Module 4_Qualitly & Commissioning

Installation Quality

Quality check is an activity which needs to be conducted after site

installation is completed.

Quality Check is done to verify that the installed site meets the

installation guidelines or not.

Introduction

2013 © Samsung Electronics 2

Installation Quality Check List

Table Of Contents

RF Antenna

RRU - Remote Radio Unit

GPS Antenna


CDU - Cabinet Digital Unit

Other Important Quality Checks

Check for proper antenna bolt tightening.

Tightening of the bolts should be properly done i.e. bolts should not be loose and should not be

over tightened. If the bolts are over tightened, threads may get damaged. Correct torque value is

(239.7-270.3 kgf.cm.)

Antenna should not move when pushed with force.

Antenna should withstand strong air turbulence and should not move even when pushed with

force. This is to ensure Antennas remain oriented in the desired direction all the time

1) Antenna Fixing-RF Antenna


force. This is to ensure Antennas remain oriented in the desired direction all the time

Ø 40-90 mm

14 mm* Torque : 239.7 ~ 270.3 kgf.cm * Torque : 239.7 ~ 270.3 kgf.cm * Torque : 239.7 ~ 270.3 kgf.cm * Torque : 239.7 ~ 270.3 kgf.cm (23.5~26.5 Nm)(23.5~26.5 Nm)(23.5~26.5 Nm)(23.5~26.5 Nm)

Attaching Base station Antenna on Poles Using Clamps

In case the height of structure is more than 30M from the ground, lightning-protection

umbrella angle should be 23 degrees.

In case the height of structure is Less than 30M from the ground, lightning-protection

umbrella angle should be 45degrees.

.

2) Antenna Position- RF Antenna

[Less than 30M ][Less than 30M ][Less than 30M ][Less than 30M ] Lightning Rod45° 45° 23° 23°[More than 30M ][More than 30M ][More than 30M ][More than 30M ]


.

RF AntennaRRUGPS Antenna


Ensure according to TSSR data

Get the values of the Antenna Azimuth for Alpha, Beta and Gamma Sector and Antenna

tilts from the TSSR Document and verify the calculated values with the values mentioned

in the TSSR document. The values should match.

3) Antenna Azimuth / Tilt

Mechanical down tilt (In the case of tilting)


14 mm* Torque : 239.7 ~ 270.3 kgf.cm * Torque : 239.7 ~ 270.3 kgf.cm * Torque : 239.7 ~ 270.3 kgf.cm * Torque : 239.7 ~ 270.3 kgf.cm (23.5~26.5 Nm)(23.5~26.5 Nm)(23.5~26.5 Nm)(23.5~26.5 Nm)Azimuth Measurement-Compass

Tilt Measurement: Tilt Meter

Min. bending radius should be 125 mm

4) Cable Routing Condition (Jumper & RET) 1/2

Str

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RF Antenna

RET Cable AssemblyRET Connector


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Min

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Connect a 1/2 in. Jumper line to the RF antenna.

- If excessive force is applied to the connector assembled to the antenna port or cable, it

may cause poor contact or damage because the straight cable section is not long enough.

RF cable type Min. Radius Manufacturer

1/2 ‘’ 125 mm LS

First cable tie should be used at 600 mm from antenna port then after at every 300 mm

4) Cable Routing Condition (Jumper & RET) 2/2


Labeling should be done according to guideline (Alpha-Blue,Beta-Red,Gamma-Green)

5) Cable Labeling

Alpha SectorAlpha SectorAlpha SectorAlpha Sector Beta SectorBeta SectorBeta SectorBeta Sector Gamma SectorGamma SectorGamma SectorGamma Sector


Sector RF Cable Color Code

Alpha

Path#0 Blue / Yellow(One String)

Path#1 Blue / Yellow(Two String)

Path#2 Blue / Yellow(Three String)

Path#3 Blue / Yellow(Four String)

Beta

Path#0 Red / Yellow(One String)

Path#1 Red / Yellow(Two String)

Path#2 Red / Yellow(Three String)

Path#3 Red / Yellow(Four String)

Gamma

Path#0 Green / Yellow(One String)

Path#1 Green / Yellow(Two String)

Path#2 Green / Yellow(Three String)

Path#3 Green / Yellow(Four String)

6) Feeder weather proofing

Check Point

Antenna cables are finished with insulation tape and with 2 ties, no shrinkage tube or

tape missing

Check distance between RRU bottom & the lower cable tie with steel ruler. It should

be minimum 80mm


AISG cable connector should be tighten to RET male port.

RET daisy chain port should be tighten with weather proof cap to avoid water seepage.

7) AISG(RET) Cable Connection & Daisy Chain port (1/2)

Antenna sideAntenna sideAntenna sideAntenna side


RRH sideRRH sideRRH sideRRH side

7) AISG(RET) Cable Connection & Daisy Chain port (2/2)


If found a Gap, turn the cap clockwise tightly with finger and mark up the permanent marker .

Quality Check List for RRU

13

Check tightening status of nuts and bolts

Check horizontal and vertical leveling

1) RRU Bracket Fixing (1/2)

[ [ [ [ Pole Mount Bracket

Assembly (Universal Bracket)


Assembly (Universal Bracket)[[[[Unit Mounting Bracket Assembly* M8 Hex. Bolt/Nut Torque * M8 Hex. Bolt/Nut Torque * M8 Hex. Bolt/Nut Torque * M8 Hex. Bolt/Nut Torque : 122 kgf.cm: 122 kgf.cm: 122 kgf.cm: 122 kgf.cm (Tolerance (Tolerance (Tolerance (Tolerance ±±±±10%)10%)10%)10%)* M12 Hex. Bolt/Nut Torque : 390~400 kgf.cm* M12 Hex. Bolt/Nut Torque : 390~400 kgf.cm* M12 Hex. Bolt/Nut Torque : 390~400 kgf.cm* M12 Hex. Bolt/Nut Torque : 390~400 kgf.cm

Use Spirit Level to check the leveling of the

RRU

CHECK POINT

#1 4Bolts on the right and left of RRU shall be securely fastened up

#2 If found loose screws fasten them again.

#3 Make sure that all screws shall be securely fastened up and mark all screws with permanent marker

1) RRU Bracket Fixing (2/2)


Check all fixing assembly item should be in place according to installation guideline without

missing or damage

2) Bolt, Nut, Washer, Bushing, Bakelite status

M8×30L Hex. Bolt

Bakelite(5T)


Unit MountingBracket Upper furrow

M8 x 30L Hex. Bolt

M8 Plain Washer

Unit Mounting Bracket

M8 Insulation Bushing

Bakelite(5T)

M8 Spring Washer

Check continuity with Multimeter bet

ween Pole and RRH body(Resistance

Value <500V/100M Ohm)

Bakelite and insulation bushing should

be in place

Perform this test only after disconnect

the Grounding Cable

3) RRU insulation test

[Strong Anchor fixing[Strong Anchor fixing[Strong Anchor fixing[Strong Anchor fixing Hex. Bolt]Hex. Bolt]Hex. Bolt]Hex. Bolt][RRU fixing[RRU fixing[RRU fixing[RRU fixing Hex. Bolt]Hex. Bolt]Hex. Bolt]Hex. Bolt][Stud[Stud[Stud[Stud Bolt]Bolt]Bolt]Bolt][RRU fixing Hex. Bolt][RRU fixing Hex. Bolt][RRU fixing Hex. Bolt][RRU fixing Hex. Bolt]


the Grounding Cable[RRU fixing Hex. Bolt][RRU fixing Hex. Bolt][RRU fixing Hex. Bolt][RRU fixing Hex. Bolt]

Indication standard : more than 500V/100MΩ

[U[U[U[U----Bolt]Bolt]Bolt]Bolt][RRU fixing Hex. Bolt][RRU fixing Hex. Bolt][RRU fixing Hex. Bolt][RRU fixing Hex. Bolt]

CPRI, Power, RET cable should be terminated on desired port with correct polarity

Check all cable for any damage and sharp bend.

Check the routing of all the cables is done properly.

4) Cable Status

Power cable cover should be

projected 10mm from floor of

window inside


Power Gland NutPower Gland NutPower Gland NutPower Gland Nut10mm10mm10mm10mm

Grounding should be done using F-GV 6.0 x 1C cable, 2Hole Terminal.

Check cable for any damage and sharp bend.

Check the routing of the cable is done properly.

Check whether grounding cable lugs are covered with the green heat shrink tube.

6) RRU Grounding

SEMS(M6x12L, 2EA)

CPRI forPressure Terminal


Green heat shrink

tube

CPRI forPressure Terminal

[R[R[R[R----03] ~ [R03] ~ [R03] ~ [R03] ~ [R----11] 11] 11] 11] Connection of Connection of Connection of Connection of Ground Cable

RRU Ground

CableRRU forPressure Terminal

CPRI Ground Cable

RRU Ground Cable

Cable Tie

* M6 SEMS Torque : 33.28~49.92 kgf.cm

Measure the voltage at both the terminals.

Recommended voltage should range from -40 to -57 V DC.

Voltage drop should not be more than 1 Volt.

Check whether the caps are fixed on the power tapping after power connection is done inside RRU

Cross check the color coding of Power cable: Black (RTN) & White (-48 VDC)

Check the Heat shrink tube color should be RED( RTN) & BLUE ( -48 VDC)

7) RRU Input Power Check


CHECK POINT

#1 4screws shall be securely fastened with 12kgf-cm torque

#2 Check “site ID” at the bottom of window face and take a picture of it

#3 Make sure that all screws shall be securely fastened up & mark all the screw with

permanent marker

8) RRU Window tightening Status


Check all the labeling done as per installation guideline

9) Cable Labeling(CPRI,Power, Grounding ,RET Cable & Jumper Cable)

TMC

25

25


The new format of

labels

TMC

TMC

30

CHECK POINT :

#1 Filler and CAP must be included in Gland

#2 GAP check as shown in figure

10) Cable Gland tightening Status-Optic Cable gland (1/2)


CHECK POINT : #1 Filler and CAP must be included in Gland

#2 Gap check

#3 The length of straight power cable and the positions of tied up to Pole as shown in figure

10) Cable Gland tightening Status-Power Cable gland (2/2)


Quality Check List for GPS

25

CHECK POINT

#1 GPS antenna should be within 23/°45°angle of lightning protection umbrella.

1) GPS Pole Fixing and GPS Arrestor (1/2)

[Less than 30M ][Less than 30M ][Less than 30M ][Less than 30M ] Lightning Rod45° 45° 23° 23°[More than 30M ][More than 30M ][More than 30M ][More than 30M ]




CHECK POINT

#2 Ground cable shall be securely connected to CDU

#3 There shall be no missing part

#4 Need to check all the labeling as per guideline

* items required: tooth washer, Nut and 6sq.mm pressure terminal

1) GPS Pole Fixing and GPS Arrestor (2/2)

③③③③ [MGB]


[D[D[D[D----11] ~ [D19]11] ~ [D19]11] ~ [D19]11] ~ [D19]Connection of Connection of Connection of Connection of GPS Ground Cable①①①①

②②②② [D[D[D[D----30] 30] 30] 30] RG-316D Cable-1

[D[D[D[D----25] 25] 25] 25] GPS Antenna

[D[D[D[D----27] 27] 27] 27] GPS Cable(CNT-400) [D[D[D[D----28] 28] 28] 28] GPS Arrestor

CHECK POINT

#1 Check both connector should be made as guideline

#2 Crimp ring should crimp with hexagonal crimping tool two times

2) GPS Connectorization


Quality Check List for CDU

29

CHECK POINTS:

#1 FAN MODULE shall be on the left front

#2 The color of Optic cable boots shall be RED and BLUE from the left to right

#3 All dust plug shall be kept securely.

#4 All screws shall be securely fastened

1) CDU System Fixing- Horizontally installed (1/2)


CHECK POINTS:

#1 FAN MODULE shall be on the top front

#2 The color of Optic cable boots shall be RED and BLUE from the top to bottom

#3 All dust plugs shall be kept securely.

#4 All screws shall be securely fastened

1) CDU System Fixing- Vertically installed (2/2)


CHECK POINT:

#1.Check unused port covered with cap

#2.Check unused slots covered with dummy panel

2) CDU (Dummy Panel & Unused Port) Condition


Dummy PanelsUnused Ports

CHECK POINTS :

#1 Ground cable shall be securely fastened on the back of CDU

#2 Grounding should be done using F-GV 4.0 x 1C cable, 2Hole Terminal.

#3 Check cable for any damage and sharp bend.

#4 Check the routing of the cable is done properly.

#5Check whether grounding cable lugs are covered with the green heat shrink tube.

3) CDU Grounding


Power cable connector and ground cable inspection

CHECK POINT

#1 Power connector shall be securely connected to receptacle

#2 Ground cable shall be securely fastened

#3 Check all cable for any damage and sharp bend.

#4Check the routing of all the cables is done properly.

4) Cable status


Check SFP module Single mode (Color Blue)

5) SFP module

If Black multi-mode SFP is found, please return it to Samsung contact person after

replacing it with Blue single-mode SFP

Connecting to backhaul cable (Optic)

Connect the backhaul cable (optic-

single mode) from the


General Case : Optic single cable

single mode) from the

switch/router to BH2 and BH3 ports

of the CDU UAMA board.

Connect the CDU-side connectors

(LC/UPC) of the cable to the BH2

and BH3 ports of the CDU UAMA

board.

Other Important Quality Checks

36

Check all cable entries in roxtec as per guideline

Boots should be fixed properly without any gap

1) Roxtec


All cable should be properly laced

Ensure the cleanliness inside the ODC

2) ODC Rack internal state


Mention the MCB rating

Ensure the labeling

MCB screw should be tighten on the copper not on insulation cover

Cross check the color coding of Power cable: +VE Black & -VE is White

3)MCB


CDU RRU-0RRU-1 RRU-2

Open cable tray cap and check cable routing at key points and cable should not be

crossed or twisted

Check for any damages(scratches, dents) on all elements.

4)Cable Tray

5) Equipment Status


Quality Checklist

Site ID Date Area

Site Name Solpar Auditor

Result

(OK/NOK

)

RemarksWeig

ht

1

1

1

1

2

2.5

7.5

1

2

2

1.Check tightening status of nuts and bolts

2.Check horizontal and vertical leveling

Check all f ixing assembly item should be in place according

to installation guideline w ithout missing or damage

Check continuity w ith Multimeter betw een Pole and RRH

body(Resistance Value <500V/100M Ohm)

*Bakelite and insulation bushing should be in place

Description

1.All Antennas bolt should be tightened w ith torque 239.7-

270.3 kgf.cm.

2.Antenna should not be moving w hen pushing w ith force.

All antennas should be w ithin 45°angle of lightning

protection umbrella

Ensure according to TSSR data

1.Min. bending radius should be 125 mm

2.First cable tie should be used at 600 mm f rom antenna

port then after at every 300 mm

Labeling should be done according to guideline

(Alpha-Blue,Beta-Red,Gamma-Green)

SITE CHECK LIST

1. Panel Antenna

2. RRH Part

1) Antenna Fixing

3) Antenna Azimuth / Tilt

1.Heat Shrink Tube length 150 mm, diameter 41mm,

2.Heating should shrink the tube properly w ith no air gap at

both ends of tube

1. AISG cable connector should be tighten to RET male port.

2. RET daisy chain port should be tighten w ith w eather

proof cap not to be seepage.

4) Cable Routing Condition

(Jumper & RET)

5) Cable Labeling

2) Antenna Position

3) RRH isolation test

6) Feeder w eather proofing

7) AISG(RET) cable connection &

Daisy chain port

1) RRH Bracket Fixing

2) Bolt,Nut,Washer,Bushing,

Bakelite status

Item


1

2.5

7.5

2

___V 1

25

2

2

2

5

1

2

1

1

5

GPS antenna should be w ithin 45°angle of lightning

protection umbrella.

1.Install the GPS arrestor on the frame of 19" rack

2.Grounding should be done using F-GV 6.0 x 1C cable

1.CNT-400,RG- 316 D,Ground cable should be terminated

on desired port

2.Check all cable for any damage and sharp bend.As per Guideline

1.Check both connector should be made as guideline

2.Crimp ring should crimp w ith hexagonal crimping tool tw o

time

1. Check w hether the caps are f ixed on the pow er tapping

after pow er connection done inside RRH.

2. Check w hether pow er cable lugs are covered w ith the

Blue(-) & Red(+)heat shrink tube.

Check all the labeling done as per installation guideline

1.CPRI cable w ith insulation cover inside the RRH Box

should be equal to 60 mm

2.CPRI termination polarity w ill be Blue(Tx) & Red(Rx)

1. Check w hether the Glands of pow er cable, CPRI cable

are tightened using standard torque value 30.0kgf.

5) GPS Connectorization

*Bakelite and insulation bushing should be in place

1.CPRI,Pow er,RET cable should be terminated on desired

port w ith correct polarity

2.Check all cable for any damage and sharp bend.

3. GPS Part

11) Cable Labeling(CPRI,Pow er,

Grounding ,RET Cable & Jumper

Cable) 12) CPRI Cable termination inside

the RRH

1.Grounding should be done using F-GV 6.0 x 1C cable,

2Hole Terminal,

2.Check cable for any damage and sharp bend.

3.Check the routing of the cable is done properly.

4.Check w hether grounding cable lugs are covered w ith

the green heat shrink tube.

1. Check DC Voltage, mention the pow er.

5) RRH Feeder w eather proofing

6) AISG(RET) cable connection

7) RRH Grounding

9) RRH Window tightening Status

1.Heat Shrink Tube length 150 mm,diameter 31mm,

2.Heating should shrink the tube properly w ith no air gap at

both ends of tube

1. AISG cable connector should be tighten to RRH RET

female port.

1. All the RRH w indow screw should be tightened w ith

torque driver T20 w ith 12.0kgf.cm force, in the pattern

mentioned in Installation guideline.

4) GPS Labeling(CNT-400,RG- 316

D,Ground cable)

4) Cable Status

10) Pow er cap , Heat Shrink Tube

13) Cable Gland tightening Status

1) GPS Pole Fixing

2) GPS Arrester

3) Cable status

8) RRH input Pow er Check

ATP 11 A is the acceptance test Procedure for the verification of

the Hardware Installation and includes the sections as per the

ATP Document.

ATP 11B is the acceptance test for the verification of Backhaul

Integration

Acceptance Test Procedure


Integration

Microsoft Office Word 97 - 2003 Document

Commissioning of eNodeB

(Including ATP11_B)

Manual Commissioning

Solpar needs to commission the equipment at site.

This is for first 6,216 eNodeBs to be deployed at different locations

Plug and Play Commissioning

This option is available after deployment of first lot of 6,216 eNodeBs’. No Need

Mode of Commissioning- eNodeB


This option is available after deployment of first lot of 6,216 eNodeBs’. No Need

to commission the CDU at site. Solpar needs to power on the equipment & site

will automatically get integrated through LSM-R. Solpar team should standby at

the site till the integration activity is done from LSM-R.

RS232 C Cable or Ethernet Cable (Debug Cable)

Laptop with serial or Ethernet Port

CLI Login details

TeraTerm Application/other Telnet application software installed

on Laptop

Pre-requisites of Commissioning


on Laptop

Site Parameter details like IP of LSM-R, IP of eNodeB, IP of

CSS- Gateway etc.

4G Dongle for data call test (In case of Backhaul availability)

1. Serial Port(RS232) interface

2. Ethernet(RJ45) Interface (Recommended)

Login Options


Connecting Laptop with the DBG port on UAMA board through

Serial Cable (Requires RS232 on Laptop)

Login Option - Using Serial Port


If serial port is not available on the laptop, use the USB to serial

converter as below

Login Option-USB to Serial Convertor


Access the UAMA board using TeraTerm or any other telnet

program on Laptop through the serial cable.

Steps of Login

Set the Baud Rate to 115200 bps.

Set the Serial Port Settings to COM1

Login- Serial Cable


Login ID: *******

Password: *******

Access the UAMA board using TeraTerm or any other telnet program

on Laptop through the serial cable.

Steps of Login

Step 1. TeraTerm Settings

Open TeraTerm Application Software, and do the following setting in it as shown in

Login Option 1- Serial Cable


figure

Set the Serial Port Settings to COM1

Set the Baud Rate to 115200 bps.

Login ID: *******

Password: *******

Step 1-TeraTerm Settings


Connecting Laptop with the EDBG port on UAMA board through

Ethernet Cable

Login Option 2-Ethernet


Steps of Login

Step 1. IP LAN Settings

IP Address: 192.168.32.28

Subnet Mask: 255.255.255.0

Default Gateway: 192.168.32.27



Steps of Login

Step 2. Access UAMA board by TeraTerm or any other Telnet program

Step 3. Connection IP is 192.168.32.27



Step 4. Click Ok, following window get appears

Steps of Login



Step 5. Enter User name & Password

(Contact the person incharge for Username and password)

Steps:

1) Login to UAMA board

2)Setting eNB environment parameters

a) Login as Super User mode

b) Check the original eNB environment parameters

Steps of Commissioning


b) Check the original eNB environment parameters

c) Delete/Add eNB environment parameters

d) Confirm parameter settings

3) Initiate memory & eNB reboot

4) Verify network connectivity

5) Check System Status ( Hardware Alarms)

Steps:

1) Login to UAMA board

If the connection to the UAMA board is successful, following window appears:

Steps of Commissioning- Login to UAMA board


Steps:

2) Setting eNB environment parameters

a) Login as Super User mode

Command Used: su –

Password: ********

Steps of Commissioning- Setting eNB environment parameters


Password: ********

(Contact the person incharge for password)

Steps:2) Setting eNB environment parameters

b)Check the original eNB environment parameters

Command Used: getenv –a

Following window gets appear


__BOOTUP_FLAG__=000000020e

LEIP2_IP=10.5.46.14

LEIP2_NM=16

LEIP2_GW=10.5.0.1

bootcmd=bootoctbflag

AUTH=yes

BOOTMODE=static

RS_LOGIN=sysuser


LEIP2_GW=10.5.0.1

PORT_0_0_2_IPV4_IP=10.5.46.14

PORT_0_0_2_IPV4_GW=10.5.0.1

PORT_0_0_2_IPV4_NM=16

bootdelay=1

baudrate=115200

pci_console_active=yes

pci_console_count=1

pci_console_size=2097152

stdin=pci

stdout=pci

stderr=pci

ethact=octeth0

RS_LOGIN=sysuser

RS_PASSWD=syslte123

SECU_CONN=yes

SECU_PASSWD=yes

adminstate=0

RS_IP=100.127.129.84

BOOTPORT=PORT_0_0_0

PORT_0_0_0_IPVER=4


PORT_0_0_0_IPV4_IP=100.127.132.1

PORT_0_0_0_IPV4_GW=100.127.132.2

NE_ID=16

IPV6_ENABLE=1

PORT_0_0_0_VLANID=103



Command Used: delenv -p [Parameter Name]

Ex) root@UAMA:/root> delenv -p NE_ID

Ex) root@UAMA:/root> setenv -p NE_ID XX



Ex) root@UAMA:/root> setenv -p NE_ID XX

As shown in next figure



Command Used: delenv -p [Parameter Name]


root@UAMA:/root>

root@UAMA:/root> delenv -p NE_ID

Name = NE_ID

Value =

root@UAMA:/root> getenv -a



[Env Information]

bootdelay=1

baudrate=115200


pci_console_count=1


~~

RS_IP=2405:201:fffb:0:1::52

BOOTPORT=PORT_0_0_2

PORT_0_0_2_IPVER=6


PORT_0_0_2_IPV6_GW= 4fa1:f00d:1234:5678:9abc:def1:aaaa:3

PORT_0_0_2_IPV6_IP= 4fa1:f00d:1234:5678:9abc:def1:aaaa:25

IPV6_ENABLE=1




Command Used: setenv -p [Parameter Name]


root@UAMA:/root> setenv -p NE_ID 26405

Name = NE_ID

Value = 26405


[Env Information]


[Env Information]

bootdelay=1

baudrate=115200


pci_console_count=1


~~

RS_IP=2405:201:fffb:0:1::52

BOOTPORT=PORT_0_0_2

PORT_0_0_2_IPVER=6


PORT_0_0_2_IPV6_GW= 4fa1:f00d:1234:5678:9abc:def1:aaaa:3

PORT_0_0_2_IPV6_IP=4fa1:f00d:1234:5678:9abc:def1:aaaa:25

IPV6_ENABLE=1


NE_ID=26405

Script:


setenv -p bootdelay 1

setenv -p baudrate 115200

setenv -p pci_console_active yes

setenv -p pci_console_count 1

setenv -p pci_console_size 2097152

setenv -p stdin pci

setenv -p stdout pci

setenv -p stderr pci

setenv -p ethact octeth0

setenv -p bootcmd bootoctbflag

setenv -p AUTH yes

setenv -p BOOTMODE static

setenv -p RS_LOGIN sysuser


setenv -p RS_LOGIN sysuser

setenv -p RS_PASSWD syslte123

setenv -p SECU_CONN yes

setenv -p SECU_PASSWD yes

setenv -p adminstate 0

setenv –p RS_IP 2405:201:fffb:0:1::52

setenv –p BOOTPORT PORT_0_0_2

setenv –p PORT_0_0_2_IPVER 6

setenv –p PORT_0_0_2_IPV6_NM 112

setenv –p PORT_0_0_2_IPV6_GW 4fa1:f00d:1234:5678:9abc:def1:aaaa:3

setenv –p PORT_0_0_2_IPV6_IP 4fa1:f00d:1234:5678:9abc:def1:aaaa:25

setenv –p NE_ID 26405

setenv –p IPV6_ENABLE 1

setenv –p PORT_0_0_2_VLANID 103

Press enter after this

Result:


root@UAMA:/root>

root@UAMA:/root> setenv -p bootdelay 1

Name = bootdelay

Value = 1

root@UAMA:/root> setenv -p baudrate 115200

Name = baudrate

Value = 115200

root@UAMA:/root> setenv -p pci_console_active yes

Name = pci_console_active

Value = yes

root@UAMA:/root> setenv -p pci_console_count 1

Name = pci_console_count

Value = 1


Value = 1

root@UAMA:/root> setenv -p pci_console_size 2097152

Name = pci_console_size

Value = 2097152

root@UAMA:/root> setenv -p stdin pci

Name = stdin

Value = pci

root@UAMA:/root> setenv -p stdout pci

Name = stdout

Value = pci

root@UAMA:/root> setenv -p stderr pci

Name = stderr

Value = pci

root@UAMA:/root> setenv -p ethact octeth0

Name = ethact

Value = octeth0

Result:


root@UAMA:/root> setenv -p bootcmd bootoctbflag

Name = bootcmd

Value = bootoctbflag

root@UAMA:/root> setenv -p AUTH yes

Name = AUTH

Value = yes

root@UAMA:/root> setenv -p BOOTMODE static

Name = BOOTMODE

Value = static

root@UAMA:/root> setenv -p RS_LOGIN sysuser

Name = RS_LOGIN

Value = sysuser

root@UAMA:/root> setenv -p RS_PASSWD syslte123


root@UAMA:/root> setenv -p RS_PASSWD syslte123

Name = RS_PASSWD

Value = syslte123

root@UAMA:/root> setenv -p SECU_CONN yes

Name = SECU_CONN

Value = yes

root@UAMA:/root> setenv -p SECU_PASSWD yes

Name = SECU_PASSWD

Value = yes

root@UAMA:/root> setenv -p adminstate 0

Name = adminstate

Value = 0

root@UAMA:/root> setenv -p RS_IP 2405:201:fffb:0:1::52 Name = RS_IP

Value = 2405:201:fffb:0:1::52

Result:


root@UAMA:/root> setenv -p BOOTPORT PORT_0_0_2

Name = BOOTPORT

Value = PORT_0_0_2

root@UAMA:/root> setenv -p PORT_0_0_2_IPVER 6

Name = PORT_0_0_2_IPVER

Value = 6

root@UAMA:/root> setenv -p PORT_0_0_2_IPV6_NM 30

Name = PORT_0_0_2_IPV6_NM

Value = 112

root@UAMA:/root> setenv -p PORT_0_0_2_IPV6_IP 4fa1:f00d:1234:5678:9abc:def1:aaaa:25Name = PORT_0_0_2_IPV6_IP

Value = 4fa1:f00d:1234:5678:9abc:def1:aaaa:25

D:\Samsung\SolPar Training_4G RFE-I&C\So


Value = 4fa1:f00d:1234:5678:9abc:def1:aaaa:25 root@UAMA:/root> setenv -p PORT_0_0_2_IPV6_GW 4fa1:f00d:1234:5678:9abc:def1:aaaa:3Name = PORT_0_0_2_IPV6_GW

Value = 4fa1:f00d:1234:5678:9abc:def1:aaaa:3root@UAMA:/root> setenv -p NE_ID 26405 Name = NE_ID

Value = 26405 root@UAMA:/root> setenv -p IPV6_ENABLE 1

Name = IPV6_ENABLE

Value = 1

root@UAMA:/root> setenv -p PORT_0_0_2_VLANID 103

Name = PORT_0_0_2_VLANID

Value = 103



Command Used: setenv -p [Parameter Name]


setenv –p RS_IP 2405:201:fffb:0:1::52 LSM server IP

For ready reference following parameter can be use


setenv –p RS_IP 2405:201:fffb:0:1::52 setenv –p BOOTPORT PORT_0_0_2 setenv –p PORT_0_0_2_IPVER 6 setenv –p PORT_0_0_2_IPV6_NM 112 setenv –p PORT_0_0_2_IPV6_GW 4fa1:f00d:1234:5678:9abc:def1:aaaa:3 setenv –p PORT_0_0_2_IPV6_IP 4fa1:f00d:1234:5678:9abc:def1:aaaa:25 setenv –p NE_ID 26405 setenv –p IPV6_ENABLE 1 setenv –p PORT_0_0_2_VLANID 103

LSM server IP Booting port Using IP Version OAM IP Net-mask OAM Gateway IP eNB OAM IP eNB ID IPV6 Enable=1, Disable=0 OAM VLAN ID


[Env Information]

bootdelay=1

baudrate=115200


pci_console_count=1


stdin=pci

stdout=pci

stderr=pci

ethact=octeth0

bootcmd=bootoctbflag

AUTH=yes

BOOTMODE=static


Steps:

2) Setting eNB environment parameters

d) Confirm parameter settings

Command Used: getenv –a


BOOTMODE=static

RS_LOGIN=sysuser

RS_PASSWD=syslte123

SECU_CONN=yes

SECU_PASSWD=yes

adminstate=0

RS_IP=2405:201:fffb:0:1::52

BOOTPORT=PORT_0_0_2

PORT_0_0_2_IPVER=6


PORT_0_0_2_IPV6_GW=4fa1:f00d:1234:5678:9abc:def1:aaaa:3

PORT_0_0_2_IPV6_IP=4fa1:f00d:1234:5678:9abc:def1:aaaa:25

NE_ID=26405

IPV6_ENABLE=1

PORT_0_0_2_VLANID=103


After set the environment parameter

according to the information of eNB, finally

check the whole environment parameter

especially confirm the orange line.

Steps:3) Initiate memory & eNB reboot

Commands Used: cd /mnt & rm –rf*

Steps of Commissioning- Initiate memory & eNB reboot

lteuser@UAMA:~$ su -

Password:

root@UAMA:/root> cd /mnt

root@UAMA:/mnt> rm -rf *

rm: cannot remove directory `CPSW': Device or resource busy


rm: cannot remove directory `CPSW': Device or resource busy

rm: cannot remove directory `ram': Device or resource busy

rm: cannot remove directory `storage': Device or resource busy

rm: cannot remove directory `storage_bk': Device or resource busy

root@UAMA:/mnt> sync

There are lots of memories in UAMA unit in the progress of factory test; it can be affected for

software loading. Therefore, it is recommended to remove all shred memory under “/mnt”

directory in UAMA unit.

Steps:3) Initiate memory & eNB reboot

Commands Used: reboot

Steps of Commissioning- Initiate memory & eNB reboot


Steps:4) Verify network connectivity

Commands Used: ping6 [IPv6 IP Address]

Steps of Commissioning- Verify network connectivity

root@UAMA:/root> ping6 2405:201:fffb:0:1::223

PING 2405:201:fffb:0:1::223(2405:201:fffb:0:1::223) 56 data bytes

64 bytes from 2405:201:fffb:0:1::223: icmp_seq=1 ttl=63 time=0.289 ms

--- 2405:201:fffb:0:1::223 ping statistics ---


--- 2405:201:fffb:0:1::223 ping statistics ---

1 packets transmitted, 1 received, 0% packet loss, time 996ms

rtt min/avg/max/mdev = 0.289/0.289/0.289/0.000 ms

After eNB restart, check the connectivity between eNB and LSM by ping command.

If there is issue with connectivity, check whether the eNB IP and route, VLAN configuration is

correct, else coordinate with LSM-R Engineer.

Steps:5) Check System Status ( Hardware Alarms)-In normal condition

Steps of Commissioning- Check System Status ( Hardware Alarms)


ACT and GPS LEDs must blinking TX LED of SFP port should be green

In normal condition

Steps:5) Check System Status ( Hardware Alarms)-In abnormal condition

Steps of Commissioning- Check System Status ( Hardware Alarms)


ACT and GPS LEDs starts glowing RED No glow of LED at SFP Port

Action to be taken:

•Report the current situation to LSM-R team

•Troubleshoot the problem, coordinate with LSM-R Team

•Don’t leave the site till alarm clear

ATP11B

ATP11_B is conducted after site Integration

Test Tools & Method of procedure will be provided by

RJIL.

Tools needed:

Introduction


Laptop

UE (User Equipment)

Application to perform test (test tool)

ATP11_B- Items


Microsoft Office Word Document

GamsahapnidaGamsahapnida

Copyright and Confidentiality

Copyright © 2013, SAMSUNG Electronics Co., Ltd. SAMSUNG Electronics reserves the right to make changes to the specifications of

the products detailed in this document at any time without notice and obligation to notify any person of such changes. Information

in this document is proprietary to SAMSUNG Electronics Co., Ltd. No information contained here may be copied, translated,

transcribed or duplicated by any form without the prior written consent of SAMSUNG Electronics.

Thank You

Module 4_Qualitly & Commissioning

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Transcript of Module 4_Qualitly & Commissioning