Icom IC-725 Bedienungsanleitung

ICOM

KB2LJJ

Radio Mods Database SERVICE

MANUAL

HF ALL BAND TRANSCEIVER

IC-725

Icom Inc.

INTRODUCTION DANGER

This service manual describes the latest service informa-

tion for the IC-725 HF ALL BAND TRANSCEIVER at the

time of going to press.

If you require assistance or further information regarding

the operation and capabilities of the IC-725, contact your

nearest authorized loom Dealer or Icom Service Center.

NEVER connect the transceiver to an AC outlet or

to aDC power supply that uses more than 16 V. 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

wrhen connecting the transceiver.

DO NOT apply an RF signal of more than 20 dBm

(100 mV\/) to the antenna connector. This could

damage the transceiver’s front end.

ORDERING PARTS REPAIR NOTE

Be sure to include the following four points when

ordering replacement parts

1. 10-digit order numbers

2. Component part number and name

3. Equipment model name and unit name

4. Quantity required

1110001310 1C ^PC577HA IC-725 MAIN UNIT Spieces

8810005510 Screw PHM3x6ZKBS 10725 Top cover 10 pieces

Addresses are provided on the inside back cover for your

convenience.

1. Make sure aproblem is internal before disassembling

the transceiver.

2. DO NOT open the transceiver until the transceiver

is disconnected from apower 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 along time when the

transceiver is defective.

6. DO NOT transmit power into asignal generator

or asweep generator.

7ALWAYS connect a40 dB~50 dB attenuator between

the transceiver and adeviation meter or spectrum

analyzer when using such test equipment.

8. READ the instructions of test equipment thoroughly

before connecting equipment to the transceiver.

TABLE OF CONTENTS

SECTION 1SPECIFICATIONS 1—1

SECTION 2INSIDE VIEWS 2—1~ 2

SECTION 3BLOCK DIAGRAM 3—1

SECTION 4CIRCUIT DESCRIPTION 4_1-^7

-1RECEIVER CIRCUITS 4—1

4-2TRANSMITTER CIRCUITS 4—4

4-3 PLL CIRCUITS 4—6

4-4 LOGIC CIRCUITS 4—7

-5REGULATOR CIRCUITS 4—7

SECTION 5MECHANICAL PARTS AND DISASSEMBLY 5—1-7

5-1 FRAME DISASSEMBLY '. 5—1

5-2 PA UNIT AND ACCESSORIES 5—3

-3FRONT AND PLL UNITS CONNECTOR ASSEMBLY 5—5

-4FRONT AND MAIN UNITS CONNECTOR ASSEMBLY 5—6

5-5 PA AND FILTER UNITS CONNECTOR ASSEMBLY 5—7

SECTION 6ADJUSTMENT PROCEDURES 6—1-7

-1PREPARATION BEFORE SERVICING; 6—1

6-2 PLL ADJUSTMENT 6—2

6-3 RECEIVER ADJUSTMENT 6—4

-4TRANSMITTER ADJUSTMENT 6—6

SECTION 7BOARD LAYOUTS 7-1-5

7-1 FRONT UNIT

-2MAIN UNIT

7-3 PLL UNIT

7-4 PA UNIT

7-5 DDSUNIT

7-6 AM •FM UNIT (OPTIONAL)

SECTION 8PARTS LIST 8—1-13

SECTION 9VOLTAGE DIAGRAMS 9—1-2

9-1 FRONT AND MAIN UNITS 9—1

9-2 PLL AND PA UNITS 9—2

GENERAL

•Frequency coverage Receive 500 kHz~30 MHz

Transmit 160-mband 1.8~ 2.0 MHz 17-m band 18.068~18.168 MHz

80-m band 3.5~ 4.0 MHz 15-m band 21.0 ~21.45MHz

40-mband 7.0~ 7.3 MHz 12-m band 24.89 —24.99 MHz

30-mband 10.1—10.15 MHz 10-m band 28.0 —29.7 MHz

20-m band 14.0—14.35 MHz

•Modes :SSB (A3J), CW (A1). AM (A3), FM (F3)

(Ul-7 AM •FM UNIT is required for AM transmit and FM transmit/receive.)

•Number of memory channels 26

•Antenna impedance 50 Cl unbalanced

•Usable temperature range —10 °C— +60 “C (+14 °F— +140 °F)

•Frequency stability Less than ±200 Hz up to one hour after power is turned ON.

Less than ±30 Hz after one hour at +25 °C (+77 °F).

Less than ±350 Hz at 0°C- +50 °C (+32 °F- +122 °F).

•Power supply requirement 13.8 VDC ±15 %, negative ground

•Current drain (at 13.8 VDC) Receive squelched 1.2 Amax. audio output 1.5 A

Transmit 20 A

•Dimensions :241 (W)x94 (H)x239 (D) mm (projections not included)

9.5 (W) X3.7 (H)x 9.4(D) in

•Weight 4.6 kg (10.1 lb)

TRANSMITTER

•Output power SSB. CW, FM 10—100 Wcontinuously adjustable

AM 10—40 Wcontinuously adjustable

•Spurious emissions More than 50 dB below peak output power

•Carrier suppression More than 40 dB below peak output power

•Unwanted sideband More than 50 dB down with 1kHz AF input

•Microphone impedance :600 Cl

RECEIVER

•Receive system SSB, CW, AM Double-conversion superheterodyne

FM Triple-conversion superheterodyne

•Intermediate frequencies 1st SSB 70.4515 MHz

CW 70.4506 MHz

AM, FM 70.4500 MHz

2nd SSB 9.0115 MHz

CW 9.0106 MHz

AM. FM 9.0100 MHz

3rd FM 455 kHz

•Sensitivity (preamplifier ON) SSB, CW (10 dB S/N) 1.8—30 MHz Less than 0.15 pV (—123 dBm)

AM (10 dB S/N) 0.5-1.8 MHz Less than 13.0 pV (-85 dBm)

1.8—30 MHz Less than 2.0 pV (-101 dBm)

FM (12 dB SINAD) 28—30 MHz Less than 0.5 pV (-113 dBm)

•FM squelch sensitivity Less than 0.3 pV (prearfiplifier ON)

•Selectivity ;SSB, CW More than 2.3 kHz/-6dB Less than 4.0 kHz/ -60 dB

AM More than 6.0 kHz/—6dB Less than 20.0 kHz/—40 dB

FM More than 15 kHz/—6dB Less than 30 kHz/— 50 dB

•Spurious response rejection More than 70 dB

•Audio output impedance 8Cl

•Audio output power More than 2.6 Wat 10 %distortion with an 8£5 load

•RIT variable range More than ±1kHz

All stated specifications are subject to change without notice or obligation.

1—1

SECTION 2

•PA AND FILTER UNITS

Tx/Rx switching relay

(RL13: DS1-M-DC12V)

SWR detector circuit

Tx low-pass filters

Bias control (Q4: 2SD1406Y)

Predrive amplifier

(Q1 :2SC1971)

Drive amplifier

(Q2, Q3: 2SC3133)

Cooling fan control circuit

Final amplifier

(Q5, Q6; 2SC2904)

Thermal switch

(SI :OHD-3 90M)

2—2

UNIT

SECTION 4CIRCUIT DESCRIPTION

4-1 RECEIVER CIRCUITS

4-1-1 RF SWITCHING CIRCUIT

(PA AND MAIN UNITS)

RF signals from the antenna connector pass through the

transmit/receive switching relay (RL13) and alow-pass

filter, and are applied to the MAIN UNIT via P2 (MAIN

UNIT: J12).

The signals from the PA UNIT either bypass or are

attenuated at 20 dB attenuator (R102, R103, RL1). There

are no non-linear components between the antenna

connector and attenuator to prevent distortion caused

by strong signals. The signals are then applied to RF

filters.

4-1-2 RF BANDPASS FILTER CIRCUIT

(MAIN UNIT)

The RF UNIT has 7RF bandpass filters (BPF) for signals

above 1.6 MHz and 1low-pass filter (LPF) for signals below

1.6 MHz. The signals pass through one of the bandpass

or low-pass filters depending on the receive frequency

range.

(1) 0.5~1.6 MHz

Adiode is not used at the low-pass filter entrance

removing diode distortion from very strong signals.

Signals bypass apreamplifier by the bypass switch (Q12).

(2) 1.6 MHz AND ABOVE

Signals are applied to ahigh-pass filter consisting of L42,

L43, C143~C146. This filter suppresses strong signals

below 1.6 MHz such as abroadcasting station.

The filtered signals are applied to one of 7bandpass filters

depending on the frequency of the signals and then to the

preamplifier circuit (Q8, Q9).

(3) FILTER SWITCHING CIRCUIT

An RF bandpass filter is selected with BPF switching

voltage (B0~B7) from the CPU via IC16 current amplifier.

The switching voltage of the BPF entrance is higher than

the BPF exit to improve multi-signal and strong signal

characteristics.

4-1-3 PREAMPLIFIER CIRCUIT (MAIN UNIT)

The preamplifier circuit uses low-noise junction FETs

(2SK125X2) to provide 10 dB gain over awideband

frequency range.

When the [PRE] switch is turned ON, the signals from

the RF filter are amplified by the preamplifier circuit (Q8,

Q9). When the [PRE] switch is turned OFF, the signals

bypass the preamplifier through D30 and D32. When the

operating frequency is below 1.6 MHz, 012 turns ON and

the signals bypass the preamplifier regardless of the

[PRE] switch.

Amplified or bypassed signals are applied to the 1st mixer

circuit via the low-pass filter. The low-pass filter cuts

off at 35 MHz to suppress image frequency at the 1st

mixer circuit (013, 014).

PREAMP CIRCUIT

Q10

4-1-4 1ST MIXER CIRCUITS (MAIN UNIT)

The signals from the low-pass filter enter the 1st mixer

circuit (013, 014) to be converted to a70.45 MHz 1st IF

signal.

EXACTNESS 1ST IF FREQUENCY

MODE FREQUENCY (MHz)

SSB 70.4515

CW 70.4506

AM, FM 70.4500

The 1St mixer circuit employs abalanced mixer using low-

noise junction FETs (2SK125x2) to expand the dynamic

range.

The 1st LO signal (70.951 5~1 00.451 5MHz) enters the

MAIN UNIT from the PLL UNIT via J5. The signal is

amplified at 04, filtered by alow-pass filter, and then

applied to the 1st mixer circuit (Q13, 014). The low-pass

filter employs aring core inductor to prevent 1st LO leakage

signals. The output level from Q4 is approx. 25 dBm.

The 1st IF signal is applied to an MCF (Monolithic Crystal

Filter; FI1) to suppress out-of-band signals. The signal is

amplified at the 1st IF amplifier (015), and then applied

to the 2nd mixer (101).

4-1-5 IF CIRCUITS (MAIN UNIT)

The 1st IF signal from Q15 is converted to a 9 MHz 2nd

IF signal at the 2nd mixer (iCI). IC1 is aDBM (Double

Balanced Mixer).

EXACTNESS 2ND IF FREQUENCY

MODE FREQUENCY (MHz)

SSB 9.0115

CW 9.0106

AM, FM 9.0100

The 2nd LO signal (61.44 MHz) from the PLL UNIT via J4

is applied to the 2nd mixer. The converted 2nd iF signal

passes through D4 (D35 for transmitting) and is applied

to the MCF (FI2) to suppress unwanted signals.

The signal output from FI2 passes through the noise

blanker gate (D5~D8) and is amplified at the 2nd IF am-

plifier (Q21). The signal enters one of the three 9MHz

filters (FIS, FI4, optional CW narrow filter) or optional AM

•FM UNIT via D52. The filters are selected with mode

selecting signals (SSB •CW, AM, CW-N) and the “T8”

voltage line.

The signal from a 9MHz filter is amplified at the 2nd IF

amplifiers (Q27~Q29) and applied to the demodulator

circuit.

Dual-gate FETs are used on the 1st and 2nd IF amplifiers

(Q1 5, Q21 ,Q27). The 2nd gates of Q1 5, Q21 and Q27 are

controlled by AGC bias voltage. Arapid time constant

is used for Q27 to prevent raising the edge distortion of

receive signals.

R140, connected to the gate of Q28, improves the

temperature characteristics of the receiver gain. R138

adjusts the receiver gain.

4-1-6 NOISE BLANKER CIRCUITS

(MAIN UNIT)

The IC-725 uses a noise trigger noise blanker circuit that

cuts out pulse-type noise signals at the noise blanker gate

(D5-D8).

Aportion of the signals from FI2 is amplified at the noise

amplifiers (Q16, IC2) and detected at the noise detector

(D1 2, D1 3). The detected voltage from the noise detector

is applied to the noise blanker switch (Q1 9).

The threshold level of the noise blanker switch is set at

0.9 V. When the detected voltage exceeds the threshold

level, Q20 outputs ablanking signal to activate the noise

blanker gate (D5~D8).

Aportion of the detected voltage is applied to the noise

AGC circuit (Q18) and fed back to the noise amplifier (IC2)

as noise AGC voltages. The time constant of the noise

AGC circuit is determined by R43, R47 and C60. This

AGC circuit does not operate to detect pulse-type noise.

When the operating frequency or mode is changed, the

“DNB” signal line becomes “LOW,” turning Q20 ON. The

noise blanker gate prevents PLL click noise.

4-1-7 BFO CIRCUIT (MAIN UNIT)

A9MHz signal oscillated at the BFO circuit (031, XI)

is buffer-amplified at Q42 and used at the balanced

modulator (IC6) and aproduct detector (ICS). The BFO

frequency is shifted with amode signal using D67~D69.

In USB mode, the “USB” signal line becomes “HIGH,”

turning ON D69. The frequency is then adjusted with

C294 to set the USB carrier point.

At CW mode transmitting, the “CW” signal line becomes

“HIGH” and 033 becomes OFF, turning ON D68. The

frequency is then adjusted with L83 to set the CW

transmit carrier point.

In LSB mode, the “LSB” signal line becomes “HIGH,”

turning ON D67. The frequency is then adjusted with

L82 to set the LSB carrier point.

IF CIRCUIT

062

4—2

BFO FREQUENCY IN EACH MODE

MODE FREQUENCY (MHz)

USB 9.0130

CW(Tx) 9.0106

LSB 9.0100

CW (Rx) 9.0098

AM NO OUTPUT

4-1-10 AF AMP CIRCUIT (MAIN UNIT)

The AF signal from the AF input mode selector switch is

applied to the AF preamplifier (Q35, Q36). The CW

sidetone signal is applied to Q36.

The output from the AF preamplifier is applied to the [AF]

control (FRONT UNIT, R1 b) and the 2.8 kHz cut-off active

low-pass filter (Q37). The AF signal is power-amplified at

IC9 to drive the speaker.

4-1-8 DEMODULATOR CIRCUITS

(MAIN UNIT)

The IC-725 has 2detector circuits, aproduct detector and

adiode detector to demodulate the SSB, CW signal and

AM signal respectively.

In SSB or CW mode, the 2nd IF signal from the IF amplifier

(Q29) is mixed with the BFO signal at the product detector

(ICS) to demodulate the 2nd IF signal into an AF signal.

The detected signal passes through the AF input mode

selector switch (ICS).

In AM mode, the 2nd IF signal from 029 passed through

Cl 21 is detected at D62 and passes through the AF input

mode selector switch (ICS).

4-1-11 AGC AND S-METER CIRCUIT

(MAIN UNIT)

The receiver gain is determined by the voltage on the AGC

line (030, collector). When strong signals are received,

the AGC circuit decreases the voltage on this line.

The IF signal from the IF amplifier (029) passes through

Cl 17, is detected at D59 and D60, and applied to the base

of 030. Atime constant (Cl 13, R120) is connected to

the AGC line that determines the AGC release time.

The time constant is controlled by the [AGC] switch. When

the [AGC] switch is pushed OUT, Cl 12 and R119 are

connected in parallel with the AGC line to obtain aslow

AGC release time.

4-1-9 AF INPUT MODE SELECTOR SWITCH

(MAIN UNIT)

The AF signal from adetector circuit or the optional AM

•FM UNIT is applied to the AF input mode selector switch

(ICS). ICS consists of 4analog switches and they are

selected with amode signal from IC15 and the squelch

control signal. The AF signal is applied to the AF amp

circuit.

ICS AF INPUT MODE SELECTOR SWITCH

MODE ACTIVATING

PIN NUMBERS CONTROL

PIN NUMBER

USB, CW 2-^1 13

AM 3^4 5

FM 10-^11 12

ANY MODES

(for S-meter) 9->8 6

The AGC bias voltage is applied to the differential amplifier

(IC4, pin 6) where the difference between the bias and

reference voltages is detected. The resulting S-meter

signal passes through the meter switching circuit (ICS)

and is then applied to the meter on the front panel. The

reference voltage is adjusted with R116. ICS pins 8and

9are connected inside the 1C in receiving.

The FM S-meter signal from the optional AM •FM UNIT is

applied to the meter switching circuit (ICS) via D57. The

signal is also applied to the squelch circuit (IC4 pin 2).

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