Module 4_Qualitly & Commissioning
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Transcript of 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
2013 © Samsung Electronics 3
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
2013 © Samsung Electronics 4
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 ]
2013 © Samsung Electronics 5
.
RF AntennaRRUGPS Antenna
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)
2013 © Samsung Electronics 6
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
aigh
t cab
le s
ectio
nS
trai
ght c
able
sec
tion
RF Antenna
RET Cable AssemblyRET Connector
2013 © Samsung Electronics 7
Str
aigh
t cab
le s
ectio
nS
trai
ght c
able
sec
tion
Min
. rad
ius
of c
urva
ture
Min
. rad
ius
of c
urva
ture
R’R’
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
2013 © Samsung Electronics 8
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
2013 © Samsung Electronics 9
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
2013 © Samsung Electronics 10
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
2013 © Samsung Electronics 11
RRH sideRRH sideRRH sideRRH side
7) AISG(RET) Cable Connection & Daisy Chain port (2/2)
2013 © Samsung Electronics 12
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)
2013 © Samsung Electronics 14
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)
2013 © Samsung Electronics 15
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)
2013 © Samsung Electronics 16
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]
2013 © Samsung Electronics 17
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
2013 © Samsung Electronics 18
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
2013 © Samsung Electronics 19
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
2013 © Samsung Electronics 20
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
2013 © Samsung Electronics 21
Check all the labeling done as per installation guideline
9) Cable Labeling(CPRI,Power, Grounding ,RET Cable & Jumper Cable)
TMC
25
25
2013 © Samsung Electronics 22
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)
2013 © Samsung Electronics 23
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)
2013 © Samsung Electronics 24
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 ]
2013 © Samsung Electronics 26
RF AntennaRRUGPS Antenna
RF AntennaRRUGPS Antenna
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]
2013 © Samsung Electronics 27
[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
2013 © Samsung Electronics 28
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)
2013 © Samsung Electronics 30
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)
2013 © Samsung Electronics 31
CHECK POINT:
#1.Check unused port covered with cap
#2.Check unused slots covered with dummy panel
2) CDU (Dummy Panel & Unused Port) Condition
2013 © Samsung Electronics 32
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
2013 © Samsung Electronics 33
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
2013 © Samsung Electronics 34
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
2013 © Samsung Electronics 35
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
2013 © Samsung Electronics 37
All cable should be properly laced
Ensure the cleanliness inside the ODC
2) ODC Rack internal state
2013 © Samsung Electronics 38
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
2013 © Samsung Electronics 39
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
2013 © Samsung Electronics 40
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
2013 © Samsung Electronics 41
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
2013 © Samsung Electronics 43
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
2013 © Samsung Electronics 45
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
2013 © Samsung Electronics 46
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
2013 © Samsung Electronics 47
Connecting Laptop with the DBG port on UAMA board through
Serial Cable (Requires RS232 on Laptop)
Login Option - Using Serial Port
2013 © Samsung Electronics 48
If serial port is not available on the laptop, use the USB to serial
converter as below
Login Option-USB to Serial Convertor
2013 © Samsung Electronics 49
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
2013 © Samsung Electronics 50
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
2013 © Samsung Electronics 51
figure
Set the Serial Port Settings to COM1
Set the Baud Rate to 115200 bps.
Login ID: *******
Password: *******
Step 1-TeraTerm Settings
2013 © Samsung Electronics 52
Connecting Laptop with the EDBG port on UAMA board through
Ethernet Cable
Login Option 2-Ethernet
2013 © Samsung Electronics 53
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
Login Option 2-Ethernet
2013 © Samsung Electronics 54
Steps of Login
Step 2. Access UAMA board by TeraTerm or any other Telnet program
Step 3. Connection IP is 192.168.32.27
Login Option 2-Ethernet
2013 © Samsung Electronics 55
Step 4. Click Ok, following window get appears
Steps of Login
Login Option 2-Ethernet
2013 © Samsung Electronics 56
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
2013 © Samsung Electronics 57
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
2013 © Samsung Electronics 58
Steps:
2) Setting eNB environment parameters
a) Login as Super User mode
Command Used: su –
Password: ********
Steps of Commissioning- Setting eNB environment parameters
2013 © Samsung Electronics 59
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
Steps of Commissioning- Setting eNB environment parameters
__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
2013 © Samsung Electronics 60
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_NM=30
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
Steps:2) Setting eNB environment parameters
c) Delete/Add eNB environment parameters
Command Used: delenv -p [Parameter Name]
Ex) root@UAMA:/root> delenv -p NE_ID
Ex) root@UAMA:/root> setenv -p NE_ID XX
Steps of Commissioning- Setting eNB environment parameters
2013 © Samsung Electronics 61
Ex) root@UAMA:/root> setenv -p NE_ID XX
As shown in next figure
Steps:2) Setting eNB environment parameters
c) Delete/Add eNB environment parameters
Command Used: delenv -p [Parameter Name]
Steps of Commissioning- Setting eNB environment parameters
root@UAMA:/root>
root@UAMA:/root> delenv -p NE_ID
Name = NE_ID
Value =
root@UAMA:/root> getenv -a
2013 © Samsung Electronics 62
root@UAMA:/root> getenv -a
[Env Information]
bootdelay=1
baudrate=115200
pci_console_active=yes
pci_console_count=1
pci_console_size=2097152
~~
RS_IP=2405:201:fffb:0:1::52
BOOTPORT=PORT_0_0_2
PORT_0_0_2_IPVER=6
PORT_0_0_2_IPV6_NM=112
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
__BOOTUP_FLAG__=000000020e
Steps:2) Setting eNB environment parameters
c) Delete/Add eNB environment parameters
Command Used: setenv -p [Parameter Name]
Steps of Commissioning- Setting eNB environment parameters
root@UAMA:/root> setenv -p NE_ID 26405
Name = NE_ID
Value = 26405
root@UAMA:/root> getenv -a
[Env Information]
2013 © Samsung Electronics 63
[Env Information]
bootdelay=1
baudrate=115200
pci_console_active=yes
pci_console_count=1
pci_console_size=2097152
~~
RS_IP=2405:201:fffb:0:1::52
BOOTPORT=PORT_0_0_2
PORT_0_0_2_IPVER=6
PORT_0_0_2_IPV6_NM=112
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
__BOOTUP_FLAG__=000000020e
NE_ID=26405
Script:
Steps of Commissioning- Setting eNB environment parameters
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
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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:
Steps of Commissioning- Setting eNB environment parameters
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
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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:
Steps of Commissioning- Setting eNB environment parameters
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
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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:
Steps of Commissioning- Setting eNB environment parameters
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
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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
Steps:2) Setting eNB environment parameters
c) Delete/Add eNB environment parameters
Command Used: setenv -p [Parameter Name]
Steps of Commissioning- Setting eNB environment parameters
setenv –p RS_IP 2405:201:fffb:0:1::52 LSM server IP
For ready reference following parameter can be use
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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
root@UAMA:/root> getenv -a
[Env Information]
bootdelay=1
baudrate=115200
pci_console_active=yes
pci_console_count=1
pci_console_size=2097152
stdin=pci
stdout=pci
stderr=pci
ethact=octeth0
bootcmd=bootoctbflag
AUTH=yes
BOOTMODE=static
Steps of Commissioning- Setting eNB environment parameters
Steps:
2) Setting eNB environment parameters
d) Confirm parameter settings
Command Used: getenv –a
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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_NM=112
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
__BOOTUP_FLAG__=000000020e
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
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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
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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 ---
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--- 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)
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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)
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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
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Laptop
UE (User Equipment)
Application to perform test (test tool)
ATP11_B- Items
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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