Message count transmitted to paging channel
Subscriber pure paging
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order
Count of having sent various messages to MS through paging channel
ch_asign
Count of having sent information of forward call channel to MS
data_burst
Count of having sent data BURST message
ser_redir
Count of having sent Service Redirection message
7.4.3.10. NO.7Statistics
Table 7.4-16
NO7 Statistic Item
ITEM
Description
MTP related
SL_NO
Signaling Link Number
LOSS MSG
Missed MSU count
ERR_MSG
number of Signal Unit in error
NACK_NO
number of negative ack. Received
RTX_OCT
Number of MSU octets retransmitted
TX_MSG
Tx MSU number
RX_MSG
Rx MSU number
TX_OCT
Tx MSU octet
RX_OCT
Rx MSU octet
SCCP related
TX_UDTS
Tx UDT number
RX_UDTS
Rx UDT number
TX_DTL
Tx DT1 number
RX_DTL
Rx DT1 number
SCCP_CONN
connection count
SCCP_REL
connection release count
CONN_FAIL
connection refused count
7.4.3.11. RTD Statistics
ITEM
Description
Origination/termination identical
200
0 ~ 200 M
400
200 ~ 400 M
600
500 ~ 600 M
800
600 ~ 800 M
1.0 K
800 M ~ 1.0 Km
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1.2 K
1.0 ~ 1.2 Km
1.4 K
1.2 ~ 1.4 Km
1.6 K
1.4 ~ 1.6 Km
1.8 K
1.6 ~ 1.8 Km
2.0 K
1.8 ~ 2.0 Km
2.5 K
2.0 ~ 2.5 Km
3.0 K
2.5 ~ 3.0 Km
3.5 K
3.0 ~ 3.5 Km
4.0 K
3.5 ~ 4.0 Km
5.0 K
4.0 ~ 5.0 Km
6.0 K
5.0 ~ 6.0 Km
7.0 K
6.0 ~ 7.0 Km
8.0 K
7.0 ~ 8.0 Km
9.0 K
8.0 ~ 9.0 Km
10.0K
9.0 ~ 10.0 Km
OVER_10K
10.0 Km or above
7.4.3.12. RF MIN/MAX Statistics
Table 7.4-17
RF MIN-MAX Statistic Item
ITEM
Description
TX_MIN
Minimum Tx RF value(unit:W)
TX_MAX
Maximum Tx RF value(unit:W)
7.4.4. Packet
7.4.4.1. Packet Data
Table 7.4-18
Packet Data Statistic Item
ITEM
PKT_SUCCESS_CNT
DESCRIPTION
Active Packet Call Success Count
RN_SDB_ATTEMPT
SDB attempt count
RN_SDB_SUCCESS
SDB success count
PDSN_SDB_ATTEMPT
SDB attempt count
PDSN_SDB_SUCCESS
SDB success count from CCP
TOTAL_SDB_FORWARD_KByte
SMD-011-PMA210
Total bytes of SDB from PDSN to MS in dormant state
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TOTAL_SDB_FORWARD_Byte
TOTAL_SDB_REVERSE_KByte
Total bytes of SDB from MS to PDSN in dormant state
TOTAL_SDB_REVERSE_Byte
TOTAL_ACT_FORWARD_KByte
Total bytes of packet from PDSN to SLP in active state
TOTAL_ACT_FORWARD_Byte
TOTAL_ACT_REVERSE_KByte
Total bytes of packet from SLP to PDSN in active state
TOTAL_ACT_REVERSE_Byte
7.4.4.2. Packet Control
Table 7.4-19
Packet Control Statistic Item
ITEM
DESCRIPTION
PKT_ATTEMPT
Packet call origination attempt count
PKT_SUCCESS
Packet call success count (PIP, ATM resource assignment, R-P setup success)
DORMANT_ATTEMPT
dormant state transition attempt count by system / MS request
DORMANT_SUCCESS
Dormant state transition success count
PKT_PAGING_ATTEMPT
Paging request count from PDSN to MS
PKT_PAGING_FAIL_CNT
Packet Paging failure count
ACTIVE_ATTEMPT
Active state transition attempt count
ACTIVE_SUCCESS
Active state transition success count
A10_CONNECTION_REJECT_CNT
DCR_FAIL_CNT
Call setup failure count due to A10 connection setup failure
Call setup failure count due to initialization error of PIP DCR instance
PDSN_RELEASE_CNT
RN_RELEASE_CNT
Call release attempt count by PDSN
Call release attempt count by BSC/BTS/MS request
Total time from call setup attempt point to call release point (10msec)
TOTAL_PKT_TIME
(average time = Total Duration/ pkt_succ: all successful call’s Active + Dormant
Duration )
Total time in Active state (10msec)
TOTAL_ACT_TIME
(average time = Total Active Duration/pkt_succ: Total Active Duration only
calculates duration in Active state)
Total time in Dormant state (10msec) (average time = Total Dormant
TOTAL_DOR_TIME
Duration/Pkt_succ)
7.4.4.3. Packet Handoff
Table 7.4-20
SMD-011-PMA210
Packet Handoff Statistic Item
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ITEM
Dormant_HO_Cnt
DESCRIPTION
Dormant HO count
Serving_PCF_HO_Cnt
Serving PCF HO count
Target_PCF_HO_Cnt
Target PCF HO count
HO_FAIL_CNT
SMD-011-PMA210
HO failure count
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7.5. PLD Data Structure
7.5.1. BSM layer
7.5.1.1. St_Bsm_Cfg.dg
Table 7.5-1 St_Bsm_Cfg
Data Type
N a m e
default
byte
ccp_id
0 ~ 12
byte
bts_eqp[MAX_BTS]
Remarks
Current BTS equip
( 0: Not_equip
byte
smp_eqp[MAX_SMP]
1 : Equip )
Current SMP equip
( 0: Not_equip
byte
vmp_eqp[MAX_VMP]
byte
msc_id
0 ~ 255
MSC Identification
byte
pcf_equ[MAX_PCF]
0 ~ 255
CAN PCF equip
(0:Not_equip
1 : Equip )
1 : Equip)
MAX_PCF : 3
ccp_id=0 is only valid.
byte
reserved_byte[35]
7.5.2. CNP ONLY
7.5.2.1. St_re_can_node.dg
Table 7.5-2 t_re_can_node
Type
N a m e
default
Remarks
byte
card_id
key
full equip (MAX_ATM_CARD:5)
byte
link_id
key
full equip (MAX_ATM_LINK:32)
byte
equip
Depending on the below Node Config, Equip Node
status 1:Equip, 0:Not Equip
byte
link_type
ATM Link Type STM-1,STM-4,Cell Bus
(LINK_TYPE_NONE(0),LINK_TYPE_STM1(1),LINK_TYPE_STM
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12(2),
LINK_TYPE_STM14(3),
LINK_TYPE_E1(4),
LINK_TYPE_T1(5))
byte
link_status
ATM Link Acktivity
Init/Active/Block
(LINK_STS_NONE(0), LINK_STS_ACTIVE(1),
LINK_STS_ONL_BLOCK(2), LINK_STS_MMC_BLOCK(3))
byte
connect_type
Node
Connection
ID:
End-User’s
own
ID
(see
Appendix Connection ID)
byte
fabric_no
Switch Fabric No.
(0: ASCA APC0,1: ASIA0 APC0,2: ASIA0 APC1,
3: ASIA1 APC0, 4: ASIA1 APC1, 5: ASIA2 APC0,
6: ASIA2 APC1, 7: ASIA3 APC0, 8: ASIA3 APC1)
byte
reserved[7]
7.5.2.2. St_re_can_addr.dg
Table 7.5-3 St_re_can_addr
Type
N a m e
Default
Remarks
byte
shelf_id
key
full equip (MAX_CAN_SHELF: 4)
byte
slot_id
key
full equip (MAX_CAN_SLOT: 22)
byte
equip
‘0’
byte
bd_type
PBA’s own number (not yet set)
byte
no_sub
Sub
Processor
Number
in
case
of
Sub
processor had IP
byte
reserved
word32
addr[MAX_SUB]
MAX_SUB: 8
7.5.2.3. St_re_can_pvc.dg
Table 7.5-4 St_re_can_pvc
Type
N a m e
Default
byte
dummy
key
word16
no_entry
Remarks
# of Valid Entries, number of defined PVC
information (~4096)
word16
reserved
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byte
equipage[4096]
byte
node_a[4096]
Peer1 connection ID
byte
sub_a[4096]
Peer1 Logical Info
byte
node_b[4096]
Peer2 Connection ID
byte
sub_b[4096]
Peer2 Logical info
byte
no_vc[4096]
Number of VC to be used between Allocated
VC Number Peers
byte
link_type[4096]
Link Usage AAL1/2/5, Test
(LINK_AAL2(0), LINK_AAL5(1), LINK_TEST(2))
word16
link_bw[4096]
0x100
VC Link Bandwidth (Cell Bandwidth(~0x40) to
be assigned to Link)
word32
vpci_a[4096]
Peer1 VPI/VCI(Ingress VPCI)
word32
vpci_b[4096]
Peer2 VPI/VCI(Egress VPCI)
7.5.2.4. St_re_can_svc.dg
Table 7.5-5 St_re_can_svc
Type
N a m e
default
byte
dummy
key
word16
no_entry
Remarks
# of Valid Entries, defined PVC information
number (~4096)
byte
no_hdr
Header
Address
Length
Upper
ATM
Address
length
byte
reserved
byte
addr_hdr[20]
byte
equipage[512]
byte
a_mask1[512][10]
First address mask to be connected
byte
addr1[512][10]
First address to be connected
byte
a_mask2[512][10]
Second address mask to be connected
byte
addr2[512][10]
Second address to be connected
byte
no_vc[512]
Number of VC to be used between peers
word32
atm_id1[512]
vc id of the first node (VPI:VCI)
word32
atm_id2[512]
vc id of the second node (VPI:VCI)
byte
link_type[512]
Link Usage(AAL1/2/5,Test)
SMD-011-PMA210
Higher ATM address
Page:795(877)
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STAREX-IS BSM Manual
( LINK_AAL2(0), LINK_AAL5(1), LINK_TEST(2))
word16
link_bw[512]
VC Link BandWidth
(Cell Bandwidth(~0x40) to be assigned to
Link)
7.5.2.5. St_re_can_net_cfg.dg
Table 7.5-6 St_re_can_net_cfg
Type
N a m e
default Remarks
byte
can_net_shelf_id
key
full equip (MAX_CAN_NET_SHELF: 2)
byte
can_net_slot_id
key
full equip (MAX_CAN_SLOT: 22)
byte
equip
‘0’
byte
bd_type
Network Board Type
byte
no_sub
# of Sub Device
byte
no_link
# of Physical Link
byte
hw_ctrl
HW Reset
byte
link_type[MAX_LIN
: 0(Init), 1, 2, 3 added
Physical Link Type : STM1, E1,...(MAX_LINK:
K]
64)
LINK_TYPE_NONE(0),LINK_TYPE_STM1(1),LINK_TYP
E_STM12(2),
LINK_TYPE_STM14(3),
LINK_TYPE_E1(4),
LINK_TYPE_T1(5)
byte
sub_type[MAX_SUB]
Sub Device Type (MAX_SUB : 16)
SBTYPE_NONE(0),
SBTYPE_APC(1),
SBTYPE_APPD(2)
byte
sub_id[MAX_SUB]
Sub Device ID (MAX_SUB : 16)
7.5.2.6. St_re_can_net_data.dg
Table 7.5-7 St_re_can_net_data
Type
N a m e
default
byte
dummy
key
byte
cn_id
msc_no
SMD-011-PMA210
Remarks
Core Network ID
Page:796(877)
Issue:1.0
STAREX-IS BSM Manual
byte
no_addr_hdr
ATM Address Header Len
byte
reserved[2]
byte
rnc_equip[MAX_RNC]
byte
atm_addr_hdr[20]
ATM Address Header
byte
rnc_conn_type[MAX_RNC]
RNC Connectino ID
byte
atsa_conn_type[12]
ATSA Connection ID
word32
rnc_addr[MAX_RNC]
RNC NCP Network Address
word32
camu_addr[16]
CAMU Device Network Addr.
rnc_eqp
RNC Equipage
(0 : ASCA_A, 1 : ASCA_B, 2 : ASIA0_A,
3 : ASIA0_B, 4 : ASIA1_A, 5 : ASIA1_B
ASIA2_A,
ASIA2_B,
ASIA3_A, 9 : ASIA3_B, 10 : AOTA0,
11 : AOTA1,
12 : AOTA2, 13 : AOTA3, 14 : ATSA0,
15 : ATSA1)
byte
reserved[8]
7.5.2.7. St_re_can_iur_con.dg
Table 7.5-8 St_re_can_iur_con
Type
N a m e
default
Remarks
byte
rnc_id
key
full equip
word32
start_aal2_vc_id[MAX_RNC] See *1
AAL2 Start VC Id
word16
no_aal2_vc
Number of AAL2 VCs
word16
reserved
32
7.5.2.8. St_re_can_rnc5_con.dg
Table 7.5-9 St_re_can_rnc5_con
Data Type
N a m e
default
byte
dummy
key
word32
start_aal5_vc_id[2]
[10/32] = 0xA0020
Remarks
AAL5 Start VC Id
[12/32] = 0xC0020
word16
no_aal5_vc
word16
reserved
SMD-011-PMA210
8192
Number of AAL5 VCs
Page:797(877)
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7.5.3. PNP ONLY
7.5.3.1. St_re_cand_node.dg
Table 7.5-10 St_re_cand_node
Data Type
N a m e
default
Remarks
byte
card_id
key
full equip (MAX_ATM_CARD:5)
byte
link_id
key
full equip (MAX_ATM_LINK:32)
byte
equip
byte
link_type
LINK_NOT_EQUIP(0), LINK_EQUIP(1)
ATM Link Type STM-1,STM-4,Cell Bus
(LINK_TYPE_NONE(0),LINK_TYPE_STM1(1),
LINK_TYPE_STM12(2),
LINK_TYPE_STM14(3),
LINK_TYPE_E1(4),
LINK_TYPE_T1(5))
byte
link_status
ATM Link Acktivity
Init/Active/Block
(LINK_STS_NONE(0), LINK_STS_ACTIVE(1),
LINK_STS_ONL_BLOCK(2),
LINK_STS_MMC_BLOCK(3))
byte
connect_typ
End-User’s own ID connected to Link (see
byte
Appendix Connection ID)
fabric_no
Switch
Fabric
No.(
Index(0~8)
of
all
APCs)
(0:ASCA APC0, 1:ASIA0 APC0, 2:ASIA0 APC1,
3:ASIA1 APC0, 4:ASIA1 APC1, 5:ASIA2 APC0,
6: ASIA2 APC1, 7:ASIA3 APC0, 8 : ASIA3
APC1)
byte
reserved[7]
7.5.3.2. St_re_pcf_node.dg
Table 7.5-11 St_re_pcf_node
Type
N a m e
Default
Remarks
byte
pcf_id
key
full equip (MAX_PCF_BLK:6)
SMD-011-PMA210
Page:798(877)
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STAREX-IS BSM Manual
byte
link_id
key
byte
equip
Number
byte
link_type
full equip (MAX_SUB_LINK:32)
of Equip as below
pcf
LINK_NOT_EQUIP(0), LINK_EQUIP(1)
ATM Link Type STM-1,STM-4,Cell Bus
LINK_TYPE_NONE(0),
LINK_TYPE_STM1(1),
LINK_TYPE_STM12(2),
LINK_TYPE_STM14(3),
LINK_TYPE_E1(4),
LINK_TYPE_T1(5)
byte
link_status
ATM Link Acktivity
Init/Active/Block
LINK_STS_NONE(0), LINK_STS_ACTIVE(1),
LINK_STS_ONL_BLOCK(2), LINK_STS_MMC_BLOCK(3)
byte
byte
connect_type
fabric_no
Default
1 Node
Connection
ID:
End-User’s
own
below.
connected to Link
Switch Fabric No. Index(0~8) of all APCs
ID
0 : BCRA APC0
byte
reserved[7]
7.5.3.3. St_re_cand_addr.dg
Table 7.5-12 St_re_cand_addr
Type
N a m e
Default
Remarks
byte
shelf_id
key
full equip (MAX_CAN_SHELF: 4)
byte
slot_id
key
full equip (MAX_CAN_SLOT: 22)
byte
equip
‘0’
byte
bd_type
Processor/Device Board Type
PBA’s own number (not yet set)
byte
no_sub
Sub Processor Number In case of Sub processor
had IP
Nu,ber of processors mounted
byte
reserved
word32
addr[MAX_SUB
MAX_SUB: 8
SMD-011-PMA210
Page:799(877)
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7.5.3.4. St_re_cand_pvc.dg
Table 7.5-13 St_re_cand_pvc
Type
N a m e
default
byte
dummy
key
word16
no_entry
Remarks
# of Valid Entries, number of defined
PVC information (~4096)
word16
reserved
byte
equipage[4096]
byte
node_a[4096]
Peer1 connection ID
byte
sub_a[4096]
Peer1 Logical Info
byte
node_b[4096]
Peer2 Connection ID
byte
sub_b[4096]
Peer2 Logical info
byte
no_vc[4096]
Number of VX to be used between Allocated
cand_pvc.inf
VC Number Peers
byte
link_type[4096]
Link Usage AAL1/2/5, Test
(LINK_AAL2(0),
LINK_AAL5(1),
LINK_TEST(2))
word16
link_bw[4096]
0x100
VC Link Bandwidth (Cell Bandwidth(~0x40)
to be assigned to Link)
word32
vpci_a[4096]
Peer1 VPI/VCI(Ingress VPCI)
word32
vpci_b[4096]
Peer2 VPI/VCI(Egress VPCI)
7.5.3.5. St_re_pcf_pvc.dg
Table 7.5-14 St_re_pcf_pvc
Type
N a m e
Default
byte
dummy
key
word16
no_entry
Remarks
# of Valid Entries, number of defined PVC
information (~4096)
word16
reserved
byte
equipage[512]
byte
node_a[512]
Peer1 connection ID
byte
sub_a[512]
Peer1 Logical Info
SMD-011-PMA210
pcf_pvc.inf
Page:800(877)
Issue:1.0
STAREX-IS BSM Manual
byte
node_b[512]
Peer2 Connection ID
byte
sub_b[512]
Peer2 Logical info
byte
no_vc[512]
Number of VCs to be used between Allocated
VC Number Peers
byte
link_type[512]
Link Usage AAL1/2/5, Test
LINK_AAL2(0), LINK_AAL5(1), LINK_TEST(2)
word16
link_bw[512]
0x100
Cell Bandwidth(~0x40) to be assigned to VC
Link Bandwidth-Link
word32
vpci_a[512]
Peer1 VPI/VCI(Ingress VPCI)
word32
vpci_b[512]
Peer2 VPI/VCI(Egress VPCI)
7.5.3.6. St_re_cand_svc.dg
Table 7.5-15 St_re_cand_svc
Type
N a m e
default
byte
dummy
key
word16
no_entry
Remarks
# of Valid Entries, number of defined PVC
info (~4096)
byte
no_hdr
Header Address Length Upper ATM Address
length
byte
reserved
byte
addr_hdr[20]
byte
equipage[512]
byte
a_mask1[512][10]
First address mask to be connected
byte
addr1[512][10]
First address to be connected
byte
a_mask2[512][10]
Second address mask to be connected
byte
addr2[512][10]
Second address to be connected
byte
no_vc[512]
Number of VCs to be used between peers
word32
atm_id1[512]
vc id of first node (VPI:VCI)
word32
atm_id2[512]
vc id of second node (VPI:VCI)
byte
link_type[512]
Link Usage(AAL1/2/5,Test)
Higher ATM address
( LINK_AAL2(0), LINK_AAL5(1), LINK_TEST(2))
word16
link_bw[512]
VC Link BandWidth
(Cell Bandwidth(~0x40) to be assigned to
SMD-011-PMA210
Page:801(877)
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STAREX-IS BSM Manual
Link)
7.5.3.7. St_re_cand_net_cfg.dg
Table 7.5-16 St_re_cand_net_cfg
Type
N a m e
default Remarks
byte
can_net_shelf_id
key
full equip (MAX_CAN_NET_SHELF: 2)
byte
can_net_slot_id
key
full equip (MAX_CAN_SLOT: 22)
byte
equip
‘0’
byte
bd_type
Network Board Type
byte
no_sub
# of Sub Device
byte
no_link
# of Physical Link
byte
hw_ctrl
HW Reset
byte
link_type[MAX_LIN
: 0(Init), 1, 2, 3 added
Physical Link Type : STM1, E1,...(MAX_LINK:
K]
64)
LINK_TYPE_NONE(0),LINK_TYPE_STM1(1),LINK_TYPE_
STM12(2),
LINK_TYPE_STM14(3),
LINK_TYPE_E1(4),
LINK_TYPE_T1(5)
byte
sub_type[MAX_SUB]
Sub Device Type (MAX_SUB : 16)
SBTYPE_NONE(0), SBTYPE_APC(1), SBTYPE_APPD(2)
byte
sub_id[MAX_SUB]
Sub Device ID (MAX_SUB : 16)
7.5.3.8. St_re_cand_net_data.dg
Table 7.5-17 St_re_cand_net_data
Type
N a m e
default
byte
dummy
key
byte
msc_id
msc_no:0
byte
reserved
byte
pcf_equip[6]
Number
Remarks
MSC ID
of PCF Equipage
pcf equip
byte
rnc_equip[MAX_RNC]
SMD-011-PMA210
Number
of RNC equipage Header
Page:802(877)
Issue:1.0
STAREX-IS BSM Manual
rnc equip
byte
pcf_conn_type[6][2]
PCF Connectino ID
byte
rnc_conn_type[MAX_RNC]
RNC Connection ID
word32
pcp_addr[6]
word32
ncp_addr[MAX_RNC]
RNC NCP Network Address
word32
camdu_addr[16]
CAMD Device Network Addr.
(0
ASCA_A,
ASCA_B,
ASIA0_A, 3 : ASIA0_B, 4 : ASIA1_A,
ASIA1_B
ASIA2_A,
ASIA2_B, 8 : ASIA3_A, 9 : ASIA3_B,
10 : AOTA0, 11 : AOTA1,
12 : AOTA2, 13 : AOTA3, 14 : ATSA0,
15 : ATSA1)
7.5.3.9. St_re_cand_data5_con.dg
Table 7.5-18 St_re_cand_data5_con
Type
N a m e
Default
byte
dummy
key
word32
start_aal5_vc_id[MAX_RNC] [10/32] =
Remarks
AAL5 Start VC Id.
0xA0020
word16
no_aal5_vc
word16
reserved
8192
# of AAL5 VCs
7.5.3.10. St_re_cand_pif5_con.dg
Table 7.5-19 St_re_cand_pif5_con
Type
N a m e
default
byte
Dummy
key
word32
start_aal5_vc_id[11][2]
word16
no_aal5_vc
word16
Reserved
SMD-011-PMA210
Remakrs
AAL5 Start VC Id. (22 VPs)
512
# of AAL5 VCs
Page:803(877)
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STAREX-IS BSM Manual
7.5.4. PCP ONLY
7.5.4.1. St_pdsn_addr_data_type
Table 7.5-20 St_pdsn_addr_data_type
Type
Name
byte
dummy
byte
no_of_pdsn
default
Remarks
Number
of
equipped
PDSN.
Of
MAX_PDSN_NO, the number of correct
PDSN should be checked.
word32
pdsn_ip[MAX_PDSN_NO]
PDSN IP
MAX_PDSN_NO = 2 (temporal)
IP
used
by
PDSN
for
Public
Networkinterface.
Home Agent IP. As several PDSNs can
be
interfaced,
extendibility
is
considered.
If this value is “0”, regard each
RPP IP as PDSN IP.
byte
no_of_pdsn_node[MAX_PDSN_ RPP
NO]
number STP configurqation includes 16 RPPs
mounted
PDSN
word32
in in
PDSN.
It
must
include
the
number of correct RPP in PDSN.
pdsn_node_ip[MAX_PDSN_NO] RPP IPs
MAX_NODE_NO = 20
[MAX_NODE_NO]
PDSN RPP IP.
Insert IP of mounted RPP in order,
and insert the rest with 0.
byte
ssk_value[MAX_PDSN_NO][MA 0
ssk
value
of
PDSN_NODE
X_NODE_NO][16]
interfaces with PCF.
that
Should be set per PDSN_NODE.
byte
ssk_len[MAX_PDSN_NO][MAX_ 0 ssk_val
ssk_value[] length
NODE_NO];
As value required for data call,
length
upon ssk_vale change, the length
should be calculated.
byte
reserved[32]
7.5.4.2. St_PCF_timer_type
Table 7.5-21 St_PCF_timer_type
SMD-011-PMA210
Page:804(877)
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STAREX-IS BSM Manual
Type
Name
byte
dummy
word16
Trp_lifetime
default
Remarks
1800
PCF timer.
Range
: 0 ~ 65,535
unit : 60sec
0x0000 = Release
0xFFFF = Infinite
word16
Tbsreq9
5000
PCF timer.
Range
: 0 ~ 5000
Unit : 1msec
word16
Tdiscon9
5000
PCF timer.
Range
: 0 ~ 5000
unit : 1msec
word16
Twaitho9
10000
PCF timer.
Range
Unit
word16
Tregreq
5000
: 0 ~ 10000
: 1msec
PCF timer.
Range
: 0 ~ 5000
Unit : 1msec
word16
regreq_retry
Registration Request message retransfer count
_cnt
that PCF sends to PDSN.
Range
Unit
: 0 ~ 20
: frequency.
If no response from PDSN, a maximum of this
value should be resent.
byte
reserved[32]
7.5.4.3. St_PCF_info_data_type
Table 7.5-22 St_PCF_info_data_type
TYPE
Name
byte
dummy
byte
identification_ty
pe
default
Remarks
Upon A11 Signaling, identification field
type is determined.
0 : Time Stamp
SMD-011-PMA210
Page:805(877)
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STAREX-IS BSM Manual
1 : Nonce
word32
pcp_ip[MAX_PCF_SH
PCP IP,
MAX_PCF_SHELF = 2
ELF][MAX_PCP_NO]
PMP IP
MAX_PCP_NO = 2
PCP/PMP IP executing F/E interface.
[0][0] : PCP (Active)
[0][1] : PCP (Standby)
[1][0] : PMP (Active)
[1][1] : PMP (Standby)
word32
pip_ip[MAX_PCF_SH
PIP IPs
ELF][MAX_PIP_NO]
MAX_PCF_SHELF = 2
MAX_PIP_NO = 11
PIP IP executing F/E interface.
word32
net_mask[MAX_PCF_
SHELF][MAX_PIP_NO
To be judged.
PLD add.
word32
default_gw[MAX_PC
F_SHELF][MAX_PIP_
Default Gateway.
To be determined. PLD added.
NO]
byte
aaa_server_type
word16
sid
System ID.
word16
nid
Network ID.
Int32
ltm_off
18
AAA server type
Offset
of
local
time
from
System
time.
Thatis, local time offset from UTC.
Current local time = SYS_TIME - LP_SEC +
ltm_off
ltm_off = 18 ( 30 minutes per unit, that is,
9 hour difference)
* LP_SEC :
Number of Leap seconds that
occurred since the start of System Time.
boolean day_lt
Daylight saving time flag (Summer time)
1 : day lighting saving time
0 : standard time
byte
gre_seq_flag
1 : Used SEQ
0 : Not Used SEQ
word16
seq_cntl_timer
Upon
PCF
Sequence
Control,
timer
that
waitsspecific seq_num ( buffering time )
unit ( msec )
SMD-011-PMA210
Page:806(877)
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byte
byte
pkt_zone_id
UDR_MSID_TYPE
MSID Type in UDR that PDSN sends to AAA
Server
1 : IMSI
0 : MIN
byte
reserved[32]
7.5.4.4. St_pifu_HW_Reset_data_type
Table 7.5-23 St_pifu_HW_Reset_data_type
Type
Name
default
Remarks
byte
shelf_id
0~1
key
byte
pcp_isolation[11]
0: not isolation
1:isolation
byte
bcra_isolation[2]
0: not isolation
1:isolation
byte
fera_isolation[2]
0,1
0: not isolation.................................................
byte
feta_isolation
0: not isolation
byte
reserved[32]
1:isolation
7.5.5. CCP ONLY
7.5.5.1. St_fwdpwr_data_type.dg
Table 7.5-24 St_fwdpwr_data_type
Type
N a m e
default Remarks
byte
bts_id
full
byte
fer_id
0 ~ 1
word16
slow_down_time
1600
full equip
Always Full equip
Gain down time. Applied during slow down
(msec)
word16
byte
fast_down_time
steps_till_fast
mode. (0 ~ 20000)
1600
Gain down time. Applied during fast down mode.
(msec)
(0 ~ 20000)
Number of slow down before switching to fast
down mode. (0 ~ 100)
byte
slow_down_delta
SMD-011-PMA210
Gain down delta. Applied during slow down
Page:807(877)
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STAREX-IS BSM Manual
mode. (0 ~ 100)
byte
fast_down_delta
Gain down delta. Applied during gast down
mode. (0 ~ 100)
byte
nominal_gain
50
Nominal tx gain of primary/secondary
traffic. (0 ~ 127)
byte
max_tx_gain
80
Max.tx gain of primary/secondary traffic
byte
min_tx_gain
40
Min.tx gain of primary/secondary traffic.
byte
fer_threshold
6 %
Frame Error Rate threshold determines the gain
increase amount.(0 ~ 20)
byte
big_up_delta
10
Gain increase delta. Applied when the forward
frame error rate contained in a PMRM exceeds
‘fer_threshold’.(0 ~ 100)
byte
small_up_delta
Gain increase delta. Applied when the forward
frame error rate contained in a PMRM is less
than ‘fer_threshold’(0 ~ 100)
byte
signal_delta_gain 96
Gain scaling factor of signaling traffic.
( 0 ~ 200 )
byte
pcsc_delta_gain1 64
Gain scaling factor of PCSC bit.(1-cell)
byte
pcsc_delta_gain2 96
Gain scaling factor of PCSC bit.(2-cell)
byte
pcsc_delta_gain3 112
byte
reserved_byte[33] 0
Gain scaling factor of PCSC bit.(3-cell)
7.5.5.2. St_13_fwdpwr_data_type.dg
Table 7.5-25 St_13_fwdpwr_data_type
Type
N a m e
default Remarks
byte
bts_id
full
byte
fer_id
0 ~ 1
word16
init_down_time
1000
Initial gain down time.(0 ~ 20000)
word16
max_down_time
4000
Maximum gain down time.(0 ~ 20000)
word16
min_down_time
200
Minimum gain down time.(0 ~ 20000)
word16
time_down_delta
200
Gain down time down delta. Applied in good
Full equip
Always Full equip
run state.(0 ~ 20000)
word16
time_up_delta
400
Gain down time up delta. Applied in erasure
run state.(0 ~ 20000)
SMD-011-PMA210
Page:808(877)
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STAREX-IS BSM Manual
word16
state_chg_thresh
250
Number of consecutive good frames brings
about good run state.(0 ~ 10000)
word16
erase_meas_frames
250
Cumulative
erasure
measuring
period.(0
65535)
byte
cont_erase_eftv
Number of consecutive erasures brings
about
tx gain increase. If 0, burst erasures have
no effect.(0 ~ 127)
byte
cumul_erase_eftv
Number of cumulative erasures brings about
tx gain increase. If 0, non-burst erasures
have no effect.(0 ~ 127)
byte
nominal_gain
50
Nominal
tx
gain
of
primary/secondary
traffic.(0 ~ 127)
byte
max_tx_gain
100
Max.tx gain of primary/secondary traffic. (0
~ 127)
byte
min_tx_gain
40
Min.tx gain of primary/secondary traffic. (0
~ 127)
byte
gain_down_delta
Gain decrease delta (0 ~ 127)
byte
big_up_delta
10
Gain increase delta. Applied when a gain-up
condition
is
encountered
during
ERASURE-
STATE. (0 ~ 100)
byte
small_up_delta
Gain increase delta. Applied when a gain-up
condition is encountered during GOOD-STATE.
(0 ~ 100)
byte
signal_delta_gain
96
Gain scaling factor of signaling traffic. (0
~ 200)
byte
pcsc_delta_gain1
64
Gain scaling factor of PCSC bit.(1-cell)
(0 ~ 200)
byte
pcsc_delta_gain2
96
Gain scaling factor of PCSC bit.(2-cell)
(0 ~ 200)
byte
pcsc_delta_gain3
112
Gain scaling factor of PCSC bit.(3-cell)
(0 ~ 200)
byte
reserved_byte[32]
7.5.5.3. St_revpwr_data_type.dg
Table 7.5-26 St_revpwr_data_type
SMD-011-PMA210
Page:809(877)
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STAREX-IS BSM Manual
Type
N a m e
defaul Remarks
byte
bts_id
full
byte
fer_id
0 ~ 1
word16
pnom (pwrctl_nominal)
19416 initial Eb/No(dB)
word16
pmax (pwrctl_max )
23408
Maximum Eb/No(dB)
word16
pmin (pwrctl_min))
8288
Minimum Eb/No(dB)
word16
pupf (pwrctl_up_full)
3072
Up for erase in full mode(dB)
short
pfrr (pwrctl_full_run_reset)
-2
Fulls until full mode(count value)
word16
pupe (pwrctl_up_erasure)
248
Up for erase in erase run(dB)
word16
pupel(pwrctl_up_erasure_little) 50
word16
pd
(pwrctl_down)
word16
pvd
(pwrctl_var_down)
Down for variable(dB)
word16
pfw
(pwrctl_full_wait)
Pause between up fulls(count value)
short
perl (pwrctl_erasure_run_lim)
Erase until erase run(count value)
byte
reserved_byte[32]
Always Full equip
Up for erase(dB)
48
Down for full(dB)
7.5.5.4. St_13_revpwr_data_type
Table 7.5-27 St_13_revpwr_data_type
Type
N a m e
Remarks
default
(As of 2000-3-6, on;y 1% used) fer_id :
byte
bts_id
full
byte
fer_id
0 ~ 1
word16
pnom (pwrctl_nominal) 19416
Always Full equip
Initial pwrctl threshold value.
(up to 109048 at word32)
word16
pmax (pwrctl_max)
34304
Maximum pwrctl threshold value.
(up to 109048 at word32)
word16
pmin (pwrctl_min)
8288
Minimum pwrctl threshold value.
(up to 109048 at word32)
word16
rpc_big_up_delta
4608
Pwrctl threshold up delta. Applied when
pwrctl-threshold-up
condition
is
encountered during ERASURE-STATE.
SMD-011-PMA210
Page:810(877)
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word16
rpc_small_up_delta
2304
Pwrctl threshold up delta. Applied when
pwrctl-threshold-up
condition
is
encountered during GOOD-STATE.
byte
rpc_non_erase_wait
Non-erasure rate waiting frame count
after
increasing
pwrctl
threshold.
During the period, erasure rate frame
has no effect.
byte
rpc_max_down_delta
48
Maximum pwrctl threshold down delta.
byte
rpc_min_down-delta
Minimum pwrctl threshold down delta.
byte
rpc_down_delta_inc_st
Increment step size of pwrctl threshold
ep
byte
down delta up.
rpc_cont_erase_eftv
Number of consecutive erasures brings
about pwrctl-threshold-up. If 0, burst
erasures have no effect.
byte
rpc_cumul_erase_eftv
Number of cumulative erasures during
rpc_erase_meas_frames
pwrctl-threshold-up.
brings
If
0,
about
non-burst
erasures have no effect.
word16
rpc_erase_meas_frames 450
Cumulative erasure measuring period.
word16
rpc_state_chg_thresh
Number
250
of
consecutive
good
frames
brings about GOOD-STATE.
byte
reserved_byte[34]
7.5.5.5. St_SlpSts_data_type
Table 7.5-28 St_SlpSts_data_type
Type
Name
Default
Remarks
BYTE
SMP_ID
full 0 ~ 4
SMP IDENTIFICATION
BYTE
SLP_ID
full 0 ~ 17
SLP IDENTIFICATION
BYTE
SLP_STS
0: UNBLOCK
8: BLOCK
BYTE
SLAVE_STS[4]
0: UNBLOCK
8: BLOCK
byte
Rserved_byte[33] 0
7.5.5.6. St_VcpSts_data_type
Table 7.5-29 St_VcpSts_data_type
SMD-011-PMA210
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Type
N a m e
default
Remarks
BYTE
VMP_ID
full 0 ~ 7
VMP IDENTIFICATION
BYTE
VCP_ID
full 0 ~ 15
VCP IDENTIFICATION
BYTE
SHELF_TYPE
0: PHASE1
BYTE
VCP_STS
BYTE
VCP_SLAVE_STS[2]
0: UNBLOCK
8: BLOCK
BYTE
VCE_STS[8]
0: UNBLOCK
8: BLOCK
byte
reserved_byte[34]
1: PHASE2
0: UNBLOCK
8: BLOCK
7.5.5.7. St_Trunk_data_type
Table 7.5-30 St_Trunk_data_type
Type
N a m e
default
Remarks
BYTE
VMP_ID
full 0 ~ 7
VMP IDENTIFICATION
BYTE
VLIA_ID
full 0 ~ 1
VLIA IDENTIFICATION
BYTE
VLIA_STS
0: UNBLOCK
8: BLOCK
BYTE
LINK_STS[16]
0: UNBLOCK
8: BLOCK
byte
ts_sts[16][32]
0: UNBLOCK
8: BLOCK
byte
ts_type[16][32]
byte
reserved_byte[33]
0: Vocoder
1: NO7(ts being 16)
7.5.5.8. St_T1_Trunk_data_type
Table 7.5-31 St_T1_Trunk_data_type
Type
N a m e
default
byte
btia_id
0 ~ 15
byte
T1_id
0 ~ 4
byte
ts_id
0 ~ 23
Remarks
BTIA
board
identification
(board to connect T1 link)
T1 link identification ( one BTIA holds
5 T1 links.)
Time slot identification ( 1 T1 link holds 24
Time slots.)
0: used for vocoder assignment
byte
type
0 ~ 1
1:
current
time
slot
is
connected
to
STF(Signaling Terminal Function) for No.7
SMD-011-PMA210
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byte
sbp_no
0 ~ 14
byte
svc_no
0 ~ 15
byte
vce_no
0 ~ 7
word
cic
byte
dummy
byte
sbp number of vocoder channel that is matched
to each time slot
svc number of vocoder channel matched to each
time slot
vocoder channel number matched to each time
slot
Number matched to all time slots, that is,
each time slot’s own number.
reserved_byt
e[34]
7.5.5.9. St_Bsc_data_type
Table 7.5-32 St_Bsc_data_type
Type
N a m e
default
Remarks
byte
dummy_key
byte
bsc_id
0 ~ 11
bsc identification
byte
trunk_type
word16
inactive_timer
word16
dormant_timer
byte
bad_frame_time
byte
pkt_zone
Current default: 0
byte
pcp_id
Current default: 0 connected PCP ID
0 : E1 (LGT)
1 : T1 (NW)
30
MS inactive status judgement level
10
0(DCN)
byte
band_class
1(1900Mgz)
4(1800Mhz)
byte
reserved_byte[31]
MS dormant status judgement level
band class of candidate frequency
800Mhz: 0
1800Mhz : 4 = domestic
1900Mhz: 1 = overseas
7.5.5.10. St_target_fer_service_type
Table 7.5-33 St_target_fer_service_type
SMD-011-PMA210
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Type
N a m e
default
byte
Dummy
Remarks
byte
voice_8k
Basic Variable Rate (8K Voice)
byte
loopback_8k
8K Loopback : IS-126
byte
evrc
Enhanced Variable Rate Code
Asycronous Data(9.6 Kbps) : Provides Dial Up
byte
async
Modem function and AT command, and subscriber
uses
this
for
end-to-end
communication
or
accesses public data network.
Group 3 Facsimile(9.6Kbps) : It added the
function of processing extension AT command
byte
g3fax
for FAX to Dial Up Modem so that subscriber
with
FAX
can
exchange
data
with
FAX
accommodated in PSTN.
Short Message(Rate Set 1) : Exchanges SMS
byte
sms
between external device and PCS network or
between MS and Network.
Paket Data(Internet/ISO Protocol Stack)
byte
ppp_pkt
PPP
protocol
stack
is
mounted
on
MS
and
on
MS
and
Network Layer.
Point-to-Point Packet Data Service
Packet Data(CDPP Protocol Stack)
byte
cdpp_pkt
PPP
protocol
Network Layer.
stack
is
mounted
Multiple Packet Service
byte
loopback_13k
byte
stu_iii_tr
byte
stu_iii_ntr
byte
async_13k
Asycronous Data (14.4Kbps)
byte
g3fax_13k
Group 3 Facsimile (14.4Kbps)
byte
sms_13k
Short Message (Rate Set 2)
byte
voice_13k
Basic Variable Rate (8K Voice)
byte
is96_voice
byte
markov_8k
byte
data
byte
is96a_no
96A no quarter rate
byte
markov_13k
Markov Call (14.4Kbps)
SMD-011-PMA210
13K Loopback
Markov Call ( 8Kbps)
Page:814(877)
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byte
wll_offhook
byte
rs1_markov
rate set 1 Markov Call
byte
rs2_markov
rate set 2 Markov Call
byte
fch_fer
byte
sch_fer
byte
dcch_fer
byte
Sch_loopback
byte
Sch_loopback2
byte
Reserved_byte[
31]
RC3 data service
(0~31)
RC3 data service
(0~31)
RC3 data service
(0~31)
7.5.5.11. St_MAHHO_data_type
Table 7.5-34 St_MAHHO_data_type
Type
N a m e
default
byte
bts_id
full
byte
sector_id
full
byte
border_flag
0: Off,
0(DCN)
byte
band_class
1(1900Mgz)
4(1800Mhz)
byte
word16
Remarks
band class of candidate frequency
800Mhz: 0
1800Mhz : 4 = domestic
1900Mhz: 1 = overseas
Num_cdma_freq
Number of candidate frequency
cdma_freq[MAX_CDMA_CH
Candidate frequency (cdmach_num)
As
byte
1: On
sf_total_ec_thresh
11111(bin)
threshold
of
total
Ec
value
regarding Serving Frequency, this
determines
whether
to
search
candidate frequency.
As threshold of total Ec/Io value
byte
sf_total_ec_io_thresh 26
regarding Serving Frequency, this
determines
whether
to
search
candidate frequency.
SMD-011-PMA210
Page:815(877)
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If total Ec/Io value is lower than
total threshold regarding serving
frequency, it does not search
the
pilot of Candidate Frequency.
As
power
difference
threshold
between received serving frequency
byte
diff_rx_pwr_thresh
and
candidate
determines
frequency,
whether
to
this
search
candidate frequency.
byte
min_total_pilot_ec_io 0
Ec/Io threshold of active set of
candidate frequency
Threshod to add pilot to acticve
set of candidate frequency.
If
byte
cf_t_add
26
of
pilots
that
set
of
neighbor
belondg
to
Candidate
Frequency, there is a pilot that
has better Ec/Io than cf_t_add, it
is reported to BS through Candidate
Frequency Search Report.
After
byte
tf_wait_time
30
transition
to
target
frequency, waiting time to receive
good frame( 80ms unit)
30
2.4 second
Basic Search Window for candidate
frequency neighbor set ( it uses
byte
cf_srch_win_n
teg same value as that of search
window to existing system parameter
message)
byte
cf_srch_win_r
10
byte
reserved_byte[35]
Basic search window for candidate
frequency Remaining Set
7.5.5.12. St_location_para_type
Table 7.5-35 St_location_para_type
SMD-011-PMA210
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Type
N a m e
default
byte
bts_id
full
byte
sector_id
full
Remarks
After
byte
set
Action
time,
frame
duration until first PUF probe.
action_time_frame
unit
Before
PUF pulse transfer, duration sent with
nominal power
power control group unit.
byte
puf_setup_size
byte
puf_pulse_size
word16
puf_interval
Interval between PUF Probes. frame unit
byte
puf_init_pwr
Initial PUF Probe power. in units of dB
byte
puf_pwr_step
PUF pulse power increase. in units of dB
byte
total_puf_probes
Total PUF prove number
byte
max_pwr_puf
byte
reserved_byte[33]
Duration that MS sends PUF pulse. Power
control group unit.
Max.
PUF
Probe
number
that
can
be
transmitted with max. Tx power
7.5.5.13. St_pwr_cntl_para_type
Table 7.5-36 St_pwr_cntl_para_type
Type
N a m e
default Remarks
byte
bts_id
full
byte
fer_id
0 ~ 30
byte
step size of forward link closed
pwr_cntl_step
loop power control
operation mode of forward
link
closed loop power control
byte
fpc_mode
It
should
be
the
same
fpc_punc_mode
as
of
St_Chip_pwr_cntl_para_data.
initial
byte
fpc_fch_init_setpt
Fundamental
Eb/Nt
SMD-011-PMA210
Value
of
Channel
setpoint
Forward
Outer
Loop
(hereinafter
Page:817(877)
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STAREX-IS BSM Manual
FFCOLS). 0.125dB unit
byte
fpc_fch_min_setpt
byte
fpc_fch_max_setpt
Minimum value of FFCOLS. 0.125dB
unit
FFCOLS’s
Maximum
value.
0.125dB
unit
Forward Dedicated Control Channel
byte
fpc_dcch_init_setpt
Outer
Loop
(hereinafter
Eb/Nt
setpoint
FDCCOLS)
initial
value. 0.125dB
byte
fpc_dcch_min_setpt
FDCCOLS’s Minimum value. 0.125dB
byte
fpc_dcch_max_setpt
FDCCOLS’s Maximum value. 0.125dB
Forward Supplemental Channel Outer
byte
fpc_sch_init_setpt
Loop
Eb/Nt
initial value.
setpoint(FSCOLS)
0.125dB
byte
fpc_sch_min_setpt
FSCOLS’s Minimum value.
0.125dB
byte
fpc_sch_max_setpt
FSCOLS’s Maximum value.
0.125dB
byte
fpc_setpt_thresh
Forward
fpc_setpt_thresh_sch
Power
control
Setpoint Threshold Value. 0.125dB
Forward
byte
link
Supplemental
Channel
Power control Setpoint Threshold
Value.
0.125dB
Channel Gain adjustment value for
byte
fch_chan_adj_gain
Reverse
Fundamental
Channel.
Complement of 2 in 0.125dB unit.
Channel Gain adjustment value for
byte
dcch_chan_adj_gain
Reverse Dedicated Control Channel.
Complement of 2 in 0.125dB unit.
Channel Gain adjustment value for
byte
sch0_chan_adj_gain
Reverse
Supplemental
Channel
0.
Complement of 2 in 0.125dB unit.
Channel Gain adjustment value for
byte
sch1_chan_adj_gain
Reverse
Supplemental
Channel
1.
Complement of 2 in 0.125dB unit.
index 0: not using Reverse Pilot
byte
rl_att_adj_gain_1500[2]
index 1: using Reverse Pilot
20ms frame, 1500bps Reverse Link
SMD-011-PMA210
Page:818(877)
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Attribute Adjustment gain value.
byte
rl_att_adj_gain_2700[2]
byte
rl_att_adj_gain_4800[2]
byte
rl_att_adj_gain_9600[2]
byte
rl_att_adj_gain_1800[2]
byte
rl_att_adj_gain_3600[2]
byte
rl_att_adj_gain_7200[2]
byte
rl_att_adj_gain_14400[2]
byte
norm_att_gain_9600_5ms[2]
20ms frame, 2700bps Reverse Link
Attribute Adjustment gain value.
20ms frame, 4800bps Reverse Link
Attribute Adjustment gain value.
20ms frame, 9600bps Reverse Link
Attribute Adjustment gain value.
20ms frame, 1800bps Reverse Link
Attribute Adjustment gain value.
20ms frame, 3600bps Reverse Link
Attribute Adjustment gain value.
20ms frame, 7200bps Reverse Link
Attribute Adjustment gain value.
20ms frame, 14400bps Reverse Link
Attribute Adjustment gain value.
5ms frame, 9600bps Reverse Link
Attribute Adjustment gain value.
2nd index 0:
byte
rl_att_adj_gain_19200[2][2]
2dn index 1: Turbo Encoding
20ms frame, 19200bps Reverse Link
Attribute Adjustment gain
byte
rl_att_adj_gain_38400[2][2]
byte
rl_att_adj_gain_76800[2][2]
byte
rl_att_adj_gain_153600[2][2]
byte
rl_att_adj_gain_307200[2][2]
byte
rl_att_adj_gain_614400[2][2]
byte
rl_att_adj_gain_28800[2][2]
byte
rl_att_adj_gain_576600[2][2]
byte
rl_att_adj_gain_115200[2][2]
SMD-011-PMA210
20ms frame, 38400bps Reverse Link
Attribute Adjustment gain
20ms frame, 76800bps Reverse Link
Attribute Adjustment gain
20ms frame, 153600bps Reverse Link
Attribute Adjustment gain
20ms frame, 307200bps Reverse Link
Attribute Adjustment gain
20ms frame, 614400bps Reverse Link
Attribute Adjustment gain
20ms frame, 28800bps Reverse Link
Attribute Adjustment gain
20ms frame, 576600bps Reverse Link
Attribute Adjustment gain
20ms frame, 115200bps Reverse Link
Page:819(877)
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Attribute Adjustment gain
byte
rl_att_adj_gain_230400[2][2]
byte
rl_att_adj_gain_460800[2][2]
byte
rl_att_adj_gain_1036800[2][2]
byte
fpc_subchan_gain
byte
rl_gain_adj
byte
rlgain_traffic_pilot
byte
rlgain_sch_pilot
byte
reserved_byte[33]
20ms frame, 230400bps Reverse Link
Attribute Adjustment gain
20ms frame, 460800bps Reverse Link
Attribute Adjustment gain
20ms
frame,
1036800bps
Reverse
Link Attribute Adjustment gain
7.5.5.14. St_sch_param_data
Table 7.5-37 St_sch_param_data
Type
N a m e
default
byte
bts_id
full
byte
sector_id
full
byte
sch_t_add
byte
sch_t_drop
byte
t_mulchan
byte
begin_preamble
22
26
Remarks
Regarding MDR handoff, t_add that is only
appied as to Supplemental Code Channel
Regarding MDR handoff, t_drop that is only
applied as to Supplemental Code Channel
threshold offset of Nghbr Pilot strength.
0.5dB step from 0.5dB to 4.0dB
Preamble
Frame
number
sent
at
the
beginning of Reverse Supplemental (Code)
Channel transfer
byte
resume_preamble
Preamble
Frame
number
sent
upon
retransfer of Reverse Supplemental (Code)
Channel
byte
ps_min_delta
Parameter
necessary
when
operating
in
such mode as MS sending Pilot Strength
Measurement Mini Message(PSMMM) whenever
SMD-011-PMA210
Page:820(877)
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Active Set order changes. As threshold
necessary
so
that
MS
judges
PSMMM
transfer, this is necessary upon such
mode as MS sending PSMMM whenever the
order of active set changes.
byte
order_interval
Interval to report the difference between
two pilot strengths through PSMMM. in
units of 20ms
byte
num_pilots
Parameter necessary for MS to send PSMMM.
Pilot number reported through PSMMM
byte
periodic_interval
Interval that MS sends PSMMM. in units of
20ms
byte
ps_floor_high
Based on threshold, high water mark value
set as to lower bound.
byte
ps_floor_low
Based
on
threshold,
low
water
mark
valueset as to lower bound
byte
ps_ceiling_high
Based on threshold, high water mark value
set as to upper bound
byte
ps_ceiling_low
Based on threshold, low water mark value
set as to upper bound.
byte
threshold_interval
Based
on
threshold,
PSMMM
transfer
interval. in units of 20ms
byte
t_slotted
Parameter included in In Traffic System
Parameters Message
byte
reserved_byte[35]
7.5.5.15. St_IOS_para_data
Table 7.5-38 St_IOS_para_data
Type
N a m default
Remarks
byte
dummy
byte
T1
key
55
(0~255) Facilities Management(sec)
byte
T2
60
(0~255) Facilities Management(sec)
byte
T4
60
(0~255) Facilities Management(sec)
SMD-011-PMA210
Page:821(877)
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byte
T5
60
(0~255) Facilities Management(sec)
byte
T6
75
(0~255) Facilities Management(sec)
byte
T7
10
(0~255) Handoff(sec)
byte
T9
10
(0~255) Handoff(sec)
byte
T10
(0~99) Handoff(sec)
byte
T12
60
(0~255) Facilities Management(sec)
byte
T13
55
(0~255) Facilities Management(sec)
byte
T16
60
(0~255) Facilities Management(sec)
byte
T20
(0~99) Call Processing(sec)
byte
T30
(0~99) Call Processing(sec)
byte
T40
(0~99) Call Processing(sec)
byte
T50
60
(0~255) Handoff(sec)
byte
T52
90
(0~255) Handoff(sec)
byte
T60
(0~99) Supplementary Services(sec)
byte
T61
(0~99) Supplementary Services(sec)
byte
T62
(0~99) Supplementary Services(sec)
byte
T63
(0~99) Supplementary Services(sec)
word32
T300
1500
(0~990) Call Processing (msec)
byte
T301
30
(0~60) CallProcessing(sec)
byte
T302
(0~99) Call Processing(sec)
byte
T303
(0~99) Call Processing(sec)
byte
T306
(0~99) Call Processing(sec)
byte
T307
(0~99) Call Processing(sec)
byte
T308
(0~99) Call Processing(sec)
byte
T309
(0~90) Facilities Management (sec)
word16
T311
1000
(0~50) Call Processing (msec)
byte
T312
(0~99) Call Processing(sec)
byte
T313
(0~99) Call Processing(sec)
byte
T315
(0~99) Call Processing(sec)
byte
T316
(0~99) Call Processing(sec)
byte
T325
(0~99) Call Processing(sec)
byte
T326
(0~99) Call Processing(sec)
byte
T777
90
(0~255) Handoff (sec)
byte
T778
15
(0~255) Handoff (sec)
byte
T787
90
(0~255) Handoff (sec)
byte
T789
10
(0~60) Handoff (sec)
SMD-011-PMA210
Page:822(877)
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byte
T790
10
(0~60) Handoff (sec)
byte
T3113
(0~99) Call Processing (sec)
byte
T3210
30
(0~99) Mobility Management (sec)
byte
T3220
10
(0~99) Mobility Management (sec)
byte
T3230
(0~99) Call Processing (sec)
byte
T3240
(0~99) Mobility Management (sec)
byte
T3260
30
(0~99) Mobility Management (sec)
byte
T3270
(0~99) Mobility Management (sec)
byte
T3271
15
(0~99) Mobility Management (sec)
byte
T3272
(0~99) Mobility Management (sec)
byte
T3280
15
(0~99) Call Processing (sec)
byte
TA8_Setup
(0~99) A8,A9 Interfaces (sec)
word16
Tacm
500
(0~1000) A3,A7 Interfaces (msec)
word16
Talc9
500
(0~1000) A8,A9 Interfaces (msec)
word16
Tald9
500
(0~1000) A8,A9 Interfaces (msec)
word16
Tbstact
600
(0~1000) A3,A7 Interfaces (msec)
word16
Tbstcom
100
(0~1000) A3,A7 Interfaces (msec)
word16
Tchanstat
500
(0~1000) A3,A7 Interfaces (msec)
word16
Tconn3
500
(1~1000) A3,A7 Interfaces (msec)
word16
Tdiscon3
500
(1~1000) A3,A7 Interfaces (msec)
byte
Tdrptgt
(1~10) A3,A7 Interfaces (sec)
byte
Ttgtrmv
(1~10) A3,A7 Interfaces (sec)
word16
Thoreq
1000
(0~50) A3,A7 Interfaces (msec)
byte
Tpaca1
byte
Tpaca2
(0~99) Call Processing (sec)
word16
Tpcm
1000
(0~20) A3,A7 Interfaces (msec)
byte
Tphysical
(0~10) A3,A7 Interface (sec)
word16
Trel9
1000
(0~50) A8,A9 Interface (msec)
byte
reserved_by
(0~99) Call Processing (sec)
te[35]
7.5.5.16. St_Vcbu_HW_Reset_data_type
Table 7.5-39 St_Vcbu_HW_Reset_data_type
Type
N a m e
default
Remarks
Byte
VMP_ID
0 ~ 7
VMP IDENTIFICATION
SMD-011-PMA210
Page:823(877)
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Byte
EquipPage
According
to 0: Not Equip
1: Equip
Equip status
Byte
VMP_Isolation
0: not_isolation
1: isolation
Byte
VCP_Isolation[16]
0: not_isolation
1: isolation
Byte
VLIA_Isolation[2]
0: not_isolation
1: isolation
Byte
reserved_byte[34]
7.5.5.17. St_Slbu_HW_Reset_data_type
Table 7.5-40 St_Slbu_HW_Reset_data_type
Type
N a m e
Byte
Byte
SMP_ID
EquipPage
Default
Remarks
0 ~ 4
SMP IDENTIFICATION
According
to 0: Not Equip
1: Equip
Equip status
Byte
SMP_Isolation
0: not_isolation
1: isolation
Byte
SLP_Isolation[20]
0: not_isolation
1: isolation
Byte
rserved_byte[33]
7.5.6. NCP ONLY
7.5.6.1. St_re_atm_node.dg
Table 7.5-41 St_re_atm_node
Type
N a m e
default
Remarks
byte
card_id
key
full equip (MAX_ATM_CARD:5)
byte
link_id
key
full equip (MAX_ATM_LINK:32)
byte
equip
As many as Node Config below Equip 1: Equip,
0:Not-Equip
byte
link_type
STM-1, STM-4, Cell Bus
(LINK_TYPE_NONE(0),LINK_TYPE_STM1(1),LINK_TYPE_S
TM12(2),
LINK_TYPE_STM14(3),
LINK_TYPE_E1(4),
LINK_TYPE_T1(5))
byte
link_status
Link status
LINK_STS_NONE(0), LINK_STS_ACTIVE(1),
SMD-011-PMA210
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LINK_STS_ONL_BLOCK(2), LINK_STS_MMC_BLOCK(3)
byte
connect_type
End-User’s own ID connected to Link(see Appendix
Connection ID)
byte
fabric_no
Fabric is a serial number of APC.
Index(0~8) of total APCs
0 : ASCA APC0, 1 : ASIA0 APC0, 2 : ASIA0 APC1,
3 : ASIA1 APC0, 4 : ASIA1 APC1, 5 : ASIA2 APC0,
6 : ASIA2 APC1, 7 : ASIA3 APC0, 8 : ASIA3 APC1
byte
reserved[7]
7.5.6.2. St_re_slb_node.dg
Table 7.5-42 St_re_slb_node
Type
N a m e
default
Remarks
byte
smp_id
key
full equip MAX_SLB:5
byte
link_id
key
full equip (MAX_SUB_LINK:32)
byte
equip
smp
As many as Node Config below, Equip 1: Equip,
number
0:Not-Equip
STM-1, STM-4, Cell Bus
byte
link_type
(LINK_TYPE_NONE(0),LINK_TYPE_STM1(1),LINK_TYPE_S
TM12(2),
LINK_TYPE_STM14(3),
LINK_TYPE_E1(4),
LINK_TYPE_T1(5))
byte
link_status
Link status
LINK_STS_NONE(0), LINK_STS_ACTIVE(1),
LINK_STS_ONL_BLOCK(2), LINK_STS_MMC_BLOCK(3)
byte
connect_type
End-User’s
own
ID
connected
to
Link
(see
Appendix Connection ID)
byte
fabric_no
Index(0~8) of total APCs
0 : SLMA APC0
byte
reserved[7]
7.5.6.3. St_re_vcb_node.dg
Table 7.5-43 St_re_vcb_node
SMD-011-PMA210
Page:825(877)
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Type
N a m e
Default
Remarks
byte
vmp_id
Key
full equip MAX_VCB:8
byte
link_id
key
full equip (MAX_SUB_LINK:32)
byte
equip
Vmp
As many as Node Config below, Equip 1: Equip,
number
0:Not-Equip
STM-1, STM-4, Cell Bus
byte
link_type
(LINK_TYPE_NONE(0),LINK_TYPE_STM1(1),LINK_TYPE
_STM12(2),
LINK_TYPE_STM14(3),
LINK_TYPE_E1(4),
LINK_TYPE_T1(5))
byte
link_status
Link status
LINK_STS_NONE(0), LINK_STS_ACTIVE(1),
LINK_STS_ONL_BLOCK(2), LINK_STS_MMC_BLOCK(3)
byte
connect_type
End-User’s own ID connected to Link
(see Appendix Connection ID)
byte
fabric_no
Index(0~8) of total APCs
0 : VCMA APC0
byte
reserved[7]
7.5.6.4. St_re_alb_node.dg
Table 7.5-44 St_re_alb_node
Type
N a m e
default
Remarks
byte
alma_id
key
full equip (MAX_ALMA:2)
byte
link_id
key
full equip (MAX_ALS_LINK:16)
byte
equip
As many as Node Config below, Equip 1: Equip,
0:Not-Equip
byte
link_type
STM-1, STM-4, Cell Bus
(LINK_TYPE_NONE(0),LINK_TYPE_STM1(1),LINK_TYPE
_STM12(2),
LINK_TYPE_STM14(3),
LINK_TYPE_E1(4),
LINK_TYPE_T1(5))
byte
link_status
Link status
LINK_STS_NONE(0), LINK_STS_ACTIVE(1),
LINK_STS_ONL_BLOCK(2), LINK_STS_MMC_BLOCK(3)
SMD-011-PMA210
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byte
connect_type
End-User’s own ID connected to Link
(see Appendix Connection ID)
byte
fabric_no
Index(0~8) of total APCs
0 : ALMA APC0
byte
reserved[7]
7.5.6.5. St_re_bs_atm_node.dg
Table 7.5-45 St_re_bs_atm_node
Type
N a m e
default
Remarks
byte
Bs_id
key
full equip MAX_BS:48
byte
link_id
key
full equip
byte
equip
bs
As many as Node Config below, Equip 1: Equip,
number
0:Not-Equip
STM-1, STM-4, Cell Bus
byte
link_type
(MAX_SUB_LINK:32)
(LINK_TYPE_NONE(0),LINK_TYPE_STM1(1),LINK_TYPE
_STM12(2),
LINK_TYPE_STM14(3),
LINK_TYPE_E1(4),
LINK_TYPE_T1(5))
byte
link_status
Init/Active/Block
LINK_STS_NONE(0), LINK_STS_ACTIVE(1),
LINK_STS_ONL_BLOCK(2),
LINK_STS_MMC_BLOCK(3))
byte
connect_type
End-User’s own ID connected to Link
(see Appendix Connection ID)
byte
Fabric_no
index(0~8) of total APCs
0 : BCRA APC0
byte
reserved[7]
7.5.6.6. St_re_rnc_bs_trunk.dg
Table 7.5-46 St_re_rnc_bs_trunk
Data
Type
byte
N a m e
default
Remarks
alma_id
key
full equip MAX_ALMA: 2
SMD-011-PMA210
Page:827(877)
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byte
alpa_id
key
full equip MAX_ALPA: 5
byte
link_id
key
full equip MAX_ALS_LINK: 16
byte
equip
BS
LINK_NOT_EQUIP(0), LINK_EQUIP(1)
dependent
byte
link_type
E1, T1, STM-1
(LINK_TYPE_NONE(0),LINK_TYPE_STM1(1),LINK_TY
PE_STM12(2),
LINK_TYPE_STM14(3),
LINK_TYPE_E1(4),
LINK_TYPE_T1(5))
byte
link_status
LINK_STS_NONE(0), LINK_STS_ACTIVE(1),
LINK_STS_ONL_BLOCK(2), LINK_STS_MMC_BLOCK(3)
byte
bs_id
byte
alloc_type
Link Peer BS/BTS ID
PVC Active/PVC Standby/SVC
ALLOC_NONE(0),ALLOC_PVC_ACT(1),
ALLOC_PVC_STB(2), ALLOC_SVC(3))
byte
peer_lica_no
BS Lica Index (0, 1, 2)
byte
peer_lica_li
BS Lica Link Index (0~15)
nk_no
byte
peer_status
Init/Active/Block
LINK_STS_NONE(0),
LINK_STS_ACTIVE(1),
LINK_STS_ONL_BLOCK(2),
LINK_STS_MMC_BLOCK(3))
word32
aal2_vpci
word32
reserved
AAL2 VPI/VCI
7.5.6.7. St_re_rnc_addr.dg
St_re_rnc_addr
Type
N a m e
default
Remarks
byte
shelf_id
key
full equip (MAX_RNC_SHELF: 20)
byte
slot_id
key
full equip (MAX_RNC_SLOT: 22)
byte
equip
‘0’
Equit/Not Equip
byte
Bd_type
Processor/Device Board Type(TBD)
byte
No_sub
Number of processors to be mounted
byte
reserved
Not Used
SMD-011-PMA210
Page:828(877)
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word32
addr[8]
Each Processor IP Address
7.5.6.8. St_re_bs_addr.dg
St_re_bs_addr
Type
N a m e
default
Remarks
byte
bs_id
key
full equip MAX_BS: 48
byte
shelf_id
key
full equip (MAX_BS_SHELF: 12)
byte
slot_id
key
full equip (MAX_BS_SLOT: 22)
byte
equip
‘0’
Equit/Not Equip
byte
bd_type
Processor/Device Board Type(TBD)
byte
no_sub
Number of processors mounted
byte
reserved
Not Used
word32
addr[8]
Each Processor IP Address
7.5.6.9. St_re_atm_pvc.dg
Table 7.5-47 St_re_atm_pvc
Type
N a m e
default Remarks
byte
dummy
key
word16
no_entry
# of Valid Entries, defined PVC information
number (~4096)
word16
reserved
byte
equipage[4096]
Equip Flag
byte
node_a[4096]
Peer1 connection ID (Ingress Node Conn. ID)
byte
sub_a[4096]
Peer1 Logical Info
byte
node_b[4096]
Peer2 Connection ID
byte
sub_b[4096]
Peer2 Logical info
byte
no_vc[4096]
Number of VC to be used between Allocated VC
(Egress Node Conn. ID)
Number Peers
byte
link_type[4096]
Link
LINK_AAL2(0), LINK_AAL5(1), LINK_TEST(2)
word16
link_bw[4096]
SMD-011-PMA210
0x100
VC Link Bandwidth
Page:829(877)
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(Cell Bandwidth(~0x40) to be assigned to
Link)
word32
vpci_a[4096]
Peer1 VPI/VCI (Ingress VPCI)
word32
vpci_b[4096]
Peer2 VPI/VCI (Egress VPCI)
7.5.6.10. St_re_slb_pvc.dg
Table 7.5-48 St_re_slb_pvc
Type
N a m e
default Remarks
byte
dummy
key
word16
no_entry
# of Valid Entries, defined PVC information
number (~512)
word16
reserved
byte
equipage[512]
byte
node_a[512]
Peer1 connection ID (Ingress Node Conn. ID)
byte
sub_a[512]
Peer1 Logical Info
byte
node_b[512]
Peer2 Connection ID
byte
sub_b[512]
Peer2 Logical info
byte
no_vc[512]
Number of VC to be used between Allocated VC
(Egress Node Conn. ID)
Number Peers
byte
link_type[512]
Link
LINK_AAL2(0), LINK_AAL5(1), LINK_TEST(2)
word16
link_bw[512]
0x100
VC Link Bandwidth
(Cell Bandwidth(~0x40) to be assigned to Link)
word32
vpci_a[512]
Peer1 VPI/VCI (Ingress VPCI)
word32
vpci_b[512]
Peer2 VPI/VCI (Egress VPCI)
7.5.6.11. St_re_vcb_pvc.dg
Table 7.5-49 St_re_vcb_pvc
Type
N a m e
default Remarks
byte
dummy
key
word16
no_entry
# of Valid Entries, defined PVC information
number (~512)
SMD-011-PMA210
Page:830(877)
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word16
reserved
byte
equipage[512]
byte
node_a[512]
Peer1 connection ID (Ingress Node Conn. ID)
byte
sub_a[512]
Peer1
Logical
Info
(measns
final
peer
connection)
byte
node_b[512]
Peer2 Connection ID
(Egress Node Conn. ID)
byte
sub_b[512]
Peer2 Logical info
byte
no_vc[512]
Number of VC to be used between Allocated VC
Number Peers
byte
link_type[512]
Link
LINK_AAL2(0), LINK_AAL5(1), LINK_TEST(2)
word16
link_bw[512]
0x100
VC Link Bandwidth
(Cell Bandwidth(~0x40) to be assigned to Link)
word32
vpci_a[512]
Peer1 VPI/VCI (Ingress VPCI)
word32
vpci_b[512]
Peer2 VPI/VCI (Egress VPCI)
7.5.6.12. St_re_alb_pvc.dg
Table 7.5-50 St_re_alb_pvc
Type
N a m e
default Remarks
byte
dummy
key
word16
no_entry
# of Valid Entries, defined PVC information
number (~512)
word16
reserved
byte
equipage[512]
byte
Node_a[512]
Peer1 connection ID (Ingress Node Conn. ID)
byte
sub_a[512]
Peer1 Logical Info
byte
Node_b[512]
Peer2 Connection ID
byte
sub_b[512]
Peer2 Logical info
byte
no_vc[512]
Number of VC to be ysed between Allocated VC
(Egress Node Conn. ID)
Number Peers
byte
Link_type[512]
Link
LINK_AAL2(0), LINK_AAL5(1), LINK_TEST(2)
word16
Link_bw[512]
SMD-011-PMA210
0x100
VC Link Bandwidth
Page:831(877)
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word32
vpci_a[512]
Peer1 VPI/VCI (Ingress VPCI)
word32
vpci_b[512]
Peer2 VPI/VCI (Egress VPCI)
7.5.6.13. St_re_loc_bs_pvc.dg
Table 7.5-51 St_re_loc_bs_pvc
Type
N a m e
default Remarks
byte
dummy
key
word16
no_entry
# of Valid Entries, defined PVC information
number (~512)
word16
reserved
byte
equipage[512]
byte
node_a[512]
Peer1 connection ID (Ingress Node Conn. ID)
byte
sub_a[512]
Peer1 Logical Info
byte
node_b[512]
Peer2 Connection ID
byte
sub_b[512]
Peer2 Logical info
byte
no_vc[512]
Number of VC to be used between Allocated VC
(Egress Node Conn. ID)
Number Peers
byte
link_type[512]
Link
LINK_AAL2(0), LINK_AAL5(1), LINK_TEST(2)
word16
link_bw[512]
0x100
VC Link Bandwidth
word32
vpci_a[512]
Peer1 VPI/VCI (Ingress VPCI)
word32
vpci_b[512]
Peer2 VPI/VCI (Egress VPCI)
7.5.6.14. St_re_out_bs_pvc.dg
Table 7.5-52 St_re_out_bs_pvc
Type
N a m e
default Remarks
byte
bs_id
key
word16
no_entry
word16
reserved
byte
equipage[512]
SMD-011-PMA210
full equip MAX_BS : 48
# of Valid Entries (~512)
According to bs equip, out_bs_pvc.inf
Page:832(877)
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byte
node_a[512]
Peer1 connection ID (Ingress Node Conn. ID)
byte
sub_a[512]
Peer1 Logical Info
byte
node_b[512]
Peer2 Connection ID
byte
sub_b[512]
Peer2 Logical info
byte
no_vc[512]
Number of VC to be used between Allocated VC
(Egress Node Conn. ID)
Number Peers
byte
link_type[512]
Link
LINK_AAL2(0), LINK_AAL5(1), LINK_TEST(2)
word16
link_bw[512]
0x100
VC Link Bandwidth
word32
vpci_a[512]
Peer1 VPI/VCI (Ingress VPCI)
word32
vpci_b[512]
Peer2 VPI/VCI (Egress VPCI)
7.5.6.15. St_re_atm_svc.dg
Table 7.5-53 St_re_atm_svc
defau
Type
N a m e
byte
Dummy
word16
no_entry
# of Valid Entries (~4096)
byte
no_hdr
Header
lt
Remarks
key
Address
Length
(Upper
ATM
Address
Length)
byte
reserved
byte
addr_hdr[20]
ATM Upper Address Id
byte
equipage[512]
Equip Flag
byte
a_mask1[512][10]
Peer1 Address Mask
byte
addr1[512][10]
Peer1 Address
byte
a_mask2[512][10]
Peer2 Address Mask
byte
addr2[512][10]
Peer2 Address
byte
no_vc[512]
Allocated VC Number
word32
atm_id1[512]
Peer1 VC Ids’ List
word32
atm_id2[512]
Peer2 VC Ids’ List
byte
link_type[512]
Link Usage
(LINK_AAL2(0), LINK_AAL5(1), LINK_TEST(2))
word16
link_bw[512]
SMD-011-PMA210
Cell Bandwidth(~0x40) to be assigned to VC
Page:833(877)
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Link BandWidth(TBD,Link)
7.5.6.16. St_re_rnc_net_cfg.dg
Table 7.5-54 St_re_rnc_net_cfg
Type
N a m e
default
Remarks
byte
rnc_net_shelf_id
key
full equip (MAX_RNC_NET_SHELF: 2)
byte
rnc_net_slot_id
key
full equip (MAX_RNC_SLOT: 22)
byte
Equip
‘0’
byte
bd_type
Network Board Type
byte
no_sub
# of Sub Device
byte
no_link
# of Physical Link
byte
hw_ctrl
HW Reset
byte
link_type[MAX_LINK]
: 0(Init), 1, 2, 3 added
Physical
Link
Type
STM1,
E1,...(MAX_LINK: 64)
(LINK_TYPE_NONE(0),LINK_TYPE_STM1(1),
LINK_TYPE_STM12(2),LINK_TYPE_STM14(3),
LINK_TYPE_E1(4), LINK_TYPE_T1(5))
byte
sub_type[MAX_SUB]
Sub Device Type (MAX_SUB : 16)
(SBTYPE_NONE(0),
SBTYPE_APC(1),
SBTYPE_APPD(2))
byte
sub_id[MAX_SUB]
Sub
Device
ID:Device
Serial
Number
(MAX_SUB : 16)
7.5.6.17. St_re_bs_net_cfg.dg
Table 7.5-55 St_re_bs_net_cfg
Type
N a m e
default Remarks
byte
bs_id
key
full equip MAX_BS: 48
byte
bs_net_slot_id
key
full equip (MAX_BS_SLOT: 22)
byte
Equip
‘0’
Equip Flag
byte
bd_type
Network Board Type
byte
no_sub
# of Sub Device
byte
no_link
# of Physical Link
SMD-011-PMA210
Page:834(877)
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byte
link_type[MAX_LINK]
Physical Link Type : STM1, E1,...(MAX_LINK:
64)
(LINK_TYPE_NONE(0),LINK_TYPE_STM1(1),
LINK_TYPE_STM12(2),LINK_TYPE_STM14(3),
LINK_TYPE_E1(4), LINK_TYPE_T1(5))
byte
sub_type[MAX_SUB]
Sub Device Type (MAX_SUB : 16)
(SBTYPE_NONE(0),
SBTYPE_APC(1),
SBTYPE_APPD(2))
byte
sub_id[MAX_SUB]
Sub
Device
ID:Device
Serial
Number
(MAX_SUB : 16)
7.5.6.18. St_re_rnc_net_data.dg
Table 7.5-56 St_re_rnc_net_data
Type
N a m e
Default
Remarks
byte
dummy
Key
byte
msc_id
msc_no
Core Network ID
byte
rnc_id
bsc_no
My RNC ID
byte
can_equip
can_eqp
CAN Equipage
byte
no_addr_hdr
byte
rnc_equip[MAX_RNC]
rnc_eqp
RNC Equipage (MAX_RNC : 12)
byte
bs_equip[MAX_BS]
bs_eqp
BS Equipage (MAX_BS : 48)
byte
smp_equip[MAX_SLBU]
smp_eqp
SLBU Equipage (MAX_SLBU : 5)
byte
reserved[3]
word32
bs_svc_id[MAX_BS]
ATM Address Header Len
BS SSCF-UNI Signalling VC ID (MAX_BS :
48)
byte
atm_addr_hdr[20]
byte
cn_conn_type[2]
11 12
CN Connection ID
byte
can_conn_type[2]
9 10
CAN Connection ID
byte
slb_conn_type[MAX_S
ATM Address Header
In IS-2000
0 : CAN, 1 : CAN-D
In IMT-2000
0 : CAN0, 1 : CAN1
16~20
SLBU Connection ID (MAX_SLBU : 5)
21~28
VCBU Connection ID
LBU]
byte
vcb_conn_type[MAX_V
SMD-011-PMA210
Page:835(877)
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CBU]
byte
als_conn_type[4]
5~8
ALSU Connection ID
byte
pip_conn_type[8]
29~36
PIP Connection ID
byte
cmp_conn_type
15
CMP connection ID
byte
reseved[6]
word32
ccp_addr
CCP IP Address
word32
alp_addr
ALP IP Address
word32
cnp_addr[2]
CNP/CNP-D IP Address
0 : CNP Address, 1 : PNP Address
word32
smp_addr[MAX_SLBU]
word32
asmu_addr[16]
SMP IP address (MAX_SLBU : 5)
2 ~ 17
ASMU Device Network Addr (for HDLC)
0: ASCA_A, 1: ASCA_B, 2: ASIA0_A, 3:
ASIA0_B,
4: ASIA1_A, 5: ASIA1_B, 6: ASIA2_A, 7:
ASIA2_B,
8: ASIA3_A, 9: ASIA3_B, 10: AOTA0, 11:
AOTA1,
12: AOTA2, 13: AOTA3, 14: ATSA0, 15:
ATSA1
7.5.6.19. St_re_rnc_iur_con.dg
Table 7.5-57 St_re_rnc_iur_con
‘Type
N a m e
default
byte
Dummy
key
word32
start_aal2_vc_id[MAX_RNC] *1 below
AAL2 Start VC Id (MAX_RNC : 12)
word16
no_aal2_vc
Number of AAL2 VCs
word16
Reserved
32
Remarks
‘
7.5.6.20. St_re_rnc_iub_con.dg
Table 7.5-58 St_re_rnc_iub_con
Type
N a m e
default Remarks
byte
bs_id
key
SMD-011-PMA210
MAX_BS : 48
Page:836(877)
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STAREX-IS BSM Manual
word32
AAL2 Start VC Id.
aal2_vc_id
[MAX_LICA][MAX_LICA_LINK]
MAX_LICA : 3, MAX_LICA_LINK : 16
7.5.6.21. St_re_rnc_slb_con.dg
Table 7.5-59 St_re_rnc_slb_con
Type
N a m e
default Remarks
byte
Dummy
key
word32
start_aal5_vc_id[20]
word16
no_aal5_vc
word16
Reserved
Applied to all SMPs in the same way
AAL5 Start VC Id
1024
20VPs
Number of AAL5 VCs
20VPs
7.5.6.22. St_re_rnc_vcb_con.dg
Table 7.5-60 St_re_rnc_vcb_con
Type
N a m e
default Remarks
byte
Dummy
key
word32
start_aal5_vc_id[20]
word16
no_aal5_vc
word16
reserved
Applied to all VMPs in the same way
AAL5 Start VC Id
128
20VPs
Number of AAL5 VCs
20VPs
7.5.6.23. St_re_rnc_alsu5_con.dg
Table 7.5-61 St_re_rnc_alsu5_con
Type
N a m e
default
byte
Dummy
key
word32
start_aal5_vc_id[MAX_ALMA][
AAL5 Start VC Id
MAX_ALPA][2]
(MAX_ALMA : 2,MAX_ALPA : 5)
word16
no_aal5_vc
word16
Reserved
2048
Remarks
Number of AAL5 VCs
20VPs
20VPs
7.5.6.24. St_re_bs_net_data.dg
Table 7.5-62 St_re_bs_net_data
SMD-011-PMA210
Page:837(877)
Issue:1.0
STAREX-IS BSM Manual
Type
N a m e
default
Remarks
byte
bs_id
key
full equip MAX_BS : 48
byte
msc_id
msc_no
Core Network ID
byte
rnc_id
rnc_no
My RNC ID
byte
bs_id
bs_no
My BS ID
byte
no_addr_hdr
ATM Address Header Len
byte
atm_addr_hdr[20]
ATM Address Header
byte
lica_conn_type[3]
byte
reserved
word32
svc_id
146 147 148
LICA Connection ID
[4/37] =
BS SSCF-UNI Signalling VC
0x40025
word32
crp_addr
CRP IP Address
word32
banu_addr[5]
BANU Device Network Addr
7.5.6.25. St_re_bs_iub_con.dg
Table 7.5-63 St_re_bs_iub_con
Type
N a m e
default Remarks
byte
bs_id
key
word32
aal2_vc_id
AAL2 VC Id
[MAX_LICA][MAX_LICA_LINK]
MAX_LICA: 3
MAX_BS: 48
MAX_LICA_LINK:16
7.5.6.26. St_re_bs_rcu5_con.dg
Table 7.5-64 St_re_bs_rcu5_con
Type
N a m e
default Remarks
byte
bs_id
key
full equip
MAX_BS: 48
word32
start_aal5_vc_id[MAX_RCU_
AAL5 Start VC ID
NODE][MAX_LICA]
(MAX_RCU_NODE : 10, MAX_LICA:3)
word16
no_aal5_vc[MAX_LICA]
word16
reserved
512
Number of AAL5 VCs
7.5.6.27. St_re_rnc_als_net_data.dg
Table 7.5-65 St_re_rnc_als_net_data
SMD-011-PMA210
Page:838(877)
Issue:1.0
STAREX-IS BSM Manual
Type
N a m e
default
Remarks
byte
dummy
key
byte
msc_id
msc_no
MSC ID
byte
rnc_id
rnc_no
RNC/BSC ID
byte
reserved
word32
ncp_addr
NCP Network Address
word32
alsu_addr[16]
ALS Device Network Addr
7.5.6.28. St_re_rnc_cmp5_con.dg
Table 7.5-66 St_re_rnc_cmp5_con
Type
N a m e
default
byte
dummy
key
word32
start_aal5_vc_id [10/32] =
Remarks
AAL5 Start VC Id.
0xA0020
word16
no_aal5_vc
word16
reserved
1024
#of AAL5 VCs
7.5.7. SCP ONLY
7.5.7.1. St_Lnit_dataSL.dg
Table 7.5-67 St_Lnit_dataSL
Type
N a m e
byte
dummy
word16
act_cspu
default
Remarks
1:
CSPU_P(Primary)
2:
CSPU_S(Secondary)
int
own_pc
3(bsc00)
Local signaling point code
int
adj_pc
0x050f : PCS
Remote signaling point code
0x040f
: DCN
word16
tot_slk
Total number of Available Signal link
word16
link_st[16]
0~3 : 1
Signaling link status (0: unavailable
rest: 0
1:available)
0 : slc_no[0]
Signaling link code
word16
slc_no[16]
SMD-011-PMA210
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1 : slc_no[1]
2 : slc_no[2]
3 : slc_no[3]
255 : rest
word16
vmp_no[16]
0 : vmp_no[0]
0 : vmp_no[1]
0 : vmp_no[2]
0 : vmp_no[3]
255 : rest
word16
trk_no[16]
16:trk_no[0]
Signal data link code
48: trk_no[1]
80: trk_no[2]
112: trk_no[3]
0xffff: rest
byte
reserved_byt
e[35]
7.5.7.2. St_Lnit_dataST.dg
Table 7.5-68 St_Lnit_dataST
Type
N a m e
default
Remarks
byte
dummy
word16
tot_st
Total number of signal terminal
word16
st_st[16]
1: st_st[0~3]
Signal terminal state (
2: st_st[4~15] 1: available
word16
sl_no[16]
0 : sl_no[0]
Signal
1 : sl_no[1]
terminal
link
0: unavailable
2: Not Equip
number
linked
to
signal
2 : sl_no[2]
3 : sl_no[3]
255 : rest
byte
reserved_byt
e[34]
7.5.7.3. St_MLtwo_timer.dg
Table 7.5-69 St_MLtwo_timer
SMD-011-PMA210
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Issue:1.0
STAREX-IS BSM Manual
Type
N a m e
default
Remarks
byte
dummy
key
word16
T1
45000(msec)
Timer “alignment ready”(40~50sec)
word32
T2
0xffff(msec)
Timer “not aligned”(5~150sec)
word16
T3
1250(msec)
Timer “aligned”(1-2sec)
word16
T4n
8000(msec)
Normal
proving
period
at
64
kbit/s(7.5~9.5sec)
word16
T4e
500(msec)
Emergency
proving
period
at
64kbit/s(400~600 msec)
word16
T5
100(msec)
Timer “sendig SIB”(80~120 msec)
word16
T6
4500(msec)
Timer “remote congestion”(3~5sec)
word16
T7
1250(msec)
Timer
“excessive
delay
of
an
acknowledgement”(0.5~2sec)
byte
reserved[20]
7.5.7.4. St_MLthree_timer.dg
Table 7.5-70 St_MLthree_timer
Type
N a m e
default
Remarks
byte
dummy
key
word16
T1
1000(msec)
Delay time of 500-1200 msec to prevent message
mis-sequencing upon changeover
word16
T2
2000(msec)
700-2000 msec that waits changeover ack
word16
T3
1000(msec)
1. Although implemented in code, it is not
used.
2. delay time of 500-1200 msec to prevent
message mis-sequencing upon changeback by
MTP
restart
(Time
controlled
diversion
procedures)
word16
T4
1000(msec)
Time of 500-1200 msec to wait changeback ack
word16
T5
1000(msec)
500-1200 msec to wait changeback ack
word16
T12
1000(msec)
800-1500 msec that waits uninhibit ack
word16
T13
1000(msec)
800-1500 msec that waits force uninhibit
word16
T14
2000(msec)
2000-3000 msec that waits inhibition ack
word16
T17
5000(msec)
800-5000 msec from Initial alignment failure
SMD-011-PMA210
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to next initial alignment command
word16
T22
240(sec)
Local inhibit test timer3-6 minutes
word16
T23
240(sec)
Remote inhibit test timer3-6 minutes
word16
SLTackT
5(sec)
Time to wait for signal link test answer, with
range of 4sec~12sec
byte
reserved[2
0]
7.5.7.5. St_SCCP_timer.dg
Table 7.5-71 St_SCCP_timer
Type
N a m e
default
Remarks
byte
dummy
key
word16
T_conne_est
20(sec)
1-2 minutes to wait connection confirm
word16
T_ias
300(sec)
Delay time of 5-10 minutes used to conduct
inactivity test on connection section
word16
T_iar
660(sec)
Waiting
time
of
11-21
minutes
to
receive
message on connection section
byte
T_rel
10(sec)
Waiting time of 10-20 sec to receive release
complete message
word16
T_int
10(sec)
1. although implemented in source, it is not
used.
2. upon connection release, it is the time to
freeze corresponding LRN for a certain time
to prevent the use of the same LRN
Extending to 1 minutes
word16
T_stat_info
30(sec)
Interval
that
requests
Subsystem
status
information
Increasing value, 5-10 sec ~ 10-20 min
byte
reserve[20]
7.5.8. CCP/BSP COMMON
7.5.8.1. St_bts_data_type.dg
Table 7.5-72 St_bts_data_type
SMD-011-PMA210
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Type
N a m e
default
Remarks
byte
bts_id
full
byte
EquipPage
Equip dependent
0 : Not Equip
word16
Sid
0x08ae
As System Identification Number, 0 ~
1 : Equip
32767(215 -1)
word16
Nid
15
As
Netword
Identification
Number,
Network is system subset.
word16
base_id
Base
Station
Identification
Number(BTS’s own number)
byte
bts_class
0(DCN)
Base Station Class
(base_class)
1(PCS)
Upon
‘0000’,
Public
Micorcelluar
System(800Mhz)
Upon ‘0001’, Public PCS System(1900Mhz
or 1800Mhz)
byte
sys_type
0 : LGT PCS
1 : NW PCS
2 : JT
3 : GIGA PCS
PCS
4 : CHINA PCS
6 : WLL
5 : BRAZIL PCS
PCS
7 : RUSSIA PCS
byte
bts_type
1 ~ 9
bts type identification
(STANDARD: 1)
byte
Sector_range
MAX Sector number of current system
word16
reg_zone
As Registration zone (SID+NID+ZONE_ID),
Network Subset.
byte
pkt_zone
Zone ID for PCF Data call
Int32
ltm_off
18
Offset of local time from System time.
Offset of local time from UTC
current local time = SYS_TIME - LP_SEC
+ ltm_off
ltm_off = 18 ( 30 minutes per unit,
i.e., 9 hour difference)
* LP_SEC :
Number of Leap seconds that
occurred since
the
start
of
System
Time.
boolean
day_lt
Daylight saving time flag (Summer time)
1 : day lighting saving time
0 : standard time
word16
CDMA_FREQ
SMD-011-PMA210
425
Primary CDMA Channel Number. – Sync Msg
Page:843(877)
Issue:1.0
STAREX-IS BSM Manual
word16
EXT_CDMA_FREQ 525
Upon use of RC3 or more or QPCH, see
this field.
byte
Prat
byte
no_ccp
paging channel data rate
equipage information of CCP
0 = equip
1 = Not equip
int32
base_lat
BS latitude
int32
base_long
BS longitude
byte
pilot_inc
Pilot_PN_Offset value increases
byte
turbo_encode_ 0
0 : Turbo Encoding not used
flag
1 : Turbo Encoding used
reverse_pwr_f 1
0 : Reverse Link Power Control not used
lag
1 : Rerverse Link Power Contorl used
byte
byte
reserved_byte 0
7.5.8.2. St_sector_data_type.dg
Table 7.5-73 St_sector_data_type
Type
N a m e
defaul Remarks
byte
bts_id
full
BTS Identification
byte
sector_id
full
Sector Identification
byte
EquipPage
0 : Not Equip
byte
num_of_cdma_ch
CDMA channel insertion number
word16
pilot_pn_offset
offset of Pilot Pn from zero shifted PN
byte
sector_cai_rev
1 : Equip
( 1 ~ 8 )
CAI (Common Air Interface)
revision supported by base station
current BS S/W Version
1: IS95(Cellular),J-STD-008(PCS)
2: IS95A(Cellular)
3: TSB74(Cellular)
4,5: IS95B(Cellular,PCS)
6: IS-2000(Cellular,PCS)
byte
sector_cai_min_rev 1
CAI Minumum revision supported by
base station
minimum version that BS can support to MS
byte
call_control_para
SMD-011-PMA210
Upon
call
congestion,
by
changing
CAI
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STAREX-IS BSM Manual
revision, it can increase the number of calls
that can be provided.
Enable/disable flag of
corresponding function.
byte
reserved_byte[32]
7.5.8.3. St_cdmach_data_type.dg
Table 7.5-74 St_cdmach_data_type
Type
N a m e
default Remarks
byte
bts_id
full
BTS Identification
byte
cdmach_id
full
CDMA Channel Identification
byte
EquipPage
word16
freq_band
word16
cdmach_num
byte
tce_reserved_4ho
20
Handoff preparatory traffic channel ratio ( %)
byte
MAX_SCH_ALLOC_RATE 50
Parameter to determine the upper limit of
0 : Not Equip
1800
1 : Equip
Frequency Bandwidth
number of cdmach channel
supplemental channel
byte
reserve[2]
byte
reserved_byte[34]
7.5.8.4. St_sys_param_msg_data_type.dg
Table 7.5-75 St_sys_param_msg_data_type
Type
N a m e
default
Remarks
byte
bts_id
full
BTS Identification
byte
sector_id
full
Sector Identification
byte
cdmach_id
full
CDMA Channel Identification
Number of Registration Zones
As the number of location registration to be
byte
total_zones
held for use in Zone_based Registration, it
can be saved up to 7EA, and if components more
than it reside in ZONE_ LIST, MS removes the
oldest component.
byte
zone_timer
SMD-011-PMA210
When
executing
Zone-Based
Registration,
it
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STAREX-IS BSM Manual
holds
ZONE_LIST,
and
it
is
field
to
determine duration that an entry in ZONE_LIST
is removed from list.
That is, the loggest entry from ZONE_LIST is
the priority.
000(1 min),001(2 min),010(5 min),011(10 min),
100(20
min),101(30
min),110(45
min),111(60
min)
As
boolean
home_reg
Home
registration
ID,
to
enable
auto
location registration, set this field to ‘1’,
and to disable that, set that to ‘0’.
multiple SID save indicator
If several elements that hold different SID in
Boolean
mult_sids
SID_NID_LIST are saved, set that to ‘1’, and
in other case, set that to ‘0’.
A maximum of
4EA can be saved.
multiple NID save indicator
Boolean
mult_nids
If several elements that hold different NID in
SID_NID_LIST are saved, set that to ‘1’, and
in other case, set that to ‘0’.
maximum slot cycle index
BS sets the length of allowed maximum slot
cycle to SLOT_CYCLE_INDEX.
byte
max_sci
The length of the slot cycle(T) = 2i
where i is the slot cycle index.
Slot mode operation : method to monitor only
1slot or 2slot assigned to corresponding MS
for one slot_cycle
boolean
for_nid_reg
NID roamer location registration indicator
boolean
for_sid_reg
SID roamer location registration indicator
Upon personal station registration, if it is
boolean
power_up_reg
registered right before power ON, set that to
‘1’, and if not, set that to ‘0’.
Upon personal station registration, if it is
boolean
power_down_reg 1
registered right before power OFF, set that to
‘1’, and if not, set that to ‘0’.
SMD-011-PMA210
Page:846(877)
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STAREX-IS BSM Manual
boolean
parameter_reg
Parameter-change registration indicator
This is used for the calculation of MAX value
counted to execute Timer based registration,
byte
reg_prd
64
and Timer based registration is executed when
counter
reaches
REG_COUNT_MAX
is
REG_COUNT_MAX,
calculated
as
and
follows:
REG_COUNT_MAX = [ 2reg_prd/4 ]
registration distance
0 : Personal Stations are not to perform
word16
reg_dist
distance based registration.
Other than 0: Personal Stations are to perform
distance based registration.
ref : means 7.8m per unit.
byte
srch_win_a
search window size for the active set
byte
srch_win_n
search window size for the nghbr set
byte
srch_win_r
10
search window size for the Remaining set
byte
nghbr_max_age
Maximum age for retention of Neighbor set
member
power control reporting threshold
As power control report threshold, set thi
byte
pwr_rep_thresh 4
snumber
before
MS
measures
TOT_FRAMES
and
BAD_FRAMES and reports corresponding message
to BTS to transmit this value to BTS.
power control reporting frame count.
byte
pwr_rep_frames 7(frames)
Num fwd tc frames for Total count
pwr_rep_frames = 2**(pwr_rep_frames/2) *5
Threshold report mode indicator
if (1) then pwr_rep_thresh = 00000
boolean
pwr_thresh_enab
le
If MS frame error rate reaches to threshold,
it reports statistics.
if
(0)
then
it
prevents
that
from
its
transmitting to MS.
Periodic report mode indicator
Boolean
pwr_period_enab
le
if (0) then it prevents that from its sending
periodic power measuremtn msg to to MS.
if (1) then MS reports frame error rate at
SMD-011-PMA210
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STAREX-IS BSM Manual
certain intervals.
power report mode delay(min time between power
byte
pwr_rep_delay
requests)
time from MS report to reattempt.
After receiving this system parameter, for
boolean
rescan
reinitialization or system reobtaining, set
this fiel to ‘1’, and if not, set that to ‘0’.
As pilot detection threshold, this is used to
byte
t_add
26
determine whether to transmit Pilot Strength
Measurement Messag.
BTS sets this field as
pilot detection threshold.
As pilot release threshold, this is used to
byte
t_drop
30
run Handoff release timer.
BS sets this field
as pilot release threshold.
As a comparative threshold, MS, if candidate
group
byte
t_comp
pilot
strength
is
lager
than
pilot
strength of active group by more than this
field, transmits Pilot Strength Measurement
Message.
As release timer value, if pilot strength
falls below T_DROP, this is timer value until
byte
t_tdrop
certain activation.
This is managed by MS and
managed regarding each pilot of active group
and candidate group.
byte
byte
byte
ext_sys_paramet
er
ext_nghbr_list
DCN: 0
PCS:1
GEN_NGHBR_LIST 1
Is there another sys_parameter?
BS
sets
this
transmission
filed
of
to
Extended
‘1’
to
indicate
Neighbor
List
Message.
Field to check if BS uses General NGHBR_LIST
Msg through Paging Channel Message
Global Service Redirection Message indicator
BS, to transmit Global Redirection Message,
byte
global_redirect 0
sets this field to 1, and if not, set that to
0.
At areas where both Amps and CDMA are used,
SMD-011-PMA210
Page:848(877)
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STAREX-IS BSM Manual
only one side should be used
( 0 : not changed
1 : change subject to message
byte
PRI_NGHBR_LIST
byte
USER_ZONE_ID
byte
byte
byte
Field for BS to check the status of Private
NGHBR_LIST Msg through Paging Channel Message
Field to check the status of User_zone_id Msg
through Paging Channel Message
Field
EXT_GLOBAL_REDI
to
check
Ext_global_redirection
RECT
the
Msg
status
through
of
Paging
Channel Message
EXT_CHAN_LIST
reserved_byte[3
2]
Field to check the status of Ext_channel_list
Msg through Paging Channel Message
7.5.8.5. St_ext_sys_param_msg_data_type.dg
Table 7.5-76 St_ext_sys_param_msg_data_type
Type
N a m e
default Remarks
byte
bts_id
full
BTS Identification
byte
sector_id
full
Sector Identification
byte
cdmach_id
full
CDMA Channel Identification
byte
pref_msid_type 3
Preferred
Access
Channel
Personal
Station
Identifier Type
010 : IMSI
011 : IMSI and ESN
110 : TMSI(valid TMSI is assigned)
IMSI(TMSI not assigned)
111 : TMSI(valid TMSI is assigned)
IMSI and ESN(TMSI not assigned)
Other value is reserved.
word16
mcc
349
Mobile Country Code
byte
imsi_11_12
99
imsi : International Mobile Station Identity
imsi_11_12
byte
tmsi_zone_len
is 11th, 12nd digits of imsi.
TMSI(Temporary Mobile Station Identity)
As temporary personal station identifier,
SMD-011-PMA210
it
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consists of tmsi_zone and tmsi_code.
BS sets
this field as the number of octet included in
tmsi_zone.
Byte
tmsi_zone[8]
Length : 8*tmsi_zone_len
byte
bcast_index
To enable periodic broadcast paging, BS sets
this field to ‘1~7’, and if not, set that to ‘0’.
byte
IMSI_T_SUPPORT
ED
byte
P_REV
Protocol revision level
BS sets this filed to ‘00000110’.
(8bit)
0 : 95
1 : JSTD-008 (PCS)
2 : 95A
3 : TSB74
4,5: 95B(based on completion ratio) – DCN, PCS
byte
MIN_P_REV
(8bit)
Minimum protocol revision level.
Sets protocol revision level that BS can offer
to the minimum.
Band Class0 : 2 ,
byte
Band Class1 : 1
SOFT_SLOPE
Included in the formaula used upon Add/Drop of
(6bit)
pilot to Active Set.
BS sets this filed as unsigned.
byte
ADD_INTERCEPT
The intercept in the inequality criterion for
(6)
adding a pilot to the Active Set
BS sets this filed as complement of 3 in dB
unit.
byte
DROP_INTERCEPT
The intercept in the inequality criterion for
(6)
dropping a pilot to the Active Set
BS sets this filed as complement of 3 in dB
unit.
byte
MAX_NUM_ALT_SO
(3)
Maximum number of alternative service options.
BS makes MS set the number that includes
Origination Message or Page Response Message to
this field.
byte
RESELECT_INCLU
System reselection parameters included.
DED
If BS includes system reselection parameters,
SMD-011-PMA210
Page:850(877)
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STAREX-IS BSM Manual
(1)
set this field to ‘1’, and if not, set this field
to ‘0’.
byte
EC_THRESH
Pilot power threshold.
(0 or 5)
If RESELECT_INCLUDED is set to ‘1’, BS includes
this field and sets that as follows:
(pilot_power_threshold + 115)
pilot_power_threshold
pilot
power(Ec),
and
MS
measns
performs
system
reselection if the output of corresponding pilot
is below this filed.
byte
EC_IO_THRESH
Pilot Ec/Ic threshold.
(0 or 5)
If RESELECT_INCLUDED is set to ‘1’, BS includes
this filed and sets that as follows:
-20 * log10(pilot threshold)
pilot threshold means pilot Ec/Io.
Ec/Io
is
below
this
field,
MS, if
executes
system
reselection.
byte
PILOT_REPORT
Pilot reporting indicator.
(1)
If
this
field
is
set
to
‘1’,
MS
reports
corresponding pilot information.
If it is set to ‘0’, it only reports that to
Originationmessage and Page Responsemesage.
byte
NGHBR_SET_ENTR
Neighbor Set access entry handoff information
Y_IN
included indicator.
FO (1)
If BS includes Neighbor Set access entry handoff
information, set this field to ‘1’, and if not,
set that to ‘0’.
byte
ACC_ENT_HO_ORD
Access entry handoff permitted indicator.
ER
If NGHBR_SET_ENTRY_INFO field is ‘0’, omit this
(0 or 1)
field, and if ‘1’, it allows MS access entry
handoff
while
MS,
In
idle
state,
executes
Mobile Station Order and Message Processing
Operation.
byte
NGHBR_SET_ACCE
Neighbor Set access handoff included indicator.
SS_INFO (1)
If BS includes Neighbor Set access handoff or
access probe handoffinfo, set this field to ‘1’,
SMD-011-PMA210
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and if not, set this field to ‘0’.
byte
ACCESS_HO
Access handoff permitted indicator.
(0 or 1)
If NGHBR_SET_ACCESS_INFO is ‘0’, omit this field,
and if ‘1’, it allows MS access handoff.
It sets
this filed to ‘1’, and if not, it sets that to
‘0’.
byte
ACCESS_HO_MSG_
Access handoff permitted for message response
RSP
indicator.
(0 or 1)
and if ‘1’, it sets this field to 1 and if not it
If ACCESS_HO is ‘0’, omit this field,
sets this field to 0.
byte
ACC_PROBE_HO
Access probe handoff permitted indicator.
(0 or 1)
If NGHBR_SET_ACCESS_INFO is ‘0’, omit this field,
and if ‘1’ and it allows MS access probe handoff,
it sets this field to ‘1’, and if not, set that
to ‘0’.
byte
ACC_HO_LIST_UP
Access handoff list update permitted indicator.
If ACCESS_PROBE_HO is ‘0’, omit this field, and
(0 or 1)
if ‘1’, and it allows update of access handoff
list, it sets this field to ‘1’, and if not, it
sets that to ‘0’.
byte
ACC_PROBE_HO_O
Access probe handoff permitted for
messages
THER_MSG (0 or
other than the Origination Message and the Page
1)
Response Message.
If ACCESS_PROBE_HO is ‘0’, it omits this field,
and if ‘1’, and it allows access probe handoff,
it sets this field to ‘1’, and if it allows that
only to Origination Message and Page Response
Message, set this field to ‘0’.
byte
MAX_NUM_PROBE_
Maximum number of times that the mobile station
HO
is permitted to perform an access probe handoff.
(0 or 3)
If ACCESS_PROBE_HO is ‘0’, omit this field, and
if
‘1’,
set
the
maximum
number
so
that
MS
executes access probe handoff.
byte
BROADCAST_GPS_
Broadcast GPS Assist Indicator.
ASST
If BS supports Broadcast GPS Assist, set this
(1)
field to ‘1’, or not, set that to ‘0’.
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byte
QPCH_SUPPORTED 1
Quick Paging Channel Supported Indication.
(1)
If BS supports Quick Paging Channel operation,
set this field to ‘1’, or not, set that to ‘0’.
byte
NUM_QPCH
Number of Quick Paging Channels.
If QPCH_SUPPORTED is ‘0’, omit this field, and
(0 or 2)
if ‘1’, BS sets this field as many as the number
of Quick Paging Channel over CDMA Channel.
BS
will not set this field to ‘0’.
byte
qpch_rate
data rate over radio section
Range : 0~1(0:9600bps, 1:4800bsp)
Same as data_rate of qpch_data
byte
QPCH_POWER_LEV
Quick
Paging
Channel
paging
indicator
EL_PAGE
transmit power level.
(0 or 3)
If QPCH_SUPPORTED is ‘0’, it omits this field,
and if ‘1’, BS sets this field in accordance with
Table 3.7.2.3..2.13-3.
byte
QPCH_CCI_SUPPO
Quick Paging Channel configuration change
RTED
indicator supported
(0 or 1)
If QPCH_SUPPORTED is ‘0’, omit this field, and if
‘1’,
and
BS
supports
configuration
change
indicators, it sets this field to ‘1’, or not it
sets this field to ‘0’.
byte
QPCH_POWER_LEV
Quick
Paging
Channel
EL_CONFIG
indicator trasmit power level.
(0 or 3)
If
QPCH_CCI_SUPPORTED
field,
and
if
‘1’,
configuration
is
it
‘0’,
sets
it
Change
omits
this
field
this
in
accordance with Table 3.7.2.3.2.13-3.
byte
SDB_SUPPORTED
Short Data Burst supported indicator.
(1)
If MS can send Short Data Burst, BS sets this
field to ‘1’, or not sets that to ‘0’.
byte
MAC_CF_SUPPORT
MAC (Medium Access Control) control function
ED
supported indicator.
(1)
If BS supports MAC control functions, BS sets
this field to ‘1’, or not, it sets that to ‘0’.
byte
RLGAIN_TRAFFIC
Gain adjustment of the Reverse Traffic Channel
_PILOT
relative to the Reverse Pilot Channel for Radio
SMD-011-PMA210
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(6)
Configurations greater than 2.
BS sets this field with reverse traffic channel
power value.
byte
reserved_byte[
33]
7.5.8.6. St_nghbr_list_msg_data_type.dg
Table 7.5-77 St_nghbr_list_msg_data_type
Type
Name
Default Remarks
byte
bts_id
full
BTS Identification
byte
sector_id
full
Sector Identification
byte
nghbrs_in_msg
nghbr_list number held by one sector
byte
nghbr_srch_mode
Parameter included in GNLM
byte
use_timing
If Nghbr Base station transmits pilot in DTX
mode,
it
indicates
the
use
of
timming
information.
byte
global_timing_inc
When use_timing is set to ‘1’, this indicates
whether
all
neighbors
use
the
same
timing
information.
byte
global_tx_duratio
As Pilot Transmission duration of Neighbor Base
Station, it is valid only if all neighbors use
the same value.
byte
global_tx_period
Valid only if all neighbors use the same value
with DTX cycle of Pilot Transmission of Neighbor
Base Station.
byte
srch_offset_incl
byte
nghbr_config[ ]
When the value of this field is as follows:
000 :
upon handoff The personal station shall
begin monitering the Paging Channel of the new
base station, using the same Code Channel.
001
The
personal
station
shall
begin
monitergin the primary paging channel of the new
base station.
010 :
The nghbr base station has a different
number of frequencies having Paging Channels as
SMD-011-PMA210
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the current station.
word16
nghbr_pn[ ]
pilot_pn_offset pf sector
word16
nghbr_sid[ ]
system identification value of BS to which a
sector belongs
word16
nghbr_nid[ ]
Network identification value of BS to which
corresponding sector belongs
word16
nghbr_base_id[ ]
base_id value of neighbor BS
byte
nghbr_msc_id[]
msc_id
byte
nghbr_bsc_id[]
bsc_id value
byte
nghbr_bts_id[ ]
bts_id value
Byte
nghbr_sect_id[ ]
Sector id value
byte
nghbr_msc_type[] 0
0 : local MSC
value
1 : remote MSC
Necessary to determine Soft, Hard H/O upon H/O.
For local MSC, Soft H/O is possible, and for
remote MSC, Hard H/O is attempted.
byte
nghbr_bsc_type[] 0
0 : local BSC
1 : remote BSC
Necessary to determine Soft, Hard H/O upon H/O.
For local MSC, Soft H/O is possible, and for
remote MSC, Hard H/O is attempted.
byte
nghbr_beacon_pn[] 0
indicator
byte
search_priority[]
the
search
priority
corresponding
Value
byte
freq_incl[]
for
Low
02
High
Pilot
Channel
to NGHBR_PN.
Search Priority
00
the
01
11
Value
Search Priority
Medium
Very high
Frequence included indicator.
That is, if this
field is 1, upon handiff, it uses channels on
nghbr_band
and nghbr_freq and if 0 , it uses
current channel as is.
byte
nghbr_band[]
If
freq_incl field is set to ‘1’
band class of candidate frequency
800Mhz: 0
1800Mhz : 4 = domestic
1900Mhz: 1 = overseas
SMD-011-PMA210
Page:855(877)
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word16
nghbr_freq[]
If
freq_incl field is set to ‘1’
this field to the CDMA channel Number
freq_incl field is set to ‘0’
byte
timing_incl[]
disregarded
B : MS moves at 2FA -> 5FA
B is the value on 3,4,5FA.
It is held by 5FA
BS.
If each Nghbr Sector transmits pilot in DTX
mode, it indicates timing information.
byte
nghbr_tx_offset[]
Transmission start offset value of each nghbr
sector
byte
nghbr_tx_duration
Pilot Transmission time value of each Nghbr
[]
Sector
byte
nghbr_tx_period[]
Pilot DTX cycle value of each Nghbr Sector.
byte
srch_set[]
To indicate the status of each Nghbr Pilot.
byte
add_pilot_rec_inc
Indicates
l []
regarding each Nghbr Pilot.
nghbr_pilot_rec_t
Additional
ype []
Identification of each Nghbr Pilot
td_pilot_otd_pwr[
OTD Transmit Power Level of each Nghbr Pilot
byte
byte
the
status
Record
of
additinal
record
Type(Information
Type)
byte
byte
srch_offset_nghbr
Search
Window
[]
Neighbor Pilot
offset
value
regarding
each
access_entry_ho[
Should be repeated as many as NGHBR_SET_SIZE.
Access entry handoff permitted when entering
the System Access State.
If before MS receives message through Paging
Channel in idle state, and for response, it
transits to System Access State, BS sets this
field to 1 or not it sets that to 0 if access
entry handoff is allowed.
The order of ACCESS_ENTRY_HO is the same as
that
of
Neighbor
List
Message,
Extended
Neighbor List Message or General Neighbor List
Message.
byte
access_ho_allowe
Should be repeated as many as NGHBR_SET_SIZE.
d[]
Access
SMD-011-PMA210
handoff
and
access
probe
handoff
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STAREX-IS BSM Manual
permitted for the corresponding pilot while in
the System Access State.
If MS is in System Access State, BS sets this
field to 1 or not it sets that to 0 if MS
access handoff or access probe handoff is
allowed.
The order of ACCESS_HO_ALLOWED is the same as
that
of
Neighbor
List
Message,
Extended
Neighbor List Message or General Neighbor List
Message.
byte
reserved_byte[34] 0
7.5.8.7. St_Qos_param_data
Table 7.5-78 St_Qos_param_data
Type
N a m e
default
byte
bts_id
full
byte
max_sch_rate
byte
reserved_byte[106]
Remarks
72 + 34
7.5.9. BSP Layer
7.5.9.1. St_pwr_mgt_param_type.dg
Table 7.5-79 St_pwr_mgt_param_type
Type
N a m e
default Remarks
byte
sector_id
full
Sector Identification (0 ~ 2)
byte
cdmach_id
full
CDMA Channel Identification(0 ~ 7)
byte
T_rx_filter
Received total power filter update rate.
Ms units, 1/2 step,
byte
G_rx_filter
Received
total
20/2 ~ 255 range
power
filter
delay
contant.
1/256 step.
byte
G_tx_filter
Transmit power filter delay constant
1/256 step.
SMD-011-PMA210
0/256 ~ 255/256 range
0/256 ~ 255/256 range
Page:857(877)
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byte
Gh_tx_filter
Pilot Channel gain
int16
R_tx_pilot
Minimum trasmit pilot power to transmit
total power ratio for sector j.
1/16 step,
-255/16 ~ 0/16
byte
flnk_call_blk_thresh
byte
flnk_handoff_blk_thresh 0
Handoff blocking threshold. Unit : %
byte
flnk_gain_scaling_thresh 0
traffic gain scaling threshold
byte
rlnk_call_blk_thresh
call blocking threshold
byte
rlnk_handoff_blk_thresh 0
handoff blocking threshold
byte
A_tx_max
Maximum transmit gain
byte
delta_A_tx
Maximum transmit gain rate of chagne
call blocking threshold. Nuit : %
1/16 step.
1/16 ~ 255/16 range
byte
K_level
Breathing equation level
byte
K_slope
Breathing equation level
1/128 step,
byte
K_delta
1/128 ~ 128/128 range
Breathing equation level
1/16 step, 0/16 ~ 255/16 range
byte
delta_T
General update rate, ms unit
byte
P_tx_max
Maximum transmit total power. DBmW unit
byte
initial_calib
0: Overhead_ch Calibration
1: Blossoming
byte
periodic_calb
Enabled
0: Overhead_ch Calibration
1: TPTL Calibration
byte
breathing_flag
Enabled
Enabled
Enabled
0: Breathing Disable
1: Breathing Enable
byte
pwr_est_flag
0: Forward/Reverse Link Power estimation
Enabled
1: Forward/Reverse Link Power estimation
Disabled
byte
overpwr_limit
0: HPA Over Power Limitation Disabled
1: HPA Over Power Limitation Enabled
byte
flnk_cap_limit
0:
Forward
Link
Excess
Capacity
Link
Excess
Capacity
Limitation
Disabled
1:
Forward
Limitation
SMD-011-PMA210
Page:858(877)
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STAREX-IS BSM Manual
Enabled
byte
rlnk_cap_limit
0:
Reverse
Link
Excess
Capacity
Link
Excess
Capacity
Limitation
Enabled
1:
Reverse
Limitation
Disabled
byte
reserved_byte[33]
7.5.9.2. St_txms_param_data.dg
Table 7.5-80 St_txms_param_data
Type
N a m e
default
Remarks
byte
sector_id
full
Sector Identification
byte
cdmach_id
full
CDMA Channel Identification
word16
ovhdch_erp
170(1.7W) Overhead Channel Effectiver Radiation Power
and 170 means 1.7W(32dBm).
word16
delta_erp
No-use
ERP calibration value
word16
delta_sign
No-use
Calibration value symbol (0: PLUS,
byte
reserved_byte[32] 0
1:MINUS)
7.5.9.3. St_tic_data_type.dg
Table 7.5-81 St_tic_data_type
Type
N a m e
default
Remarks
byte
sector_id
full
Sector Identification
byte
cdmach_id
full
CDMA Channel Identification
byte
primary_function
word16
tx_gain
0x900(2304) Overall sector transmit gain setting
byte
rx_a_atten
No-use 255
Noise attenuator setting for the receiver
A paths in 0.5 dB steps(0~63.5dB)
byte
rx_b_atten
No-use 255
Noise attenuator setting for the receiver
B paths in 0.5dB steps(0~63.5dB)
SMD-011-PMA210
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byte
tx_atten
No-use 255
Noise attenuator setting for the transmit
paths in 0.5 dB steps(0~63.5dB)
boolean
breathing
No-use 0
Whether cell power “breathing” enabled.
byte
expected_db
No-use 16
Cell breathing threshold in db.
word16
power_upper_bound
No-use 20
TICrecerse power threshold upper bound
word16
power_lower_bound
No-use 15
TICrecerse power threshold upper bound
byte
reserved_byte[33]
7.5.9.4. St_acc_param_data_type.dg
Table 7.5-82 St_acc_param_data_type
Type
N a m e
default Remarks
byte
sector_id
full
Sector Identification(0 ~ 2)
byte
cdmach_id
full
CDMA Channel Identification(0 ~ 7)
byte
pc_id
full
Paging Channel Identification(0 ~ 7)
byte
nom_pwr
Power control value for Open loop Power Control
byte
init_pwr
Initial power offset for access
Power control value for Open Loop Power Control
for
byte
pwr_step
MS
Access Channelinitial transmission
Power increment
Power amount
value
increased
by
MS between
continuous probes at Access Probe Sequence
byte
num_step
Number of access probe
As the number of Access Probe, this is the value
that is smaller by 1 than maximum access probe
number
transmitted
from
one
Access
Probe
Sequence.
byte
max_cap_sz
Max Access Channel message capsule size
As value that indicates maximum access channel
message capsule size, BS sets this field to
value that is smaller by 3 than access channel
frame number.
byte
pam_sz
Access Channel preamble length
As the length of access channel preamble, BS
sets value that is smaller by 1 than access
SMD-011-PMA210
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channel frame number transmitted from access 채
channel preamble.
byte
psist_0_9
As value on
access overload
grade(0~9), if
access pverload grade allows 0~9 MS to transmit
request to access channel, BS sets that as
continuous value to use this field and if not,
it sets that to ‘111111’.
byte
psist_10
If test MS with access overlaod grade of 10 is
allowed to transmit requests to access channel,
BTS sets that as continuous value to use this
field, and if not, it sets that to ‘111’.
byte
psist_11
If emergency MS with access overlaod grade of 11
is
allowed
to
transmit
requests
to
access
channel, BTS sets that as continuous value to
use this field, and if not, it sets that to
‘111’.
byte
psist_12
If MS with access overlaod grade of 12 is
allowed to transmit requests to access channel,
BTS sets that as continuous value to use this
field, and if not, it sets that to ‘111’.
byte
psist_13
If MS with access overlaod grade of 13 is
allowed to transmit requests to access channel,
BTS sets that as continuous value to use this
field, and if not, it sets that to ‘111’.
byte
psist_14
If MS with access overlaod grade of 14 is
allowed to transmit requests to access channel,
BTS sets that as continuous value to use this
field, and if not, it sets that to ‘111’.
byte
psist_15
If MS with access overlaod grade of 15 is
allowed to transmit requests to access channel,
BTS sets that as continuous value to use this
field, and if not, it sets that to ‘111’.
byte
msg_psist
As
continuous
accesschannel
multiples
transformer
for
used
message
[2-MSG_PSIST]
to
to
attempt
transfer,
MS
transmission
probability.
SMD-011-PMA210
Page:861(877)
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byte
reg_psist
MS
multiplies
[2-MSG_PSIST]
to
transmission
probability.
byte
probe_pn_ran
As a field related to time random for access
channel probe, BS sets value of 0~9 so that the
range of time random value is 2PROBE_PN_RAN-1
chip.
byte
acc_tmo
Answer time excessive value.
byte
probe_bkoff
Backoffrange of accesws channel probe
byte
bkoff
As access channel probe sequence backoff range,
BS sets this field with the value that is lower
by 1 than the number of slots that are delayed
owing to backoff.
byte
max_req_seq
BS should set that with value greater than 0.
byte
max_rsp_seq
BS should set that with value greater than 0.
byte
auth
If MS includes
standard authentication
data
inaccess channel nmessage, BTS sets this field
to ‘01’, and if not it sets that to ‘00’.
word32
rand
If auth field value is ‘01’, BTS sets this field
to
random
attempt
value
to
be
used
upon
authentication and if different value, it is
omitted.
byte
nom_pwr_ext
0(DCN)
extended nominal transmit power open loop power
1(PCS)
stimate: -24dB ~ -9dB if this field is ‘1’,
8dB ~ 7dB if this field is ‘0’
byte
reserved_byte[35] 0
7.5.9.5. St_pc_global_redirect_msg_type.dg
Table 7.5-83 St_pc_global_redirect_msg_type
Type
N a m e
default Remarks
byte
sector_id
full
Sector Identification
word16
redirect_accolc
65535
redirect ACCess OverLoad Class indicator
byte
return_if_fail
1: If personal system fails to redirect to
other system, it allows entry to original
SMD-011-PMA210
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system.
0 : No return
byte
delete_tmsi
byte
EXCL_P_REV_MS
Delete TMSI Indicator
Indicator
to
apply
Global
Service
redirection Message(GSRM) to MOB_P_REV 6 or
above.
byte
REDIRECT_P_REV_INCL
Indicator to divide the application scope
of EGSRM according to MOB_P_REV value.
byte
EXCL_P_REV_INCL
Indicator to exclude the application of
GSRM regarding MS that has corresponding
MOB_P_REV.
byte
REDIRECT_P_MIN
MOB_P_REV Minimum value of MS that will
apply and exclude GSRM
byte
REDIRECT_P_MAX
MOB_P_REV Maximum value of MS that will
apply and exclude GSRM
byte
record_type
00000001: Redirection to an analogue
system as defined in IS95
00000010: Redirection to an CDMA system
as defined in IS95
byte
record_len
The base station shall set this field to the
number of octets in the type-specific fields
of this redirection record.
Word16
expected_a_sid
If
Base
station
has
personal
station
redirected to specific system, insert sid#
of specific system.
0 : no use of specific system
byte
ignore_cdma
1: when personal station is redirected to
analog
system,
CDMA
Capability
Msg
is
disregarded.
0:
if
personal
station
receives
CDMA
Capability Msg, it may not receive service
from redirected system.
Byte
sys_ordering
Determines where to redirect (see STD-008
3-175)
byte
band_class
0(DCN)
If
record_type
1(1900Mg redirection,
SMD-011-PMA210
Band
is
class
‘00000010’
of
for
redirected
Page:863(877)
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STAREX-IS BSM Manual
z)
system should be filled.
4(1800Mh 800Mhz: 0
z)
1800Mhz : 4 = domestic
1900Mhz: 1 = overseas
Word16
expected_sid
If
Base
station
has
personal
system
redirected to other system, this sets this
field to SID of redirected system.
Word16
expected_nid
If Base station has personal system
redirected to other system, this sets this
field to NID of redirected system.
Byte
num_chans
The number of occurence of cdma_chan FIELD
word16
cdma_chan[10]
For each CDMA Channel on which the personal
station is to attempt to acquire a CDMA
system, the base station shall include one
occurrence
of
this
field
specifying
the
associated CDMA Channel number.
byte
reserved_byte[34]
7.5.9.6. St_bts_cfg_type
Table 7.5-84 St_bts_cfg_type
Type
N a m e
default
byte
dummy_key
full
BYTE
OVHD_MODE
0: Dynamic
byte
pa_type
RF type
byte
ant_type
0 ~ 3
Remarks
1: Fix
0: PA_NEQ
1: HPA
2: LPA(MPD)
3:LPA(MILCOM)
0 : Standard
2 : DAI
1 : OTA
3 : DAI_OAI
BYTE
TX_DIVERSITY
0 ~ 1
0: Not Tx Diversity
1: Tx Diversity
byte
rx_duplex
0 ~ 1
0: Simplex_antenna
1: Duplex_antenna
byte
rx_diversity
0 ~ 1
0:
current
rx_diversity:0,
‘1’
diversity_scale_2000:0
byte
lna_type
SMD-011-PMA210
Non_Diversity
0 : Not_Equip
1:
Diversity
St_chip_config_data
1 : Equip
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When MIC C, D are used for subway, this file
is set to ‘0’.
byte
ttrf_type[12]
0 : Not_Equip,
1 : Equip,
2 : Equip and Blocked.
4EA per sector among 12EA.
byte
fa_use
byte
risa_eqp
byte
reserved_byte[34] 0
0: 1FA-6Sec
1; 2FA-3Sec
0: not equip,
1: equip
Reserved Field
7.5.9.7. St_dru_chc_data_type
Table 7.5-85 St_dru_chc_data_type
Type
N a m e
default
byte
proc_id
full 0~9 Processor Identification
byte
EquipPage
0:Not Equip
BYTE
CHC_STATE[MAX_CHC]
Not_equip/Block/Unblock
BYTE
CHIP_STATE[MAX_CHC][MAX_CHI 0
Chip status per channel card
P]
Not_equip/Block/Unblock
byte
reserved_byte[33]
Remarks
1:Equip
7.5.9.8. St_chip_config_data
Table 7.5-86 St_chip_config_data
Type
N a m e
default
byte
DUMMY
full 0
byte
num_chip_per_chc
word16 sector_gain[MAX_SECTORS]
208
Remarks
sector gain(Normal Path)
Range : 0~4095
word16 tx_div_sector_gain[MAX_SECTORS] 0
sector
gain(Tx
Diversity
Path)
Range : 0~4095
word16 sector_timing_adv[MAX_SECTORS] 320
Timing
advance
(Normal
Path)
Max : 1264
SMD-011-PMA210
Page:865(877)
Issue:1.0
STAREX-IS BSM Manual
word16 tx_div_timing_adv[MAX_SECTORS] 0
Timing
advance
(Tx
Diversity Path)
Max : 1264
byte
sector_tx_io_format
(6
path
or 0:tx_output_chipx1,
below)
(3
1:
tx_output_chipx1_fir
path
or 2: tx_output_chipx2_fir
below)
word16 cell_radius
511
byte
1 (6 path
rev_input_format
in units of PN chip
or 0:chipx8_rate_input,
below)
(3
1:
chipx2_rate_input
path
or
below)
byte
ant_enable[MAX_ANTENNAS]
MAX_ANTENNAS = 12
byte
ant_source[MAX_ANTENNAS]
byte
rev_cell_mode
byte
max_rach_fraction
10
MAX=32
word32 max_rach_separation
80
MAX=512
byte
10
MAX=32
word32 Max_reach_separation
80
MAX=512
byte
enable_srch_win_adj
byte
max_finger_per_chan95
MAX=6
byte
max_finger_per_chan2000
MAX=8
byte
usefully_rate_likely
No-use 1
byte
finger_thresh_adj_enable
No-use
byte
channel_finger_limit
No-use
byte
csm_mode
0:non_backward_compatible,
max_reach_fraction
1: backward_compatible
byte
diversity_scale_2000
int
min_search_energy_rach
No-use 150
int
min_search_energy_rc1
No-use 200
int
min_search_energy_rc2
No-use 200
int
min_search_energy_rc3
No-use 40
int
min_search_energy_rc4
No-use 40
int
min_search_energy_rc5
No-use
int
min_search_energy_rc6
No-use
int
override_search_energy_rach
No-use
SMD-011-PMA210
Range : 0~3
Page:866(877)
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STAREX-IS BSM Manual
int
override_search_energy_rc1
No-use
int
override_search_energy_rc2
No-use
int
override_search_energy_rc3
No-use
int
override_search_energy_rc4
No-use
int
override_search_energy_rc5
No-use
int
override_search_energy_rc6
No-use
word16 turbo_dtx_threshold
No-use 240
word16 conv_dtx_threshold
No-use 392
byte
bin_size
No-use
byte
integration_period
No-use
word16 srch_win_len[MAX_SECTORS]
1(traffic)
byte
reserved_byte[32]
Range : 1~32
7.5.9.9. St_hpbch_data
Table 7.5-87 St_hpbch_data
Type
N a m e
default Remarks
BYTE
SECTOR_ID
0 ~ 2
BYTE
PILOT_GAIN
pilot channel gain
BYTE
NUM_CDMA_CH
number of cdma channel of hopping
beacon
WORD16
CDMA_FREQ[MAX_CDMACH]
CDMA Channel Number for Hopping Beacon.
BYTE
BEACON_TX_OFFSET[MAX_CDM
Pilot beacon transmit time offset .
ACH]
Reading
the
value
from
Neighbor_list_msg_data.dg for setting.
BYTE
BEACON_TX_DURATION[MAX_C
Pilot beacon transmit time duration .
DMACH]
Reading
the
value
from
Neighbor_list_msg_data.dg and setting.
BYTE
BEACON_TX_PERIOD[MAX_CDM
Pilot beacon transmit time
ACH]
Reading
the
value
from
Neighbor_list_msg_data.dg and setting.
byte
reserved_byte[32]
SMD-011-PMA210
Page:867(877)
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STAREX-IS BSM Manual
7.5.9.10. St_pich_data_type (Pilot Channel)
Table 7.5-88 St_pich_data_type (Pilot Channel)
Type
N a m e
default Remarks
BYTE
SECTOR_ID
0 ~ 2
BYTE
CDMACH_ID
0 ~ 7
BYTE
PROC_ID
PILOT CHANNEL PROCESSOR NUMBER (RCP)
BYTE
SLOT
PILOT CHANNEL SLOT NUMBER
BYTE
PILOT_GAIN
BYTE
PILOT_TD_GAIN
byte
reserved_byte[34] 0
234
pilot channel gain. in unit of dB
piot tx_diversity channel gain.
7.5.9.11. St_synch_data_type (Sync Channel)
Table 7.5-89 St_synch_data_type (Sync Channel)
Type
N a m e
default
BYTE
SECTOR_ID
full 0 ~ 2
BYTE
CDMACH_ID
full 0 ~ 7
BYTE
PROC_ID
SYNCH PROCESSOR NUMBER (RCP)
BYTE
SLOT
SYNCH SLOT NUMBER
BYTE
SYNC_GAIN
byte
reserved_byte[35] 0
159
Remarks
sync channel gain. in unit of dB
7.5.9.12. St_pch_data_type (Paging Channel)
Table 7.5-90 St_pch_data_type (Paging Channel)
Type
N a m e
default
Remarks
byte
sector_id
full 0 ~ 2
byte
cdmach_id
full 0 ~ 7
byte
pc_id
full 0 ~ 6
byte
equipage
Actual pc equip state
byte
num_ac
Access channel number per Paging Channel
Access Para AccChan
SMD-011-PMA210
Page:868(877)
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byte
proc_id
Paging channel processor number (RCP)
byte
slot
Paging channel slot number
BYTE
PC_GAIN
217
Paging channel tx gain. in unit of dB
byte
frame_duration
Packet frame size.
(5ms/20ms) Range : 0~4 (2:20ms)
byte
data_rate
data rate.
Range : 0~1(0:9600bps, 1:4800bsp)
byte
encoding_rate
No-use 1
byte
reserved_byte[34] 0
Convolutional channel coding rate.
7.5.9.13. St_qpch_data_type (Quick Paging Channel)
Table 7.5-91 St_qpch_data_type (Quick Paging Channel)
Type
N a m e
default
Remarks
BYTE
SECTOR_ID
full 0 ~ 2
BYTE
CDMACH_ID
full 0 ~ 7
BYTE
QPCH_ID
full 0 ~ 2
byte
equipage
BYTE
PROC_ID
QPCH PROCESSOR NUMBER (RCP)
BYTE
SLOT
QPCH SLOT NUMBER
BYTE
INDICATOR_GAIN
Paging indicator part gain
BYTE
CCI_GAIN
CCI(Configuration Change Indicator)
Gain
byte
frame_duration
Packet frame size.
(5ms/20ms)
byte
data_rate
data rate.
byte
encoding_rate
No-use
Convolutional channel coding rate.
byte
reserved_byt[34] 0
7.5.9.14. St_ach_data_type (Access Channel)
Table 7.5-92 St_ach_data_type (Access Channel)
Type
N a m e
SMD-011-PMA210
default
Remarks
Page:869(877)
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STAREX-IS BSM Manual
BYTE
SECTOR_ID
full 0 ~ 2
BYTE
CDMACH_ID
full 0 ~ 7
BYTE
PC_ID
full 0 ~ 6
BYTE
AC_ID
full 0 ~ 31
byte
equpage
BYTE
PROC_ID
ACCESS CHANNEL PROCESSOR NUMBER (RCP)
BYTE
SLOT
ACCESS CHANNEL SLOT NUMBER.
byte
pam_int_prd
No-use 2
As integer between 2~4(Walsh symbols), 8-pam
_int_prd(Walsh
symbol),
when
detecting
access probe preamble, is dector integration
period.
word16
pam_win_len
No-use 1800 As
searching
window
size
when
detecting
access probe preamble, it is integer between
6~4048(1/8 chip/unit).
word16
pam_pn_offset
No-use 1920 As preamble searching start pn offset value
of access probe, it is integer between 8 ~
(4092 - pam_win_ len)(1/8 PN chip/unit).
byte
mul_int_prd
No-use 6
As integer between 2 ~ 6(Walsh symbols), 8mul_int_prd(Walsh symbol) is the integration
period
of
detector
multipathingredients
when
while
searching
modulating
access probe data protion signal.
byte
mul_win_len
No-use 128
As
searching
nultipath
window
ingredients
size
when
while
searching
modulating
access probe data protion signal, it is
integer between 96~4048(1/8 PN chip/unit),
which should be lower than pam_win_len.
byte
multipath_gain
No-use 1
factor used to decide whether to move the
finger
during
demod
stage
based
on
the
result of multipath search
word16
nolock_thresh
No-use 156
As threshold, it is integer between 0~65535.
word16
lock_thresh
No-use 156
As threshold, it is integer between 0~65535.
word16
combine_thresh
No-use 156
Threshold used to enable combining of a
finger when it is in LOCK state.
WORD16
SRCH_START_OFFSET 0
Search Start Offset. in units of chipx8
Range : 0~4096(Chipx8 units)
SMD-011-PMA210
Page:870(877)
Issue:1.0
STAREX-IS BSM Manual
WORD16
SRCH_WIN_SIZE
4(access)
Search Window Size. in units of 64PN chip.
Range : 1~32(64 PN Chips units)
byte
reserved_byte[35] 0
7.5.9.15. St_apich_data_type (Auxiliary Pilot Channel)
Table 7.5-93 St_apich_data_type (Auxiliary Pilot Channel)
Type
N a m e
default
Remarks
BYTE
SECTOR_ID
full 0 ~ 2
BYTE
CDMACH_ID
full 0 ~ 7
BYTE
PROC_ID
APICH PROCESSOR NUMBER (RCP)
BYTE
SLOT
APICH SLOT NUMBER
byte
reserved_byte[32] 0
7.5.9.16. St_bcch_data_type (Broadcast Channel)
Table 7.5-94 St_bcch_data_type (Broadcast Channel)
Type
N a m e
default
Remarks
BYTE
SECTOR_ID
full 0 ~ 2
BYTE
CDMACH_ID
full 0 ~ 7
BYTE
BCCH_ID
full 0 ~ 6
byte
equipage
BYTE
PROC_ID
Broad CHANNEL PROCESSOR NUMBER (RCP)
BYTE
SLOT
Broad CHANNEL SLOT NUMBER
byte
TX_GAIN
byte
SPREADING_RATE
byte
OTD
byte
SR1_BCN
byte
SR1_BRAT
byte
SR1_NON_OTD_INCL
byte
SR1_CDMA_FREQ_NON
_OTD
byte
SR1_BCCH_RATE_NON
_OTD
SMD-011-PMA210
Page:871(877)
Issue:1.0
STAREX-IS BSM Manual
byte
SR1_OTD_INCL
byte
SR1_CDMA_FREQ_OTD
byte
SR1_BCCH_RATE_OTD
byte
SR3_CAP_IND
byte
SR3_CDMA_FREQ
byte
SR3_BCN
byte
SR3_BRAT
byte
frame_duration
Packet frame size.
(5ms/20ms)
byte
data_rate
data rate.
byte
radio_configurati
Convolutional
on
configuration
channel
coding
rate.
Radio
(encoding_rate)
byte
reserved_byte[34] 0
7.5.9.17. St_cpch_data_type (Common Power Control Channel)
Table 7.5-95 St_cpch_data_type (Common Power Control Channel)
Type
N a m e
default
Remarks
BYTE
SECTOR_ID
full 0 ~ 2
BYTE
CDMACH_ID
full 0 ~ 7
BYTE
CPCH_ID
full 0 ~ 6
byte
equipage
BYTE
PROC_ID
CPCH PROCESSOR NUMBER (RCP)
BYTE
SLOT
CPCH SLOT NUMBER
byte
frame_duration
Packet frame size.
(5ms/20ms)
byte
data_rate
data rate.
byte
radio_configurati
Convolutional channel coding rate.
on
configuration
Radio
(encoding_rate)
byte
reserved_byte[32] 0
SMD-011-PMA210
Page:872(877)
Issue:1.0
STAREX-IS BSM Manual
7.5.9.18. St_cach_data_type (Common Assignment Channel)
Table 7.5-96 St_cach_data_type (Common Assignment Channel)
Type
N a m e
default
Remarks
BYTE
SECTOR_ID
full 0 ~ 2
BYTE
CDMACH_ID
full 0 ~ 7
BYTE
CACH_ID
full 0 ~ 6
byte
equipage
BYTE
PROC_ID
CACH PROCESSOR NUMBER (RCP)
BYTE
SLOT
CACH SLOT NUMBER
byte
frame_duration
Packet frame size.
(5ms/20ms)
byte
data_rate
data rate.
byte
radio_configuration
Convolutional
(encoding_rate)
Radio configuration
byte
reserved_byte[32]
channel
coding
rate.
7.5.9.19. St_fccch_data_type (Forward Common Control Channel)
Table 7.5-97 St_fccch_data_type (Forward Common Control Channel)
Type
N a m e
default
Remarks
BYTE
SECTOR_ID
full 0 ~ 2
BYTE
CDMACH_ID
full 0 ~ 7
BYTE
FCCCH_ID
full 0 ~ 6
byte
equipage
BYTE
PROC_ID
FCCCH PROCESSOR NUMBER (RCP)
BYTE
SLOT
FCCCH SLOT NUMBER
byte
frame_duration
Packet frame size.
(5ms/20ms)
byte
data_rate
Data rate.
byte
radio_configuration
Convolutional channel coding rate. Radio
(encoding_rate)
configuration
byte
reserved_byte[32]
SMD-011-PMA210
Page:873(877)
Issue:1.0
STAREX-IS BSM Manual
7.5.9.20. St_each_data_type (Enhanced Access Channel)
Table 7.5-98 St_each_data_type (Enhanced Access Channel)
Type
N a m e
default
Remarks
BYTE
SECTOR_ID
full 0 ~ 2
BYTE
CDMACH_ID
full 0 ~ 7
BYTE
FCCCH_ID or CACH_ID full 0 ~ 6
BYTE
EACH_ID
byte
equipage
BYTE
DUPLEX_ID
BYTE
PROC_ID
EACH PROCESSOR NUMBER (RCP)
BYTE
SLOT
EACH SLOT NUMBER
BYTE
reserved_byte[33]
full 0 ~ 31
0 ~ 1
Redundancy
7.5.9.21. St_rccch_data_type (Reverse Common Control Channel)
Table 7.5-99 St_rccch_data_type (Reverse Common Control Channel)
Type
N a m e
default
Remarks
BYTE
SECTOR_ID
full 0 ~ 2
BYTE
CDMACH_ID
full 0 ~ 7
BYTE
FCCCH_ID or CACH_ID
full 0 ~ 6
BYTE
RCCH_ID
full 0 ~ 31
byte
equipage
BYTE
PROC_ID
EACH PROCESSOR NUMBER (RCP)
BYTE
SLOT
EACH SLOT NUMBER
BYTE
reserved_byte[34]
7.5.9.22. St_sector_cdmach_data_type
Table 7.5-100 St_sector_cdmach_data_type
type
Name
default Remarks
byte
sector_id
full
SMD-011-PMA210
Page:874(877)
Issue:1.0
STAREX-IS BSM Manual
byte
cdmach_id
full
byte
ocns_enable
0: Ocns Enabled
byte
num_of_ocns_ch
Ocns Call Number ( 0 ~ 20 )
byte
ocns_test_data
Test Data Rate
1: Ocns Disabled
( 0 ~ 5 )
( B, 1/8, 1/4, 1/2, 1, V)
word16
ocns_so
0x801f
Service Option
[ Markov(8002, 801f), LB(2,9) ]
byte
block_state
0: Unblock,
1: Block
If current sector FA is ‘block’, MS regards
no FA residing in channel list.
byte
reserved_byte[32]
7.5.9.23. St_HW_reset_type
Table 7.5-101 St_HW_reset_type
type
Name
default Remarks
byte
dummy_key
byte
shlf_pwr[20]
CSD : BSBB(0), RCBB0(1), RCBB1(2),
RCBB2(3), RCBB3(4)
COU : BCCB0(5), BCCB1(6), BCCB2(7),
BCCB3(8)
9 ~ 19 : Reseved
byte
bspa[4][2]
byte
lica[4]
byte
aria[4]
byte
bada
byte
risa
byte
bota
byte
dran
byte
rcpa[4][2]
byte
mcpa[4][10]
byte
buda[4][6]
byte
paca[4]
byte
pa[6][6]
byte
bcra[2]
SMD-011-PMA210
Page:875(877)
Issue:1.0
STAREX-IS BSM Manual
byte
bppa
byte
reserved_byte[23]
7.5.9.24. St_Chip_pwr_cntl_para_data( 0:FCH , 1:SCH, 2:SCCH, 3:DCCH )
Table 7.5-102 St_Chip_pwr_cntl_para_data
Type
N a m e
default
byte
Dummy
byte
Channel_pwr[MAX_CH_T
224
YPE(4)]
byte
Data_gain
Remarks
Forward Traffic Channel Tx Power
0(-63.5dB) ~ 127(0dB).
No-use
0.5dB step
Data Gain to be added to the Channel
Power
-31.75dB ~ 31.75dB.
byte
Pwr_cntl_gain
No-use
Power
Control
0.5dB step
Sub-channel
Gain
to
be
added to the Channel. –31.75dB ~ 31.75dB,
0.5dB step.
byte
Min_gain[MAX_CH_TYPE
150
(4)]
byte
max_gain[MAX_CH_TYPE
step_up_size
Traffic
Channel
Power
Minimum
Traffic
Channel
Power
Maximum
Traffic
Channel
Power
Control
Value
224
(4)]
byte
Forward
Forward
Value
Forward
step up size. 0(0dB) ~ 15(3.75dB), 0.25dB
step
byte
step_dn_size
Forward
step
Traffic
down
size.
Channel
0(0dB)
Power
Control
15(3.75dB),
0.25dB step
byte
fpc_punc_mode
FPC(Forward Power Control) Puncture Mode.
Same as fpc_mode of St_pwr_cntl_para_type
byte
rpc_punc_mode
RPC(Reverse Power Control) Puncture Mode.
byte
pwr_cntl_set_point
219
RPC Set Point(Threshold)
0(-63.75dB) ~ 255(0dB), 0.25dB step
byte
pwr_cntl_pattern
Power Control Up/Down pattern to be used
when no fingers are combining
byte
Reserved_byte[32]
SMD-011-PMA210
Page:876(877)
Issue:1.0
STAREX-IS BSM Manual
7.6. Abbreviations
Table 7.6-1
Abbreviations in IS-2000 system
Abbreviations
Description
ABID
Alarm Buffer Inerface Daughter board
ACBB
AAL 2 Control Back Board
ALP
ATM Low speed subs. Processor
AUBB
ATM low speed sUbscriber Back Board
AXBB
ATM Switch Back Board
BABB
BTS ATM Network BackBoard
BADA
Base Station Analyze & Diagnostic Assembly
BANU
BTS ATM Network Unit
BCRA
BTS Cell Router Board Assembly
BMS
Base station Management System
BPPA
BTS Peripheral Processor Board Assembly
BSC
Base Station Controller
BSM
Base Station Manager
BSS
CAN Network control Processor
BSPU
BTS Signaling Processor Unit
BTGU
BTS Timing Generation Unit
BTS
Base Station Tranceiver Subsystem
BUDA
Base Station Sector conversion&Up/Down Converter Assembly
CAN
Central ATM Network
CBBB
Control and Protocol Block BackBoard
CCP
Call Control Processor
CDMB
Configuration & Data Management Block
CNP
CAN Network control Processor
CRP
Cell Router Control Processsor
DBPA
Digital BaseBand Processing Board Assembly
DCBU
Digital Channel Bank Unit
DCIB
Data Communication Interface Block
FER
Fault Error Rate
SMD-011-PMA210
Page:877(877)
Issue:1.0
STAREX-IS BSM Manual
FERA
Fast Ethernet Routing Board Assembly
FETD
Fast Ethernet Termination Board Assembly
GPS-D
global Positioning System - Distribution
GPS-R
Global Positioning System - Receiver
GUI
Graphic User Interface
HDLC
High-level Data Link Control
LICA
Line Interface Controller Board Assembly
LPA
Linear Power Amplifier
MAC
Medium Access Control
MMI
Man Machine Interface
NCP
Network Control Processor
OCNS
Orthogonal Channel Noise Simulator
PACA
Power Adjustment Control Assembly
PCP
Protocol Control Processor
RCCA
Radio channel Processing Board Assembly
RCMD
Remote Control Module Daughter Board
RNS
Radio Network Subsystem
SEBB
Selecter bank Back Board
SMP
Selector bank Master Processor
STMB
Status Management Block
TRMB
TRouble Mamagement Block
UCPA
Universal Contrl Processor Board Assembly
VCBB
VoCoder bank Back Board
VMP
Vocoder bank Master Processor
SMD-011-PMA210
Page:878(877)
Issue:1.0

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