User's Manual

Wireless Innovations Group

2601 Telecom Parkway

Richardson, Texas 75082

400/800 MHz Fiber Optic & RF Fed Bi-Directional

Amplifier Operations / Maintenance Manual

DWG NO: AE04B-A1669

Rev: B

Date: 06/18/2008

Page:

59 of 63

3 If the measured output signal level exceeds +30 dBm, reduce the fiber optic gain (i.e.

adjust BDA’s fiber optic transceiver front panel potentiometer) so that the output power

level is equal to +30 dBm.

NOTE: No additional fiber gain adjustment will be required after the fiber optic gain has

been set. If any additional gain adjustments are required they must be performed via the

RS232 port.

The RF fed BDA gain setting is performed at the factory and no field adjustments are

required. With a 48 dB factory gain setting, the maximum input signal level is –18 dBm.

This input level will ensure that FCC power limit (+30 dBm) is not exceeded.

UPLINK GAIN SETUP

The fiber fed BDA provides 18 dB of gain for 9 dB of optical loss. The factory gain

setting for the fiber fed BDA is 48 dB. Due to the various fiber optic link losses found in

a communication system, the uplink fiber optic gain must be adjusted so not to overdrive

the fiber optic link when high power transmitters are operating near the BDA. The

equipment needed and the gain test setup required for this adjustment is shown in Figure

6.2 below.

Figure 6.2 Uplink Gain Test Configuration

1 Using the signal generator, inject a – 43 dBm signal into the uplink operating passband of

the fiber fed BDA.

2 Measure the output signal level of the fiber optic transceiver chassis (i.e. located near the

base receiver station) using the spectrum analyzer.

3 If the measured output signal level exceeds – 4 dBm, reduce the fiber optic gain (i.e.

adjust fiber optic transceiver front panel potentiometer) so that the output power level is

equal to - 4 dBm.

Spectrum

Analyzer

Fiber Optic

Transceiver

Chassis

Fiber Fed

BDA

Signal

Generator

Fiber CableRF Cable

RF Cable

- 4 dBm-43 dBm