User's Manual

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Table Of Contents

Table of Contents
List of Figures
List of Tables
Foreword
FCC Requirements
General Safety
Revision History
Patent Notification
Chapter 1 Introduction
- Optimization Manual: Scope and Layout
- Purpose of the Optimization
- Abbreviations and Acronyms
- Required Test Equipment
- Required Documentation
- BTS Equipment Identification
- BTS Frame Description
- Frame Module Location & Identification
- Sector Configuration
Chapter 2 Preliminary Operations
- Chapter 3 Optimization/Calibration
- Optimization/Calibration - Introduction
- Isolate Span Lines/Connect LMF
- Preparing the LMF
- Using CDMA LMF
- Download the BTS
- CSM System Time/GPS and LFR/HSO Verification
- Test Equipment Set-up
- Test Set Calibration
- Bay Level Offset Calibration
- RFDS Set-up and Calibration
- BTS Redundancy/Alarm Testing
- BTS Alarms Testing
- Preliminary Operations: Overview
- Pre-Power-up Tests
- Initial Power-up Tests
Chapter 4 Automated Acceptance Test Procedure
- Automated Acceptance Test Procedures - All-inclusive TX & RX
- TX Output Acceptance Tests: Introduction
- TX Spectral Purity Transmit Mask Acceptance Test
- TX Waveform Quality (rho) Acceptance Test
- TX Pilot Time Offset Acceptance Test
- TX Code Domain Power/Noise Floor Acceptance Test
- RX Frame Error Rate (FER) Acceptance Test
- Generate an ATP Report
Chapter 5 Prepare to Leave the Site
- External Test Equipment Removal
- Reset All Devices
- Re-connect BTS T1 Spans and Integrated Frame Modem
- BTS Site Span Configuration Verification
- Set BTS Site Span Configuration
- Updating CBSC LMF Files
- LMF Removal
- Re-establish OMC-R Control/ Verifying T1/E1
Chapter 6 Basic Troubleshooting
- Basic Troubleshooting Overview
- Troubleshooting: Installation
- Troubleshooting: Download
- Troubleshooting: Calibration
- Troubleshooting: Transmit ATP
- Troubleshooting: Receive ATP
- Troubleshooting: CSM Check-list
- C-CCP Backplane Troubleshooting
- Module Front Panel LED Indicators and Connectors
- Basic Troubleshooting - Span Control Link
Appendix A Data Sheets
- Optimization (Pre-ATP) Data Sheets
- Site Serial Number Check List
Appendix B PN Offset/I & Q Offset Register Programming Information
Appendix C FRU Optimization/ATP Test Matrix
Appendix D BBX Gain Set Point vs. BTS Output
Appendix E CDMA Operating Frequency
Appendix F PCS Interface Setup for Manual Testing
- Purpose
- Equipment Warm up
- Prerequisites
- HP8921A System Connectivity Test
- Manual Cable Calibration using HP8921 with HP PCS Interface (HP83236)
- HP PCS Interface Test Equipment Setup for Manual Testing
- Calibrating Test Cable Setup using Advantest R3465
Appendix G VSWR
Appendix H Download ROM Code
Appendix I In-Service Calibration
- Introduction
- Power Delta Calibration
- In-Service Calibration
Appendix J GPIB Addresses
Introduction
HP437 Power Meter GPIB Address
Gigatronics 8541C Power Meter GPIB Address
Motorola CyberTest GPIB Address
HP8935 Test Set GPIB Address
Setting HP8921A and HP83236A/B GPIB Address
Advantest R3465 GPIB Address
RS232 GPIB Interface Box
Advantest R3267 Spectrum Analyzer GPIB Address
Agilent E4406A Transmitter Tester GPIB Address
Index

TX Output Acceptance Tests: Introduction68P09255A61-4

Aug 2002

1X SC 4812T BTS Optimization/ATP Software Release 2.16.1.x

FIELD TRIAL

4-7

TX Output Acceptance Tests: Introduction

Individual Acceptance Tests

The following individual tests can be used to verify the results of

specific tests.

Spectral Purity TX Mask (Primary & Redundant BBX)

This test verifies that the transmitted CDMA carrier waveform generated

on each sector meets the transmit spectral mask specification with

respect to the assigned CDF file values.

Waveform Quality (rho)

This test verifies that the transmitted Pilot channel element digital

waveform quality (rho) exceeds the minimum specified value in

ANSI-J_STD-019. “Rho” represents the correlation between actual and

perfect CDMA modulation spectrum. A rho value of 1.0000 represents

100% (or perfect correlation).

Pilot Time Offset

The Pilot Time Offset is the difference between the CDMA analyzer

measurement interval (based on the BTS system time reference) and the

incoming block of transmitted data from the BTS (Pilot only, Pilot

Gain = 262, PN Offset = 0).

Code Domain Power (Primary & Redundant BBX)

This test verifies the code domain power levels, which have been set for

all ODD numbered Walsh channels, using the OCNS command. This is

done by verifying that the ratio of PILOT divided by OCNS is equal to

10.2 + 2 dB, and, that the noise floor of all EVEN numbered “OFF”

Walsh channels measures

< -27 dB (with respect to total CDMA channel

power).

Frame Error Rate

The Frame Error Rate (FER) test verifies RX operation of the entire

CDMA Reverse Link using all equipped MCCs assigned to all

respective sectors/antennas. This test verifies the BTS sensitivity on all

traffic channel elements currently configured on all equipped MCCs at

an RF input level of -119 dBm (or -116 dBm if using TMPC).