ic-f24/f25/s service manual

Transcription

ic-f24/f25/s service manual
SERVICE
MANUAL
UHF TRANSCEIVERS
INTRODUCTION
This ser vice manual describes the latest ser vice
information for the IC-F24/IC-F24S/IC-F25/IC-F25S UHF
TRANSCEIVER at the time of publication.
MODEL
IC–F24
IC–F24S
IC–F25
IC–F25S
VERSION
USA–02
USA–03
GEN–02
GEN–03
USA–02
USA–03
GEN–02
GEN–03
EUR–02
EUR–02
SYMBOL
US2
US3
GE2
GE3
US2S
US3S
GE2
GE3
EU2
EU2S
CH
16
16
16
16
2
2
2
2
16
2
FREQUENCY
400–470 MHz
450–512 MHz
450–470 MHz
450–520 MHz
400–470 MHz
450–512 MHz
400–470 MHz
450–520 MHz
400–470 MHz
400–470 MHz
To upgrade quality, all electrical or mechanical parts and
internal circuits are subject to change without notice or
obligation.
DANGER
NEVER connect the transceiver to an AC outlet or to a DC
power supply that uses more than 8 V. Such a connection
could cause a fire or electric hazard.
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 (100mW)
to the antenna connector. This could damage the transceiver's front end.
ORDERING PARTS
Be sure to include the following four points when ordering
replacement parts:
1.
2.
3.
4.
10-digit order numbers
Component part number and name
Equipment model name and unit name
Quantity required
<SAMPLE ORDER>
2260002840 Switch SKHLLFA010
8930063350 Lens 2775 Lens
IC-F24
IC-F24
Main unit
Chassis
5 pieces
10 pieces
Addresses are provided on the inside back cover for your
convenience.
REPAIR NOTES
1.
2.
3.
4.
5.
6.
7.
Make sure the problem is internal before disassembling the transceiver.
DO NOT open the transceiver until the transceiver is disconnected from its power source.
DO NOT force any of the variable components. Turn them slowly and smoothly.
DO NOT short any circuits or electronic parts. An insulated turning tool MUST be used for all adjustments.
DO NOT keep power ON for a long time when the transceiver is defective.
DO NOT transmit power into a signal generator or a sweep generator.
ALWAYS connect a 30 dB to 40 dB attenuator between the transceiver and a deviation meter or spectrum analyzer when
using such test equipment.
8. READ the instructions of test equipment thoroughly before connecting equipment to the transceiver.
Icom, Icom Inc.
and are registered trademarks of Icom Incorporated (Japan) in 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 INSTRUCTIONS
SECTION
4
CIRCUIT DESCRIPITON
SECTION
4-1
RECEIVER CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
4-2
TRANSMITTER CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2
4-3
PLL CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-3
4-4
OTHER CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-4
4-5
POWER SUPPLY CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-5
4-6
PORT ALLOCATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-5
5
ADJUSTMENT PROCEDURES
5-1
PREPARATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
5-2
CONFIGURATION LISTS FOR ADJUSTMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2
5-3
SOFTWARE ADJUSTMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3
SECTION
6
PARTS LIST
SECTION
7
MECHANICAL PARTS AND DISASSEMBLY
SECTION
8
SEMI-CONDUCTOR INFORMATION
SECTION
9
BOARD LAYOUTS
9-1
MAIN UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1
9-2
ANT UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1
9-3
CONNECT UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1
SECTION
10 BLOCK DIAGRAM
SECTION
11 VOLTAGE DIAGRAM
11-1
MAIN UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-1
SECTION 1
SPECIFICATIONS
GENERAL
• Frequency coverage
• Type of emission
: 400–470 MHz
450–512 MHz
450–520 MHz
:
VERSION
[USA], [GEN]
[EUR]
• Number of conventional channels
• Antenna impedance
• Operating temperature range
• Power supply requirement
• Current drain (at 7.2 V DC ; approx.)
• Dimensions (projections not included)
• Weight (Including BP-231)
[USA–02], [GEN–02], [EUR]
[USA–03]
[GEN–03]
WIDE
16K0F3E (25.0 kHz)
MIDDLE
NARROW
N/A
11K0F3E (12.5 kHz)
14K0F3E (20.0 kHz) 8K50F3E (12.5 kHz)
: 2 ch (IC-F24S/F25S), 16 ch (IC-F24/F25)
: 50 Ω (nominal)
: –30˚C to +60˚C (–22˚F to +140˚F)
[USA], [GEN]
–25˚C to +55˚C
[EUR]
: 7.2 V DC nominal (negative ground)
:
RECEIVING
TRANSMITTING
Stand-by
Max. audio
High (at 4 W)
Low (at 1 W)
75 mA
300 mA
1.6 A
0.8 A
: 53(W)×120(H)×38(D) mm; 23⁄32(W)×423⁄32(H)×11⁄2(D) in
: Approximately 260 g (93⁄16 oz)
TRANSMITTER
•
•
•
•
•
Output power (at 7.2 V DC)
Modulation
Maximum permissible deviation
Frequency error
Spurious emissions
• Adjacent channel power
• Audio harmonic distortion
• Hum and Noise ([USA], [GEN])
(without CCITT filter)
• Residual modulation ([EUR] only)
(with CCITT filter)
• Limiting charact of modulator
• Microphone impedance
:4W
: Variable reactance frequency modulation
: ±5.0 kHz (Wide), ±4.0 kHz (Middle), ±2.5 kHz (Narrow)
: ±2.5 ppm
: 70 dB (min.)
[USA], [GEN]
0.25 µW (≤1 GHz), 1.0 µW (>1 GHz)
[EUR]
: 70 dB min. (75 dB typical) for Wide
70 dB min. (73 dB typical) for Middle
60 dB min. (68 dB typical) for Narrow
: 3% typical (1 kHz, 40% deviation)
: 40 dB min. (46 dB typical) for Wide
34 dB min. (40 dB typical) for Narrow
: 45 dB min. (55 dB typical) for Wide
43 dB min. (53 dB typical) for Middle
40 dB min. (50 dB typical) for Narrow
: 60–100% of maximum deviation
: 2.2 kΩ
RECEIVER
• Receive system
• Intermediate frequencies
• Sensitivity
• Squelch sensitivity (at threshold)
• Adjacent channel selectivity
• Spurious response
• Intermodulation rejection ratio
• Hum and Noise ([USA], [GEN] only)
(without CCITT filter)
• Hum and Noise ([EUR] only)
(with CCITT filter)
• Audio output power
• Output impedance (Audio)
: Double conversion superheterodyne system
: 1st IF: 46.35 MHz, 2nd IF: 450 kHz
: 0.25 µV (–119 dBm) typical at 12 dB SINAD
–4 dBµV (–111 dBm) emf typical at 20 dB SINAD
: 0.25 µV typical
–4 dBµV emf typical
: 70 dB min. (75 dB typical) for Wide
70 dB min. (73 dB typical) for Middle
60 dB min. (65 dB typical) for Narrow
: 70 dB min.
: 70 dB min. (74 dB typical)
65 dB min. (67 dB typical)
: 40 dB min. (45 dB typical) for Wide
34 dB min. (40 dB typical) for Narrow
: 45 dB min. (55 dB typical) for Wide
43 dB min. (53 dB typical) for Middle
40 dB min. (50 dB typical) for Narrow
: 0.5 W typical at 5% distortion with an 8 Ω load
:8Ω
Specifications are measured in accordance with EIA-152-C/204D, TIA-603 or EN 300 086.
All stated specifications are subject to change without notice or obligation.
1-1
[USA], [GEN]
[EUR]
[USA], [GEN]
[EUR]
[USA], [GEN]
[EUR]
SECTION 2
INSIDE VIEWS
• MAIN UNIT
TOP VIEW
BOTTOM VIEW
Pre-drive
(Q5: 2SC3356)
Power amplifier
(Q7: RD07MVS1)
Drive amplifier
(Q8: RD01MUS1)
AF amplifier
(IC12: TA7368F)
S5 Regulator
Q23: 2SB1132
Q24: XP6501
Q25: UNR9113J
+5 Regulator
(IC9: NJM2870)
T5 Regulator
(Q21: 2SA1577)
Crystal filter
(FI1: FL-335)
APC amplifier
(IC2: TC75S51F)
FM IF IC
(IC1: TA31136FN)
VCO circuit
D/A converter
(IC8: M62363FP)
PLL IC
(IC4: MB15A02)
IF amplifier
(Q4: 2SC4215)
R5 Regulator
(Q22: 2SA1577)
EEPROM
(IC15: BR24L16FV)
CPU
(IC13: HD6433687A91FP)
2-1
SECTION 3
DISASSEMBLY INSTRUCTIONS
• REMOVING THE CHASSIS UNIT
Unscrew 1 nut A, and remove 2 knobs *B, C.
Unscrew 2 screws D.
Take off the chassis unit in the direction of the arrow.
Unplug the connector E from the chassis unit.
1
2
3
4
Chassis unit
A
C
D
E
*B
*: IC-F24/F25 only
• REMOVING THE MAIN UNIT (IC-F24/F25)
• REMOVING THE MAIN UNIT (IC-F24S/F25S)
1
2
3
4
5
6
1
2
3
4
5
6
7
Unscrew 2 nuts F, and remove the top plate G.
Unsolder 1 point H, and remove the earth plate.
Unsolder 5 points I, and remove the shield cover.
Unscrew 2 screws K, and remove the side plate L.
Unscrew 7 screws M.
Unsolder 4 points N, and take off the main unit in the
direction of the arrow.
Shield cover
H Earth plate
Remove the switch connector O.
Unsolder 2 nuts F, and remove the top plate G.
Unsolder 1 point H, and remove the earth plate.
Unsolder 5 points J, and remove the shield cover.
Unscrew 2 screws K, and remove the side plate L.
Unscrew 7 screws M.
Unsolder 4 points N, and take off the main unit in the
direction of the arrow.
Shield cover
I
H
Earth plate
I
K
M
K
N
L
N
M
Main unit
F
N
M
M
N
F
M
G
a
Chassis unit
Chassis unit
3-1
L
M
Main unit
G
a
SECTION 4
CIRCUIT DESCRIPTION
The RF signals from the bandpass filter are mixed with the
1st LO signals, where come from the RX VCO circuit via
the BPF (L12, L38, C49, C304, C305), at the 1st mixer circuit (Q3) to produce a 46.35 MHz 1st IF signal. The 1st IF
signal is passed through a monolithic filter (FI1) in order to
obtain selection capability and to pass only the desired signal. The filtered signal is applied to the 2nd IF circuit after
being amplified at the 1st IF amplifier (Q4).
4-1 RECEIVER CIRCUITS
4-1-1 ANTENNA SWITCHING CIRCUIT
The antenna switching circuit functions as a low-pass filter
while receiving and a resonator circuit while transmitting.
This circuit does not allow transmit signals to enter the
receiver circuits.
Received signals enter the antenna connector (CHASSIS;
J1) and pass through the low-pass filter (L1, L2, L45, C1–C6,
C175). The filtered signals are passed through the 1⁄4λ type
antenna switching circuit (D2, D5, L5) and then applied to
the RF circuit.
4-1-4 2ND IF AND DEMODULATOR CIRCUITS
The 2nd mixer circuit converts the 1st IF signal into a 2nd
IF signal. The double-conversion superheterodyne system
(which converts receive signals twice) improves the image
rejection ratio and obtains stable receiver gain.
4-1-2 RF CIRCUIT
The RF circuit amplifies signals within the range of frequency coverage and filters out-of-band signals.
The 1st IF signal from the IF amplifier (Q4) is applied to
the 2nd mixer section of the FM IF IC (IC1, pin 16), and
is mixed with the 2nd LO signal to be converted into a
450 kHz 2nd IF signal.
The signals from the antenna switching circuit pass through
the bandpass filter (D3, D4, D7, D8, L7, L8, C21, C23,
C24). The filtered signals are amplified at the RF amplifier
(Q2) and then passed through the another bandpass filter
(D9, D10, C39, C40, C45) to suppress unwanted signals.
The filtered signals are applied to the 1st mixer circuit.
The FM IF IC (IC1) contains the 2nd mixer, 2nd local oscillator, limiter amplifier, quadrature detector, active filter and
noise amplifier circuits. The 2nd LO signal (45.9 MHz) is
produced at the PLL circuit by tripling it’s reference frequency (15.3 MHz).
D3, D4, D7–D10 employ varactor diodes, that are controlled by the CPU via the D/A converter (IC8), to track
the bandpass filter. These varactor diodes tune the center
frequency of an RF passband for wide bandwidth receiving
and good image response rejection.
The 2nd IF signal from the 2nd mixer (IC1, pin 3) passes
through the ceramic filter (FI2) to remove unwanted heterodyned frequencies. It is then amplified at the limiter
amplifier section (IC1, pin 5) and applied to the quadrature
detector section (IC1, pins 10, 11) to demodulate the 2nd
IF signal into AF signals.
4-1-3 1ST MIXER AND 1ST IF CIRCUITS
The 1st mixer circuit converts the received signal into fixed
frequency of the 1st IF signal with the PLL output frequency. By changing the PLL frequency, only the desired
frequency passes through a crystal filter at the next stage
of the 1st mixer.
The demodulated AF signals are output from pin 9 (IC1) as
“DET” signal, and are then applied to the AF circuit.
• 2ND IF AND DEMODULATOR CIRCUITS
2nd IF filter
450 kHz
Q19
45.9 MHz
FI2
8
7
Noise
AMP
Active
filter
"SQLC" signal from the
D/A converter IC
(IC8, pin 2)
3
5
X2
15.3 MHz
×3
2
Noise
detector
Mixer
Limiter
AMP
Noise
comparator
FM
detector
RSSI
IC1 TA31136FN
To D/A converter IC
(IC8, pin 1)
9
10
11
12
13
16
1st IF signal from the IF amplifier (Q4)
"NOIS" signal to the CPU (IC13, pin 53)
AF signal "DET"
to the AF circuit
R5V
"RSSI" signal to the CPU (IC13, pin 63)
X1
4-1
• CTCSS AND DTCS
The tone squelch circuit detects tone signals and opens the
squelch only when the receiving signal contains matched
subaudible tone (CTCSS or DTCS). When tone squelch is
in use, and a signal with a mismatched or no subaudible
tone is received, the tone squelch circuit mutes the AF signals even when noise squelch is open.
4-1-5 AF AMPLIFIER CIRCUIT
The AF amplifier circuit amplifies the demodulated AF signals to drive a speaker.
The AF signals from the FM IF IC (IC1, pin 9) pass through
the high-pass filter (IC6, pins 3 and 1) to suppress unwanted harmonic components. The signals pass through the
RX mute switch (Q34) which is controlled by “RMUT” signal from the CPU (IC13, pin 56), and are then applied to
another high-pass filter (IC6, pins 13 and 14). The filtered
signals pass through the low-pass filter (IC6, pins 6 and
7) via the analog switch (IC10, pins 1 and 2). The signals
are applied to the analog switch (IC10, pin 10) again, and
are then applied to the AF power amplifier (IC12, pin 4) via
the AF volume (R226). The amplified AF signals are output
from pin 10, and are then applied to the internal speaker
which is connected to J1 via the [SP] jack (J3).
A portion of the “DET” signals from the FM IF IC (IC1, pin
9) passes through the low-pass filter (IC7, pins 5 and 7)
to remove AF (voice) signals, and are then applied to the
amplifier (IC7, pin 3). The amplified signals are applied to
the CTCSS or DTCS decoder inside of the CPU (IC13, pin
60) as the “CDEC” signal. The CPU outputs AF mute control signal from pin 56, and is then applied to the RX mute
switch (Q34) and analog switch (IC10, pins 12 and 13) to
control AF signals muting as “RMUT” signal.
4-1-6 RECEIVE MUTE CIRCUITS
4-2 TRANSMITTER CIRCUITS
• NOISE SQUELCH
A squelch circuit cuts out AF signals when no RF signals
are received. By detecting noise components in the AF signals, the squelch circuit switches the AF mute switch.
4-2-1 MICROPHONE AMPLIFIER CIRCUIT
The microphone amplifier circuit amplifies audio signals
within +6 dB/octave pre-emphasis characteristics from the
microphone to a level needed for the modulation circuit.
Some noise components in the AF signals from the FM IF
IC (IC1, pin 9) are applied to the D/A converter (IC8, pin
1) as “DET” signal, and are then output from pin 2. The
signals are applied to the active filter section in the FM IF
IC (IC1, pin 8). The active filter section filters and amplifies
noise components. The amplified signals are converted into
the pulse-type signals at the noise detector section and
output from pin 13 as “NOIS” signal.
The AF signals from the microphone are passed through
the microphone mute switch (Q35), and are then applied
to the amplifier (IC6, pins 9 and 8) via the high-pass filter
(IC6, pins 13 and 14). The amplified signals are applied to
the analog switch (IC10, pin 4), and outputs from pin 3. The
signals pass through the low-pass filter (IC6, pins 6 and 7),
then applied to the analog switch (IC10, pin 9) again and
output from pin 8.
The “NOIS” signal from the FM IF IC is applied to the CPU
(IC13, pin 53). Then the CPU analyzes the noise condition
and outputs the AF mute control signal from the CPU (pin
56) as “RMUT” signal from pin 56. The signal is applied to
the RX mute switch (Q34) to control the AF signal muting.
The signals are applied to the D/A converter (IC8, pin 4).
The converted signals output from pin 3, and applied to the
modulation circuit (D18) as “MOD” signal.
• ANALOG SWITCHING CIRCUITS
"DET" AF signal
from FM IF IC (IC1, pin 9)
IC6 A
Q34
HPF
RX
MUTE
IC6 B
LPF
2
1
3
IC6 D
Q35
HPF
MIC
MUTE
Microphone
IC6 C
Analog SW
(IC10)
9
AMP
4
AF
volume
10
11
8
IC12
AF
AMP
R226
IC8
D/A converter
D18
to TX VCO circuit
(Q13, D17, D21)
FM mod.
"CTCSS/DTCS" signal from
D/A conveter IC (IC8, pin 10)
"TONE" signal from CPU (IC13) via low-pass
filters (IC5 A / B pin 7)
4-2
Speaker
4-2-2 MODULATION CIRCUITS
4-2-4 APC CIRCUITS
The modulation circuit modulates the VCO oscillating signal
(RF signal) using the audio signals from the microphone.
The bias current of the drive (Q8) and power (Q7) amplifiers
are controlled by the APC circuit.
The AF signals from the D/A converter (IC8, pin 3) change
the reactance of varactor diode (D18) to modulate the oscillated signal at the TX VCO circuit (Q13, D17, D21). The
modulated VCO signal is amplified at the buffer amplifiers
(Q10, Q12) and then applied to the drive amplifier circuit via
the T/R switch (D14).
The APC circuit (IC2, D1, D30) protects drive and power
amplifiers from the reflected signal, and selects output
power of HIGH, LOW2 or LOW1.
The power detector (D1, D30) detects transmit output power
and converts it into DC voltage. The DC voltage is at a minimum level when the antenna impedance is matched to 50 Ω,
and increased when mismatched.
The CTCSS/DTCS signals (“CENC0,” “CENC1,” “CENC2”)
from the CPU (IC13, pins 23–25) pass through the low-pass
filter (IC5, pins 12 and 14) via 3 registers (R191–R193) to
change its waveform. Then the signals are applied to the
D/A converter (IC8, pin 9). The output signals from the D/A
converter (IC8, pin 10) pass through the low-pass filter
(IC6, pins 6 and 7) to be mixed with “MOD” signal, and then
applied to the D/A converter again (IC8, pin 4) after passing
through the analog switch (IC10, pins 8 and 9).
The detected voltage is applied to the differential amplifier
(IC2, pin 3), and the “T2” signal from the D/A converter (IC8,
pin 23), controlled by the CPU (IC13), is applied to pin 1 for
reference. When antenna impedance is mismatched, the
detected voltage exceeds the power setting voltage. Then
the output voltage of the differential amplifier (IC2, pin 4)
controls the input current of the drive (Q8), and power (Q7)
amplifiers to reduce the output power.
4-2-3 TRANSMIT AMPLIFIER CIRCUITS
Transmit amplifiers amplify the TX VCO oscillating signal to
transmit power level.
The modulated RF signal from the TX VCO circuit passes
through the T/R switch (D14) and is amplified at the YGR
(Q9), pre-drive (Q5), drive (Q8), and power (Q7) amplifiers
to obtain 4 W (max.) of RF power (at 7.2 V DC).
The amplified signal passes through the low-pass filter (L4,
C11, C13, C16), antenna switch (D2), the low-pass filter (L1
–L3, C2–C5, C175, C176) and power detector (D1, D30),
then applied to the antenna connector (CHASSIS unit; J1).
• APC CIRCUITS
VCC
T5V
Q9
RF signal
from Buffer AMP
Q8
Q5
YGR
AMP
Pre-drive
AMP
Drive
AMP
Q7
Power
AMP
LPF
ANT
SW
LPF
to ANT
D2, D5
T2
+
IC2
APC
AMP
TMUT
D30
–
D1
Power DET
4-3
4-3 PLL CIRCUITS
4-3-2 VCO CIRCUITS
4-3-1 PLL CIRCUIT
A PLL circuit provides stable oscillation for the transmit frequency and the receive 1st LO frequency. The PLL output
compares the phase of the divided VCO frequency to the
reference frequency. The PLL output frequency is controlled
by the divided ratio (N-data) of a programmable divider.
The VCO circuit contains a separate RX VCO (Q14, D16,
D22) and TX VCO (Q13, D17, D21). The oscillated signal
is amplified at the buffer amplifiers (Q10, Q12) and is then
applied to the T/R switch (D14 for TX, D15 for RX). Then the
receive 1st LO (RX) signal is applied to the 1st mixer circuit
(Q3) and the transmit (TX) signal to the pre-drive amplifier
(Q9).
The PLL circuit contains the TX/RX VCO circuits (TX:
Q13, D17, D18, D21; RX: Q14, D16, D22). The oscillated
signal is amplified at the buffer amplifiers (Q11, Q12) and
then applied to the PLL IC (IC4, pin 8) after being passed
through the low-pass filter (L32, C206, C208).
A portion of the signal from the buffer amplifier (Q12) is fed
back to the PLL IC (IC4, pin 8) via the buffer amplifier (Q11)
and low-pass filter (L32, C206, C208) as the comparison
signal.
The PLL IC (IC4) contains a prescaler, programmable
counter, programmable divider and phase detector, charge
pump, etc. The entered signal is divided at the prescaler and
programmable counter section by the N-data ratio from the
CPU. The divided signal is detected on phase at the phase
detector using the reference frequency. The phase detected
signal is applied to the charge pump to be converted into
the DC voltage, and output from pin 5. After passes through
the loop filter (C130, C138, C146, C147, R95–R97), the DC
voltage is applied to the TX/RX VCO as the lock voltage.
If the oscillated signal drifts, its phase changes from that of
the reference frequency, causing a lock voltage change to
compensate for the drift in the oscillated frequency.
• PLL CIRCUITS
RX VCO
Buffer
Q10
Q14, D16, D22
Buffer
Q18
"LVIN" signal to the CPU
(IC13, pin 64)
D14
Buffer
Q12
TX VCO
D15
Buffer
Q11
Q13, D17, D21
Loop
filter
LPF
IC4 MB15A02
5
45.9 MHz 2nd LO
signal to the FM IF IC Tripler
(IC1, pin 2)
3
Phase
detector
Charge
pump
Programmable counter
Programmable
divider
Prescaler
Shift register
2
8
9 CLOCK
10 DATA
11 PLST
1
X2
15.3 MHz
Q19
4-4
to 1st mixer circuit
to transmitter circuit
4-4 OTHER CIRCUITS
4-6 PORT ALLOCATION
LED CONTROL CIRCUITS
4-6-1 D/A CONVERTER IC (IC8)
The LED control circuit is composed of the CPU (IC13),
LED driver (Q32) and LED (DS1).
Pin
number
The CPU outputs “RLED” and “TLED” signals from the pins
42 and 43. The signals are applied to the LED driver (Q32,
pins 2 and 5). The driver outputs LED control signals to the
LEDs (DS1).
CONDITION
COLOR
RECEIVING (2/5-TONE CODE)
ORANGE (Lighting)
LOW BATTERY
(Nearly exhausted)
RED (Blinks Slowly)
LOW BATTERY
(Almost exhausted)
RED (Blinks Fast)
CLONING
ORANGE (Blinking)
RECEIVING/SQUELCH OPEN
GREEN (Lighting)
TRANSMITTING
RED (Lighting)
+5V
Common 5 V converted from the VCC line at
the +5 regulator circuit (IC9). The output voltage
is supplied to the D/A converter (IC8), analog
SW (IC10), etc.
S5V
Common 5 V converted from the VCC line at
the S5 regulator circuit (Q23–Q25). The output
voltage is supplied to the ripple filter (Q17), PLL
IC (IC4), etc.
R5V
Receive 5 V converted from the S5V line at the
R5 regulator circuit (Q22). The output voltage
is supplied to the tripler (Q19), FM IF IC (IC1),
IF amplifier (Q4), VCO switch (Q15, Q16), 1st
mixer (Q3), etc.
T5V
LVA
Outputs the PLL lock voltage control
signal. The output signal is applied to
the RX VCO (Q14, D16, D22) and TX
VCO (Q13, D17, D21).
15
REF
Outputs the reference oscillator
correcting voltage. The voltage is applied
to the reference frequency crystal
oscillator (X2, pin 1).
22
T1
Outputs the bandpass filter tuning
signal. The output signal is applied to
the bandpass filters (D3, D4, D7, D8).
T2
• Outputs the bandpass filter tuning
signal during receive. The output
signal is applied to the bandpass
filters (D9, D10).
• Outputs the TX power control signal
during transmit. The output signal is
applied to the APC amplifier (IC2,
pin 1).
23
DESCRIPTION
The voltage from the connected battery pack.
BAL
Outputs the modulation balance level
control signal. The signal is applied
to the reference frequency crystal
oscillator (X2, pin 1).
14
VOLTAGE LINE
VCC
Description
11
4-5 POWER SUPPLY CIRCUIT
LINE
Port
name
Transmit 5 V converted from the S5V line at the
T5 regulator circuit (Q21). The output voltage is
supplied to the YGR (Q9), pre-drive (Q5), APC
amplifier (IC2), etc.
4-5
4-6-2 CPU (IC13)
Pin
number
Port
name
1
TEMP
2
BATV
7
13
14
RES
SENC0
SENC1
16
DUSE
18
AFON
19
SENC2
20
SENC3
21
CBI0
22
CBI1
23
CENC0
24
CENC1
25
CENC2
26
CBI2
27
CBI3
28
SCK
29
SO
30
BEEP
31
ESDA
32
ESCL
33
UNLK
34
PLST
36
NWC
37
DAST
38
S5C
39
T5C
40
R5C
Description
Pin
number
Input port for the transceiver’s
internal temperature detecting
signal.
Input port for the detect signal
for connecting battery pack’s
voltage.
Input port for power reset signal.
42
RLED Outputs receiving LED control signal.
43
TLED
44
45
46
OPT3
OPT1 I/O ports for option unit.
OPT2
Input port for the PTT switch detection
PTT signal.
Low : While the PTT switch is pushed.
Serial Bus inputport.
SI
CLI Input port for the cloning data signal.
CLO Outputs the cloning data signal.
Input port for the noise signal from the
NOIS
FM IF IC (MAIN unit; IC1, pin 13).
Output single tone encoder
signal.
Outputs DTSC LPF control
signal.
Outputs AF power amplifier
control signal.
47
48
49
50
Output single tone encoder
signal.
53
Input ports for rotary selector.
Output CTCSS/DTCS signals.
Input ports for rotary selector.
Outputs serial clock signal to
the PLL IC (IC4, pin 9), D/A
convertor (IC6, pin 7), etc.
Outputs serial data to the PLL IC
(IC6, pin 8) and D/A convertor
(IC6, pin 8).
I/O port for data signals from/to
the EEPROM (IC15, pin 5).
Outputs clock signal to the
EEPROM (IC15, pin 6).
Input port for unlock signal from
PLL IC.
Outputs strobe signals to the
PLL IC (IC4, pin 11).
Output/input por t for wide/
narrow control signal.
• Outputs strobe signals to the
D/A convertor (IC8, pin 6).
• Input port for the connecting
battery type detect signal.
Outputs power save control
signal.
Outputs T5 regurator control
signal.
Low: While transmitting
Outputs R5 regurator control
signal.
Low: While receivinging
4 6- 6
Description
Outputs transmitting LED control
signal.
54
CIRQ Input port for option unit detection.
55
CCS Outputs chip select signal.
56
TMUT Outputs transmit mute signal.
57
RMUT
58
MMUT Outputs MIC mute signal.
59
REMO Inputs key signal from remote mic.
60
CDEC
61
Outputs beep audio signals.
Port
name
Input port for AF mute signal from the
RX circuit.
Input port for CTCSS/DTCS signal
from the amplifier (IC5, pin 8).
Input port for single tone decode
SDEC
signal from the LPF (IC5, pin 8).
62
KEY
Inputs key input signal.
63
RSSI
Input port for the S-meter signal from
the FM IF IC (IC1, pin 12).
64
LVIN Input port for the PLL lock voltage.
SECTION 5
ADJUSTMENT PROCEDURES
5-1 PREPARATION
When adjusting IC-F24/F25/S, the optional CS-F14 ADJ ADJUSTMENT SOFTWARE (Rev. 1.0 or later), JIG cable (see the illust
below) and OPC-478 (RS-232 type) or OPC-478U (USB type) CLONING CABLE are required.
REQUIRED TEST EQUIPMENTS
GRADE AND RANGE
EQUIPMENT
GRADE AND RANGE
EQUIPMENT
DC power supply
Output voltage
Current capacity
: 7.2 V DC
: 5 A or more
Audio generator
Frequency range
Output level
: 300–3000 Hz
: 1–500 mV
FM deviation meter
Frequency range
Measuring range
: DC–600 MHz
: 0 to ±10 kHz
Attenuator
Power attenuation
Capacity
: 20 or 30 dB
: 10 W or more
Frequency counter
Frequency range
: 0.1–600 MHz
Frequency accuracy : ±1 ppm or better
Sensitivity
: 100 mV or better
Frequency range
Output level
Digital multimeter
Input impedance
: 10 MΩ/V DC or better
: 100–600 MHz
: 0.1 µV–32 mV
(–127 to –17 dBm)
(As open circuit.)
: 1–10 W
: 100–600 MHz
: 50 Ω
: Less than 1.2 : 1
DC voltmeter
Input impedance
: 50 kΩ/V DC or better
RF power meter
(terminated type)
Measuring range
Frequency range
Impedance
SWR
Oscilloscope
Frequency range
Measuring range
: DC–20 MHz
: 0.01–20 V
S I NAD me ter
Measuring range
: 2 0 –2 0 k H z
AC millivoltmeter
Measuring range
: 10 mV–10 V
Standard signal
generator (SSG)
STARTING SOFTWARE ADJUSTMENT
SYSTEM REQUIREMENTS
®
(1) Connect IC-F24/F25/S and PC with OPC-478/U
and JIG CABLE.
(2) Turn the transceiver power ON.
(3) Boot up Windows, and click the program group 'CS-F14 ADJ’
in the ‘Programs’ folder of the [Start] menu, then CS- F14
ADJ’s window appears.
(4) Click ‘Connect’ on the CS-F14’s window, then appears
IC-F14’s up-to-date condition.
(5) Set or modify adjustment data as desired.
®
• Microsoft Windows 98/SE/ME/2000/XP
• RS232C/USB port
BEFORE STARTING SOFTWARE ADJUSTMENT
Clone adjustment freqencies, TX power, CTCSS frequency,
DTCS code and IF bandwidth (see ADJUSTMENT
CONFIGULATION on the next page) into the transceiver
using with the CS-F14 CLONING SOFTWARE before starting
SOFTWARE ADJUSTMENTS. Otherwise, the transceiver
can not be adjusted.
CAUTION!: BACK UP the originally programmed memory
data in the transceiver before programming
the adjustment frequencies.
When program the adjustment frequencies
into the transceiver, the transceiver’s memory
data will be overwritten and lose original
memory data at the same time.
Microsoft and Windows are registered trademarks of
Microsoft Corporation in the U.S.A. and other countries.
(JIG CABLE
( SP + )
(SP − )
(GND)
3-conductor 3.5(d) mm plug
OPC-478/U
JIG cable
To IC-F24/F25/S
[SP] jack
(CLONE)
5-1
5-2 CONFIGULATION LIST FOR ADJUSTMENTS
- IC-F24/F25 -
[US2]=USA-02, [GE2]=GEN-02, [EU2]=EUR-02, [US3]=USA-03, [GE3]=GEN-03
FREQUENCY (MHz)
FREQUENCY (MHz)
CH.
SETTING CONDITION
[US2], [EU2],
[GE2]
CH.
[US3], [GE3]
1
400.000
450.000
Set TX power to High.
2
400.000
450.000
Set TX power to Low1.
3
400.000
450.000
Set TX power to Low2.
4
435.000
485.000
Set TX power to Low1.
5
470.000
520.000
Set TX power to Low1.
485.000
Set TX power to Low1.
Set DTCS code to 007.
Set IF bandwidth to Narrow.
6
435.000
SETTING CONDITION
[US2], [EU2],
[US3], [GE3]
[GE2]
7
435.000
485.000
Set TX power to Low1.
Set DTCS code to 007.
Set IF bandwidth to Wide/Middle.
(Middle : EUR only)
8
435.000
485.000
Set TX power to Low1.
Set IF bandwidth to Narrow.
9
435.000
485.000
Set TX power to Low1.
Set IF bandwidth to Wide/Middle.
(Middle : EUR only)
10
435.000
485.000
Set TX power to Low1.
Set IF bandwidth to Wide.
Set CTCSS to 151.4Hz.
11
400.000
450.000
Set IF bandwidth to Wide.
- IC-F24S/F25S • Re-clone these settings every time each category is adjusted. (1−8).
5.MODULATION BALANCE
1.PLL LOCK VOLTAGE
2.REFERENCE FREQENCY
FREQUENCY (MHz)
CH. [US2], [EU2],
FREQUENCY (MHz)
CH.
[GE2]
SETTING CONDITION
[US2], [EU2],
[US3], [GE3]
[GE2]
1
2
400.000
470.000
450.000
520.000
1
Set TX power to Low1.
Set TX power to Low1.
2
435.000
435.000
485.000
Set TX power to Low1.
Set DTCS code to 007.
Set IF bandwidth to Narrow.
485.000
Set TX power to Low1.
Set DTCS code to 007.
Set IF bandwidth to Wide/Middle.
(Middle : [EUR] only)
3.TX POWER
FREQUENCY (MHz)
CH. [US2], [EU2],
[GE2]
[US3], [GE3]
SETTING CONDITION
6.CTCSS/DTCS DEVIATION
1
400.000
450.000
Set TX power to High.
2
400.000
450.000
Set TX power to Low2.
3
400.000
450.000
SETTING CONDITION
[US3], [GE3]
FREQUENCY (MHz)
CH. [US2], [EU2],
[GE2]
Set TX power to Low1.
1
[US3], [GE3]
435.000
485.000
4.FM DEVIATION
FREQUENCY (MHz)
CH. [US2], [EU2],
[GE2]
1
435.000
[US3], [GE3]
435.00
Set TX power to Low1.
Set IF bandwidth to Wide.
Set CTCSS to 151.4Hz.
SETTING CONDITION
485.000
Set TX power to Low1.
Set IF bandwidth to Narrow.
485.00
Set TX power to Low1.
Set IF bandwidth to Wide/Middle.
(Middle : [EUR] only)
7.RX SENSITIVITY
8.SQUELCH LEVEL
FREQUENCY (MHz)
CH.
2
SETTING CONDITION
1
5 2- 2
[US2], [EU2],
[US3], [GE3]
[GE2]
400.000
450.000
SETTING CONDITION
Set IF bandwidth to Wide.
(CONNECTION
AC millivoltmeter
To [MIC]
Standard signal generator
0.1 µV to 32 mV
(–127 dBm to –17 dBm)
Audio generator
to the antenna connector
OPC-478 (RS-232C type)
to RS-232C port
DO NOT transmit while
an SSG is connected to
the antenna connector.
FM
deviation meter
OPC-478U (USB type)
Attenuator
20 dB / 30 dB
to USB port
PC
RF power meter
0.1–10 W/50 Ω
To [SP]
connector
Frequency
counter
SINAD meter
To [SP]
JIG cable
(see page 5-1)
Speaker (8 Ω)
IC-F24/F25/S
(JIG CABLE
( SP + )
(SP − )
(GND)
3-conductor 3.5(d) mm plug
OPC-478/U
JIG cable
To IC-F24/F25/S
[SP] jack
(CLONE)
5-3
(PC SCREEN EXAMPLE
NOTE: The above screen is an example.
Each transceiver has its own specific values for each setting.
5-4
5-3 SOFTWARE ADJUSTMENTS (TRANSMITTING)
Select the operation using [↑] / [↓] keys, then set specified value using [←] / [→] keys on the connected computer keyboard.
ADJUSTMENT
MEASUREMENT
ADJUSTMENT CONDITION
UNIT
PLL LOCK
VOLTAGE
[LV (RX LVA)]
[LV (TX LVA)
1
• Operating CH
• Receiving
: CH2 (*CH1)
2
• Operating CH
: CH2 (*CH1)
• Connect an RF power meter or 50 Ω
dummy load to the antenna connector.
• Transmitting
VALUE
LOCATION
PC " L V I N " i t e m o n
screen CS-F14 ADJ's screen.
the
1.0 V
1.0 V
CONVENIENT:
PLL LOCK VOLTAGE can be adjusted automatically.
Select "TX LVA"/"TX LVA" item on the CS-F14 ADJ screen, and push [ENTER] key.
3
• Operating CH
• Receiving
4
• Operating CH
: CH5 (*CH2)
• Connect an RF power meter or 50 Ω
dummy load to the antenna connector.
• Transmitting
REFERENCE
FREQUENCY
[REF]
1
• Operating CH
• Transmitting
: CH5 (*CH1)
Top Loosely couple the frequency 470.0000 MHz
[US2], [EU2], [GE2]
panel counter to the antenna
520.0000 MHz
connector.
[US3], [GE3]
OUTPUT
POWER
[Power (Hi)]
1
• Operating CH
• Transmitting
: CH1 (*CH1)
Top Connect the RF power meter
panel to the antenna connector.
[Power (L2)]
2
• Operating CH
• Transmitting
: CH3 (*CH2)
2.0 W
• Operating CH
• Transmitting
: CH2 (*CH3)
1.0 W
[Power (L1)]
: CH5 (*CH2)
PC " L V I N " i t e m o n
screen CS-F14 ADJ's screen.
the
3.3–4.5 V
(Verify)
3.3–4.5 V
(Verify)
Top Connect the FM deviation
panel m e t e r t o t h e a n t e n n a
connector through the
attenuator.
4.0 W
±2.10 kHz
FM
DEVIATION
[MOD N]
(Narrow)
1
• Operating CH
: CH8 (*CH1)
• Set the deviation meter as:
HPF
: OFF
LPF
: 20 kHz
De-emphasis : OFF
Detector
: (P_P)/2
• Connect the audio generator the [MIC]
connector and set as
: 1.0 kHz 150mV rms
• Transmitting
[MOD Ratio]
(Middle; EUR only)
2
• Operating CH
• Transmitting
: CH9 (*CH2)
±3.20 kHz
[MOD Ratio]
(Wide)
3
• Operating CH
• Transmitting
: CH9 (*CH2)
±4.10 kHz
MODULATION
BALANCE
[BAL N]
(Narrow)
1
• Operating CH
: CH6 (*CH1)
• No audio applied to the [MIC] input.
• Set the deviation meter as:
HPF
: OFF
LPF
: 20 kHz
De-emphasis : OFF
Detector
: (P_P)/2
• Transmitting
[BAL Ratio]
(Middle; EUR only)
2
• Operating CH
• Transmitting
: CH7 (*CH2)
[BAL Ratio]
(Wide)
3
• Operating CH
• Transmitting
: CH7 (*CH2)
Top Connect the FM deviation
panel meter with the oscilloscope
to the antenna connector
through an attenuator.
*For F24S/F25S adjustment.
5-5
Set to square wave
form
5-3 SOFTWARE ADJUSTMENTS (RECEIVING)
• Select an operation using [↑] / [↓] keys, then set specified value using [←] / [→] keys on the connected computer keyboard.
ADJUSTMENT
MEASUREMENT
ADJUSTMENT CONDITION
UNIT
LOCATION
VALUE
CTCSS/DTCS
DEVIATION
[CTCS/DTCS]
1 • Operating CH
: CH10 (*CH1)
• No audio applied to the [MIC] input.
• Transmitting
Top
panel
Connect the FM deviation
meter to the antenna
connector through the
attenuator.
RX
SENSITIVITY
[BPF T1],
[BPF T2]
1 • Operating CH
: CH11 (*CH1)
• Connect a standard signal generator to
the antenna connector and set as:
Frequency
: 400.000 MHz
[US2], [EU2], [GE2]
450.000 MHz
[US3], [GE3]
Level
: +20 dBµ (–87dBm)
Modulation
: 1 kHz
Deviation
: ±3.5 kHz
• Receiving
Side
Panel
Connect the SINAD meter Minimum distortion level
with an 8 Ω load to the [SP]
jack through the JIG cable.
±0.68 kHz
CONVENIENT:
RX SENSITIVITY can be adjusted automatically.
Select "BPF ALL" item on the CS-F14 ADJ's screen, and push [ENTER] key.
SQUELCH
LEVEL
[SQL]
1 • Operating CH
: CH11 (*CH1)
Side Connect a speaker to the Set “SQL level” to close
pannel [SP] jack through the JIG squelch.
• Connect an SSG to the antenna connector
cable.
Then set “SQL level” at the
and set as:
point where the audio
Frequency
: 400.000 MHz
signals just appears.
[US2], [EU2], [GE2]
450.000 MHz
[US3], [GE3]
Level
: –14 dBµ (–121dBm)
Modulation
: 1 kHz
Deviation
: ±3.5 kHz
• Receiving
*For F24S/F25S adjustment.
5-6
SECTION 6
PARTS LIST
[MAIN UNIT]
REF
NO.
IC1
IC2
IC4
IC5
IC6
IC7
IC8
IC9
IC10
IC12
IC13
IC14
IC15
[MAIN UNIT]
ORDER
NO.
1110003200
1130008560
1140005990
1110005340
1110005320
1110005330
1190000350
1110005350
1130011770
1110001810
1140012260
1140012350
1110006260
1130011540
DESCRIPTION
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
TA31136FN (EL)
TC75S51F (TE85L)
MB15A02PFV1-G-BND-ER
NJM12902V-TE1
NJM13403V-TE1
NJM12904V-TE1
M62363FP-650C
NJM2870F05-TE1
CD4066BPWR
TA7368F (ER)
HD64F3687FP
[US2], [GE2]
HD6433687A91FP
[Others]
BD5242G-TR
BR24L16FV-WE2
H/V
M. LOCATION
REF
NO.
ORDER
NO.
DESCRIPTION
B
T
T
T
T
T
T
B
T
T
T
51.8/19
68.9/21
38.3/35.7
29.7/11.6
15.9/34.6
29.2/34.6
40.3/15.2
84.2/14.2
22.9/34.6
89.3/13.2
12.5/14.3
X1
X2
X3
6070000190
6050011940
6050011720
S.DCR
S.XTL
S.XTL
L1
L2
L3
L4
L5
6200008700
6200008240
6200009470
6200009470
6200009070
S.COL
S.COL
S.COL
S.COL
S.COL
T
B
6.6/5.9
16/11.6
L7
6200010850
6200007690
L8
6200007700
6200007690
L9
6200007700
6200007670
L11
6200007680
6200007230
L12
6200007680
6200005720
L13
L15
L17
L18
L19
6200005730
6200003350
6200002850
6200008220
6200006770
6200005660
L20
6200005670
6200005680
L21
L22
L23
L25
L26
L27
L28
L29
L30
L32
L33
L35
L38
L40
L41
L42
L43
L45
6200005690
6200007880
6200007900
6200002850
6200008490
6200008510
6200004950
6200004950
6200004660
6200007880
6200007910
6200004480
6200003540
6200005710
6200002850
6200007880
6200004950
6200004950
6200008700
R1
R2
R3
7030003490
7030005120
7030004970
R4
R5
7030005570
7030005050
7030005050
R6
R7
R8
7030005220
7030005090
7030005310
7030005100
R9
R10
R11
R12
R13
R14
R15
R16
R17
R18
R19
R20
7030005170
7030008280
7030005120
7030005090
7030005530
7030005090
7030005050
7030005240
7030004980
7030004970
7030005050
7030005080
7030005120
Q1
Q2
Q3
Q4
Q5
Q6
Q7
Q8
Q9
Q10
Q11
Q12
Q13
Q14
Q15
Q16
Q17
Q18
Q19
Q21
Q22
Q23
Q24
Q25
Q26
Q27
Q28
Q29
Q30
Q31
Q32
Q33
Q34
Q35
1560000840
1580000730
1580000760
1530002600
1530000371
1590003230
1560001230
1560001240
1530003310
1530003310
1530003310
1530003310
1530002920
1530002920
1590001400
1590003290
1530002850
1560000540
1530002850
1510000920
1510000920
1520000460
1590001190
1590003230
1590003290
1590003290
1590003430
1590003270
1510001080
1590001190
1590003020
1590003230
1560001360
1560001360
S.FET
S.FET
S.FET
S.TR
S.TR
S.TR
S.FET
S.FET
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.FET
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.FET
S.FET
2SK1829 (TE85R)
3SK293 (TE85L)
3SK299-T1 U73
2SC4215-O (TE85R)
2SC3356-T1B S (R25)
UNR9113J-(TX)
RD07MVS1
RD01MUS1
2SC5107-O (TE85R)
2SC5107-O (TE85R)
2SC5107-O (TE85R)
2SC5107-O (TE85R)
2SC4226-T1 R25
2SC4226-T1 R25
XP1214 (TX)
UNR9213J-(TX)
2SC4116-BL (TE85R)
2SK880-Y (TE85R)
2SC4116-BL (TE85R)
2SA1577 T106 Q
2SA1577 T106 Q
2SB1132 T100 R
XP6501-(TX) .AB
UNR9113J-(TX)
UNR9213J-(TX)
UNR9213J-(TX)
UNR911HJ-(TX)
UNR9210J-(TX)
2SA2048 TLR
XP6501-(TX) .AB
XP4216-(TX)
UNR9113J-(TX)
2SK3019 TL
2SK3019 TL
T
B
B
B
T
T
T
T
T
T
B
T
T
T
B
B
T
B
T
T
T
T
T
T
T
T
B
B
T
T
T
T
T
T
75/39.6
76.8/37.9
66.2/37.9
51.4/23.1
74.3/33.5
72.5/19.1
82.6/27
76.1/27.5
67/30.3
59.4/36.3
56.3/37
59/31.5
54.9/30.7
54.2/37.1
56.5/32.6
59.1/32.6
55.5/44.1
51.5/40.4
43.3/29.9
71.9/16.4
24.9/25.9
81/15.2
76.3/15.1
75.7/11.7
49.7/18.4
24.8/16.7
63.1/10.6
35.7/9.2
91.9/8.6
91.4/5.2
16.5/23.1
19.9/22.5
10.7/30.1
9.1/26.6
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D14
D15
D16
D17
D18
D21
D22
D24
D25
D26
D27
D28
D29
D30
D31
1750001080
1750000580
1750000710
1750000710
1790001260
1790001240
1750000710
1750000710
1750000710
1750000710
1790001260
1790001260
1750000710
1750000710
1720000570
1750000710
1750000710
1790001250
1790001250
1790001790
1750000520
1790001260
1750000940
1750001080
1790001010
S.DIO
S.DIO
S.VCP
S.VCP
S.DIO
S.DIO
S.VCP
S.VCP
S.VCP
S.VCP
S.DIO
S.DIO
S.VCP
S.VCP
S.VCP
S.VCP
S.VCP
S.DIO
S.DIO
S.DIO
S.DIO
S.DIO
S.DIO
S.DIO
S.ZEN
RB886G T2R
1SV307 (TPH3)
HVC350BTRF
HVC350BTRF
MA2S077-(TX)
MA2S728-(TX)
HVC350BTRF
HVC350BTRF
HVC350BTRF
HVC350BTRF
MA2S077-(TX)
MA2S077-(TX)
HVC350BTRF
HVC350BTRF
MA368 (TX)
HVC350BTRF
HVC350BTRF
MA2S111-(TX)
MA2S111-(TX)
RB876W TL
DAN222TL
MA2S077-(TX)
ISS400 TE61
RB886G T2R
MA8043-L (TX)
[US3], [GE3], [US3S], [GE3S] only
B
B
B
B
B
B
B
B
B
B
T
T
T
T
B
T
T
T
T
B
B
B
B
T
B
90.2/38.7
91.5/31.1
87.5/33.5
87.5/34.8
87.4/36.7
85/39.9
81.8/33.5
81.8/34.8
73.6/35.9
72.2/35.9
65.8/35.3
65.8/36.7
52.6/38.9
49.4/28.3
49.6/26.9
50.5/33.7
50.5/35.2
41.5/39.2
70.5/40.4
35.7/7.1
21.3/6
8.5/11.2
23.1/4
88.5/36.2
74.5/19.9
FI1
FI2
FI3
2030000150
2020001840
2040001440
S.MLH
CER
S.LC
FL-335 (46.350 MHz)
ALFYM450F=K
NFE31PT152Z1E9L
B
62.8/27.7
B
81.2/17.8
7030005240
[US2]=USA-02, [GE2]=GEN-02, [EU2]=EUR-02, [US3]=USA-03, [GE3]=GEN-03 S.=Surface mount
CDBCB450KCAY24-R0
CR-783 (15.3 MHz)
CR-764 (19.6608 MHz)
0.30-0.9-6TR 17.5N
0.30-0.9-5TL 14N
0.40-0.9-2TL
0.40-0.9-2TL
LQW18AN18NG00D
[US3], [GE3], [US3S], [GE3S]
S.COL LQW18AN22NG00D
[Others]
S.COL LQW2BHN18NJ01L
[US3], [GE3], [US3S], [GE3S]
S.COL LQW2BHN22NJ01L
[Others]
S.COL LQW2BHN18NJ01L
[US3], [GE3], [US3S], [GE3S]
S.COL LQW2BHN22NJ01L
[Others]
S.COL LQW2BHN10NJ01L
[US3], [GE3], [US3S], [GE3S]
S.COL LQW2BHN12NJ01L
[Others]
S.COL LQW2BHN15NJ01L
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.COL LQW2BHN12NJ01L
[Others]
S.COL ELJRE 33NG-F
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.COL ELJRE 39NG-F
[Others]
S.COL ELJNC R27K-F
S.COL NL 252018T-R82J
S.COL 0.40-1.4-5TR 21N
S.COL ELJRE 1N5Z-F
S.COL ELJRE 10NG-F
[US3], [GE3], [US3S], [GE3S]
S.COL ELJRE 12NG-F
[Others]
S.COL ELJRE 15NG-F
[US3], [GE3], [US3S], [GE3S]
S.COL ELJRE 18NG-F
[Others]
S.COL ELJRF 33NJF2 (33)
S.COL ELJRF 22NJF2 (22)
S.COL NL 252018T-R82J
S.COL 0.30-0.9-3TR 7.5N
S.COL 0.30-0.9-4TR 10.5N
S.COL NL 252018T-1R8J
S.COL NL 252018T-1R8J
S.COL MLF1608A 1R8K-T
S.COL ELJRF 33NJF2 (33)
S.COL ELJRF 18NJF2 (18)
S.COL MLF1608D R82K-T
S.COL MLF1608D R22K-T
S.COL ELJRE 27NG-F
S.COL NL 252018T-R82J
S.COL ELJRF 33NJF2 (33)
S.COL NL 252018T-1R8J
S.COL NL 252018T-1R8J
S.COL 0.30-0.9-6TR 17.5N
S.RES ERJ3GEYJ 272 V (2.7 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 470 X (47 Ω)
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.RES ERJ2GEJ 820 X (82 Ω)
[Others]
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.RES ERJ2GEJ 223 X (22 kΩ)
[Others]
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 124 X (120 kΩ)
S.RES ERJ2GEJ 154 X (150 kΩ)
[US3], [GE3], [US3S], [GE3S]
S.RES ERJ2GEJ 474 X (470 kΩ) [Others]
S.RES ERJ2GEJ 271 X (270 Ω)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 100 X (10 Ω)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 473 X (47 kΩ)
S.RES ERJ2GEJ 101 X (100 Ω)
S.RES ERJ2GEJ 470 X (47 Ω)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 823 X (82 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.RES ERJ2GEJ 473 X (47 kΩ)
[Others]
H/V
M. LOCATION
T
T
B
54.4/20
36.9/28.9
12/5.9
B
B
B
B
B
94.7/36.4
94.8/31.9
92.9/26.3
89.9/20.6
89.1/36.5
B
84.3/34.5
B
78.9/35.3
B
75.9/35.2
B
70.6/37.8
B
63.5/38.8
B
T
B
B
T
66.8/33.9
94.2/32.4
81.2/20.9
81.2/20.9
76/35.5
T
68.8/33.1
T
T
T
T
T
B
B
T
B
B
T
T
B
T
B
B
B
B
59.2/38.6
59.5/33.3
55.2/28.1
49.5/29.9
49/37.9
52.8/29
52/36.6
43.9/36.4
85.1/38.7
55.9/42.3
43.4/25.9
41.7/31.8
65.6/40.7
53.6/34.6
58.4/38.2
49.4/34
49.4/31.1
94.9/39.6
B
B
T
91.8/39.9
92.1/37.7
66.7/22.7
T
T
75.8/20.8
73.3/21.1
T
T
T
66.7/18.2
68/17.7
71.3/21.1
T
T
T
T
T
T
B
B
B
T
T
B
71.3/22.4
68.4/24
85.5/36.7
77.5/37.5
82.3/35.7
83.9/36.7
79.1/39
74.8/39.9
74/33.3
78.8/36.7
78.8/38.7
75.9/33.7
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
6-1
[MAIN UNIT]
[MAIN UNIT]
REF
NO.
ORDER
NO.
R21
R22
R23
R24
R25
R29
R30
R31
R32
R33
R34
R35
R36
R37
R38
R39
R40
R43
R44
R45
R46
R48
R50
R51
R52
R53
R53
7030005110
7030005050
7030005110
7030005050
7030005040
7030007270
7030005120
7030004980
7030004980
7030007270
7030005110
7030004980
7030007300
7030009140
7030005090
7030004970
7030007270
7030004970
7030005090
7030005070
7030005000
7030005000
7030004980
7030003670
7030004990
7030004970
7030005530
R54
R55
R56
R57
R58
7030005710
7030005060
7030005040
7030003860
7030004970
7030005060
R59
R61
R62
R65
R66
R67
R68
R69
R70
R71
R73
R75
R76
R77
R78
R79
R80
7030005040
7030004970
7030005220
7030004980
7030007340
7030004980
7030005050
7030005040
7030005530
7030005070
7030004980
7030005110
7030004980
7030005050
7030005090
7030006020
7030005120
R82
R83
R84
R85
R86
R87
R88
7030008370
7030009320
7030006020
7030006020
7030006020
7030005530
7030005110
7030005010
R89
R90
R92
R93
R94
R95
R96
7030008370
7030005050
7030005170
7030005310
7030005120
7030005100
7030005120
7030008410
R97
R98
R100
R101
R103
R104
R105
R106
R107
R108
7030009140
7030005120
7030007290
7030005040
7030005000
7030005240
7030005230
7030005170
7030005050
7030005580
7030005600
R109
R110
R111
R113
R114
R115
R116
R117
R118
7030008290
7030005090
7030005240
7030005090
7030006610
7030005100
7030007570
7030007060
7030005040
7030005040
H/V
M. LOCATION
DESCRIPTION
S.RES ERJ2GEJ 224 X (220 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 224 X (220 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 472 X (4.7 kΩ)
S.RES ERJ2GEJ 151 X (150 Ω)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 101 X (100 Ω)
S.RES ERJ2GEJ 101 X (100 Ω)
S.RES ERJ2GEJ 151 X (150 Ω)
S.RES ERJ2GEJ 224 X (220 kΩ)
S.RES ERJ2GEJ 101 X (100 Ω)
S.RES ERJ2GEJ 332 X (3.3 kΩ)
S.RES ERJ2GEJ 272 X (2.7 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 470 X (47 Ω)
S.RES ERJ2GEJ 151 X (150 Ω)
S.RES ERJ2GEJ 470 X (47 Ω)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 683 X (68 kΩ)
S.RES ERJ2GEJ 471 X (470 Ω)
S.RES ERJ2GEJ 471 X (470 Ω)
S.RES ERJ2GEJ 101 X (100 Ω)
S.RES ERJ3GEYJ 823 V (82 kΩ)
S.RES ERJ2GEJ 221 X (220 Ω)
S.RES ERJ2GEJ 470 X (47 Ω)
S.RES ERJ2GEJ 100 X (10 Ω)
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.RES ERJ2GEJ 121 X (120 Ω)
[Others]
S.RES ERJ2GEJ 333 X (33 kΩ)
S.RES ERJ2GEJ 472 X (4.7 kΩ)
S.RES ERJ3GE JPW V
S.RES ERJ2GEJ 470 X (47 Ω)
S.RES ERJ2GEJ 333 X (33 kΩ)
[US3], [GE3], [US3S], [GE3S] only
S.RES ERJ2GEJ 472 X (4.7 kΩ)
S.RES ERJ2GEJ 470 X (47 Ω)
S.RES ERJ2GEJ 223 X (22 kΩ)
S.RES ERJ2GEJ 101 X (100 Ω)
S.RES ERJ2GEJ 153 X (15 kΩ)
S.RES ERJ2GEJ 101 X (100 Ω)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 472 X (4.7 kΩ)
S.RES ERJ2GEJ 100 X (10 Ω)
S.RES ERJ2GEJ 683 X (68 kΩ)
S.RES ERJ2GEJ 101 X (100 Ω)
S.RES ERJ2GEJ 224 X (220 kΩ)
S.RES ERJ2GEJ 101 X (100 Ω)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES RR0510P-682-D (6.8 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
[US3], [GE3], [US3S], [GE3S]
S.RES ERJ2GEJ 561 X (560 Ω)
[Others]
S.RES ERJ2GEJ 4R7 X (4.7 Ω)
S.RES RR0510P-682-D (6.8 kΩ)
S.RES RR0510P-682-D (6.8 kΩ)
S.RES RR0510P-682-D (6.8 kΩ)
S.RES ERJ2GEJ 100 X (10 Ω)
S.RES ERJ2GEJ 224 X (220 kΩ)
S.RES ERJ2GEJ 681 X (680 Ω)
[US3], [GE3], [US3S], [GE3S]
S.RES ERJ2GEJ 561 X (560 Ω)
[Others]
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 474 X (470 kΩ)
S.RES ERJ2GEJ 124 X (120 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 154 X (150 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 392 X (3.9 kΩ)
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.RES ERJ2GEJ 272 X (2.7 kΩ) [Others]
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 222 X (2.2 kΩ)
S.RES ERJ2GEJ 472 X (4.7 kΩ)
S.RES ERJ2GEJ 471 X (470 Ω)
S.RES ERJ2GEJ 473 X (47 kΩ)
S.RES ERJ2GEJ 334 X (330 kΩ)
S.RES ERJ2GEJ 474 X (470 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 560 X (56 Ω)
S.RES ERJ2GEJ 273 X (27 kΩ)
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.RES ERJ2GEJ 183 X (18 kΩ)
[Others]
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 473 X (47 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 394 X (390 kΩ)
S.RES ERJ2GEJ 154 X (150 kΩ)
S.RES ERJ2GEJ 122 X (1.2 kΩ)
S.RES ERJ2GEJ 684X (680 kΩ)
S.RES ERJ2GEJ 472 X (4.7 kΩ)
S.RES ERJ2GEJ 472 X (4.7 kΩ)
[US2S]=F24S USA-02, [GE2S]=F24S GEN-02, [EU2S]=F25S EUR-02
[US3S]=F24S USA-03, [GE3S]=F24S GEN-03
T
T
T
T
B
B
B
B
B
B
B
B
T
T
T
B
B
B
B
B
B
B
T
B
T
T
T
72.2/38.9
69.2/38.9
71.2/38.9
64.6/38
68/37.8
64.2/35.1
67.7/35.7
64.2/34.1
66.1/31.1
55.5/25.2
52.5/25.2
50.5/25.2
52.5/15.5
50.7/16.3
46.5/21
55.8/22.3
56.2/21.1
47.5/15.4
54.8/15.4
52.8/13.7
53.8/13.7
51.5/25.2
66.3/38
96.5/37.3
93.3/35.9
80/22.5
80/22.5
T
T
T
T
T
81.3/21.4
80/20.9
78/22.4
75.2/23.2
72.1/24
T
T
T
T
T
T
T
T
B
T
B
B
B
B
T
T
B
71.2/24
71.8/36.3
72.1/35
69.4/34.2
67.8/34.2
67.8/35.1
69.4/35.1
64.1/35.2
57.6/40.3
58.2/38.6
57.7/30.5
58.4/36.1
57.6/39.3
56.7/30.5
57.8/33.3
56.5/39.1
54.6/32.8
T
T
T
T
B
B
B
52.6/32
54.1/32.6
52.1/28.6
54.7/39.1
48.2/28.8
48.1/25.3
54.6/31
B
B
B
T
T
B
B
49.3/41.2
46.9/25.1
46.9/26.1
39.8/39.4
41.8/40.8
49.9/36.4
49.3/40.1
B
T
B
B
T
T
T
T
B
T
49.3/38.1
53.5/44.1
52.9/38.8
51.4/43.3
33.1/27.8
31.5/26.9
32.6/29.1
37.5/32
55.9/43.3
44.9/21
T
B
T
B
B
T
T
T
T
43.9/21
21.8/34.3
27.1/28.7
46.9/31.1
46.9/29.1
40.5/32
43.4/32.7
35.3/40.1
37.2/40.1
REF
NO.
R123
R124
R125
R131
R132
R133
R134
R135
R136
R137
R138
R141
R142
R143
R144
R145
R146
R147
R148
R149
R150
R151
R152
R153
R154
R155
R156
R157
R159
R160
R161
R162
R163
R164
R165
R166
R167
R168
R169
R170
R171
R172
R173
R174
R175
R176
R177
R178
R179
R180
R181
R182
R183
R184
R185
R186
R187
R190
R191
R192
R193
R194
R195
R196
R197
R198
R200
R201
R206
R207
R208
R209
R210
R211
R212
R213
R214
R215
R220
R221
R222
R223
R224
R225
R226
R227
R228
R229
R230
R231
R232
R233
R234
S.=Surface mount
ORDER
NO.
7030008400
7030005170
7030005110
7510001730
7030010080
7030005050
7030005040
7030005050
7030005040
7030005050
7030005040
7030005000
7030005000
7030007340
7030005050
7030005090
7030005090
7030007350
7030005080
7030006610
7030008300
7030005030
7030005220
7030005220
7030005220
7030005090
7030005170
7030007290
7030008010
7030004980
7030005040
7030005050
7030005050
7030008410
7030008410
7030005240
7030009290
7030005000
7030005100
7030008010
7030005100
7030005700
7030005310
7030005090
7030005110
7030005100
7030005060
7030005710
7030005120
7030005160
7030005240
7030005090
7030006020
7030008250
7030005310
7030005080
7030005120
7030007280
7030008300
7030005720
7030005220
7030005220
7030005050
7030005240
7030005240
7030005240
7030005040
7030005240
7030005110
7030005090
7030005240
7030005220
7030008010
7030005070
7030005070
7030005070
7030005070
7030005070
7030004980
7030005000
7030005080
7030005060
7030005000
7030004980
7210003061
7030005050
7030005120
7030005530
7030005530
7030005120
7030007300
7030007300
7030005100
DESCRIPTION
S.RES
S.RES
S.RES
S.TMR
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
VAR
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
ERJ2GEJ 182 X (1.8 kΩ)
ERJ2GEJ 474 X (470 kΩ)
ERJ2GEJ 224 X (220 kΩ)
ERTJOEP 473J
ERJ2RHD 104 X (100 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 471 X (470 Ω)
ERJ2GEJ 471 X (470 Ω)
ERJ2GEJ 153 X (15 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 393 X (39 kΩ)
ERJ2GEJ 823 X (82 kΩ)
ERJ2GEJ 394 X (390 kΩ)
ERJ2GEJ 184 X (180 kΩ)
ERJ2GEJ 152 X (1.5 kΩ)
ERJ2GEJ 223 X (22 kΩ)
ERJ2GEJ 223 X (22 kΩ)
ERJ2GEJ 223 X (22 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 474 X (470 kΩ)
ERJ2GEJ 222 X (2.2 kΩ)
ERJ2GEJ 123 X (12 kΩ)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 392 X (3.9 kΩ)
ERJ2GEJ 392 X (3.9 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 562 X (5.6 kΩ)
ERJ2GEJ 471 X (470 Ω)
ERJ2GEJ 154 X (150 kΩ)
ERJ2GEJ 123 X (12 kΩ)
ERJ2GEJ 154 X (150 kΩ)
ERJ2GEJ 274 X (270 kΩ)
ERJ2GEJ 124 X (120 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 224 X (220 kΩ)
ERJ2GEJ 154 X (150 kΩ)
ERJ2GEJ 333 X (33 kΩ)
ERJ2GEJ 121 X (120 Ω)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 104 X (100 kΩ)
RR0510P-682-D (6.8 kΩ)
RR0510P-562-D (5.6 kΩ)
ERJ2GEJ 124 X (120 kΩ)
ERJ2GEJ 823 X (82 kΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 331 X (330 Ω)
ERJ2GEJ 184 X (180 kΩ)
ERJ2GEJ 563 X (56 kΩ)
ERJ2GEJ 223 X (22 kΩ)
ERJ2GEJ 223 X (22 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 224 X (220 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 223 X (22 kΩ)
ERJ2GEJ 123 X (12 kΩ)
ERJ2GEJ 683 X (68 kΩ)
ERJ2GEJ 683 X (68 kΩ)
ERJ2GEJ 683 X (68 kΩ)
ERJ2GEJ 683 X (68 kΩ)
ERJ2GEJ 683 X (68 kΩ)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 471 X (470 Ω)
ERJ2GEJ 823 X (82 kΩ)
ERJ2GEJ 333 X (33 kΩ)
ERJ2GEJ 471 X (470 Ω)
ERJ2GEJ 101 X (100 Ω)
TP76N00N-15F-A103-2251A
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 100 X (10 Ω)
ERJ2GEJ 100 X (10 Ω)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 332 X (3.3 kΩ)
ERJ2GEJ 332 X (3.3 kΩ)
ERJ2GEJ 154 X (150 kΩ)
H/V
M. LOCATION
T
T
T
T
T
T
T
T
T
T
T
T
T
T
B
T
T
T
T
T
T
T
T
T
T
T
T
T
T
B
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
B
T
T
T
B
B
B
T
B
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
B
B
B
B
B
B
75.2/37.7
72.7/40.4
73.2/38.9
40.9/28.1
40.9/27.1
84.1/14.2
74/14.3
24.5/24
22.8/24
69.8/14.7
69.8/16.7
37/9.9
43/9.9
37.2/24.4
46.5/13.7
33.4/18.1
31.6/18.1
33.4/16.1
31.6/16.1
33.4/12.9
33.4/11.9
33.4/13.9
31.1/29.6
29.9/29.1
28.2/30.1
29.8/41.1
29.8/40.1
31.5/39.1
15.7/28.8
5.5/31
12.9/27.3
8.7/29.1
14.1/29.8
15.7/27.8
12.6/31.9
12.6/36.1
15.7/29.8
16.3/40.1
18/41.1
12.9/29.3
11.6/36.1
18/39.1
19.4/26.8
19.4/28.8
19.4/27.8
17.7/27.8
17.7/28.8
19.4/30.7
11.5/16.8
24.7/40.1
21.1/40.1
24.7/39.1
17.2/39.1
17.7/40.4
18.7/40.4
19.4/29.8
9/18.2
34.7/18.9
18/4.1
18/5.1
18/6.1
23.9/10.9
19.7/4.1
23.9/11.9
23.9/12.9
25.7/12.9
25.7/14.9
23.9/14.9
13.4/4.1
13.4/5.1
15.6/5.1
15.6/6.1
15.6/4.1
27.1/4.1
27.1/5.1
27.1/6.1
29.1/7.1
31/6.1
15.9/23.3
66.5/13.7
63.9/8.5
61/11.3
75.5/10.3
33.9/7.1
T
T
T
T
T
T
T
B
94.9/13.9
94.2/15.2
86/9.7
87.2/17.2
90.6/2.8
93.2/4.4
92.7/2.8
23.3/6.2
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
6-2
[MAIN UNIT]
[MAIN UNIT]
REF
NO.
ORDER
NO.
R235
R236
R237
R238
R240
R241
7030005090
7030005230
7030005050
7410001140
7030005590
7030010040
R242
7030010040
R251
R252
R254
R255
R256
R257
R258
R259
R260
R261
R262
R263
R264
R265
R266
R271
R272
R273
R274
R275
R276
R277
R278
R280
R284
R287
R288
R291
R292
R293
R294
R295
R296
R297
R301
R302
R303
DESCRIPTION
7030008010
7030005530
7030008010
7030008010
7030005050
7030005120
7410001140
7030005120
7030005090
7410001130
7030005090
7030005050
7030005240
7410001130
7030007340
7030005160
7030005160
7030005160
7030005070
7030005090
7030005090
7030005090
7030005090
7030005050
7030004980
7030007280
7030005030
7030005090
7030005090
7030008290
7030005600
7030005240
7030003490
7030005120
7030010040
7030004990
7030005040
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 334 X (330 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.ARY EXB28V104JX
S.RES ERJ2GEJ 680 X (68 Ω)
S.RES ERJ2GE-JPW
[US2S], [US3S], [EU2S], [GE2S], [GE3S] only
S.RES ERJ2GE-JPW
[US2S], [US3S], [EU2S], [GE2S], [GE3S] only
S.RES ERJ2GEJ 123 X (12 kΩ)
S.RES ERJ2GEJ 100 X (10 Ω)
S.RES ERJ2GEJ 123 X (12 kΩ)
S.RES ERJ2GEJ 123 X (12 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.ARY EXB28V104JX
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.ARY EXB28V102JX
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 473 X (47 kΩ)
S.ARY EXB28V102JX
S.RES ERJ2GEJ 153 X (15 kΩ)
S.RES ERJ2GEJ 105 X (1 MΩ)
S.RES ERJ2GEJ 105 X (1 MΩ)
S.RES ERJ2GEJ 105 X (1 MΩ)
S.RES ERJ2GEJ 683 X (68 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 101 X (100 Ω)
S.RES ERJ2GEJ 331 X (330 Ω)
S.RES ERJ2GEJ 152 X (1.5 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 183 X (18 kΩ)
S.RES ERJ2GEJ 273 X (27 kΩ)
S.RES ERJ2GEJ 473 X (47 kΩ)
S.RES ERJ3GEYJ 272 V (2.7 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GE-JPW
S.RES ERJ2GEJ 221 X (220 Ω)
S.RES ERJ2GEJ 472 X (4.7 kΩ)
C1
4030017590
S.CER
C2
4030017600
4030017350
C3
4030017550
4030017590
C4
C5
4030017600
4030017560
4030017360
C6
C7
C8
4030017570
4030017460
4030017460
4030017370
C11
4030017580
4030006980
C13
4030009530
4030007000
C14
C16
C17
C18
C19
C20
C21
4030007020
4030017570
4030008560
4030017510
4030006860
4030017460
4030017590
4030017400
C22
C23
4030017410
4030017600
4030017350
C24
4030017560
4030017400
C25
C27
C28
C30
C31
4030017410
4030017600
4030017460
4030017460
4030017590
4030017460
ECJ0EC1H070C
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H080C
[Others]
S.CER ECJ0EC1H020B
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.CER ECJ0EC1H1R5B
[Others]
S.CER ECJ0EC1H070C
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H080C
[Others]
S.CER ECJ0EC1H2R5B
S.CER ECJ0EC1H030B
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H040B
[Others]
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H3R5B
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.CER ECJ0EC1H060C
[Others]
S.CER C1608 CH 1H 070D-T
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.CER C1608 CH 1H 030B-T
[Others]
S.CER C1608 CH 1H 090D-T
[US3], [GE3], [US3S], [GE3S]
S.CER C1608 CH 1H 120J-T
[Others]
S.CER ECJ0EC1H040B
S.CER C1608 CH 1H 300J-T
S.CER ECJ0EC1H680J
S.CER C1608 JB 1H 102K-T
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H070C
S.CER ECJ0EC1H220J
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H240J
[Others]
S.CER ECJ0EC1H080C
S.CER ECJ0EC1H020B
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H2R5B
[Others]
S.CER ECJ0EC1H220J
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H240J
[Others]
S.CER ECJ0EC1H080C
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H070C
S.CER ECJ0EB1E102K
H/V
M. LOCATION
B
B
T
B
T
T
20.3/4.2
23.3/5.2
21.1/39.1
40.9/9.5
99.7/12.3
39.4/6.4
T
41.4/6.4
B
B
B
B
T
T
T
T
T
T
T
T
T
T
T
B
B
B
B
B
B
B
B
B
B
T
T
B
B
T
T
B
B
T
B
T
T
5.9/9.1
13.7/9.1
9.3/10.1
7.6/10.1
6/8.6
9/22.1
6.6/20.6
21.6/22.1
21.5/25
19.4/19.9
21.3/13.9
21.3/12.9
21.3/10.9
19.7/9.2
5.7/18.8
10/39.3
11/39.3
12/39.3
15/39.3
13/39.3
8/39.3
9/39.3
14/39.3
16.2/36.2
16.3/27
18.4/24
14.7/22.7
5.9/12.5
7.6/12.5
61.4/43.4
60.4/43.4
95.1/43.4
91.8/35.3
91.3/36.2
93.1/22.4
93.3/34.9
33.6/20.7
B
94.2/41.5
B
93.2/36
B
96.5/33.9
B
B
94.9/33.9
94.6/30.2
B
B
B
B
REF
NO.
92.8/33.4
92.9/29.6
93.2/28.1
ORDER
NO.
C32
C33
C34
C35
C36
C37
C38
4030017460
4030017460
4030017420
4030016930
4030017460
4030017460
4030017350
C39
C40
C41
C42
C43
C44
4030017550
4030017620
4030017520
4030017380
4030017460
4030017460
4030017340
C45
4030017550
4030017620
C46
C48
C49
4030017630
4030017460
4030017400
4030017350
C50
C51
C52
C53
C54
C56
C57
C58
C59
C60
C61
C62
C63
C64
C65
C66
C67
C68
C69
C70
C71
C72
C73
C74
C75
C76
C77
C78
C79
C80
C81
C82
C83
4030017380
4030017460
4030017460
4030017420
4030016790
4030017460
4030017400
4030017460
4030017460
4030017460
4030017460
4030017430
4030017680
4030017420
4030016790
4030017460
4030017460
4030017460
4030017440
4030017730
4030017730
4030016930
4030017420
4030017460
4030017460
4550005980
4030016790
4030017460
4030017460
4030018890
4030017780
4030016790
4030017460
4030017620
C84
C86
4030017400
4030017420
4030017420
C88
C89
4030017650
4030017460
4030017570
C91
C92
C93
4510004650
4030017630
4030017380
C94
C96
4030017600
4030017730
4030017460
C97
C98
4030017420
4030017380
C99
C100
C102
C103
C104
C105
C106
C107
C108
C109
C110
C111
C112
C113
4030017620
4030017460
4030017620
4030017380
4030017350
4030017460
4030017460
4030017420
4030017460
4030016790
4030017460
4030017730
4030017420
4030017460
4030017520
91.5/21.9
B
88.3/20.8
B
B
B
T
B
B
B
86.8/38.7
86.4/21.5
83.4/38.7
83.6/31.4
86/37.7
84.1/37.7
85.8/34.3
B
B
84.1/36.7
82/37.7
B
79.7/33.2
B
T
T
B
T
80.4/36.1
83.9/35.7
83.9/37.7
79.6/37.8
80.4/37.2
[US2]=USA-02, [GE2]=GEN-02, [EU2]=EUR-02, [US3]=USA-03, [GE3]=GEN-03 S.=Surface mount
DESCRIPTION
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H470J
S.CER ECJ0EB1A104K
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H020B
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.CER ECJ0EC1H1R5B
[Others]
S.CER ECJ0EC1H100C
S.CER ECJ0EC1H0R3B
S.CER ECJ0EC1H050B
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H010B
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.CER ECJ0EC1H1R5B
[Others]
S.CER ECJ0EC1H100C
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H120J
[Others]
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H220J
S.CER ECJ0EC1H020B
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H050B
[Others]
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H470J
S.CER ECJ0EB1C103K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H220J
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H101J
S.CER ECJ0EC1H820J
S.CER ECJ0EC1H470J
S.CER ECJ0EB1C103K
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H221J
S.CER ECJ0EB1E471K
S.CER ECJ0EB1E471K
S.CER ECJ0EB1A104K
S.CER ECJ0EC1H470J
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.TAN
TEESVA 1A 475M8L
S.CER ECJ0EB1C103K
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EB0J224K
S.CER ECJ0EB1E472K
S.CER ECJ0EB1C103K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H100C
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H220J
[Others]
S.CER ECJ0EC1H470J
S.CER ECJ0EC1H470J
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S],
S.CER ECJ0EC1H270J
[Others]
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H040B
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.ELE ECEV1EA4R7SR
S.CER ECJ0EC1H120J
S.CER ECJ0EC1H050B
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.CER ECJ0EC1H080C
[Others]
S.CER ECJ0EB1E471K
S.CER ECJ0EB1E102K
[US3], [GE3], [US3S], [GE3S] only
S.CER ECJ0EC1H470J
S.CER ECJ0EC1H050B
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.CER ECJ0EC1H100C
[Others]
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H100C
S.CER ECJ0EC1H050B
S.CER ECJ0EC1H020B
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H470J
S.CER ECJ0EB1E102K
S.CER ECJ0EB1C103K
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E471K
S.CER ECJ0EC1H470J
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H0R3B
H/V
M. LOCATION
B
T
T
T
B
B
B
75.8/39.9
77.1/38.7
77.1/39.7
78.8/37.7
71.8/33.3
73.4/34.2
74.8/37.7
B
B
B
T
T
B
73.5/38.8
73.5/39.8
68.5/39.2
68.5/37.7
70.2/38.9
69/37.8
B
72.2/38.8
T
B
B
68.2/38.9
64.2/37.2
64.2/40
B
B
B
B
B
B
T
B
B
B
B
B
B
T
B
B
B
B
B
B
B
T
T
T
B
T
T
T
T
T
B
B
T
64.2/36.1
66.1/32.1
66.1/35.7
64.2/33.1
64.2/32.1
64.3/24.4
64.1/36.8
53.9/24.3
49.5/25.2
52.5/26.9
49.5/22.7
47.5/17.6
46.5/20.7
49.7/16.3
46.5/18.9
47.5/13.7
53.9/22.3
51.8/13.7
53.8/15.4
54.8/13.7
56.2/17.5
69.8/18.7
69.3/24
93.3/37
54.5/9.9
66.7/21.1
65.7/22.7
74.8/20.8
72.3/21.1
68/18.7
77.2/21.5
78.2/21.5
81.3/22.3
T
T
81.3/20.5
78.7/24.3
T
T
73.1/24
75.5/24.4
B
T
T
69.7/20.3
74.6/30.9
70.9/33.5
T
T
70.3/24
73.8/36
T
T
74.8/36
66.1/33.9
T
B
T
B
T
B
B
T
T
B
B
B
T
T
68.3/36.3
61.3/36.1
59.5/34.3
58.2/35.1
58.9/29.4
58.6/37.1
70.3/33.9
70.6/36.3
69.7/36.3
57.6/41.3
55.7/30.5
56.3/34.4
60.2/38.6
56.1/32.6
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
6-3
[MAIN UNIT]
[MAIN UNIT]
REF
NO.
ORDER
NO.
C114
4030017360
C115
4030017580
4030017570
C116
C117
C118
C119
C120
C121
4030017630
4030016790
4030017730
4030017530
4030017460
4030017730
4030017380
C122
4030017630
4030017570
C123
4030017620
4030017390
C124
4030017640
4030017580
C126
C127
4030017610
4030017630
4030017380
C129
C130
C132
C133
4030017600
4030017530
4030016950
4030017460
4030017630
C134
4030017640
4030017630
C135
C136
C137
C138
C139
C140
C141
C142
C143
C144
C145
C146
C147
C148
C149
C150
C151
C152
C153
C154
C155
C156
C157
C158
C159
C160
C161
C162
C163
C164
C165
C166
C167
C168
C169
C170
C171
C173
C175
4030017640
4030017460
4030016930
4030016790
4030017460
4030016930
4030016930
4030017460
4030017460
4030017460
4030017420
4030017420
4550000270
4550000460
4550006250
4030017460
4030018860
4030016930
4030017420
4030017420
4030017420
4030017420
4030017460
4030017620
4030016930
4030017460
4030016930
4030017620
4030017500
4030017570
4030017590
4030016790
4030017360
4030016930
4030016930
4030016930
4030017460
4030017420
4030017460
4030017360
C176
C177
C178
C179
C180
C182
4030017560
4030017460
4030009910
4030017420
4030006860
4030017460
4030017590
C183
C185
C186
C188
C202
C203
C205
C206
4030017600
4030017420
4030017530
4030017530
4030017460
4030016930
4030017460
4030017380
4030017590
H/V
M. LOCATION
DESCRIPTION
S.CER
ECJ0EC1H030B
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H060C
[Others]
S.CER ECJ0EC1H040B
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H120J
[Others]
S.CER ECJ0EB1C103K
S.CER ECJ0EB1E471K
S.CER ECJ0EC1H0R5B
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E471K
S.CER ECJ0EC1H050B
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H120J
[Others]
S.CER ECJ0EC1H040B
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H100C
[Others]
S.CER ECJ0EC1H180J
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.CER ECJ0EC1H150J
[Others]
S.CER ECJ0EC1H060C
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H090C
[Others]
S.CER ECJ0EC1H120J
S.CER ECJ0EC1H050B
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H080C
[Others]
S.CER ECJ0EC1H0R5B
S.CER ECJ0EB1A473K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H120J
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H150J
[Others]
S.CER ECJ0EC1H120J
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H150J
[Others]
S.CER ECJ0EB1E102K
S.CER ECJ0EB1A104K
S.CER ECJ0EB1C103K
S.CER ECJ0EB1E102K
S.CER ECJ0EB1A104K
S.CER ECJ0EB1A104K
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H470J
S.CER ECJ0EC1H470J
S.TAN
TEESVA 1E 474M8L
S.TAN
TEESVA 1C 105M8L
S.TAN
TEESVA 1A 106M8L
S.CER ECJ0EB1E102K
S.CER ECJ0EB0J105K
S.CER ECJ0EB1A104K
S.CER ECJ0EC1H470J
S.CER ECJ0EC1H470J
S.CER ECJ0EC1H470J
S.CER ECJ0EC1H470J
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H100C
S.CER ECJ0EB1A104K
S.CER ECJ0EB1E102K
S.CER ECJ0EB1A104K
S.CER ECJ0EC1H100C
S.CER ECJ0EC1H560J
S.CER ECJ0EC1H040B
S.CER ECJ0EC1H070C
S.CER ECJ0EB1C103K
S.CER ECJ0EC1H030B
S.CER ECJ0EB1A104K
S.CER ECJ0EB1A104K
S.CER ECJ0EB1A104K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H470J
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H030B
[US2], [EU2], [GE2], [US2S], [EU2S], [GE2S]
S.CER ECJ0EC1H2R5B
[Others]
S.CER ECJ0EB1E102K
S.CER C1608 CH 1H 040B-T
S.CER ECJ0EC1H470J
S.CER C1608 JB 1H 102K-T
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H070C
[US3], [GE3], [US3S], [GE3S]
S.CER ECJ0EC1H080C
[Others]
S.CER ECJ0EC1H470J
S.CER ECJ0EC1H0R5B
S.CER ECJ0EC1H0R5B
S.CER ECJ0EB1E102K
S.CER ECJ0EB1A104K
S.CER ECJ0EB1E102K
S.CER ECJ0EC1H050B
S.CER ECJ0EC1H070C
[US2S]=F24S USA-02, [GE2S]=F24S GEN-02, [EU2S]=F25S EUR-02
[US3S]=F24S USA-03, [GE3S]=F24S GEN-03
T
51.9/36.5
T
55.7/35.7
T
T
T
T
T
T
56.5/37.9
56.5/36.9
56.1/33.9
56.6/31.6
57.5/28.7
52.6/30
T
53.1/28.6
T
52.6/31
T
51.1/29
T
T
52/37.7
50.5/37.5
T
B
B
T
48.4/31.4
49.3/39.1
46.9/27.1
51.1/31
T
50.5/36.3
T
T
T
B
B
T
B
T
B
B
B
B
B
T
T
T
T
T
T
T
T
T
T
T
T
B
T
T
T
T
T
T
B
B
B
T
T
T
B
48.4/34.4
48.4/35.4
57.7/44.1
49.6/28.4
56.7/28.9
43.4/34.7
50.1/42.4
42.9/21
52/42.3
49.6/29.3
47.1/23.9
52.6/32.7
47.5/41.4
50.1/44.1
43.8/39.1
43.9/22.7
40.2/40.8
35.3/41.1
37.2/41.1
38/39.1
43.8/38.1
39.5/32
38.5/32
36.1/31.4
36.1/32.4
20.2/33.7
43.4/33.7
43.9/28.1
42.5/27.6
43.9/27.1
43.4/31.7
43.2/24.7
55.8/23.3
56.6/19.8
56.6/18.8
91.5/34.2
91.5/35.2
82.3/37.3
97.1/41.5
T
B
T
T
T
T
77.7/20.4
90.7/33.4
77.7/21.3
86.6/31.4
67.1/32.3
68.8/31.6
T
B
B
B
T
B
B
B
74.1/24
90.7/35.7
92.1/38.7
47.5/20.7
48.4/33.4
46.9/30.1
56.3/39.7
55.9/41.3
REF
NO.
C208
C209
C211
C213
C221
C222
C223
C224
C225
C226
C227
C228
C229
C230
C231
C232
C233
C234
C235
C236
C237
C238
C241
C242
C243
C244
C251
C252
C253
C254
C255
C256
C257
C258
C259
C260
C261
C264
C265
C266
C269
C270
C271
C272
C273
C274
C275
C276
C277
C278
C279
C280
C281
C282
C283
C284
C285
C286
C287
C288
C289
C290
C291
C292
C293
C295
C296
C297
C298
C299
C300
C302
C303
C304
C305
C306
C307
C308
C309
C310
C311
C312
C313
C314
C315
C316
C317
C318
C319
C320
C321
C322
C323
S.=Surface mount
ORDER
NO.
4030017590
4030017460
4030018910
4030017460
4030016930
4030016930
4030016930
4030016930
4030017460
4550005980
4030016790
4510004630
4030017460
4030016930
4030016790
4030016930
4030016790
4030017460
4030016790
4030017460
4510005430
4030017460
4030016930
4030016930
4030016790
4030016930
4030016970
4030017740
4030017740
4030016930
4030016950
4030016940
4030016930
4030017790
4030018860
4030017730
4030016930
4510004630
4030017460
4030016930
4030017720
4030016950
4030016950
4030016950
4030016950
4030016950
4030016970
4030016950
4030016930
4030017430
4030018910
4030017780
4030018920
4030017710
4030018900
4030016930
4030016930
4030017460
4550006250
4030017460
4030016930
4030016930
4030016780
4030016930
4030017740
4030018110
4030018240
4030017710
4030018090
4030017510
4030017450
4030017620
4030017460
4030017580
4030017580
4030017460
4030017460
4030017460
4030017460
4030016930
4030017460
4030017420
4030017420
4030017460
4030017460
4030016930
4510004630
4030016930
4030016930
4030017730
4030017460
4030016950
4030016950
DESCRIPTION
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.TAN
S.CER
S.ELE
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.ELE
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.ELE
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.TAN
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.ELE
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
ECJ0EC1H070C
ECJ0EB1E102K
C1608 JB 0J 475K-T
ECJ0EB1E102K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1E102K
TEESVA 1A 475M8L
ECJ0EB1C103K
ECEV1CA100SR
ECJ0EB1E102K
ECJ0EB1A104K
ECJ0EB1C103K
ECJ0EB1A104K
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EB1E102K
ECEV0JA220SR
ECJ0EB1E102K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1C103K
ECJ0EB1A104K
ECJ0EB1C223K
ECJ0EB1E821K
ECJ0EB1E821K
ECJ0EB1A104K
ECJ0EB1A473K
ECJ0EB1A393K
ECJ0EB1A104K
ECJ0EB1E682K
ECJ0EB0J105K
ECJ0EB1E471K
ECJ0EB1A104K
ECEV1CA100SR
ECJ0EB1E102K
ECJ0EB1A104K
ECJ0EB1H331K
ECJ0EB1A473K
ECJ0EB1A473K
ECJ0EB1A473K
ECJ0EB1A473K
ECJ0EB1A473K
ECJ0EB1C223K
ECJ0EB1A473K
ECJ0EB1A104K
ECJ0EC1H101J
C1608 JB 0J 475K-T
ECJ0EB1E472K
ECJ0EB1H392K
ECJ0EC1H181J
ECJ0EB0J474K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1E102K
TEESVA 1A 106M8L
ECJ0EB1E102K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1C153K
ECJ0EB1A104K
ECJ0EB1E821K
ECJ0EB1H272K
ECJ0EB1E562K
ECJ0EC1H181J
ECJ0EB1C822K
ECJ0EC1H680J
ECJ0EB1E271K
ECJ0EC1H100C
ECJ0EB1E102K
ECJ0EC1H060C
ECJ0EC1H060C
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1A104K
ECJ0EB1E102K
ECJ0EC1H470J
ECJ0EC1H470J
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1A104K
ECEV1CA100SR
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1E471K
ECJ0EB1E102K
ECJ0EB1A473K
ECJ0EB1A473K
H/V
M. LOCATION
B
B
T
T
T
T
B
T
B
B
B
B
B
B
T
T
T
T
T
T
B
B
T
T
T
B
T
T
T
T
B
T
T
T
T
T
T
B
B
B
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
T
B
B
B
B
T
T
T
T
T
T
T
T
T
B
T
T
B
B
B
B
T
B
T
B
B
B
T
T
T
B
T
T
T
B
T
T
54.2/42.3
54.2/43.3
36.1/21.9
31.5/27.8
32.3/31.6
19.2/34
29.7/9
40.9/29.1
83/11.6
81.2/13.5
86.9/13
89.4/15.7
85.8/17.8
85.8/16.8
74/13.3
76.2/13.3
24.5/23
24.2/27.8
69.8/15.7
69.8/17.7
76/15.5
77/18.4
35.4/9.9
44.7/9.9
40.5/9.9
46.5/15.4
33.4/17.1
29.9/16.1
33.4/14.9
33.4/10.9
34.5/12.1
29.9/28.1
29.9/30.1
26.6/30.1
31.5/41.1
29.8/39.1
31.5/40.1
69.7/15.5
65/12.9
62.3/8.5
11.6/37.9
14.1/28.8
14.1/26.8
10.6/28.5
14.1/27.8
11.6/31.9
11.6/34.4
12.6/34.4
14.6/40.1
18/40.1
36.9/23.2
21.3/27.8
17.7/26.8
17.7/29.8
19.4/31.7
22.9/39.1
22.9/40.1
16.7/40.4
21.8/40.7
17.2/38.1
20.2/31
27.5/16.2
25.7/10.9
25.7/13.9
25.7/11.9
29.1/5.1
29.1/6.1
27.1/7.1
31/7.1
31/5.1
19.8/38.2
66/39.3
65/39.3
68.5/40.2
64.2/41
61/12.3
59.3/12.3
75.7/9.8
75.5/11.3
21.3/11.9
64.9/8.5
75/6.1
32.9/7.1
86.6/3.3
93.2/6
91.7/2.8
95.9/15.2
89.7/8.9
89.6/2.8
88.6/2.8
19.3/4.2
93.9/13.9
87.6/9.7
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
6-4
[MAIN UNIT]
REF
NO.
ORDER
NO.
H/V
M. LOCATION
DESCRIPTION
C324
C325
C326
C333
C335
C339
C340
C341
C342
C343
C344
C345
C346
C347
C348
C349
C350
C354
C355
C356
C357
4030017420
4550006250
4510006940
4030017420
4030018860
4030016930
4030016930
4030016930
4030017630
4030017580
4030017640
4030016930
4030016930
4030016790
4030016930
4030016930
4030017460
4030017460
4030018080
4030018910
4030017400
S.CER
S.TAN
S.ELE
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
ECJ0EC1H470J
TEESVA 1A 106M8L
EEVFC0J101P
ECJ0EC1H470J
ECJ0EB0J105K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EC1H120J
ECJ0EC1H060C
ECJ0EC1H150J
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1C103K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1H182K
C1608 JB 0J 475K-T
ECJ0EC1H220J
T
T
B
B
B
B
B
B
B
B
B
B
B
T
T
T
T
T
T
T
T
85/13.7
90.6/17.2
87.8/8.9
76.8/39.9
57.2/21.1
5.9/17.2
9.3/12.5
5.9/10.1
18.3/4.2
5.6/4.2
7.6/9.1
11/11.2
11/10.1
8.8/6.5
6/10
21.3/14.9
59.4/43.4
14.2/24.4
42.9/22.7
35.3/20.6
79/25.5
J1
J2
J3
J4
J5
6510021900
6450001680
6450002250
6510018430
6510021900
S.CNR BM02B-ASRS-TF
T
CNR
HSJ1122-010010
CNR
HSJ1456-010320
S.CNR AXN330C038P
B
S.CNR BM02B-ASRS-TF
T
[US2S], [US3S], [EU2S], [GE2S], [GE3S] only
86.6/6.8
F1
5210000830
S.FUS
ERBFE3R00U
T
98/14.5
DS1
5040002670
S.LED
CL-165HR/YG
T
102.8/12.4
MC1
7700002540
MIC
SKP-4538
S1
S2
S3
S4
2260002840
2260002800
2260002800
2250000490
SW
S.SW
S.SW
ECR
SKHLLFA010
SW-167 (SKQTLAE010)
SW-167 (SKQTLAE010)
TP70TF5163-15.9F-2775
[US2], [US3], [EU2], [GE2], [GE3] only
B
B
99.4/44.2
60.9/44.2
EP1
EP2
EP3
6910015370
0910057942
6910015370
S.BEA
PCB
S.BEA
ACZ1005Y-102-T
B 6161B
ACZ1005Y-102-T
T
57/29.9
T
34.7/32
11.8/30.6
50.4/11.7
[CHASSIS UNIT]
REF
NO.
ORDER
NO.
H/V
M. LOCATION
DESCRIPTION
J1
J2
6910015910
6910015860
CNR
CNR
ANT CONNECTOR-104
IMSA-6277S-02A-G
S1
2260002870
SW
AS-243-A13
[US2S], [US3S], [EU2S], [GE2S], [GE3S] only
SP1
2510001060
SP
W1
W2
8900009640
8900009640
CBL
OPC-963
CBL
OPC-963
[US2S], [US3S], [EU2S], [GE2S], [GE3S] only
K036NA500-47
[ANT UNIT]
REF
NO.
ORDER
NO.
DESCRIPTION
H/V
M. LOCATION
L601
6200008240
S.COL
0.30-0.9-5TL 14N
B
7.2/12.5
C601
4030017600
S.CER
ECJ0EC1H080C
B
5.8/15.3
EP601
0910057920
PCB
B 6210
[CONNECT UNIT]
REF
NO.
ORDER
NO.
DESCRIPTION
C501
C502
4030017460
4030016930
S.CER
S.CER
ECJ0EB1E102K
ECJ0EB1A104K
J501
6910016390
CNR
IMSA-9230B-1-02Z145-PT1
EP501
0910057930
PCB
B 6160
H/V
M. LOCATION
T
T
18.3/15.3
9.3/15.3
S.=Surface mount
6-5
SECTION 7
MECHANICAL PARTS AND DISASSEMBLY
7-1 CABINET PARTS
[ACCESSORIES]
[MAIN UNIT]
REF.
ORDER. NO.
DESCRIPTION
QTY.
J2
J3
6450001680
6450002250
HSJ1122010010
HSJ1456-010320
1
R226
7210003061
TP76N00N-15F-A103-2251A
1
S1
S4
2260002840
2250000490
SKHLLFA010
TP70TF5163-15.9F-2775
1
1
MP4
MP5
8510016580
8510016770
2775 shield plate
2776 earth plate
1
1
MC1
7700002540
SKP-4538
1
[F24S], [F25S]
only
REF.
ORDER. NO.
EP1
DESCRIPTION
3310002311
FA-SC25U-1
3310002291
FA-SC57U-1
EP2
0800007541
BP-231 ACC-1
MP1
MP2
MP3
MP4
8010019540
8210020560
8810004860
8930051290
MB-94 ACC
2721 JACK PANEL
Screw M2 x 6 ZK
2251 opt sheet
QTY.
[US2], [US2S], [EU2]
[EU2S], [GE2], [GE2S]
[US3], [US3S]
[GE3], [GE3S]
REF.
ORDER. NO.
DESCRIPTION
QTY.
2260002870
AS-243-A13
SP1
2510001060
K036NA500-47
W1
W2
8900009640
8900009640
OPC-963
OPC-963
J1
J2
6910015910
6910015860
Antenna connector-104
IMSA-6277S-02A-G
1
1
MP1
MP2
MP8
MP9
MP10
MP11
MP13
MP20
MP21
MP22
MP25
MP26
MP27
MP28
MP29
MP30
MP31
MP32
MP33
MP34
MP35
8010019690
8210020920
8210020550
8930063350
8610011930
8610012130
8930063330
8930063330
8930063060
8930063400
8930063410
8930063410
8930043760
8930059360
8930063390
8830001720
8810009220
8810009560
8810009510
8810009510
8810009510
8810010160
8930051290
8930042350
8930056540
8830001700
2775 chassis
2775 front panel
2721 rear panel
2775 lens
Knob N-318
Knob N-323
2775 B-main seal
2775 A-main seal
2721 terminal rubber
2775 side plate
2775 B-top plate
2775 A-top plate
1923 mic seal
2600 release button
2775 release plate
2721 antenna nut
Scerw B0 2 x 8 ZK (BT)
Scerw M2 x 6 ZK
Scerw M2 x 4 NI-ZU (BT)
Scerw M2 x 4 NI-ZU (BT)
Scerw M2 x 4 NI-ZU (BT)
Scerw M3 x 5 SUS ZK
2251 opt sheet
1922 mic sheet
Spring (AH)
VR nut (Q)
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
9
1
1
1
1
1
2
1
MP36
8830001700
VR nut (Q)
MP37
8830001740
VR nut (S)
MP14
MP16
MP17
Screw abbreviations
[F24S], [F25S]only
1
1
[F24S], [F25S]only
[F24], [F25]
[F24], [F25]
[F24S], [F25S]
[F24], [F25]
[F24S], [F25S]
MP1
1
1
EP2
MP4
EP1
1
[F24S], [F25S]only
1
B0, BT: Self-tapping
ZK: Black
SUS: Stainless
NI-ZU: Nickel-zinc
7-1
1
1
1
2
1
[CHASSIS PARTS]
S1
1
MP2
MP3
IC-F24S/F25S
MP13(C)
MP37(C)
MP17(C)
J1(C)
*MP36(C)
MP8(C)
MP35(C)
MP1(C)
MP31(C)
*MP17(C)
IC-F24S/F25S
ANT Unit
S1(C)
A
MP29(C)
W2(C)
MP30(C)
CONNECT Unit
*S4(M)
MP32(C)
R226(M)
MAIN Unit
MP14(C)
MP28(C)
MP25(C)
*MP11(C)
J2(C)
S1(M)
MP4(M)
MP10(C)
MP9(C)
MP28(C)
J2(M)
MP26(C)
SP1(C)
MP27(C)
MP28(C)
J3(M)
MP5(M)
MP26(C)
MC1(M)
MP28(C)
MP16(C)
W2(C)
MP20(C)
A
W1(C)
A
MP33(C)
MP28(C)
IC-F24S/F25S
*: IC-F24/F25 only
119.5 (4 23/32)
MP22(C)
119.5 (4 23/32)
MP34(C)
31 (1 7/32)
17.8 (11/16) 38 (1 1/2)
MP2(C)
1.7 (1/16)
4.8 (3/16)
A:139 (5 15/32) [US2], [US2S], [EU2]
[EU2S], [GE2], [GE2S]
159 (6 1/4) [US3], [US3S]
[GE3], [GE3S]
unit: mm (inch)
UNIT abbreviation (C): CHASSIS PARTS, (M): MAIN UNIT
7-2
12.5 (1/2)
18 (23/32)
MP28(C)
MP21(C)
1.7 (1/16)
53 (2 3/32)
2 (3/32)
SECTION 8
SEMI-CONDUCTOR INFORMATION
• TRANSISTORS AND FETs
2SA2048TL R
(Symbol: UL)
2SB1132 R
(Symbol: BARB)
B
B
C
3SK293
(Symbol: UF)
G2
G1
D
UNR911HJ
(Symbol: 6P)
RD01MUS1
(Symbol: K2)
D
RD07MVS1
(Symbol: RD07MVS1)
S
XP1214
(Symbol: 9H)
B1
B
E
E
C
D
E
D
C
C
UNR9113J
(Symbol: 6C)
B
G
S
UNR9213J
(Symbol: 8C)
B
B
D
G
S
UNR9210J
(Symbol: 8L)
G
D
S
S
G2
S
G
D
3SK299 U73
(Symbol: U73)
S
G
S
E
E
2SK880 Y
(Symbol: XY)
2SK3019
(Symbol: KN)
C
E
C
C
E
2SK1829
(Symbol: K1)
B
C
B
B
E
2SC5107 O
(Symbol: MFO)
B
2SC4215 O
(Symbol: QO)
C
E
2SC4226 R25
(Symbol: BR)
G1
B
C
E
2SC4116 BL
(Symbol: LL)
2SC3356 R25
(Symbol: R25)
C
C1
E1
B2
E
XP4216
(Symbol: 8U)
C2
E1
C1
B1
B2
C2
E2
XP6501 AB
(Symbol: 5N)
E1
C1
E2
B1
B2
C2
• DIODES
1SS400
(Symbol: A)
C
1SV307
(Symbol: TX)
A
A
C
C
A
MA2S077
(Symbol: S)
MA8043 L
(Symbol: 4_3)
C
C
HVC350B
(Symbol: B0)
DAN222
(Symbol: N)
MA2S111
(Symbol: A)
A
A
C
A
A
8-1
C
C
RB876W TL
(Symbol: 3X)
MA2S728
(Symbol: B)
RB886G
(Symbol: C)
C
MA368
(Symbol: 6L)
A
A
SECTION 9
BOARD LAYOUTS
9-1 MAIN UNIT
TOP VIEW
ANT
C21
R23
C46
C43
R62
Q5
Q7
C122
C92
C133
L25
Q19
C124
R84
C357
R4
C78
R5
R53
R55
C183
R57
C88
R58
C79
R54
C84
Q6
R8
9-3 CONNECT UNIT
•
•
TOP VIEW
TOP VIEW
10
0
5
C502
5
J501
C501
Vertical
MP601
Vertical
10
B6160
0
10
C318
15
20
Horizontal
0
5
10
Horizontal
9-1
15
F1
C323
J1
Q31
C315
Q30
C316
G
9-2 ANT UNIT
5
DS1
R227
C322
IC12
C324
R133
C308
R229
R211
0
F1
R240
G
SP
R228
C232
Q25
C231
Q23
R134
C314
0
C325
R230
Q21
Q24
C76
R6
R59
C94
C73
R10
R3
C77
F12
MC1
C176
C83
R232
C295
R212
R195
R56
C178
R233
R215
C299
C86
R231
R191
C296
C242
C89
C319
R192
R210
R213
R52
R302
C179
C320
R208
R206
C298
R142
R297
D30
C171
SP
R193
R214
C243
C74
R11
C27
C18
MIC
C347
IC14
R209
R207
C297
R141
R14
R13
CL
C241
C236
R137
R254
R265
C72
R7
C235
R36
IC8
R150
IC5
C80
R138
J5
C291
IC2
CH
C293
R194
105
C170
R9
R242
R196
R264
C348
R256
R147
R149
100
C28
C173
C31
Q8
Q26
C64
R148
95
C104
X1
R241
C252
R151
C310
C93
+5
Q27
C290
C292
R198
R65
L20
C35
C182
C251
C253
R197
L23
EP1
90
R19
R18
R61
R68
R66
R37
R260
R303
C356
R145
R200
R263
C119
R67
L22
R5V
C279
R259
R262
D14
C133
R123
C166
C211
R201
C102
R78
D15
R38
R135
R233
C349
Q10
C118
85
C34
C33
C42
C164
R190
IC13
C117
C50
Q1
L33
R261
15
C121
D17
C162
C123
R24
C116
R124
C107
L29
L35
R115
C156
C157
R132
R143
R146
5
R131
R103
Q22
R136
Q33
C213
R104
R287
C354
R288
Q32
C256
C234
C150
C280
R109
R173
MP3
R83
C129
R108
R175
C281
C163
R176
C355
R164
C224
X2
C142
C273
C271
R153
R111
CK
R174
R79
R82
C165
ST
R186
R177
C257
R152
C282
R159
R154
R266
10
R106
C158
R105
R167
C270
C258
L40
D21
C202
R166
C159
S5V
R163
C135
C161
EP3
R171
IC4
C222
C276
C275
C274
R161
C272
Q35
IC7
C221
D22
C136
R178
R258
20
IC10
C126
C134
C140
C283
R257
25
UHF
B6161B
Vertical
R162
IC6
R170
Q34
30
R166
C269
C155
R165
35
D16
R85
C99
C149
R22
D25
D24
C108
C154
C302
R157
C180
C260
Q9
R182
R69
C284
Q12
R237
R71
R172
R94
C151
80
C120
R118
C115
R117
Q14
C261
Q13
R156
C114
C153
R180
L26
C152
C285
C127
C259
R181
LV
R168
R93
C277
75
BOARD
T5V
R155
C278
R169
40
70
L15
Q17
R98
65
R12
C148
60
C97
45
55
L19
50
C96
45
R125
40
C303
35
C98
30
C57
25
R293
20
R294
15
C350
10
L21
5
C112
0
Horizontal
C137
•
• BOTTOM VIEW
R276
R277
R271
R272
R273
R275
R278
R274
C286
R185
D18
C138
R114
C132
R160
J4
30
R284
C63
C65
C71
C230
C339
R43
C244
C66
R144
C68
R45
C69
15
C265
IC15
C255
C223
R291
R254
R255
C341
C344
R251
10
5
C343
C342
J3
C321
D29
X3
R235
R234
D27
C313
D26
C312
R292
D28
R252
R236
J2
C340
C345
C346
R225
R238
C266
C311
C326
C75
Q28
R224
C307
R223
Q29
C309
R222
C225
C306
R226
R44
C226
IC9
C227
R221
R46
C264
C237
C70
R179
C228
20
0
90
85
80
75
70
65
60
55
50
45
40
35
30
25
20
15
10
5
Horizontal
•
•
BOTOM VIEW
BOTOM VIEW
10
10
L601
5
5
B6210
0
0
15
10
Horizontal
5
0
20
15
10
Horizontal
9-2
5
0
Vertical
95
C601
100
Vertical
105
0
Vertical
1
R220
C145
C61
R187
C62
C169
PTT
C168
25
DISC
R87
C59
R35
R34
Q4
C188
C91
C238
FI3
C229
C67
R39
R90
IC1
D31
C167
R40
MP1
C58
C335
L17
C81
C82
C13
C11
L4
C16
R48
R33
R92
1
C144
OPV1
OPV2
DAST
GND
OPT3
OPT2
OPT1
SIGO
NMI
BUSY
RES
MCIN
MCOT
PTT
PTTI
SCK
SI
SO
CIRQ
CCS
CP10
DISC
DET
CP11
BEEPO
AFONO
CP12
VCC
+5V
GND
30
R110
C289
MIC
C139
FI1
MP1
L27
15
35
16
R280
R95
C288
C160
R113
C203
C7
R77
C110
R73
L43
R86
Q16
C54
C56
C317
40
C146
L38
C147
C300
L42
L3
R301
R184
C205
L28
C111
C5
S4
R183
C103
C53
D2
Q11
R32
C8
C130
R97
R31
C51
C287
R96
C60
D10
D9
C36
R17
L2
R89
R80
C24
L13
C141
Q18
R75
R29
C106
D7
C37
R20
C143
L41
C105
C50
C52
C208
R100
C48
R30
L32
R101
R88
L11
C44
C45
C38
Q2
Q3
R25
R16
C32
R15
L8
C25
D8
L9
R76
L12
C22
D3
C177
C41
C209
C206
R70
C49
C100
D5
L5
C185
R296
C2
C6
D4
C40
C39
C30
C23
C20
C19
L7
C4
C17
L30
C21
C3
C14
D1
R2
L1
R51
C186
C333
D6
R1
L45
C304
C109
C305
R107
Q15
R295
C1
C175
S1
45
S3
J4
to the OPTIONAL unit
S1
S2
SECTION 10
BLOCK DIAGRAM
S5V
400-520 MHz
Q18:
2SK880
LVIN
Q15: XP1214
Q16: UNR9213J
Q17:
2SC4116
Q14: 2SC4226
D16: HVC350B
RIPPLE
FIL
BUFF
D22:
HVC350B
LV
ADJ
X2:
CR-783
15.3 MHz
BAL
Q19:
2SC4116
LV
LOOP
FIL
TCXO
REF
D21:
HVC350B
PLL
IC
X3
Q12:
2SC5107
Q10:
2SC5107
BUFF
BUFF
FM
MOD
LPF
BUFF
FI1:
FL-335
IF
AMP
PRE
DRIVE
DRIVE
AMP
RSSI
D10:
HVC350B
Q7:
RD07MVS1
D2: 1SV307
D5: MA2S077
PWR
AMP
LPF
ANT
SW
LPF
IC2:
TA75S01F
APC
AMP
GATE
CTRL
D7: HVC350B
D8: HVC350B
D9:
HVC350B
BPF
BPF
PWR
DET
T2
RF
AMP
Q6:
UNR9113J
D3: HVC350B
D4: HVC350B
BPF
MUTE
SW
BPF
Q2:
3SK293
LVA
MIXER
FI2
T2
T1
Q26:
UNR9213J
X1
NOIS
YGR
AMP
353. 65 MHz-473. 65 MHz
Q3:
3SK299
46. 35 MHz
XTAL
BPF
IC1: TA31136FN
RSSI
Q8:
RD01MUS1
D18:
MA368
FM IF IC
SQL IN
Q5:
2SC3356
Q1:
2SK1829
Q4:
2SC4215
BPF
TX/RX
SW
Q9:
2SC5107
Q11:
2SC5107
Q13:
2SC4226
D17: HVC350B
LPF
45.9 MHz
D14, D15:
MA2S077
TX VCO
LV
ADJ
IC4:
MB15A02
R5V
VCO
SW
RX VCO
CERAMIC
BPF
TMUT
W/N
SW
CDBC450CX24
ALFYM450F=K
DET
450 kHz
LVA, T1, T2
NWC
J2
MOD
Q34:
2SK3019
IC6:
NJM13403
HPF
OPTION CONNECTOR
MCIN
MCOT
IC10:
CD4066
RX
MUTE
IC6:
NJM13403
RMUT
HPF
D/A
IC6:
NJM13403
DET
DISC
OPTION CONNECTOR
ANALOG
SW
IC6:
NJM13403
CTCSS/DTCS
AMP
PTT
RMUT
LPF
MC1
MIC
MUTE
SKP-4538
Q28:
UNR911HJ
MMUT
IC8:
M62363FP
PTT
Q28: UNR911HJ
PTT
DET
S1
PTT
DET
PTT
PTTI
OPTION CONNECTOR
T5V
HSJ1122-010010
Q35:
2SK3019
PTT
PTTI
OPTION CONNECTOR
TONE
R226
TP76N00N
IC12:
TA7368F
AF VOL
BEEP0
LPF
BEEP
SENC0-3
IC7:
NJM12902
Q29: UNR9210J
D26: RB876W
R131
ERTJ0EP473J
CDEC
CLO
CLI
IC5:
NJM12902
LPF
VCC
LPF
Q21:
2SA1577
CPU
CENC0-2
T5C
F1
IC13: HD6433687A91FP
SIGO
J4: AXN330C038
T5
REG
R5C
CONNECTOR
Q23: 2SB1132
Q24: XP6501
Q25: UNR9113J
Q27:
UNR9213J
BEEPO
DUSE
FIL
SW
F2
VCC
S5
REG
T5V
Q22:
2SA1577
S5C
S4:
TP70TF5163
R5
REG
+5
REG
IC14:
BD5242
IC15:
BR24L16FV
RES
EEPROM
IC9:
NJM2870
RESET
MCIN
DISC
MCOT
DET
CSFT
X3
CR-764
19. 6608 MHz
SHIFT
SW
Q32: XP4216
RLED
TLED
LED
CTRL
G
R
DS1:
CL-165HR
10 - 1
2
NOTES :
+5V
Voltage line
Contorol line
Common line
TX line
DATA lime
CPU5
D28:
MA2S077
2
RX line
PTTO
PTTI
F1
R5V
CH
SELECT
AFONO
1
ERBFE3R00U
S5V
BUSY
CLONE
BUFF
SDEC
IC5:
NJM12902
OPTION
SP1
BM02B-ASRS-TF
TEMP
AMP
J1
1
2
BT1
LPF
PWR
CTRL
AFONO
BATTERY_1
DET
J3
Q30: 2SA2048
Q31: XP6501
AFON
CTCSS/DTCS DEC
IC7:
NJM12904
HSJ1456-010320
AF
AMP
IC5:
NJM12902
D1: RB886G
D30: RB886G
SECTION 11
VOLTAGE DIAGRAM
11-1 MAIN UNIT
R52
220
R51
82 k
C175
3P
2.5 P
T: 0.0
R: 4.9
APC
R3
47
82
C77
0.001
D31
MA8043 L
T: 0.9
R: 0.0
T5V
Q6
UNR9113J
R5
10 k
22 k
1
T2
D4
HVC350B
D3
HVC350B
T: 2.8
R: 0.0
R6
100 k
C72
47 P
2
TMUT
IC2
TA75S51F
R4
10 k
R10
1k
C73
0.001
D5
MA2S077
4
R8
470 k
150 k
5 3
C78
0.001
R9 270
L5
C80 0.0047
C76 0.01
C177
4P
C79 0.22
LQW1608A22NG00
C14
4P
C17 L30
68 P 33nH
R2
1k
C8
3.5 P
6P
MP1
R55
4.7 k
C91
4.7
D6
MA2S728
C22
8P
L45
17.5 nH
C5
4P
D30
3P
RB886G C185
0.5 P R296 2.7 k
C3
R297
8P
C1
1k
7P
8P
D1
C74
7P
RB886G C186
0.001
0.5 P R1 2.7 k
L15
0.82 H
C171
47 P
C16
30 P
C11
7P
3P
D2
1SV307
C357
22 P
C83
10 P
R53
10
120
C84
47 P
C94
470 P
L7
C21
24 P 22 nH
22 P 18 nH
C170
0.001
C13
12 P
9P
L17
21 nH
C179
0.001
C82
C18 0.001
0.001
C81
0.01
R56
ERJ3GE-JPW
R54
33 k
R59
4.7 k
R14
10 k
C27
0.001
C19
0.001
ANT BOARD
L2
L1
C6
0.001 14 nH 17.5 nH
T: 4.8
R: 0.0
T: 2.1
R: 0.0
C20
7P
R11
100 k
T1
C28
0.001
R302
220
2
FI3
1
C176
0.001
C178
47 P
C183
47 P
Q7
RD07MVS1
C7
0.001
L3
0.4-0.9-2TL
0.4-0.9-2TL
Q8
RD01MUS1
C89
4P
R57
47
L8
C24
24 P 22 nH
22 P 18 nH
D8
HVC350B
D7
HVC350B
RSSI
R13
100 k
R301
ERJ2GE-JPW
L4
C2
C4
2P
2.5 P 1.5 P
REF
LVA
T2
C86
47 P
27 P
C88
0.001
R58
33 k
D25
MA2S111
C25 8P
T: 0.0
R: 1.8
RF AMP
NFM60R20T152
C107
0.001
12 nH
10 nH
L19
C96 0.001
C182
8P
7P
C180
R62 22 k 47 P
R125
220 k
R123
1.8 k
T: 0.0
R: 2.2
C32
0.001
C333
47 P
R16
100
T: 0.0
R: 1.5
C34 47 P
R19
82 k
C33
0.001
R12 10
R15 47 k
C38
2P
1.5 P
C42
0.001
R61
47
R65
100
C106
47 P
R69
4.7 k
R20
1k
47 k
C37
0.001
L9
12 nH
10 nH
R17
47
C31
0.001
R50
100
R24
10 k
C36
0.001
D9
C39
10 P HVC350B
R21
220 k
C46
0.001
L20
18 nh
15 nH
R68
10 k
R67
100
C99
0.001
R66
15 k
C108
0.01
R70
10
L21
33 nH
R71
68 k
C205
5P
C304
6P
D10
HVC350B
C45
12 P
10 P
R23
220 k
C43
0.001
C44
1P
1.5 P
L11
15 nH
12 nH
R25
4.7 k
C48
22 P
T2
T1
IC5
NJM12902V
R261
1k
SI
PTT
OPT2
OPT1
OPT3
TLED
PLED
R5C
T5C
S5C
DAST
NWC
PLST
UNLK
3
2
1
R278 100 k
R277 100 k
R275 100 k
4
5
6
DS1
CL-165HR/YG
R287
YG
330
R288
1.5 k
HR
R293
18 k
C339
0.1
T: 4.9
R: 0.0
KEY
R295
47 k
1
2
3
4
R276 100 k
CP12
+5V
Q32
XP4216
S2
SW-167(SKQT)
A0
A1
A2
VSS
R273 1 M
CP11
C350
0.001
R263
10 k
C349
0.1
R264
47 k
R262
100 k
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
BEEP
CP10
BEEPO
AFONO
TLED
VCC
WP
SCL
SDA
R280 10 k
DISC
DET
T: 0.0
R: 4.9
8
7
6
5
CP14
DAST[OPV3]
OPV2
OPV1
SCK
SI
SO
CIRQ
CCS
RLED
IC15
BR24L16FV-WE2
CP15
C354
0.001
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
R284 100
R294
27 k
NMI
J4
AXN330C038
PTTI
PTT[PTT0]
MCOT
MCIN
RES
BUSY
NMI
SIGO
OPT1
OPT2
OPT3
S3
SW-167(SKQT)
PLSW
R274 68 k
R271 1 M
R260
100 k
R259
1k
PB5/AN5
PB4/AN4
PB0/AN0
PB1/AN1
PB2/AN2
PB3/AN3
P30
P31
P32
P33
P17/IRQ3/TRGV
P16/IRQ2
P15/IRQ1/TMIB1
P14/IRQ0
P72/TXD_2
P71/RXD_2
R266
15 k
Q33
UNR9113J
R272 1 M
CLO
CLI
TMUT
MMUT
RMUT
CCS
CIRQ
R257
1 k NOIS
OPV2
OPV1
64
63
62
61
60
59 REMO
58
57
56
55
54
53
52
51
50
49
LVIN
RSSI
KEY
SDEC
CDEC
R292
100 k
R291
100 k
R234
150 k
P36
P37
P52/WKP2
P53/WKP3
P54/WKP4
P55/WKP5/ADTRG
P10/TMOW
P11/PWM
P12
P56/SDA
P57/SCL
P74/TMRIV
P75/TMCIV
P76/TMOV
P24
P63/FITOD0
CP16
C341
0.1
C346
0.1
R265
1k
C325
10
C321
0.001
C320
470 P
C319
0.1
Q31
XP6501 AB
R232
3.3 k
7
R233
3.3 k
R215
IC5
NJM12902V 68 k
6
5
6
5
4
R214
68 k
P70/SCK3_2
P23
P22/TXD
P21/RXD
P20/SCK3
P87
P86
P85
P67/FTI0D1
P66/FTI0C1
P65/FTI0B1
P64/FTI0A1
P60/FTI0A0
NMI
P61/FTI0B0
P62/FTI0C0
ESCL
ESDA
C324
47 P
R230
10
D27
DAN222
1
R231 2
1k
3
C316
0.1
1
C340
0.1
IC12
TA7368F
C323
0.047
CBI2
CBI3
SCK
SO
Q30
2SA2048TL R
POUT 10
NC
PWGND 9
VCC
NC
PREGND 8
VIN
PHASE 7
RIPPLE
NF 6
R229
10
C: 3.6
IC13
HD6433687A91FP
DUSE
BUSY
AFON
R228
1k
R227
10 k
1
2
3
4
5
R254
12 k
CSFT
PB6/AN6
PB7/AN7
AVCC
X2
X1
VCL
RES
TEST
VSS
OSC2
OSC1
VCC
P50/WKP0
P51/WKP1
P34
P35
CENC0
CENC1
CENC2
T: 0.0
R: 7.2
R255
12 k
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
SENC0
SENC1
SENC2
SENC3
C326
100
C315
0.001
C297
180 P
R212
68 k
2
3
C345
D28
0.1 MA2S077
R251
12 k
C342
12 P
C343
6P
X3
C344
CR-764 15 P
T: 6.8
R: 6.6
R213
68 k
TEMP
C348
0.1
NOTES :
Voltage line
Common line
TX line
R236
D29
330 k 1SS400
RX line
AFON
AFONO
IC5
NJM12902V
RES
IC14
BD5242G
7
R178
120
R256
10 k
R252
10
R200
4.7 k
14
BATV
SIGO
C241
0.1
6
5
5 CD OUT 1
2
4 NC VDD
VSS 3
R235
100 k
R198 13
47 k 12
R141
470
C242
0.1
IC6
NJM13403V
C318
0.1
R197
47 k
R258
100 k
C283
0.47
R177
33 k
C: 2.2
C347
0.01
C282
180 P
R176
150 k
C281
0.0039
C280
0.0047
C285 R181
0.1
47 k
C289
0.1
R186
82 k
R182
100 k
R190
330
R175
220 k
Q27
UNR9213J
R211
68 k
C112
0.001
C109
0.001
R76
100
C305
6P
L12
33 nH
39 nH
C54
0.001
C53
0.01
R29
150
C50
0.001
R142
470
C: 4.9
C284
0.1
S5V
C296
0.0056
R208
SENC2 47 k
R209
SENC3 22 k
L41
33 nH
C105
0.001
C103
2P
L22
22 nH
R77
10 k
Q12
2SC5107 O
R78
100 k
C57
0.001
R31
100
R30
1k
C52
47 P
R32
100
4
6
5
3
R173
120 k
C317 C322
10 0.047
R194
22 k
R196
47 k
R75
220 k
R73
100
C110
470 P
C139
0.1
EP1
C118
0.5 P
C113
0.3 P
C59
0.001
L13
0.27 H
C51
0.001
24
23
22
21
20
19
18
17
16
15
14
13
BIAS
R206
SENC0 220 k
R207
SENC1 100 k
11 - 1
C120
470 P
C119
0.001
R35
100
C60
0.01
R34
220 k
R48
470
NWC
BAL
SO
SCK
DAST
MOD
RMUT
R187
1k
I/O1
VDD 14
CONT1 13
O/I1
O/I2
CONT4 12
I/O2
I/O4 11
O/I4 10
CONT2
O/I3 9
CONT3
I/O3 8
VSS
MMUT
C300
270 P
C288
0.001
R184
5.6 k
R183
6.8 k S5V
R185
120 k
C286
0.001
8
C279
4.7
T5V
IC10
CD4066BPWR
1
2
3
4
5
6
7
R179
1k
R172
270 k
C356
4.7
VIN8
VIN1
VOUT1 VOUT8
VOUT2 VOUT7
VIN2
VIN7
VDD
GND
LD
RESET
CLK
VDAREF
DI
DO
VIN3
VIN6
VOUT3 VOUT6
VOUT4 VOUT5
VIN4
VIN5
R180
1M
R193
22 k
R22
10 k
T: 7.1
R: 7.2
C23
2.5 P
2P
C30 7 P
CPU5
R143
15 k
R201
47 k
CENC2
VCC
1
2
3
4
5
6
7
8
9
10
11
12
R174
100 k
C299
68 P
R192
56 k
RF AMP
AGC
R124
470 k
R18
10 k
Q2
3SK293
T: 0.0
R: 0.4
Q1
2SK1829
C35
0.1
C: 4.9
C290
0.1
CENC1
C41
5P
Q3
3SK299 U73
IC8
M62363FP-650C
R145
100 k
R303
4.7 k
C298
0.0082
CENC0
L38
27 nH
C40
0.3 P
MIX
C56
22 P
R37 C65
2.7 k 0.001
C244
0.1
C: 2.2
R191
180 k
T: 0.0
R: 4.7
C303
0.001
C92
12 P
Q9
2SC5107 O
Q5
2SC3356 R25
T: 2.0
R: 0.0
3
T: 1.7
R: 0.0
+5V
C251
0.022
C256
0.039
C269
330 P
R171
150 k
C278
100 P
9
10
T: 0.0
R: 4.4
C: 4.9
C243
0.01
C221
0.1
R144
10 k
BIAS
R226
TP76N00N-15F-A103-2251A
C104
0.001
C116
0.01
C114
3P
6P
D21
HVC370B
R36
3.3 k
R38
100 k
C188
0.001
NOIS
RSSI
C64
0.01
C49
5P
2P
T: 0.0
R: 0.8
Q26
UNR9213J
NWC
C68
220 P
T: 0.0
R: 4.7
R5V
C258
0.0068
R155 C259
100 k
1
C287
10
C261
0.1
IC6
NJM13403V
Q15
XP1214
T: 0.0
R: 2.0
T: 0.0
R: 4.9
D15
MA2S077
C97
47 P
C93
5P
8P
+5V
DET
R169
150 k
C277 R168
0.1
470
Q16
UNR9213J
IF AMP
R154 R153 R152
22 k 22 k 22 k
R156
470 k
C260
470 P
R147
39 k
C257
10
9
8
C295
0.0027
R241
ERJ2GE-JPW
CP13
Q4
2SC4215 O
R146
100 k
C252
820 P
R148
82 k
DUSE
CBI0
CBI3
CBI2
CBI1
C75
4.7
C67
0.001
R43
47
C63
47 P
C70
470 P
R46
470
C222
0.1
R149
390 k
C253
820 P
C293
820 P
BEEP0
C160
0.1
CLO
CLI
4
V+
GND
11
NJM12904V 0.1
C292
0.1
C310
0.1
C62
82 P
C66
0.001
C335
1
R40
150
C223
0.1
R131
ERTJ0EP473J
R132
100 k
C254
0.1
R150
180 k
C291
0.015
BEEP
R110
47 k
R240
68
C501
C502
CONNECT BOARD
F1
ERBFE3R00U
1
2
14
R238
100 k
S4
TP70TF5163
15.9F-2775
2 C1 A1 1
3
5 C2 B1
A2 4
6
8 C3 B2
A3 7
B3 9
C224
0.1
C255
0.047
13
12
MMUT
MCOT
MCIN
R237
10 k
J501
1
2
J5
BM02B-ASRS-TF
C225
0.001
C226
4.7
C227
0.01
1 CTRL VIN 5
2
3 GND
NB VOUT 4
IC9
NJM2870
C230
0.1
C264
10
C266
0.1
R162
10 k
IC6
NJM13403V
C276
0.047
Q29
UNR9210J
D26
RB876W TL
9
10
12
13
CDEC
14
R157
2.2 k
RMUT
C275
0.022
C313
47 P
C314
0.001
4 3
4 3
DET
4
V+
GND
11
CP3
C274
0.047
R225
100
1
2
Q34
2SK3019
BIAS
CHASSIS
PTT
1
2
3
C302
10 P
T: 3.9
R: 0.0
C98
5P
10 P
LPF
T5V
T: 3.3
R: 0.0
VCC
IC7
NJM12904V IC7
DISC
+5V
1
2
SIGNAL
R220
100
CP4
T: 4.8
R: 0.0
IC6
NJM13403V
R163
10 k
J1
BM02B-ASRS-TF
T: 0.0
R: 1.1
FI1
FL-335
C58 R33 46.350 MHz
0.001 150 2
1
C61
100 P
D14
MA2S077
C100
10 P
T5V
IC5
NJM12902V
R195
10 k
1
16
15
14
13
12
11
10
9
MIXIN
GND
N-REC
N-DET
RSSI
IFOUT
QUAD
AFOUT
T: 0.0
R: 4.7
S5V
R210
12 k
R167
5.6 k
R159
12 k
3
2
R151
1.5 k
Q10
2SC5107 O
C102
5P
Q11
2SC5107 O
T: 2.4
R: 0.0
IC5
IC6
IC7
NJM12902V NJM13403V NJM12904V
4
V+
GND
11
8
PTTI
R160
100
C272
0.047
C312
47 P
C311
0.001
R164
3.9 k
C309
0.001
C308
0.001
CP2
Q35
2SK3019
SDEC
R242
ERJ2GE-JPW
R170
12 k
C271 C273 C270
0.047 0.047 0.047
TEMP
R166
47 k
R161
4.7 k
J3
HSJ1456-010320
S5C
C231
0.01
R222
82 k
R165
3.9 k
R223
33 k
C306
0.001
C307
0.001
S1
SKHLLFA010
Q28
UNR911HJ
R224
470
C229
0.001
R133
10 k
R221
470
MC1
SKP-4538
S2
AS-243-A13
(Only F24S, F25S)
Q25
UNR9113J
C265
0.001
C232
0.1
1
2
3
R134
4.7 k
R5C
T5C
Q24
XP6501 AB
6
5
4
R135
10 k
C233
0.01
C234
0.001
R137
10 k
C235
0.01
R138
4.7 k
C236
0.001
Q22
2SA1577 Q
R136
4.7 k
C237 C238
22 0.001
Q21
2SA1577 Q
C228
10
Q23
2SB1132 R
S5V
OSCIN
OSCOUT
MIXOUT
VCC
IFIN
DEC
FILOUT
FILIN
T5V
R5V
VCC
S5V
+5V
VCC
+5V
IF IC
IC1
TA31136FN
R45
100 k
C: 4.9
C: 4.7
R5V
X1
CDBC450CX24
C145
47 P
C355
0.0018
C167
0.1
C69
470 P
T: 4.9
R: 5.0
C: 5.0
T5V
C71
0.1
C164
7P
C162
56 P
C169
0.1
1
2
3
4
5
6
7
8
R44
100 k
C168
0.1
543
T: 0.0
R: 4.9
T: 4.8
R: 0.0
C165
0.01
L35
0.22 H
FI2
ALFYM450F=K
2
1
C202
0.1
R114
150 k
*3 MULTI
R113
390 k
C166
3P
L33
0.82 H
R115
1.2 k
C173
0.001
R111
100 k
LVA
C163
4P
R39
47
R88
560
680
MP3
R87
220 k
T: 0.0
R: 4.7
5
4
L23
0.82 H
C150
1
T: 0.0
R: 3.3
Q19
2SC4116 BL
MOD
Q13
2SC4226 R25
C: 3.9
C111
47 P
C133
15 P
12 P
D18
MA368
L43
1.8 H
TX VCO
R82
4.7
C123
18 P
15 P
R80
560
1k
L40
0.82 H
R83
6.8 k
R84
6.8 k
R5V
R116
680 k
Q14
2SC4226 R25
C115
12 P
4P
D22
HVC370B
C134
15 P
12 P
C126
12 P
C135
0.001
C136
0.1
C129
0.5 P
D17
HVC350B
R86
10
R109
100 k
R108
27 k
18 k
IC4
MB15A02PFV-1
RX VCO
R85
6.8 k
L42
1.8 H
C203
0.001
C148
10
L28
1.8 H
R90
470 k
L32
18 nH
C161
10 P
R79
6.8 k
C122 C121
10 P 12 P
4P 5P
R98
2.2 k
C137
0.01
D16
HVC350B
C132
0.001
C138
0.001
C209
0.001
C127
8P
5P
C124
L25
9P
6 P 7.5 nH
L27
1.8 H
C144
47 P
C146
0.47
C130
0.047
C149
0.47
C147
1
CLOCK FIN
DATA
LD
LE
GND
FC
DO
NC
VCC
VP
FOUT
P OSCOUT
OSCIN
B
C142
0.001
8
7
6
5
4
3
2
1
C206
7P
C152
47 P
C153
47 P
C154
47 P
C151
0.1
9
10
11
12
13
14
15
16
R97
1k
C208
7P
R118
4.7 k
SO
PLST
R93
1k
D24
MA2S111
R107
56
R117
4.7 k
R96
3.9 k
2.7 k
R95
1k
C140
0.1
C155
47 P
R94
150 k
C149
0.001
UNLK
SCK
R92
120 k
R101
470
C143
0.001
C141
0.001
L29 1.8 H
C: 4.2
Q17
2SC4116 BL
L26
10.5 nH
R89 10 k
LVIN
S5V
Q18
2SK880 Y
R100
4.7 k
EP3
C159
0.001
CP1
C156
0.001
R106
10 k
C213
0.001
R105
470 k
C158
0.1
X2
CR-783
REF
1 VCON VCC 4
2
3
GND OUT
R103
47 k
REF
R104
330 k
C157
10 P
C211
4.7
J2
HSJ1122-010010
VCC
T5V
R7
120 k
VCC
T5V
VCO5
CBI0
CBI1
VCC
T5V
S5V
+5V
BAL
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
J4
1-1-32, Kamiminami, Hirano-ku, Osaka 547-0003, Japan
Phone : +81 (06) 6793 5302
Fax
: +81 (06) 6793 0013
URL : http://www.icom.co.jp/world/index.html
Icom America Inc.
<Corporate Headquarters>
2380 116th Avenue N.E., Bellevue, WA 98004, U.S.A.
Phone : +1 (425) 454-8155
Fax : +1 (425) 454-1509
URL : http://www.icomamerica.com
E-mail : sales@icomamerica.com
<Customer Service>
Phone : +1 (425) 454-7619
Icom Canada
Glenwood Centre #150-6165
Highway 17 Delta, B.C., V4K 5B8, Canada
Phone : +1 (604) 952-4266
Fax : +1 (604) 952-0090
URL : http://www.icomcanada.com
E-mail : info@icomcanada.com
Icom (Australia) Pty. Ltd.
A.B.N. 88 006 092 575
290-294 Albert Street, Brunswick, Victoria, 3056, Australia
Phone : +61 (03) 9387-0666
Fax : +61 (03) 9387-0022
URL : http://www.icom.net.au
E-mail : sales@icom.net.au
Icom New Zealand
146A Harris Road, East Tamaki,
Auckland, New Zealand
Phone : +64 (09) 274 4062
URL : http://www.icom.co.nz
E-mail : inquiries@icom.co.nz
Icom (Europe) GmbH
Communication Equipment
Himmelgeister Str. 100, D-40225 Dusseldorf, Germany
Phone : +49 (0211) 346047
Fax : +49 (0211) 333639
URL : http://www.icomeurope.com
E-mail : info@icomeurope.com
Icom Spain S.L
Crta. de Gracia a Manresa Km. 14,750
08190 Sant Cugat del Valles Barcelona, SPAIN
Phone : +34 (93) 590 26 70
Fax : +34 (93) 589 04 46
URL : http://www.icomspain.com
E-mail : icom@icomspain.com
Icom (UK) Ltd.
Unit 9, Sea St., Herne Bay, Kent, CT6 8LD, U.K.
Fax : +44 (01227) 741742
Phone : +44 (01227) 741741
URL : http://www.icomuk.co.uk
E-mail : info@icomuk.co.uk
Icom France S.a
Zac de la Plaine, 1, Rue Brindejonc des Moulinais
BP 5804, 31505 Toulouse Cedex, France
Fax : +33 (5) 61 36 03 00
Phone : +33 (5) 61 36 03 03
URL : http://www.icom-france.com
E-mail : icom@icom-france.com
Asia Icom Inc.
Fax : +64 (09) 274 4708
6F No.68, Sec. 1 Cheng-Teh Road, Taipei, Taiwan, R.O.C.
Fax : +886 (02) 2559 1874
Phone : +886 (02) 2559 1899
URL : http://www.asia-icom.com
E-mail : sales@asia-icom.com
Beijing Icom Ltd.
Icom Polska
1305, Wanshang Plaza, Shijingshan Road, Beijing China
Phone : +86 (010) 6866 6337
Fax : +86 (010) 6866 3553
URL : http://www.bjicom.com
E-mail : bjicom@bjicom.com
Sopot, 3 Maja 54 Poland
Phone : +48 (58) 550 7135
Fax : +48 (58) 551 0484
E-mail : icompolska@icompolska.com.pl
1-1-32, Kamiminami, Hirano-ku, Osaka, 547-0003, Japan
S-14116IZ-C1
© 2004 Icom Inc.

Similar documents

IC-F33GTand GS and IC-F34GT and GS Service Manual

IC-F33GTand GS and IC-F34GT and GS Service Manual POWER SUPPLY CIRCUITS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4

More information

IC-F33/F34/GT/GS SERVICE MANUAL

IC-F33/F34/GT/GS SERVICE MANUAL PA UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-3

More information

ic-pcr1500 ic-pcr2500 service manual

ic-pcr1500 ic-pcr2500 service manual receiver is defective. 6. READ the instructions of test equipment thoroughly before connecting equipment to the receiver.

More information

IC-F60/F61 SERVICE MANUAL

IC-F60/F61 SERVICE MANUAL • Number of conventional channels • Antenna connector • Operating temperature range • Power supply requirement • Current drain (at 7.2 V DC)

More information

IC-F21/F22 series Service Manual

IC-F21/F22 series Service Manual power supply that uses more than 8.6 V. Such a connection could cause a fire hazard and/or electric shock. DO NOT expose the transceiver to rain, snow or any liquids. DO NOT reverse the polarities ...

More information

authorized federal supply service

authorized federal supply service All items are U.S. made end products, designated country end products, Caribbean Basin country end products, Canadian end products, or Mexican end products as defined in the Trade Agreements Act of...

More information