IC-V82 SERVICE MANUAL

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TABLE OF CONTENTS
SECTION 1
SPECIFICATIONS
SECTION 2
INSIDE VIEWS
SECTION 3
DISASSEMBLY INSTRUCTIONS
SECTION 4
CIRCUIT DESCRIPTION
4-1
RECEIVER CIRCUITS ................................................................................................... 4 - 1
4-2
TRANSMITTER CIRCUITS ............................................................................................ 4 - 2
4-3
PLL CIRCUITS ................................................................................................................ 4 - 3
4-4
OTHER CIRCUITS .......................................................................................................... 4 - 3
4-5
POWER SUPPLY CIRCUITS ......................................................................................... 4 - 4
4-6
CPU PORT ALLOCATIONS ........................................................................................... 4 - 4
4-7
UT-118 CIRCUIT DESCRIPTION .................................................................................... 4 - 6
4-8
UT-118 POWER SUPPLY CIRCUITS .............................................................................. 4 - 6
4-9
UT-118 PORT ALLOCATIONS ....................................................................................... 4 - 6
SECTION 5
ADJUSTMENT PROCEDURES
5-1
PREPARATION ................................................................................................................ 5 - 1
5-2
IC-V82 ADJUSTMEN........................................................................................................5 - 2
5-3
UT-118 ADJUSTMENT ................................................................................................... 5 - 6
SECTION 6
PARTS LIST
SECTION 7
MECHANICAL PARTS AND DISASSEMBLY
SECTION 8
SEMICONDUCTOR INFORMATION
SECTION 9
BOARD LAYOUTS
9-1
MAIN UNIT ...................................................................................................................... 9 - 1
SECTION 10
BLOCK DIAGRAM
SECTION 11
VOLTAGE DIAGRAM
SECTION 12
UT-118 DIGITAL UNIT (OPTIONAL UNIT)
12 - 1
UT-118 BOARD LAYOUT ............................................................................................... 12 - 1
12 - 2
UT-118 SEMICONDUCTER INFORMATION................................................................. 12 - 2
12 - 3
UT-118 BLOCK DIAGRAM ............................................................................................ 12 - 2
12 - 4
UT-118 VOLTAGE DIAGRAM ......................................................................................... 12 - 3
SECTION 1
SPECIFICATIONS
GENERAL
• Frequency range
: TX 144.000–148.000 MHz
144.000–146.000 MHz
136.000–174.000 MHz*
RX 136.000–174.000 MHz*
144.000–146.000 MHz
• Operating temperature range
: –10°C to 60°C; +14°F to +140°F
• Operating mode
: F2D, F3E, F7W*
• Frequency stability
: ±2.5 ppm (–10°C to +60°C; +14°F to +140°F)
[USA]
[EUR]
[EXP], [CSA]
[USA], [EXP], [CSA]
[EUR]
*Specifications are guaranteed within 144.000 to 148.000 MHz range only.
(*with optional digital unit UT-118)
• Antenna impedance
: 50 Ω (BNC Type)
• Power supply requirement
: Specified Icom's battery pack only (Operating voltage range; 6.0–10.3 V)
• Number of memory channels
: 207 channels (Including 6 scan edges and 1 call channel)
• Scan types
: Program/Memory/Skip/Priority/Tone scans
• Tuning steps
: 5, 10, 12.5, 15, 20, 25, 30 and 50 kHz
• Current drain (at 7.2 V DC; approx.)
: TX High
Middle
Low
RX Max. audio
Stand-by
Power save
• Dimensions (Projections not included)
: 54.0 (W) × 139.0 (H) × 41.1 (D) mm; 2 1/8 (W) × 5 15/32 (H) × 1 5/8 (D) in.
• Weight (except antenna, battery pack)
: Approx. 200 g (7 5/32 oz)
• Data connector
: 3-conductor 2.5 (d) mm (1/10")
2.6 A
2.0 A
1.0 A
Less than 250 mA
Less than 80 mA
Less than 30 mA
TRANSMITTER
• Output power (at 7.2 V DC)
: 7.0 W (High), 4.0 W (Middle), 0.5 W (Low)
• Modulation system
: Variable reactance frequency modulation
• Maximum deviation
: ±2.5 kHz (Narrow), ±5.0 kHz (Wide)
• Spurious emissions
: Less than –60 dBc
• Ext. microphone connector
: 3-conductor 2.5 (d) mm (1/10")/2.2 kΩ
RECEIVER
• Receiving system
: Double conversion superheterodyne system
• Intermediate frequencies
: 1st; 46.35 MHz, 2nd; 450 kHz
• Sensitivity
: Less than –14 dBµ at 12 dB SINAD (0.16 µV typ.)
• Squelch sensitivity (at threshold)
: Less than –16 dBµ (0.11 µV typ.)
• Selectivity
: More than 55 dB (Wide; 65 dB typ.)
More than 50 dB (Narrow)
• Intermodulation
: More than 55 dB (65 dB typ.)
• Spurious image rejection
: More than 60 dB (80 dB typ.)
• Audio output
: More than 300 mW at 10% distortion with an 8 Ω load
• Ext. speaker connector
: 3-conductor 3.5 (d) mm (1/8")/8 Ω
All stated specifications are subject to change without notice or obligation.
1-1
SECTION 2
INSIDE VIEWS
• MAIN UNIT
Top view
TX drive amplifier
(Q2: RD01MUS1)
Bottom view
Power amplifier
(Q1: RD12MVS1)
Pre-emphasis circuit
(IC3: LMV324IPWR)
Antenna switch
(D2: MA77)
1st IF mixer
(Q13: 3SK318YB)
RF amplifier
(Q12: 3SK318YB)
CPU5 regulator
(IC12: S-812C50AMC)
FM IF IC
(IC2: TA31136FN)
IF amplifier
(Q14: 2SC5006)
PLL IC
(IC19: MB15E03S
LPFV1)
VCO circuit
MIC mute/Analog
switch
(IC4: CD4066BPWR)
AF power amplifier
(IC5: NJM2070M)
DA converter
(IC10: M62363FP)
CPU
(IC8: M30220FCRP)
Digital/Analog
switch
(IC15: D4066BPWR)
Scrambler switch/
UN scrambler switch
(IC14: CD4066BPWR)
ALC switch
(IC13: CD4066BPWR)
Optional unit regulator
(Q61: 2SA1576,
Q62: 2SC4116,
D51: 1SS400)
2-1
SECTION 3
DISASSEMBLY INSTRUCTIONS
1. Removing the chassis panel
2. Removing the MAIN unit.
q Remove the knob A and jack cap B.
w Unscrew 1 nut C.
e Unscrew 2 screws D (2 × 10 mm, black) and 2 screws E
(2 × 4 mm, black) from the chassis.
r Unplug the speaker connector (J6).
t Take off the chassis in the direction of the arrow.
q Remove the Jack seal F.
w Unsolder 4 points G of the shield cover.
e Unscrew 1 nut H and 2 screws I (2 × 4 mm, black).
r Unscrew 2 screws J (2 × 4 mm, black) and 3 screws K
(2 × 4 mm, silver) and remove the shield cover.
t Unsolder 2 points L.
y Unscrew 3 screws M (2 × 4 mm, silver).
u Take off the MAIN unit in the direction of the arrow.
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3-1
SECTION 4
CIRCUIT DESCRIPTION
The 1st IF signal from the 1st mixer is passed through the
crystal filter (FI1) to suppress unwanted signals, and the
limiter (D63) and then applied to the 1st IF amplifier (Q14).
4-1 RECEIVER CIRCUITS
4-1-1 ANTENNA SWITCHING CIRCUIT
The antenna switching circuit toggles receive line and transmit
line. This circuit does not allow transmit signals to enter the
receiver circuits.
The amplified 1st IF signal is applied to the FM IF IC (IC2,
pin 16).
Received signals from the antenna are passed through the
low-pass filter (LPF: L1, L2, C1–C5) and applied to the /4
type antenna switching circuit (D1, D2).
4-1-4 2nd IF AND DEMODULATOR CIRCUITS
The 1st IF signal is converted into the 2nd IF signal and
demodulated by the FM IF IC. The FM IF IC contains 2nd
mixer, limiter amplifier, quadrature detector, etc. in its package.
While receiving, no voltage is applied to D1 and D2. Thus,
the receive line and the ground are disconnected and L15,
L58, C52, C76 and C516 function as a two-stage LPF which
leads received signals to the RF circuits via the limiter (D50).
The 1st IF signal from the 1st IF amplifier is applied to the
FM IF IC (IC2, pin 16), and mixed with the 45.9 MHz 2nd LO
signal from the tripler (Q81) at the mixer section, to convert
into the 450 kHz 2nd IF signal. The 2nd IF signal is output
from pin 3 and is filtered by the ceramic filter (FI2) to suppress the heterodyne noise. The filtered signal is applied to
IC2 (pin 5) again and amplified at the limiter amplifier section
and demodulated by the quadrature detector.
4-1-2 RF CIRCUITS
The RF circuits amplify received signals within the range of
frequency coverage and filters off out-of-band signals.
The signals from the antenna switching circuit are passed
through a tunable bandpass filter (BPF: D9, L16, C79, C81),
then applied to the RF amplifier (Q12).
The quadrature detector is a detection method which uses a
ceramic discriminator (X3). Q65 is a mode switch and toggles
the detecting mode from wide and narrow, controlled by the
"DIGI_W" signal from CPU (IC8, pin 81).
The amplified signals are passed through the limiter (D72)
and another two-stage BPF (D11, D12, D65, L19, L57, C92,
C94, C96, C97, C502–C505, C507) to suppress unwanted
signals. The filtered signals are then applied to the 1st mixer
circuit.
The demodulated AF signals are output from pin 9.
4-1-5 AF CIRCUITS
The AF signals from FM IF IC (IC2, pin 9) are passed
through the AN switch (IC14, pins 10, 11), HPF (IC3, pins
6, 7), analog switch (IC4, pins 1, 2), the LPF (IC3, pins
13, 14) and analog switch (IC4, pins 10, 11). The signals
from the analog switch are applied to the D/A converter
(IC10, pins 11, 12) to adjust the AF output level, and then
passed through the emphasis switch (Q73) whitch toggles
the AF response characteristic according to the selected
operating mode (analog/FM or digital). The AF signals from
the emphasis switch are applied to the AF amplifier (IC5)
to obtain 300 mW of AF output power. The amplified AF
signals are applied to the internal speaker (SP1) via [SP]
jack (J3).
4-1-3 1st MIXER AND 1st IF AMPLIFIER CIRCUITS
The 1st mixer circuit converts received signals into the 1st
intermediate frequency (IF) signal by mixing with the local
oscillator (LO) signal. The converted 1st IF signal is filtered
at the 1st IF filter, then amplified at the 1st IF amplifier.
The signals from the two-stage BPF are converted into the
46.35 MHz 1st IF signal at the 1st mixer (Q13) by being
mixed with the 1st LO signals generated at the VCO (Q76,
D59, D60).
• 2ND IF AND DEMODULATOR CIRCUITS
"SQLIN" signal
from the D/A converter (IC10, pin 23)
8
FI2
45.9 MHz 2nd LO signal
7
Noise
AMP
Active
filter
AF "DET" signal
to the AF circuits
3
5
2
×3
Noise
detector
Limiter
AMP
2
PLL
IC
(IC19)
Q81
1
15.3 MHz
Noise
Mixer
comparator
FM
detector
IC2 TA31136FN
9
10
14
11
Q65
R5
X3
“DIGI_W” signal from the CPU (IC8, pin 81)
4-1
16
1st IF signal
from the IF amplifier (Q14)
"NOIS" signal to the CPU (IC8, pin 26)
X1
The signals from the pre-emphasis circuit are passed
through the analog switch (IC4, pins 3, 4) and LPF (IC3,
pins 13, 14). The signals from the LPF are passed through
another analog switch (IC4, pins 8, 9), digital/analog switch
(IC15, pins 8, 9 and pins 3, 4) and D/A converter (IC10,
pins 21, 22) to adjust its level. The level adjusted signals
from the D/A converter are applied to the modulator circuit
(D61).
4-1-6 SQUELCH CIRCUIT
Squelch circuit mutes AF output signal when no signals are
received.
A portion of the AF signals from the FM IF IC (IC2, pin 9)
are applied to the D/A converter (IC10, pin 24) to control its
level. The level controlled signals are output from pin 23 and
applied to the active filter (IC2, pins 7, 8; R86–R88, C121,
C122). The filtered signals are applied to the noise amplifier
section to amplify the noise components only.
4-2-2 MODULATOR CIRCUIT
The modulation circuit modulates the VCO oscillating signal
with the audio signals from the microphone.
The amplified noise components are detected at the noise
detector section, and output from pin 13 as the “NOIS” signal
and applied to the CPU (IC8, pin 26). Then the CPU outputs
“AFON” signal from pin 71 according to the “NOIS” signal
level to toggle the AF regulator (Q15, Q16) ON/OFF.
AF signals from the D/A converter (IC10, pin 22) are applied
to the modulation circuit (D61) to modulate the oscillated
signal by changing the reactance of D61 at the VCO (Q76,
D59, D60).
4-2 TRANSMITTER CIRCUITS
4-2-3 TRANSMIT AMPLIFIERS
4-2-1 ALC AMPLIFIER AND PRE-EMPHASIS CIRCUIT
The VCO output signal is amplified to transmit power level by
the transmit amplifiers .
The ALC (Audio Level Control) amplifier maintains the level
of the audio signals from the microphone constant. The preemphasis circuit amplifies the audio signals within +6 dB/oct
pre-emphasis characteristic.
The VCO output signal is buffer-amplified by the buffer amplifiers (Q74, Q75) and passes through the TX/RX switch (D3).
The signals from the TX/RX switch are applied to the predriver (Q3), driver (Q2) and power (Q1) amplifiers, to be
amplified to the transmit output power level.
• When ALC function is ON.
The AF signals from the microphone are passed through
the ALC switch (IC13, pins 3, 4) and applied to the ALC
amplifier (IC17, pin 3) to limit its level.
The power amplifier output is applied to the antenna conector
(J1: CHASSIS UNIT) via the antenna switching circuit (D1),
power detector (D32, D33), and two-stage LPFs.
The level limited signals are output from pin 5 and passed
through the another ALC switch (IC13, pins 8, 9) and
UN_SEC switch (IC13, pins 10, 11). The signals from UN_SEC
switch are then applied to the pre-emphasis circuit (IC3, pins
8, 10) to obtain frequency characteristic of +6 dB/oct.
4-2-4 APC CIRCUIT
The APC (Automatic Power Control) circuit stabilizes transmit
output power and controls transmit output power High, Middle
and Low.
• When ALC function is OFF.
The audio signals from the microphone are passed
through the ALC switch (IC13, pins 1, 2 and pins 10, 11)
and UN_SEC switch (IC13, pins 10, 11). The signals from
UN_SEC switch are then applied to the pre-emphasis circuit
(IC3, pins 8, 10).
The RF output signal from the power amplifier (Q1) is detected at the power detector (D32, D33). The detector converts
the RF signals into DC voltage, and the detected voltage is
applied to the APC amplifier (IC3, pin 2).
The transmit output power setting voltage “T3” is applied to
input terminal of the APC amplifier (IC3, pin 3) as the reference
voltage. The APC amplifier controls the bias of the pre-driver
(Q3), driver (Q2) and power amplifier (Q1) by comparing the
detected voltage and the reference voltage. Thus the APC
circuit maintains a constant output power.
• APC CIRCUITS
VCC
T5
Predrive
AMP
RF signals
from TX/RX SW
T3
3
Drive
AMP
Power detecter
Q1
Power
AMP
ANT
SW
LPF
LPF
+
APC
CTRL
2
Q2
Q3
–
To ANT
PS5
1
D33
D32
IC3A
TXC
Q37
4-2
4-3 PLL CIRCUITS
4-3-3 RECEIVE LOOP
4-3-1 GENERAL
The generated 1st LO signal is applied to the PLL IC (IC19,
pin 8) via the buffer-amplifiers (Q5, Q75) and is divided at
the prescaler section and the programmable divider section,
then applied to the phase detector section.
PLL circuits control the VCO circuit. IC19 is a PLL IC and
contains prescaler, programmable counter, programmable
divider, phase detector, charge pump in its package.
The phase detector compares the input signal with the
reference frequency, and then outputs the control signal
(pulse-type) from pin 5. The pulse-type signal is converted
into DC voltage at the loop filter (R446–R448, C472–C474),
and then applied to the VCO (Q76, D59, D60) as the lock
voltage.
The VCO (Q76, D59, D60) directly generates both of the
transmit frequency and the 1st LO frequency. The VCO shift
circuit (Q77, D58) is used for switching the oscillating frequencies between transmit and receive.
While receiving, only L44 is connected to the VCO and the
VCO generates the 1st LO frequency.
While transmitting, L44 and L45 are connected to the VCO
to generate the transmit frequency.
4-4 OTHER CIRCUITS
4-4-1 CTCSS/DTCS CIRCUIT (DECODING)
The CTCSS/DTCS signal from FM IF IC (IC2, pin 9) is filtered at the LPF (Q53). The filtered signal is then applied to
the CPU (IC8, pin 5) to control the AF amplifier according to
the received CTCSS/DTCS signal.
The PLL sets the divided ratio based on the N-data from the
CPU (IC8), and compares the phase of the VCO output with
the reference frequency (15.3 MHz) generated by X4.
If the oscillated signal drifts, the phase of its frequency
changes from the phase of the reference frequency, causing a
lock voltage change to compensate for the drift in the oscillated frequency.
4-4-2 CTCSS/DTCS CIRCUIT (ENCODING)
• CTCSS
The CTCSS signal is generated by the CPU (IC8) and output
from pin 139 and passed through the LPF (R224, C126, C129)
and CTCSS switch (Q38). The CTCSS signal is then applied
to the splatter filter (IC3, pin 13) to be mixed with the microphone audio signals. The filtered CTCSS signal is then
output from pin 14 and applied to the digital/analog switch
(IC15, pins 8, 9 and pins 3, 4) via the analog switch (IC4;
pins 8, 9).
4-3-2 TRANSMIT LOOP
A portion of the generated signal at the VCO (Q76, D59, D60)
is applied to the PLL IC (IC19, pin 8) via buffer-amplifiers
(Q5, Q75). The applied signal is divided at the prescaler section and programmable divider section, then applied to the
phase detector section.
The phase detector compares the input signal with the
reference frequency, and then outputs the control signal
(pulse-type) from pin 5 via the charge pump section. The
pulse-type signal is converted into DC voltage at the loop filter (R446–R448, C472–C474), and then applied to the VCO
(Q76, D59, D60) as the lock voltage.
The CTCSS signal from the digital/analog switch (IC15, pin 3)
is applied to the D/A converter (IC10, pin 21) to adjust its
level. The level adjusted CTCSS signal is then applied to the
modulator circuit (D61).
• DTCS
The DTCS signal is also generated by the CPU (IC8) and
output from pin 139. The DTCS signal is applied to the
DTCS amplifier (IC23, pin 3) via DTCS switch (IC16, pins 1,
7). The amplified DTCS signal is applied to the D/A converter (IC10, pin 13) to adjust its level. The level adjusted DTCS
signal is then applied to both of the modulator circuit (D61)
and the reference frequency oscillator (X4).
• PLL CIRCUITS
VCO SHIFT
R5
Buffer
Q74
Q77, D58
"LOINV" signal
to the CPU (IC661, pin 34)
to transmitter circuit
Buffer
Q5
Q76, D59, D60
Loop
filter
IC1 MB15E03SL
5
Charge
pump
Programmable
divider
Prescaler
8
9
Phase
detector
45.9 MHz 2nd LO
signal to the FM IF IC
(IC2, pin 2)
×3
to 1st mixer circuit
D3
Buffer
Q75
VCO
Buffer
Q3
D4
Shift register
2
10
11
1
Q81
4-3
LPF
PLLCK
PLLDATA
PLLSTB
PLL control signals
from D/A converter (IC10, pins 6–8)
15.3 MHz reference signal
from reference frequency osciilator (X4)
4-5 POWER SUPPLY CIRCUITS
PIN
NUMBER
4-5-1 VOLTAGE LINES
LINE
DESCRIPTION
PORT
NAME
DESCRIPTION
26
NOIS
Input port for "NOIS" signal.
VCC
The voltage from the attached battery pack.
28
ESDA
I/O port for EEPROM (IC7).
CPU5
Common 5 V for the CPU (IC8) converted from the
VCC line at the CPU5 regulator circuit (IC12).
29
ESCK
Outputs clock signal for EEPROM
(IC7).
Common 5 V line converted from the VCC line at the
SW5 regulator circuit (Q55–Q57, D39) controlled by
the "PWRON" signal.
30
CLIN
Input port for cloning data.
SW5V
31
CLOUT
Output port for cloning data.
32
OPSO
Outputs serial data for optional unit.
33
SI
Input port for DTMF decode signal.
34
SECRET
Outputs secret switch (IC14) control
signal.
35
BUSY
Outputs receive detection (busy)
signal to UT-118.
40–42
OPT1–OPT3
T5
PS5
5 V for the transmit circuits regulated from the SW5V
line by the T5 regulator (Q22).
The regulator is controlled by the "T5C" signal from the
CPU (IC8, pin 80).
5 V for the power save line regulated from the SW5V
line by the PS5 regulator (Q54).
The regulator is controlled by the "PS5C" signal from
the CPU (IC8, pin 92).
R5
5 V for the receive circuits regulated from the SW5V
line by the R5 regulator (Q21).
The regulator is controlled by the "R5C" signal from
the CPU (IC8, pin 82).
VCO5
5 V for the VCO circuit regulated from the SW5V line
by the VCO5 regulator (Q11).
The regulator is controlled by the "PSVCO" signal from
the CPU (IC8, pin 62).
+5V
5 V for the optional unit power supply regulated from
the VCC line by the option power supply regulator
(Q61, Q62, D51).
The regulator is controlled by the "OP_PS" signal from
the CPU (IC8, pin 59).
43
ALC
44
THROUGH
Outputs ALC switch (IC13) control
signal.
HIGH : During analog mode operation.
45
DI_SEC
Outputs moddulation/demodulation
mode switching signal.
HIGH : During digital mode operation
46
MMUTE
Outputs analog switch (IC4) control
signal.
49
RMUTE
Outputs audio mute signal.
HIGH : While muting
52–54
OPV1–OPV3
Input ports for optional unit type
detect signal.
55
TX_DIGI
Outputs transmit audio frequency
characteristic control signal.
LOW : During digital mode operation.
56
PTTO
Input port for transmit request control signal from UT-118.
4-6 PORT ALLOCATION
4-6-1 CPU (IC8)
I/O ports for optional unit.
Outputs ALC switch (IC13) control
signal.
HIGH : During digital mode operation.
PIN
NUMBER
PORT
NAME
1
LVIN
3
REMO
Input port for remote control microphone.
57
PTTI
Output port for transmit request control signal to UT-118.
4
SD
Input por t for receiving signal
strength detect signal.
58
D5VC
Output port for D5VC line (5 V power
supply; IC22) control signal.
HIGH : Power ON
5
CTCIN
Input port for CTCSS/DTCS signals.
7
DET
Input port for weather alert tone detect
signal.
59
OP_PS
Outputs option power supply (Q61,
Q62, D51) control signal.
HIGH : Power ON
8
LEDC
Outputs LCD backlight control signal.
HIGH : Lights ON
60
OPSCK
Outputs clock signal for optional unit.
9
PTT
61
RX_MUTE
Input port for RX mute signal for
digital mode operation.
10
MICS
Outputs AF filter switch (IC4) control
signal.
HIGH : While transmiting
62
PSVCO
Outputs PS5 regulator (Q22) control
signal.
LOW : Power ON
11
AN
Output ports AN switch (IC14) control signal.
63
PLPS
12
DIGITAL
Input port for UT-118 accept/refuse
signal.
LOW : Accept
Outputs power save control signal to
the PLL IC (IC19).
LOW : Power saved
64
DASTB
Outputs strobe signal to D/A convertor (IC10).
13
UN_SEC
Output ports UN_SEC switch (IC14)
control signal.
66
DADATA
Outputs serial data to D/A convertor
(IC10).
15
CSHIFT
Outputs CPU (IC8) clock control signal.
19
RESET
Input port for "RESET" signal.
67
PLLSW
Outputs PLL loop filter switch (IC20)
control signal.
68
PLLCK
Outputs clock signal to PLL IC (IC19).
25
PWRSW
69
PLLDATA
Outputs serial data to the PLL IC (IC19).
DESCRIPTION
Input port for PLL lock voltage.
Input port for [PTT].
Input port for [PWR].
LOW : While pushing [PWR]
4-4
PIN
NUMBER
PORT
NAME
70
PLLSTB
DESCRIPTION
Outputs PLL strobe signal.
AFON
Outputs AF regulator (Q15, Q16)
control signal.
HIGH : While emitting audio
72
DUSE
Outputs LPF cut-off frequency control
signal to the CTCSS switch (Q38).
LOW : When CTCSS or no signaling system is in use.
HIGH : DTCS is in use.
73–76
KR0–KR3
78
UNLK
79
EMPHASIS
Outputs emphasis switch (Q73) control signal.
HIGH : During FM mode operation.
80
T5C
Outputs T5 regurator (Q22) control
signal.
LOW : While transmitting
81
DEGI_W
Outputs detect circuit (Wide/Narrow)
switch (Q53) control signal.
HIGH : During narrow mode operation.
82
R5C
Outputs R5 regulator (Q21) control
signal.
LOW : During receive
83
TXC
Outputs RF output power control
signal.
LOW : During transmit
86–90
KS0–KS4
71
Input ports for keypad.
Input port for PLL unlock signal.
Output ports for keypad.
Outputs PS5 regulator (Q54) control
signal.
LOW : Power saved
92
PS5C
97, 98
DICK, DIUD
141
TONE
Input port for [VOL] control (S801).
Outputs DTMF, BEEP, 1750 Hz tone
signals, etc.
4-6-2 D/A CONVERTER (IC10)
PIN
NUMBER
PORT
NAME
DESCRIPTION
2
T1
Outputs the tunable BPF tuning signal.
The output signal is applied to BPF (D9,
D11, D12).
3
T2
Outputs the tunable BPF tuning signal.
The output signal is applied to BPF (D11,
D12).
10
T3
• Outputs the tunable BPF tuning signal.
The output signal is applied to BPF
(D65).
• Output port for transmit output power
setting signal. The output signal is
applied to the APC amplifier (IC3, pin 3).
11
VOLOUT
Outputs AF output signals to the AF amplifier (IC5).
13
DTCS
Input port for DTCS signal from the DTCS
amplifier (IC23).
15
FC
Outputs reference frequency control voltage.
22
MOD
Outputs modulating audio signal to the
modulator circuit (D61).
23
SQLIN
Outputs squelch control signal to the noise
active filter (IC2, pins 7, 8; R86–R88,
C121, C122).
4-5
4-7 UT-118 CIRCUIT DESCRIPTION
4-8 UT-118 POWER SUPPLY CIRCUITS
4-7-1 RECEIVER CIRCUIT
4-8-1 VOLTAGE LINES
The detected digital signals “FMDET” from the connected
transceiver via the J301 (pin 22) are amplified at the buffer
amplifier (IC251, pin 2). The amplified signals are applied
to the GMSK modem circuit (IC252, pin 11), and are then
applied to the CPU (IC204) as clock synchronizer digital
signal. The digital signals from the CPU are applied to the
AMBE voice CODEC IC (IC151) to press code extension,
and are then applied to the linear CODEC IC (IC50) as
32 bits digital voice data. The applied digital signals are
converted to the analog AF signals at the D/A converter
section (IC50), and are then applied to the connected
transceiver via the J301 (pin 21) as “DAFOUT” signal.
4-7-2 TRANSMITTER CIRCUIT
The analog AF signals “AMODIN” from the connected
transceiver via the J301 (pin 4) are amplified at the buffer
amplifier (IC251, pin 6). The amplified signals are applied
to the linear CODEC IC (IC50, pin 5) to convert 32 bits
digital voice data at the A/D converter section via the “ADIN”
line. The digital signals are applied to the AMBE voice
CODEC IC (IC151) to process code compression, and are
then applied to the CPU (IC204). The digital signals from
the CPU convert to the GMSK base band signal at the
GMSK modem (IC252), and are then amplified at the buffer
amplifier (IC253, pin 5). The amplified signals are applied to
the connected transceiver via the J301 (pin 3).
LINE
DESCRIPTION
5V
5 V from the connected transceiver via the J301 (pin
29). The 5V line is controlled by the +5 V control
circuit (Q50 and Q51). The circuit is controlled by
the “PSAVE” signal from the CPU (IC204, pin 58
and 59).
3.3V
Common 3.3 V converted from the 5V line by the
3.3V regulator circuit (IC1). One of the 3.3 V line is
controlled by the +3V control circuit (Q400 and
Q401). The circuit is controlled by the “PSAVE”
signal from the CPU (IC204, pin 58 and 59).
3.2V
Common 3.2 V converted from the 4.5–8 V line
by the 3.2V regulator circuit (IC2). The circuit is
controlled by the “APWR” signal from the CPU
(IC204, pin 16).
4-9 UT-118 PORT ALLOCATIONS
4-9-1 MODEM IC (IC252)
PIN
NUMBER
PORT
NAME
DESCRIPTION
2
MCLK
Outputs 2.4576 MHz clock signal to
the CPU (IC151, pin 39).
7
ACQ
Outputs the PLL bandwidth control
signal while receiving.
19
TXDT
Outputs transmitting data signal to
the CPU (IC204, pin 54).
20
RXDT
Input port for receiving data signal
from the CPU (IC204, pin 53).
21
RXCK
Input port for receive clock signal
from the CPU (IC204, pin 52).
22
TXCK
Outputs transmit clock signal to the
CPU (IC204, pin 51).
4-7-3 RESET CIRCUIT
The UT-118 has the reset IC (IC203). The reset IC outputs
"RES" signal to the CPU (IC204, pin 7) when more than 2.8 V
of voltage is applied to the “VDD” port (pin 2).
4-7-4 RS-232C CIRCUIT
IC351 is a RS-232C compatible serial interface IC which
converts data between the CPU and the external equipment
(ex. Personal Computer).
4-7-5 LEVEL CONVERTER CIRCUIT
The level converter circuit (Q305 and Q306) converts
communication data level between the CPU (IC204) and the
connected transceiver’s CPU.
Q301, Q302 and Q303 convert control signals level between
the UT-118 and the IC-V82.
• UT-118 BLOCK DIAGRAM
-"TXD_2" signal to
the J301, pin 16
-"RXD_2" signal to
the J301, pin 17
-"232C_RX" signal
to the J301, pin 25
-"232C_TX" signal
to the J301, pin 26
"DAFOUT" signal to
the J301, pin 22
Level
converter
CPU
CODEC
IC204
Q305, Q306
RS-232C
Modem
DSP
CODEC
IC252
Buffer
IC253B
Buffer
IC151
"DMOD" signal
to the J301, pin 3
"FMDET" signal
from the J301, pin 23
IC251A
IC351
Linear
CODEC
Buffer
IC50
4-6
IC251B
"AMODIN" signal
from the J301, pin 4
SECTION 5
ADJUSTMENT PROCEDURES
5-1 PREPARATION
REQUIRED TEST EQUIPMENTS
EQUIPMENT
GRADE AND RANGE
Output voltage
EQUIPMENT
GRADE AND RANGE
Current capacity
: 5.0 V DC
8.0 V DC
: 1 A or more
Standard signal
generator (SSG)
Frequency range : 0.1–300 MHz
Output level
: 0.1 µV to 32 mV
(–127 to –17 dBm)
RF power meter
(terminated type)
Measuring range
Frequency range
Impedance
SWR
: 0.1–20 W
: 100–300 MHz
: 50 Ω
: Less than 1.2 : 1
Oscilloscope
Frequency range : DC–20 MHz
Measuring range : 0.01–10 V
AC millivoltmeter
Measuring range : 10 mV to 10 V
Frequency counter
Frequency range
: 0.1–300 MHz
Frequency accuracy : ±1 ppm or better
Sensitivity
: 100 mV or better
External speaker
Input impedance : 8 Ω
Capacity
: More than 0.5 W
Audio generator
Frequency range
Output level
: 300–3000 Hz
: 1–500 mV
Frequency range
FM deviation meter
Measuring range
: 30–300 MHz
: 0 to ±10 kHz
Attenuator
Power attenuation : 20 or 30 dB
Capacity
: More than 5 W
DC power supplies*
*; For UT-118 adjustment only.
CAUTION!: BACK UP the originally programmed contents (Memory channels, Call signs, Common settings, etc.) in the transceiver
using CS-V82 CLONING SOFTWARE before starting adjustment.
When all adjustments are completed, these contents in the transceiver will be cleared.
• CONNECTION
Standard signal generator to the antenna connector
0.1 µV to 32 mV
(–127 dBm to –17 dBm)
DO NOT transmit while
an SSG is connected to
the antenna connector.
AC millivoltmeter
FM
deviation meter
Attenuator
20 dB / 30 dB
Audio generator
RF power meter
0.1–20 W/50 Ω
• JIG
(GND)
To [MIC] jack
Frequency
counter
68 kΩ
To [SP] jack
3-conductor 3.5 (d) mm (1/8”) plug
(CLONE)
IC-V82
• ADJUSTMENT MODE DISPLAY
Operating frequencyS
Adjustment item
5-1
S
S
S
5-2 IC-V82 ADJUSTMENT
S
5-2-1 KEY OPERATION FOR THE ADJUSTMENT
• Rotate [VOL] to adjust the value.
• Push [D•CLR] key to store the adjustment value and move to next adjustment item.
• Push []/[] key to move to next adjustment item without changing the value.
5-2-2 FREQUENCY AND TRANSMIT ADJUSTMENT
ADJUSTMENT
ENTERING ADJUSTMENT MODE
ADJUSTMENT CONDITION
OPERATION
• While pushing [], [] and [D•CLR] keys, turn power ON.
REFERENCE
FREQUENCY
S
1 • Connect
a frequency counter to • Rotate [VOL] to set to 146.000 MHz ±100Hz.
S
the antenna connector through • Push [D•CLR] key.
an attenuator.
• Transmitting
TRANSMIT
LOCK VOLTAGE
1 • Transmitting
OUTPUT
POWER
(High)
1 • Connect an RF power meter to
theS antenna connector.
S
• Transmitting
• Rotate [VOL] to set the transmit power to 7.0 W.
• Push [D•CLR] key.
(Middle)
2 • Transmitting
• Rotate [VOL] to set the transmit power to 4.0 W.
• Push [D•CLR] key.
(Low)
3 • Transmitting
• Rotate [VOL] to set the transmit power to 0.5 W.
• Push [D•CLR] key.
FREQUENCY
DEVIATION
• Rotate [VOL] to set to ±4.2 kHz.
1 • Mode
: Wide
• Connect an FM deviation meter • Push [D•CLR] key.
to the antenna connector through
an attenuator and set as :
HPF
: OFF
LPF
: 20 kHz
De-emphasis : OFF
Detector
: (P–P)/2
• Connect an audio generator to
[MIC] jack and set as;
Frequency
: 1 kHz
Level
: 150 mV rms
• Transmitting
DIGITAL VCO
FREQUENCY
DEVIATION
1 • Set the FM deviation meter as;
HPF
: OFF
LPF
: 20 kHz
De-emphasis : OFF
Detector
: (P–P)/2
• No audio input
• Transmitting
DTCS WAVE
FORM
DIGITAL
REFERENCE
FREQUENCY
DEVIATION
• Push [D•CLR] key, then push [] key.
(Do not release [PTT] button when pushing [D•CLR] key.)
S
• Rotate [VOL] to set to ±1.20 kHz.
• Push [D•CLR] key.
• Rotate [VOL] to set to square wave form as
: Wide
1 • Mode
• Connect an oscilloscope and shown below.
the FM deviation meter to the • Push [D•CLR] key.
Set to square wave
antenna connector.
form
• Set the FM deviation meter as;
HPF
: OFF
LPF
: 20 kHz
De-emphasis : OFF
Detector
: (P–P)/2
• No audio input
• Transmitting
1 • Set the FM deviation meter as;
HPF
: OFF
LPF
: 20 kHz
De-emphasis : OFF
Detector
: (P–P)/2
• No audio input
• Transmitting
5-2
• Rotate [VOL] to set to ±1.20 kHz.
• Push [D•CLR] key.
5-2-3 RECEIVE ADJUSTMENT
S
ADJUSTMENT
S
SENSITIVITY
ADJUSTMENT CONDITION
OPERATION
1 • Connect an SSG to the antenna • Push [D•CLR] key.
connector and set as;
Frequency : 136.020 MHz
Level
: 0 dBµ*
Modulation : 1 kHz
Deviation : ± 3.5 kHz
• Receiving
2 • Set the SSG as;
Frequency : 147.980 MHz
Level
: 0 dBµ*
Modulation : 1 kHz
Deviation : ± 3.5 kHz
• Receiving
• Push [D•CLR] key.
3 • Set the SSG as;
Frequency : 173.980 MHz
Level
: 0 dBµ*
Modulation : 1 kHz
Deviation : ± 3.5 kHz
• Receiving
• Push [D•CLR] key.
SQUELCH
1 • Set the SSG as;
Frequency : 145.020 MHz
Level
: −19 dBµ*
Modulation : 1 kHz
Deviation : ± 3.5 kHz
• Receiving
• Close the squelch once, then set the
squelch level at the point where the
audio signals just appears.
S-METER
1 • Set the SSG as;
Frequency : 145.020 MHz
Level
: −6 dBµ*
Modulation : 1 kHz
Deviation : ± 3.5 kHz
• Receiving
• Push [D•CLR] key.
QUITING ADJUSTMENT
MODE
1 • Turn power OFF.
2 • While pushing [MONI] and [D•CLR] keys, turn power ON.
*; This output level of the standard signal generator (SSG) is indicated as SSG’s terminated circuit.
5-3
5-3 UT-118 ADJUSTMENT
• CONNECTION (BOTTOM VIEW)
Power supply
5.0 V DC / 1 A
Power supply
8.0 V DC / 1 A
J301, Pin 14
Entering adjustment mode
• ADJUSTMENT
ADJUSTMENT
ENTERING
ADJUSTMENT
MODE
ADJUSTMENT CONDITION
OPERATION
• Connect the pin 14 of J301 to GND to enter the adjustment mode.
CODEC
FREQUENCY
1 • Connect the frequency counter to CP101 • Adjust C102 to set to 16.38400 MHz ±10 Hz.
through a capacitor (1000 pF).
MODEM
FREQUENCY
1 • Connect the frequency counter to CP216 • Adjust C207 to set to 2.457600 MHz ±3 Hz.
through a capacitor (1000 pF).
MODURATION
OUTPUT
LEVEL
1 • Connect the pin 1 of J301 to GND to enter the • Adjust R264 to set to 350 mVp-p ±10 mV.
transmit mode.
• Connect the oscilloscope to pin 21 of J301.
2 • Disconnect the pin 1 of J301 from GND after the
adjustment to quit the transmit mode.
QUITING
ADJUSTMENT
MODE
• Disconnect the pin 14 of J301 from GND to quit the adjustment mode.
• UT-118 BOTTOM VIEW
• UT-118 TOP VIEW
C207
MODEM FREQUENCY
adjustment point
CP 216
J301, pin 1
MODEM FREQUENCY
check point
Connect to GND.
J301, pin 21
C102
CODEC FREQUENCY
adjustment point
R264
MODULATION OUTPUT LEVEL
adjustment point
CP101
MODULATED SIGNAL LEVEL
check point
CODEC FREQUENCY
chek point
5-4
SECTION 6
PARTS LIST
6-1 IC-V82
[MAIN UNIT]
REF
NO.
[MAIN UNIT]
ORDER
NO.
DESCRIPTION
H/V
M. LOCATION
IC2
IC3
IC4
IC5
IC7
IC8
IC10
IC12
IC13
IC14
IC15
IC16
IC17
IC19
IC20
IC21
IC22
IC23
IC24
IC25
1110003490
1110006470
1130011770
1110002810
1130012430
1140012450
1190000350
1180002250
1130011770
1130011770
1130011770
1130011780
1110005310
1130011670
1130011800
1110006260
1180002680
1110006490
1180002690
1110006490
S.IC
S.IC
S.IC
S.IC
S.IC
IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.REG
S.IC
S.REG
S.IC
TA31136FN (D,EL)
LMV324IPWR
CD4066BPWR
NJM2070M-TE1
S-24CS64A0I-T8T1G
M30220FCRP
M62363FP-650C
S-812C50AMC-C3E-T2
CD4066BPWR
CD4066BPWR
CD4066BPWR
SN74AHC2G53HDCTR
AN6123MS
MB15E03SLPFV1-G-BND-ER
SN74AHC1G66HDBVR
BD5242G-TR
S-812C50BMC-C5E-T2G
LMV321IDCKR
S-812C36AMC-C2Q-T2G
LMV321IDCKR
T
T
T
B
B
B
B
T
B
B
B
B
B
T
T
B
B
B
T
B
101.7/33.7
103.7/13.2
84.9/14.9
67.3/10.2
26.1/21.5
43.3/22.9
65/34.4
109.8/39.8
10.8/16.8
19.1/21.2
23/10.2
36.3/41.1
12.3/27.9
86.9/33.3
80.9/28
27.6/13.9
13.5/35.6
40.5/40.2
87.3/28.1
18.4/14.6
Q1
Q2
Q3
Q5
Q11
Q12
Q13
Q14
Q15
Q16
Q17
Q21
Q22
Q25
Q31
Q34
Q37
Q38
Q53
Q54
Q55
Q56
Q57
Q61
Q62
Q63
Q64
Q65
Q67
Q68
Q73
Q74
Q75
Q76
Q77
Q81
Q82
1560001370
1560001240
1530003230
1530003260
1590001650
1580000790
1580000790
1530003260
1520000460
1590001190
1590003420
1510000510
1510000510
1530002850
1590003270
1560000810
1590003230
1590003290
1590001650
1510000510
1520000460
1590003290
1590001170
1510000620
1530002850
1510000510
1510000510
1530002850
1590002230
1590003290
1530003630
1530003580
1530003580
1530003580
1590003300
1530002850
1530002850
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.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.TR
S.TR
S.TR
S.TR
S.TR
S.TR
S.TR
RD12MVS1-T12
RD01MUS1
2SC5085-Y (TE85R)
2SC5006-T1
XP4601 (TX)
3SK318YB-TL-E
3SK318YB-TL-E
2SC5006-T1
2SB1132 T100 R
XP6501-(TX) .AB
UNR911FJ-(TX)
2SA1576A T106R
2SA1576A T106R
2SC4116-BL (TE85R)
UNR9210J-(TX)
2SK1069-4-TL
UNR9113J-(TX)
UNR9213J-(TX)
XP4601 (TX)
2SA1576A T106R
2SB1132 T100 R
UNR9213J-(TX)
XP1501-(TX) .AB
2SA1576 T106 S
2SC4116-BL (TE85R)
2SA1576A T106R
2SA1576A T106R
2SC4116-BL (TE85R)
UMG2N TL
UNR9213J-(TX)
2SC4617 TLS
2SC5231C8-TL
2SC5231C8-TL
2SC5231C8-TL
UNR921NJ-(TX)
2SC4116-BL (TE85R)
2SC4116-BL (TE85R)
T
T
T
B
T
B
B
B
B
B
B
B
B
T
T
T
T
B
B
B
T
T
B
B
B
B
B
B
T
T
B
B
B
B
B
T
B
118.3/24
109.5/24.3
101.6/19.9
87.3/30.2
86.7/21.7
106.7/4.1
99.7/14.8
97.5/33.8
61.8/16.3
65.9/18.2
28/10.6
113.3/31.2
109.8/32.1
67.1/4.1
95.7/4.2
74.8/28.1
109.9/15.9
41.1/36.6
47.4/38.9
100.7/26.5
115/39.4
120.3/33.3
119.6/37
14.4/39.9
11.9/39.8
15.5/28.9
31.8/42.5
98.9/24.7
94.6/16.9
93.6/13.5
61.3/6.2
87.1/23.3
83.2/22.2
77.4/21.2
83/29
94.9/32.7
20.4/29.4
D1
D2
D3
D4
D9
D11
D12
D27
D32
D33
D34
D39
D40
D41
D42
D43
D44
D45
1710000870
1790000620
1790001620
1790001260
1750000720
1750000710
1750000710
1790000980
1790000980
1790000980
1790000950
1750000940
1750000940
1750000940
1750000940
1750000940
1750000940
1750000940
B
T
T
T
T
T
B
T
T
T
B
B
B
B
B
B
B
112.5/12.7
115.9/7.6
90.7/21.1
91.6/19.2
110.7/2.8
104.4/3.2
101.7/2.3
93.4/4.7
114.9/14.1
114.9/16.6
94/8.1
117.2/38.7
60.8/43.2
63.6/43.1
64.9/43.1
66.2/43.1
67.5/43.1
D46
1750000940
S.DIO HVU131TRF
S.DIO MA77 (TX)
S.DIO 1SV308 (TPL3)
S.DIO MA2S077-(TX)
S.VCP HVC375BTRF
S.VCP HVC350BTRF
S.VCP HVC350BTRF
S.DIO MA742 (TX)
S.DIO MA742 (TX)
S.DIO MA742 (TX)
S.ZEN MA8056-M (TX)
S.DIO 1SS400 TE61
S.DIO 1SS400 TE61
S.DIO 1SS400 TE61
S.DIO 1SS400 TE61
S.DIO 1SS400 TE61
S.DIO 1SS400 TE61
S.DIO 1SS400 TE61
[EU1], [US1], [EU2], [US2], [EU3], [US3]
S.DIO 1SS400 TE61
[EX1], [CS1], [EX2], [CS2], [CS3], [EX4]
S.DIO 1SS400 TE61
S.DIO 1SS400 TE61
[EU1], [US1], [EU2], [US2], [EU3], [US3]
S.DIO 1SS400 TE61
[EU1], [EU2], [EU3]
D47
D48
1750000940
1750000940
D49
1750000940
T
58.4/41.9
T
T
59.7/41.9
61/41.9
T
T
67.1/40.8
68.4/40.8
REF
NO.
[EU1/2/3]=EUR-1/2/3, [EX1/2/3/4]=EXP-1/2/3/4, [US1/2/3]=USA-1/2/3, [CS1/2/3]=CSA-1/2/3
ORDER
NO.
D50
D51
D56
D58
D59
D60
D61
D63
D64
D65
D66
1790000660
1750000940
1750000770
1790001260
1720000730
1720000730
1720000650
1750000370
1750000940
1750000710
1750000940
D67
D68
1750000940
1750000940
D69
D71
D72
1750000940
1750000940
1750000940
FI1
FI2
DESCRIPTION
S.DIO MA728 (TX)
S.DIO 1SS400 TE61
S.VCP HVC376BTRF
S.DIO MA2S077-(TX)
S.VCP MA2S30400L
S.VCP MA2S30400L
S.VCP 1SV286 (TPH3)
S.DIO DA221 TL
S.DIO 1SS400 TE61
S.VCP HVC350BTRF
S.DIO 1SS400 TE61
[EU1], [EX1], [EU2], [EX2], [EU3], [EX4]
S.DIO 1SS400 TE61
[EX1], [EX2], [EX4]
S.DIO 1SS400 TE61
[EU1], [EX1], [EU2], [EX2], [EU3], [EX4]
S.DIO 1SS400 TE61
[EX1], [EX2], [EX4]
S.DIO 1SS400 TE61
S.DIO 1SS400 TE61
H/V
M. LOCATION
T
B
B
B
B
B
B
B
T
T
114.2/3.3
13.6/41.9
33.5/9.8
81.3/27.8
76.3/27.5
78.8/27.5
76.4/31.2
93.4/30.7
84/37.9
102.7/7.7
T
T
67.5/43.3
66.2/43.3
T
T
T
B
64.9/43.3
63.6/43.3
79.6/37.9
101.7/6.4
2030000150 S.MLH FL-335 (46.350 MHz)
2020001590 CER
ALFY450F=K
B
94.4/25
X2
X3
X4
6050011500 S.XTL CR-739 (9.8304 MHz)
6070000190 S.DCR CDBCB450KCAY24-R0
6050011940 S.XTL CR-783 (15.3 MHz)
B
T
B
46/4.6
96.8/26
84.1/36.9
L1
L2
L4
L5
L6
L7
L15
L16
L18
L19
L20
L24
L26
L29
L32
L37
L38
L40
L41
L42
L43
L44
L45
L46
L47
L48
L49
L50
L51
L55
L56
L57
L58
L59
6200008170
6200008280
6200008280
6200008500
6200007710
6200005260
6200008170
6200008260
6200009930
6200009890
6200003270
6200004870
6200003590
6200009530
6200008490
6200006990
6200007870
6200009350
6200011030
6200011000
6200007000
6200010100
6200010210
6200001980
6200008500
6200005690
6200005690
6200003270
6200004480
6200003540
6200010330
6200009930
6200010540
6200007870
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
S.COL
0.35-1.6-8TL 54N
0.30-1.7-7TL 50N
0.30-1.7-7TL 50N
0.30-1.3-6TL 28N
LQW2BHN27NJ01L
LL1608-F68NK
0.35-1.6-8TL 54N
0.30-1.7-8TL 60N
C2012C-68NG
C2012C-82NG
NL 252018T-R56J
ELJFC 2R7K-F
EXCCL3225U1
ELJRE R15G-F3
0.30-0.9-3TR 7.5N
ELJRE 56NG-F
ELJRF 39NJF2 (39)
ELJRE R22G-F3
ELJRF R10JF2 (0.1)
ELJRF 56NJF2 (56)
ELJRE 82NG-F
C2012C-33NG
C2012C-22NG
NL 252018T-1R0J
0.30-1.3-6TL 28N
ELJRE 18NG-F
ELJRE 18NG-F
NL 252018T-R56J
MLF1608D R82K-T
MLF1608D R22K-T
C2012C-R18G
C2012C-68NG
C2012C-47NG
ELJRF 39NJF2 (39)
B
B
B
T
T
T
T
B
T
T
B
B
T
B
T
T
B
B
B
B
T
B
B
B
B
T
T
B
T
T
B
B
T
B
116.7/5.9
115.8/9.2
117.7/13.4
119.8/29.7
114/28.4
101.8/22.7
112.7/9.1
111.4/3.2
107.2/5.2
102.7/3.5
97.1/17.1
110/12.9
117.5/33.8
94.2/12.6
120.9/19
93.2/21.1
90.6/13.9
86.9/21.6
82.9/20.6
85.7/30
88.4/36.8
76.9/25.8
81/25.9
79.4/31.2
119.9/17.4
113.8/23.2
105.6/20.8
98.2/31.1
96.1/35.7
94.2/34.9
110/6.5
100.8/11.4
113.4/5.9
91.8/12.9
R1
R5
R7
R10
R11
R12
R13
R14
R15
R16
R20
R21
R30
R44
R48
R49
R50
R52
R53
R54
R57
R59
7030003670
7030003240
7030004990
7030007260
7030007300
7030007300
7030007260
7030005040
7030004980
7030005300
7030005220
7030007290
7030008400
7030005050
7030005050
7030010040
7030005700
7030005090
7030005050
7030008300
7030005110
7030004980
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
ERJ3GEYJ 823 V (82 kΩ)
ERJ3GEYJ 220 V (22 Ω)
ERJ2GEJ 221 X (220 Ω)
ERJ2GEJ 330 X (33 Ω)
ERJ2GEJ 332 X (3.3 kΩ)
ERJ2GEJ 332 X (3.3 kΩ)
ERJ2GEJ 330 X (33 Ω)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 150 X (15 Ω)
ERJ2GEJ 223 X (22 kΩ)
ERJ2GEJ 222 X (2.2 kΩ)
ERJ2GEJ 182 X (1.8 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GE-JPW
ERJ2GEJ 274 X (270 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 184 X (180 kΩ)
ERJ2GEJ 224 X (220 kΩ)
ERJ2GEJ 101 X (100 Ω)
T
T
T
T
T
T
T
T
T
T
B
B
T
T
B
B
B
T
T
T
T
B
118.5/6.7
114.6/21.2
108.3/20.6
98.7/18.9
98/21.9
100.5/22.3
100.8/24.9
96.7/20.5
95.4/19.9
95.4/20.9
87.2/28.6
85.2/28.6
86.7/19.9
74.9/17.9
78.2/35.7
80.7/37
79.7/37
108.5/11.7
109.2/13
104/16.5
109.9/4.3
106.2/7
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
S.=Surface mount
6-1
[MAIN UNIT]
[MAIN UNIT]
REF
NO.
R61
R64
R66
R68
R69
R70
R71
R72
R75
R77
R79
R80
R81
R82
R83
R84
R85
R86
R87
R88
R93
R94
R95
R97
R98
R99
R100
R101
R102
R103
R104
R105
R107
R108
R112
R113
R114
R115
R117
R120
R121
R122
R123
R126
R127
R128
R130
R131
R132
R136
R137
R139
R141
R144
R148
R150
R155
R159
R160
R161
R162
R163
R164
R169
R170
R174
R176
R177
R178
R181
R182
R184
R185
R186
R187
R193
R194
R195
R196
R204
R205
R210
R222
R224
R225
R227
R228
R240
R244
R245
R246
R251
R252
R257
R258
ORDER
NO.
7030005530
7030005110
7030005110
7030005040
7030004980
7030008300
7030005000
7030005310
7030004990
7030004980
7030007280
7030005090
7030005000
7030008410
7030005000
7030009280
7030005030
7030005240
7030007290
7030005060
7030005600
7030005160
7030007310
7030005110
7030005100
7030008300
7030005090
7030005160
7030005530
7030008010
7030005090
7030005000
7030005100
7030005110
7030005160
7030005070
7030008290
7030005310
7030005030
7030005240
7030005030
7030009140
7030005290
7030005310
7030007260
7030005530
7030005090
7030008400
7030005000
7030004980
7030004980
7030005050
7030007290
7030005220
7030005090
7030005000
7030004980
7030005090
7030003340
7030005220
7030005220
7030007290
7030005090
7030007350
7030005050
7030007340
7030008410
7030005120
7030005110
7030010080
7510001660
7030005050
7030005120
7030005240
7030005090
7030005720
7030005720
7030005720
7030005050
7030005050
7030005040
7030008410
7030005240
7030007350
7030005090
7030008410
7030005050
7030005120
7030005090
7030005090
7030005050
7030005230
7030005310
7030010040
7030008300
DESCRIPTION
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.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
ERJ2GEJ 100 X (10 Ω)
ERJ2GEJ 224 X (220 kΩ)
ERJ2GEJ 224 X (220 kΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 184 X (180 kΩ)
ERJ2GEJ 471 X (470 Ω)
ERJ2GEJ 124 X (120 kΩ)
ERJ2GEJ 221 X (220 Ω)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 331 X (330 Ω)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 471 X (470 Ω)
ERJ2GEJ 392 X (3.9 kΩ)
ERJ2GEJ 471 X (470 Ω)
ERJ2GEJ 391 X (390 Ω)
ERJ2GEJ 152 X (1.5 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 222 X (2.2 kΩ)
ERJ2GEJ 333 X (33 kΩ)
ERJ2GEJ 273 X (27 kΩ)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 155 X (1.5 MΩ)
ERJ2GEJ 224 X (220 kΩ)
ERJ2GEJ 154 X (150 kΩ)
ERJ2GEJ 184 X (180 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 100 X (10 Ω)
ERJ2GEJ 123 X (12 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 471 X (470 Ω)
ERJ2GEJ 154 X (150 kΩ)
ERJ2GEJ 224 X (220 kΩ)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 683 X (68 kΩ)
ERJ2GEJ 183 X (18 kΩ)
ERJ2GEJ 124 X (120 kΩ)
ERJ2GEJ 152 X (1.5 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 152 X (1.5 kΩ)
ERJ2GEJ 272 X (2.7 kΩ)
ERJ2GEJ 682 X (6.8 kΩ)
ERJ2GEJ 124 X (120 kΩ)
ERJ2GEJ 330 X (33 Ω)
ERJ2GEJ 100 X (10 Ω)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 182 X (1.8 kΩ)
ERJ2GEJ 471 X (470 Ω)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 222 X (2.2 kΩ)
ERJ2GEJ 223 X (22 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 471 X (470 Ω)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 104 X (100 kΩ)
ERJ3GEYJ 151 V (150 Ω)
ERJ2GEJ 223 X (22 kΩ)
ERJ2GEJ 223 X (22 kΩ)
ERJ2GEJ 222 X (2.2 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 393 X (39 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 153 X (15 kΩ)
ERJ2GEJ 392 X (3.9 kΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 224 X (220 kΩ)
ERJ2RHD 104 X (100 kΩ)
NTCG16 4LH 473KT
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 563 X (56 kΩ)
ERJ2GEJ 563 X (56 kΩ)
ERJ2GEJ 563 X (56 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 392 X (3.9 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 393 X (39 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 392 X (3.9 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 334 X (330 kΩ)
ERJ2GEJ 124 X (120 kΩ)
ERJ2GE-JPW
ERJ2GEJ 184 X (180 kΩ)
H/V
M. LOCATION
T
T
T
B
B
B
B
B
B
B
B
B
B
T
T
T
T
T
T
T
B
B
B
T
T
B
B
B
B
B
B
T
T
T
T
T
T
T
T
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
T
B
B
T
T
T
B
T
T
T
B
T
B
B
B
T
T
T
B
B
B
B
B
T
T
T
T
B
B
B
B
B
B
B
B
T
B
T
T
REF
NO.
107.6/7.3
103.6/6.1
101.1/4.1
92.2/15.9
92.7/18.2
98/13
96.2/19.8
101.5/14.4
101.4/17
93.2/20.1
95/30.2
95.9/32
102.5/30.9
97.9/30.2
98.4/31.8
105/32.8
102.9/38
98.2/38.4
97.2/40.4
96.2/38.4
104.6/18
107.9/12.4
108.5/15
89.1/15.8
80.2/17.5
105.1/16
105/10.9
34.7/12.6
35.9/13.1
31.5/13.7
104.9/15
98.2/16.8
80.7/16
99.2/15.2
88.5/13.8
80.7/14.9
97.6/13.7
96.7/12.7
96.7/11.7
62.6/20.4
65.9/20.4
65.3/16.2
66.9/20.4
63.5/8.1
67.4/14.6
73.8/4.4
29.6/10.6
26.5/10.5
93.7/2
23.5/40.9
20.6/16.9
110.5/35
107.2/32.1
82.4/3.1
29.9/14.1
69.5/27.9
67.7/1.9
105/11.9
109.2/9.5
111.8/14
111.8/15
111.8/13
26.9/28.9
76.3/18.2
79.4/13.5
93.4/2.8
103.3/17.5
100.2/16.5
107.1/15.5
45.4/8.2
49.8/8.8
75.3/29.9
76/25.9
74.7/22.4
104.8/7.7
50.2/12
48.6/12.4
48.8/13.4
49.3/10.9
65.2/3.5
66.4/1.9
108.7/14.3
106.4/2.6
47.7/9.2
25.8/17.2
47.8/10.4
25.8/16.2
29.9/15.8
102.5/31.9
32.5/17.7
36.1/14.3
105.5/18.6
109/2.2
88.1/16.8
107.8/3.2
R259
R260
R261
R262
R266
R318
R319
R320
R321
R323
R324
R325
R326
R327
R328
R329
R330
R331
R332
R333
R334
R335
R336
R337
R340
R341
R346
R357
R358
R362
R363
R364
R367
R368
R369
R370
R371
R372
R373
R374
R375
R376
R377
R378
R379
R380
R381
R382
R384
R385
R386
R387
R388
R389
R397
R398
R402
R405
R406
R413
R417
R418
R419
R420
R421
R422
R423
R424
R425
R426
R427
R428
R429
R430
R431
R432
R433
R434
R435
R436
R437
R438
R439
R440
R441
R442
R443
R444
R445
R446
R447
R448
R449
R455
R456
[EU1/2/3]=EUR-1/2/3, [EX1/2/3/4]=EXP-1/2/3/4, [US1/2/3]=USA-1/2/3, [CS1/2/3]=CSA-1/2/3
ORDER
NO.
7030005110
7030005220
7030005240
7030004980
7030007340
7030005070
7030005070
7030007340
7030005050
7030005050
7030007570
7030005070
7030005070
7030005090
7030005110
7030005240
7030005050
7030005050
7030005290
7030005160
7030005160
7030005160
7030005090
7030007310
7030005040
7030005240
7030005090
7030007340
7030005600
7030005050
7030007300
7030005050
7030005160
7030005110
7030005160
7030005170
7030005120
7030009290
7030005050
7030005010
7030005160
7030004980
7030008300
7030005240
7030005090
7030005170
7030005240
7030005240
7030005060
7030005240
7030005240
7030007300
7030005240
7030005240
7030008400
7030005090
7030010040
7030005090
7030005090
7030010040
7030010040
7030010040
7030005120
7030007290
7030010040
7030005000
7030005050
7030005040
7030004980
7030005000
7030005050
7030008410
7030005710
7030007250
7030005050
7030007320
7030004970
7030005050
7030009270
7030007350
7030005040
7030005120
7030005240
7030005090
7030007320
7030005120
7030005220
7030005050
7030009290
7030005010
7030005010
7030007570
7030004980
7030005090
7030010040
DESCRIPTION
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
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
ERJ2GEJ 224 X (220 kΩ)
ERJ2GEJ 223 X (22 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 153 X (15 kΩ)
ERJ2GEJ 683 X (68 kΩ)
ERJ2GEJ 683 X (68 kΩ)
ERJ2GEJ 153 X (15 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 122 X (1.2 kΩ)
ERJ2GEJ 683 X (68 kΩ)
ERJ2GEJ 683 X (68 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 224 X (220 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 682 X (6.8 kΩ)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 155 X (1.5 MΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 153 X (15 kΩ)
ERJ2GEJ 273 X (27 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 332 X (3.3 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 224 X (220 kΩ)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 474 X (470 kΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 562 X (5.6 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 681 X (680 Ω)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 184 X (180 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 474 X (470 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 333 X (33 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 332 X (3.3 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 182 X (1.8 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GE-JPW
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GE-JPW
ERJ2GE-JPW
ERJ2GE-JPW
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 222 X (2.2 kΩ)
ERJ2GE-JPW
ERJ2GEJ 471 X (470 Ω)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 471 X (470 Ω)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 392 X (3.9 kΩ)
ERJ2GEJ 121 X (120 Ω)
ERJ2GEJ 220 X (22 Ω)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 225 X (2.2 MΩ)
ERJ2GEJ 470 X (47 Ω)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 821 X (820 Ω)
ERJ2GEJ 393 X (39 kΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 225 X (2.2 MΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 223 X (22 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 562 X (5.6 kΩ)
ERJ2GEJ 681 X (680 Ω)
ERJ2GEJ 681 X (680 Ω)
ERJ2GEJ 122 X (1.2 kΩ)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GE-JPW
H/V
M. LOCATION
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
T
T
T
B
T
T
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
T
B
T
B
T
B
B
T
B
B
B
T
T
B
B
B
B
B
B
B
B
B
B
T
B
B
B
B
B
B
B
B
T
T
T
T
T
T
T
T
T
B
B
103.6/2.9
109.7/34
115.5/35.2
98.6/20.3
23.9/17.4
51.4/37.2
47.4/36.1
47.4/37.1
50.2/38.3
45.4/37.9
45.7/39.6
49.3/40.6
51.4/39.1
45.1/36.6
101/28.4
100.5/30
117.6/37.5
119.4/38.8
119.2/35
122.8/30.4
120.8/34.2
117.9/35.7
49.2/38.3
88/18.6
113.9/18.5
115.4/18.6
30.9/15.8
112.1/18.5
110.6/20
29.8/32.3
11.4/41.9
10.1/40.1
15.5/30.7
15/32
31.8/40.6
33.1/40.1
10.1/24.8
9.1/26.5
13.2/23
12.2/23
10.1/28.3
17.2/30
38.7/38.8
38.7/40.4
38.7/41.9
40.3/41.9
27.1/42.3
26.9/27.9
22.6/5.9
20.9/5.2
17.4/32.7
98.2/28.9
92.3/24.9
99.4/22.8
96.9/16
35.8/8.6
89.9/29.1
60.2/7.7
57.2/5.7
106/16.6
90.9/18.5
90.1/15.2
89.7/16.4
90.1/18.7
89.6/19.9
85.8/20.2
85.2/22.2
86.3/24.8
84.6/25.2
79.4/20.6
81.6/20.1
81.6/22.7
81.1/21.4
86.3/25.8
87.3/27.6
90.9/37.9
77.9/19.6
75.9/20.9
80.6/23.3
77.5/24.2
79.5/28.9
80.5/29.2
81.5/29.2
76.9/29.5
80/30.2
78.8/30.7
75.6/32.7
75.6/33.7
78.8/32.4
75.6/31.2
81.7/25.8
83/26.7
83/28.4
95.5/33.3
95.5/34.3
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
S.=Surface mount
6-2
[MAIN UNIT]
[MAIN UNIT]
REF
NO.
ORDER
NO.
R457
R458
R459
R460
R463
R465
R466
R467
R469
R473
7030005050
7030005050
7030005050
7030008290
7030007060
7030005120
7030005120
7030005110
7030005120
7030010040
R474
R475
R476
R477
R478
R479
R480
R482
R483
R484
R485
R486
R487
R488
R489
R491
R492
R493
R494
R495
R496
R497
R498
R499
R500
R501
R502
R503
R504
R505
R506
R507
R508
R509
R510
R511
R512
R513
R514
R515
R516
R517
R518
7030005240
7030005240
7030005050
7030005050
7030005090
7030005090
7030004980
7030005160
7030005160
7030005160
7030005160
7030005160
7030005220
7030005220
7030005220
7030005110
7030005120
7030005120
7030005120
7030005120
7030007340
7030007320
7030005080
7030005080
7030010010
7030005471
7030005120
7030004980
7030005220
7030007270
7030005240
7030005090
7030005090
7030005170
7030005240
7030008300
7030004970
7030005070
7030004980
7030010040
7030005310
7030005090
7030005050
DESCRIPTION
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 183 X (18 kΩ)
S.RES ERJ2GEJ 684X (680 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 224 X (220 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GE-JPW
[EX1], [CS1], [EX2], [CS2], [CS3], [EX4]
S.RES ERJ2GEJ 473 X (47 kΩ)
S.RES ERJ2GEJ 473 X (47 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 101 X (100 Ω)
S.RES ERJ2GEJ 105 X (1 MΩ)
S.RES ERJ2GEJ 105 X (1 MΩ)
S.RES ERJ2GEJ 105 X (1 MΩ)
S.RES ERJ2GEJ 105 X (1 MΩ)
S.RES ERJ2GEJ 105 X (1 MΩ)
S.RES ERJ2GEJ 223 X (22 kΩ)
S.RES ERJ2GEJ 223 X (22 kΩ)
S.RES ERJ2GEJ 223 X (22 kΩ)
S.RES ERJ2GEJ 224 X (220 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 153 X (15 kΩ)
S.RES ERJ2GEJ 225 X (2.2 MΩ)
S.RES ERJ2GEJ 823 X (82 kΩ)
S.RES ERJ2GEJ 823 X (82 kΩ)
S.RES ERJ2RKF 334 X (330 kΩ)
S.RES ERA3YKD 244V (240 kΩ)
S.RES ERJ2GEJ 102 X (1 kΩ)
S.RES ERJ2GEJ 101 X (100 Ω)
S.RES ERJ2GEJ 223 X (22 kΩ)
S.RES ERJ2GEJ 151 X (150 Ω)
S.RES ERJ2GEJ 473 X (47 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 474 X (470 kΩ)
S.RES ERJ2GEJ 473 X (47 kΩ)
S.RES ERJ2GEJ 184 X (180 kΩ)
S.RES ERJ2GEJ 470 X (47 Ω)
S.RES ERJ2GEJ 683 X (68 kΩ)
S.RES ERJ2GEJ 101 X (100 Ω)
S.RES ERJ2GE-JPW
[EU1] only
S.RES ERJ2GEJ 124 X (120 kΩ)
S.RES ERJ2GEJ 104 X (100 kΩ)
S.RES ERJ2GEJ 103 X (10 kΩ)
H/V
M. LOCATION
T
T
T
T
T
T
T
T
B
75.8/37.6
77.3/36.9
74.7/36.5
81/36.7
93.2/32.2
91.9/32.7
106.3/6.8
102.8/8.8
89.5/35.4
B
B
B
B
B
B
B
B
B
B
B
B
T
T
T
T
B
B
B
B
B
B
B
B
B
B
B
B
T
T
T
B
B
B
B
B
B
T
B
B
B
B
B
T
54.2/29.3
31.9/15.4
36.1/15.3
28.8/32.3
27.8/32.3
26.9/29.9
26.9/30.9
20.6/17.9
25.1/32.4
25.1/31.4
25.1/30.4
9.1/40.1
94.4/11.1
76/36
79.3/35.5
77.1/38.2
45/10.4
44.3/9.4
44.2/8.4
40.1/11.2
40.8/8.1
19.2/31.2
20.2/27.7
19/27.3
19/25.7
37.4/10.4
38/8.5
37.6/12.4
108.8/9.6
78.1/39.4
91.6/29.9
38.3/37.6
37.8/36.3
20.6/15.9
20.2/14.6
18.1/16.4
16.6/14.6
107.3/20.6
65.8/14.6
78.5/37.1
25.3/41.7
96.7/15.1
95.7/15.1
75.8/38.6
REF
NO.
C1
4030006980 S.CER C1608 CH 1H 070D-T
B 119.4/6.2
C2
4030009530 S.CER C1608 CH 1H 030B-T
B 116.3/3.8
C3
4030007060 S.CER C1608 CH 1H 270J-T
B 118.5/8.5
C4
4030009920 S.CER C1608 CH 1H 050B-T
B 113.6/8.7
C5
4030007050 S.CER C1608 CH 1H 220J-T
B 118.5/10.5
C8
4030006860 S.CER C1608 JB 1H 102K-T
B 113.1/10.5
C10
4030017460 S.CER ECJ0EB1E102K
T 110.5/12.5
C13
4030017460 S.CER ECJ0EB1E102K
T 114.2/19.5
C14
4030016790 S.CER ECJ0EB1C103K
T
118/30.1
C15
4030007090 S.CER C1608 CH 1H 470J-T
T 113.1/25.1
C17
4030017460 S.CER ECJ0EB1E102K
T 109.3/20.6
C18
4030017460 S.CER ECJ0EB1E102K
B 113.3/18.5
C19
4030016790 S.CER ECJ0EB1C103K
T 115.9/28.9
C20
4030017460 S.CER ECJ0EB1E102K
T 119.8/35.9
C21
4550006480 S.TAN TEESVA 1C 475M8L
T 113.6/31.3
C22
4030017430 S.CER ECJ0EC1H101J
T 103.8/19.9
C23
4030017460 S.CER ECJ0EB1E102K
T 99.7/18.9
C24
4030017460 S.CER ECJ0EB1E102K
T 100.5/26.6
C25
4030017460 S.CER ECJ0EB1E102K
T
98/20.9
C26
4030017460 S.CER ECJ0EB1E102K
T 96.7/18.7
C50
4550006250 S.TAN TEESVA 1A 106M8L
T
82/21.1
C52
4030007080 S.CER C1608 CH 1H 390J-T
T 115.4/9.2
C54
4030017460 S.CER ECJ0EB1E102K
T 91.9/33.7
C70
4030017460 S.CER ECJ0EB1E102K
B 79.5/35.2
C73
4030016930 S.CER ECJ0EB1A104K
T 109.5/11.7
C75
4030016930 S.CER ECJ0EB1A104K
T
104/17.5
C76
4030007040 S.CER C1608 CH 1H 180J-T
T 115.4/10.7
C79
4030017580 S.CER ECJ0EC1H060C
B 112.7/5.6
C81
4030017440 S.CER ECJ0EC1H221J
T 110.9/4.3
C82
4030017460 S.CER ECJ0EB1E102K
T 109.7/5.5
C87
4030016790 S.CER ECJ0EB1C103K
B
106.2/6
C88
4030017460 S.CER ECJ0EB1E102K
B 107.5/6.4
C89
4030017460 S.CER ECJ0EB1E102K
B 104.7/5.3
C90
4030017460 S.CER ECJ0EB1E102K
T 109.9/6.6
C92
4030017690 S.CER ECJ0EC1H121J
T 104.6/5.3
C93
4030017460 S.CER ECJ0EB1E102K
T 102.3/6.5
C94
4030017340 S.CER ECJ0EC1H010B
B 103.4/5.4
C95
4030017460 S.CER ECJ0EB1E102K
T
99.8/4.5
[EU1/2/3]=EUR-1/2/3, [EX1/2/3/4]=EXP-1/2/3/4, [US1/2/3]=USA-1/2/3, [CS1/2/3]=CSA-1/2/3
C96
C97
C99
C102
C104
C105
C106
C107
C108
C111
C112
C113
C114
C115
C116
C117
C118
C119
C120
C121
C122
C123
C124
C125
C126
C128
C129
C131
C132
C133
C134
C135
C136
C137
C138
C139
C144
C145
C147
C149
C150
C152
C153
C154
C161
C162
C163
C164
C165
C166
C167
C168
C169
C171
C173
C174
C179
C193
C194
C195
C197
C199
C204
C205
C209
C212
C213
C214
C216
C217
C219
C230
C232
C233
C234
C236
C243
C244
C245
C249
C251
C252
C277
C278
C281
C282
C283
C285
C287
C288
C289
C293
C296
C297
ORDER
NO.
4030017680
4030017340
4030017460
4030017600
4030017460
4030016790
4030017390
4030017460
4030016790
4030016790
4030017460
4030017460
4030017040
4030017460
4030017680
4030017460
4030016790
4030018860
4030016930
4030017440
4030017440
4030017460
4030016790
4030017760
4030018110
4030016930
4550002960
4030016790
4030018240
4030016930
4030017440
4030017450
4030018240
4030017040
4030017460
4030018860
4030017460
4510008540
4030016950
4030016790
4550000460
4030016950
4510008500
4550006220
4030016790
4030016790
4030017460
4030017460
4030017460
4030017460
4030017420
4030017460
4030017460
4030016930
4510008500
4510008660
4030016790
4030017530
4030017600
4030017500
4030016930
4030016930
4030017460
4030006860
4030016930
4030016790
4550002890
4030017040
4030018920
4030016930
4030017040
4030017030
4030016930
4030017460
4030017460
4030016790
4030017460
4030016790
4030016790
4030016790
4030017460
4030017460
4030017580
4030007040
4030010760
4030017460
4030017760
4030009650
4030007050
4030017460
4030017460
4030016930
4030017730
4030016790
DESCRIPTION
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.TAN
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.TAN
S.CER
S.ELE
S.TAN
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.CER
S.ELE
S.ELE
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
ECJ0EC1H820J
ECJ0EC1H010B
ECJ0EB1E102K
ECJ0EC1H080C
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EC1H180J
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1A333K
ECJ0EB1E102K
ECJ0EC1H820J
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EB0J105K
ECJ0EB1A104K
ECJ0EC1H221J
ECJ0EC1H221J
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EB1H222K
ECJ0EB1H272K
ECJ0EB1A104K
TEESVA 1C 155M8L
ECJ0EB1C103K
ECJ0EB1E562K
ECJ0EB1A104K
ECJ0EC1H221J
ECJ0EB1E271K
ECJ0EB1E562K
ECJ0EB1A333K
ECJ0EB1E102K
ECJ0EB0J105K
ECJ0EB1E102K
EEE1CA100SR
ECJ0EB1A473K
ECJ0EB1C103K
TEESVA 1C 105M8L
ECJ0EB1A473K
EEE1CA101WP
TEESVA 0J 156M8L
ECJ0EB1C103K
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H470J
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1A104K
EEE1CA101WP
EEE0JA220SR
ECJ0EB1C103K
ECJ0EC1H0R5B
ECJ0EC1H080C
ECJ0EC1H560J
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1E102K
C1608 JB 1H 102K-T
ECJ0EB1A104K
ECJ0EB1C103K
TEESVA 1A 225M8L
ECJ0EB1A333K
ECJ0EB1H392K
ECJ0EB1A104K
ECJ0EB1A333K
ECJ0EB1A273K
ECJ0EB1A104K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EB1C103K
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H060C
C1608 CH 1H 180J-T
C1608 CH 1H 331J-T
ECJ0EB1E102K
ECJ0EB1H222K
C1608 CH 1H 240J-T
C1608 CH 1H 220J-T
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1A104K
ECJ0EB1E471K
ECJ0EB1C103K
H/V
M. LOCATION
B
B
B
B
B
B
B
B
B
B
T
T
T
B
T
T
T
T
T
T
T
B
B
B
B
T
B
T
B
T
T
T
T
T
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
T
B
B
B
B
B
B
B
B
T
T
T
B
T
B
B
B
T
T
B
B
B
B
B
T
T
B
B
B
T
T
B
B
B
T
T
B
B
101.7/4.4
102.7/4.2
92.2/16.9
93/12.3
100.1/16.6
100.1/17.6
96.2/18.8
94.5/17.6
94.5/16.6
93.1/32.3
97.4/32.8
97.1/31.2
102.1/29
99.6/33.6
101.1/28.9
95.5/30.3
102.9/39
93.5/29.9
100.4/38.2
97.2/39.4
97.2/37.4
70.8/38.6
104.6/17
109.5/16
110.5/16
81.4/13.5
104.9/13.4
88.1/11.7
23.9/15.8
96.9/17.3
98.2/15.2
98/12.2
96/13.7
95.4/12.2
104.6/3
63.8/20.4
30.2/17.4
61.8/11
30.6/10.6
63.5/6.1
68.9/16.1
72.5/3.9
80.8/11.1
27.2/6.8
111.6/31.5
109.2/35.3
83.4/3.1
72/2.6
92.6/7.4
93.7/4
93.7/5
92.1/9.4
84.2/6.8
65.5/5.9
111.8/39.9
117.5/32
106/17.6
33.5/13.6
35.5/11.6
33/12.6
33.1/14.8
46.5/11
111.4/8.4
114.6/13.2
29/8.8
79/17.9
77.3/16.4
80.4/13.5
39.6/37.2
101.2/17.5
46.4/8.7
27.4/16.1
49.9/9.9
74.7/21.4
75.7/24.6
67.9/27.9
112.3/16.5
65.7/29.4
59.5/38.7
50.9/41.1
111.8/16
113.1/13.5
108.8/4.4
114.6/14.5
118/16.1
109.4/34.2
119.8/34.9
116.7/16.3
121.4/14.6
111.4/9.4
121.5/30.1
82.3/37.2
35.8/10.6
35.8/9.6
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
S.=Surface mount
6-3
[MAIN UNIT]
[MAIN UNIT]
REF
NO.
ORDER
NO.
DESCRIPTION
H/V
M. LOCATION
REF
NO.
C298
4550005980 S.TAN TEESVA 1A 475M8L
B 109.9/18.4
C299
4030017730 S.CER ECJ0EB1E471K
B
93.7/3
C300
4030017460 S.CER ECJ0EB1E102K
B 84.7/29.9
C301
4030017460 S.CER ECJ0EB1E102K
T 88.4/21.3
C303
4030017460 S.CER ECJ0EB1E102K
T
103.1/29
C304
4030016950 S.CER ECJ0EB1A473K
B 22.6/16.9
C305
4030017730 S.CER ECJ0EB1E471K
T 111.2/36.6
C351
4030017570 S.CER ECJ0EC1H040B
B 97.6/21.4
C369
4030017040 S.CER ECJ0EB1A333K
B 49.2/36.7
C370
4030018080 S.CER ECJ0EB1H182K
B 46.2/36.6
C372
4030016970 S.CER ECJ0EB1C223K
B 44.2/38.4
C373
4030017790 S.CER ECJ0EB1E682K
B 52.7/38.6
C374
4030017760 S.CER ECJ0EB1H222K
B 43.8/36.6
C375
4030017460 S.CER ECJ0EB1E102K
B 102.1/29.7
C376
4030017460 S.CER ECJ0EB1E102K
T 109.8/36.7
C377
4550006350 S.TAN TEESVB2 1A 226M8L
T 119.7/39.2
C378
4030016930 S.CER ECJ0EB1A104K
B 121.3/39.2
C379
4030017460 S.CER ECJ0EB1E102K
T 117.2/41.8
C380
4510008660 S.ELE EEE0JA220SR
B 118.3/41.7
C381
4550006250 S.TAN TEESVA 1A 106M8L
T 110.6/42.5
C385
4030016930 S.CER ECJ0EB1A104K
B 120.8/33.2
C386
4030017590 S.CER ECJ0EC1H070C
T
97.3/36
C387
4030017360 S.CER ECJ0EC1H030B
T 97.7/34.8
C398
4550005980 S.TAN TEESVA 1A 475M8L
B 105.9/30.6
C399
4030017770 S.CER ECJ0EB1E332K
B
62.9/7.1
C400
4030017760 S.CER ECJ0EB1H222K
T 111.2/37.6
C401
4030016790 S.CER ECJ0EB1C103K
B 18.5/40.6
C402
4030016930 S.CER ECJ0EB1A104K
B 16.4/40.9
C404
4550007080 S.TAN TEESVA 1C 106M8R
B 17.6/42.5
C405
4030017460 S.CER ECJ0EB1E102K
B
13/37.8
C406
4550006700 S.TAN ECST1AY106R
B 10.4/30.6
C407
4550006250 S.TAN TEESVA 1A 106M8L
B 10.3/32.7
C408
4030017460 S.CER ECJ0EB1E102K
B 15.5/26.6
C409
4030018860 S.CER ECJ0EB0J105K
B
10.1/23
C410
4030016930 S.CER ECJ0EB1A104K
B 13.2/24.8
C411
4030016930 S.CER ECJ0EB1A104K
B 10.1/26.5
C412
4030016790 S.CER ECJ0EB1C103K
B 34.1/40.1
C413
4030017460 S.CER ECJ0EB1E102K
B 29.7/42.4
C414
4030017460 S.CER ECJ0EB1E102K
B 14.5/13.3
C415
4030017460 S.CER ECJ0EB1E102K
B 22.6/17.9
C416
4030017460 S.CER ECJ0EB1E102K
B
19.7/8.2
C417
4030016930 S.CER ECJ0EB1A104K
B 98.2/27.9
C418
4030016930 S.CER ECJ0EB1A104K
B 99.4/21.8
C421
4030016930 S.CER ECJ0EB1A104K
T
105/34.6
C422
4030016930 S.CER ECJ0EB1A104K
T 101.7/38.6
C423
4030017490 S.CER C1608 JB 1A 105K-T
T 95.8/14.9
C424
4030016790 S.CER ECJ0EB1C103K
B
34/11.2
C425
4030016790 S.CER ECJ0EB1C103K
B 52.8/30.9
C429
4030018860 S.CER ECJ0EB0J105K
B
92/35.2
C430
4030016790 S.CER ECJ0EB1C103K
T 89.5/27.8
C431
4030017460 S.CER ECJ0EB1E102K
B
59.7/6.1
C432
4030018860 S.CER ECJ0EB0J105K
B
58.7/6.1
C433
4030017390 S.CER ECJ0EC1H180J
T 93.1/19.9
C434
4030017390 S.CER ECJ0EC1H180J
T 95.4/21.9
C435
4030017640 S.CER ECJ0EC1H150J
B
93/13.9
C437
4030017640 S.CER ECJ0EC1H150J
B 88.8/14.7
C438
4030017460 S.CER ECJ0EB1E102K
B
88/16.4
C439
4030017340 S.CER ECJ0EC1H010B
T 90.5/22.2
C440
4030017600 S.CER ECJ0EC1H080C
B 87.8/20.2
C441
4030017460 S.CER ECJ0EB1E102K
B 84.5/20.1
C442
4030017460 S.CER ECJ0EB1E102K
B 86.8/20.2
C443
4030017420 S.CER ECJ0EC1H470J
T 77.3/20.7
C444
4030017570 S.CER ECJ0EC1H040B
B
85/23.9
C445
4030017530 S.CER ECJ0EC1H0R5B
B
85/26.5
C446
4030017400 S.CER ECJ0EC1H220J
B
84/24
C447
4030017340 S.CER ECJ0EC1H010B
B 82.9/19.6
C448
4030017340 S.CER ECJ0EC1H010B
B 79.3/21.9
C449
4030017460 S.CER ECJ0EB1E102K
T
88.4/23
C450
4030017460 S.CER ECJ0EB1E102K
B 79.9/19.6
C451
4030017360 S.CER ECJ0EC1H030B
B 87.8/26.3
C452
4030017570 S.CER ECJ0EC1H040B
B 87.3/31.7
C453
4030017420 S.CER ECJ0EC1H470J
B 85.6/31.2
C454
4030017360 S.CER ECJ0EC1H030B
T 88.4/37.9
C455
4030017360 S.CER ECJ0EC1H030B
T 90.9/36.9
C456
4030007040 S.CER C1608 CH 1H 180J-T
B 79.5/23.6
C457
4030007050 S.CER C1608 CH 1H 220J-T
B
77.6/23
C458
4030017460 S.CER ECJ0EB1E102K
B 76.1/19.6
C459
4030017460 S.CER ECJ0EB1E102K
T
79/19.5
C460
4030007020 S.CER C1608 CH 1H 120J-T
B 75.8/23.1
C461
4030017460 S.CER ECJ0EB1E102K
B 78.9/26.1
C462
4030017460 S.CER ECJ0EB1E102K
B
83/27
C463
4030017460 S.CER ECJ0EB1E102K
B 91.4/20.1
C464
4030006910 S.CER C1608 CH 1H 0R5C-T
B 75.7/29.4
C465
4030017460 S.CER ECJ0EB1E102K
B 78.1/28.7
C466
4030007110 S.CER C1608 CH 1H 680J-T
B 115.5/18.5
C467
4030007010 S.CER C1608 CH 1H 100D-T
T 122.8/21.9
C471
4030011600 S.CER C1608 JB 1E 104K-T
T 77.8/33.5
C472
4550004040 S.TAN TEESVA 0J 685M-8L
T 78.4/24.6
C473
4550000550 S.TAN TEESVA 1V 224M8L
T
85/24.5
C474
4550000530 S.TAN TEESVA 1V 104M8L
T 77.1/29.7
C475
4030017460 S.CER ECJ0EB1E102K
T 76.8/24.6
C476
4030017460 S.CER ECJ0EB1E102K
T 79.9/25.5
C478
4030017460 S.CER ECJ0EB1E102K
B 97.6/19.3
C479
4030016790 S.CER ECJ0EB1C103K
B
94.9/32
C482
4030017460 S.CER ECJ0EB1E102K
B
101/31.3
C486
4030016930 S.CER ECJ0EB1A104K
T 91.5/28.9
[EU1/2/3]=EUR-1/2/3, [EX1/2/3/4]=EXP-1/2/3/4, [US1/2/3]=USA-1/2/3, [CS1/2/3]=CSA-1/2/3
ORDER
NO.
DESCRIPTION
H/V
M. LOCATION
C487
C488
C489
C491
C492
C493
C496
C497
C499
C500
C502
C503
C504
C505
C506
C507
C509
C510
C511
C512
C514
C515
C516
C517
C518
C519
C521
C522
C523
C524
C525
C526
C527
C528
C529
C530
C531
C532
C533
C534
C535
C536
C537
C538
C539
C540
4030017420
4030017730
4030017460
4030017500
4030017570
4030017460
4030016790
4030017380
4030017360
4030018860
4030017350
4030017340
4030017340
4030017430
4030017460
4030017350
4030017460
4030007120
4030017460
4030017460
4030018520
4030016930
4030007030
4030018860
4030017460
4340000260
4030017460
4030018860
4030018860
4030017460
4030017460
4030017460
4030017460
4030017460
4030017720
4030018860
4030016790
4030017460
4030017400
4030017650
4030016930
4030009510
4030009510
4030017460
4030017460
4030017780
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.MLR
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
ECJ0EC1H470J
ECJ0EB1E471K
ECJ0EB1E102K
ECJ0EC1H560J
ECJ0EC1H040B
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EC1H050B
ECJ0EC1H030B
ECJ0EB0J105K
ECJ0EC1H020B
ECJ0EC1H010B
ECJ0EC1H010B
ECJ0EC1H101J
ECJ0EB1E102K
ECJ0EC1H020B
ECJ0EB1E102K
C1608 CH 1H 820J-T
ECJ0EB1E102K
ECJ0EB1E102K
C1608 JB 0J 225M-T
ECJ0EB1A104K
C1608 CH 1H 150J-T
ECJ0EB0J105K
ECJ0EB1E102K
ECPU 1C 104MA5
ECJ0EB1E102K
ECJ0EB0J105K
ECJ0EB0J105K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1H331K
ECJ0EB0J105K
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EC1H220J
ECJ0EC1H270J
ECJ0EB1A104K
C1608 CH 1H 010B-T
C1608 CH 1H 010B-T
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E472K
T
T
T
T
T
T
T
T
T
T
B
B
B
T
T
B
B
T
B
T
B
B
T
B
T
B
T
B
B
B
B
B
B
B
B
B
B
B
B
B
B
T
T
B
B
B
83.6/36.7
85.4/36.7
91.4/27.9
94.6/37.1
94.6/36.1
92.3/23.9
93.3/36.4
91.9/31.2
106.4/3.6
108.7/7.3
103.8/6.7
102.8/6.7
102.8/8.3
103.5/9.8
93.8/9.8
101.7/9.2
89/36.8
119.2/17.7
101.5/22.2
108.3/17.1
30.6/12.6
34.1/14.8
116.4/5.9
13.5/13.3
81/31.2
82.8/31.4
91.7/34.9
77.2/39.1
78.2/39.1
42.6/9.2
41.6/9.3
40.6/9.9
39.4/9.4
18.6/29.5
20.2/26.7
20/24.8
38.9/11.8
21.5/27.3
97.6/26.6
90.2/12.9
15.6/13.8
117.2/15.3
116.9/13.4
100.4/13
95.6/12.3
63.9/5.1
J2
J3
J5
J6
J7
6450001680
6450002250
6510021970
6510021900
6510024580
CNR
CNR
S.CNR
S.CNR
S.CNR
HSJ1122-010010
HSJ1456-010320
AXN330C130P
BM02B-ASRS-TF
HSJ1621-019011
B
T
B
23.8/36.6
71.5/3.9
12.6/1.9
DS2
DS3
DS4
5010000160 S.LED LNJ310M6URA
5010000160 S.LED LNJ310M6URA
5030002800 LCD
LCD A01B001X
T
T
64.1/38.8
64.1/7
MC1
7700002160 MIC
KUC3523-040245
S3
S801
2260002840 SW
7600000210 ECR
SKHLLFA010
TP70N00E20-15F-1903
EP1
EP5
EP6
EP7
EP9
EP10
EP11
EP12
0910058722
6910012350
6910012350
6910012350
6910012350
6910012350
6910012350
8930064900
B 6221B
MMZ1608Y 102BT
MMZ1608Y 102BT
MMZ1608Y 102BT
MMZ1608Y 102BT
MMZ1608Y 102BT
MMZ1608Y 102BT
SRCN-2826-SP-N-W
T
B
B
B
B
B
101.2/9.4
20.8/42.3
22.1/42.3
5.1/9.1
7.1/12
5.1/6.3
PCB
S.BEA
S.BEA
S.BEA
S.BEA
S.BEA
S.BEA
LCT
[CHASSIS UNIT]
REF
NO.
ORDER
NO.
DESCRIPTION
J1
6510022460 CNR
BNC-R162
SP1
2510001280 SP
SDRS-3650P-008A
W1
8900009640 CBL
OPC-963
H/V
M. LOCATION
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
S.=Surface mount
6-4
6-2 OPTIONAL UNIT UT-118
[MAIN UNIT]
REF
NO.
[MAIN UNIT]
REF
NO.
ORDER
NO.
DESCRIPTION
H/V
M. LOCATION
IC1
IC2
IC50
IC101
IC103
IC151
IC202
IC203
IC204
IC251
IC252
IC253
IC254
IC351
1180002390
1180002370
1130011630
1130008360
1130006890
1130010920
1130010460
1110005730
1140010770
1110005290
1110005430
1110006200
1130004200
1120002980
S.REG
S.REG
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-812C33AMC-C2N-T2
R1111N321B-TR
AD73311ARS
TC7SHU04FU (TE85L)
TC7S04FU (TE85R)
AMBE-2020
TC7SH08FU (TE85L)
S-80928CNMC-G8Y-T2
HD64F3687FP (EMPTY)
NJM2115V-TE1
CMX589AD5
NJM13404V-TE1
TC4S66F (TE85R)
MAX3226EAE-T
T
T
T
B
T
T
B
B
B
B
B
B
B
T
3.4/27.9
19.5/27.8
13.7/19.6
32.5/2.5
34/5.9
27.9/16.1
29.6/7.9
30/27.5
29.9/18.1
16.7/21.9
16.7/13.6
16.6/6.1
28/4.1
9.7/6.1
Q50
Q51
Q201
Q202
Q251
Q252
Q301
Q302
Q303
Q305
Q306
Q400
Q401
1510000770
1590000430
1590000430
1590000430
1590000430
1590000430
1590000430
1590000430
1590000430
1590001660
1590001660
1510000770
1590000430
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
2SA1586-GR (TE85R)
DTC144EUA T106
DTC144EUA T106
DTC144EUA T106
DTC144EUA T106
DTC144EUA T106
DTC144EUA T106
DTC144EUA T106
DTC144EUA T106
XP4312 (TX)
XP4312 (TX)
2SA1586-GR (TE85R)
DTC144EUA T106
T
B
B
B
B
B
B
B
B
B
B
B
B
9.6/11
8.7/23.2
33.1/9.1
35.8/10.3
35.6/5.1
35.8/7.8
7.3/25.9
2.3/25.5
4.8/25.9
23/8.1
26/8.1
13.2/27.5
9.8/25.9
D151
D152
1790001240 S.DIO MA2S728-(TX)
1790001250 S.DIO MA2S111-(TX)
T
B
29.2/6.9
22.7/23.7
X101
X201
6050011240 S.XTL CR-708 (16.384 MHz)
6050011700 S.XTL CR-760 (9.8304 MHz)
T
T
30.5/2.5
30.5/27.7
L50
L151
L201
L351
6200003960
6200003960
6200003960
6200003960
S.COL
S.COL
S.COL
S.COL
MLF1608A 1R0K-T
MLF1608A 1R0K-T
MLF1608A 1R0K-T
MLF1608A 1R0K-T
T
B
B
T
11.8/11.9
16.1/27.2
24.6/12.1
14.2/9.4
R1
R2
R50
R51
R52
R53
R54
R55
R56
R57
R58
R59
R60
R100
R101
R102
R103
R151
R152
R201
R202
R203
R204
R205
R206
R209
R211
R212
R216
R217
R218
R219
R221
R251
R252
R253
R254
R255
R256
R257
R258
R260
R261
R262
R264
R267
R268
7030005240
7030000180
7030005010
7030005120
7030004980
7030005240
7030005240
7030005090
7030004980
7030005240
7030010040
7030005090
7030005050
7030010040
7030005160
7030004980
7030005120
7030005120
7030005240
7030005120
7030005120
7030005040
7030005040
7030005040
7030005120
7030005120
7030005240
7030005240
7030005240
7030005240
7030005240
7030005240
7030010040
7030005240
7030005090
7030005240
7030005240
7030005240
7030005090
7030005240
7030005090
7030005090
7030005240
7030005220
7310004610
7030005090
7030006610
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.TRI
S.RES
S.RES
ERJ2GEJ 473 X (47 kΩ)
MCR10EZHJ 22 Ω (220)
ERJ2GEJ 681 X (680 Ω)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GE-JPW
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GE-JPW
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GE-JPW
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 223 X (22 kΩ)
EVM-2WSX80 B15 (104)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 394 X (390 kΩ)
T
T
T
T
B
B
T
B
B
T
B
T
T
T
B
B
T
T
T
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
T
T
B
B
17.1/26.7
12.9/26.8
8.2/19.7
8.2/23.3
11.1/21.6
13.7/18.9
6.6/22.9
12.5/22.4
12.5/24.2
17.3/23.5
11.1/22.6
7.7/11.2
7.2/12.5
13.5/12.1
32.6/4.4
35.1/2.8
35.8/5.4
29.6/5.5
31.4/6.9
30.3/10.4
29.3/10.4
28.3/10.4
27.1/10.4
31.3/7.5
32.3/11
27.8/27
25.5/25.1
22.4/22.3
22.3/20
22.3/21
24.3/11
26.1/10.4
24.5/25.1
20.1/24.7
20.1/23.7
11.3/13.9
11.3/12.9
10.9/10.9
15.8/18.9
13.1/9.3
17.8/18.9
16.8/18.9
11.3/9.6
17.1/11.8
16.9/9
17.7/8.7
25.3/4.8
ORDER
NO.
DESCRIPTION
M.
H/V
LOCATION
R269
R270
R308
R309
R315
R316
R317
R318
R400
R401
7030005060
7030005240
7030004980
7030004980
7030004980
7030004980
7030004980
7030004980
7030005090
7030009290
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
S.RES
ERJ2GEJ 333 X (33 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 562 X (5.6 kΩ)
B
B
T
T
T
T
B
T
B
B
15.9/8.7
28.5/1.6
1.8/16.9
2.8/16.9
6.2/16
2.8/11.3
10/17
2.3/18.2
10.2/28.7
10.2/27.7
C1
C2
C5
C7
C8
C9
C10
C11
C50
C51
C53
C54
C55
C56
C57
C58
C102
C103
C104
C106
C150
C151
C152
C153
C154
C155
C156
C157
C159
C201
C202
C203
C204
C205
C206
C207
C250
C252
C253
C255
C256
C257
C258
C259
C260
C261
C262
C263
C333
C351
C352
C353
C354
C355
C401
4550006250
4550006250
4030017460
4550005980
4030016930
4550006250
4030016930
4550006480
4030016930
4030016970
4030016930
4550006250
4030016930
4030016950
4030016930
4030016930
4540000070
4030017590
4030016930
4030016930
4550000460
4030016930
4030016930
4030016930
4030016930
4030016930
4030016930
4030016930
4030016930
4030016930
4030017590
4030016930
4030017390
4030016930
4030016790
4540000080
4030016930
4030017490
4030017400
4030017490
4030016930
4030017030
4030017030
4030017760
4030017490
4030016930
4030017490
4030016930
4030017460
4030011810
4030011810
4030011810
4030011810
4030011600
4550006250
S.TAN
S.TAN
S.CER
S.TAN
S.CER
S.TAN
S.CER
S.TAN
S.CER
S.CER
S.CER
S.TAN
S.CER
S.CER
S.CER
S.CER
S.TRI
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.TRI
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
TEESVA 1A 106M8L
TEESVA 1A 106M8L
ECJ0EB1E102K
TEESVA 1A 475M8L
ECJ0EB1A104K
TEESVA 1A 106M8L
ECJ0EB1A104K
TEESVA 1C 475M8L
ECJ0EB1A104K
ECJ0EB1C223K
ECJ0EB1A104K
TEESVA 1A 106M8L
ECJ0EB1A104K
ECJ0EB1A473K
ECJ0EB1A104K
ECJ0EB1A104K
TZY2Z100A001
ECJ0EC1H070C
ECJ0EB1A104K
ECJ0EB1A104K
TEESVA 1C 105M8L
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EC1H070C
ECJ0EB1A104K
ECJ0EC1H180J
ECJ0EB1A104K
ECJ0EB1C103K
TZY2R200A001
ECJ0EB1A104K
C1608 JB 1A 105K-T
ECJ0EC1H220J
C1608 JB 1A 105K-T
ECJ0EB1A104K
ECJ0EB1A273K
ECJ0EB1A273K
ECJ0EB1H222K
C1608 JB 1A 105K-T
ECJ0EB1A104K
C1608 JB 1A 105K-T
ECJ0EB1A104K
ECJ0EB1E102K
C1608 JB 1A 224K-T
C1608 JB 1A 224K-T
C1608 JB 1A 224K-T
C1608 JB 1A 224K-T
C1608 JB 1E 104K-T
TEESVA 1A 106M8L
T
T
B
T
T
T
T
T
T
T
T
T
T
B
T
T
T
T
B
T
T
T
T
T
T
T
T
T
T
B
B
B
T
B
B
T
B
B
B
B
B
B
B
T
B
B
B
B
T
T
T
T
T
T
B
8/26.7
8/28.9
5.7/28.2
13.6/28.9
17.1/28.7
24.1/28.9
22/26.8
14.5/24.8
7.2/18.7
7.7/22
6.6/21.1
9.4/14.5
8.7/21
11.1/20.6
8.7/18.4
17.3/15.7
24.4/3.4
34.3/2
34.4/1.2
35.1/3.8
15.3/14.1
22.4/25.1
29/25.1
18.9/15.5
18.8/10
22.9/7
27.6/6.4
37.1/10.6
37.1/16.6
27.8/7.6
33.1/28.1
32.5/25.8
27.2/26.7
29.2/25.2
32.1/27.6
35.4/26.4
13.5/24.2
17.8/24.6
14.8/18.9
10.8/15.5
20/8.7
20.3/18.3
20.3/19.3
16/11.8
13.2/3.6
21.4/4.9
19.9/3.5
24.9/2.8
9.1/12.9
4.5/7.1
5.7/9.4
3.5/4.9
3.5/3.6
15/7.3
17.4/28.9
J301
6510018440 S.CNR AXN430C330P
B
5.3/13.8
S.=Surface mount
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
6-5
SECTION 7
MECHANICAL PARTS AND DISASSEMBLY
[CHASSIS PARTS]
REF. NO. ORDER NO.
[MAIN UNIT]
DESCRIPTION
QTY.
REF. NO. ORDER NO.
DESCRIPTION
QTY.
J1
6510022460
Connector BNC-R162
1
DS4
5030002800
LCD A01B001X
1
SP1
2510001280
Speaker SDRS-3650P-008A
1
W1
8900009640
Cable OPC-963
1
MP1
MP2
MP3
MP4
MP5
MP6
MP7
MP9
MP10
MP11
MP12
MP13
MP14
MP15
MP16
MP18
MP19
MP20
MP21
MP23
MP24
MP25
MP27
MP28
MP29
MP30
MP31
MP32
MP33
MP34
MP35
MP36
MP37
8210021290
8930064470
8010019850
8930064420
8930064440
8930064910
8930050870
8930064460
8210021300
8930064450
8210021270
8210017091
8310062510
8930042350
8930051300
8610012170
8810008640
8930054881
8930050840
8830001340
8830001250
8930036751
8810009510
8810009560
8810000100
8810008990
8860001210
8510016800
8510016790
8930064880
8810005700
8930065490
8510016890
2826 front panel
2826 keyboard
2826 chassis
2826 D-cap
2826 jack cap
2826 S-jack seal
2251 release button
2826 PTT button
2826 PTT panel
2826 PTT rubber
2826 rear panel
2337 terminal holder-1
2826 window plate
1922 microphone sheet
2251 microphone sponge
Knob N-326
Screw No.0-1 FH B0 2 × 4 NI-ZU (BT)
2458 plus terminal-1
2251 minus terminal
1903 hex. Nut
Nut ANT connector-101
Spring (Y)-1
Screw PH B0 2 × 4 NI-ZU (BT)
Screw PH B0 2 × 6 ZK (BT)
Screw PH M2 × 4 ZK
Screw PH B0 2 × 10 ZK (BT)
2251 antenna lug plate
2826 shield cover
2826 option plate
2826 window sheet
Screw No.0-1 PH M2 × 4 ZK
Rubber sheet (BO)
2826 U-shield cover
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3
1
1
1
1
1
6
4
2
2
1
1
1
1
4
1
1
MP1
MP2
MP3
MP4
MP6
8510016470
8510016470
8210021280
8930064560
8930058840
2775 VCO case
2775 VCO cover
2826 reflector
2826 LCD holder
Shield sponge
1
1
1
1
1
Screw abbreviations
B0, BT: Self-tapping PH: Pan head
NI-ZU: Nickel-Zinc
ZK: Black
[ACCESSORIES]
REF. NO. ORDER NO.
EP1
EP2
EP3
EP4
MP1
Optional product
Optional product
Optional product
Optional product
Optional product
Optional product
Optional product
Optional product
Optional product
DESCRIPTION
QTY.
Antenna FA-B2E
Battery BP-208N [EUR-1], [EXP-1], [USA-1], [CSA-1]
Battery BP-222N EXP
[EUR-2], [EXP-2], [CSA-2]
Battery BP-222N RBRC
[USA-2] only
Battery BP-209N EXP
[CSA-3], [EUR-3], [EXP-4]
Battery BP-209N RBRC
[USA-3] only
AC adopter BC-146
AC adopter BC-147E [EUR-2], [EXP-2], [EUR-3], [EXP-4]
AC adopter BC-147A
[USA-2], [CSA-2], [USA-3]
1
1
1
1
1
1
1
1
1
Optional product MB-103
1
EP1
EP2
MP1
EP3
EP4
* Design is depended on versions.
7-1
-0#
-0#
*#
-0#
-0#
-0#
-0#
-0#
-0#
-0#
-0#
-0#
-0#
-0#
3-
-0#
-0#
-0#
-0#
-0#
-0#
-0-
-0#
-0-
-0#
-0#
-0#
-0#
5NITMMINCH
-0#
-0#
-0#
30#
-0#
-0#
-0-
%0-
$3-
-0-
7#
-0#
-0#
-0#
-0#
-0#
-0#
5.)4ABBREVIATIONS##(!33)30!243--!).5.)4
7-2
-!).UNIT
-0#
SECTION 8
SEMICONDUCTOR INFORMATION
•TRANSISTORS AND FETS
•DIODES
2SA1576A
(Symbol: FA)
2SA1576S
(Symbol: FS)
2SC4116BL
(Symbol: LL)
2SB1132R
(Symbol: BAR)
B
C
E
2SC5006-T1
(Symbol: 24)
E
2SC5085Y
(Symbol: R6)
B
B
3SK318YB-TL-E
(Symbol: YB)
G1
G2
E
RD01MUS1
(Symbol: K2)
S
D
3SK299-U73
(Symbol: U73)
S
G1
G
D
S
S
S
D
G
C
A
C
DA221 TL
(Symbol: K)
S
C1
C
MA742
(Symbol: M1U)
A
UNR9210J
(Symbol: 8L)
B
UNR9213J
(Symbol: 8C)
B
C2
C
C
C
MA77
(Symbol: 4B)
C
MA8056-M
(Symbol: 5-6)
A
C
A
C
E
C
E
C
E
XP4601
(Symbol: 5C)
B
C
E
XP1501 AB
(Symbol: 5R)
UNR921NJ
(Symbol: EX)
B
B1
C
E
C1
E
B2
C2
XP6501-AB
(Symbol: 5N)
4
3
E2
C2
C2
B2
B2
B1
B1
E2
C1
E1
C1
E1
6
C
A
C
MA728
(Symbol: 2A)
A
Index mark (Gate)
UNR9113J
(Symbol: 6C)
A
MA2S077
(Symbol: S)
HVU131TRF
(Symbol: P1)
B
E1
B2
D
UNR911FJ
(Symbol: 6O)
UMG2N TL
(Symbol: G2)
B1
A
A
G2
D
RD12MVS1-T12
(Symbol: RD12MVS1)
A
G
C
1SS400
(Symbol: A)
E
2SK1069-4
(Symbol: FJ)
B
C
E
C
C
E
2SC5231 C8
(Symbol: C8)
C
E
C
C
C
E
HVC375BTRF
(Symbol: B8)
MA2S30400L
(Symbol: BAR)
B
B
B
B
1SV308
(Symbol: K)
1SV286
(Symbol: T7)
2SC4617 TLS
(Symbol: BS)
1
8-1
A
C
A
C
SECTION 9
BOARD LAYOUTS
MAIN UNIT
• TOP VIEW
The combination of this page and next page shows the
unit layout in the same configuration as the actual P.C.
Board.
H0
H5
H10
H15
H20
H25
H30
H35
H40
H45
H50
H55
H60
H65
H70
H75
H80
H85
H90
H95
H100
H105
H110
H115
H120
H125
V45
V40
S801
ENCODER
DN
E
V35
UP
V30
BATT
GND
V25
V20
ANTENNA
V15
V10
MIC
OPT
V5
2
1
V0
2
OPT
1
MIC
AFOUT
W5
CLONE
SP. GND
9-1
EXT. MIC
MIC GND
SP1
SPEAKER
J2
J3
EXT. SPEAKER
• BOTTOM VIEW
The combination of this page and previous page shows
the unit layout in the same configuration as the actual
P.C. Board.
15
H125
H120
H115
H110
H105
H100
H95
H90
H85
H80
H75
H70
H65
H60
H55
H50
H45
H40
H35
OPV1 OPSCK
SI
OPV2
OPSO
OPV3
—
GND
CCS
OPT3
OPT2 REFMOD
OPT1 AFOUT
SICO FMDET
RXMUTE
—
BUSY 232RX
—
232TX
—
MICIN
MICOUT VCC_8V
PTTOUT
5V
PTTIN
GND
To Optional unit J301
16
30
1
J5
H30
H25
H20
H15
H10
H5
H0
V45
V40
16
30
15
1
V35
V30
V25
V20
V15
V10
V5
V0
MC1
MICROPHONE
MIC
MIC GND
9-2
SECTION 10
BLOCK DIAGRAM
• MAIN UNIT
D64, D72: 1SS400
Q34: 2SK1069
UNLK
UNLOCK
DET
DC
AMP
LVIN
X4: CR-783
(15.3MHz)
IC23:
LMV321IDCK
SW
+5V
AMP
IC19: MB15E03SL
IC24: S-812C36AMC
D0
PLL
IC
REF
OSC
FC
MOD
LOOP
FIL
LO
AMP
VCO
SW5V
VCO
SHIFT
R5
FIN
OPTION
UNIT
OSCO
DIGI
CTCSS
Q75: 2SC5231
D58: MA2S077
Q77: UNR921NJ
Q3: 2SC5085
Q2: RD12MUS1
PRE
DRIVE
TX/RX
SW
BUFF
X3
BPF
AMP
D/A
LOOP
SW
PWR
AMP
ANT
SW
PWR
DET
LPF
D1: HVU131TRF
D2: MA77
LPF
Q74: 2SC5231
Tx: 136.000–174.000 MHz
Rx: 136.000–174.000 MHz
VCO5
IC20: SN74AHC1G66HDBV
PS5
LPF
BUFF
APC
CTRL
D50: MA728
LIMIT
Q12: 2SC4226
Q81: 2SC4116
1st Lo
PLLSW
IC15:
CD4066BPWR
R5
D63: DA221
SQLIN
DIGI/AN
R5
IC2: TA31136FN
2nd Lo
45.90 MHz
LPF
232TX
R5
MODIN
Q82: 2SC4116
232RX
D32, D33: MA742
IC3A: LMV324IPWR
Q37 : UNR9113J
DTCS
DATA
J7:
HSJ1621-019011
ANTENNA
Q1: RD12MVS1
DRIVE
AMP
IC10 4/8:
M62363FP
RMOD
VCC
VCC
T5
Tx: 136.000–174.000 MHz
Rx: 182.350–220.350 MHz
D3: 1SV308
D4: MA2S077
D59, D60: MA2S304
D61: 1SV286
Q76: 2SC5231
IC16: SN74AHC2C53HDCT
DI/AN
SW
IF DET-IC
(2nd-MIX, IF-AMP,
NOISE-AMP, FMDET,
RSSI, SQLSW)
DET
IF
AMP
FI1: FL-335
D72: 1SS400
BPF
LIMIT
XTAL
BPF
LIMIT
D9: HVC375B
D11, D12: HVC350B
RF
AMP
BPF
BPF
Q13: 3SK318
Q14: 2SC5006
MICOUT
D65: HVC350B
Q12: 3SK31B
46.350 MHz
AMP
DICK
DI/AN
SW
W/N SW
Q65: 2SC4116
CERAMIC
BPF
DIUD
D/A
DIGI_W
SICO
AFOUT
SW5V
DET
MICOUT
MIC:
KUC3523
IC10 3/8: M62363FP
T1
FI2: ALFY450F=K
MICIN
TEMP.
SENS.
TONE
FIL
SD, NOIS
Q53: XP4601
PTT
S3
D34: MA8056
Q17: UN911F
IC13 1/4:
CD4066BPWR
IC14 1/4:
CD4066BPWR
IC13 1/4:
CD4066BPWR
IC14 1/4:
CD4066BPWR
IC14 1/4:
CD4066BPWR
IC14 1/4:
CD4066BPWR
IC3 1/4:
LMV324IPW
PTT
CONT
THROUGH
SW
SECRET
SW
UN_SEC
SW
SECRET
SW
DI_SEC
SW
AN
SW
HPF
R182: NTCG16
TEMP
UP
E
DN
SD, NOIS
X3:
CDBC450CX24
IC15 2/4:
CD4066BPWR
DIGI/AN
T3
S80:
TP70N00E2015F
T1/T2
IC25:
LMV321IDCK
TXC
DET
LVIN
CSHIFT
UNLK
MIC
JACK
OPT
UN_SEC
SECRET
DI_SEC
AN
MIC
ALC
SW
IC17: AN6123MS
J2:
HSJ1456-010320
Q67: UMG2N
IC13 1/4: CD4066BPWR
ALC
SW
ALC
AMP
CUTOFF
SHIFT
ALC
ALC
SP1
AF
AMP
D56: HVC376B
IC3 1/4: LMV324IPW
CPU
IC8: M30220FCRP
HPF
X2: CR-739
(9.8304 MHz)
DIGI/AN
AF6V
IC5: NJM2070M
CLOCK
SHIFT
BATT
VCC
IC13 1/4: CD4066BPWR
SW5V
SECRET
THROUGH
PTT
LEDC
IC3 1/4: LMV324IPW
SICO
IC10: M62363FP 1/8
Q73: 2SC4617
VOLOUT
EMPHASIS
SW
VOLIN
D/A
ANALOG SW
IC4: CD4066BPWR
LPF
CTCSS
TONE
VCC
DS4: A01B001X
Q38: UNR9213J
CTCSS
SW
LCD
LPF
LIGHT
SP
JACK
CLONE
BUFF
J3:
HSJ1456-010320
CUTOFF
SHIFT
Q31: UNR9210J
D27: MA742
SW5V
CPU5
REG
Q22: 2SA1576
T5
REG
SW5
REG
PS5
R5
T5
IC12: S-812C50AMC
Q55: 2SB1132
Q56: UN9213
Q57: XP1501
D39: 1SS400
IC7: S-24CS64A0I
D40–D49: 1SS400
D66–D69: 1SS400
VCC
BATT
INITIAL/KEY MATRIX
EEPROM
Q68: UNR9213J
CLONE
CPU5
RESET
Q25: 2SC4116
DS2–DS3: LNJ310M6URA
Q21: 2SA1576
R5
REG
+5V
Q54: 2SA1576
PS5
REG
Q11: XP4601
Q63: 2SA1576
ALC
REG
VCO5
REG
Q64: 2SA1576
REFMOD
AMP
REG
D51: 1SS400
Q61: 2SA1576
Q62: 2SC4116
Q16: XP6501
Q15: 2SB1132
RESET
OPTION
REG
AF
REG
PS5C
PSVCO
THROUGH
REFMV
VCC
DUSE
R5C
TX_DIGI
T5C
OP_PS
GND
PWRON
Explanatory notes
TX LINE
IC21: BD5242G
RX LINE
COMMON LINE
VCC
AFON
CONTROL LINE
MAIN UNIT
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0,,37
6
SECTION 11
%0
3)#/
48
"
6
6
%0
11 - 1
IC24
S-812C36AMC
C521
R460
0.001
18k
C487
47p
A
T5
Q22
2SA1576A
R457
10k
6
1
4.91V
C471 C463
0.1
0.001
R488
22k
R50
270k
CP1
X4
CR-783
(15.3 MHz)
R49
JPW
L55
0.22µH
4
2
3
GND
OUT
C70
0.001
C497
5p
R436
39k
R469
1k
R448
1.2k
L43
82nH
C474
0.1
R184
10k
MOD
MOD
C475
0.001
R5
RMOD
MODIN
C386
7p
R84
390
R81
470
IC2
TA31136FN
1
2
3
4
5
6
7
8
C422
0.1
R5
16
15
14
13
12
11
10
9
MIXIN
GND
N-REC
N-DET
RSSI
IFOUT
QUAD
AFOUT
C116
82p
D63
DA221
C417
0.1
R387
3.3k R456
JPW
C114
0.033
C303
0.001
C119
1
R419
1k
C99
0.001
Q5
2SC4225
C102
8p
C107
0.001
C106
18p
C539
0.001
R71
470
C351 R75
4p 220
C435
15p
L18
68nH
C105
0.01
C94
1p
C505
100p
C104
0.001
R72
120k
D72
1SS400
C507
2p
R70
180k
C112
0.001
C113
0.001
C418
0.1
R389
47k
Q65
2SC4116
C502
2p
R467
220k
R388
47k
R66
220k
C97
1p
R64
220k
D12
HVC350BTRF
C506
0.001
C95
0.001
R52
100k
RX: 3.90V R222
D11 HVC350BTRF
R59
100
C73
0.1
C243
0.001
R53
10k
2
1
C277
6p
C138
0.001
C75
0.1
L56
0.18µH
TX: 0.00V
RX: 1.90V
R259
220k
C88 C87
0.001 0.01
PS5
3
R187
100k
C93
0.001
C252
0.001
R210
3.9k
C512
0.001
R503
100
Q12 TX: 0.00V 47k
3SK318YB
C92
120p
L19
82nH
R161
22k
C10
0.001
C511
0.001
C499 R466 C500
3p
1k
1
R258
180k
C89
0.001
C96
82p
L57
68nH
R162
22k
C251
0.001
IC3
LMV324IPWR
C90
0.001
D32
MA742
Q37
UNR9113J
RX: 4.80V
TX: 0.00V
R61
10
C437
15p
C534
27p
C504 C503
1p
1p
C538
0.001
Q13
3SK318YB
C533
22p
L38
39nH
R516 R517
120k 100k
C478
R262 0.001
100
3
1
L29
0.15µH
C537
1p
C298
4.7
RX: 4.87V
TX: 0.00V
L59
39nH
C18
0.001
C2
3p
C1
7p
C278
18p
D33
MA742
RX: 0.00V
TX: 4.05V
R340
4.7k
C3
27p
L1
54nH
C287
22p
C285
24p
RX: 0.00V
TX: 4.45V
R5
C4
5p
C5
22p
C438
0.001
R418
JPW
L4
50nH
C536
1p
R341
47k
R357
15k
R358
27k
C281
330p
L2
50nH
C8
0.001
C205
0.001
L47
28nH
C467 C466 C510
10p 68p 82p
C13
0.001
R7
220
C23
R10
0.001 33
RX: 0.00V
TX: 2.22V
R68
4.7k
T3
R87
2.2k
C118
0.01
R11
3.3k
L32
7.5nH
R5
22 MP5
Q2
Q3
2SC5085 RD01MUS1
RX: 0.00V
TX: 1.50V
C21
4.7
L48
18nH
C15
47p
R512
47
C22
100p
C25
0.001
R417
JPW
D65
HVC350BTRF
SD
C120
0.1
R16
15
C434
18p
R431
10k
C452
4p
C472
6.8
5
R455
100k
L49
18nH
C17
0.001
L20
0.56µH
C108
0.01
FI1
FL-335
(46.350 MHz) 6
2
OUT GND
4 GND
IN
R79
330
R14
4.7k
C453
47p
R83
470
C122
220p
R88
33k
C479
0.01
Q14
2SC5006
DET
SQLIN
R86
47k
OSCIN
OSCOUT
MIXOUT
VCC
IFIN
DEC
FILOUT
FILIN
C482
0.001
R80
100k
C115
0.001
C117
0.001
R244
100k
NOIS
VCC
C421
0.1
C121
220p
L50
0.56µH
R82
3.9k
I
RX: 0.73V
TX: 0.00V
C433
18p
C289
0.001
L5
28nH
Q1
RD12MVS1
C24
0.001
L7
68nH
RX: 4.40V
TX: 0.00V
R77
100
C111
0.01
R420
2.2k
L37
56nH
D4
MA2S077
0.78V
C455
3p
X3
CDBCB450CX24
C491
56p
FI2
ALFY450F=K
O
RX: 3.60V
TX: 0.00V
D3
1SV308
MP1
DIGI_W
MOD
L51
0.82µH
R85
1.5k
RX: 3.55V
TX: 0.00V
C492 4p
C387 3p
C26
0.001
ANT
L6
27nH
R12
3.3k
R421
JPW
C439
1p
R20
22k
PS5
R5
MODIN
R15
100
R424
4.7k
C14
0.01
C19
0.01
R1
82k
L24
2.7µH
D1
HVC131TRF
C204
0.001
C288
0.001
RX: 0.00V
TX: 3.93V
R13
33
2.55V
R69
100
R432
2.2M
R446
680
C451
3p
C441
0.001
L40
0.22µH
Q74
2SC5231C8
R21
2.2k
R160
150
L26
EXCCL3225U1
C20
0.001
C440
8p
C445
0.5p
R430
22
L42
56nH
C454
3p
C473
0.22
R423
10k
C444
4p
R425
100
Q75
2SC5231C8
R428
3.9k
C300
0.001
R447
680
R449
100
C442
0.001
0.74V
C519
0.1
R445
5.6k
Q81
2SC4116
R186
47k
R429
120
R435
820
R443
22k
C509
0.001
C523 C522
1
1
IC20
SN74AHC1G
66HDBVR
R444
10k
VCON VCC
LVIN
C233
0.001
C476
0.001
R514
100
1
R48
10k
R463
680k
C448
1p
C456
18p
C443
47p
C449
0.001
L41
0.1µH
C446
22p
Q76
2SC5231C8
L46
1µH
D60
MA2S30400L
R426
470
C450 R427 C447
0.001 10k
1p
C457
22p
R422
470
2.81V
2.30V
FC
C496
0.01
Q77
UNR921NJ
R434
10k
D59
MA2S30400L
R437
4.7k
L45
22nH
C459
0.001
3.01V
C460
12p
L44
33nH
C461
0.01
D58
MA2S077
C462
0.001
R465
1k
Q34
2SK1069
C464
0.5p
D61
1SV286
R442
1k
R433
47
C458
0.001
TX: 4.14V
RX: 0.00V
C465
0.001
R440
100k
C50
10
C301
0.001
R487
22k
R458
10k
PLLCK
PLLDATA
PLLSTB
PLPS
R141
2.2k
2
4.15V
R518
10k
R459
10k
5
C493
0.001
C234
0.001
SW5V
VCC
R504
22k
PS5
R185
1k
R5
R30
1.8k
C488
470p
C293
0.1
T5C
C398
4.7 C162
0.01
R489
22k
C486
0.1
D64
1SS400
UNLK
R260
22k
C54
0.001
16
15
14
13
12
11
10
9
4.02V
R163
2.2k
R54
180k
R251
330k
L58
47nH
C79
6p
L15
54nH
C81
220p
D9
HVC375BTRF
R57
220k
R252
120k
D2
MA77
D50
MA728
L16
60nH
C52
39p
C516
15p
C76
18p
C82
0.001
PS5
1
2
3
C430
0.01
R
P
L/F
ZC
PS
LE
DAT
CLK
OSCI
OSCO
VP
VCC
DO
GND
XFIN
FIN
3
C518
0.001
T3
1
2
3
4
5
6
7
8
R402
JPW
4
R441
2.2M
2.55V
T1
GND
VIN
VOUT
SW5V
D71
1SS400
IC19
MB15E03SLPFV1
R438
1k
R439
47k
T1
4
NC
5
C429
1
NC
VCC
Q11
XP4601
R337
1.5M
R505
150
RX: 0.00V
TX: 4.80V
4.80V
SW5V
T2
C489
0.001
VCC
T5
1
2
3
4
SW5V
PSVCO
4
PSVCO
VCC
T5
R5
VCC
T5
R5
PSVCO
SW5V
T5
R5
5
VCC
1
2
3
PLLSW
PS5
VCC
R266
15k
C423
1
C133
0.1
MIC
C134 220p
Q67
UMG2N
4
R176
3.9k
3
R93
27k
6
7
C124
0.01
R108 220k
5
R94
1M
IC3
LMV324IPWR
1
DIGI
5
AN
2
14
13
12
11
10
9
8
C214
0.033
R113
68k
C128
0.1
R112
1M
R169 R170
39k
10k
Q68
UNR9213J
R114
18k
13
R99
180k
C135
270p
14
R178
220k
C137
0.033
R486
1M
R100
100k
R121
C129 1.5k
1.5
Q16
XP6501
R123 C139
6.8k 1
R126
120k
R120
47k
C149
0.01
C399
0.0033
R5
C432 C431
1
0.001
SW5V
SW5V
CTCIN
SW5V
VOLIN
SQLIN
C174
22
SW5V
T3
B
+5V
DTCS
DADATA
DACK
DASTB
C244
0.01
VIN8
VOUT8
VOUT7
VIN7
GND
RESET
VDAREF
DO
VIN6
VOUT6
VOUT5
VIN5
24
23
22
21
20
19
18
17
16
15
14
13
C123
0.001
PS5
DTCS
MODIN
MOD
MOD
RMOD
RMOD
FC
FC
R261
47k
C532
0.001
Q82
2SC4116
R497
2.2M
C529
330p
R496
15k
C249
0.01
R498
82k
R499
82k
C530
1
R326
68k
C528
0.001
C369
0.033
R318
68k
R319
68k
R320
15k
C167
47p
PS5
C375
0.001
R336
100k
3
5
2
6
1
R329
47k
Q31
UNR9210J
R139
10k
D27
MA742
1
3
2
4
SP1
2
1
C164
0.001
SW5V
R321
10k
4
W5
J6
+5V
C236
0.01
MODIN
R328
220k
C168
0.001
MAIN UNIT
Q53
XP4601
C161
0.01
C299
470p
MIC
DASTB
DACK
DADATA
VIN1
VOUT1
VOUT2
VIN2
VDD
LD
CLK
DI
VIN3
VOUT3
VOUT4
VIN4
Q21
2SA1576A
R174
15k
MIC
D34
MA8056
R144
22k
MC1
KUC3523-040245
C163
0.001
S3
Explanatory notes
C373
0.0068
+5V
+5V
23
23
11 - 2
C370
0.0018
R327
100k
R323
10k
R324 R325
1.2k 68k
C372
0.022
C374
0.0022
SW5V
1
2
3
4
5
6
7
8
9
10
11
12
T1
T2
Q54
2SA1576A
CLOUT
IC10
M62363FP
J3
EXT SP
C169
0.001
VOLOUT
CLIN
VOLOUT
R150
470
AFOUT
R5
VOLOUT
SW5V
R406
100k
R405
100k
R5C
PS5C
DET
DET
R5
Q73
2SC4617
MIC
MIC
DET
C152
0.047
C150
1
12
R159
100k
C171
0.1
C145
10
R117 1.5k
C136
0.0056
R257
JPW
R122
2.7k
R128
10
EMPHASIS
Q17
UNR911FJ
R95
1.5M
I/O1
VDD
O/I1 CONT1
O/I2 CONT4
I/O2
I/O4
CONT2 O/I4
CONT3 O/I3
VSS
I/O3
C153
100p
8
7
6
5
IC5
NJM2070M
R127
33
AFON
R130
100k
1
2
3
4
5
6
7
IC3
LMV324IPWR
4
R107
150k
5
C213
2.2
R513
68k
3
R44
10k
1
2
3
4
C540
0.0047
C179
0.01
TX_DIGI
C147
0.047
9
R105 R397
1.8k
470
R104
100k
C125
0.0022
C126
0.0027
C217
0.1
TONE
MOD
MODIN
PTT
I/O1
8
R137
100
4
V+
GND
11
1
C212
0.01
SICO
10
C209
0.1
CTCSS
MIC
C154
15
C131
0.01
PS5
R131
1.8k
R177
1k
AFON
MIC
MIC
C132
0.0056
RMUTE
C304
0.047
CPU5
IC4
CD4066BPWR
IC3
LMV324IPWR
MICS
MMUTE
CPU5
R98
150k
TONE
O/I3
AF ON: 7.10V
OFF: 0.00V
Q15
2SB1132
R413
JPW
IC3
LMV324IPWR
R115
120k
6
R97
220k
TXC
VCC
O/I4
2
VCC
VCC
VOLTAGE LINE
TX LINE
RX LINE
COMMON LINE
R132
470
OPT
MIC
POWER SUPPLY: 7.2 V DC
IMPROVEMENT: TESTER (Inner impeadance 50 kΩ or more)
C165
0.001
C166
0.001
EP5
J2
EXT MIC
SECTION 12
UT-118 DIGITAL UNIT (OPTIONAL UNIT)
12-1 UT-118 BOARD LAYOUT
• TOP VIEW
• BOTTOM VIEW
V30
V30
V25
16
25
1
20
V25
1
1
100
26
17
1
8
4
5
64
J301
V20 1 PTTIN
V20
10
11
V15
32
50
1
4
8
1
V5
24
1
75
V5
8
5
12
48
76
51
16
13
49
33
V10
GND 30
PTTOUT
5V
MICOUT VCC_8V
MICIN
—
232TX
—
BUSY 232RX
V15
—
RXMUTE
SICO FMDET
OPT1 AFOUT
OPT2 REFMOD
OPT3
CSS
GND
—
V10
OPV3
OPSO
OPV2
SI
OPV1 OPSCK 16
15
To Main unit J5
9
14 - 1
V0
V0
H0
H5
H10
H15
H20
H25
H30
H35
H35
H30
H25
H20
H15
H10
12 - 1
H5
H0
12-2 UT-118 SEMICONDUCTOR INFORMATION
12-3 UT-118 BLOCK DIAGRAM
• TRANSISTORS AND FET’S
2SA1586 GR
(Symbol: SG)
DTC144EUA T106
(Symbol: 26_)
&/2&-?42!.#%6%2
/04)/.#/..%#4/2
XP4312
(Symbol: 7T)
&,!3(72)4%2
B
B
C
C
E
E
E1
C1
B1
B2
C2
E2
%XPLANATORYNOTES
180
180
6/,4!'%,).%
48,).%
,%6%,
#/.6%24
28,).%
&/2&-?42!.#%6%2#05
#/.42/,,).%
&?28$
2%3
48$
48$?
28$?
$!4!"53,).%
)#
-!8
• DIODES
A
23#?$!4!
MA2S728
(Symbol: B)
MA2S111
(Symbol: A)
C
A
23#
?28
?48
)#!
.*-
C
"5&&
2%&-/$
)#"
.*-
"5&&
)#
#-8!$
8
#2
#05
-(Z
-(Z
-/$%-
)#
($&
)#!
.*-
"5&&
2%3%4
)#
4#3(5
-(Z
).6
$-/$
&-$%4
)#
3#.-#
)#
$30
!-"%
#/$%#
8
#2
$!&/54
)#"
.*-
,).%!2
#/$%#
"5&&
!-/$).
)#
!$
13!
1$4#
6
#42,
6
03!6%
6
13!
1$4#
6
6
6
#42,
03!6%
6
)#
3#!-#
6
2%'
6
)#
2."
6
2%'
6##6
*
!072
12 - 2
12-4 UT-118 VOLTAGE DIAGRAM
3.3V
SI
ARXD
ARES
C58
0.1
C150
1
VCC_8V
C205
0.1
1
2
4
C156
0.1
R216
47k
R217
47k
R212
47k
MCLK
P85
P86
P87
TXD
RXD
ACQ
NMI
4
ASTB
ARXD
ARES
ARES
ATXD
ACLK
C154
0.1
C155
0.1
C153
0.1
R151
1k
3
TXD_2
4
TXDT
RXDT
RXCK
TXCK
TXD_2
RXD_2
RMUTE
ACQ
MCLK
TXCK
RXCK
RXDT
TXDT
3
BUSY
PSAVE
Q202
DTC144EU
PSAVE
CP101
2
R103
1k
P01
PTTIN
3
5
1
2
R211
47k
C203
0.1
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
P35
P34
P51/WKP1
P50/WKP0
VCC
OSC1
OSC2
VSS
TEST
RES
VCL
X1
X2
AVCC
PB7/AN7
PB6/AN6
R205
4.7k
R204
4.7k
R203
4.7k
IC202
TC7SH08FU
5
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
R219
47k
PSAVE
IC103
TC7S04FU
5
3.3V
IC204
HD64F3687
CP216
C106
0.1
C104
0.1
IC101
TC7SHU04FU
1
ACQ
F_RXD
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
D151
MA2S728
3.2V
R102
100
Q201
DTC144EU
FLASH
RXD
C103
7p
C102
TZY2Z100A001
X101
CR-708
R101
1M
NMI
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/FTIOD0
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
3.2V
L151
1µ
4
R218
47k
R57
47k
P85
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
R201
1k
P62/FTIOC0
P61/FTIOB0
NMI
P60/FTIOA0
P64/FTIOA1
P65/FTIOB1
P66/FTIOC1
P67/FTIOD1
P85
P86
P87
P20/SCK3
P21/RXD
P22/TXD
P23
P70/SCK3_2
20
19
18
17
16
15
14
13
12
11
SE
SDI
SDIFS
SDOFS
SDO
MCLK
SCLK
RESET
DVDD
DGND
C333
0.001
ADREF
VOUTP
VOUTN
AVDD1
AGND1
VINP
VINN
REFOUT
REFCAP
AVDD2
AGND2
IC151
AMBE-2020
P86
P87
TXD
RXD_2
CP50
C57
0.1
C56
0.047
R52
100
5
R221 0
AEPR
R50
680
R58
0
1
2
3
4
5
6
7
8
9
10
ASTB
CLOCK_MODE
GND
GND
VDD
NC
GND
VDD
NC
NC
NC
NC
NC
GND
VDD
GND
NC
X1
X2/CLKIN
RESETN
RATE_SEL0
RATE_SEL1
RATE_SEL2
RATE_SEL3
RATE_SEL4
CHANN_SEL0
R51
1k
AGND
ADIN
IC50
AD73311ARS
C51
0.022
C50
0.1
NC
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
PSAVE OFF: L(0.0V)
PSAVE ON: H(5.0V)
DAFOUT
CD
R220 0
APWR
RMUTE_C
DCEL
PTTOUT_C
ACLK
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
R206
1k
SO
ATXD
C55
0.1
C54
10
R60
10k
SEN
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
VDD
GND
GND
VDD
VAD_EN
CODEC_SEL1
CODEC_SLE0
SLEEP_EN
SLIP_EN
BAUD_SEL1
BAUD_SEL0
SOFT_EN
NC
CHANN_SEL1
VDD
R202
1k
5.0V
GND
CODEC_RX_CLK
CHAN_RX_CLK
CODEC_RX_STRB
CHAN_RX_STRB
CODEC_RX_DATA
CHAN_RX_DATA
CODEC_TX_CLK
CHAN_TX_CLK
GND
VDD
CODEC_TX_STRB
CHAN_TX_STRB
VDD
GND
CODEC_TX_DATA
CHAN_TX_DATA
NC
VDD
VDD
VDD
VDD
VDD
VDD
GND
C201
0.1
L50
1µ
R59
100k
Q51
DTC144EU
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
SCLK
RES
VCC_8V
Q50
2SA1586
R209
1k
C206
0.01
APWR
C159
0.1
C157
0.1
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
PSAVE
AEPR
PSAVE
3.3V
PSAVE OFF: L(0.0V)
PSAVE ON: H(3.3V)
IC203
S-80928CNMC
1
OUT
2
VDD
3
VSS
RES
AEPR
APWR
R152
47k
Q400
2SA1586
R401
5.6k
GND
ENCODER_EN
VDD
NC
NC
EPR
NC
NC
NC
NC
NC
NC
NC
VDD
VDD
GND
GND
VDD
NC
NC
NC
NC
NC
NC
GND
Q401
DTC144EU
R1
47k
PSAVE ON: L(0.0V)
PSAVE OFF: H(3.3V)
C11
4.7
R400
100k
3.2V
5V
C152
0.1
C151
0.1
4
C10
0.1
NC
PSAVE ON: L(0.0V)
PSAVE OFF: H(3.3V)
5
C9
10
VOUT
X201
CR-760
(9.8304 MHz)
C204
18p
3.2V
1
VDD
2
GND
3
CE
C8
0.1
5
C7
4.7
NC
4
R2
22
NC
VCC_8V
5V
C1
10
3
VOUT
2
VIN
1
GND
3.3V
APWR
IC2
R1111N321B
4.0-8.5V
3.3V
APWR
IC1
S-812C33AMC-C2N-T2
L201
1µ
3.3V
C202
7p
C401
10
C2
10
C5
0.001
3.3V
3.3V
C207
TZY2R200A001
3.3V
3.3V
R100
0
CP254
CP256
CP255
Q251
DTC144EU
DCEL
2
5
TXD_2
3
4
RXD_2
5
REFMOD
REFMOD
3
4
DAFOUT
DAFOUT
BUSY: H(3.3V)
Q302
DTC144EU
FMDET
FMDET
RMUTE
RES
232_RX
R315
100
232_TX
F_RXD
TXD
AMODIN
R317
R318
100
100
RMUTE
RES
232_RX
BUSY_C
232_TX
F_RXD
TXD
AMODIN
VCC_8V
DMOD
5V
PTTOUT
AGND
PTTIN_C
L351
1µ
Q252
DTC144EU
4
DCEL
Explanatory notes
C351
C352
0.22
0.22
C353
0.22
C354
0.22
R308
100
VOLTAGE LINE
1
2
3
4
5
6
7
8
READY
C1+
V+
C1C2+
C2VR1IN
FORCEOFF
VCC
GND
T1OUT
FORCEON
T1IN
INVALID
R1OUT
16
15
14
13
12
11
10
9
DMOD
Q303
DTC144EU
AGND
Q301
DTC144EU
PTTIN
RX: L(0.0V)
TX: H(3.3V)
VCC_8V
5V
R270
47k
IC351
MAX3226EAE
5
RX: L(0.0V)
TX: H(3.3V)
PTTOUT_C
3.3V
C355
0.1
3.3V
PTTIN
BUSY
TX LINE
VCC_8V
5V
VCC_8V
5V
232_TX
DIGITAL UNIT
232_RX
REFMOD
DMOD
FMDET
RX LINE
VCC_8V
5V
100
2
C262
1
2
3
R316
6
TX: 350mVp-p
C261
0.1
IC254
TC4S66F
1
FLASH
Q306
XP4312
TXD_2_C
P01
RXD_2_C
GND
FLASH
GND
CCS
1
R309
100
C259
0.0022
C258
0.027
TXD_2_C
3.25V
R268
390k
C252
1
6
3.3V
R264
100k
C263
0.1
R262
22k
R269
33k
1
DCEL
IC253
NJM13404V
8
7
CP251
TXCK
RXCK
RXDT
TXDT
RXD_2_C
1
2
3
4
6
R267
100k
5
C256
0.1
24
23
22
21
20
19
18
17
16
15
14
13
C257
0.027
R257
47k
R252
100k
22p
100k
XTAL
VDD
XTAL/CLK_RX
S/N
CLKDIVA
TXC
CLKDIVB
RXC
RX_HOLD
RXD
RXDCACQ
TXD
PLLACQ
TXP
RX_PSAVE
TXE
VBIAS
TXO
RXFB
BT
RX_SIG_IN
DOC1
VSS
DOC2
+
-
R251
47k
VCC_8V
R258
100k
C253
R256
C255
1
1
2
3
4
R260
100k
5V
TXCK
RXCK
RXDT
TXDT
MCLK
R261
47k
IC251
NJM2115V
+
+
-
IC252
CMX589AD5
1
2
3
4
5
6
7
8
9
10
11
12
8
7
5
R253
47k
R53
47k
ADREF
Q305
XP4312
CP252
J301
PTTOUT_C
TX: 350mVp-p
+
3.25V
R255
47k
R54
47k
R254
47k
C53
0.1
6
AMODIN
R55
100k
ADIN
DCEL
3.25V
C260
1
C250
0.1
5V
VCC_8V
MCLK
4.7V
R56
100
D152
MA2S111
P01
ACQ
VCC_8V
5V
VCC_8V
5V
4.5-8.5V
12 - 3
5.0V
to Main unit J5
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