xcap-lte analyzer lte parameter accuver
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XCAP-LTE
Lte Parameter Description
Edition: 04
Version: 4.108.xx
2011. 01.
2011 Accuver., Ltd., All rights reserved.
This documentation shall not be changed, distributed to the public, and opened to the third person
without written approval. Accuver is not responsible for any direct or indirect damages arisen or
related to use of this manual. All information included herein may be changed without prior notice.
Accuver APAC Limited
Unit 206, 2/F., No. 8 Science Park West Avenue
Hong Kong Science Park, Shatin
New Territories, Hong Kong
TEL: +852 2210 7004
FAX: +852 2210 7017
Web: http://www.accuver.com
Email: [email protected]
Introduction
© Copyright by Accuver Ltd. Page I
Introduction of Appendix
This Analyzer Parameter Description manual specifies asynchronous parameters in
Parameter Trees in Analyzer graph/map/table/CDF/PDF.
History
Edition Date Description
00 2009.10 Draft version (LGE)
01 2010.10 2nd
version (LGE)
02 2010.10 3rd
version (Samsung)
03 2011.01
4th version
1) Qualcomm
2) Samsung – LPHY N Cell Information Structure
Enhancement)
04 2011.01 5th version (GCT)
Contents
© Copyright by Accuver Ltd. Page I
Introduction of Appendix .............................................................................. I
History ................................................................................................... I
Parameter Description .......................................................................... 1
LGE ..................................................................................................... 1
L1 Status Info ................................................................................... 1
Serving Cell Signal Quality Info .............................................................. 2
Tx Power Info ................................................................................... 2
RACH Info ....................................................................................... 2
Timing Adjustment Info ........................................................................ 3
Cell Info .......................................................................................... 3
Search Result ................................................................................... 6
Channel Info .................................................................................... 7
CQI Info.......................................................................................... 7
Multi-paths Profile .............................................................................. 8
PBCH BLER .................................................................................... 8
PDSCH BLER .................................................................................. 9
PDCCH Detection Rate ....................................................................... 9
DL Grant & UL Ack/Nack Status Info(Improved) ............................................ 9
DL Grant & UL Ack/Nack Status Info(Improved)[Detail per TTI] ........................ 11
UL Grant & DL Ack/Nack Status Info ....................................................... 12
UL Grant & DL Ack/Nack Status info[Detail per TTI] ..................................... 13
PDSCH PHY Throughput ................................................................... 14
UL PRB MAP Data Info ...................................................................... 14
PUSCH PHY Throughput ................................................................... 14
L2 DL Throughput ............................................................................ 15
L2 UL Throughput ............................................................................ 15
PDSCH MAC BLER .......................................................................... 16
RLC States Info ............................................................................... 16
MAC State Info ............................................................................... 17
MAC UL Transmission Info .................................................................. 17
RACH REQ Info .............................................................................. 18
RACH RSP General Info .................................................................... 18
RNTI Info ...................................................................................... 19
목차 XCAP-LTE Analyzer Parameter Description/Ed.04
Page II © Copyright by Accuver Ltd.
Serving Cell & Neighbor Cell Lists ......................................................... 19
NAS System Info ............................................................................. 21
RRC BCH Status Info ........................................................................ 22
NAS State Info ................................................................................ 22
NAS State Info(R4) ........................................................................... 22
Radio & NAS Signaling Failure Info ........................................................ 23
RRC Freq Scan Info ......................................................................... 23
Cell Reselection Info ......................................................................... 23
Handover History ............................................................................. 23
Data Path Packet Loss ...................................................................... 24
ESM Instance Info ............................................................................ 24
Samsung ............................................................................................... 26
Common Basic Info .......................................................................... 26
Common Data Info ........................................................................... 26
LTE N Cell Information....................................................................... 27
LPHY Cell Search Info ....................................................................... 28
LPHY System Info ............................................................................ 29
LPHY Channel Quality Info ................................................................. 30
LPHY Parameter Info ........................................................................ 30
LPHY PHICH Info ............................................................................ 31
LL1 RF & Sync Info .......................................................................... 31
LL1 Downlink Info ............................................................................ 32
LL1 Uplink Info ................................................................................ 32
LL1 Measurement Config Info .............................................................. 32
LL2 SCH Configuration Info ................................................................. 33
Timer & Preamble Info ....................................................................... 33
Power Ramping & RA Supervision Info.................................................... 33
Max HARQ Msg3Tx & RACH Info ......................................................... 34
LL2 RNTI Info ................................................................................. 34
LL2 RLC Info .................................................................................. 34
LL2 PDCP Info ................................................................................ 35
LRRC Serving Cell Info ...................................................................... 36
LRRC State Variables Info .................................................................. 36
LRRC Timer info .............................................................................. 37
LNAS State Variables Info ................................................................... 37
LNAS MM(SIM/PLMN/Security) Info ....................................................... 38
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page III
LNAS PDP/IP Info ............................................................................ 39
LDATA Throughput Info ...................................................................... 39
LDATA Timing Info............................................................................ 39
Qualcomm ............................................................................................. 40
Configuration Info ............................................................................ 40
Power Info ..................................................................................... 50
Cell Search .................................................................................... 50
Ant Correlation Result ....................................................................... 51
Intrafreq Measurement Info ................................................................. 51
Channel Quality Info ......................................................................... 53
ML1 Downlink Info ........................................................................... 54
ML1 Uplink Info ............................................................................... 55
Random Access Procedure ................................................................. 55
Radio Link Monitoring Info .................................................................. 59
NAS ESM Bearer Context Info ............................................................. 59
NAS EMM State .............................................................................. 60
RRC Serving Cell Info ....................................................................... 61
RRC PLMN Search Info ..................................................................... 62
ML1 Serving Cell Info(Acquisition) ......................................................... 63
Physical Throughput ......................................................................... 63
MAC Throughput ............................................................................. 64
RLC Throughput .............................................................................. 64
PDCP Throughput ............................................................................ 64
GCT .................................................................................................... 66
L1 Status Info ................................................................................. 66
Serving Cell Signal Quality Info ............................................................ 67
Tx Power Info ................................................................................. 67
RACH Info ..................................................................................... 67
Timing Adjustment Info ...................................................................... 67
Cell Info ........................................................................................ 68
Search Result ................................................................................. 71
Channel Info .................................................................................. 71
CQI Info........................................................................................ 72
Multi-paths Profile ............................................................................ 73
PBCH BLER .................................................................................. 73
PDSCH BLER ................................................................................ 73
목차 XCAP-LTE Analyzer Parameter Description/Ed.04
Page IV © Copyright by Accuver Ltd.
PDCCH Detection Rate ..................................................................... 74
DL Grant & UL Ack/Nack Status Info(Improved) .......................................... 74
DL Grant & UL Ack/Nack Status Info(Improved)[Detail per TTI] ........................ 76
UL Grant & DL Ack/Nack Status Info ....................................................... 77
UL Grant & DL Ack/Nack Status info[Detail per TTI] ..................................... 78
PDSCH PHY Throughput ................................................................... 78
UL PRB MAP Data Info ...................................................................... 79
PUSCH PHY Throughput ................................................................... 79
L2 DL Throughput ............................................................................ 79
L2 UL Throughput ............................................................................ 80
PDSCH MAC BLER .......................................................................... 80
RLC States Info ............................................................................... 81
MAC State Info ............................................................................... 81
MAC UL Transmission Info .................................................................. 81
RACH REQ Info .............................................................................. 83
RACH RSP General Info .................................................................... 83
RNTI Info ...................................................................................... 83
Serving Cell & Neighbor Cell Lists ......................................................... 84
NAS System Info ............................................................................. 86
RRC BCH Status Info ........................................................................ 86
NAS State Info ................................................................................ 87
NAS State Info(R4) ........................................................................... 87
Radio & NAS Signaling Failure Info ........................................................ 87
RRC Freq Scan Info ......................................................................... 87
Cell Reselection Info ......................................................................... 88
Handover History ............................................................................. 88
Data Path Packet Loss ...................................................................... 88
ESM Instance Info ............................................................................ 89
Parameter Description
LGE
L1 Status Info
L1 status information shows physical layer status such as channel setup status, serving cell information,
PCH DRX and measurement periodicity, etc.
Parameter Description
State Info> Main State Physical layer main state
0: DEACTIVATED
1: IDLE
2: CONNECTED
State Info> BCH BCH Channel State
0: RELEASE
1: SETUP
State Info> PCH PCH Channel State
0: RELEASE
1: SETUP
State Info> DL-SCH for
BCCH
DL-SCH for BCCH Channel State
0: RELEASE
1: SETUP
State Info> UL/DL-SCH
and RACH
UL/DL-SCH and RACH Channel State
0: RELEASE
1: SETUP
Serving Cell Info> PCI Cell identifier
Serving Cell Info> DL
Freq Downlink frequency
Serving Cell Info> UL
Freq Uplink frequency
Serving Cell Info> DL
Bandwidth Downlink bandwidth (Unit : RB)
Serving Cell Info> UL
Bandwidth Uplink bandwidth (Unit : RB)
Serving Cell Info>
Antenna Num Number of downlink transmit antenna
PCH DRX Period PCH DRX periodicity
0: 0.32sec
1: 0.64sec
2: 1.28sec
3: 2.56sec
255: OFF
Serving Cell Signal Quality Info
The serving cell quality information shows SNR of reference signal (RS SNR) and received power of
reference signal (RS RSSI).
Parameter Description
RS RSSI 0 received power 0 of reference signal
RS RSSI 1 received power 1 of reference signal
RS RSSI total received power of reference signal
(rs_rssi[0] + rs_rssi[1])/2
RS SNR reference signal power and noise power for a resource element containing RS are
estimated.
10*log10{ (signal_pwr[0] + signal_pwr [1])/ (noise_pwr[0] + noise_pwr [1])})
Tx Power Info
Time sync report log shows the time sync status of UE.
Parameter Description
PUCCH Tx Power PUSCH average UE output power in dBm
PUSCH Tx Power PUCCH average UE output power in dBm
PRACH Tx Power PRACH instantaneous UE output power in dBm
Total Tx Power 1 frame based average UE output power in dBm
RACH Info
Parameter Description
Frame Num Start frame number
TTI Start subframe number
Preamble Format 0: Format 0, 1: Format 1, 2: Format2, 3: Format3
Speed Mode 0: normal speed, 1: high speed
Root Seq Root Sequence
Cyclic Shift Cyclic Shift per Use
Zero Correlation Zone Zero Correlation Zone (Ncs value 59)
Retrans Num Retransmit number
Tx Power RACH transmit power
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 3
Timing Adjustment Info
Tx Timing adjustment log shows the TA position.
Parameter Description
Rx SFN Received frame number
Rx TTI Received subframe number
NTA Timing advance command
In case of random access response : 11bit for NTA
In other case : 6bit for NTA (TA = 0, 1, 2,..., 63)
Accum TA Accumulate timing advance command
Cell Info
Cell Information display cell lists which are collected from Mp Searcher and Cell Searcher.
Parameter Description
INTRA>SYNC> RSRP Reference Signal Received Power of Intra cell which is known the sync position.
INTRA>SYNC> RSRQ Reference Signal Received Quality of Intra cell which is known the sync position
INTRA>SYNC> RSSI Received Power of Intra cell which is known the sync position
INTRA>SYNC>
FrameBound Cell frame boundary in Intra Sync
INTRA>SYNC>
CPLength
CP length in Intra Sync
0: Unknown
1 : Normal CP
2 : Extended CP
INTRA>SYNC> DL
Earfcn Earfcn number in Intra Sync
INTRA>SYNC> Top Set PCI PCI with RSRP strength from top 1 to 20 from Intra Sync Cell
RSRP Top 1 to 20 RSRP from Intra Sync Cell
RSRQ Top 1 to 20 RSRQ from Intra Sync Cell
RSSI Top 1 to 20 RSSI from Intra Sync Cell
FrameBound Top 1 to 20 FrameBound from Intra Sync Cell
CPLength Top 1 to 20 CPLength from Intra Sync Cell
DL Earfcn Top 1 to 20 DL Earfcn from Intra Sync Cell
INTRA>ASYNC> RSRP Reference Signal Received Power of Intra cell which is unknown the sync position.
INTRA> ASYNC>
RSRQ Reference Signal Received Quality of Intra cell which is unknown the sync position
INTRA> ASYNC> RSSI Received Power of Intra cell which is unknown the sync position
INTRA> ASYNC>
FrameBound Cell frame boundary in Intra Async
INTRA> ASYNC>
CPLength
CP length in Intra Async
0: Unknown
1 : Normal CP
2 : Extended CP
INTRA> ASYNC> DL
Earfcn Earfcn number in Intra Async
INTRA> ASYNC > Top
Set
PCI PCI with RSRP strength from top 1 to 20 from Intra Async Cell
RSRP Top 1 to 20 RSRP from Intra Async Cell
RSRQ Top 1 to 20 RSRQ from Intra Async Cell
RSSI Top 1 to 20 RSSI from Intra Async Cell
FrameBound Top 1 to 20 FrameBound from Intra Async Cell
CPLength Top 1 to 20 CPLength from Intra Async Cell
DL Earfcn Top 1 to 20 DL Earfcn from Intra Async Cell
INTRA>DETECT>
RSRP
Reference Signal Received Power of Intra cell which is newly detected at this
search.
INTRA> DETECT>
RSRQ
Reference Signal Received Quality of Intra cell which is newly detected at this
search
INTRA> ASYNC> RSSI Received Power of Intra cell which is newly detected at this search
INTRA> DETECT>
FrameBound Cell frame boundary in Intra Detected
INTRA> DETECT>
CPLength
CP length in Intra Detected
0: Unknown
1 : Normal CP
2 : Extended CP
INTRA> DETECT> DL
Earfcn Earfcn number in Intra Detected
INTRA> DETECT > Top
Set
PCI PCI with RSRP strength from top 1 to 20 from Intra Detect Cell
RSRP Top 1 to 20 RSRP from Intra Detect Cell
RSRQ Top 1 to 20 RSRQ from Intra Detect Cell
RSSI Top 1 to 20 RSSI from Intra Detect Cell
FrameBound Top 1 to 20 FrameBound from Intra Detect Cell
CPLength Top 1 to 20 CPLength from Intra Detect Cell
DL Earfcn Top 1 to 20 DL Earfcn from Intra Detect Cell
INTER>SYNC> RSRP Reference Signal Received Power of Inter cell which is known the sync position.
INTER>SYNC> RSRQ Reference Signal Received Quality of Inter cell which is known the sync position
INTER>SYNC> RSSI Received Power of Inter cell which is known the sync position
INTER>SYNC>
FrameBound Cell frame boundary in Inter Sync
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 5
INTER>SYNC>
CPLength
CP length in Inter Sync
0: Unknown
1 : Normal CP
2 : Extended CP
INTER>SYNC> DL
Earfcn Earfcn number in Inter Sync
INTER >SYNC> Top Set PCI PCI with RSRP strength from top 1 to 20 from Inter Sync Cell
RSRP Top 1 to 20 RSRP from Inter Sync Cell
RSRQ Top 1 to 20 RSRQ from Inter Sync Cell
RSSI Top 1 to 20 RSSI from Inter Sync Cell
FrameBound Top 1 to 20 FrameBound from Inter Sync Cell
CPLength Top 1 to 20 CPLength from Inter Sync Cell
DL Earfcn Top 1 to 20 DL Earfcn from Inter Sync Cell
INTER>ASYNC> RSRP Reference Signal Received Power of Inter cell which is unknown the sync position.
INTER> ASYNC>
RSRQ Reference Signal Received Quality of Inter cell which is unknown the sync position
INTER> ASYNC> RSSI Received Power of Inter cell which is unknown the sync position
INTER> ASYNC>
FrameBound Cell frame boundary in Inter Async
INTER> ASYNC>
CPLength
CP length in Inter Async
0: Unknown
1 : Normal CP
2 : Extended CP
INTER> ASYNC> DL
Earfcn Earfcn number in Inter Async
INTER > ASYNC > Top
Set
PCI PCI with RSRP strength from top 1 to 20 from Inter Async Cell
RSRP Top 1 to 20 RSRP from Inter Async Cell
RSRQ Top 1 to 20 RSRQ from Inter Async Cell
RSSI Top 1 to 20 RSSI from Inter Async Cell
FrameBound Top 1 to 20 FrameBound from Inter Async Cell
CPLength Top 1 to 20 CPLength from Inter Async Cell
DL Earfcn Top 1 to 20 DL Earfcn from Inter Async Cell
INTER>DETECT>
RSRP
Reference Signal Received Power of Inter cell which is newly detected at this
search.
INTER> DETECT>
RSRQ
Reference Signal Received Quality of Inter cell which is newly detected at this
search
INTER> ASYNC> RSSI Received Power of Inter cell which is newly detected at this search
INTER> DETECT>
FrameBound Cell frame boundary in Inter Detected
INTER> DETECT>
CPLength
CP length in Inter Detected
0: Unknown
1 : Normal CP
2 : Extended CP
INTER> DETECT> DL
Earfcn Earfcn number in Inter Detected
INTER > DETECT > Top
Set
PCI PCI with RSRP strength from top 1 to 20 from Inter Detect Cell
RSRP Top 1 to 20 RSRP from Inter Detect Cell
RSRQ Top 1 to 20 RSRQ from Inter Detect Cell
RSSI Top 1 to 20 RSSI from Inter Detect Cell
FrameBound Top 1 to 20 FrameBound from Inter Detect Cell
CPLength Top 1 to 20 CPLength from Inter Detect Cell
DL Earfcn Top 1 to 20 DL Earfcn from Inter Detect Cell
All Set All Cell RSRP/RSRQ/RSSI/FrameBound /CPLength/DL Earfcn/Cell State per PCI
Top Set PCI PCI with RSRP strength from top 1 to 20 from All Cell
RSRP Top 1 to 20 RSRP from All Cell
RSRQ Top 1 to 20 RSRQ from All Cell
RSSI Top 1 to 20 RSSI from All Cell
FrameBound Top 1 to 20 FrameBound from All Cell
CPLength Top 1 to 20 CPLength from All Cell
DL Earfcn Top 1 to 20 DL Earfcn from All Cell
Cell State
Top 1 to 20 Cell State from All Cell
- Intra Sync
- Intra Async
- Intra Detect
- Inter Sync
- Inter Async
- Inter Detect
Search Result
Search Result log shows Mp Search result and Cell Search result.
Parameter Description
MP Searcher Mp Searcher Dominant Energy and Mp Searcher position per PCIS
(PCIS: 0,1 or 2)
Cell Searcher>
Dominant PCI PCI with Dominant Cell Search Energy
Cell Searcher>
Dominant Cell Srch
Energy
Dominant Cell Search Energy
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 7
Cell Searcher> PCI# Cell Search Energy, PCIG, Half Frame Idx and CP Length per PCI
(PCIG: 0 ~ 167, PCI: 0 ~ 503)
Earfcn EARFCN number
Used Cell Searcher
Num Num of Used Cell Searcher
Channel Info
The channel information shows no antenna in the 2x2 MIMO channel.
Parameter Description
Tx Correlation> Freq
Total Band(Avg) Tx Correlation in Total Band(Sub Band 1 ~ 30)
Tx Correlation> Freq
Sub Band x Tx Correlation per Sub Band
Rx Correlation> Freq
Total Band(Avg) Rx Correlation in Total Band(Sub Band 1 ~ 30)
Rx Correlation> Freq
Sub Band x Tx Correlation per Sub Band
H00 (Real)> Freq Sub
Band x H00 (Real value) per Sub Band
H00 (Imaginary)> Freq
Sub Band x H00 (Imaginary value) per Sub Band
H01 (Real)> Freq Sub
Band x H00 (Real value) per Sub Band
H01 (Imaginary)> Freq
Sub Band x H00 (Imaginary value) per Sub Band
H10 (Real)> Freq Sub
Band x H00 (Real value) per Sub Band
H10 (Imaginary)> Freq
Sub Band x H00 (Imaginary value) per Sub Band
H11 (Real)> Freq Sub
Band x H00 (Real value) per Sub Band
H11 (Imaginary)> Freq
Sub Band x H00 (Imaginary value) per Sub Band
CQI Info
The wideband CQI information shows measured CQI of wideband in the UE.
The sub-band CQI information shows the CQI (channel quality information) of sub-bands. The sub-band is
defined a unit for a group of resource elements used for reporting sub-band CQI.
Parameter Description
Rank Ratio> Instant Instant Rank Ratio (Range 0 ~ 1)
Rank Ratio> Cumulative Cumulative Rank Ratio (Range 0 ~ 1)
CQI(Wideband)> Rank1
CQI Rank1 wide band CQI
CQI(Wideband)> Rank2
CW0 CQI Rank2 wide band CQI for CW0
CQI(Wideband)> Rank2
CW1 CQI Rank2 wide band CQI for CW1
CQI(Wideband)> Rank1
PMI Rank1 wide band PMI
CQI(Wideband)> Rank2
PMI Rank2 wide band PMI
CQI(Subband)> Rank1
CQI Rank1 sub band CQI
CQI(Subband)> Rank2
CW0 CQI Rank2 sub band CQI for CW0
CQI(Subband)> Rank2
CW1 CQI Rank2 sub band CQI for CW1
CQI(Subband)> Rank1
PMI Rank1 sub band PMI
CQI(Subband)> Rank2
PMI Rank2 sub band PMI
Multi-paths Profile
This information shows the channel impulse response of reference signals in the time domain.
Parameter Description
Serving PCI Serving cell ID (0~503)
Ref EsNo The reference EsNo is the detected RS SNR in the reference position.
RS power metric of reference path. EsNo is calculated by computing
10*log10(RS power metric/noise power metric)
Ref Timing The reference timing gives the information of reference cell timing of demodulation.
Reference timing of serving cell. The resolution is Ts in a frame
Path Info[x]> EsNo RS power metric of this path
Path Info[x]> Time Index Timing offset from reference timing (Ts resolution)
PBCH BLER
PBCH BLER displays how much transport blocks get CRC_NOK about total received transport blocks.
Parameter Description
Instant Instant PBCH BLER
(bler_info.err_nums / bler_info.total_nums) * 100
Cumulative Cumulative PBCH BLER
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 9
PDSCH BLER
PDSCH BLER displays how much transport blocks get CRC_NOK about total received transport blocks.
Parameter Description
Instant> All Instant PDSCH Total BLER
((bler_info[0].err_nums + bler_info[1].err_nums) / (bler_info[0].total_nums +
bler_info[1].total_nums)) * 100
Instant> Codeword #0 Instant PDSCH Codeword0 BLER
(bler_info[0].err_nums / bler_info[0].total_nums) * 100
Instant> Codeword #1 Instant PDSCH Codeword1 BLER
(bler_info[1].err_nums / bler_info[1].total_nums) * 100
Cumulative> All Cumulative PDSCH Total BLER
Cumulative> Codeword
#0 Cumulative PDSCH Codeword0 BLER
Cumulative> Codeword
#1 Cumulative PDSCH Codeword1 BLER
PDCCH Detection Rate
UE can’t calculate PDCCH BLER because UE doesn’t know when eNode-B sends its PDCCH. In other
words, UE detects PDCCH blindly. So, UE DM supports this item similar with PDCCH BLER.
Parameter Description
DCI 0 The number of detection for DCI#0
DCI 1 The number of detection for DCI 1
DCI 1a The number of detection for DCI 1a
DCI 1b The number of detection for DCI 1b
DCI 1c The number of detection for DCI 1c
DCI 2 The number of detection for DCI 2
DCI 2a The number of detection for DCI 2a
DCI 3 The number of detection for DCI 3
DCI 3a The number of detection for DCI 3a
DL Grant & UL Ack/Nack Status Info(Improved)
DL Grant & UL ACK/NACK Status(Improved) displays DL grant regardless any DCI format in every TTI.
According to TS36.212, each DCI format has the specific fields, not all, and the unnecessary fields are
displayed to the blank. Additionally, UL_ACK/NACK, CFI, and DCI_3/3A payload will be included in this
item.
Parameter Description
SFN SFN value
TTI TTI value
DCI Format> Count DCI 1 Num/ DCI 1A Num/ DCI 1B Num/ DCI 1C Num/ DCI 2 Num/ DCI 2A Num/
DCI 3 Num/ DCI 3A Num/ N/A Num
DCI Format> Rate DCI 1 Rate/ DCI 1A Rate/ DCI 1B Rate/ DCI 1C Rate/ DCI 2 Rate/ DCI 2A Rate/
DCI 3 Rate/ DCI 3A Rate/ N/A Rate
TM Scheme transmission scheme
0:"SING-ANT(P0)",1:"SING-ANT(P5)",2:"TRANS-
DIV",3:"LARGE-CDD",4:"CLOSE-SM",5:"MU-MIMO"
TPC TPC
RB Num Resource Block Number
MCS> CW0> MCS(Idx) CW0 MCS
MCS> CW0> QPSK
Rate CW0 QPSK Rate
MCS> CW0> 16 QAM
Rate CW0 16 QAM Rate
MCS> CW0> 64 QAM
Rate CW0 64 QAM Rate
MCS> CW1> MCS(Idx) CW1 MCS
MCS> CW1> QPSK
Rate CW1 QPSK Rate
MCS> CW1> 16 QAM
Rate CW1 16 QAM Rate
MCS> CW1> 64 QAM
Rate CW1 64 QAM Rate
NDI> CW0> New Data
Num CW0 NDI (NDI field = 1)
NDI> CW0> Retrans
Data Num CW0 NDI (NDI field = 0)
NDI> CW0> New Data
Rate New Data Num/(Retrans Data Num+New Data Num)*100 in CW0
NDI> CW1> New Data
Num CW1 NDI (NDI field = 1)
NDI> CW1> Retrans
Data Num CW1 NDI (NDI field = 0)
NDI> CW1> New Data
Rate New Data Num/(Retrans Data Num+New Data Num)*100 in CW1
UL ACK/NACK> CW0>
ACK Count CW0 UL ACK result
UL ACK/NACK> CW0>
NACK Count CW0 UL NACK result
UL ACK/NACK> CW0>
DTX Count CW0 UL DTX result
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 11
UL ACK/NACK> CW0>
ACK Rate ACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW0
UL ACK/NACK> CW0>
NACK Rate NACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW0
UL ACK/NACK> CW0>
DTX Rate DTX Count/(ACK Count+NACK Count+DTX Count)*100 in CW0
UL ACK/NACK> CW1>
ACK Count CW1 UL ACK result
UL ACK/NACK> CW1>
NACK Count CW1 UL NACK result
UL ACK/NACK> CW1>
DTX Count CW1 UL DTX result
UL ACK/NACK> CW1>
ACK Rate ACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW1
UL ACK/NACK> CW1>
NACK Rate NACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW1
UL ACK/NACK> CW1>
DTX Rate DTX Count/(ACK Count+NACK Count+DTX Count)*100 in CW1
DCI 3(Mode)> DCI 3/3A
Value(CW0) CW0 DCI3/3A value
DCI 3(Mode)> DCI 3/3A
Value(CW1) CW1 DCI3/3A value
DL Grant & UL Ack/Nack Status Info(Improved)[Detail per TTI]
DL Grant & UL Ack/Nack Status Info(Improved)[Detail per TTI] displays the related information per TTI.
Parameter Description
SFN SFN value
TTI TTI value
CFI CFI value
DCI Format DCI format
0:"DCI_1",1:"DCI_1A,2:"DCI_1B",3:"DCI_1C",4:"DCI_2",
5:"DCI_2A",6:"DCI_3",7:"DCI_3A"
RNTI RNTI type
0:"C-RNTI",1:"RA-RNTI",2:"P-RNTI",3:"SI-RNTI", 4:"PUCCH",5:"PUSCH",6:"SPS-
RNTI",7:”T-CRNTI”
TM Scheme transmission scheme
0:"SING-ANT(P0)",1:"SING-ANT(P5)",2:"TRANS- DIV",3:"LARGE-CDD",4:"CLOSE-
SM",5:"MU-MIMO"
Distribution Flag distribution flag 0:"LOCAL", 1:"DIST"
Gap Value gap value
RA Header RA header
Precoding precoding information
RB Num Resource Block Number
PMI Confirmation PMI confirmation
TPC TPC
HARQ Number HARQ number
MCS(CW0) MCS in CW0
NDI(CW0) NDI in CW0
RV(CW0) redundancy version in CW0
MOD Type(CW0) modulation type in CW0
New/Retrans
Type(CW0) new or retransmission type in CW0
TB Size(CW0) transport block size in CW0
CRC Result(CW0) CRC result in CW0
UL ACK/NACK
Result(CW0) UL ACK/NACK result in CW0
DCI 3(CW0) DCI3/3A value in CW0
MCS(CW1) MCS in CW1
NDI(CW1) NDI in CW1
RV(CW1) redundancy version in CW1
MOD Type(CW1) modulation type in CW1
New/Retrans
Type(CW1) new or retransmission type in CW1
TB Size(CW1) transport block size in CW1
CRC Result(CW1) CRC result in CW1
UL ACK/NACK
Result(CW1) UL ACK/NACK result in CW1
DCI 3(CW1) DCI3/3A value in CW1
UL Grant & DL Ack/Nack Status Info
UL Grant Info Status log shows get UL Scheduling Grant information to PDCCH.
Parameter Description
SFN SFN value
TTI TTI value
FH> FH Num FH Number
FH> No FH Num No FH Number
FH> FH Rate FH Num/(No FH Num+FH Num)* 100
MCS> CQI REQ>
MCS(Idx) No CQI Request Modulation and Coding Rate
MCS> No CQI REQ>
MCS(Idx) CQI Request Modulation and Coding Rate
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 13
MCS> No CQI REQ>
QPSK Rate QPSK Num/(QPSK Num+16QAM Num+64QAM Num)*100 in CQI Request
MCS> No CQI REQ> 16
QAM Rate 16QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100 in CQI Request
MCS> No CQI REQ> 64
QAM Rate 64QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100 in CQI Request
New Data Num New data indicator (NDI field = 1)
Retrans Data Num New data indicator (NDI field = 0)
New Data Rate New Data Num/(Retrans Data Num+New Data Num)*100
TPC Power control of PUSCH
CS DMRS Cyclic shift for DMRS
DL ACK/NACK> ACK
Count DL ACK result
DL ACK/NACK> NACK
Count DL NACK result
DL ACK/NACK> DTX
Count DL DTX result
DL ACK/NACK> ACK
Rate ACK Count/(ACK Count+NACK Count+DTX Count)*100
DL ACK/NACK> NACK
Rate NACK Count/(ACK Count+NACK Count+DTX Count)*100
DL ACK/NACK> DTX
Rate DTX Count/(ACK Count+NACK Count+DTX Count)*100
UL Grant & DL Ack/Nack Status info[Detail per TTI]
UL Grant & DL Ack/Nack Status info[Detail per TTI] displays the related information per TTI.
Parameter Description
SFN SFN value
TTI TTI value
TB Size Transport Block size
RB Assign Resurce block assingment
FH 0 :No FH
1 :FH
MCS Modulation and Coding Rate
NDI New data indicator
TPC Power control of PUSCH
CS DMRS Cyclic shift for DMRS
CQI Request Ind CQI Request Indication
0 : No CQI Request
1 : CQI Request
DL ACK/NACK Result 0 :NACK
1 :ACK
PDSCH PHY Throughput
PDSCH PHY Throughput has displays how much to get the downlink data in 1sec.
Parameter Description
All PDSCH PHY Total Throughput
(cw_0 + cw_1) / 1000
Codeword #0 PDSCH PHY Codeword0 Throughput
(cw_0) / 1000
Codeword #1 PDSCH PHY Codeword0 Throughput
(cw_1) / 1000
UL PRB MAP Data Info
This information shows the log of transmit physical resource mapping information.
Parameter Description
SFN Frame number
TTI TTI number
Bandwidth 0:1.4MHz, 1:3MHz, 2:5MHz, 3:10MHz, 4:15MHz, 5:20MHz
Channel Type> Count DTX/ PRACH/ PUCCH/ PUSCH/ SRS/ PUSCH+SRS/ PUCCH+SRS Count
Channel Type> Rate DTX/ PRACH/ PUCCH/ PUSCH/ SRS/ PUSCH+SRS/ PUCCH+SRS Rate
PRACH RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB Offset in
PRACH
PUCCH RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB Offset in
PUCCH
PUSCH RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB Offset in
PUSCH
SRS RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB Offset in
SRS
PUSCH+SRS RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB Offset in
PUSCH+SRS
PUCCH+SRS RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB Offset in
PUCCH+SRS
PUSCH PHY Throughput
UL Throughput log shows the Uplink data throughput at UE side.
Parameter Description
NEW Transmission A number of bits about new transmission per 1 sec
(new_bit_nums) / 1000
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 15
Total UL A number of bits about re-transmission per 1 sec
(new_bit_nums + retrans_bit_nums) / 1000
L2 DL Throughput
Parameter Description
PDCP> Total Total Downlink PDCP Throughput
(∑rbId total Byte*8/1000)
PDCP> RB ID(x) Downlink PDCP Throughput per RB ID
(rbId total Byte*8/1000)
RLC> Total Total Downlink RLC Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM), 4 ~ 5 (UM)
RLC> AM> Total Total Downlink RLC AM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> AM> RB ID(x) Downlink RLC AM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> UM> Total Total Downlink RLC UM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
RLC> UM> RB ID(x) Downlink RLC UM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
MAC Downlink MAC Throughput
(MacDlTotalBytes*8/1000)
L2 UL Throughput
Parameter Description
PDCP> Total Total Uplink PDCP Throughput
(∑rbId total Byte*8/1000)
PDCP> RB ID(x) Uplink PDCP Throughput per RB ID
(rbId total Byte*8/1000)
RLC> Total Total Uplink RLC Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM), 4 ~ 5 (UM)
RLC> AM> Total Total Uplink RLC AM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> AM> RB ID(x) Uplink RLC AM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> UM> Total Total Uplink RLC UM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
RLC> UM> RB ID(x) Uplink RLC UM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
MAC Uplink MAC Throughput
(MacUlTotalBytes*8/1000)
PDSCH MAC BLER
This item is for MAC BLER of downlink (PDSCH). Ratio of transport blocks which remain un-
acknowledged (CRC failure) after HARQ retransmission divided by total number of initial transmissions
received by UE MAC
Parameter Description
Instant> All Instant total MAC BLER
( (cwd0ErrNum/cwd0TBNum) *100 + (cwd1ErrNum/cwd1TBNum) *100 ) / 2
Instant> Codeword #0 Instant code word #0 MAC BLER
(cwd0ErrNum/cwd0TBNum) *100
Instant> Codeword #1 Instant code word #1 MAC BLER
(cwd1ErrNum/cwd1TBNum) *100
Cumulative> All Cumulative total MAC BLER
Cumulative> Codeword
#0 Cumulative code word #0 MAC BLER
Cumulative> Codeword
#1 Cumulative code word #1 MAC BLER
RLC States Info
This item provides state information of RLC Tx/Rx Entity.
Parameter Description
Tx States> RB ID (x)>
Mode Tx States RLC Mode (AM /UM/TM)
Tx States> RB ID (x)>
State Tx States RLC Tx Entity state (NULL/DTR)
Rx States> RB ID (x)>
Mode Rx States RLC Mode (AM /UM/TM)
Rx States> RB ID (x)>
State Rx States RLC Tx Entity state (NULL/DTR)
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 17
MAC State Info
This item includes MAC DL/UL state information.
Parameter Description
MAC UL State Current state of MAC uplink
(0-NOT_CONFIGURED, 1-CONFIGURED, 2-OUT_OF_SYNC, 3-IN_SYNC, 4-
IN_CR, 5-READY_TO_SCHED )
MAC DL State Current State of MAC downlink
(0-NOT_CONFIGURED, 1-CONFIGURED, 2-PCH_STATE, 3-RACH_STATE, 4-
DSCH_STATE)
MAC UL Transmission Info
This item is for total packets information of uplink data transmission.
Parameter Description
Count> 1st Trans Success in 1st transmission
Count> 1st Re-Trans Success in 1st re-transmission
Count> 2nd Re-Trans Success in 2nd re-transmission
Count> 3rd Re-Trans Success in 3rd re-transmission
Count> 4th Re-Trans Success in 4th re-transmission
Count> 5th Re-Trans Success in 5th re-transmission
Count> 6th Re-Trans Success in 6th re-transmission
Count> 7th Re-Trans Success in 7th re-transmission
Count> 8th Re-Trans Success in 8th re-transmission
Count> 9th Re-Trans Success in 9th re-transmission
Count> 10th Re-Trans Success in 10th re-transmission
Count> Total Trans ∑SuccessCnt i (Where, i = 0 to 10)
Count> Bad Count Bad Count
Percentage> 1st Trans 1st Trans/(Total Trans+Bad Count)*100
Percentage> 1st Re-
Trans 1st Re-Trans/(Total Trans+Bad Count)*100
Percentage> 2nd Re-
Trans 2nd Re-Trans/(Total Trans+Bad Count)*100
Percentage> 3rd Re-
Trans 3rd Re-Trans/(Total Trans+Bad Count)*100
Percentage> 4th Re-
Trans 4th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 5th Re-
Trans 5th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 6th Re-
Trans 6th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 7th Re-
Trans 7th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 8th Re-
Trans 8th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 9th Re-
Trans 9th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 10th Re-
Trans 10th Re-Trans/(Total Trans+Bad Count)*100
Percentage> Total Trans Total Trans/(Total Trans+Bad Count)*100
Percentage> Bad
Percentage Bad Count/(Total Trans+Bad Count)*100
RACH REQ Info
This item includes RACH request information.
Parameter Description
RACH Transmit Time RACH transmit time
Retransmission Num Retransmission Num
RACH Type 0 : INITIAL
1 : HANDOVER
2 : UL DATA ARRIVAL
3 : DL DATA ARRIVAL
4 : SR MAX
5 : NO_SR_CONFIG
RA-RNTI RACH RNTI
Preamble ID Preamble Identity
RACH RSP General Info
This item includes RACH response information.
Parameter Description
RACH Response
Receiving Time RACH response receiving time
Result 0: NACK, 1: ACK
RACH Preamble Identity RACH Preamble Identity
BackOff Indicator BackOff Indicator
Time Advance Time Advance
Temporary C-RNTI Temporary C-RNTI
MCS Modulation and coding Scheme
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 19
TPC for scheduled
PUSCH TPC command for scheduled PUSCH
Hopping Flag Hopping Flag
UL Delay UL Delay
CQI Request CQI Request
Resource Block
Assignment Resource block assignment(10bits)
Access RACH Latency Access RACH Latency (sec)
RNTI Info
This item includes RNTI information.
Parameter Description
C-RNTI C-RNTI
RA-RNTI RA-RNTI
Temporary C-RNTI Temporary C-RNTI
Serving Cell & Neighbor Cell Lists
Parameter Description
Serving Cell Info> UE
State
Current UE state
- UE_IDLE_MODE
- UE_CONNECTED_MODE
- NO_SERVICE
- NON_LTE_RAN
Serving Cell Info> Freq
UL Uplink Carrier Frequency
Serving Cell Info> Freq
DL Downlink Carrier Frequency
Serving Cell Info> PCI Physical Cell Identity
Serving Cell Info> TAC Tracking Area Code
Serving Cell Info> PLMN
Identity PLMN Identity
Serving Cell Info>
Global Cell ID Global Cell ID
Intra Freq Cell Lists> DL
Freq Downlink Carrier Frequency
Intra Freq Cell Lists>
Serving Cell> Serving
PCI
Intra Freq Cell Serving PCI
Intra Freq Cell Lists>
Serving Cell> Serving
RSRP
Intra Freq Cell Serving RSRP
Intra Freq Cell Lists>
Serving Cell> Serving
RSRQ
Intra Freq Cell Serving RSRQ
Intra Freq Cell Lists>
Serving Cell> Serving
RSSI
Intra Freq Cell Serving RSSI
Intra Freq Cell Lists>
Serving Cell> All Cell
Info
Intra Freq Cell Serving RSRP/RSSQ/RSSI per PCI
Intra Freq Cell Lists>
Monitored Cell>
Monitored Cell Count
Number of Monitored PCI from Intra Freq Cell
Intra Freq Cell Lists>
Monitored Cell>
Monitored Cell List
Monitored PCI List from Intra Freq Cell
Intra Freq Cell Lists>
Monitored Cell>
Summary Monitored
Cell List
Monitored PCI List with (RSRP,RSRQ) from Intra Freq Cell
Intra Freq Cell Lists>
Monitored Cell> RSRP Intra Freq Cell Monitored RSRP per PCI
Intra Freq Cell Lists>
Monitored Cell> RSRQ Intra Freq Cell Monitored RSRQ per PCI
Intra Freq Cell Lists>
Monitored Cell> RSSI Intra Freq Cell Monitored RSSI per PCI
Intra Freq Cell Lists>
Monitored Cell> Top Set
PCI PCI with RSRP strength from top 1 to 20 from Intra Freq Monitored Cell
RSRP Top 1 to 20 RSRP from Intra Freq Monitored Cell
RSRQ Top 1 to 20 RSRQ from Intra Freq Monitored Cell
RSSI Top 1 to 20 RSSI from Intra Freq Monitored Cell
Intra Freq Cell Lists>
Detected Cell> Detected
Cell Count
Number of Detected PCI from Intra Freq Cell
Intra Freq Cell Lists>
Detected Cell> Detected
Cell List
Detected PCI List from Intra Freq Cell
Intra Freq Cell Lists>
Detected Cell>
Summary Detected Cell
List
Detected PCI List with (RSRP,RSRQ) from Intra Freq Cell
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 21
Intra Freq Cell Lists>
Detected Cell> RSRP Intra Freq Cell Detected RSRP per PCI
Intra Freq Cell Lists>
Detected Cell> RSRQ Intra Freq Cell Detected RSRQ per PCI
Intra Freq Cell Lists>
Detected Cell> RSSI Intra Freq Cell Detected RSSI per PCI
Intra Freq Cell Lists>
Detected Cell> Top Set
PCI PCI with RSRP strength from top 1 to 20 from Intra Freq Detected Cell
RSRP Top 1 to 20 RSRP from Intra Freq Detected Cell
RSRQ Top 1 to 20 RSRQ from Intra Freq Detected Cell
RSSI Top 1 to 20 RSSI from Intra Freq Detected Cell
Intra Freq Cell Lists> All
Set Intra Freq Cell RSRP/RSRQ/RSSI/Cell State per PCI
Intra Freq Cell Lists>
Top Set
PCI PCI with RSRP strength from top 1 to 20 from Intra Freq Cell
RSRP Top 1 to 20 RSRP from Intra Freq Cell
RSRQ Top 1 to 20 RSRQ from Intra Freq Cell
RSSI Top 1 to 20 RSSI from Intra Freq Cell
Cell State
Top 1 to 20 Cell State from Intra Freq Cell
- Serving
- Monitored
- Detected
Inter Freq Cell Lists>
Freq DL(x)>PCI(y)>
RSRP
Inter frequency cell Reference Signal Received Power
Inter Freq Cell Lists>
Freq DL(x)>PCI(y)>
RSRQ
Inter frequency cell Reference Signal Received Quality
Inter Freq Cell Lists>
Freq DL(x)>PCI(y)>
RSSI
Inter frequency cell Received Power
Inter Freq Cell Lists>
Freq DL(x)>PCI(y)> Cell
Type
Inter frequency cell type
1 : monitored cell
2 : detected cell
NAS System Info
Parameter Description
PLMN_ID PLMN ID of the current cell
TAC TAC of the current cell
Cell ID Cell ID of the current cell
TAI List Tracking Area identity List
MCC (Mobile Country Code), MNC (Mobile Network Code) and TAC (Tracking Area
Code).
RRC BCH Status Info
This item provides the information of BCH status.
Parameter Description
RRC BCH Status> PCI Physical Cell Identity (0~503)
RRC BCH Status> Freq DL DL Frequency
RRC BCH Status> Purpose Purpose of BCH Setup
- SIB_NORMAL,
- CELL_RESELECTION,
- SIB_MODIFICATION,
- MOVE_TO_IDLE,
- SIB_CONNECTED,
- SFN_READ,
- SPECIFIED_SIB,
- SIBC_SIB
RRC BCH Status> Result Result of receiving System Information.
- SUCCESS,
- PLMN_MISMATCH,
- MIB_TIMEOUT,
- SI_TIMEOUT,
- LAST_RESULT
NAS State Info
This item provides the state information of EMM (EPS Mobility Management), ECM (EPS Connection
Management) and PLMN and EU (EPS Update) status when each state is changed.
Parameter Description
EMM State Current state of EMM (EPS Mobility Management)
ECM State Current state of ECM (EPS Connection Management)
PLMN State Current state of PLMN
EU State Current EU (EPS Update) status
NAS State Info(R4)
This item provides the NAS state information of EMM (EPS Mobility Management), ECM (EPS Connection
Management) and PLMN and EMM Cache status when each state is changed.
Parameter Description
EMM State Current state of EMM (EPS Mobility Management)
ECM State Current state of ECM (EPS Connection Management)
PLMN State Current state of PLMN
EMM Cache State Current state of EMM Cache
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 23
Radio & NAS Signaling Failure Info
Parameter Description
Radio Problem Cause Radio problem diagnostic logging attribute.
NAS Signaling Failure
Cause NAS signaling failure diagnostic logging attribute
RRC Freq Scan Info
This item displays the result of frequency scan.
Parameter Description
Search Type Cell Search Method
- Frequency LIST
- Frequency RANGE
Freq DL DL Frequency
RSRP Reference Signal Received Power
Cell Reselection Info
This item provides the information on both source cell and target cell when RRC perform cell reselection.
Parameter Description
Old Freq DL Old Carrier Frequency
Old Cell ID Old Cell Identity
New Freq DL New Carrier Frequency
New Cell ID New Cell Identity
Handover History
This item displays handover history, delay and result.
Parameter Description
Source Cell Source Cell Physical Identity
Target Cell Target Cell Physical Identity
Handover Delay Handover delay (Unit : ms)
Result - FAIL
- SUCCESS
Handover Type - LTE
- Outbound IRAT
- Inbound IRAT
Data Path Packet Loss
This item is for UL/DL packet loss of data path(HIM/PDCP/L2).
Parameter Description
UL UsbBlockTime UL : USB Blocking count
UL SdioBlockTime UL : SDIO Blocking count
UL UsbUnreg UL : number of discarded packet in USB by unregistered connection
UL SdioUnreg UL : number of discarded packet in SDIO by unregistered connection
UL HimAllocFail UL : Memory allocation fail count in HIM
UL DimInvHdr UL : Number of discarded packet in DIM by Invalid header
UL DimNoRB UL : Number of discarded packet in DIM because of no RB
UL PdcpSduFull UL : Fail count in PDCP by PDCP SDU Queue full
UL PdcpPduBufFull UL : Number of discarded packet in PDCP by PDCP PDU Queue full
UL PdcpCipAllocFail UL : Number of discarded packet in PDCP by Ciphering block full
UL PdcpDisTimer UL : Number of discarded packet by PDCP discard timer expiry
UL MacSchedMiss UL : Number of discarded MAC PDU which is not transfered
DL PhyAllocFail DL : Number of discarded MAC PDU by memory allocation in L1
DL MacInvHdr DL : Number of discarded MAC PDU by invalid MAC header
DL RlcDuplication DL : number of discarded RLC PDU by duplication
DL RlcInvHdr DL : number of discarded RLC PDU by invalid RLC header
DL RlcOutWnd DL: number of discarded RLC PDU which falls outside of window
DL RlcRsmFull DL : number of discard RLC PDU by RSM buffer full
DL PdcpInvHdr DL : number of discarded PDCP PDU by invalid PDCP header
DL PdcpOutWnd DL : number of discarded PDCP PDU which falls outside of window
DL CipAllocFail DL : Number of discarded packet in PDCP by Ciphering block full
DL DimInvalid DL : Number of discarded packet in DIM by IP Header length mismatch
DL HimIfFull DL : Number of discarded packet in HIM by interface buffer full
DL UsbBlockTime DL : USB block count
DL SdioBlockTime DL : SDIO block count
DL UsbPacketLoss DL : number of discarded packet in USB
DL SdioPacketLoss DL : number of discard packet in SDIO
ESM Instance Info
This item includes ESM instance information R3. Maximum number of ESM instance is 15(1~15). The
EPS Id uniquely identifies each ESM instance.
Parameter Description
Tab Index 1: 1st tab, 2: 2
nd tab, … 15: 15
th tab
EPS Id EPS ID
Linked Bearer Id Linked Bearer ID
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 25
PDN Address PDN IP Address
APN Access Point Name
QCI QCI (1 ~ 9)
EPS Type - NONE BEARER TYPE
- DEFAULT_BEARER
- DEDICATED_BEARER
ESM State - DEACTIVE
- ACTIVE
PTI PTI
Instance Id Instance ID
Deactivate Mode - NONE_MODE
- NORMAL
- NORMAL_ALL
- DETACH
- STATUS_IND
- PDN_DISCONNECT
- PDN_DISCONNECT_REJECT
- PDN_DISCONNECT_TIMEOUT
- MODIFICATION_REJECT
- MODIFICATION_TIMEOUT
- OVERWRITE
- LOCALLY
Overwrite Mode - NONE BEARER TYPE
- DEFAULT_BEARER
- DEDICATED_BEARER
Samsung
Common Basic Info
Parameter Description
RAT Radio Access Technology
- GSM
- GPRS
- UMTS
- EDGE
- HSPA
- LTE
Modem Status Modem Status
- INITIAL
- ACQUISITION
- IDLE
- ACCESS
- TRAFFIC
- NO SERVICE
MIMO Type MIMO Type
- SISO
- SIMO
- MISO
- MIMO
Rx Frequency DL Frequency (MHz)
Tx Frequency UL Frequency (MHz)
Common Data Info
Parameter Description
DL Throughput DL Throughput for GSM/GPRS/UMTS/EDGE/HSPA/ LTE
UL Throughput UL Throughput for GSM/GPRS/UMTS/EDGE/HSPA/ LTE
DL BLER DL Block Error Rate for GSM/GPRS/UMTS/EDGE/HSPA/ LTE
DL BLER DL Block Error Rate for GSM/GPRS/UMTS/EDGE/HSPA/ LTE
DL FER DL Frame Error Rate for GSM/GPRS/UMTS/EDGE/HSPA/ LTE
UL FER UL Frame Error Rate for GSM/GPRS/UMTS/EDGE/HSPA/ LTE
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 27
LTE N Cell Information
Parameter Description
EUTRAN>PLMN PLMN
EUTRAN>Serving Cell
Info> Cell ID Serving Cell ID(PCI 0 ~ 503)
EUTRAN>Serving Cell
Info>RSSI
Serving Cell RSSI
EUTRAN>Serving Cell
Info>CINR
Serving Cell CINR
EUTRAN>Serving Cell
Info>RSRP
Serving Cell RSRP
EUTRAN>Serving Cell
Info>RSRQ
Serving Cell RSRQ
EUTRAN>Serving Cell
Info>All Cell Info
Serving Cell RSSI/CINR/RSRP/RSRQ per PCI
EUTRAN>Neighbor Cell
Info>NCell Num Neighbor Cell number
EUTRAN>Neighbor Cell
Info>EARFCN Neighbor Cell EARFCN per Cell ID(PCI)
EUTRAN>Neighbor Cell
Info>RSSI Neighbor Cell RSSI per Cell ID(PCI)
EUTRAN>Neighbor Cell
Info>RSRP Neighbor Cell RSRP per Cell ID(PCI)
EUTRAN>Neighbor Cell
Info>RSRQ Neighbor Cell RSRQ per Cell ID(PCI)
EUTRAN>Neighbor Cell
Info>Top Set
EARFCN Top 1 to 20 EARFCN from Neighbor Cell
Cell ID PCI with RSRP strength from top 1 to 20 from Neighbor Cell
RSSI Top 1 to 20 RSSI from Neighbor Cell
RSRP Top 1 to 20 RSRP from Neighbor Cell
RSRQ Top 1 to 20 RSRQ from Neighbor Cell
EUTRAN>All Set All(Serving/Neighbor) Cell EARFCN/RSSI/CINR/RSRP/RSRQ per PCI
EUTRAN>Top Set Cell ID PCI with RSRP strength from top 1 to 20 from Neighbor Cell
EARFCN Top 1 to 20 EARFCN from All(Serving/Neighbor) Cell
RSSI Top 1 to 20 RSSI from All(Serving/Neighbor) Cell
RSRP Top 1 to 20 RSRP from All(Serving/Neighbor) Cell
RSRQ Top 1 to 20 RSRQ from All(Serving/Neighbor) Cell
Cell State Top 1 to 20 Cell State from All(Serving/Neighbor) Cell
Serving, Neighbor
UTRAN>UARFCN UARFCN per PSC
UTRAN>RSSI UTRAN RSSI per PSC
UTRAN>RSCP UTRAN RSCP per PSC
UTRAN>Ec/Io UTRAN Ec/Io per PSC
UTRAN>FDD/TDD UTRAN FDD/TDD per PSC
- FDD
- TDD
UTRAN>Top Set UARFCN Top 1 to 20 UARFCN from UTRAN
PSC PSC with Ec/Io strength from top 1 to 20 from UTRAN
RSSI Top 1 to 20 RSSI from UTRAN
RSCP Top 1 to 20 RSCP from UTRAN
Ec/Io Top 1 to 20 Ec/Io from UTRAN
FDD/TDD Top 1 to 20 FDD/TDD from UTRAN
GERAN>RSSI GERAN RSSI per ARFCN
GERAN>BSIC GERAN BSIC per ARFCN
GERAN>Top Set ARFCN ARFCN with RSSI strength from top 1 to 20 from GERAN
BSIC Top 1 to 20 BSIC from GERAN
RSSI Top 1 to 20 RSSI from GERAN
CDMA2000>Frequency CDMA2000 Frequency per PN
CDMA2000>Ec/Io CDMA2000 Ec/Io per PN
CDMA2000>1xRTT/HR
PD CDMA2000 1xRTT/HRPD per PN
CDMA2000>PN Phase CDMA2000 PN Phase per PN
CDMA2000>Top Set Frequency Top 1 to 20 Frequency from CDMA2000
PN PN with Ec/Io strength from top 1 to 20 from CDMA2000
Ec/Io Top 1 to 20 Ec/Io from CDMA2000
PN Phase Top 1 to 20 PN Phase from CDMA2000
1xRTT/HRPD Top 1 to 20 1xRTT/HRPD from CDMA2000
LPHY Cell Search Info
Parameter Description
Cell ID Cell ID(PCI 0 ~ 503)
CP type Cyclic Prefix type
- Normal
- Extended
Antenna[x]>RSRP Antenna[x] RSRP (where, x = 0 ~3)
Antenna[x]>RSRQ Antenna[x] RSRQ (where, x = 0 ~3)
Antenna[x]>RSSI Antenna[x] RSSI (where, x = 0 ~3)
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 29
LPHY System Info
Parameter Description
Transmission mode Transmission mode
- SISO
- SIMO
- 2TX SFBC
- 4TX SFBC-FSTD
- 2TX Open-loop SM-: 4TX Open-loop SM
- 2TX Closed-loop SM, Rank=2
- 4TX Closed-loop SM, Rank=2
- 2TX Multi-user MIMO
- 4TX Multi-user MIMO
- 2TX Closed-loop SM, Rank=1
- 4TX Closed-loop SM, Rank=1
- port5 SISO
- port5 SIMO
DL Pwr Control>Pa
Index
Pa Index
- [-6 dB]
- [ -4.77 dB]
- [-3 dB]
- [-1.76 dB]
- [0 dB]
- [1 dB]
- [2 dB]
- [3 dB]
DL Pwr Control>Pb
Index
Pb Index
- 1 (One Antenna)
- 4/5 (One Antenna)
- 3/5 (One Antenna)
- 2/5 (One Antenna)
- 5/4 (Two or Four Antenna)
- 1 (Two or Four Antenna)
- 3/4 (Two or Four Antenna)
- 1/2 (Two or Four Antenna)
DL Pwr Control>CQI
feedback
type(Aperiodic)
CQI feedback type(Aperiodic)
- Aperiodic Mode 1-2
- Aperiodic Mode 2-0
- Aperiodic Mode 2-2
- Aperiodic Mode 3-0
- Aperiodic Mode 3-1
DL Pwr Control>CQI
feedback type(Periodic)
CQI feedback type(Periodic)
- Periodic Mode 1-0
- Periodic Mode 1-1
- Periodic Mode 2-0
- Periodic Mode 2-1
DL Pwr
Control>Codebook
Subset Restriction
Codebook Subset Restriction
LPHY Channel Quality Info
Parameter Description
CINR>CINR 0 CINR 0 for Ant 0
CINR>CINR 1 CINR 1 for Ant 1
CQI Metric>CQI Metric0 Channel Quality information Metric0
CQI Metric>CQI Metric1 Channel Quality information Metric1
CQI Metric>RI Rank Indication
CQI Metric>PMI Precoding Matrix Indicator
CQI Metric>Best PMI Best Precoding Matrix Indicator
LPHY Parameter Info
Parameter Description
DL System Info>DL BW Downlink System Bandwidth
- 1.4M
- 3M
- 5M
- 10M
- 15M
- 20M
DL System Info>CP
Type
DL System Cyclic Prefix type
- Normal
- Extended
DL System Info>eNB
Ant Num
- 1
- 2
- 4
DL System Info>UE Ant
Num
- 1
- 2
DL System Info>Cell ID Cell ID(PCI 0 ~ 503)
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 31
UL System Info>UL BW Uplink System Bandwidth
- 1.4M
- 3M
- 5M
- 10M
- 15M
- 20M
UL System Info>CP
Type
UL System Cyclic Prefix type
- Normal
- Extended
LPHY PHICH Info
Parameter Description
PHICH group number Physical HARQ indicator channel group number
(parameter to derive number of PHICH groups)
PHICH duration Physical HARQ indicator channel duration
- Short (Normal)
- Extended
LL1 RF & Sync Info
Parameter Description
RSSI Ant0 Received signal strength indication for Ant 0
RSSI Ant1 Received signal strength indication for Ant 1
TX Power Transmitted Power
Sync Info>Cell ID Sync Cell ID
Sync Info>SFN Sync SFN
PBCH Info>Bandwidth Bandwidth
- 1.4M
- 3M
- 5M
- 10M
- 15M
- 20M
PBCH Info>Phich
Resource
PHICH Resource
- 1/6
- 1/2
- 1
- 2
PBCH Info>Phich
Duration
PHICH Duration
- Short (Normal)
- Extended
PBCH Info>eNB Ant eNB(LTE Site) Antenna
- 1
- 2
LL1 Downlink Info
Parameter Description
PDSCH BLER PDSCH Block Error Rate
RB Num Resource Block Number for DL
MCS Level0 MCS Level0 for DL
MCS Level1 MCS Level1 for DL
Modulation0 Modulation0 (QPSK, 16QAM, 64QAM) for DL
Modulation1 Modulation1 (QPSK, 16QAM, 64QAM) for DL
LL1 Uplink Info
Parameter Description
PUSCH BLER PUSCH Block Error Rate
RB Num Resource Block Number for UL
MCS Level MCS Level for UL
Modulation Modulation (QPSK, 16QAM, 64QAM) for UL
(LTE UE CAPA 5 supports 64QAM.)
LL1 Measurement Config Info
Parameter Description
S-measure S-measure
Gap Pattern Gap Pattern
Gap Start SFN Gap Start System Frame Number
Gap Start Subframe Gap Start Subframe
EUTRA quantity EUTRA quantity
EUTRA FC RSRP EUTRA Fc RSRP (where, Fc: Frequency of the carrier centre frequency)
EUTRA FC RSRQ EUTRA Fc RSRQ (where, Fc: Frequency of the carrier centre frequency)
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 33
LL2 SCH Configuration Info
Parameter Description
DL SCH Config>Semi
Persist Sched Interval
Semi Persist Schedule Interval [Unit: sf]
UL SCH Config>
MaxHARQ-Tx
Max HARQ-Tx [Unit: n]
UL SCH Config>Semi
Persist Sched Interval
Semi Persist Schedule Interval [Unit: sf]
UL SCH
Config>Periodic BSR
timer
Periodic Buffer Status Report timer [Unit: n]
Timer & Preamble Info
Parameter Description
Time Alignment Timer
Info>Time Alignment
Timer
Time Alignment Timer [Unit: sf]
PHR Configuration
Info>Periodic PHR
Timer
Periodic PHR Timer [Unit: sf]
PHR Configuration
Info>PHR Prohibit Timer
PHR Prohibit Timer [Unit: sf]
PHR Configuration
Info>DL Pathloss
Change
DL Pathloss Change [Unit: dB]
Preamble Info>No. of
RA-Preambles
Number of RA-Preambles [Unit: n]
Preamble Info>Size of
RA-Preambles Group A
Size of RA-Preambles Group A [Unit: n]
Power Ramping & RA Supervision Info
Parameter Description
Power Ramping Param
Info>Power Ramping
Step
Power Ramping Step[Unit: dB]
Power Ramping Param
Info>Preamble Initial Rx
Target Pwr
Preamble Initial Rx Target Power [Unit: dBm]
RA Supervision
Info>Preamble Trans
Max
Preamble Trans Max [Unit: n]
RA Supervision Info>RA
Response Window Size
RA Response Window Size [Unit: sf]
RA Supervision
Info>MAC Contention
Resolution Timer
MAC Contention Resolution Timer [Unit: sf]
Max HARQ Msg3Tx & RACH Info
Parameter Description
Max HARQ Msg3Tx
Info>MaxHARQ-Msg3Tx
Max HARQ-Msg3Tx
RACH
Info>PREAMBLE_ID
Preamble ID
RACH Info>Back Off
Timer Value
Back Off Timer Value [Unit: ms]
RACH Info>Preamble
Counter
Preamble Counter
LL2 RNTI Info
Parameter Description
SI-RNTI SI-RNTI
P-RNTI P-RNTI
Temp C-RNTI Temporary C-RNTI
C-RNTI C-RNTI
RA-RNTI RA-RNTI
SPS-RNTI SPS-RNTI
LL2 RLC Info
Parameter Description
Uplink>RB ID [x]>UM
SN length
UM SN length for Uplink (where, x = 0 ~ 31)
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 35
Uplink>RB ID [x]>Poll
retransmit timer
Poll retransmit timer for Uplink (where, x = 0 ~ 31) [Unit: ms]
Uplink>RB ID [x]>Poll
PDU
Poll PDU for Uplink (where, x = 0 ~ 31)
Uplink>RB ID [x]>Poll
Byte
Poll Byte for Uplink (where, x = 0 ~ 31) [Unit: kB]
Uplink>RB ID [x]>Max
Retransmit threshold
Max Retransmit threshold for Uplink (where, x = 0 ~ 31) [Unit: n]
Uplink>RB ID [x]>Active
Info
Active Info for Uplink (where, x = 0 ~ 31)
Downlink>RB ID [x]>UM
SN length
UM SN length for Downlink (where, x = 0 ~ 31)
Downlink>RB ID [x]>T1
time value
T1 time value for Downlink (where, x = 0 ~ 31) [Unit: ms]
Downlink>RB ID
[x]>Status Prohibit timer
value
Status Prohibit timer value for Downlink (where, x = 0 ~ 31) [Unit: ms]
Downlink>RB ID
[x]>Active Info
Active Info for Downlink (where, x = 0 ~ 31)
- Deactive
- Active
LL2 PDCP Info
Parameter Description
Uplink>PDCP Info Num Uplink PDCP Info Number (where, x = 0 ~ 31)
Uplink>RB ID
[x]>Connection Info
Connection Info for Uplink (where, x = 0 ~ 31)
- invalid
- valid
Uplink>RB ID
[x]>Integrity Protection
Flag
Integrity Protection Flag for Uplink (where, x = 0 ~ 31)
- Null
- Snow3G
- AES
Uplink>RB ID
[x]>Ciphering Flag
Ciphering Flag for Uplink (where, x = 0 ~ 31)
- Null
- Snow3G
- AES
Uplink>RB ID [x]>SN
Window Size
SN Window Size for Uplink (where, x = 0 ~ 31)
- SRBs
- DRBs on RLC UM
- DRBs on RLC UM or AM
Uplink>RB ID [x]>SDU
Discard Timer
SDU Discard Timer for Uplink (where, x = 0 ~ 31)
- Discard timer disable
- Discard timer time (0x01 ~ 0xFE) [Unit: ms]
- Infinity
Downlink>PDCP Info
Num
Downlink PDCP Info Number (where, x = 0 ~ 31)
Downlink>RB ID
[x]>Connection Info
Connection Info for Downlink (where, x = 0 ~ 31)
- invalid
- valid
Downlink>RB ID
[x]>Integrity Protection
Flag
Downlink>RB ID [x]>Integrity Protection Flag for Downlink (where, x = 0 ~ 31)
- Null
- Snow3G
- AES
Downlink>RB ID
[x]>Ciphering Flag
Downlink>RB ID [x]>Ciphering Flag for Downlink (where, x = 0 ~ 31)
- Null
- Snow3G
- AES
Downlink>RB ID [x]>SN
Window Size
Downlink>RB ID [x]>SN Window Size for Downlink (where, x = 0 ~ 31)
- SRBs
- DRBs on RLC UM
- DRBs on RLC UM or AM
LRRC Serving Cell Info
Parameter Description
Global Cell ID Global Cell ID
Band Band (Band 1 ~ 14, 17, 33 ~ 40)
PLMN ID PLMN ID
TAC List TAC List (TAC[0] & TAC[1])
LRRC State Variables Info
Parameter Description
RRC State RRC State
- NULL
- IDLE
- CONNECTED
- DISCONNECTING
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 37
LRRC Timer info
Parameter Description
T300 Timer 300
(Start)
Transmission of RRCConnectionRequest
(Stop)
Reception of RRCConnectionSetup or RRCConnectionReject message, cell re-
selection and upon abortion of connection establishment by upper layers
(At expiry)
Perform the actions as specified in 3GPP 36.331 5.3.3.6
T301 Timer 301
(Start)
Transmission of RRCConnectionReestabilshmentRequest
(Stop)
Reception of RRCConnectionReestablishment or
RRCConnectionReestablishmentReject message as well as when the selected cell
becomes unsuitable
(At expiry)
Go to RRC_IDLE
T310 Timer 310
(Start)
Upon detecting physical layer problems i.e. upon receiving N310 consecutive out-of-
sync indications from lower layers
(Stop)
Upon receiving N311 consecutive in-sync indications from lower layers, upon
triggering the handover procedure and upon initiating the connection re-
establishment procedure
(At expiry)
If security is not activated: go to RRC_IDLE else: initiate the connection re-
establishment procedure
T311 Timer 311
(Start)
Upon initiating the RRC connection re-establishment procedure
(Stop)
Selection of a suitable E-UTRA cell or a cell using another RAT
(At expiry)
Enter RRC_IDLE
LNAS State Variables Info
Parameter Description
EMM Functional State EMM Functional State
- DETACHED
- IDLE
- CONNECTED
EMM State EMM State
- NULL
- DEREGISTERED
- REGISTERED_INITIATED
- REGISTERED
- TAU_INITIATED
- SERVICE_REQUEST_INITIATED
- DEREGISTERED_INITIATED
LNAS MM(SIM/PLMN/Security) Info
Parameter Description
SIM Data Info>TAI TAI
SIM Data Info>S-TMSI S-TMSI
SIM Data Info>SIM
Update status
SIM Update status
SIM Data Info>IMSI IMSI
SIM Data Info>GUTI GUTI
SIM Data Info>HPLMN
search period
HPLMN search period
PLMN Selection
Info>Registered PLMN
Registered PLMN
Security Info>Status Security Status
0: Enable
1: Disable
Security Info>NAS KSI NAS KSI
Security Info>CK CK
Security Info>IK IK
Security Info>Security
algo integrity
Security algorithm integrity
- INTEG_NULL_ALGO
- INTEG_SNOW3G_ALGO
- INTEG_AES_ALGO
Security Info>Security
algo ciphering
Security algorithm ciphering
- INTEG_NULL_ALGO
- INTEG_SNOW3G_ALGO
- INTEG_AES_ALGO
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 39
LNAS PDP/IP Info
Parameter Description
PDP Info EPS Bearer Id, Bearer Type and SM Cause
IP Info>IPv4 Address IP v4 Address
IP Info>IP Mode IP Mode
- IPv4
- IPv6
- IPv4_IPv6
LDATA Throughput Info
Parameter Description
Physical Layer>UL
Throughput LTE PUSCH Throughput [Unit: Mbps]
Physical Layer>DL
Throughput LTE PDSCH Throughput [Unit: Mbps]
LDATA Timing Info
Parameter Description
Connection time Connection time by Samsung LTE chipset [Unit: ms]
Qualcomm
Configuration Info
Parameter Description
DL Common> TDD
Common Config
Subframe Assignment
0 – SUBFRAME_ASSIGN_0
1 – SUBFRAME_ASSIGN_1
2 – SUBFRAME_ASSIGN_2
3 – SUBFRAME_ASSIGN_3
4 – SUBFRAME_ASSIGN_4
5 – SUBFRAME_ASSIGN_5
6 – SUBFRAME_ASSIGN_6
Special Subframe
Patterns
0 – SPECIAL_SUBFRAME_PATTERN_0
1 – SPECIAL_SUBFRAME_PATTERN _1
2 – SPECIAL_SUBFRAME_PATTERN _2
3 – SPECIAL_SUBFRAME_PATTERN _3
4 – SPECIAL_SUBFRAME_PATTERN _4
5 – SPECIAL_SUBFRAME_PATTERN _5
6 – SPECIAL_SUBFRAME_PATTERN _6
7 – SPECIAL_SUBFRAME_PATTERN_7
8 – SPECIAL_SUBFRAME_PATTERN_8
DL Common> UL CP
Config UL CP
0 – NORMAL_CP
1 – EXTENDED_CP
DL Common> UL Config UL EARFCN UL Cell earfcn (18000 <= Range <= 39649)
UL Bandwidth
Uplink bandwidth
6 (RBs) – 1.4 MHz
15 (RBs) – 3 MHz
25 (RBs) – 5 MHz
50 (RBs) – 10 MHz
75 (RBs) – 15 MHz
100 (RBs) – 20 MHz
Additional Spectrum
Emission Additional Spectrum Emission (Range is 1 to 32)
DL Common> MIB info Num ENB Ant Ports Valid values – 1, 2, 4
PHICH Duration
PHICH-Duration
0 – PHICH_NORMAL
1 – PHICH_EXTENDED
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 41
PHICH Resource
Ng (HICH group multiplier)
0 – 1/6
1 – 1/2
2 – 1
3 – 2
DL Common> PDSCH
Config Reference Signal Power
Downlink Reference-signal transmit power
(Range is -60 to 50 dBm)
P-b
P_B indicates the ratio of PDSCH-to-RS EPRE in
symbols with and without reference symbols for 1, 2 or 4
cell specific antenna ports
0 – PB0 = (1, 1), (2, 5/4), (4, 5/4)
1 – PB1 = (1, 4/5), (2, 1), (4, 1)
2 – PB2 = (1, 3/5), (2, 3/4), (4, 3/4)
3 – PB3 = (1, 2/5), (2, 1/2), (4, 1/2)
4 – PB_FW_HYPOTHESIS
DL Common> MBSFN
Config> Config[x]
Allocation Offset allocation offset (Range is 0 to 7)
Allocation Period
allocation period
0 – 1 radio frame
1 – 2 radio frames
2 – 4 radio frames
3 – 8 radio frames
4 – 16 radio frames
5 – 32 radio frames
Sub-Fn Allocation Type
subfn allocation type
Type 0 – MBSFN allocation one frame
Type 1 – MBSFN allocation four frames
Sub-Fn Allocation Mask
subfn allocation mask based on subfn allocation type
- First 6 bits (least significant bits) for Type 0
- All 24 bits for Type 1
- Total 24 bits mask
DL Dedicated> PDCCH
TPC Config for PUCCH TPC-RNTI
RNTI for PUCCH power control using DCI format 3/3A
(Range is 0001-003C, 003D-FFF3)
DCI Format
DCI format 3 or 3A used for TPC Index
0 – DCI Format3
1 – DCI Format3A
TPC Index
Index of N or M
(Range is [1-15] for DCI format 3 and [1-31] for format
3A)
DL Dedicated> PDCCH
TPC Config for PUSCH TPC-RNTI
RNTI for PUSCH power control using DCI format 3/3A
(Range is 0001-003C, 003D-FFF3)
DCI Format
DCI format 3 or 3A used for TPC Index
0 – DCI Format3
1 – DCI Format3A
TPC Index
Index of N or M
(Range is [1-15] for DCI format 3 and [1-31] for format
3A)
Antenna Config
Codebook Subset
Restriction
A bitmask of the codebook restriction. The number of bits
used in the restriction varies with the transmission mode
n2TxAntenna-tm3 : 2
n4TxAntenna-tm3 : 4
n2TxAntenna-tm4 : 6
n4TxAntenna-tm4 : 64
n2TxAntenna-tm5 : 4
n4TxAntenna-tm5 : 16
n2TxAntenna-tm6 : 4
n4TxAntenna-tm6 : 16
Transmission Mode
Transmission mode
1 – Tx mode 1
2 – Tx mode 2
3 – Tx mode 3
4 – Tx mode 4
5 – Tx mode 5
6 – Tx mode 6
7 – Tx mode 7
Tx Ant Selection Control 0 – Closed loop
1 – Open loop
DL Dedicated> PDSCH
Config
P-a
P-a
0 – - 6 dB
1 – - 4.77 dB
2 – - 3 dB
3 – - 1.77 dB
4 – 0 dB
5 – 1 dB
6 – 2 dB
7 – 3 dB
8 – PA_FW_HYPOTHESIS
DL Dedicated> UE-
related Config C-RNTI
C- RNTI value
(Range is 0001-003C, 003D-FFF3)
UL Common> PUSCH
Config n_sb
n_sb
0x0 - 1 to 0x3 – 4
Hopping Mode
Hopping-mode
0x0 - Inter subframe
0x1 - Intra and inter subframe
Hopping Offset Hopping offset
(Range is 0 to 98)
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 43
Enable 64 QAM 1 indicates that 64 QAM is enabled while 0 indicates that
no 64 QAM is allowed
Group Hopping Enabled
Group-hopping-enabled
1 indicates that Group Hopping is enabled while 0
Indicates that Group Hopping is disabled
Group Assignment
PUSCH Group Assignment PUSCH (Range is 0 to 29)
Sequence Hopping
Enabled
Sequence-hopping-enabled
1 indicates that Sequence Hopping is enabled while 0
Indicates that Sequence Hopping is disabled
Cyclic Shift Cyclic Shift (Range is 0 to 7)
UL Common> PUCCH
Config
Delta Shift Delta Shift (Range is 1 to 3)
n_rb_cqi n_rb_cqi (Range is 0 to 98)
n_cs_an n_cs_an (Range is 0 to 7)
n1_pucch_an n1_pucch_an (Range is 0 to 2047)
UL Common> SRS
Config SRS Enabled
0x0 – Disable
0x1 – Enable
SRS Bandwidth Config SRS Bandwidth Configuration (Range is 0 to 7)
SRS Subframe Config SRS subframe Configuration (Range is 0 to 15)
Simultaneous ACK/NAK
SRS
Simultaneous-AN-and-SRS
1 indicates that Simultaneous transmission of ACK/NAK
and SRS is enabled while 0 Indicates that it is disabled
SRS Max UpPts
SRS Max Uplink Pilot Time Slot
1 indicates reconfiguration is enabled for UpPts while 0
indicates that reconfiguration is disabled.
UL Dedicated> SRS
Config SRS Enabled
0x0 – Disable
0x1 – Enable
SRS Bandwidth SRS Bandwidth (Range is 0 to 3)
SRS Hopping
Bandwidth SRS hopping bandwidth (Range is 0 to 3)
Freq Domain Position Frequency Domain Position (Range is 0 to 23)
Duration 0 corresponds to single and value 1 to indefinite
(Range is 0 to 1)
SRS Config Index SRS Config Index (Range is 0 to 1023)
Tx Combination Tx Combination (Range is 0 to 1)
Cyclic Shift Cyclic Shift (Range is 0 to 7)
UL Dedicated> CQI
Config CQI Enabled
0x0 – Disable
0x1 – Enable
CQI Reporting Mode
Aperiodic
CQI Reporting Mode Aperiodic
0x0 – Mode12
0x1 – Mode20
0x2 – Mode22
0x3 – Mode30
0x4 – Mode31
CQI Reporting Periodic
Present
0x0 – Not Present
0x1 - Present
CQI Format Indicator
PUCCH CQI Feedback Type
0x0 – Wideband CQI
0x1 – Subband CQI
Nominal PDSCH RS
EPRE Offset
Nominal PDSCH RS EPRE Offset
(Range is -1 to 6)
CQI PUCCH Resource
Index
CQI PUCCH Resource Index
(Range is 0 to 1185)
RI Config Index RI Config Index
(Range is 1 to 1023)
K K (Range is 1 to 4)
Simultaneous AckNack
and CQI
Simultaneous-AN-and-CQI
1 indicates that simultaneous transmission of ACK/NACK
and CQI is allowed and 0 indicates that it is not
CQI-PMI Config Index CQI/PMI Periodicity and offset Configuration Index
(Range is 0 to 1023)
UL Dedicated> Antenna
Config
Transmission Mode
Transmission mode
1 – Tx mode 1
2 – Tx mode 2
3 – Tx mode 3
4 – Tx mode 4
5 – Tx mode 5
6 – Tx mode 6
7 – Tx mode 7
Tx Ant Selection
Enabled
0 indicates that UE transmit antenna selection is disabled.
If 1, then the field indicates whether UE transmit antenna
selection control is closed-loop or open-loop
Tx Ant Selection Control 0 indicates closed loop and 1 indicates open loop
Codebook Subset
Restriction Codebook Subset Restriction
GM Common> UL
Frequency Config
Cell Frequency
ul-EARFCN
For FDD – Default value determined from default
Tx-RX frequency separation defined in [36.101]
Range is
For TDD – This parameter is absent and it is equal
to the downlink frequency.
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 45
Bandwidth Uplink bandwidth
Additional Spectrum
Emission Additional Spectrum Emission (Range is 0 to 31)
GM Common> PUCCH
Config
PUCCH Delta Shift PUCCH Delta Shift (Range is 1 to 3)
n_rb_cqi n_rb_cqi (Range is 0 to 98)
n_cs_an n_cs_an (Range is 0 to 7)
n1_pucch_an n1_pucch_an (Range is 0 to 2047)
GM Common> UL
Power Control Config
P0 Nominal PUSCH P0 Nominal PUSCH (Range is -126 to 24)
Alpha
Alpha
0x0 – 0
0x1 – 0.4
0x2 – 0.5
0x3 – 0.6
0x4 – 0.7
0x5 – 0.8
0x6 – 0.9
0x7 – 1.0
P0 Nominal PUCCH P0 Nominal PUCCH (Range is -127 to -96)
actual value = IE value * 2 [dB]
Delta Preamble MSG3 Delta Preamble MSG3
Delta TF List PUCCH
Format 1 Delta TF List PUCCH Format 1
Delta TF List PUCCH
Format 1b Delta TF List PUCCH Format 1b
Delta TF List PUCCH
Format 2 Delta TF List PUCCH Format 2
Delta TF List PUCCH
Format 2a Delta TF List PUCCH Format 2a
Delta TF List PUCCH
Format 2b Delta TF List PUCCH Format 2b
GM Common> SRS
Config SRS Enabled
0x0 – Disable
0x1 – Enable
SRS Bandwidth Config SRS bandwidth configuration (Range is 0 to 7)
SRS Subframe Config SRS subframe configuration (Range is 0 to 15)
Simultaneous ACK/NAK
SRS
Simultaneous-AN-and-SRS
1 indicates that Simultaneous transmission of ACK/NAK
and SRS is enabled while 0 Indicates that it is disabled
SRS Max UpPts
SRS Max Uplink Pilot Time Slot
1 indicates reconfiguration is enabled for UpPts while 0
indicates that reconfiguration is disabled
GM Common> UL
Cyclic Prefix Config UL Cyclic Prefix Length
Uplink cyclic prefix length
0 corresponds to normal cyclic prefix and 1 corresponds
to extended cyclic prefix
GM Common> PUSCH
Config Enable 64 QAM
0x0 – Disable
0x1 – Enable
GM Dedicated> SR
Config SR Enabled
0x0 – Disable
0x1 – Enable
SR PUCCH Resource
Index SR PUCCH Resource Index (Range is 0 to 2047)
SR Config Index SR Config Index (Range is 0 to 155)
SR Max Transmissions SR Max Transmissions(DSR_TRANS_MAX)
(Range is 4 to 64)
GM Dedicated> CQI
Config CQI Enabled
0x0 – Disable
0x1 – Enable
CQI Reporting Mode
Aperiodic
CQI Reporting Mode Aperiodic
0x0 – Mode12
0x1 – Mode20
0x2 – Mode22
0x3 – Mode30
0x4 – Mode31
Nominal PDSCH RS
EPRE Offset
Nominal PDSCH RS EPRE Offset
(Range is -1 to 6)
CQI Reporting Periodic
Present
0x0 – Not Present
0x1 - Present
CQI Reporting Periodic
Enabled
0x0 – Disable
0x1 – Enable
CQI Format Indicator
PUCCH CQI Feedback Type
0x0 – Wideband CQI
0x1 – Subband CQI
Simultaneous AckNack
and CQI
Simultaneous-AN-and-CQI
1 indicates that simultaneous transmission of ACK/NACK
and CQI is allowed and 0 indicates that it is not
CQI PUCCH Resource
Index
CQI PUCCH Resource Index
(Range is 0 to 1185)
RI Config Index RI Config Index
(Range is 1 to 1023)
K K (Range is 1 to 4)
CQI-PMI Config Index CQI/PMI Periodicity and offset Configuration Index
(Range is 0 to 1023)
GM Dedicated> SRS
Config SRS Enabled
0x0 – Disable
0x1 – Enable
SRS Bandwidth SRS Bandwidth (Range is 0 to 3)
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 47
SRS Hopping
Bandwidth SRS hopping bandwidth (Range is 0 to 3)
Freq Domain Position Frequency Domain Position (Range is 0 to 23)
Duration 0 corresponds to single and value 1 to indefinite
(Range is 0 to 1)
Tx Combination Tx Combination (Range is 0 to 1)
Cyclic Shift Cyclic Shift (Range is 0 to 7)
SRS Config Index SRS Config Index (Range is 0 to 1023)
GM Dedicated> PHR
Config PHR Enabled
0x0 – Disable
0x1 – Enable
Periodic PHR Timer PERIODIC_PHR_TIMER Value in number of subframes
(Range is 0 to 1000).
Prohibit PHR Timer PROHIBIT PHR TIMER Value in number of subframes
(Range is 0 to 1000).
DL Pathloss Change
Threshold
DL Pathloss Change Value in dB
(Range is 0 to 6)
GM Dedicated> PUSCH
TPC Config PUSCH TPC Enabled
0x0 – Disable
0x1 – Enable
PUSCH TPC DCI
Format
0x0 - Format 3
0x1 – Format 3a
PUSCH TPC Index
Index of N or M
N or M is dependent on the used DCI format
(Range is 1 to 31)
PUSCH TPC-RNTI RNTI for PUSCH power control using DCI format
3/3A
GM Dedicated> PUCCH
TPC Config PUCCH TPC Enabled
0x0 – Disable
0x1 – Enable
PUCCH TPC DCI
Format
0x0 - Format 3
0x1 – Format 3a
PUCCH TPC Index
Index of N or M
N or M is dependent on the used DCI format
(Range is 1 to 31)
PUCCH TPC-RNTI RNTI for PUCCH power control using DCI format
3/3A
GM Dedicated> UL SCH
Config
MAX HARQ
Transmissions max-HARQ-Tx (Range is 1 to 28)
TTI Bundling Enabled Configures TTI bundling on and OFF; can be configured
for FDD and for TDD only for configurations 0, 1 and 6
GM Dedicated> UL
Power Control Config Accumulation Enabled
Accumulation-enabled
1 corresponds to enabled, whereas 0 corresponds to
disabled
P0 UE PUSCH P0 UE PUSCH (Range is -8 to 7)
P0 UE PUCCH P0 UE PUCCH (Range is -8 to 7)
Delta MCS Enabled
Delta MCS Enabled
0 corresponds to value 0 corresponding to state disabled;
1 corresponds to value 1.25 corresponding to enabled
P_SRS Offset
P_SRS Offset
For Ks=1.25, the actual parameter value is pSRS-offset
value – 3. For Ks=0, the actual parameter value is -10.5 +
1.5*pSRS-offset value.
GM Dedicated> PUSCH
Config
Delta Offset ACK Index Delta Offset ACK Index (Range is 0 to 15)
Delta Offset CQI Index Delta Offset CQI Index (Range is 0 to 15)
Delta Offset Index Delta Offset Index (Range is 0 to 15)
GM Dedicated> PUCCH
Config PUCCH Cfg Enabled
0x0 – Disable
0x1 – Enable
ACK/NAK Feedback
Mode
ACK/NAK Feedback Mode
Parameter indicates one of the two TDD ACK/NACK
feedback modes used
0 corresponds to use of ACK/NACK bundling, whereas 1
corresponds to ACK/NACK multiplexing The same value
applies to both ACK/NACK feedback modes on PUCCH
as well as on PUSCH
ACK/NAK Repetition
Factor
ACK/NAK Repetition Factor
Parameter indicates whether ACK/NACK repetition
is enable or disabled (Range is 2 to 6)
n1_PUCCH_ANRep PUCCH Resource for ACK/NAK Repetition
(Range is 0 to 2047)
GM Dedicated>
Antenna Config
Transmission Mode
Transmission mode
1 – Tx mode 1
2 – Tx mode 2
3 – Tx mode 3
4 – Tx mode 4
5 – Tx mode 5
6 – Tx mode 6
7 – Tx mode 7
Tx Ant Selection
Enabled
0 indicates that UE transmit antenna selection is disabled.
If 1, then the field indicates whether UE transmit antenna
selection control is closed-loop or open-loop
Tx Ant Selection Control 0 indicates closed loop and 1 indicates open loop
Codebook Subset
Restriction Codebook Subset Restriction
GM Dedicated> CDRX
Config CDRX Enable
0x0 – Disable
0x1 – Enable
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 49
On Duration Timer On Duration Timer
pdcch subframes (Maximum value 200)
Inactivity Timer Inactivity Timer
pdcch subframes (Maximum value 2560)
DL DRX Retx Timer DL DRX Retx Timer
pdcch subframes (Maximum value 33)
Long Cycle Len Long Cycle Len
pdcch subframes (Maximum value 2560)
Cycle Start Offset Cycle Start Offset
pdcch subframes (Maximum value 2559)
Short DRX Cycle
Enable
0x0 – Disable
0x1 – Enable
Short DRX Cycle Len Short DRX Cycle Len
pdcch subframes (Maximum value 640)
Short DRX Timer Short DRX Timer
pdcch subframes (Maximum value 16)
PRACH
Logical Root Seq Index
Logical Root ZadOFF-Chu Sequence number for various
preamble formats
Range is 0 to 837 for Preamble Format 0-3
Range is 0 to 137 for Preamble Format 4
RA Preamble Timing Random Access Preamble timing for a range of
Preamble Formats (Range is 0 to 15)
High Speed Flag Controls grouping of preamble sequences in two sets, to
differentiate a high speed UE from normal
PRACH Frequency
Offset Frequency Resource offset (Range is 0 to 104)
Max Transmissions
MSG3
Maximum number of HARQ re-transmissions from UE for
RACH message3 (Range is 1 to 8)
Cyclic Shift Zone Length
Cyclic Shifts for various Preamble Formats
Range is 0 to15 for Preamble Formats 0-3
Range is 0 to 6 for Pramble Format 4
RA Response Window
Size
Window size for reception of RACH message2
(Range is 2 to 10)
TDD
Subframe Assignment
0 – SUBFRAME_ASSIGN_0
1 – SUBFRAME_ASSIGN_1
2 – SUBFRAME_ASSIGN_2
3 – SUBFRAME_ASSIGN_3
4 – SUBFRAME_ASSIGN_4
5 – SUBFRAME_ASSIGN_5
6 – SUBFRAME_ASSIGN_6
Special Subframe
Patterns
0 – SPECIAL_SUBFRAME_PATTERN_0
1 – SPECIAL_SUBFRAME_PATTERN _1
2 – SPECIAL_SUBFRAME_PATTERN _2
3 – SPECIAL_SUBFRAME_PATTERN _3
4 – SPECIAL_SUBFRAME_PATTERN _4
5 – SPECIAL_SUBFRAME_PATTERN _5
6 – SPECIAL_SUBFRAME_PATTERN _6
7 – SPECIAL_SUBFRAME_PATTERN_7
8 – SPECIAL_SUBFRAME_PATTERN_8
Power Info
Parameter Description
RSSI(In-band) Ant0 RSSI(In-band) for Ant0 (Range: -120 dBm to -10 dBm)
Ant1 RSSI(In-band) for Ant1 (Range: -120 dBm to -10 dBm)
Comb [RSSI(In-band)>Ant0 + RSSI(In-band)>Ant1]/2
RSSI(Total Band) Ant0 RSSI(Total Band) for Ant0 (Range: -120 dBm to -10 dBm)
Ant1 RSSI(Total Band) for Ant1 (Range: -120 dBm to -10 dBm)
Comb [RSSI(Total Band)>Ant0 + RSSI(Total Band)>Ant1]/2
RSSI(Broadband) Ant0 RSSI(Broadband) for Ant0 (Range: -120 dBm to -10 dBm)
Ant1 RSSI(Broadband) for Ant1 (Range: -120 dBm to -10 dBm)
Comb [RSSI(Broadband)>Ant0 + RSSI(Broadband)>Ant1]/2
Tx Power PUSCH PUSCH Tx Power (Range: -112 dBm to 23 dBm)
PUCCH PUCCH Tx Power (Range: -112 dBm to 23 dBm)
PRACH PRACH Tx Power (Range: -112 dBm to 23 dBm)
SRS SRS Tx Power (Range: -112 dBm to 23 dBm)
AGC AGC Tx Power (Range: -70 dBm to 32.3 dBm)
Cell Search
Parameter Description
PSS> Dominant PSS
Peak Value
Dominant PSS Peak value
10log10(x/128) in units of dB
PSS> Dominant PSS
Peak Position Sample position with 5 ms resolution (Range is 0 to (9600-1))
PSS> Dominant PSS
Indices PSS Index (Range is 0 to 2)
SSS> Dominant PCI Dominant Cell ID(PCI)
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 51
SSS> Dominant SSS
Peak Value
Dominant SSS Peak Value
10log10(x/256) in units of dB
SSS> Dominant SSS
Position
Start of SSS sequence in search sample server.
Range is 0 to (search sample server length -1)
SSS> Detected Cell
Info> PCI#
SSS Peak
Value SSS Peak value per PCI
SSS Position SSS Position per PCI
CP
Cyclic prefix used per PCI
0 – normal CP
1 – extended CP
Half Frame
Hypothesis
Half Frame Hypothesis per PCI
0 – Preamble
1 – MIDamble
Ant Correlation Result
Parameter Description
Serving PCI Serving Cell PCI
RSSI Ant0 RSSI per Rx antenna0
RSSI Ant1 RSSI per Rx antenna1
RSSI Comb Combined RSSI
Antenna Correlation>
Correlation Real> Tx
Ant[x]
Real part of Rx0 and Rx1 correlation
Where, x is Tx Antenna (Range: 0 ~ 3).
Antenna Correlation>
Correlation Imaginary>
Tx Ant[x]
Imaginary part of Rx0 and Rx1 correlation
Where, x is Tx Antenna (Range: 0 ~ 3).
Intrafreq Measurement Info
Parameter Description
EARFCN Downlink frequency as E-ARFCN
Frequency Downlink frequency of the serving cell (Unit: MHz)
Serving Cell> Serving
PCI Serving Cell PCI (Range: 0 ~ 503)
Serving Cell> Serving
RSRP
RSRP Serving Cell RSRP (Range: -140dBm to -44dBm)
RSRP0 Serving Cell RSRP0 (Range: -140dBm to -44dBm)
RSRP1 Serving Cell RSRP1 (Range: -140dBm to -44dBm)
Serving Cell> Serving RSRQ Serving Cell RSRQ (Range: -30dB to 0 dB)
RSRQ RSRQ0 Serving Cell RSRQ0 (Range: -30dB to 0 dB)
RSRQ1 Serving Cell RSRQ1 (Range: -30dB to 0 dB)
Serving Cell> Serving
RSSI
RSSI Serving Cell RSSI (Range: -140dBm to -44dBm)
RSSI0 Serving Cell RSSI0 (Range: -140dBm to -44dBm)
RSSI1 Serving Cell RSSI1 (Range: -140dBm to -44dBm)
Serving Cell> Serving
SINR
SINR0 Serving Cell SINR0 (Range: -20dB to +30dB)
SINR1 Serving Cell SINR1 (Range: -20dB to +30dB)
Serving Cell> All Cell
Info> Serving RSRP
RSRP>PCI# Serving Cell RSRP per PCI (Range: -140dBm to -44dBm)
RSRP0>PCI# Serving Cell RSRP0 per PCI (Range: -140dBm to -44dBm)
RSRP1>PCI# Serving Cell RSRP1 per PCI (Range: -140dBm to -44dBm)
Serving Cell> All Cell
Info> Serving RSRQ
RSRQ>PCI# Serving Cell RSRQ per PCI (Range: -30dB to 0 dB)
RSRQ0>PCI# Serving Cell RSRQ0 per PCI (Range: -30dB to 0 dB)
RSRQ1>PCI# Serving Cell RSRQ1 per PCI (Range: -30dB to 0 dB)
Serving Cell> All Cell
Info> Serving RSSI
RSSI>PCI# Serving Cell RSSI per PCI (Range: -140dBm to -44dBm)
RSSI0>PCI# Serving Cell RSSI0 per PCI (Range: -140dBm to -44dBm)
RSSI1>PCI# Serving Cell RSSI1 per PCI (Range: -140dBm to -44dBm)
Serving Cell> All Cell
Info> Serving SINR
SINR0>PCI# Serving Cell SINR0 per PCI (Range: -20dB to +30dB)
SINR1>PCI# Serving Cell SINR1 per PCI (Range: -20dB to +30dB)
Neighbor Cell> Neighbor
Neighbor Cell> Cell
Count
Number of Neighbor PCI
Neighbor Cell> Neighbor
Cell List Neighbor PCI List
Neighbor Cell>
Summary Neighbor Cell
List
Neighbor PCI List with (RSRP,RSRQ)
Neighbor Cell> Neighbor
RSRP
RSRP>PCI# Neighbor Cell RSRP per PCI (Range: -140dBm to -44dBm)
RSRP0>PCI# Neighbor Cell RSRP0 per PCI (Range: -140dBm to -44dBm)
RSRP1>PCI# Neighbor Cell RSRP1 per PCI (Range: -140dBm to -44dBm)
Neighbor Cell> Neighbor
RSRQ
RSRQ>PCI# Neighbor Cell RSRQ per PCI (Range: -30dB to 0 dB)
RSRQ0>PCI# Neighbor Cell RSRQ0 per PCI (Range: -30dB to 0 dB)
RSRQ1>PCI# Neighbor Cell RSRQ1 per PCI (Range: -30dB to 0 dB)
Neighbor Cell> Neighbor
RSSI
RSSI>PCI# Neighbor Cell RSSI per PCI (Range: -140dBm to -44dBm)
RSSI0>PCI# Neighbor Cell RSSI0 per PCI (Range: -140dBm to -44dBm)
RSSI1>PCI# Neighbor Cell RSSI1 per PCI (Range: -140dBm to -44dBm)
Neighbor Cell> Top Set>
Top#
PCI PCI with RSRP strength from top 1 to 20 from Neighbor Cell
RSRP Top 1 to 20 RSRP from Neighbor Cell
RSRP0 Top 1 to 20 RSRP0 from Neighbor Cell
RSRP1 Top 1 to 20 RSRP1 from Neighbor Cell
RSRQ Top 1 to 20 RSRQ from Neighbor Cell
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 53
RSRQ0 Top 1 to 20 RSRQ0 from Neighbor Cell
RSRQ1 Top 1 to 20 RSRQ1 from Neighbor Cell
RSSI Top 1 to 20 RSSI from Neighbor Cell
RSSI0 Top 1 to 20 RSSI0 from Neighbor Cell
RSSI1 Top 1 to 20 RSSI1 from Neighbor Cell
All Set> All RSRP RSRP>PCI# RSRP per PCI
RSRP0>PCI# RSRP0 per PCI
RSRP1>PCI# RSRP1 per PCI
All Set> All RSRQ RSRQ>PCI# RSRQ per PCI
RSRQ0>PCI# RSRQ0 per PCI
RSRQ1>PCI# RSRQ1 per PCI
All Set> All RSSI RSSI>PCI# RSSI per PCI
RSSI0>PCI# RSSI0 per PCI
RSSI1>PCI# RSSI1 per PCI
All Set> Cell State Cell State per PCI
- Serving
- Neighbor
Top Set> Top# PCI PCI with RSRP strength from top 1 to 20 from All Set
RSRP Top 1 to 20 RSRP from All Set
RSRP0 Top 1 to 20 RSRP0 from All Set
RSRP1 Top 1 to 20 RSRP1 from All Set
RSRQ Top 1 to 20 RSRQ from All Set
RSRQ0 Top 1 to 20 RSRQ0 from All Set
RSRQ1 Top 1 to 20 RSRQ1 from All Set
RSSI Top 1 to 20 RSSI from All Set
RSSI0 Top 1 to 20 RSSI0 from All Set
RSSI1 Top 1 to 20 RSSI1 from All Set
Cell State
Top 1 to 20 Cell State from All Set
- Serving
- Neighbor
Channel Quality Info
Parameter Description
Tx Mode Transmission Mode
0 – TM_INVALID
1 – TM_SINGLE_ANT_PORT0
2 – TM_TD_RANK1
3 – TM_OL_SM
4 – TM_CL_SM
5 – TM_MU_MIMO
6 – TM_CL_RANK1_PC
7 – TM_SINGLE_ANT_PORT5
PUCCH Reporting Mode PUCCH Reporting Mode
0 – MODE_1_0
1 – MODE_1_1
2 – MODE 2_0
3 – MODE 2_1
PUSCH Reporting Mode PUSCH Reporting Mode
0 – MODE_APERIODIC_RM12
1 – MODE_APERIODIC_RM20
2 – MODE_APERIODIC_RM22
3 – MODE_APERIODIC_RM30
4 – MODE_APERIODIC_RM31
Rank Index Rank Index
0 – Rank 1
1 – Rank 2
WideBand CQI CW0 Wideband CQI for CW0 (Range: 0 ~ 15)
WideBand CQI CW1 Wideband CQI for CW1 (Range: 0 ~ 15)
WideBand PMI WideBand PMI
Range: 0…15 for 4 Tx, Rank 1 and 2
Range: 0…1 for 2 Tx, Rank 2
Range: 0…3 for 1 or 2 Tx, Rank 1
ML1 Downlink Info
Parameter Description
RB Num Number of DL Resource Blocks
MCS Idx0 DL MCS Index0
MCS Idx1 DL MCS Index1
Modulation Idx0 Rate QPSK QPSK Num/(QPSK Num+16QAM Num+64QAM Num)*100 in TB[0]
16QAM 16QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100 in TB[0]
64QAM 64QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100 in TB[0]
Modulation Idx1 Rate QPSK QPSK Num/(QPSK Num+16QAM Num+64QAM Num)*100 in TB[1]
16QAM 16QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100 in TB[1]
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 55
64QAM 64QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100 in TB[1]
ML1 Uplink Info
Parameter Description
RB Num Number of UL Resource Blocks
MCS Idx UL MCS Index
Modulation Idx Rate QPSK QPSK Num/(QPSK Num+16QAM Num+64QAM Num)*100
16QAM 16QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100
64QAM 64QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100
Random Access Procedure
Parameter Description
Random Access
Request(MSG1)>
Preamble Sequence
Preamble Sequence Index.
Random Access
Request(MSG1)>
Physical Root Index
Physical Root Sequence Index corresponding to
Preamble Sequence
Random Access
Request(MSG1)> Cyclic
Shift
Cyclic Shift
Random Access
Request(MSG1)>
PRACH Tx Power
PRACH Transmit Power (Range is -112 dBm to 23 dBm)
Random Access
Request(MSG1)> Beta
PRACH
Beta PRACH (Range is 0 to 2047)
Random Access
Request(MSG1)>
Frequency Resource
Offset
N_ra_prb (Range is 0 to 104)
Random Access
Request(MSG1)>
Preamble Format
Preamble format (based on PRACH configuration parameter signaled).
Random Access
Request(MSG1)>
Duplex Mode
System Duplex Mode
0: FDD
1: TDD
Random Access
Request(MSG1)> RA
Request Timing SFN
Random Access Request Timing - System frame number
Random Access
Request(MSG1)> RA
Request Timing Sub-Fn
Random Access Request Timing - Subframe number
Random Access
Request(MSG1)> RA
Response Window Start
SFN
Random Access Response Window Start - System frame number
Random Access
Request(MSG1)> RA
Response Window Start
Sub-Fn
Random Access Response Window Start - Subframe number
Random Access
Request(MSG1)> RA
Response Window End
SFN
Random Access Response Window End - System frame number
Random Access
Request(MSG1)> RA
Response Window End
Sub-Fn
Random Access Response Window End - Subframe number
Random Access
Request(MSG1)> RA-
RNTI
RA RNTI based on MSG1 timing
Random Access
Request(MSG1)>
Random Access
Resource for TDD
f_ra Frequency resource index
t_0_ra
0x0: Resource reoccurring in all radio frames,
0x1: Resource reoccurring in all even radio frames,
0x2: Resource reoccurring in all odd radio frames
t_1_ra 0x0: Random access resource located in first half frame
0x1: random access resource is located in second half frame
t_2_ra
UL subframe number where preamble starts
0x0: 0
0x1: 1
0x2: 2
0x3: * for preamble format 4
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 57
d_ra
Density per 10 ms
0x0: 0.5
0x1: 1
0x2: 2
0x3: 3
0x4: 4
0x5: 5
0x6: 6
Random Access
Response(MSG2)> SFN Random Access Response Timing - System frame number
Random Access
Response(MSG2)>
Sub-Fn
Random Access Response Timing - Subframe number
Random Access
Response(MSG2)>
Timing Advance
Timing Advance Value
Random Access
Response(MSG2)>
RACH Procedure Type
0x0 – Contention free
0x1 – Contention based
Random Access
Response(MSG2)>
RACH Procedure Mode
0x0 – Initial access
0x1 – Connected mode RACH procedure
Random Access
Response(MSG2)>
RNTI Type
0x0 – C_RNTI
0x1 – SPS_RNTI
0x2 – P_RNTI
0x3 – RA_RNTI
0x4 – TEMP_C_RNTI
0x5 – SI_RNTI
0x6 – TPC_PUSCH_RNTI
0x7 – TPC_PUCCH_RNTI
0x8 – MBMS RNTI
Random Access
Response(MSG2)>
RNTI Value
RNTI value
UE
Identification(MSG3)>
TPC
TPC command to be applied to MSG3 transmission
UE
Identification(MSG3)>
MSC
Modulation and Coding Scheme
UE
Identification(MSG3)>
RIV
Resource Indicator Value
UE
Identification(MSG3)>
CQI Enable
0x0 – Disabled
0x1 – Enabled
UE
Identification(MSG3)>
UL Delay
0x0 – Do not delay
0x1 – Delay UL transmission
UE
Identification(MSG3)>
Hopping Flag
0x0 – Hopping is OFF
0x1 – Hopping is ON
UE
Identification(MSG3)>
SFN
System frame number of MSG3
UE
Identification(MSG3)>
Sub-Fn
Subframe number of MSG3
UE
Identification(MSG3)>
Starting RB Num
Starting resource block number of the received grant
UE
Identification(MSG3)>
RB Num
Total number of resource blocks allocated in the grant
UE
Identification(MSG3)>
TB Size Index
Transport block size can be determined based on the Transport Block Size Index
and Number of Resource Blocks by the log code parser
UE
Identification(MSG3)>
Modulation Type
0x0 – BPSK
0x1 – QPSK
0x2 – 16QAM
0x3 – 64QAM
UE
Identification(MSG3)>
Redundancy Version
index
Redundancy Version Index
UE
Identification(MSG3)>
HARQ ID
ID of the HARQ process on which MSG3 transmission was scheduled
Contention
Resolution(MSG4)>
SFN
System frame number of MSG4
Contention
Resolution(MSG4)>
Sub-Fn
Subframe number of MSG4
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 59
Contention
Resolution(MSG4)>
Contention Result
0x0 – Contention failed
0x1 – Contention passed
Contention
Resolution(MSG4)> UL
ACK Timing SFN
System frame number of MSG4 ACK
Contention
Resolution(MSG4)> UL
ACK Timing Sub-Fn
Subframe number of MSG4 ACK
Radio Link Monitoring Info
Parameter Description
Out of Sync BLER Out of Sync BLER, calculated from the measured SNR. The out_sync BLER
corresponds to the BLER if the actual transmission parameters equal to the
parameters specified in Spec for out_sync.
x / (1<<15) * 100(%)
In Sync BLER In Sync BLER, calculated from the measured SNR. The in_sync BLER corresponds
to the BLER if the actual transmission parameters equal to the parameters specified
in Spec for in_sync.
x / (1<<15) * 100(%)
NAS ESM Bearer Context Info
Parameter Description
Context Type 0 - Default
1 - Dedicated
Bearer ID ID of the bearer context
Bearer State 0 – INACTIVE
1 – ACTIVE
2 – ACTIVE_PENDING
3 – MODIFY
Connection ID Connection ID associated with the bearer
SDF ID Service Data Flow ID
LBI Linked Bearer Identity
RB ID Radio bearer ID that corresponds to the EPS Bearer ID of the context
EPS QoS
QCI
Quality of Service Class Identifier
0 0 0 0 0 0 0 0 Reserved
0 0 0 0 0 0 0 1 QCI 1
0 0 0 0 0 0 1 0 QCI 2
0 0 0 0 0 0 1 1 QCI 3
0 0 0 0 0 1 0 0 QCI 4
0 0 0 0 0 1 0 1 QCI 5
0 0 0 0 0 1 1 0 QCI 6
0 0 0 0 0 1 1 1 QCI 7
0 0 0 0 1 0 0 0 QCI 8
0 0 0 0 1 0 0 1 QCI 9
0 0 0 0 1 0 1 0 Reserved
to
0 1 1 1 1 1 1 1
1 0 0 0 0 0 0 0 Operator-specific QCIs
to
1 1 1 1 1 1 1 0
1 1 1 1 1 1 1 1 Reserved
MBR for
UL
Maximum bit rate for uplink
(refer section 9.9.4.3 of the spec TS 24.301)
MBR for
DL
Maximum bit rate for downlink
(refer section 9.9.4.3 of the spec TS 24.301)
GBR for
UL
Guaranteed bit rate for uplink
(refer section 9.9.4.3 of the spec TS 24.301)
GBR for
DL
Guaranteed bit rate for downlink
(refer section 9.9.4.3 of the spec TS 24.301)
MBR for
UL Ext
Maximum bit rate for uplink (extended)
(refer section 9.9.4.3 of the spec TS 24.301)
MBR for
DL Ext
Maximum bit rate for downlink (extended)
(refer section 9.9.4.3 of the spec TS 24.301)
GBR for
UL Ext
Guaranteed bit rate for uplink (extended)
(refer section 9.9.4.3 of the spec TS 24.301)
GBR for
DL Ext
Guaranteed bit rate for downlink (extended)
(refer section 9.9.4.3 of the spec TS 24.301)
NAS EMM State
Parameter Description
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 61
EMM State Current EMM state
EMM_NULL – 0
EMM_DEREGISTERED – 1
EMM_REGISTERED_INITIATED – 2
EMM_REGISTERED –3
EMM_TRACKING_AREA_UPDATING_INITIATED – 4
EMM_SERVICE_REQUEST_INITIATED – 5
EMM_DEREGISTERED_INITIATED –6
EMM_INVALID_STATE – 7
EMM Substate Current EMM sub-state
MCC MCC part of the PLMN
MNC MNC part of the PLMN
GUTI Info UE ID 1: IMSI_ID, 6: GUTI_ID
MCC MCC part of the PLMN
MNC MNC part of the PLMN
MME
Group ID MME_GROUP_ID interpret/display as an array of bytes.
MME
Code MME Code
M-TMSI M_TMSI interpret/display as an array of bytes.
RRC Serving Cell Info
Parameter Description
PCI Physical cell ID
EARFCN(DL) Downlink frequency as E-ARFCN
EARFCN(UL) Uplink frequency as E-ARFCN
Frequency(DL) Downlink frequency of the serving cell (Unit: MHz)
Frequency(UL) Uplink frequency of the serving cell (Unit: MHz)
Bandwidth(DL) Downlink bandwidth
6 – 1.4 MHz
15 – 3 MHz
25 – 5 MHz
50 – 10 MHz
75 – 15 MHz
100 – 20 MHz
Bandwidth(UL) Uplink bandwidth
6 – 1.4 MHz
15 – 3 MHz
25 – 5 MHz
50 – 10 MHz
75 – 15 MHz
100 – 20 MHz
Cell ID Cell Identity received in SIB1
TAC Tracking area code
Band Indicator Frequency band indicator
MCC MCC part of the PLMN
MNC MNC part of the PLMN
Allowed Access Allowed access on the cell based on network select mode indicated by NAS
0 – Full
1 – Limited
RRC PLMN Search Info
Parameter Description
PLMN Search Request>
NETWORK_SELECT_
MODE
Allowed access on the cell based on network select mode indicated by NAS
1 - Automatic
2 - Manual
PLMN Search Request>
SEARCH_TYPE
Service Search type indicated by NAS
1 – None
2 – Background Automatic
3 - Background Manual
PLMN Search Request>
RAT_LIST> List[x]
1 – GSM
2 – WCDMA
3 – LTE
PLMN Search Request>
PLMN_LIST> List[x] MCC and MNC
PLMN Search
Response> Active RAT
Active RAT
1 – GSM
2 – WCDMA
3 – LTE
PLMN Search
Response>
SEARCH_STATUS
1 – Completed
2 – Timed out
3 – Abort Confirmation
4 - Aborted
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 63
PLMN Search
Response>
PLMN_LIST> List[x]
MCC and MNC
ML1 Serving Cell Info(Acquisition)
Parameter Description
DL Bandwidth Downlink bandwidth of the serving cell
SFN System frame number when PBCH was decoded
EARFCN EARFCN of the serving cell
Frequency Frequency of the serving cell (Unit: MHz)
Serving Cell PCI Cell ID of the serving cell
PBCH Decode Result 0x1 – Success
0x0 – Failure
PHICH Duration 0 – PHICH_NORMAL
1 – PHICH_EXTENDED
PHICH Resource HICH group multiplier
0 – 1/6
1 – 1/2
2 – 1
3 – 2
PSS Correlation PSS correlation value of serving cell
SSS Correlation SSS correlation value of serving cell
PBCH Reference Timing PBCH reference timing
MIB Payload Raw PBCH payload
Frequency Offset Frequency offset estimate based upon the PBCH decode.
No. of Ant 0x0 – 1 antenna
0x1 – 2 antennas
0x2 – 4 antennas
0x3 – Invalid
Physical Throughput
Parameter Description
PDSCH Throughput>
Total ∑PDSCH Throughput>HARQ[x] (Unit: Mbps)
PDSCH Throughput>
HARQ[#] (within 1 second ∑pdsch_tb_size)*8/(1sec)/(10^6) (Unit: Mbps)
PUSCH Throughput>
Total ∑PUSCH Throughput>HARQ[x] (Unit: Mbps)
PUSCH Throughput>
HARQ[#] (within 1 second ∑pusch_tb_size)*8/(1sec)/(10^6) (Unit: Mbps)
MAC Throughput
Parameter Description
DL MAC Throughput>
Total ∑DL MAC Throughput>HARQ[x] (Unit: Mbps)
DL MAC Throughput>
HARQ[#] (within 1 second ∑MAC DL TBS)*8/(1 sec)/(10^6) (Unit: Mbps)
UL MAC Throughput>
Total ∑UL MAC Throughput>HARQ[x] (Unit: Mbps)
UL MAC Throughput>
HARQ[#] (within 1 second ∑MAC UL GRANT(BYTE))*8/(1 sec)/(10^6) (Unit: Mbps)
RLC Throughput
Parameter Description
DL RLC Throughput>
Total ∑DL RLC Throughput>RB CFG IDX[x] (Unit: Mbps)
DL RLC Throughput>
RB CFG IDX[#]
(∆RLC Rx Byte)*8/(∆Timestamp)/(10^6) (Unit: Mbps)
Where, RLC Rx Byte = DATA_PDU_BYTES + STATUS_RXED_BYTES +
INVALID_PDU_BYTES
UL RLC Throughput>
Total ∑UL RLC Throughput>RB CFG IDX[x] (Unit: Mbps)
UL RLC Throughput>
RB CFG IDX[#]
(∆RLC Tx Byte)*8/(∆Timestamp)/(10^6) (Unit: Mbps)
Where, RLC Tx Byte = NUM_NEW_DATA_PDU_BYTES +
NUM_CTRL_PDU_BYTES_Tx + NUM_RETX_PDU_BYTES
PDCP Throughput
Parameter Description
DL PDCP Throughput>
Total ∑DL PDCP Throughput>RB CFG IDX[x] (Unit: Mbps)
DL PDCP Throughput>
RB CFG IDX[#]
(∆PDCP Rx Byte)*8/(∆Timestamp)/(10^6) (Unit: Mbps)
Where, PDCP Rx Byte = NUM_DATA_PDU_RX_BYTES +
NUM_CONTROL_PDU_RX_BYTES + NUM_PDU_INVALID_BYTES
UL PDCP Throughput>
Total ∑UL PDCP Throughput>RB CFG IDX[x] (Unit: Mbps)
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 65
UL PDCP Throughput>
RB CFG IDX[#]
(∆PDCP Tx Byte)*8/(∆Timestamp)/(10^6) (Unit: Mbps)
Where, PDCP Tx Byte = NUM_DATA_PDU_TX_BYTES +
NUM_CONTROL_PDU_TX_BYTES - NUM_DISCARD_SDU_BYTES
GCT
L1 Status Info
L1 status information shows physical layer status such as channel setup status, serving cell information,
PCH DRX and measurement periodicity, etc.
Parameter Description
State Info> Main State Physical layer main state
0: DEACTIVATED
1: IDLE
2: CONNECTED
State Info> BCH BCH Channel State
0: RELEASE
1: SETUP
State Info> PCH PCH Channel State
0: RELEASE
1: SETUP
State Info> DL-SCH for
BCCH
DL-SCH for BCCH Channel State
0: RELEASE
1: SETUP
State Info> UL/DL-SCH
and RACH
UL/DL-SCH and RACH Channel State
0: RELEASE
1: SETUP
Serving Cell Info> PCI Cell identifier
Serving Cell Info> DL
Freq Downlink frequency
Serving Cell Info> UL
Freq Uplink frequency
Serving Cell Info> DL
Bandwidth Downlink bandwidth (Unit : RB)
Serving Cell Info> UL
Bandwidth Uplink bandwidth (Unit : RB)
Serving Cell Info>
Antenna Num Number of downlink transmit antenna
PCH DRX Period PCH DRX periodicity
0: 0.32sec
1: 0.64sec
2: 1.28sec
3: 2.56sec
255: OFF
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 67
Serving Cell Signal Quality Info
The serving cell quality information shows SNR of reference signal (RS SNR) and received power of
reference signal (RS RSSI).
Parameter Description
RS RSSI 0 received power 0 of reference signal
RS RSSI 1 received power 1 of reference signal
RS RSSI total received power of reference signal
(rs_rssi[0] + rs_rssi[1])/2
RS SNR reference signal power and noise power for a resource element containing RS are
estimated.
10*log10{ (signal_pwr[0] + signal_pwr [1])/ (noise_pwr[0] + noise_pwr [1])})
Tx Power Info
Time sync report log shows the time sync status of UE.
Parameter Description
PUCCH Tx Power PUSCH average UE output power in dBm
PUSCH Tx Power PUCCH average UE output power in dBm
PRACH Tx Power PRACH instantaneous UE output power in dBm
Total Tx Power 1 frame based average UE output power in dBm
RACH Info
Parameter Description
Frame Num Start frame number
TTI Start subframe number
Preamble Format 0: Format 0, 1: Format 1, 2: Format2, 3: Format3
Speed Mode 0: normal speed, 1: high speed
Root Seq Root Sequence
Cyclic Shift Cyclic Shift per Use
Zero Correlation Zone Zero Correlation Zone (Ncs value 59)
Retrans Num Retransmit number
Tx Power RACH transmit power
Timing Adjustment Info
Tx Timing adjustment log shows the TA position.
Parameter Description
Rx SFN Received frame number
Rx TTI Received subframe number
NTA Timing advance command
In case of random access response : 11bit for NTA
In other case : 6bit for NTA (TA = 0, 1, 2,..., 63)
Accum TA Accumulate timing advance command
Cell Info
Cell Information display cell lists which are collected from Mp Searcher and Cell Searcher.
Parameter Description
INTRA>SYNC> RSRP Reference Signal Received Power of Intra cell which is known the sync position.
INTRA>SYNC> RSRQ Reference Signal Received Quality of Intra cell which is known the sync position
INTRA>SYNC> RSSI Received Power of Intra cell which is known the sync position
INTRA>SYNC>
FrameBound Cell frame boundary in Intra Sync
INTRA>SYNC>
CPLength
CP length in Intra Sync
0: Unknown
1 : Normal CP
2 : Extended CP
INTRA>SYNC> DL
Earfcn Earfcn number in Intra Sync
INTRA>SYNC> Top Set PCI PCI with RSRP strength from top 1 to 20 from Intra Sync Cell
RSRP Top 1 to 20 RSRP from Intra Sync Cell
RSRQ Top 1 to 20 RSRQ from Intra Sync Cell
RSSI Top 1 to 20 RSSI from Intra Sync Cell
FrameBound Top 1 to 20 FrameBound from Intra Sync Cell
CPLength Top 1 to 20 CPLength from Intra Sync Cell
DL Earfcn Top 1 to 20 DL Earfcn from Intra Sync Cell
INTRA>ASYNC> RSRP Reference Signal Received Power of Intra cell which is unknown the sync position.
INTRA> ASYNC>
RSRQ Reference Signal Received Quality of Intra cell which is unknown the sync position
INTRA> ASYNC> RSSI Received Power of Intra cell which is unknown the sync position
INTRA> ASYNC>
FrameBound Cell frame boundary in Intra Async
INTRA> ASYNC>
CPLength
CP length in Intra Async
0: Unknown
1 : Normal CP
2 : Extended CP
INTRA> ASYNC> DL
Earfcn Earfcn number in Intra Async
INTRA> ASYNC > Top
Set
PCI PCI with RSRP strength from top 1 to 20 from Intra Async Cell
RSRP Top 1 to 20 RSRP from Intra Async Cell
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 69
RSRQ Top 1 to 20 RSRQ from Intra Async Cell
RSSI Top 1 to 20 RSSI from Intra Async Cell
FrameBound Top 1 to 20 FrameBound from Intra Async Cell
CPLength Top 1 to 20 CPLength from Intra Async Cell
DL Earfcn Top 1 to 20 DL Earfcn from Intra Async Cell
INTRA>DETECT>
RSRP
Reference Signal Received Power of Intra cell which is newly detected at this
search.
INTRA> DETECT>
RSRQ
Reference Signal Received Quality of Intra cell which is newly detected at this
search
INTRA> ASYNC> RSSI Received Power of Intra cell which is newly detected at this search
INTRA> DETECT>
FrameBound Cell frame boundary in Intra Detected
INTRA> DETECT>
CPLength
CP length in Intra Detected
0: Unknown
1 : Normal CP
2 : Extended CP
INTRA> DETECT> DL
Earfcn Earfcn number in Intra Detected
INTRA> DETECT > Top
Set
PCI PCI with RSRP strength from top 1 to 20 from Intra Detect Cell
RSRP Top 1 to 20 RSRP from Intra Detect Cell
RSRQ Top 1 to 20 RSRQ from Intra Detect Cell
RSSI Top 1 to 20 RSSI from Intra Detect Cell
FrameBound Top 1 to 20 FrameBound from Intra Detect Cell
CPLength Top 1 to 20 CPLength from Intra Detect Cell
DL Earfcn Top 1 to 20 DL Earfcn from Intra Detect Cell
INTER>SYNC> RSRP Reference Signal Received Power of Inter cell which is known the sync position.
INTER>SYNC> RSRQ Reference Signal Received Quality of Inter cell which is known the sync position
INTER>SYNC> RSSI Received Power of Inter cell which is known the sync position
INTER>SYNC>
FrameBound Cell frame boundary in Inter Sync
INTER>SYNC>
CPLength
CP length in Inter Sync
0: Unknown
1 : Normal CP
2 : Extended CP
INTER>SYNC> DL
Earfcn Earfcn number in Inter Sync
INTER >SYNC> Top Set PCI PCI with RSRP strength from top 1 to 20 from Inter Sync Cell
RSRP Top 1 to 20 RSRP from Inter Sync Cell
RSRQ Top 1 to 20 RSRQ from Inter Sync Cell
RSSI Top 1 to 20 RSSI from Inter Sync Cell
FrameBound Top 1 to 20 FrameBound from Inter Sync Cell
CPLength Top 1 to 20 CPLength from Inter Sync Cell
DL Earfcn Top 1 to 20 DL Earfcn from Inter Sync Cell
INTER>ASYNC> RSRP Reference Signal Received Power of Inter cell which is unknown the sync position.
INTER> ASYNC>
RSRQ Reference Signal Received Quality of Inter cell which is unknown the sync position
INTER> ASYNC> RSSI Received Power of Inter cell which is unknown the sync position
INTER> ASYNC>
FrameBound Cell frame boundary in Inter Async
INTER> ASYNC>
CPLength
CP length in Inter Async
0: Unknown
1 : Normal CP
2 : Extended CP
INTER> ASYNC> DL
Earfcn Earfcn number in Inter Async
INTER > ASYNC > Top
Set
PCI PCI with RSRP strength from top 1 to 20 from Inter Async Cell
RSRP Top 1 to 20 RSRP from Inter Async Cell
RSRQ Top 1 to 20 RSRQ from Inter Async Cell
RSSI Top 1 to 20 RSSI from Inter Async Cell
FrameBound Top 1 to 20 FrameBound from Inter Async Cell
CPLength Top 1 to 20 CPLength from Inter Async Cell
DL Earfcn Top 1 to 20 DL Earfcn from Inter Async Cell
INTER>DETECT>
RSRP
Reference Signal Received Power of Inter cell which is newly detected at this
search.
INTER> DETECT>
RSRQ
Reference Signal Received Quality of Inter cell which is newly detected at this
search
INTER> ASYNC> RSSI Received Power of Inter cell which is newly detected at this search
INTER> DETECT>
FrameBound Cell frame boundary in Inter Detected
INTER> DETECT>
CPLength
CP length in Inter Detected
0: Unknown
1 : Normal CP
2 : Extended CP
INTER> DETECT> DL
Earfcn Earfcn number in Inter Detected
INTER > DETECT > Top
Set
PCI PCI with RSRP strength from top 1 to 20 from Inter Detect Cell
RSRP Top 1 to 20 RSRP from Inter Detect Cell
RSRQ Top 1 to 20 RSRQ from Inter Detect Cell
RSSI Top 1 to 20 RSSI from Inter Detect Cell
FrameBound Top 1 to 20 FrameBound from Inter Detect Cell
CPLength Top 1 to 20 CPLength from Inter Detect Cell
DL Earfcn Top 1 to 20 DL Earfcn from Inter Detect Cell
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 71
All Set All Cell RSRP/RSRQ/RSSI/FrameBound /CPLength/DL Earfcn/Cell State per PCI
Top Set PCI PCI with RSRP strength from top 1 to 20 from All Cell
RSRP Top 1 to 20 RSRP from All Cell
RSRQ Top 1 to 20 RSRQ from All Cell
RSSI Top 1 to 20 RSSI from All Cell
FrameBound Top 1 to 20 FrameBound from All Cell
CPLength Top 1 to 20 CPLength from All Cell
DL Earfcn Top 1 to 20 DL Earfcn from All Cell
Cell State
Top 1 to 20 Cell State from All Cell
- Intra Sync
- Intra Async
- Intra Detect
- Inter Sync
- Inter Async
- Inter Detect
Search Result
Search Result log shows Mp Search result and Cell Search result.
Parameter Description
MP Searcher Mp Searcher Dominant Energy and Mp Searcher position per PCIS
(PCIS: 0,1 or 2)
Cell Searcher>
Dominant PCI PCI with Dominant Cell Search Energy
Cell Searcher>
Dominant Cell Srch
Energy
Dominant Cell Search Energy
Cell Searcher> PCI# Cell Search Energy, PCIG, Half Frame Idx and CP Length per PCI
(PCIG: 0 ~ 167, PCI: 0 ~ 503)
Earfcn EARFCN number
Used Cell Searcher
Num Num of Used Cell Searcher
Channel Info
The channel information shows no antenna in the 2x2 MIMO channel.
Parameter Description
Tx Correlation> Freq
Total Band(Avg) Tx Correlation in Total Band(Sub Band 1 ~ 30)
Tx Correlation> Freq
Sub Band x Tx Correlation per Sub Band
Rx Correlation> Freq
Total Band(Avg) Rx Correlation in Total Band(Sub Band 1 ~ 30)
Rx Correlation> Freq
Sub Band x Tx Correlation per Sub Band
H00 (Real)> Freq Sub
Band x H00 (Real value) per Sub Band
H00 (Imaginary)> Freq
Sub Band x H00 (Imaginary value) per Sub Band
H01 (Real)> Freq Sub
Band x H00 (Real value) per Sub Band
H01 (Imaginary)> Freq
Sub Band x H00 (Imaginary value) per Sub Band
H10 (Real)> Freq Sub
Band x H00 (Real value) per Sub Band
H10 (Imaginary)> Freq
Sub Band x H00 (Imaginary value) per Sub Band
H11 (Real)> Freq Sub
Band x H00 (Real value) per Sub Band
H11 (Imaginary)> Freq
Sub Band x H00 (Imaginary value) per Sub Band
CQI Info
The wideband CQI information shows measured CQI of wideband in the UE.
The sub-band CQI information shows the CQI (channel quality information) of sub-bands. The sub-band is
defined a unit for a group of resource elements used for reporting sub-band CQI.
Parameter Description
Rank Ratio> Instant Instant Rank Ratio (Range 0 ~ 1)
Rank Ratio> Cumulative Cumulative Rank Ratio (Range 0 ~ 1)
CQI(Wideband)> Rank1
CQI Rank1 wide band CQI
CQI(Wideband)> Rank2
CW0 CQI Rank2 wide band CQI for CW0
CQI(Wideband)> Rank2
CW1 CQI Rank2 wide band CQI for CW1
CQI(Wideband)> Rank1
PMI Rank1 wide band PMI
CQI(Wideband)> Rank2
PMI Rank2 wide band PMI
CQI(Subband)> Rank1
CQI Rank1 sub band CQI
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 73
CQI(Subband)> Rank2
CW0 CQI Rank2 sub band CQI for CW0
CQI(Subband)> Rank2
CW1 CQI Rank2 sub band CQI for CW1
CQI(Subband)> Rank1
PMI Rank1 sub band PMI
CQI(Subband)> Rank2
PMI Rank2 sub band PMI
Multi-paths Profile
This information shows the channel impulse response of reference signals in the time domain.
Parameter Description
Serving PCI Serving cell ID (0~503)
Ref EsNo The reference EsNo is the detected RS SNR in the reference position.
RS power metric of reference path. EsNo is calculated by computing
10*log10(RS power metric/noise power metric)
Ref Timing The reference timing gives the information of reference cell timing of demodulation.
Reference timing of serving cell. The resolution is Ts in a frame
Path Info[x]> EsNo RS power metric of this path
Path Info[x]> Time Index Timing offset from reference timing (Ts resolution)
PBCH BLER
PBCH BLER displays how much transport blocks get CRC_NOK about total received transport blocks.
Parameter Description
Instant Instant PBCH BLER
(bler_info.err_nums / bler_info.total_nums) * 100
Cumulative Cumulative PBCH BLER
PDSCH BLER
PDSCH BLER displays how much transport blocks get CRC_NOK about total received transport blocks.
Parameter Description
Instant> All Instant PDSCH Total BLER
((bler_info[0].err_nums + bler_info[1].err_nums) / (bler_info[0].total_nums +
bler_info[1].total_nums)) * 100
Instant> Codeword #0 Instant PDSCH Codeword0 BLER
(bler_info[0].err_nums / bler_info[0].total_nums) * 100
Instant> Codeword #1 Instant PDSCH Codeword1 BLER
(bler_info[1].err_nums / bler_info[1].total_nums) * 100
Cumulative> All Cumulative PDSCH Total BLER
Cumulative> Codeword
#0 Cumulative PDSCH Codeword0 BLER
Cumulative> Codeword
#1 Cumulative PDSCH Codeword1 BLER
PDCCH Detection Rate
UE can’t calculate PDCCH BLER because UE doesn’t know when eNode-B sends its PDCCH. In other
words, UE detects PDCCH blindly. So, UE DM supports this item similar with PDCCH BLER.
Parameter Description
DCI 0 The number of detection for DCI#0
DCI 1 The number of detection for DCI 1
DCI 1a The number of detection for DCI 1a
DCI 1b The number of detection for DCI 1b
DCI 1c The number of detection for DCI 1c
DCI 2 The number of detection for DCI 2
DCI 2a The number of detection for DCI 2a
DCI 3 The number of detection for DCI 3
DCI 3a The number of detection for DCI 3a
DL Grant & UL Ack/Nack Status Info(Improved)
DL Grant & UL ACK/NACK Status(Improved) displays DL grant regardless any DCI format in every TTI.
According to TS36.212, each DCI format has the specific fields, not all, and the unnecessary fields are
displayed to the blank. Additionally, UL_ACK/NACK, CFI, and DCI_3/3A payload will be included in this
item.
Parameter Description
SFN SFN value
TTI TTI value
DCI Format> Count DCI 1 Num/ DCI 1A Num/ DCI 1B Num/ DCI 1C Num/ DCI 2 Num/ DCI 2A Num/
DCI 3 Num/ DCI 3A Num/ N/A Num
DCI Format> Rate DCI 1 Rate/ DCI 1A Rate/ DCI 1B Rate/ DCI 1C Rate/ DCI 2 Rate/ DCI 2A Rate/
DCI 3 Rate/ DCI 3A Rate/ N/A Rate
TM Scheme transmission scheme
0:"SING-ANT(P0)",1:"SING-ANT(P5)",2:"TRANS-
DIV",3:"LARGE-CDD",4:"CLOSE-SM",5:"MU-MIMO"
TPC TPC
RB Num Resource Block Number
MCS> CW0> MCS(Idx) CW0 MCS
MCS> CW0> QPSK
Rate CW0 QPSK Rate
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 75
MCS> CW0> 16 QAM
Rate CW0 16 QAM Rate
MCS> CW0> 64 QAM
Rate CW0 64 QAM Rate
MCS> CW1> MCS(Idx) CW1 MCS
MCS> CW1> QPSK
Rate CW1 QPSK Rate
MCS> CW1> 16 QAM
Rate CW1 16 QAM Rate
MCS> CW1> 64 QAM
Rate CW1 64 QAM Rate
NDI> CW0> New Data
Num CW0 NDI (NDI field = 1)
NDI> CW0> Retrans
Data Num CW0 NDI (NDI field = 0)
NDI> CW0> New Data
Rate New Data Num/(Retrans Data Num+New Data Num)*100 in CW0
NDI> CW1> New Data
Num CW1 NDI (NDI field = 1)
NDI> CW1> Retrans
Data Num CW1 NDI (NDI field = 0)
NDI> CW1> New Data
Rate New Data Num/(Retrans Data Num+New Data Num)*100 in CW1
UL ACK/NACK> CW0>
ACK Count CW0 UL ACK result
UL ACK/NACK> CW0>
NACK Count CW0 UL NACK result
UL ACK/NACK> CW0>
DTX Count CW0 UL DTX result
UL ACK/NACK> CW0>
ACK Rate ACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW0
UL ACK/NACK> CW0>
NACK Rate NACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW0
UL ACK/NACK> CW0>
DTX Rate DTX Count/(ACK Count+NACK Count+DTX Count)*100 in CW0
UL ACK/NACK> CW1>
ACK Count CW1 UL ACK result
UL ACK/NACK> CW1>
NACK Count CW1 UL NACK result
UL ACK/NACK> CW1>
DTX Count CW1 UL DTX result
UL ACK/NACK> CW1>
ACK Rate ACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW1
UL ACK/NACK> CW1>
NACK Rate NACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW1
UL ACK/NACK> CW1>
DTX Rate DTX Count/(ACK Count+NACK Count+DTX Count)*100 in CW1
DCI 3(Mode)> DCI 3/3A
Value(CW0) CW0 DCI3/3A value
DCI 3(Mode)> DCI 3/3A
Value(CW1) CW1 DCI3/3A value
DL Grant & UL Ack/Nack Status Info(Improved)[Detail per TTI]
DL Grant & UL Ack/Nack Status Info(Improved)[Detail per TTI] displays the related information per TTI.
Parameter Description
SFN SFN value
TTI TTI value
CFI CFI value
DCI Format DCI format
0:"DCI_1",1:"DCI_1A,2:"DCI_1B",3:"DCI_1C",4:"DCI_2",
5:"DCI_2A",6:"DCI_3",7:"DCI_3A"
RNTI RNTI type
0:"C-RNTI",1:"RA-RNTI",2:"P-RNTI",3:"SI-RNTI", 4:"PUCCH",5:"PUSCH",6:"SPS-
RNTI",7:”T-CRNTI”
TM Scheme transmission scheme
0:"SING-ANT(P0)",1:"SING-ANT(P5)",2:"TRANS- DIV",3:"LARGE-CDD",4:"CLOSE-
SM",5:"MU-MIMO"
Distribution Flag distribution flag 0:"LOCAL", 1:"DIST"
Gap Value gap value
RA Header RA header
Precoding precoding information
RB Num Resource Block Number
PMI Confirmation PMI confirmation
TPC TPC
HARQ Number HARQ number
MCS(CW0) MCS in CW0
NDI(CW0) NDI in CW0
RV(CW0) redundancy version in CW0
MOD Type(CW0) modulation type in CW0
New/Retrans
Type(CW0) new or retransmission type in CW0
TB Size(CW0) transport block size in CW0
CRC Result(CW0) CRC result in CW0
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 77
UL ACK/NACK
Result(CW0) UL ACK/NACK result in CW0
DCI 3(CW0) DCI3/3A value in CW0
MCS(CW1) MCS in CW1
NDI(CW1) NDI in CW1
RV(CW1) redundancy version in CW1
MOD Type(CW1) modulation type in CW1
New/Retrans
Type(CW1) new or retransmission type in CW1
TB Size(CW1) transport block size in CW1
CRC Result(CW1) CRC result in CW1
UL ACK/NACK
Result(CW1) UL ACK/NACK result in CW1
DCI 3(CW1) DCI3/3A value in CW1
UL Grant & DL Ack/Nack Status Info
UL Grant Info Status log shows get UL Scheduling Grant information to PDCCH.
Parameter Description
SFN SFN value
TTI TTI value
FH> FH Num FH Number
FH> No FH Num No FH Number
FH> FH Rate FH Num/(No FH Num+FH Num)* 100
MCS> CQI REQ>
MCS(Idx) No CQI Request Modulation and Coding Rate
MCS> No CQI REQ>
MCS(Idx) CQI Request Modulation and Coding Rate
MCS> No CQI REQ>
QPSK Rate QPSK Num/(QPSK Num+16QAM Num+64QAM Num)*100 in CQI Request
MCS> No CQI REQ> 16
QAM Rate 16QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100 in CQI Request
MCS> No CQI REQ> 64
QAM Rate 64QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100 in CQI Request
New Data Num New data indicator (NDI field = 1)
Retrans Data Num New data indicator (NDI field = 0)
New Data Rate New Data Num/(Retrans Data Num+New Data Num)*100
TPC Power control of PUSCH
CS DMRS Cyclic shift for DMRS
DL ACK/NACK> ACK
Count DL ACK result
DL ACK/NACK> NACK
Count DL NACK result
DL ACK/NACK> DTX
Count DL DTX result
DL ACK/NACK> ACK
Rate ACK Count/(ACK Count+NACK Count+DTX Count)*100
DL ACK/NACK> NACK
Rate NACK Count/(ACK Count+NACK Count+DTX Count)*100
DL ACK/NACK> DTX
Rate DTX Count/(ACK Count+NACK Count+DTX Count)*100
UL Grant & DL Ack/Nack Status info[Detail per TTI]
UL Grant & DL Ack/Nack Status info[Detail per TTI] displays the related information per TTI.
Parameter Description
SFN SFN value
TTI TTI value
TB Size Transport Block size
RB Assign Resurce block assingment
FH 0 :No FH
1 :FH
MCS Modulation and Coding Rate
NDI New data indicator
TPC Power control of PUSCH
CS DMRS Cyclic shift for DMRS
CQI Request Ind CQI Request Indication
0 : No CQI Request
1 : CQI Request
DL ACK/NACK Result 0 :NACK
1 :ACK
PDSCH PHY Throughput
PDSCH PHY Throughput has displays how much to get the downlink data in 1sec.
Parameter Description
All PDSCH PHY Total Throughput
(cw_0 + cw_1) / 1000
Codeword #0 PDSCH PHY Codeword0 Throughput
(cw_0) / 1000
Codeword #1 PDSCH PHY Codeword0 Throughput
(cw_1) / 1000
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 79
UL PRB MAP Data Info
This information shows the log of transmit physical resource mapping information.
Parameter Description
SFN Frame number
TTI TTI number
Bandwidth 0:1.4MHz, 1:3MHz, 2:5MHz, 3:10MHz, 4:15MHz, 5:20MHz
Channel Type> Count DTX/ PRACH/ PUCCH/ PUSCH/ SRS/ PUSCH+SRS/ PUCCH+SRS Count
Channel Type> Rate DTX/ PRACH/ PUCCH/ PUSCH/ SRS/ PUSCH+SRS/ PUCCH+SRS Rate
PRACH RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB Offset in
PRACH
PUCCH RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB Offset in
PUCCH
PUSCH RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB Offset in
PUSCH
SRS RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB Offset in
SRS
PUSCH+SRS RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB Offset in
PUSCH+SRS
PUCCH+SRS RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB Offset in
PUCCH+SRS
PUSCH PHY Throughput
UL Throughput log shows the Uplink data throughput at UE side.
Parameter Description
NEW Transmission A number of bits about new transmission per 1 sec
(new_bit_nums) / 1000
Total UL A number of bits about re-transmission per 1 sec
(new_bit_nums + retrans_bit_nums) / 1000
L2 DL Throughput
Parameter Description
PDCP> Total Total Downlink PDCP Throughput
(∑rbId total Byte*8/1000)
PDCP> RB ID(x) Downlink PDCP Throughput per RB ID
(rbId total Byte*8/1000)
RLC> Total Total Downlink RLC Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM), 4 ~ 5 (UM)
RLC> AM> Total Total Downlink RLC AM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> AM> RB ID(x) Downlink RLC AM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> UM> Total Total Downlink RLC UM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
RLC> UM> RB ID(x) Downlink RLC UM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
MAC Downlink MAC Throughput
(MacDlTotalBytes*8/1000)
L2 UL Throughput
Parameter Description
PDCP> Total Total Uplink PDCP Throughput
(∑rbId total Byte*8/1000)
PDCP> RB ID(x) Uplink PDCP Throughput per RB ID
(rbId total Byte*8/1000)
RLC> Total Total Uplink RLC Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM), 4 ~ 5 (UM)
RLC> AM> Total Total Uplink RLC AM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> AM> RB ID(x) Uplink RLC AM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> UM> Total Total Uplink RLC UM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
RLC> UM> RB ID(x) Uplink RLC UM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
MAC Uplink MAC Throughput
(MacUlTotalBytes*8/1000)
PDSCH MAC BLER
This item is for MAC BLER of downlink (PDSCH). Ratio of transport blocks which remain un-
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 81
acknowledged (CRC failure) after HARQ retransmission divided by total number of initial transmissions
received by UE MAC
Parameter Description
Instant> All Instant total MAC BLER
( (cwd0ErrNum/cwd0TBNum) *100 + (cwd1ErrNum/cwd1TBNum) *100 ) / 2
Instant> Codeword #0 Instant code word #0 MAC BLER
(cwd0ErrNum/cwd0TBNum) *100
Instant> Codeword #1 Instant code word #1 MAC BLER
(cwd1ErrNum/cwd1TBNum) *100
Cumulative> All Cumulative total MAC BLER
Cumulative> Codeword
#0 Cumulative code word #0 MAC BLER
Cumulative> Codeword
#1 Cumulative code word #1 MAC BLER
RLC States Info
This item provides state information of RLC Tx/Rx Entity.
Parameter Description
Tx States> RB ID (x)>
Mode Tx States RLC Mode (AM /UM/TM)
Tx States> RB ID (x)>
State Tx States RLC Tx Entity state (NULL/DTR)
Rx States> RB ID (x)>
Mode Rx States RLC Mode (AM /UM/TM)
Rx States> RB ID (x)>
State Rx States RLC Tx Entity state (NULL/DTR)
MAC State Info
This item includes MAC DL/UL state information.
Parameter Description
MAC UL State Current state of MAC uplink
(0-NOT_CONFIGURED, 1-CONFIGURED, 2-OUT_OF_SYNC, 3-IN_SYNC, 4-
IN_CR, 5-READY_TO_SCHED )
MAC DL State Current State of MAC downlink
(0-NOT_CONFIGURED, 1-CONFIGURED, 2-PCH_STATE, 3-RACH_STATE, 4-
DSCH_STATE)
MAC UL Transmission Info
This item is for total packets information of uplink data transmission.
Parameter Description
Count> 1st Trans Success in 1st transmission
Count> 1st Re-Trans Success in 1st re-transmission
Count> 2nd Re-Trans Success in 2nd re-transmission
Count> 3rd Re-Trans Success in 3rd re-transmission
Count> 4th Re-Trans Success in 4th re-transmission
Count> 5th Re-Trans Success in 5th re-transmission
Count> 6th Re-Trans Success in 6th re-transmission
Count> 7th Re-Trans Success in 7th re-transmission
Count> 8th Re-Trans Success in 8th re-transmission
Count> 9th Re-Trans Success in 9th re-transmission
Count> 10th Re-Trans Success in 10th re-transmission
Count> Total Trans ∑SuccessCnt i (Where, i = 0 to 10)
Count> Bad Count Bad Count
Percentage> 1st Trans 1st Trans/(Total Trans+Bad Count)*100
Percentage> 1st Re-
Trans 1st Re-Trans/(Total Trans+Bad Count)*100
Percentage> 2nd Re-
Trans 2nd Re-Trans/(Total Trans+Bad Count)*100
Percentage> 3rd Re-
Trans 3rd Re-Trans/(Total Trans+Bad Count)*100
Percentage> 4th Re-
Trans 4th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 5th Re-
Trans 5th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 6th Re-
Trans 6th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 7th Re-
Trans 7th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 8th Re-
Trans 8th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 9th Re-
Trans 9th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 10th Re-
Trans 10th Re-Trans/(Total Trans+Bad Count)*100
Percentage> Total Trans Total Trans/(Total Trans+Bad Count)*100
Percentage> Bad
Percentage Bad Count/(Total Trans+Bad Count)*100
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 83
RACH REQ Info
This item includes RACH request information.
Parameter Description
RACH Transmit Time RACH transmit time
Retransmission Num Retransmission Num
RACH Type 0 : INITIAL
1 : HANDOVER
2 : UL DATA ARRIVAL
3 : DL DATA ARRIVAL
4 : SR MAX
5 : NO_SR_CONFIG
RA-RNTI RACH RNTI
Preamble ID Preamble Identity
RACH RSP General Info
This item includes RACH response information.
Parameter Description
RACH Response
Receiving Time RACH response receiving time
Result 0: NACK, 1: ACK
RACH Preamble Identity RACH Preamble Identity
BackOff Indicator BackOff Indicator
Time Advance Time Advance
Temporary C-RNTI Temporary C-RNTI
MCS Modulation and coding Scheme
TPC for scheduled
PUSCH TPC command for scheduled PUSCH
Hopping Flag Hopping Flag
UL Delay UL Delay
CQI Request CQI Request
Resource Block
Assignment Resource block assignment(10bits)
Access RACH Latency Access RACH Latency (sec)
RNTI Info
This item includes RNTI information.
Parameter Description
C-RNTI C-RNTI
RA-RNTI RA-RNTI
Temporary C-RNTI Temporary C-RNTI
Serving Cell & Neighbor Cell Lists
Parameter Description
Serving Cell Info> UE
State
Current UE state
- UE_IDLE_MODE
- UE_CONNECTED_MODE
- NO_SERVICE
- NON_LTE_RAN
Serving Cell Info> Freq
UL Uplink Carrier Frequency
Serving Cell Info> Freq
DL Downlink Carrier Frequency
Serving Cell Info> PCI Physical Cell Identity
Serving Cell Info> TAC Tracking Area Code
Serving Cell Info> PLMN
Identity PLMN Identity
Serving Cell Info>
Global Cell ID Global Cell ID
Intra Freq Cell Lists> DL
Freq Downlink Carrier Frequency
Intra Freq Cell Lists>
Serving Cell> Serving
PCI
Intra Freq Cell Serving PCI
Intra Freq Cell Lists>
Serving Cell> Serving
RSRP
Intra Freq Cell Serving RSRP
Intra Freq Cell Lists>
Serving Cell> Serving
RSRQ
Intra Freq Cell Serving RSRQ
Intra Freq Cell Lists>
Serving Cell> Serving
RSSI
Intra Freq Cell Serving RSSI
Intra Freq Cell Lists>
Serving Cell> All Cell
Info
Intra Freq Cell Serving RSRP/RSSQ/RSSI per PCI
Intra Freq Cell Lists>
Monitored Cell>
Monitored Cell Count
Number of Monitored PCI from Intra Freq Cell
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 85
Intra Freq Cell Lists>
Monitored Cell>
Monitored Cell List
Monitored PCI List from Intra Freq Cell
Intra Freq Cell Lists>
Monitored Cell>
Summary Monitored
Cell List
Monitored PCI List with (RSRP,RSRQ) from Intra Freq Cell
Intra Freq Cell Lists>
Monitored Cell> RSRP Intra Freq Cell Monitored RSRP per PCI
Intra Freq Cell Lists>
Monitored Cell> RSRQ Intra Freq Cell Monitored RSRQ per PCI
Intra Freq Cell Lists>
Monitored Cell> RSSI Intra Freq Cell Monitored RSSI per PCI
Intra Freq Cell Lists>
Monitored Cell> Top Set
PCI PCI with RSRP strength from top 1 to 20 from Intra Freq Monitored Cell
RSRP Top 1 to 20 RSRP from Intra Freq Monitored Cell
RSRQ Top 1 to 20 RSRQ from Intra Freq Monitored Cell
RSSI Top 1 to 20 RSSI from Intra Freq Monitored Cell
Intra Freq Cell Lists>
Detected Cell> Detected
Cell Count
Number of Detected PCI from Intra Freq Cell
Intra Freq Cell Lists>
Detected Cell> Detected
Cell List
Detected PCI List from Intra Freq Cell
Intra Freq Cell Lists>
Detected Cell>
Summary Detected Cell
List
Detected PCI List with (RSRP,RSRQ) from Intra Freq Cell
Intra Freq Cell Lists>
Detected Cell> RSRP Intra Freq Cell Detected RSRP per PCI
Intra Freq Cell Lists>
Detected Cell> RSRQ Intra Freq Cell Detected RSRQ per PCI
Intra Freq Cell Lists>
Detected Cell> RSSI Intra Freq Cell Detected RSSI per PCI
Intra Freq Cell Lists>
Detected Cell> Top Set
PCI PCI with RSRP strength from top 1 to 20 from Intra Freq Detected Cell
RSRP Top 1 to 20 RSRP from Intra Freq Detected Cell
RSRQ Top 1 to 20 RSRQ from Intra Freq Detected Cell
RSSI Top 1 to 20 RSSI from Intra Freq Detected Cell
Intra Freq Cell Lists> All
Set Intra Freq Cell RSRP/RSRQ/RSSI/Cell State per PCI
Intra Freq Cell Lists>
Top Set
PCI PCI with RSRP strength from top 1 to 20 from Intra Freq Cell
RSRP Top 1 to 20 RSRP from Intra Freq Cell
RSRQ Top 1 to 20 RSRQ from Intra Freq Cell
RSSI Top 1 to 20 RSSI from Intra Freq Cell
Cell State
Top 1 to 20 Cell State from Intra Freq Cell
- Serving
- Monitored
- Detected
Inter Freq Cell Lists>
Freq DL(x)>PCI(y)>
RSRP
Inter frequency cell Reference Signal Received Power
Inter Freq Cell Lists>
Freq DL(x)>PCI(y)>
RSRQ
Inter frequency cell Reference Signal Received Quality
Inter Freq Cell Lists>
Freq DL(x)>PCI(y)>
RSSI
Inter frequency cell Received Power
Inter Freq Cell Lists>
Freq DL(x)>PCI(y)> Cell
Type
Inter frequency cell type
1 : monitored cell
2 : detected cell
NAS System Info
Parameter Description
PLMN_ID PLMN ID of the current cell
TAC TAC of the current cell
Cell ID Cell ID of the current cell
TAI List Tracking Area identity List
MCC (Mobile Country Code), MNC (Mobile Network Code) and TAC (Tracking Area
Code).
RRC BCH Status Info
This item provides the information of BCH status.
Parameter Description
RRC BCH Status> PCI Physical Cell Identity (0~503)
RRC BCH Status> Freq DL DL Frequency
RRC BCH Status> Purpose Purpose of BCH Setup
- SIB_NORMAL,
- CELL_RESELECTION,
- SIB_MODIFICATION,
- MOVE_TO_IDLE,
- SIB_CONNECTED,
- SFN_READ,
- SPECIFIED_SIB,
- SIBC_SIB
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 87
RRC BCH Status> Result Result of receiving System Information.
- SUCCESS,
- PLMN_MISMATCH,
- MIB_TIMEOUT,
- SI_TIMEOUT,
- LAST_RESULT
NAS State Info
This item provides the state information of EMM (EPS Mobility Management), ECM (EPS Connection
Management) and PLMN and EU (EPS Update) status when each state is changed.
Parameter Description
EMM State Current state of EMM (EPS Mobility Management)
ECM State Current state of ECM (EPS Connection Management)
PLMN State Current state of PLMN
EU State Current EU (EPS Update) status
NAS State Info(R4)
This item provides the NAS state information of EMM (EPS Mobility Management), ECM (EPS Connection
Management) and PLMN and EMM Cache status when each state is changed.
Parameter Description
EMM State Current state of EMM (EPS Mobility Management)
ECM State Current state of ECM (EPS Connection Management)
PLMN State Current state of PLMN
EMM Cache State Current state of EMM Cache
Radio & NAS Signaling Failure Info
Parameter Description
Radio Problem Cause Radio problem diagnostic logging attribute.
NAS Signaling Failure
Cause NAS signaling failure diagnostic logging attribute
RRC Freq Scan Info
This item displays the result of frequency scan.
Parameter Description
Search Type Cell Search Method
- Frequency LIST
- Frequency RANGE
Freq DL DL Frequency
RSRP Reference Signal Received Power
Cell Reselection Info
This item provides the information on both source cell and target cell when RRC perform cell reselection.
Parameter Description
Old Freq DL Old Carrier Frequency
Old Cell ID Old Cell Identity
New Freq DL New Carrier Frequency
New Cell ID New Cell Identity
Handover History
This item displays handover history, delay and result.
Parameter Description
Source Cell Source Cell Physical Identity
Target Cell Target Cell Physical Identity
Handover Delay Handover delay (Unit : ms)
Result - FAIL
- SUCCESS
Handover Type - LTE
- Outbound IRAT
- Inbound IRAT
Data Path Packet Loss
This item is for UL/DL packet loss of data path(HIM/PDCP/L2).
Parameter Description
UL UsbBlockTime UL : USB Blocking count
UL SdioBlockTime UL : SDIO Blocking count
UL UsbUnreg UL : number of discarded packet in USB by unregistered connection
UL SdioUnreg UL : number of discarded packet in SDIO by unregistered connection
UL HimAllocFail UL : Memory allocation fail count in HIM
UL DimInvHdr UL : Number of discarded packet in DIM by Invalid header
UL DimNoRB UL : Number of discarded packet in DIM because of no RB
UL PdcpSduFull UL : Fail count in PDCP by PDCP SDU Queue full
UL PdcpPduBufFull UL : Number of discarded packet in PDCP by PDCP PDU Queue full
UL PdcpCipAllocFail UL : Number of discarded packet in PDCP by Ciphering block full
UL PdcpDisTimer UL : Number of discarded packet by PDCP discard timer expiry
UL MacSchedMiss UL : Number of discarded MAC PDU which is not transfered
XCAP-LTE Analyzer Parameter Description/Ed.04
© Copyright by Accuver Ltd. Page 89
DL PhyAllocFail DL : Number of discarded MAC PDU by memory allocation in L1
DL MacInvHdr DL : Number of discarded MAC PDU by invalid MAC header
DL RlcDuplication DL : number of discarded RLC PDU by duplication
DL RlcInvHdr DL : number of discarded RLC PDU by invalid RLC header
DL RlcOutWnd DL: number of discarded RLC PDU which falls outside of window
DL RlcRsmFull DL : number of discard RLC PDU by RSM buffer full
DL PdcpInvHdr DL : number of discarded PDCP PDU by invalid PDCP header
DL PdcpOutWnd DL : number of discarded PDCP PDU which falls outside of window
DL CipAllocFail DL : Number of discarded packet in PDCP by Ciphering block full
DL DimInvalid DL : Number of discarded packet in DIM by IP Header length mismatch
DL HimIfFull DL : Number of discarded packet in HIM by interface buffer full
DL UsbBlockTime DL : USB block count
DL SdioBlockTime DL : SDIO block count
DL UsbPacketLoss DL : number of discarded packet in USB
DL SdioPacketLoss DL : number of discard packet in SDIO
ESM Instance Info
This item includes ESM instance information R3. Maximum number of ESM instance is 15(1~15). The
EPS Id uniquely identifies each ESM instance.
Parameter Description
Tab Index 1: 1st tab, 2: 2
nd tab, … 15: 15
th tab
EPS Id EPS ID
Linked Bearer Id Linked Bearer ID
PDN Address PDN IP Address
APN Access Point Name
QCI QCI (1 ~ 9)
EPS Type - NONE BEARER TYPE
- DEFAULT_BEARER
- DEDICATED_BEARER
ESM State - DEACTIVE
- ACTIVE
PTI PTI
Instance Id Instance ID
Deactivate Mode - NONE_MODE
- NORMAL
- NORMAL_ALL
- DETACH
- STATUS_IND
- PDN_DISCONNECT
- PDN_DISCONNECT_REJECT
- PDN_DISCONNECT_TIMEOUT
- MODIFICATION_REJECT
- MODIFICATION_TIMEOUT
- OVERWRITE
- LOCALLY
Overwrite Mode - NONE BEARER TYPE
- DEFAULT_BEARER
- DEDICATED_BEARER