User's Manual

PAGE 36 TECHNICAL DESCRIPTION

4.3 RECEIVER AND TRANSMITTER MODULES

4.3.1 Frequency Bands

The Blade is supplied with a matched pair of radio sub-assemblies fitted.

The designated frequency bands are:

66 - 88 MHz E0 Band 335 - 375 MHz R1 Band

136 - 174 MHz AC Band 400 - 450 MHz TK Band

174 - 208 MHz K1 Band 400 - 480 MHz TU Band

208 - 245 MHz KM Band 440 - 500 MHz UW Band

310 - 350 MHz R0 Band 470 - 530 MHz WR Band

The following text refers to the components and circuits within the RF sub-assemblies

only. For additional information, refer to the SRM9000 Service Manual [1].

The Rx and Tx Modules are equivalent and interchangeable for a given power

classification (25W or 100W). They are connected to the Control Board via a 26-way

Ribbon Cable that carries analogue audio, digital audio and control signals.

Power connections are made via a 15-way, D-type connector and RF connections are

made via BNC sockets. RF connections are taken to the rear of the Blade via double-

screened cables terminated with female N-types.

4.3.2 Receiver

Refer to Figure 3.5.

4.3.2.1 Front-end Filters and Rx Front-end Amplifier

The receiver input signal from the antenna passes through the antenna filter comprising

L10, L11, L12 and associated tuning capacitors. With a transceiver module in receive

mode, diodes D3, D4 and D5 in the antenna switch are reverse biased allowing the

receiver input signal to be coupled through to the front-end with minimal loss. The overall

insertion loss of the antenna filter and switch is approximately 0.8dB.

Front-end selectivity is provided by varactor tuned bandpass filters at the input and output

of the RF amplifier.

Front-end tuning voltages are derived from the alignment data stored in the radio. The

DSP processes this data to optimise front-end tuning relative to the programmed channel

frequencies that may be changed at any time without re-aligning the radio.

To achieve the required varactor tuning range an arrangement of positive and negative

bias power supplies is used to provide a total bias across the varactors of up to 14.0VDC.

A fixed 2.5V positive bias derived from the 5.0V supply and voltage divider R425/426 is

applied to the cathodes of the varactor diodes. The negative bias supply originates at the

DSP/FPGA as a composite digital tuning signal (FE TUNE) containing the data for the four

front-end tuning values TUNE 1 to 4 for the particular channel frequency selected. The

level is dependent on channel frequency and tuning and varies between +0.1 and +3.0V.

This signal then passes through buffer U901A and level translator Q900 to Q903 where it

is converted to a high level (-0.5 to -11.5V) negative equivalent of the original signal.