Kenwood M), TK-2160 3. PLL Frequency Synthesizer

TK-2160

RECEIVE SIGNALING

Q608

IF Amp

FM IF IC401 IC602

IF Amp

IC601

IC605

AF PA

IC805

IC603

BPF & COMPALATER

Q603,604,607

QT/DQT

2-TONE

DTMF

CLK,DATA,

STD,LOADN

SIGNAL

SP MUTE

HSDI

LSDI

AN SQL

CPU

AQUA

CIRCUIT DESCRIPTION

Fig. 5 AF amplifier and squelch

6)Tone Volume Fixed Circuit

This function generates a TONE signal sound even if the

AF volume of the transceiver is the minimum.

A TONE signal is sent through Q602 to the AF amplifier

when, in the FPU, “TONE Volume Fixed” is set to ON.

7)Squelch

Part of the AF signal from the IC enters the FM IC (IC401)

again, and the noise component is amplified and rectified

by a filter and an amplifier to produce a DC voltage

corresponding to the noise level.

The DC signal from the FM IC goes to the analog port of

the microprocessor (IC805). IC805 determines whether

to output sounds from the speaker by checking whether

the input voltage is higher or lower than the preset value.

To output sounds from the speaker, IC805 sends a high

signal to the SP MUTE line and turns IC605 on through

Q603,Q604,Q607 and Q608. (See Fig. 5)

8) Receive Signalling

(1) QT/DQT

The output signal from IF IC(IC401) enters the

microprocessor(IC805) through IC601. IC805 determines

whether the QT or DQT matches the preset value, and

controls the SP MUTE and the speaker output sounds

according to the squelch results.

(2) 2-TONE

Part of the received AF signal output from the AF amplifier

IC602, and then passes through an audio processor

(IC601), goes to the other AF amplifier IC603, is compared,

and then goes to IC805. IC805 checks whether 2-TONE

data is necessary. If it matches, IC805 carries out a

specified operation, such as turning the speaker on. (See

Fig. 5)

(4) DTMF

The DTMF input signal from the IF IC (IC401) is amplified

by IC602 and goes to IC601. The decoded information is

then processed by the CPU.

3. PLL Frequency Synthesizer

The PLL circuit generates the first local oscillator signal for

reception and the RF signal for transmission.

1) PLL

The frequency step of the PLL circuit is K:2.5,5,6.25 or

7.5kHz, M:6 or 6.25kHz.

A 16.8MHz reference oscillator signal is divided at IC1 by a

fixed counter to produce an oscillator (VCO) output signal

which is buffer amplified by Q9 then divided in IC1 by a

dual-module programmable counter. The divided signal is

compared in phase with the 5 or 6.25kHz reference signal

from the phase comparator in IC1. The output signal from

the phase comparator is filtered through a low-pass filter

and passed to the VCO to control the oscillator frequency.

(See Fig. 6)

2) VCO

The operating frequency is generated by Q6 in transmit

mode and Q5 in receive mode. The oscillator frequency is

controlled by applying the VCO control voltage, obtained

from the phase comparator, to the varactor diodes

(D3,D5,D7 and D8 in transmit mode and D4,D6,D9 and D10

in receive mode). The RX pin is set high in receive mode

causing Q8 and Q12 to turn Q6 off and Q5 on.

The TX pin is set high in transmit mode. The outputs from

Q5 and Q6 are amplified by Q9 and sent to the RF amplifiers.

Fig. 4 Tone volume fixed circuit

IC805

CPU

BEEP

BEEPSW

TONE VOL FIXED

IC601

AQUA VOL

IC605

TA7368F

Q602 Hi: ON

LOW: OFF

SP-J

[VOL Position vs Output Level]

Output Level (mV)

Min

ON OFF

500

Center Max

(3) MSK (Fleet Sync)

Fleet Sync utilizes 1200bps and 2400bps MSK signal is

output from pin 6 of IC601. And is routed to the VCO.

When encoding MSK, the microphone input signal is muted.