ICOM S-14217HZ-C1 ユーザーズマニュアル

4 - 2

16

R3V

X1

Q51, Q52

11

10

9

13

12

“NOISE” signal to the CPU (IC4, pin 47)

1st IF signal from the 1st mixer (IC16, pin 6)

“RSSI” signal to the CPU (IC4, pin 4)

2

8

7

3

5

LPF

BPF

(WFM)

(FM)

RSSI

Noise

Detector

Noise

Amplifier

Limitter

Amplifier

Quodrature

Detector

FI1

2nd IF signal to the AM demodulator (Q19, Q20)

FM-demodulated signals
to the AF circuits

X2

TCXO

L103

D12

D10

15.3/45.9 MHz
2nd LO signal

Q29

LPF

HPF

D51

×1

D52

×3

The 1st IF signal is converted into the 2nd IF signal and 
demodulated in the FM IF IC. The FM IF IC contains 2nd 
mixer, limiter amplifier, quadrature detector, etc. in its 
package.

The 1st IF signal from the 1st IF amplifi er (Q9) is applied to 
the 2nd mixer in the FM IF IC (IC15, pin 16), and converted 
into the 2nd IF signal by being mixed with the 2nd LO signal 
from the reference frequency oscillator (X2) tripled by the 
tripler (Q29).

The converted 2nd IF signal is output from pin 3, and passed 
through the 2nd IF filter via the FM/WFM switch (D12) to 
suppress sideband noise. 

• FM/WFM mode
In FM mode, the 2nd IF signal is passed through the BPF (FI1). 
In WFM mode, the signal passed through the LPF (L2, C136).

The filtered 2nd IF signal is applied to the limiter amplifier 
in the FM IF IC (pin 5) via the FM/WFM switch (D10). The 
amplifi ed 2nd IF signal is FM-demodulated at the quadrature 
detector section and output from pin 9. The demodulated AF 
signals are applied to the AF amplifi er circuits.

• AM mode
The 2nd IF signal is passed through the FI1 and applied to 
the AM demodulator circuit (Q19, Q20). The demodulated AF 
signals are applied to the AF amplifi er circuits.

The demodulated AF signals from the demodulator circuits are 
amplifi ed and fi ltered in AF amplifi er circuits.

• FM/WFM mode
The demodulated AF signals from the FM IF IC (IC15, pin 9) 
are passed through the AF switch (IC14, pins 1,2) and AF fi lter 
circuit (Q10, D5). The fi ltered AF signals are applied to the AF 
amplifi er (Q12).

• AM mode
The demodulated AF signals from the AM-demodulator circuit 
(Q19, Q20) are passed through the AF filter bypass switch 
(Q28) and applied to the AF amplifi er (Q12). 

The amplified AF signals are applied to the electric volume 
(IC7, pin 11) and level adjusted. The level adjusted AF signals 
are output from pin 12, and applied to the AF amplifi er  (IC9, 
pin 2) to obtain more than 50 mW of AF output power. The 
power amplified AF signals are then output from pin 6, and 
applied to the internal speaker (CHASSIS; SP1) or connected 
external speaker via [MIC/SP] connector (J4).

A portion of the AM-demodulated signals are converted 
into DC voltage, and fed back to the RF circuits as the AGC 
(Automatic Gain Controller) signal.

The AGC signal controls the bias of the 1st IF amplifi er (Q9) 
and RF amplifi ers (Q38, Q39, Q42, Q43, Q45) according to 
the received signal strength to stabilize the demodulated AF 
signal level. 

• NOISE SQUELCH
The noise squelch mutes the AF output signals when no RF 
signals are received. By detecting noise components in the 
demodulated AF signals, the squelch circuit toggles the AF 
power amplifi er ON and OFF.

A portion of the FM-demodulated AF signals from the 
FM IF IC (IC15, pin 9) are passed through the noise filter 
(R186, R187, R192, R196, R197, R204, C150, C152, C158, 
C162, C164). The fi ltered noise signals are then applied to 
the noise amplifier in the FM IF IC (IC15, pins 7, 8) to be 
amplifi ed the noise components only.

IC14

from
the FM IF IC
(IC15, pin 9)

from the 
AM demodulator circuit
(Q19, Q20)

IC7

11

12 2

6

AF switch

 Ele. VR

Q12

Q28

1

2

Q10, D5

AF

Amp.

Power

Amp.

IC9

Speaker

AF

Filter

bypass