SCFT Procedure V1h

SCFT Procedure

Prepared by: Samsung

Course Name: SCFT Procedure

Course Objective

This module will enable participants to understand how to conduct SCFT

Who should attend

RF / DT engineers, Riggers

Morning Session ((.30am to 1:30pm)

Lun

ch b

reak

Afternoon Session (2:30pm to 6pm)

Day 1

Health &Safety

Introduction to SCFT

SCFT Requirements

Preparations for SCFT

Physical Site Check

Drive Test

XCAL Demonstration

Hands on exercises

Good to know

Keep your mobile phone in the silent mode during the session

Need to sign attendance sheet at the start and end of each day

At the end of each training post test will be conducted

Stick to break timings

Your valuable feedback will be taken at the end to enhance training experience

For logistics support contact the co-ordinator

Schedule

Day Time Session Topic

Day 1 10.00am to 1.00pm 1st Introduction to SCFT

1.30pm to 6.00pm 2nd Introduction to Smart DM tool

Day 2 10.00am to 1.00pm 1st Introduction to EMF measurement

1.30pm to 6.00pm 2nd EMF measurement in Field

Day 3 10.00am to 1.00pm 1st

Introduction to Cluster Optimization 1.30pm to 6.00pm 2nd

Day 4

10.30am to 1.00pm 1st Field test Practice

1.30pm to 6.00pm 2nd Q&A and Exam

Agenda Health & Safety Requirements

Introduction to SCFT What is SCFT

Overview of SCFT Process

SCFT Workflow

Roles & Responsibilities

SCFT Requirements Lead time

Tools

Preparations for SCFT TSSR Review

eNB Parameter Review

Drive Route

Checklists

Agenda (2)

Physical Site Check

Measurements of height, azimuth, tilt

Drive Test

Types of tests

Tools required

Measurements & parameters

Health & Safety Requirements

Safety Equipment

Sr. No. Required Tools Photo Use of tools

1 Safety Belts

It is designed to distribute any force applied during a fall throughout the pelvis, thighs, waist, chest and shoulders. It is also used as attachment points for other climbing equipment components.

2 Safety Shoes

Safety Shoe is essential to ensure safe and healthy feet. Steel toe boots and shoes protect your feet, help prevent injuries to them, and reduce the severity of injuries that may occur in the workplace.

3 Hand Gloves Its keeping your hands safe, And its used for grip and dexterity.

4 Helmets Climbing helmets save lives. They are designed to protect your head from falling overhead debris, And they offer protection in the event of a fall.

Introduction to SCFT

Single Cell Functional Test (SCFT)

Verification of

Availability and performance of desired services

Physical configuration of the eNodeB for each sector

Correct installation and configuration of the eNodeB

Testing specific services at the site and while driving around the site

((( (((

SCFT High-level Process SCFT

Preparation for SCFT

Physical checks of eNB site (with EMF survey)

Pass

Drive Test

Pass

Analysis

Pass

EMF Survey

Adjust Antenna Parameter

Yes

No

Submit SCFT report to RJIL

Change system or physical parameter

No

Yes

Yes

Check for HO Fail, Sector Swap,

Coverage issues

No

SOLPAR Scope

SCFT Workflow

SCFT Team Composition

Roles & Responsibilities SOLPAR RF Manager

Daily tracking of progress status

Extend support to circle SCFT Team for their minor & critical issues.

Interact with Samsung on Progress Management: Daily, Weekly, Monthly basis.

SCFT Team Management and site allocation to RF Engineers, Technicians, Riggers & Car drivers.

Validation of drive routes, discussion of issues, site performance analysis

Support field team for troubleshooting and any other support during SCFT activity

Prepare the RF Database and data backup of all drive related tests and provide to Samsung

Roles & Responsibilities SOLPAR RF Engineer

Fill the checklist as per TSSR data

Extend support to field team for their minor & critical issues

Create the drive routes

Arrange the drive

Track the SCFT of sites allocated

Interact with Samsung on progress management: daily, weekly, monthly basis.

Prepare the checklist

Roles & Responsibilities SOLPAR DT & Field Engineers

Perform Field Test: DT testing and data collection during - SCFT/Cluster Optimization

Check site information & change Ant. Parameters

Carry all the necessary tools in field

Rigger will check site as per the checklist

Rigger will make corrections on site and inform Drive Test Engineer

Drive Test Engineer will configure the Smart S4 mini as per defined test scenarios

Drive Test Engineer will save the log file. In case of handoff fail, bad RSRP, call drop etc., inform respective teams immediately

Summary

Strictly follow all the health & safety guidelines

SCFT verifies the availability and desired performance of a site

SCFT involves physical & parameter check of eNodeB, corrections if needed, followed by a drive test around the site

SCFT team consists of an RF engineer, DT engineer, Rigger and Car driver with well-defined roles and responsibilities for all

Quiz

You find that the antenna azimuth is incorrect. You will _________

Correct it, log and report the error and then proceed with drive test

Proceed with the drive test and report it later

Cancel the drive test

During the drive test, handover fails. You will _______

Continue with the drive test as it is

Report it to the respective team before continuing

Cancel the drive test

EMF survey is conducted by rigger _______

Before the SCFT drive

After completion of the SCFT drive

In parallel with the SCFT drive

SCFT Requirements

Tools Required

Sr.No Tool Name Description Specification

1 Vehicle with AC Driving test & power supply Must have cigarette lighter point for

connecting the power inverter

2 Power inverter DC to AC Over 500W

3 Smart phone (with D

M application) Samsung Galaxy Mini S4

Need 2 test mobile phones

- DL, UL and VoLTE test

- SIM card to support from RJIL

- 2 EA Charger

- 2 EA Extra battery (Optional)

- 2 EA Smart phone holder

4 Compass Measurement of antenna azimuth

5 Tilt Measure Measure the antenna tilt

6 Camera Require to capture for antenna pics in

case of any obstruction Over 10.1 Mega Pixel (Over 8GB)

7 Laser meter or measu

ring tape Require to check the antenna height

If using measuring tape, above 50 m

eters

8 Multi tab

(Power extension)

Extension cable for connections of lap

top etc. Over 5 Ports

9 Spanner Adjustable spanner 1 set

10 Tool kit Rigger tool kit, for physical changes 1 set

UE (Smart phone & Dongle) Testing

Check performance of the smart tool DM at least twice a month, e.g. in the 2nd and 4th week of the month

Check at a location where following coverage criteria are met

RSRP : better than -70dBm

SINR : better than 23 dB

Check based on RF parameters RSRP, SINR, Throughput, MCS, CQI etc

Maintain a detailed sheet to identify the best performing Smart DM tools

Maintain performance check records with history as per the attached sheet

Appendex-Smart DM performance management.xls


TSSR Review eNB Parameter

Verification from LSM-R

Drive Route Checklist

Technical Site Survey Report (TSSR)

Site information

Site Name, and Site Address

Site location in terms of LAT/LON

Obstruction detail if any

Antenna parameters

Antenna Type, beam width pattern & gain

Antenna Azimuth, Antenna Height, Tilt

Simulation (Coverage Statistics

RSRP)

Outdoor Analysis of signal strength for outdoor coverage

Indoor Analysis of signal strength for indoor including penetration loss

Worst Area Analysis by Simulation Plot

TSSR (Continued)

Satellite & Vector maps

Satellite map: Pre analysis for service area. Google earth snapshots of actual locations and populated areas

Vector Map: Refer during drive test.

Site drawing map

eNB installation information such as Antenna Pole Location

Antenna direction in terms of Azimuth

Location of ODU (outdoor unit) or shelter room of eNB

Location of other operator Antenna Pole & Shelter room

Panoramic pictures

DT Engineer will take clutter pictures starting from North- Zero Degree at every 30 Degrees

Helps understand the clutter with respect to antenna azimuth

TSSR (Continued)

Antenna mounting obstruction & photographs

For each sector, take pictures of the antenna mounting

Check the antenna & pole-mount for free range movement of the antenna, for azimuth adjustment. Show pictures with obstructions if any. Note obstructions in the checklist.

Include pictures of any existing antenna system within 6 m of a proposed antenna mounting location

Take pictures of any major distant blocking structure such as a neighboring building or tower from the antenna point of view (if blockage from sectors point of view is not captured in panoramic photographs)

Process to Check eNB Parameters

SOLPAR RF manger instructs engineer to collect eNB parameters from LSM-R engineer

SOLPAR RF engineer will act accordingly and request eNB parameters from LSM-R engineer

LSM-R engineer has to prepare eNB parameter data for the site and provide it to SOLPAR RF engineer with SOLPAR RF Manager and Samsung RF circle lead in the loop

SOLPAR RF manager has to keep Samsung circle RF lead in loop for all communication

eNB Parameters to Check from LSM-R

Service Affecting Alarms

Site down

High drop Rate

Low Tx Power

GPS Alarm

VSWR values

VSWR should be

eNB Parameters to Check (Contd)

RF Parameters

Handoff Parameters, PCI Parameters, ANR List - Neighbor List.

eNB Installation Information

eNB installation ATP completed

Back Haul

Connectivity

Type of backhaul connectivity like fiber or microwave

Backhaul ATP completed

eNB Parameter Checklist

ATP1A Data Check List

Site ID Site Name

Address

GPS Lat Lon

Sr.No. eNB Parameter Name Alpha Beta Gamma

1 NEID 2 2 2

2 PCID 1 2 3

3 Cell ID 10001 10002 10003

4 eNB CGI 768 769 770

5 TAC H0002 H0002 H0002

6 EARFCN 38800 38800 38800

7 Antenna Tilt: Electrical from LSM-

R 2 4 2

8 VSWR 0.5 0.5 0.5

9 eNB Tx Power from LSM-R (in dBm

) 37 37 37

10 MIMO Mode (TM3/TM4) from LS

M-R TM3 TM3 TM3

11 MIMO Type (2x2, 4x2) from LSM-R 4x4 4x4 4x4

Drive Route Basics

All sectors to be covered during the test

Try to cover as large an area as possible around the sites

Carry a hardcopy of the drive route direction

Based on GPS, DT engineer will automatically receive drive route on his drive test tool

Instruct the driver to follow the drive route

Drive Route Example

Major Road

More than one lane

Important road that leads from one town or city

to another

Minor Road

One lane

A side road may be a narrow street off a

major street

TSSR Review Checklist

TSSR Review Check List

Site ID

Site

Nam

e

Address

GPS Lat Lon

Sr.No. List Alph

a Beta Gamma

1 Antenna Azimuth 0 120 240

2 Antenna M-Tilt

(Physical measurement) 1 2 3

3 Antenna E-Tilt

(Electrical from LSM-R) 2 2 2

4 Antenna Height 35 35 35

5 Building Height 30 30 30

6 Antenna Make &Model no Verification

ACE

ANT

XXD

W-17-

65i-V

T

ACE

ANT

XXD

W-17-

65i-V

T

ACE ANT

XXDW-17-65i-VT

7 RF layout verification Yes/N

o

Yes/N

o Yes/No

8 Antenna location checkAntenna obstruc

tion check on azimuth & Tilt

Yes/N

o

Yes/N

o Yes/No

9 Panoramic pictures verification Yes/N

o

Yes/N

o Yes/No

10 Obstruction

(if yes, picture require)

Yes/N

o

Yes/N

o Yes/No

eNB LSM-R Parameter Checklist

eNB Initial Parameter Check List

Site ID Site Name

Address

GPS Lat Lon

Sr.No. eNB Parameter Name Alpha Beta Gamma

1 NEID 2 2 2

2 PCID 1 2 3

3 Cell ID 10001 10002 10003

4 eNB CGI 768 769 770

5 TAC H0002 H000

2 H0002

6 EARFCN 38800 38800 38800

7 Antenna Tilt: Electrical from LSM-R 2 4 2

8 VSWR 0.5 0.5 0.5

9 eNB Tx Power from LSM-R (in dBm) 37 37 37

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

11 MIMO Type (2x2, 4x2) from LSM-R 4x4 4x4 4x4

eNB Physical Parameter Checklist

eNB Physical Parameter Check List

Site ID Site Name

Address

GPS Lat Lon

Sr.No. List Alpha Beta Gamma

1 Antenna Azimuth

2 Antenna Azimuth

(Free available range)

3 Tower Height

4 Building Height

5 Antenna M-Tilt

(Physical measurement)

6 Antenna M-Tilt

(Free available range)

7 Antenna E-Tilt

(Electrical from LSM-R)

8 Sector Swap Check

9 Antenna Make &Model no Verification

10 Antenna location checkAntenna obstructio

n check on azimuth & Tilt

11 Backhaul Connectivity

Check FTP Connectivity

FTP server Connectivity

Check FTP server connectivity before

leaving the site

OK

Proceed to the site

OK

Start testing

Resolved

Contact RJIL/RAN Core team for the resolution

Check FTP server connectivity on site

Yes

Yes No

No

Yes

Yes

SOLPAR RF engineer to has confirm FTP server connectivity before leaving to the site

SOLPAR RF engineer to has confirm FTP server connectivity upon reaching to the site

Backhaul Connectivity Check

Backhaul Connectivity

Confirm Backhaul stability with LSM-R

OK

Proceed to the site

OK

Start testing

Resolved

Contact concern RJIL for the resolution

Check for Backhaul stability with LSM-R After reaching site

Yes

Yes

No

No

Yes

Yes

SOLPAR RF engineer to has confirm the backhaul stability with LSM-R engineer before leaving to the site

SOLPAR RF engineer to has confirm the backhaul stability with LSM-R engineer upon reaching to the site

Summary

Perform regular testing of drive-test UEs

Preparations for SCFT consist of TSSR review, eNB parameter verification from LSM-R, availability of drive route and checklists. Before proceeding to the site make sure you have these

TSSR gives details about eNB physical parameters such as antenna height, azimuth, tilt, pictures of obstruction, site drawings and map views

LSM-R parameters include details such as VSWR, Tx power and PCI

Ensure FTP and backhaul connectivity before proceeding to site

Cover all sectors during the drive

Quiz

VSWR is obtained from the _________

TSSR

LSM-R

Either

The following must be checked before proceeding to site

FTP and Backhaul Connectivity

Availability of drive route

Both

SCFT for one site takes _______ hours

4

6

8

Physical Checks at Site

Measuring Site Co-ordinates Check the battery of GPS (72 channel GPS)

Point GPS towards clear, open skies for accuracy

GPS Setting time >5 min & GPS number of satellites > 4

Low Battery voltages and rare Geomagnetic storms may result in erroneous GPS readings

GPS should not be used for Ground Elevation readings as the inaccuracy can be well over 30m

Stand in the center of the site location (GBM, RTT,RTP)

Once the satellites are acquired, note co-ordinates for N & W in degree - decimal format.

Update this information into check list for pre-post comparison and for database tracking

Checking Antenna Azimuth

Stand in front of the Antenna

When taking compass readings, keep at least 8m distance from any magnetic, metal, or current carrying structures such as towers, vehicles, or cables for correct readings

Open compass and wait a moment till the compass needle is stationary

Check the antenna azimuth with reference to North & measure the value in degrees

Compare the observed value with the one in the TSSR

In case a mismatch is detected, make corrections on site

Mention the values in the check list for pre-post comparison and for database tracking

Check Azimuth marking on map

Check the service direction of the antenna

Mark the main serving direction of the antenna on the map

Tower Height Measurement Laser Meter

Stand on the edge of tower

Press start button and then press measure button

Wait for 2-3 minutes or check the ground or building from the built-in binoculars in the laser meter

Press the measure button again

Take pictures of the value in meters

Tower Height Measurement - Tape

Drop the measuring tape from the edge of the tower platform

Team member at the ground end will record the value

Antenna Height RTP / RTT

Antenna Height GBT / GBM

Compare the value on TSSR with actual result

Correct the Antenna Height if mismatch with TSSR Report

Antenna Mechanical Tilt Measurement

Bring tilt measure in contact with antenna on the back side & center()

Adjust the tilt measure () to level off ()

Check tilt of antenna (), as per the picture red line is on 3rd mark from zero, which means that the tilt is 6 degrees {one mark = 2 degree and consider the bottom scale}

Compare the value on TSSR with actual result

Correct the Mechanical Tilt in case of mismatch with the TSSR Report

Mention the values into check list for pre-post comparison and for database tracking

To change tilt, loosen all nuts, adjust tilt as desired and then tighten them

Drive Test

SCFT Drive: Stationary & Moving Tests

FTP Download

FTP Upload

Ping Test

VoLTE call

Stationary Test

(for each sector)

FTP Download (UE 1 long call)

FTP Upload (UE 2 long call)

Clockwise & anti-clockwise drive around the site

Moving Test

Drive Test Rules

Start field test upon completion of eNB parameter verification and after implementation of any required changes

All three sectors of the eNB under the test should be active and without any artificial loading (e.g. OCNS) in all tests

Conduct the test for all sectors of a site

Cover all important roads

Conduct SCFT drive test till RSRP of -108 dBm

In case of call drop, handover failure, etc. stop the call and find out the probable cause before proceeding further

Possible problems that may arise during drive test: UE disconnection, GPS problems, FTP server issues

SCFT Drive Test Tools Required

2 Samsung S4 mini phones with XCAL application

2 mobile phone holders

Battery charger

Extra batteries

USB hub

Inverter

Vehicle

Field Issues

If the drive test fails, check the system parameters & check the alarms from LSM-R

Check the DM and connect again, perform the test

Check the FTP server: Capture detailed information like ping, call test and call the server engineer

Repeat the field test if alarms clear from LSM-R and DM kit is working fine

Ping Test

Ensure that the UE is successfully attached to the LTE network

Run Ping script/scenario in your Smartphone DM software

Stop the logging

DL Throughput


Run FTP DL script/scenario in your Smartphone DM software

Verify that RSRP > -80 dBm, RS SINR > 20 dB

Start an FTP download with a file of size 50MB with a single FTP thread

Verify that the file has been downloaded successfully, record the throughput and stop the logging

UL Throughput


Run FTP UL script/scenario in your Smartphone DM software

Verify that RSRP > -80 dBm, RS SINR > 20 dB

Start an FTP upload with file of size 25MB with a single FTP thread

Verify that the file has been uploaded successfully, record the throughput and stop the logging

Cell Coverage & Handover Verification


For UE1, run FTP DL script/scenario in your Smartphone DM software

For UE2, run FTP UL script/scenario in your Smartphone DM software

Do the drive test around the site, clock-wise and anti-clock-wise to check both way Intra-handover

If no proper route is available for checking Intra-handover, do a walk test around the site

Drive test for each sector is mandatory to check the coverage of cells and Inter handover with neighbor cells

If there is any issue related to access (e.g. construction, road closed) please provide proper justification with snapshot (Date and time should be mentioned on Photo)

Sector Swap Verification

After Physical site parameter verification, conduct drive test in clock wise and anti-clock wise direction to identify any sector swap

If found, take corrective action before going for coverage drive test

If service-direction of PCID has changed, Data Throughput degradation and Handover Fail can be observed

SCFT Parameter Requirements

Min Average Max

DL Throughput 2 Mbps 20 Mbps 40 Mbps

UL Throughput 256 Kbps -- 4 Mbps

RSRP -108 dBm -- --

SINR 20 dB -- --

Legend

Summary

eNB physical check involves checking azimuth (note free range), tilt, antenna height, tower height

SCFT consists of stationary and moving tests

Stationary tests include ping, UL & DL throughput and VoLTE connectivity check

Drive around the site clockwise & anti-clockwise for moving tests

Especially check for sector swap using PCI

Ensure RSRP, throughput and SINR ranges are met

Quiz

Average DL throughput should be at least ____

4 Mbps

20 Mbps

40 Mbps

Sector swap can be identified based on

PCI

RSRP

VSWR

Moving test in SCFT does not include

FTP

VoLTE

Either

XCAL on S4 Mini

Steps for DM Tool (XCAL)

Power on

Ensure mobile is not in flight mode. If it is, switch flight mode off

Confirm data and voice connectivity

Ensure GPS connectivity is locked (steady, not blinking)

Bluetooth pairing of S4 minis

Launch XCAL from apps

Ensure XCAL GPS is in sync with mobile GPS and locked (steady, not blinking)

Configure Master / Slave

Click Destination: Get GPS location

Download appropriate scenarios for Master & Slave

Step 1 Switch off Flight Mode

Ensure mobile is not in flight mode. If it is, switch flight mode off

Step 2 Check Data Connectivity

Ensure horizontal green and red arrows (data) and vertical 4G arrows (voice) are visible

Step 3 Bluetooth Pairing of S4 minis

Name the S4 minis

Go to Bluetooth Settings Rename

This will ensure pairing without confusion

This is just a one-time activity


To ensure smooth Bluetooth functioning remove previous pairing

Press and hold the Bluetooth icon

Go to Settings Unpair


Make all the phones Visible to each other over Bluetooth

Press Scan on a device

The other visible devices will show under Available devices

Press on an Available device


Bluetooth pairing request window appears on both devices

Press OK on both devices


Devices will now show as Paired

Step 4 Launch XCAL from Apps

Launch XCAL from apps

Make sure XCAL GPS is steady green, i.e., synced to S4 mini GPS and locked

Step 5 Configure Master & Slave

Press the Menu button on the S4 mini

Press the M/S button in XCAL

Select Master for one UE and Slave for another

Step 6 Select GPS Location

Press Destination: GPS Value

The GPS location will be shown

Select the destination and click Back on the S4 mini

The lat-long value will now appear on the main screen

SCFT Procedure V1h

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