Icom IC-F6012, IC-F6011, IC-F6013, IC-F6013H Service Manual

S-14716XZ-C1
Mar. 2011

UHF MOBILE TRANSCEIVERS

This service manual describes the latest technical
information for the IC-F6011, IC-F6012, IC-F6013,
IC-F6013H UHF MOBILE TRANSCEIVERS, at the time of
publication.

NEVER connect the transceiver to an AC outlet or to a DC
power supply that uses more than the specified voltage.
This will ruin the transceiver.

DO NOT expose the transceiver to rain, snow or any liquids.

DO NOT reverse the polarities of the power supply when

connecting the transceiver.

DO NOT apply an RF signal of more than 20 dBm (100 mW) to
the antenna connector. This could damage the transceiver’s
front-end.

To upgrade quality, any electrical or mechanical parts
and internal circuits are subject to change without notice
or obligation.

MODEL VERSION

CHANNEL

SPACING

(kHz)

FREQUENCY

RANGE

IC-F6011

USA-01

12.5/25.0

400−470 MHz

USA-02 450−512 MHz

IC-F6012 EUR-02 12.5/20.0/25.0

400−470 MHzIC-F6013 EXP-01

12.5/25.0

IC-F6013H

EXP-03

EXP-04 450−520 MHz

Be sure to include the following four points when ordering
replacement parts:

1. 10-digit Icom part number

2. Component name

3. Equipment model name and unit name

4. Quantity required

<ORDER EXAMPLE>

1110007320 S.IC NJM2591V IC-F6011 MAIN-A UNIT 5 pieces

8820001210 Screw 2438 screw IC-F6011 Top cover 10 pieces

Addresses are provided on the inside back cover for your
convenience.

ORDERING PARTS

1. Make sure that the problem is internal before
disassembling the transceiver.

2. DO NOT open the transceiver until the transceiver is
disconnected from its power source.

3. DO NOT force any of the variable components. Turn
them slowly and smoothly.

4. DO NOT short any circuits or electronic parts. An
insulated tuning tool MUST be used for all adjustments.

5. DO NOT keep power ON for a long time when the
transceiver is defective.

6. DO NOT transmit power into a Standard Signal
Generator or a Sweep Generator.

7. ALWAYS connect a 50 dB to 60 dB attenuator between
the transceiver and a Deviation Meter or Spectrum
Analyzer, when using such test equipment.

8. READ the instructions of the test equipment throughly
before connecting it to the transceiver.

REPAIR NOTES

INTRODUCTION CAUTION

Icom, Icom Inc. and the Icom logo are registered trademarks of Icom Incorporated (Japan) in Japan, the United States, the
United Kingdom, Germany, France, Spain, Russia and/or other countries.

TABLE OF CONTENTS

SECTION 1 SPECIFICATIONS

SECTION 2 INSIDE VIEWS

SECTION 3 DISASSEMBLY INSTRUCTION

SECTION 4 OPTIONAL PRODUCTS INSTALLATION

SECTION 5 CIRCUIT DESCRIPITON

5-1 RECEIVER CIRCUITS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1

5-2 TRANSMITTER CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3

5-3 FREQUENCY SYNTHESIZER CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4

5-4 VOLTAGE DIAGRAMS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4

5-5 PORT ALLOCATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-5

SECTION 6 ADJUSTMENT PROCEDURES

6-1 PREPARATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1

6-2 FREQUENCY ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-4

6-3 TRANSMIT ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-5

6-4 RECEIVE ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-6

SECTION 7 PARTS LIST

SECTION 8 MECHANICAL PARTS

SECTION 9 BOARD LAYOUTS

SECTION 10 BLOCK DIAGRAM

SECTION 11 VOLTAGE DIAGRAM

1 - 1

SECTION 1. SPECIFICATIONS

[USA], [EXP] [EUR]

GENERAL

• Frequency coverage 400–470 MHz

[USA-01], [EXP-01], [EXP-03]
450–520 MHz [EXP-04]
450–512 MHz [USA-02]

400–470 MHz

• Type of emission Wide 16K0F3E (25.0 kHz)

Middle – 14K0F3E (20.0 kHz)

Narrow 11K0F3E (12.5 kHz) 8K50F3E (12.5 kHz)

• Number of programable channels 8

• Antenna impedance

50 Ω (Nominal)

• Operating temperature range –30˚C to +60˚C (−22˚F to +140˚F) –25˚C to +55˚C

• Power supply requirement (Nominal) 13.6 V DC (Negative ground) 13.2 V DC (Negative ground)

• Current drain
(approx.)

RX

Stand-by 250 mA

Max.audio 700 mA

TX

at 25 W 5.0 A

at 45 W* 11.0 A

• Dimensions
(projections not included)

[25 W ver.]

150 (W) × 40 (H) × 117.5 (D) mm; 5.91 (W) × 1.56 (H) × 4.63 (D) in

[45 W ver.]

150 (W) × 40 (H) × 167.5 (D) mm;

5.91 (W) × 1.56 (H) × 6.6 (D) in

–

• Weight

[25 W ver.] 0.8 kg (1.76 Ib)

[45 W ver.] 1.1 kg (2.43 Ib) –

TRANSMITTER

• Transmit output power [25 W ver.] 25 W (High), 10 W (Low2), 2.5 W (Low1)

[45 W ver.] 45 W (High), 25 W (Low2), 5.0 W (Low1) –

• Modulation Variable reactance frequency modulation

• Max. permissible deviation Wide ±5.0 kHz

Middle – ±4.0 kHz

Narrow ±2.5 kHz

• Frequency error ±2.5 ppm ±1.5 kHz

• Spurious emission 70 dB typ. 0.25 µW (≤1 GHz), 1.0 µW (>1 GHz)

• Adjacent channel power Wide 70 dB min.

Middle – 70 dB min.

Narrow 60 dB min.

• Audio frequency response +1 dB to –3 dB of 6 dB/octave (From 500–2500 Hz)

• Audio harmonic distortion 3% typ. (With 1 kHz AF 40% deviation)

• FM hum and noise

(Without CCITT filter)

Wide More than 40 dB (46 dB typ.) –

Narrow More than 34 dB (40 dB typ.) –

• Residual modulation

(With CCITT filter)

Wide – More than 45 dB (55 dB typ.)

Middle – More than 43 dB (53 dB typ.)

Narrow – More than 40 dB (50 dB typ.)

• Limiting charact of modulation 70–100% of max. deviation

• Microphone impedance 600

Ω

*; 45 W version only.

1 - 2

[USA], [EXP] [EUR]

RECEIVER

• Receive system Double-conversion superheterodyne

• Intermediate frequencies 1st IF; 46.35 MHz, 2nd IF; 450 kHz

• Sensitivity 0.25 μV typ. at 12 dB SINAD −4 dBμV (EMF) typ. at 20 dB SINAD

• Squelch sensitivity (At threshold) 0.25 μV typ. −4 dBμV (EMF) typ.

• Adjacent channel

selectivity

Wide More than 70 dB (75 dB typ.)

Middle − More than 70 dB (75 dB typ.)

Narrow More than 60 dB (65 dB typ.)

• Spurious response 70 dB min.

• Intermodulation More than 70 dB (75 dB typ.) More than 65 dB (67 dB typ.)

• FM hum and noise

(without CCITT filter)

Wide More than 40 dB (45 dB typ.) –

Narrow More than 34 dB (40 dB typ.) –

• Residual modulation

(with CCITT filter)

Wide – More than 45 dB (55 dB typ.)

Middle – More than 43 dB (53 dB typ.)

Narrow – More than 40 dB (50 dB typ.)

• Audio output power 4.0 W typ. (At 5% distortion with a 4 Ω load)

• Audio output impedance 4

Ω

Measurements made in accordance with TIA-603 ([USA], [EXP]) or EN 300 086 ([EUR]).

All stated specifi cations are subject to change without notice or obligation.

2 - 1

SECTION 2. INSIDE VIEWS

• FRONT UNIT
(TOP VIEW)

TX/RX INDICATOR LED DRIVERS
(Q13 and Q14)

CPU
(IC1)

RESET IC
(IC2)

EEPROM
(IC3)

TONE LPF
(IC5)

TONE FILTER SWITCH
(Q3)

CLOCK FREQUENCY

SHIFT DIODE

(D6)

KEY BACKLIGHT SW

(Q2)

KEY BACKLIGHT DRIVER

(Q1)

2 - 2

• MAIN-A/MAIN-B UNIT
(TOP VIEW)

CPU5V LINE REGULATOR
(IC10)

TONE FILTER

(Q39)

IF DEMODULATOR IC

(IC1)

1ST IF AMP

(Q4)

AF AMP

(IC21)

PLL IC

(IC4)

1ST IF FILTER

(Q4)

VCO SW

(Q15)

RIPPLE FILTER

(Q17)

APC AMP
(IC2)

2ND IF FILTER
BANDWIDTH SWITCH
(Q40)

+8V LINE REGULATOR
(IC9)

VCC LINE SW
(Q23)

R8 LINE REGULATOR
(Q26)

2 - 3

• MAIN-A/MAIN-B UNIT
(BOTTOM VIEW)

REFERENCE FREQUENCY

OSCILLATOR (X2)

AF AMP

(IC15)

VCO

AF/TONE FILTER
(IC16)

AF MUTE SWITCH

(Q35)

Ext. MODULATION

LINE SWITCH

(Q31)

REFERENCE OSCILLATOR

MODULATION BUFFER

(IC19)

D/A CONVERTER

(IC18)

EXPANDER

(IC17)

ANALOG SWITCH

(IC14)

D/A CONVERTER

(IC20)

DRIVE AMP
(Q8)

RF AMP
(Q2)

1ST MIXER
(Q3)

2ND IF FILTER
(For wide mode)
(FI2)

2ND IF FILTER
(For narrow mode)
(FI6)

+5V LINE REGULATOR
(Q27,Q28)

T8 LINE REGULATOR
(Q25)

3 - 1

SECTION 3. DISASSEMBLY INSTRUCTION

1) Remove 4 screws from the bottom cover, and then
remove it.

2) Disconnect the fl at cable and speaker cable.

3) Remove 2 screws from the both sides, and then remove
the front panel in the direction of the arrow.

4) Remove 9 screws from the PCB.

FLAT

CABLE

BOTTOM COVER

FRONT PANEL

SPEAKER

CABLE

UNSOLDER

Solder
remover

PCB

PCB

PCB

5) Unsolder total of 9 points; 3 points at the antenna
connector, 6 points at the PA module.

6) Remove the PCB from the CHASSIS.

4 - 1

SECTION 4 OPTIONAL PRODUCTS INSTALLATION

Install optional OPC-1939/OPC-2078 as follows:

1)

Turn OFF the power, and then disconnect the DC power cable.

2) Remove 4 screws, and then remove the bottom cover.

3) Install the cable as shown.

OPC-1939/OPC-2078

Cut off the bushing as in the illustration.

K

I

4) Cut or short the patterns as below. (For AF output)

6) Recover the bottom cover, screws and DC power cable.

NOTE: Be sure to recover the patterns when you remove the optional product. Otherwise no TX modulation or AF output is available.

Solder
remover

D

5) Short the pattern as below. (For modulation input)

Install optional UT-108R as follows:

1) Turn OFF the power, and then disconnect the DC cable.

2) Remove 4 screws, and then remove the bottom cover.

3) Install the unit as shown.

4) Recover the bottom cover, screws and DC power cable.

Install optional UT-109R or UT-110R as follows:

1) Turn OFF the power, and then disconnect the DC power
cable.

2) Remove 4 screws, and then remove the bottom cover.

3) Cut the pattern on the PCB at "MIC" and "DISC" as
showon.

4) Install the unit as shown.

5) Recover the bottom cover, screws and DC power cable.

MIC

DISC

5 - 1

SECTION 5. CIRCUIT DESCRIPTION

5-1 RECEIVER CIRCUITS

RF CIRCUITS (MAIN-A/-B UNIT)

RF signal from the antenna is passed through the LPF (as
the harmonic filter for transmitting) and antenna SW (D3,
D5, D7), and then applied to the RX BPF circuit.

The applied RX signal is passed through the 3-staged tuned
BPF (D4, D8) to remove unwanted out-of-band signals, and
amplified by the low-noise RF AMP (Q2), and then applied
to the 1st mixer (Q3) through another 3-staged tuned BPF
(D9, D10, D19).

Total of 5 stage BPFs are tuned to the RX frequency by the
tuning voltage “T1” and “T2” from the D/A converter (IC20),
to obtain required IMD characteristic.

• RF CIRCUITS

1ST IF CIRCUITS (MAIN-A/-B UNIT)

The RX signal from the BPF is mixed with the 1st LO signal
to be converted into the 46.35 MHz 1st IF signal.

The 1st LO signal is generated by the RX VCO (Q14, D33,
D52), and passed through the LO SW (D15) and attenuator,
and then applied to the 1st mixer (Q3)

The converted 1st IF signal is filtered by the crystal filter (FI1)
and amplified by the 1st IF AMP (Q4), then applied to the IF
demodulator IC (IC1).

• 1ST IF CIRCUITS

2ND IF AND DEMODULATOR CIRCUITS (MAIN-A/-B UNIT)

The amplified 1st IF signal is mixed with the 2nd LO signal
at the internal 2nd IF mixer of the IF demodulator IC (IC1),
to obtain the 450 kHz 2nd IF signal.

The 15.3 MHz signal generated by the reference oscillator
(X2) is passed through the filter AMP (Q34, L33, L35,
C305–C308) to extract the 45.9 MHz 3rd harmonic
component. The 45.9 MHz signal is then applied to the pin
2 of IF demodulator IC (IC1) as the 2nd LO signal.

The converted 2nd IF signal is output from the pin 3 of IF
demodulator IC (IC1), and filtered by the ceramic filters
(FI2 and FI6 for Narrow mode; FI2 only for Wide mode) to
remove unwanted out-of-band signals, and then applied to
the internal frequency-demodulator of IF demodulator IC
(IC1) from pin 5.

The demodulator is a quadrature type which uses X1 as the
phase shifter.

The frequency-demodulated AF signal is output from pin 9 to
AF circuits.

• 2ND IF AND DEMODULATORCIRCUITS

LPFLPF

PWR
DET

D1,D11,D12

ANT

SW

D3,D5

BPF

D10

BPF

D19

BPF

D9

BPF

D4

BPF

D8

RF
AMP

Q2

AGC

Q1

Tuning voltage “T2”

To 1st IF circuits

Tuning voltage “T1”

450-520 MHz

400-470 MHz

RSSI

From the TX AMP

LO
SW

D14,D15

Q3

1st mixer

BPF

XTAL

FI1

IF
AMP

Q4

LPF

From RF circuits

To IF IC

46.35 MHz

1st LO signals
(353.65 MHz-423.65 MHz

403.65 MHz-473.65 MHz)

REF

X2

AMP

Q34

X1

BPF

BPF

CERAMIC

FI6

W/N

SW

Q5

BPF

CERAMIC

FI2

W/N

SW

D70,D71

W/N

SW

D68,D69

D/A

IF IC

From 1st IF circuits

IC1

IC18

NWC

15.3MHz

45.9MHz

DISC

SQIN

450kHz

To the AF circuits

NWC

5 - 2

AF CIRCUITS (MAIN-A/-B UNIT)

The demodulated AF signal from the IF demodulator IC (IC1)
is amplified by the AMP (IC21), filtered by the HPF (IC16),
and then passed through the AF line SW (IC14) and LPF
(IC16). The filtered AF signal is adjusted in level (=loudness)
by the D/A converter (IC18), and applied to the AF AMP
(IC15) through the AF line SW (IC14).

The amplified AF signal is applied to the AF power AMP (IC8)
and power-amplified to obtain AF output level.

The power-amplified AF signal is output from the external
speaker jack (J4) on the rear panel, or applied to the
internal speaker on the FRONT UNIT, through the external
speaker jack (J4).

• RX AF CIRCUITS

LPF

IC16

LPF

IC16

LPF

Q39

HPF

IC16

AF
AMP

IC15

AF
POWER
AMP

IC8

AMP

IC21

AF

MUTE

Q35,36,D29

Int. speaker

Ext. speaker jack

J4

ANALOG

SW

SDEC

To the CPU (FRONT UNIT: IC1)

CDEC

IC14

D/A

IC18

(2/5 TONE signals)

(TCSS/DTCS signals)

FRONT UNIT

AF ON

DISC

From the IF IC

DISC

DISC

VRAF

TMONI

RXAF

SIGNALING (DECODING) (MAIN-A/-B UNIT)

Demodulated signal from the pin 9 of the IF demodulator
IC (IC1) is passed through the LPF to extract tone signals
contained in the demodulated signal.

2/5 tone signal is extracted by the LPF (IC16). CTCSS/
DTCS signals are extracted by the LPF (Q39).

These extracted tone signal is applied to the CPU (FRONT
UNIT: IC1) for decoding.

5 - 3

5-2 TRANSMITTER CIRCUITS

MIC AMPLIFIER (FRONT UNIT)

Audio signal from the connected microphone is applied to
the MIC AMP (IC5), through the microphone connector (J1).
The amplifi ed MIC signal is applied to the MAIN-A/-B UNIT.

TX AF CIRCUITS (MAIN-A/-B UNIT)

The MIC signal from the FRONT UNIT is passed through
the D/A converter (as a MIC gain controller; IC18) for level
adjustment, and applied to the limiter AMP which is also
rolled to the pre-emphasis circuit (IC16).

• TX AF CIRCUITS

MIC MUTE SWITCH (MAIN-A/-B UNIT)

The pre-emphasized MIC signal is passed through the MIC
mute SW (IC14).

While receiving or transmitting DTMF, 2/5 tone and BIIS
signals, the MIC mute SW (IC14) cuts the MIC line off, and
is controlled by “MMUT” signal from the expander (IC17).

SPLATTER FILTER (MAIN-A/-B UNIT)

The MIC signal from the MIC mute SW (IC14) is applied to
the splatter fi lter (IC16).

The splatter filter (IC16) is also used as the AF Summing
AMP for tone signal modulation (CTCSS, 2/5 TONE).

MODULATION CIRCUIT (MAIN-A/-B UNIT)

MIC signal from the splatter filter (IC16) is level-adjusted
(=deviation adjustment) by the D/A converter (IC18), and
applied to the TX VCO (Q13, D16, D18), through the
modulation mute SW (IC14) as the modulation signal.

The MIC signal is also applied to the reference frequency
oscillator (X2) as the modulation signal, through D/A
converter (IC18) and REF AMP (IC19).

• MODULATION CIRCUITS

CTCSS/DTCS SIGNALS ENCODING (FRONT UNIT)

The CTCSS/DTCS encoding signal from the CPU (IC1)
“CENC0–CENC2” is passed through the LPF (IC5) for
waveform conversion, and applied to the MAIN UNIT as tone
modulation signal.

2/5 TONE, DTMF ENCODING (FRONT UNIT)

Encoding signal from the CPU (IC1) named “SENC,” is
passed through the LPF (IC5), and applied to the MAIN
UNIT as tone modulation signal.

TX AMPLIFIERS (MAIN-A/-B UNIT)

The frequency-modulated signal from the TX VCO is buffer­amplifi ed by two buffers (Q11 and Q10), and applied to the
YGR AMP (Q9) as the TX signal through the LO SW (D14).
The TX signal is sequentially amplified by the YGR AMP
(Q9) and drive AMP (Q8). The amplified signal is applied
to the FET HPA module (IC3) through the LPF, and power­amplifi ed to obtain TX output power level.

The power-amplified TX signal is passed through the
antenna SW (D3) and LPF as a harmonic filter, and then fed
to the antenna.

APC CIRCUIT (MAIN-A/-B UNIT)

A portion of TX signal rectified by D1, D11 and D12 on
the TX line to detect TX power level. The rectified voltage
is applied to the APC AMP (IC2), and the APC AMP
controls the gain of drive AMP (Q8) and HPA module (IC3)
automatically by comparing the rectified voltage and the
power setting voltage "T1."

• TX AMPLIFIERS APC CIRCUIT

REF
OSC

X2
CR-794

TX/RX

SW

D14,D15

Q13,D16,31

FIL

LOOPPLL

IC

IC4
MB15A02

FM

MOD

D18

BUFF

Q10

BUFF

Q11

IC19

AMP

REF

TX VCO

BAL

15.3 MHz

From the D/A converter

From the MIC line SW

To TX AMPs

LV

LPFLPF LPFLPF

PWR

DET

D1,D11,D12

MUTE

SW

D28

ANT

SW

D3

PWR
AMP

IC

RX circuits

3

APC
AMP

IC2

DRIVE
AM

YGR
AMP

P

Q8

Q9

T1

TMUT

From TX VCO

Splat.

IC16

AMP

IC16

AMP

IC5

MIC

line

SW

MIC

D/A

IC14

CD4066

IC18

MICROPHONE

CONNECTOR

J1

FRONT UNIT

MIC

BAL

To the Reference
frequency oscillator

MODI

MCOT

MCGO

TONE

CDTS

MODVRAF

TX VCO

SPIN