LTE Parameter List

8/11/2019 LTE Parameter List

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Test Case Number Test Description Passed / Failed Comments

Pre-commissioning Checks (locally on-site)(Installation)

BBU Cabinet Installation Check:

BBU is installed properly (Inside ODC/GBM belly/any other IP 55 box) Comply

CPRI Cable Connection Comply

Backhaul Cable connection Comply

D.C Power Connection Comply

GPS Cable Connection Comply

External Alarm cable Comply

Grounding Cable Connection Comply

Labelling of All Cables Comply

RRH Installation Check:

RF Jumper Cable Connection Comply

CPRI Cable Connection Comply

D.C Power Connection Comply

AISG Cable Connection Comply

Grounding Cable Connection Comply


Antenna Installation Check:

Antenna Installed and clamped properly Comply

Tilt and Azimuth according to the planned values Comply

AISG cable labeled & connected properly Comply

Weather proofing( if Required) Comply

RF jumper cable should not be sharply band. Comply


GPS Installation Check:

GPS has to installed on top section of the tower so that clear visibility to the sky is available Comply

Weather proofing( if Required) Comply

GPS cable connection Comply

Cabling checks

BBU to RRH CPRI Optical Cable Comply

RRH to Antenna RF Coaxial Cable Comply

RRH to Antenna RET Cable Comply

BBU to CSS Optical Cable Comply

Power Cables Comply

eNodeB earthing checks:

BBU and RRHs should be grounded properly through separate grounding cables to the

grounding Bars.Comply

Weather proofing to be done wherever required. Comply

Power Supply Polarity Check:

BBU & RRH connected to -48V DC power supply from DCDB with proper polarity. Comply

Reflected Power/VSWR/Return Loss Check by VSWR meter / Site Master:

VSWR measurement should be done for all the sectors and connecting ports with external

VSWR meter or site master for all the transmit paths of the antenna including jumper cable of the

antenna. Measured VSWR value should be <=1.3 for feeder cable alone and <=1.5 for jumper

and antenna to ether.

Comply

Post-commissioning Checks (remotely in EMS)

eNodeB discovery in EMS:

eNodeB with 3 configured sectors should be completely visible & active in the EMS after

integration.Comply

eNodeB Auto-configuration: Verify that the configuration is as planned, the requisite parameters are enabled and the

values of all parameters are exactly same as planned values. In case of any discrepancy from

the planned value should be highlighted with proper reason.

Comply

Transmit Power Check:

Check measured value in EMS . The power of each Transmit Path should be 40 dBm+-

0.5dB( 39.5 till 40.5dBm).LSM R snapshot should contain eNodeB Id with date along with power

value.5% of the sites for the city should be supported with Power measurement data with Site

master/Power meter.

Comply

Reflected Power/VSWR/Return Loss Check:

Check the measured value in the EMS to ensure that the cabling between RRH and

Antenna is ro er and that Antenna is also not defectiveComply

ü VSWR measurement should be done for all the sectors (RRHs) and connecting ports for all

the transmit paths of the antenna including jumper cable of the antenna. Measured VSWR value

should be <=1.5

Comply

Network Connectivity and EPC Association check:

Check that EMS does not show any Alarms related to EPC unavailability and also check

whether the IP Addresses of MME and S-GW are as planned.Comply

ü IP assigned should be same as per the IP plan. All critical, major alarms should be cleared for

eNodeB to EPC association.Comply

Overall fault and alarm check:

To check that there are no faults or alarms when the eNodeB comes up for the first time. All

Critical/Major/Minor alarms related to eNodeB should be cleared. Comply

Hardware Version Check Report:

The eNodeBs Hardware version should match the agreed Hardware version Comply

Software Version Check Report:

All eNodeB should have latest SW release version working Comply

Uplink Interference Check:

To check if the eNodeB reports any uplink, in-band interference even when all adjacent sites

are blocked. This helps to discover and eliminate any unknown sources of interference. The

value of UL RSSI should be less than -100 dBm. Any major/minor Uplink interference should be

reported.

Partial Comply

(Report only. Blocking all

adjacent sites is not

always feasible in the

field.).Report Only

RET integration check:

Issue RET commands to change the Electrical Tilt and ensure that the Antenna’s RET

controller responds properly and that there are not alarms related to it.Comply

eNB-ATP1-19 Backhaul stability test through Iperf for 1 minute Comply

Post-commissioning Checks (On Field with real UE to verify that all services are working and

proper throughputs are achieved). Tests to be carried out below / very near to the

commissioned cell site ensuring an SINR of greater than 25 dB. Tests to be automated as far

as possible for rapid execution by semi-skilled engineers/technicians.

eNB-ATP1-5

eNodeB Installation, Commissioning & Integration Acceptance Check List – Form

eNB-ATP1-1

eNB-ATP1-2

eNB-ATP1-3

eNB-ATP1-4

eNB-ATP1-17

eNB-ATP1-6

eNB-ATP1-7

eNB-ATP1-8

eNB-ATP1-9

eNB-ATP1-10

eNB-ATP1-11

eNB-ATP1-12

eNB-ATP1-13

eNB-ATP1-14

eNB-ATP1-15

eNB-ATP1-16

eNB-ATP1-18



eNB-ATP1-20 Repetitive Attach – Detach Test – 5 times Comply

eNB-ATP1-21 Ping Latency Test @ No Load. It should be less than 50 ms (eNobeB + backhaul) - 10 times Comply

eNB-ATP1-22Internet Browsing/Surfing: Access Google.com and check if the Website is properly rendered on the

LaptopComply

VoLTE Service Test:

IMS Video Call from Tablet connected to CPE-A to Tablet connected to CPE-B with both CPE-A and

CPE-B are in Medium SINR

The end-to-end latency (From A-party to B-party) should be less than 100 ms

Also measure Jitter and Packet Loss for the call

eNB-ATP1-24MBMS Services Test: To check that eMBMS is properly configured at the time of commissioning

and broadcast services are operational.

eNB-ATP1-25LBS Service: To check that LCS configurations are properly made and UE Location / Position can

be determinted

All the special features

service tests will be done

separately as a part of

service testing once the

feature is available. Test

procedures and criterial

will be mutually agreed.

eNB-ATP1-23



Test Case Number Test Description

eNB-ATP2-1 Verification of Sector Swap

Coverage Test Drive: Two UEs

First UE with a long data call FTP DL, and the second UE

with a long data call FTP UL:

This will check Link Adaptation / AMC in both DL and

UL and give an idea about the DL SINR and throughput

distribution in the cell

UE’s Tx Power Control

MIMO Switching between SM and Tx Diversity

Cell Edge for 256 Kbps in UL and 2Mbps in DL

RF Parameters to be collected and post-processed:

RSRP, RSRQ, SINR

UE Tx Power and Power Headroom

MCS, RB Allocation, Rank Indicator

DL PHY Throughput, UL PHY Throughput and BLER

PCID

Tracking Area

Attach Success Rate

Drop Rate

Handover Report has to be generated after performing

clockwise and Anti-clockwise handover

eNB-ATP2-3

Coverage Test Drive with eMBMS Service:

To verify coverage of eMBMS and check if broadcast delivery

can happen satisfactorily over a given service area with theconfigured MCS values

Multi-UE tests to be done with 5 UEs in either Alpha, Beta

or Gamma Sector @ SINR values ranging from 10 to 15 dB

with single UE. Automation Scripts can be used for quick

and reliable execution to be done in either Alpha, Beta or

Gamma Sector @ SINR values ranging from 10 to 15 dB

with single UE. Automation Scripts can be used for quick

and reliable execution.

eNB-ATP2-4Repetitive Attach – Detach Test – 20 times

eNB-ATP2-5 Throughput Stability Test with each UE in a fixed location withFTP DL and UL together. The 10 minutes of throughput graph

needs to be obtained.

Sr. No. Parameter

Physical Parameters

1 Latitude

Site Information

eNodeB functionality and Single Cell Functional Test (SCFT) – Form

Note: All three sectors of the eNodeB Under Test should be active and without any artificial loading (e.g. O

eNB-ATP2-2



2 Longitude

3 Antenna Height

4 Antenna Azimuth

5 Antenna Tilt: Mechanical

6 Antenna Tilt: Electrical from LSM-R

7 Antenna Make & Model

Important Configuration Parameters8 EARFCN

9 PCID

10 Cell ID

11 TAC

12 Tx Power from LSM-R

13 MIMO Mode (TM3/TM4) from LSM-R

14 MIMO Type (2x2, 4x2) from LSM-R

Sr. No. Test Case Reference

1.

eNodeB ATP2-2

2.

eNodeB ATP2-2

3.

eNodeB ATP2-2

4.

eNodeB ATP2-2

Report Checklist for SCFT

5.

eNodeB ATP2-2



9.

eNodeB ATP2-2

10.

eNodeB ATP2-2

12.

eNodeB ATP2-3

13.

eNodeB ATP2-2

14.

eNodeB ATP2-2

15.

eNodeB ATP2-2

Sr. No Key Performance Indicator

1 PRACH Success Rate (UE End)

2 Attach Success Rate

3 Successful data transmission download attempts

4 Successful data transmission upload attempts

5 Drop Calls %

6 Handover success rate

7 Tracking Area Update Success Rate

8 Unicast Block Error Rate

9 eMBMS Block Error Rate

10 DL SINR with >-2 dB

11 DL RSRP with >-108dBm

12 Average DL Throughput

13 Average UL Throughput14 DL Throughput >2Mbps

15 UL Throughput >256Kbps

16 Attach Setup time

17 Latency: Audio Call

18 Latency: Video Call

19 Latency: Data

20 Latency: Data (inter-active)

Drive test KPI

ACCESSIBILITY

6.

eNodeB ATP2-2

RETAINABILITY

MOBILITY

Coverage Quality

Access Time

11.

eNodeB ATP2-2



21 QCI 5 (IMS Signaling) Radio Link Latency



Passed / Failed Comments

Comply

Comply only after it is launched and Devices are

made available

Comply

(Only for RCP and Jamnagar Pilot Trials)

Comply(Only for RCP and Jamnagar Pilot Trials)

Samsung Comments

CNS) in all tests listed below.

Comply



Comply

Comply

Comply

Comply

Comply

Comply

Comply

Comply

Comply

Comply

Comply

Comply

Type of Report Samsung Comments

Log of RRC and NAS Messages Comply

DL SINR, DL MCS and DL Throughput Snapshot on

both UEsComply

UL SINR, UL MCS and UL Throughput Snapshot on

both UEComply

PCID Plot for each sector ComplyPlot of following parameters on Google Map:

1. RSRP

2. RSRQ

3. SINR

4. UE Tx Power

5. Power Headroom

6. MCS

7. RB Allocation

8. Rank Indicator

9.

DL PHY Throughput

10. UL PHY Throughput

11.

BLER

12.

PCID

13.

CQI

Histogram/CDF of the following parameters

1.

RSRP

2.

RSRQ

3.

SINR

4.

UE Tx Power

.

Comply



5. Power Headroom

6. MCS

7. RB Allocation

8. Rank Indicator

9. DL PHY Throughput

10. UL PHY Throughput

11.

BLERHandover Success Rate and Throughput drop during

Handover Comply

Drop Call Rate Comply

Attach/Detach Latency Sector wise

Handover Latency Sector wise

MBMS throughput and BLER Comply

Average DL/UL throughput Comply

RACH acknowledgement Success Rate Comply

Command list run during the drive test Comply

Value Unit

> 99 %

> 99 %

>99 %

>99 %

< 2 %

> 98 %

> 98 %

<1 %

<1 %

95 % area

95 % area

20 Mbps

2.5 Mbps95 % area

95 % area

2 Sec

< 100 ms

< 105 ms

< 150 ms

< 50 ms

Comply

Comply



< 80 ms



Pre-SCFT(If

some changes

are done during

SCFT



Test Case

Number Test Description

Passed /

Failed


First UE with a long data call FTP DL, and the second

UE with a long data call FTP UL: This will check Link Adaptation / AMC in both DL

and UL and give an idea about the DL SINR and

throughput distribution in the cell





RSRP, RSRQ, SINR



DL PHY Throughput, UL PHY Throughput and

BLER PCID

Tracking Area

Attach Success Rate

Drop Rate

Handover Report has to be generated after

performing clockwise and Anti-clockwise handover

eNB-ATP3-2


To verify coverage of eMBMS and check if broadcast

delivery can happen satisfactorily over a given service

area with the configured MCS values

Sr. No. Parameter Planned

Physical Parameters

1 Latitude

2 Longitude

3 Antenna Height

4 Antenna Azimuth




Important Configuration Parameters

8 EARFCN9 PCID

10 Cell ID

11 TAC




Acceptance TestseNodeB Cluster Drive Test – Form

Note: All three sectors of the eNodeB Under Test should be active and without any artificial loading (e.g. OC

eNB-ATP3-1



Sr. No Key Performance Indicator Value

1 PRACH Success Rate (UE End) > 99

2 Attach Success Rate > 99

3 Successful data transmission download attempts >99

4 Successful data transmission upload attempts >99

5 Drop Calls % < 2

6 Handover success rate > 98

7 Tracking Area Update Success Rate > 98

8 Unicast Block Error Rate <1

9 eMBMS Block Error Rate <1

10 DL SINR with >-2 dB 95

11 DL RSRP with >-108dBm 95

12 Average DL Throughput 2013 Average UL Throughput 2.5

14 DL Throughput >2Mbps 95

15 UL Throughput >256Kbps 95

16 Attach Setup time 2

17 Latency: Audio Call < 100

18 Latency: Video Call < 105

19 Latency: Data < 150

20 Latency: Data (inter-active) < 50

21 QCI 5 (IMS Signaling) Radio Link Latency < 80

1. DL SINR Distribution

2. DL RSRP Distribution

3. DL RSRQ Distribution

4. CQI Distribution

5. MCS Distribution

6. TM Mode Distribution

Drive test KPI

ACCESSIBILITY

RETAINABILITY

MOBILITY

Coverage Quality

Access Time

Parameters to be covered in Reports:

a.) Geographical

b.) Statistical (Histogram/CDF)



7. Rank Indicator Distribution

8. RB Distribution

9. DL Throughput Distribution

10. UL Throughput Distribution

11. eMBMS Throughput Distribution

12. eMBMS BLER rate Distribution

13. Unicast BLER rate Distribution

14. UE Transmit Power Distribution

15. Power Headroom Distribution

16. Physical Cell ID Distribution (Only on geographic map)

1. RACH Acknowledgement

2. Attach Success/Failure

3. ERAB Signalling

4. Handover

5. Tracking Area Update

6. Drop Call

7. Detach

1. Attach Latency

2. Handover Latency

3. Ping Latency

RRC Message

Signalling Success/Failure Reports on Geographic Maps

Latency Reports: Statististical



Comments

Comply only after it is

launched and Devices are

made available

Observed Changes Final

NS) in all tests listed below.

Comply



Unit

% //Qualcomm LTE -> Random Access Procedure

% Statistics -> PS Call Statistics(attach & Detach log file)

% Statistics -> PS Call Statistics(DL log file)

% Statistics -> PS Call Statistics(UL log file)

% Statistics -> PS Call Statistics(DL/UL log file)

% Table -> LTE Signaling Message -> RRC -> HO Statistics -> Intra LTE HO -> Atte

% Table -> LTE Signaling Message -> NAS -> TAC Procedure -> Tracking Area Upd

% Map -> Qualcomm LTE -> PDSCH BLER Info -> Total -> Total BLER

% Map -> Qualcomm LTE -> PMCH BLER Info -> Total -> Total BLER

% area Map -> Qualcomm LTE -> Intra freq measurement info -> Serving Cell -> Servin

% area Map -> Qualcomm LTE -> Intra freq measurement info -> Serving Cell -> Servin

Mbps Table -> Qualcomm LTE -> Physical Throughput -> PDSCH Throughput -> TotalMbps Table -> Qualcomm LTE -> Physical Throughput -> PUSCH Throughput -> Total

% area Map -> Qualcomm LTE -> Physical Throughput -> PDSCH Throughput -> Total

% area Map -> Qualcomm LTE -> Physical Throughput -> PUSCH Throughput -> Total

Sec Table -> LTE Signaling Message -> NAS -> Attach Procedure -> Attach Time(Att

ms ?

ms ?

ms ?

ms ?

ms ?

KML : Map -> Qualcomm LTE -> Intra freq measurement info -> Serving Cell ->

CDF : CDF -> Qualcomm LTE -> Intra freq measurement info -> Serving Cell ->

Histogram : Map -> Qualcomm LTE -> Intra freq measurement info -> Serving







KML : Map -> Qualcomm LTE -> Channel Quality info -> WideBand CQI(Mouse

CDF : CDF -> Qualcomm LTE -> Channel Quality info -> WideBand CQI

Histogram : Map -> Qualcomm LTE -> Channel Quality info -> WideBand CQI(C

KML : Map -> Qualcomm LTE -> ML1 Downlink Info -> MCS Index0(Avg) -> (Mo

CDF : CDF -> Qualcomm LTE -> ML1 Downlink Info -> MCS Index0(Avg)

Histogram : Map -> Qualcomm LTE -> ML1 Downlink Info -> MCS Index0(Avg) -

KML : Map -> LTE Signaling Message -> RRC -> Antenna info -> Transmission M



CDF : CDF -> LTE Signaling Message -> RRC -> Antenna info -> Transmission M

Histogram : LTE Signaling Message -> RRC -> Antenna info -> Transmission Mo

KML : Map -> Qualcomm LTE -> Channel Quality info -> Rank Index(Mouse Rig

CDF : CDF -> Qualcomm LTE -> Channel Quality info -> Rank Index

Histogram : Map -> Qualcomm LTE -> Channel Quality info -> Rank Index(Click

KML : Map -> Qualcomm LTE -> ML1 Downlink Info -> RB Num(Avg) -> (Mouse

CDF : CDF -> Qualcomm LTE -> ML1 Downlink Info -> RB Num(Avg)

Histogram : Map -> Qualcomm LTE -> ML1 Downlink Info -> RB Num(Avg) -> (

KML : Map -> Qualcomm LTE -> Physical Throughput -> PDSCH Throughput ->

CDF : CDF -> Qualcomm LTE -> Physical Throughput -> PDSCH Throughput -> T

Histogram : Map -> Qualcomm LTE -> Physical Throughput -> PDSCH Throughp

KML : Map -> Qualcomm LTE -> Physical Throughput -> PUSCH Throughput ->

CDF : CDF -> Qualcomm LTE -> Physical Throughput -> PUSCH Throughput -> T

Histogram : Map -> Qualcomm LTE -> Physical Throughput -> PUSCH Through

KML : Map -> Qualcomm LTE -> PMCH Throughput -> Total Throughput -> (Mo

CDF : CDF -> Qualcomm LTE -> PMCH Throughput -> Total Throughput

Histogram : Map -> Qualcomm LTE -> PMCH Throughput -> Total Throughput -

KML : Map -> Qualcomm LTE -> PMCH BLER Info -> Total -> Total BLER -> (Mo

CDF : CDF -> Qualcomm LTE -> PMCH BLER Info -> Total -> Total BLER

Histogram : Qualcomm LTE -> PMCH BLER Info -> Total -> Total BLER -> (Click

KML : Map -> Qualcomm LTE -> PDSCH BLER Info -> Total -> Total BLER -> (Mo

CDF : CDF -> Qualcomm LTE -> PDSCH BLER Info -> Total -> Total BLER

Histogram : Qualcomm LTE -> PDSCH BLER Info -> Total -> Total BLER -> (Click

KML : Map -> Qualcomm LTE -> Power Info -> Tx Power -> PUSCH/PUCCH/SRS

CDF : CDF -> Qualcomm LTE -> Power Info -> Tx Power -> PUSCH/PUCCH/SRS

Histogram : Map -> Qualcomm LTE -> Power Info -> Tx Power -> PUSCH/PUCC

KML : Map -> Qualcomm LTE -> Power Info -> min(PMAX,TxPower) -> Power H

CDF : CDF -> Qualcomm LTE -> Power Info -> min(PMAX,TxPower) -> Power H

Histogram : Map -> Qualcomm LTE -> Power Info -> min(PMAX,TxPower) -> Po


?

KML : Map -> LTE Signaling Message -> NAS -> Attach Procedure -> Attach Req

?

?? KML : Map -> LTE Signaling Message -> RRC -> HO Statistics -> Intra LTE HO ->

KML : Map -> LTE Signaling Message -> NAS -> TAC Procedure -> Tracking Area

KML : Map -> Call Result -> FTP Call(Mouse Right Click -> Export -> to KML(Leg

KML : Map -> LTE Signaling Message -> NAS -> Detach Procedure -> Detach Re

Table -> LTE Signaling Message -> NAS -> Attach Procedure -> Attach Time(Att

Table -> LTE Signaling Message -> RRC -> HO Statistics -> Intra LTE HO -> Atte

right click on table-> right click & select new filter tree-> select msg-> export t



pt/Success

ateStatistics

g SINR -> SINR

g RSRP -> RSRP

Throughput Throughput

hroughput

hroughput

ach & Detach log file)

Serving SINR -> SINR(Mouse Right Click -> Export -> to KML(Legend)

erving SINR -> SINR

ell -> Serving SINR -> SINR(Click Bar Menu)

Serving RSRP -> RSRP(Mouse Right Click -> Export -> to KML(Legend)

erving RSRP -> RSRP

ell -> Serving RSRP -> RSRP(Click Bar Menu)

Serving RSRQ -> RSRQ(Mouse Right Click -> Export -> to KML(Legend)

erving RSRQ -> RSRQ

ell -> Serving RSRQ -> RSRQ(Click Bar Menu)

Right Click -> Export -> to KML(Legend)

lick Bar Menu)

use Right Click -> Export -> to KML(Legend)

> (Click Bar Menu)

ode -> (Mouse Right Click -> Export -> to KML(Legend)



de

de -> (Click Bar Menu)

ht Click -> Export -> to KML(Legend)

Bar Menu)

Right Click -> Export -> to KML(Legend)

lick Bar Menu)

otal Throughput -> (Mouse Right Click -> Export -> to KML(Legend)

otal Throughput

ut -> Total Throughput -> (Click Bar Menu)

otal Throughput -> (Mouse Right Click -> Export -> to KML(Legend)

otal Throughput

ut -> Total Throughput -> (Click Bar Menu)


> (Click Bar Menu)

se Right Click -> Export -> to KML(Legend)

ar Menu)


Bar Menu)

-> (Mouse Right Click -> Export -> to KML(Legend)

/SRS -> (Click Bar Menu)

eadroom -> (Mouse Right Click -> Export -> to KML(Legend)

adroom

wer Headroom -> (Click Bar Menu)

Serving PCI(Mouse Right Click -> Export -> to KML(Legend)

uest/Accept/Completel/Reject(Mouse Right Click -> Export -> to KML(Legend) Attach/Detach log file

Attempt/Success(Mouse Right Click -> Export -> to KML(Legend)

Update Request/Accept(Mouse Right Click -> Export -> to KML(Legend) DL log file

end)

quest/Accept(Mouse Right Click -> Export -> to KML(Legend) Attach/Detach log file

ach & Detach log file)

pt/Success/Duration

o xls format



Test Case

Number Test Description

Passed /

Failed


First UE with a long data call FTP DL, and the second

UE with a long data call FTP UL:

This will check Link Adaptation / AMC in both DL

and UL and give an idea about the DL SINR and

throughput distribution in the cell





RSRP, RSRQ, SINR



DL PHY Throughput, UL PHY Throughput and

BLER PCID

Tracking Area

Attach Success Rate

Drop Rate

Handover Report has to be generated after

performing clockwise and Anti-clockwise handover

eNB-ATP4-2


To verify coverage of eMBMS and check if broadcast

delivery can happen satisfactorily over a given service

area with the configured MCS values

Sr. No. Parameter Planned

Physical Parameters

1 Latitude

2 Longitude

3 Antenna Height

4 Antenna Azimuth




Important Configuration Parameters

8 EARFCN

9 PCID

10 Cell ID

11 TAC




Acceptance TestsCity-wide Drive Test – Form

Note: All three sectors of the eNodeB Under Test should be active and without any artificial loading (e.g. OCNS

eNB-ATP4-1



Sr. No Key Performance Indicator Value

1 PRACH Success Rate (UE End) > 99

2 Attach Success Rate > 99

3 Successful data transmission download attempts >99

4 Successful data transmission upload attempts >99

5 Drop Calls % < 2

6 Handover success rate > 98

7 Tracking Area Update Success Rate > 98

8 Unicast Block Error Rate <1

9 eMBMS Block Error Rate <1

10 DL SINR with >-2 dB 95

11 DL RSRP with >-108dBm 95

12 Average DL Throughput 2013 Average UL Throughput 2.5

14 DL Throughput >2Mbps 95

15 UL Throughput >256Kbps 95

16 Attach Setup time 2

17 Latency: Audio Call < 100

18 Latency: Video Call < 105

19 Latency: Data < 150

20 Latency: Data (inter-active) < 50

21 QCI 5 (IMS Signaling) Radio Link Latency < 80

1. DL SINR Distribution

2. DL RSRP Distribution

3. DL RSRQ Distribution

4. CQI Distribution

5. MCS Distribution

6. TM Mode Distribution

7. Rank Indicator Distribution

8. RB Distribution

9. DL Throughput Distribution

10. UL Throughput Distribution

11. eMBMS Throughput Distribution

12. eMBMS BLER rate Distribution

13. Unicast BLER rate Distribution

14. UE Transmit Power Distribution

15. Power Headroom Distribution

RETAINABILITY

Drive test KPI

ACCESSIBILITY

MOBILITY

Coverage Quality

Access Time

Parameters to be covered in Reports:

a.) Geographical

b.) Statistical (Histogram/CDF)



16. Physical Cell ID Distribution (Only on geographic map)

1. RACH Acknowledgement

2. Attach Success/Failure

3. ERAB Signalling

4. Handover

5. Tracking Area Update

6. Drop Call

7. Detach

1. Attach Latency

2. Handover Latency

3. Ping Latency

Signalling Success/Failure Reports on Geographic Maps

Latency Reports: Statististical



Comments

Comply only after it is launched and

Devices are made available

Observed Changes Final

) in all tests listed below.

Comply



Unit

%

%

%

%

%

%

%

%

%

% area

% area

MbpsMbps

% area

% area

Sec

ms

ms

ms

ms

ms



Samsung will provide Self Certification stating the site is EMF compliant according to the Document N

Below) provided by the TEC department or any updations/revisions made henceforth by the TEC and if

make the site compliant and submit the self certification

D:\EMF\Test

Procedure EM Fields

From BTS Antennae



. TEC/TP/EMF/001/02.OCT. 2012 (attached

he site is not compliant then samsung has to

LTE Parameter List

Documents

Transcript of LTE Parameter List