User's Manual

Ripwave Base Station I&C Guide Navini Networks, Inc.

114 Part #40-00047-00 Rev D v1.0

February 28, 2003

Step 4. Calculate the effective noise floor: NF= SNR

TCC

- Level

TCC

Where SNR

TCC

is the TCC SNR and Level

TCC

is the received uplink TCC level.

NF should be close to SNR - BTS Sensitivity +25 ±5.

Where BTS sensitivity is the BTS sensitivity setting during calibration.

Step 5. Record the CPE output power.

Step 6. Increase the attenuation by 10dB (increase the attenuation of the adjustable attenuator).

Step 7. Measure BTS effective noise floor and CPE output power again.

Step 8. Increase the attenuation by the same amount as in individual antenna tests and measure

the BTS effective noise floor and CPE output power.

Step 9. For each attenuation setting, the CPE output power should be 9dB less compared to

those (average) in individual antenna tests.

Step 10. Increase the attenuation by another 18dB. The link should be on.

Step 11. Calculate the maximum path allowed as follows:

Max loss = Attenuation total + Cal cable loss + 30

Where Attenuation total is the total attenuation of all attenuators (fixed + adjustable).

Test Procedure - Data Rate

Step 1. Set the attenuation of the attenuator so the total attenuation is about

- 30 +18 - Cal cable loss + 80.

Step 2. Activate all antennas.

Step 3. FTP a file with size >10Mbps from CPE to BTS (uplink).

Step 4. Check the uplink data rate. It should be ~1Mbps.

Step 5. FTP a file with size >20Mbps from BTS to CPE (downlink).

Step 6. Check the downlink data rate. It should be ~2Mbps.

After the test is completed, reconnect the calibration cable back to the BTS and run the

calibration. The new calibration table should be the same as before (the changes in Tx and Rx

AGC should be within 2 bits).