Motorola Solutions Inc. 92FT4847 ユーザーズマニュアル

68P81093C75-O

December 1, 2000

10-1

The following functional theory of operation provides an overview 
of the station circuitry.  For a more thorough functional description 
of a particular module, refer to the appropriate section of the 
Quantar User’s Guide (68P81095E05).  Refer to the block diagram 
in Figure 16. for the following functional theory of operation.

Introduction

The Transmitter Circuitry consists of the following: 

• Exciter Module 

• Power Amplifier (PA) Module  

These modules combine to produce the modulated, amplified RF 
signal. The RF signal is transmitted via the station transmit antenna.

Exciter Module 
Operation

The Exciter Module is a microprocessor-controlled module, 
generating a modulated RF signal at the desired transmit frequency. 
It sends this signal to the Power Amplifier for amplification. The 
circuitry operates as follows:

1. The Synthesizer/Voltage-Control Oscillator (VCO) accepts 

frequency programming data from the Station Control Module 
(SCM) via the Serial Peripheral Interface (SPI) bus and 
generates an RF carrier signal at the specified frequency.  

The modulation audio signal from the SCM modulates the carrier, 
resulting in a modulated RF signal at approximately +13dBm. The 
modulated signal is routed to the Power Amplifier.

2. The TX Power Control Circuitry accepts an output power detect 

voltage from the Power Amplifier and compares this signal to a 
reference voltage representing the desired output power. 

Based on the comparison, a power control voltage is generated to 
control the output power from the PA. This feedback and control 
loop continually monitors the output power. It adjusts the control 
voltage to maintain the proper output power from the PA.