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2-6

Enhanced

AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz

2.3

Synthesizer Digital Circuitry (Digital Board)

Refer to the "OS(R/T)-3(A/H)

Digital

Board

Schematic

Diagram" on page 4-19 of this

manual

.

Microcontroller

U4

generates

control signals

utilized

within

the synthesizer module. U4

communicates

with

synthesizer IC U10, monitors the synthesizer lock

detect,

manages PTT input

and output and

determines

the

operating

frequency by reading

channel

number

information

from

either

the four rotary Binary Coded

Decimal

(BCD)

switches

mounted on the main

Transmitter

and

Receiver

PCB, or by reading four

externally

driven

CHANNEL

SELECT

lines. Micro

controller

U4 is also designed to

communicate

with

Daniels

SYNTHESIZER

CHANNEL PROGRAMMER

(CP-SC-3) through I/O lines TX

DATA

(P1-17), RX

DATA

(P1-9) and BOOTSTRAP (P2-2).

This

external

programmer

places the

operating

program in

non-volatile

microprocessor memory

and programs up to 15 user defined

channel

selections.

An

internal

"watchdog"

timer

provides

robust

software

protection

in all

operating

modes.

Data

communication

between

the

digital

and analog

circuit

boards is

achieved

through four

optical

transmitters

(U5 through U8) and one

optical

receiver

(U9). The

optical

interface

provides

a fully

isolated

inter-board

data

communications

link designed to

prevent

digital

noise from

interfering

with

sensitive

PLL

circuitry.

2.4

Frequency Control

This is hidden text.

2.4.1

BCD Switch Frequency Control

Selection

of the desired synthesizer output frequency is

straightforward.

If all four of the

CHANNEL

SELECT

lines (CHAN SEL3 - CHAN SEL0) are pulled low (to GND), the

synthesizer

will

scan the four BCD

switches

(FSW

1 -

FSW4)

located

on the

receiver

and

transmitter

main

circuit

boards

via

connections

SW1 COM - SW4 COM and PC4 - PC7 and

establish the

operating

frequency from these

switches.

The four CHANNEL

SELECT

lines,

CHAN SEL3 - CHAN

SEL0,

are

connected

via

the MT-3

transmitter

or

receiver

main board

module

connector

to the M3

motherboard

subrack. These lines are by

default

normally

pulled low

(to

GND)

via

jumpers

located

on the M3

motherboard

subrack.

If any one of the CHANNEL

SELECT

lines are pulled high (to +9.5 Vdc), then the synthesizer’s

frequency of

operation

will

be

determined

by the CHANNEL

SELECT

lines and not the BCD

switches.

Up to 15

separate

channel

frequencies

can be

pre-programmed

into a

‘table’

in non-

volatile

microprocessor memory and accessed through binary

interpretation

of the CHANNEL

SELECT

lines. The most

significant

bit (MSB) in the CHANNEL

SELECT

binary code is

represented

by CHAN SEL3 and the least

significant

bit (LSB) is

represented

by CHAN SEL0.

For

example,

if all CHANNEL

SELECT

lines are pulled

high,

(i.e. binary

‘1111’)

then the 15

th

frequency entry in the

internal

channel

table

will

be

selected.

The

channel

table

is

normally

pre-

programmed

at the factory to user

specifications,

but may be

programmed

in the field using Daniels

SYNTHESIZER

CHANNEL PROGRAMMER (CP-SC-3).