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2-2

Enhanced

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

10.0 MHz and is

selected

via

jumper JU2 on the

Digital

Board (9.6 MHz

with

JU2 not

installed,

10.0 MHz

with

JU2

installed).

If an

external

s

ignal

is used as the

reference

source,

it must be a

sinusoidal,

low phase

noise,

high

stability

signal of 0 dBm

±3

dB

level.

A poor

quality

reference

source

will

degrade

receiver

/transmitter

performance

to

unacceptable

levels.

Transistor Q2 forms a

buffer

amplifier

having

50Ω input

impedance

at 10.0 MHz. The

internal

9.6 MHz TCXO

provides

better

than

±1

ppm frequency

stability

from -30°C to +60°C (-40°C to +60°C

optional).

Fine

frequency

adjustment

is made through frequency control

potentiometer

RV1,

which is

accessible

through the synthesizer top

cover.

The 9.6 MHz

reference

source is

divided

down to establish a

channel

selection

step size of

5.0/6.25,

12.5, or 25.0 kHz depending on the

particular

synthesizer model type. A third order

passive

loop

filter

comprised of

C37, C38, C39, C45, C49,

R36 and R32 is

employed

to

achieve

the required

noise

performance,

modulation

and worst case

switching

time

of 50 ms. A

small

sample of RF

energy is coupled from the VCO output buffer U16 on the FM analog board or from Q6 on the

AM analog board to the synthesizer IC U10

prescaler

input (pin 11). FM

modulation

of the VCO

from ≈ 100 Hz to 3 kHz is

achieved

through the baseband input pin P1-1 on the

Digital

Board. A

1 kHz sine

wave

with

a

level

of

approximately

400 mVrms at P1-1

provides

FM

deviation

of

3.0 kHz. SMB

connector

J2

provides

an RF output

level

of

approximately

+5

dBm into a 50Ω

load.

An

optional

modulation

input is

provided

through

connector

P1-18

(Digital

Board) and routed to

the

Analog

board

via

connector P3. This

connection

must be coupled to a low

impedance,

dc

coupled source and

provides

a phase

modulated bandwidth

from 0 Hz (DC) to ≈ 50 Hz (PLL loop

filter

bandwidth)

allowing

for

specialized

applications

such as paging or trunking

where

a separate

low frequency

digital/analog

modulation

channel

is required. Phase

modulation

input pin P1-18 is

routed to the

transmitter

audio processor spare pin P4-2

via

JA4-2 on the MT-3

transmitter

main

board. It should be noted that any

application

of the direct TCXO

modulation

port transfers control

of the synthesizer steady state frequency

setting

to the

external

modulating

source. Frequency

control

potentiometer

RV1 is then

effectively

removed

from the frequency adjust

circuitry.

A lock

detect

LED (LED1) i

ndicates

an unlocked PLL

condition.

An unlocked PLL

condition

normally

indicates

that the VCO is not tuned

within

the lock-in range of the desired

channel

frequency. In a

transmitter,

the loss of lock

will

prevent

PTT from keying the power

amplifier

module,

thus

preventing

transmission of a spurious output signal.

Adjustment

of tuning

capacitor

C24

will

normally

reestablish

frequency lock

within

the synthesizer’s frequency range.

Optical

transmitter

U5 is

additionally

activated

in unlocked

conditions

and enables the

micro-controller

(Digital

Board) to respond to the unlocked PLL

condition.

Note that the 118 - 159.4 MHz and the

406 - 470 MHz

Analog

Boards do not

incorporate

a VCO tuning

capacitor;

the VCO

covers

the full

frequency range

without

tuning. An unlocked

condition

in

either

of these synthesizers

would

indicate

an

attempt

to synthesize an

invalid

channel

frequency outside the

installed

VCO frequency

range.