User's Manual

MCC–DO Tests

JUN 2004

A-1

1X SC480 BTS Hardware Installation, Optimization/ATP, and FRU

DRAFT

MCC–DO Testing

The tests in this appendix are provided for information

only. The tests contained herein are not proven, and

recommended equipment and equipment setup is not

provided.

IMPORTANT

The following acceptance tests evaluate different performance aspects of

the BTS with MCC–DO. This allows the CFE to select testing to meet

the specific requirements for individual maintenance and performance

verification situations.

The WinLMF must be version 2.16.4.0.04 or higher (with FR8000 –

EV–DO manual ATP test support).

Prerequisites

Before attempting to run any performance verification ATP tests, all

procedures outlined in previous Optimization chapters should have been

successfully completed. At a minimum, successful completion of all

BTS BLO calibration, and Bay Level Offset tests is recommended.

Test Equipment

Listed below are the recommended test equipment required to test

MCC–DO.

Signal Generator:

S Agilent E4432B, with options UN8/(008 for upgrade) and 201/(251

for upgrade)

S E4430BK–404 – CDMA2000–1xEV–DO signal studio software

S Agilent E4438C, with options UN8/(008 for upgrade) and 201/(251

for upgrade)

S E4438CK–404 – CDMA2000–1xEV–DO signal studio software

Spectrum Analyzer:

S Agilent E4406A), with option B78 and Firmware version A.04.21

S E4406AU–204 – 1xEV–DO measurement personality

MCC–DO Code Domain

The code domain power test verifies the noise floor of a carrier keyed up

at a specific frequency per the CDF file.

Code domain power is the power in each code channel of a CDMA

Channel. The CDMA time reference used in the code domain power test

is derived from the Pilot Channel and is used as the reference for

demodulation of all other code channels. This test verifies that

orthogonality is maintained between the code channels. When transmit

diversity is enabled, this test also verifies that time alignment is also

maintained.