Simple fm repeater block diagram – Codan Radio MT-3 User Manual

USER GUIDE | MT-3 ANALOG RADIO SYSTEMS

Chapter 4: Analog System Block Diagrams

Page 20

SIMPLE FM REPEATER BLOCK DIAGRAM

Figure 4-1 shows a block diagram of a Codan FM analog repeater system using an AC-3L-96 Audio
Control Card.

The incoming FM transmission is routed through the Front End sub-module where the RF signal:
• is fi ltered (VHF and UHF 400 – high selectivity multiple pole, helical resonator fi lter, 5 MHz pass band;
UHF 800/900 – dielectric bandpass fi lter)
• is amplifi ed through a low noise amplifi e
• is fi ltered again through an image rejection fi lter
• is mixed with a local oscillator
• produces an IF frequency of 21.4 MHz (VHF and UHF 400) or 45 MHz (UHF 800/900).

The fi rst IF amplifi er provides linear IF amplifi cation and then crystal fi lters provide optimum bandpass
characteristics for good selectivity and low distortion. A second L.O. source of 21.855 MHz (VHF and
UHF 400) or 44.545 MHz (UHF 800/900) produces a second IF of 455 KHz. Second IF fi ltering is
achieved through the use of a 455 KHz ceramic fi lter. The second IF is demodulated to recovered
audio which is then sent to the discriminator output (for CTCSS decoding), the squelch circuitry and the
fl at and de-emphasis audio paths.

The squelch circuitry will produce the COR output and control the audio squelch gates. The audio
will typically be routed through the de-emphasis circuitry and a jumper selectable voice band fi lter
(fl at audio is not commonly used). The de-emphasis audio output will drive the speaker in the System
Regulator. The balanced audio output, as well as the other audio outputs, are typically set for -8.0
dBm (308 mVrms) using a 1.0 KHz tone at 60% of maximum modulation (3.0 KHz wideband; 1.5 KHz
narrowband).

The COR signal and audio are then routed through the AC-3L-96 audio control card and are sent to
the transmitter as a PTT signal and audio. The AC-3L-96 has no capability for multiple audio routes
or audio level adjustments. The CTCSS decoder can also encode the same tone it is programmed to
decode. If a separate tone is required for encoding, an optional CTCSS encoder can be installed and
confi gured for the separate tone.

The transmitter will accept the incoming balanced audio and route it through the audio processor board
in the transmitter. The balanced level control, compression control, and maximum deviation levels are
all set in the audio processor. The balanced audio input level is typically set for a transmitter deviation
of 60% of maximum modulation (3.0 KHz wideband; 1.5 KHz narrowband) at the RF output, using a 1.0
KHz tone at -8.0 dBm (308 mVrms) at the audio input.

The CTCSS tone is also added in the audio processor and set by the subtone 1 input level control.
The incoming PTT signal will activate all circuitry in the transmitter and will key the transmitter. The
transmitter will then modulate the audio signal to an FM carrier in the oscillator and then amplify the
output of the oscillator.