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4OUPGRADEQUALITYANYELECTRICALORMECHANICALPARTSANDINTER
NALCIRCUITSARESUBJECTTOCHANGEWITHOUTNOTICEOROBLIGATION
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
1 - 1
SECTION 1 SPECIFICATIONS
GENERAL
• Frequency range : TX
RX
144.000–148.000 MHz
144.000–146.000 MHz
136.000–174.000 MHz*
136.000–174.000 MHz*
144.000–146.000 MHz
[USA]
[EUR]
[EXP], [CSA]
[USA], [EXP], [CSA]
[EUR]
*Specifications are guaranteed within 144.000 to 148.000 MHz range only.
• Operating temperature range : –10°C to 60°C; +14°F to +140°F
• Operating mode : F2D, F3E, F7W* (*with optional digital unit UT-118)
• Frequency stability : ±2.5 ppm (–10°C to +60°C; +14°F to +140°F)
• 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
RX
High
Middle
Low
Max. audio
Stand-by
Power save
2.6 A
2.0 A
1.0 A
Less than 250 mA
Less than 80 mA
Less than 30 mA
• 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")
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 dBµat 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 Ωload
• Ext. speaker connector : 3-conductor 3.5 (d) mm (1/8")/8 Ω
All stated specifications are subject to change without notice or obligation.
2 - 1
SECTION 2 INSIDE VIEWS
• MAIN UNIT
Power amplifier
(Q1: RD12MVS1)
Pre-emphasis circuit
(IC3: LMV324IPWR)
RF amplifier
(Q12: 3SK318YB)
1st IF mixer
(Q13: 3SK318YB)
MIC mute/Analog
switch
(IC4: CD4066BPWR)
Antenna switch
(D2: MA77)
TX drive amplifier
(Q2: RD01MUS1)
CPU5 regulator
(IC12: S-812C50AMC)
IF amplifier
(Q14: 2SC5006)
AF power amplifier
(IC5: NJM2070M)
DA converter
(IC10: M62363FP)
CPU
(IC8: M30220FCRP)
Scrambler switch/
UN scrambler switch
(IC14: CD4066BPWR)
ALC switch
(IC13: CD4066BPWR)
Optional unit regulator
(Q61: 2SA1576,
Q62: 2SC4116,
D51: 1SS400)
Digital/Analog
switch
(IC15: D4066BPWR)
VCO circuit
FM IF IC
(IC2: TA31136FN)
PLL IC
(IC19: MB15E03S
LPFV1)
Top view Bottom view
3 - 1
SECTION 3 DISASSEMBLY INSTRUCTIONS
1. Removing the chassis panel
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.
2. Removing the MAIN unit.
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.
H
Guide hole
Chassis
L
K
M
MAIN unit
Shield cover
I
J
G
F
G
4 - 1
SECTION 4 CIRCUIT DESCRIPTION
• 2ND IF AND DEMODULATOR CIRCUITS
Mixer
16
Limiter
AMP
45.9 MHz 2nd LO signal
IC2 TA31136FN
1st IF signal
from the IF amplifier (Q14)
11109
87 5
AF "DET" signal
to the AF circuits
"SQLIN" signal
from the D/A converter (IC10, pin 23)
15.3 MHz
Q81
2
21
Active
filter
Noise
detector
FM
detector
14
"NOIS" signal to the CPU (IC8, pin 26)
PLL
IC
(IC19)
R5
“DIGI_W” signal from the CPU (IC8, pin 81)
×3 X1
Noise
AMP
Noise
comparator
X3
Q65
FI2
3
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.
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).
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).
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 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.
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).
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).
The amplified 1st IF signal is applied to the FM IF IC (IC2,
pin 16).
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.
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 sup-
press 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.
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 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 - 2
• APC CIRCUITS
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.
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.
4-2 TRANSMITTER CIRCUITS
4-2-1 ALC AMPLIFIER AND PRE-EMPHASIS CIRCUIT
The ALC (Audio Level Control) amplifier maintains the level
of the audio signals from the microphone constant. The pre-
emphasis circuit amplifies the audio signals within +6 dB/oct
pre-emphasis characteristic.
• 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 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.
• 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 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).
4-2-2 MODULATOR CIRCUIT
The modulation circuit modulates the VCO oscillating signal
with the audio signals from the microphone.
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).
4-2-3 TRANSMIT AMPLIFIERS
The VCO output signal is amplified to transmit power level by
the transmit amplifiers .
The VCO output signal is buffer-amplified by the buffer amp-
lifiers (Q74, Q75) and passes through the TX/RX switch (D3).
The signals from the TX/RX switch are applied to the pre-
driver (Q3), driver (Q2) and power (Q1) amplifiers, to be
amplified to the transmit output power 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.
4-2-4 APC CIRCUIT
The APC (Automatic Power Control) circuit stabilizes transmit
output power and controls transmit output power High, Middle
and Low.
The RF output signal from the power amplifier (Q1) is detect-
ed 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.
Power
AMP
APC
CTRL
+
–
3
2
1
To ANT
VCC
T3
TXC
PS5
RF signals
from TX/RX SW
T5
D33
Pre-
drive
AMP
Drive
AMP
ANT
SW
Power detecter
LPF LPF
Q3
IC3A
Q2 Q1
D32
Q37
4 - 3
• PLL CIRCUITS
4-3 PLL CIRCUITS
4-3-1 GENERAL
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 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 fre-
quencies 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.
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 oscil-
lated frequency.
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 sec-
tion 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 fil-
ter (R446–R448, C472–C474), and then applied to the VCO
(Q76, D59, D60) as the lock voltage.
4-3-3 RECEIVE LOOP
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.
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.
4-4 OTHER CIRCUITS
4-4-1 CTCSS/DTCS CIRCUIT (DECODING)
The CTCSS/DTCS signal from FM IF IC (IC2, pin 9) is fil-
tered 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.
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 micro-
phone 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).
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 convert-
er (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).
Loop
filter
R5
Buffer
Q75
Buffer
Q3
Buffer
Q74
Buffer
Q5
to transmitter circuit
to 1st mixer circuit
D3
D4
58
Q76, D59, D60
Q77, D58
VCO
IC1 MB15E03SL
×3
45.9 MHz 2nd LO
signal to the FM IF IC
(IC2, pin 2)
Q81
Shift register
Prescaler
Phase
detector
Charge
pump
Programmable
divider
PLLCK
PLLSTB
1
2
9
10
11 PLLDATA
"LOINV" signal
to the CPU (IC661, pin 34)
LPF
PLL control signals
from D/A converter (IC10, pins 6–8)
15.3 MHz reference signal
from reference frequency osciilator (X4)
VCO SHIFT
4 - 4
LINE DESCRIPTION
VCC The voltage from the attached battery pack.
CPU5 Common 5 V for the CPU (IC8) converted from the
VCC line at the CPU5 regulator circuit (IC12).
SW5V
Common 5 V line converted from the VCC line at the
SW5 regulator circuit (Q55–Q57, D39) controlled by
the "PWRON" signal.
T5
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).
PS5
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).
4-5 POWER SUPPLY CIRCUITS
4-5-1 VOLTAGE LINES
4-6 PORT ALLOCATION
4-6-1 CPU (IC8)
PIN
NUMBER
PORT
NAME DESCRIPTION
1 LVIN Input port for PLL lock voltage.
3 REMO Input port for remote control micro-
phone.
4SD
Input port for receiving signal
strength detect signal.
5 CTCIN Input port for CTCSS/DTCS signals.
7 DET Input port for weather alert tone detect
signal.
8 LEDC Outputs LCD backlight control signal.
HIGH : Lights ON
9 PTT Input port for [PTT].
10 MICS
Outputs AF filter switch (IC4) control
signal.
HIGH : While transmiting
11 AN Output ports AN switch (IC14) con-
trol signal.
12 DIGITAL
Input port for UT-118 accept/refuse
signal.
LOW : Accept
13 UN_SEC Output ports UN_SEC switch (IC14)
control signal.
15 CSHIFT Outputs CPU (IC8) clock control signal.
19 RESET Input port for "RESET" signal.
25 PWRSW Input port for [PWR].
LOW : While pushing [PWR]
PIN
NUMBER
PORT
NAME DESCRIPTION
26 NOIS Input port for "NOIS" signal.
28 ESDA I/O port for EEPROM (IC7).
29 ESCK Outputs clock signal for EEPROM
(IC7).
30 CLIN Input port for cloning data.
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 I/O ports for optional unit.
43 ALC
Outputs ALC switch (IC13) control
signal.
HIGH : During digital mode operation.
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 con-
trol signal from UT-118.
57 PTTI Output port for transmit request con-
trol signal to UT-118.
58 D5VC
Output port for D5VC line (5 V power
supply; IC22) control signal.
HIGH : Power ON
59 OP_PS
Outputs option power supply (Q61,
Q62, D51) control signal.
HIGH : Power ON
60 OPSCK Outputs clock signal for optional unit.
61 RX_MUTE Input port for RX mute signal for
digital mode operation.
62 PSVCO
Outputs PS5 regulator (Q22) control
signal.
LOW : Power ON
63 PLPS
Outputs power save control signal to
the PLL IC (IC19).
LOW : Power saved
64 DASTB Outputs strobe signal to D/A conver-
tor (IC10).
66 DADATA Outputs serial data to D/A convertor
(IC10).
67 PLLSW Outputs PLL loop filter switch (IC20)
control signal.
68 PLLCK Outputs clock signal to PLL IC (IC19).
69 PLLDATA Outputs serial data to the PLL IC (IC19).
PIN
NUMBER
PORT
NAME DESCRIPTION
70 PLLSTB Outputs PLL strobe signal.
71 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 signal-
ing system is in use.
HIGH : DTCS is in use.
73–76 KR0–KR3 Input ports for keypad.
78 UNLK Input port for PLL unlock signal.
79 EMPHASIS
Outputs emphasis switch (Q73) con-
trol 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 Output ports for keypad.
92 PS5C
Outputs PS5 regulator (Q54) control
signal.
LOW : Power saved
97, 98 DICK, DIUD Input port for [VOL] control (S801).
141 TONE Outputs DTMF, BEEP, 1750 Hz tone
signals, etc.
4-6-2 D/A CONVERTER (IC10)
PIN
NUMBER
PORT
NAME DESCRIPTION
2T1
Outputs the tunable BPF tuning signal.
The output signal is applied to BPF (D9,
D11, D12).
3T2
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 ampli-
fier (IC5).
13 DTCS Input port for DTCS signal from the DTCS
amplifier (IC23).
1 5 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 - 6
Linear
CODEC
Buffer
IC253B
Buffer
IC251A
Buffer
IC251B
IC50
IC151
Q305, Q306
IC351
-"232C_RX" signal
to the J301, pin 25
-"232C_TX" signal
to the J301, pin 26
-"TXD_2" signal to
the J301, pin 16
-"RXD_2" signal to
the J301, pin 17
"DAFOUT" signal to
the J301, pin 22
"DMOD" signal
to the J301, pin 3
"FMDET" signal
from the J301, pin 23
"AMODIN" signal
from the J301, pin 4
IC204 IC252
DSP
CODEC
CPU
CODEC
Modem
RS-232C
Level
converter
• UT-118 BLOCK DIAGRAM
4-7 UT-118 CIRCUIT DESCRIPTION
4-7-1 RECEIVER CIRCUIT
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).
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.
4-8 UT-118 POWER SUPPLY CIRCUITS
4-8-1 VOLTAGE LINES
4-9 UT-118 PORT ALLOCATIONS
4-9-1 MODEM IC (IC252)
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).
PIN
NUMBER
PORT
NAME DESCRIPTION
2MCLK Outputs 2.4576 MHz clock signal to
the CPU (IC151, pin 39).
7ACQ
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).
5 - 1
EQUIPMENT GRADE AND RANGE EQUIPMENT GRADE AND RANGE
DC power supplies*
Output voltage : 5.0 V DC
8.0 V DC
Current capacity : 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 : 0.1–20 W
Frequency range : 100–300 MHz
Impedance : 50 Ω
SWR : Less than 1.2 : 1
Oscilloscope Frequency range : DC–20 MHz
Measuring range : 0.01–10 V
Frequency counter
Frequency range : 0.1–300 MHz
Frequency accuracy: ±1 ppm or better
Sensitivity : 100 mV or better
AC millivoltmeter Measuring range : 10 mV to 10 V
External speaker Input impedance : 8 Ω
Capacity : More than 0.5 W
Audio generator Frequency range : 300–3000 Hz
Output level : 1–500 mV Attenuator Power attenuation : 20 or 30 dB
Capacity : More than 5 W
FM deviation meter Frequency range : 30–300 MHz
Measuring range : 0 to ±10 kHz
SECTION 5 ADJUSTMENT PROCEDURES
5-1 PREPARATION
REQUIRED TEST EQUIPMENTS
FM
deviation meter
to the antenna connector
Attenuator
20 dB / 30 dB
RF power meter
0.1–20 W/50 Ω
Frequency
counter
Standard signal generator
0.1 µV to 32 mV
(–127 dBm to –17 dBm)
DO NOT transmit while
an SSG is connected to
the antenna connector.
•JIG
Audio generator
AC millivoltmeter
To [SP] jack 3-conductor 3.5 (d) mm (1/8”) plug
(CLONE)
(GND)
68 kΩ
IC-V82
To [MIC] jack
• CONNECTION
*; 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.
S
Adjustment item
Operating frequency
• ADJUSTMENT MODE DISPLAY
5 - 2
ADJUSTMENT ADJUSTMENT CONDITION OPERATION
ENTERING ADJUSTMENT MODE • While pushing [], [] and [D•CLR] keys, turn power ON.
REFERENCE
FREQUENCY
1•
•
Connect a frequency counter to
the antenna connector through
an attenuator.
Transmitting
• Rotate [VOL] to set to 146.000 MHz ±100Hz.
• Push [D•CLR] key.
TRANSMIT
LOCK VOLTAGE
1 • Transmitting • Push [D•CLR] key, then push [] key.
(Do not release [PTT] button when pushing [D•CLR] key.)
OUTPUT
POWER
(High)
1•
•
Connect an RF power meter to
the antenna connector.
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
1•
•
•
•
Mode : Wide
Connect an FM deviation meter
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
• Rotate [VOL] to set to ±4.2 kHz.
• Push [D•CLR] key.
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
• Rotate [VOL] to set to ±1.20 kHz.
• Push [D•CLR] key.
DTCS WAVE
FORM
1•
•
•
•
•
Mode : Wide
Connect an oscilloscope and
the FM deviation meter to the
antenna connector.
Set the FM deviation meter as;
HPF : OFF
LPF : 20 kHz
De-emphasis : OFF
Detector : (P–P)/2
No audio input
Transmitting
• Rotate [VOL] to set to square wave form as
shown below.
• Push [D•CLR] key.
DIGITAL
REFERENCE
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
• Rotate [VOL] to set to ±1.20 kHz.
• Push [D•CLR] key.
5-2 IC-V82 ADJUSTMENT
Set to square wave
form
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
S
S
S
S
S
S
S
S
S
5 - 3
ADJUSTMENT ADJUSTMENT CONDITION OPERATION
SENSITIVITY
1 • Connect an SSG to the antenna
connector and set as;
Frequency : 136.020 MHz
Level : 0 dBµ*
Modulation : 1 kHz
Deviation : ± 3.5 kHz
• Receiving
• Push [D•CLR] key.
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.
5-2-3 RECEIVE ADJUSTMENT
S
S
S
5 - 4
ADJUSTMENT ADJUSTMENT CONDITION OPERATION
ENTERING
ADJUSTMENT
MODE
• Connect the pin 14 of J301 to GND to enter the adjustment mode.
CODEC
FREQUENCY
1 • Connect the frequency counter to CP101
through a capacitor (1000 pF).
• Adjust C102 to set to 16.38400 MHz ±10 Hz.
MODEM
FREQUENCY
1 • Connect the frequency counter to CP216
through a capacitor (1000 pF).
• Adjust C207 to set to 2.457600 MHz ±3 Hz.
MODURATION
OUTPUT
LEVEL
1•
•
Connect the pin 1 of J301 to GND to enter the
transmit mode.
Connect the oscilloscope to pin 21 of J301.
• Adjust R264 to set to 350 mVp-p ±10 mV.
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.
5-3 UT-118 ADJUSTMENT
• CONNECTION (BOTTOM VIEW)
CP101
CODEC FREQUENCY
chek point
J301, pin 21
MODULATED SIGNAL LEVEL
check point
J301, pin 1
Connect to GND.
CP 216
MODEM FREQUENCY
check point
R264
MODULATION OUTPUT LEVEL
adjustment point
C102
CODEC FREQUENCY
adjustment point
C207
MODEM FREQUENCY
adjustment point
Power supply
8.0 V DC / 1 A
Power supply
5.0 V DC / 1 A
J301, Pin 14
Entering adjustment mode
• UT-118 TOP VIEW • UT-118 BOTTOM VIEW
• ADJUSTMENT
6 - 1
SECTION 6 PARTS LIST
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
[MAIN UNIT]
REF ORDER DESCRIPTION M. H/V
NO. NO.
LOCATION
[MAIN UNIT]
REF ORDER DESCRIPTION M. H/V
NO. NO.
LOCATION
IC2 1110003490 S.IC TA31136FN (D,EL) T 101.7/33.7
IC3 1110006470 S.IC LMV324IPWR T 103.7/13.2
IC4 1130011770 S.IC CD4066BPWR T 84.9/14.9
IC5 1110002810 S.IC NJM2070M-TE1 B 67.3/10.2
IC7 1130012430 S.IC S-24CS64A0I-T8T1G B 26.1/21.5
IC8 1140012450 IC M30220FCRP B 43.3/22.9
IC10 1190000350 S.IC M62363FP-650C B 65/34.4
IC12 1180002250 S.IC S-812C50AMC-C3E-T2 T 109.8/39.8
IC13 1130011770 S.IC CD4066BPWR B 10.8/16.8
IC14 1130011770 S.IC CD4066BPWR B 19.1/21.2
IC15 1130011770 S.IC CD4066BPWR B 23/10.2
IC16 1130011780 S.IC SN74AHC2G53HDCTR B 36.3/41.1
IC17 1110005310 S.IC AN6123MS B 12.3/27.9
IC19 1130011670 S.IC MB15E03SLPFV1-G-BND-ER T 86.9/33.3
IC20 1130011800 S.IC SN74AHC1G66HDBVR T 80.9/28
IC21 1110006260 S.IC BD5242G-TR B 27.6/13.9
IC22 1180002680 S.REG S-812C50BMC-C5E-T2G B 13.5/35.6
IC23 1110006490 S.IC LMV321IDCKR B 40.5/40.2
IC24 1180002690 S.REG S-812C36AMC-C2Q-T2G T 87.3/28.1
IC25 1110006490 S.IC LMV321IDCKR B 18.4/14.6
Q1 1560001370 S.FET RD12MVS1-T12 T 118.3/24
Q2 1560001240 S.FET RD01MUS1 T 109.5/24.3
Q3 1530003230 S.TR 2SC5085-Y (TE85R) T 101.6/19.9
Q5 1530003260 S.TR 2SC5006-T1 B 87.3/30.2
Q11 1590001650 S.TR XP4601 (TX) T 86.7/21.7
Q12 1580000790 S.FET 3SK318YB-TL-E B 106.7/4.1
Q13 1580000790 S.FET 3SK318YB-TL-E B 99.7/14.8
Q14 1530003260 S.TR 2SC5006-T1 B 97.5/33.8
Q15 1520000460 S.TR 2SB1132 T100 R B 61.8/16.3
Q16 1590001190 S.TR XP6501-(TX) .AB B 65.9/18.2
Q17 1590003420 S.TR UNR911FJ-(TX) B 28/10.6
Q21 1510000510 S.TR 2SA1576A T106R B 113.3/31.2
Q22 1510000510 S.TR 2SA1576A T106R B 109.8/32.1
Q25 1530002850 S.TR 2SC4116-BL (TE85R) T 67.1/4.1
Q31 1590003270 S.TR UNR9210J-(TX) T 95.7/4.2
Q34 1560000810 S.FET 2SK1069-4-TL T 74.8/28.1
Q37 1590003230 S.TR UNR9113J-(TX) T 109.9/15.9
Q38 1590003290 S.TR UNR9213J-(TX) B 41.1/36.6
Q53 1590001650 S.TR XP4601 (TX) B 47.4/38.9
Q54 1510000510 S.TR 2SA1576A T106R B 100.7/26.5
Q55 1520000460 S.TR 2SB1132 T100 R T 115/39.4
Q56 1590003290 S.TR UNR9213J-(TX) T 120.3/33.3
Q57 1590001170 S.TR XP1501-(TX) .AB B 119.6/37
Q61 1510000620 S.TR 2SA1576 T106 S B 14.4/39.9
Q62 1530002850 S.TR 2SC4116-BL (TE85R) B 11.9/39.8
Q63 1510000510 S.TR 2SA1576A T106R B 15.5/28.9
Q64 1510000510 S.TR 2SA1576A T106R B 31.8/42.5
Q65 1530002850 S.TR 2SC4116-BL (TE85R) B 98.9/24.7
Q67 1590002230 S.TR UMG2N TL T 94.6/16.9
Q68 1590003290 S.TR UNR9213J-(TX) T 93.6/13.5
Q73 1530003630 S.TR 2SC4617 TLS B 61.3/6.2
Q74 1530003580 S.TR 2SC5231C8-TL B 87.1/23.3
Q75 1530003580 S.TR 2SC5231C8-TL B 83.2/22.2
Q76 1530003580 S.TR 2SC5231C8-TL B 77.4/21.2
Q77 1590003300 S.TR UNR921NJ-(TX) B 83/29
Q81 1530002850 S.TR 2SC4116-BL (TE85R) T 94.9/32.7
Q82 1530002850 S.TR 2SC4116-BL (TE85R) B 20.4/29.4
D1 1710000870 S.DIO HVU131TRF B 112.5/12.7
D2 1790000620 S.DIO MA77 (TX) T 115.9/7.6
D3 1790001620 S.DIO 1SV308 (TPL3) T 90.7/21.1
D4 1790001260 S.DIO MA2S077-(TX) T 91.6/19.2
D9 1750000720 S.VCP HVC375BTRF T 110.7/2.8
D11 1750000710 S.VCP HVC350BTRF T 104.4/3.2
D12 1750000710 S.VCP HVC350BTRF B 101.7/2.3
D27 1790000980 S.DIO MA742 (TX) T 93.4/4.7
D32 1790000980 S.DIO MA742 (TX) T 114.9/14.1
D33 1790000980 S.DIO MA742 (TX) T 114.9/16.6
D34 1790000950 S.ZEN MA8056-M (TX) B 94/8.1
D39 1750000940 S.DIO 1SS400 TE61 B 117.2/38.7
D40 1750000940 S.DIO 1SS400 TE61 B 60.8/43.2
D41 1750000940 S.DIO 1SS400 TE61 B 63.6/43.1
D42 1750000940 S.DIO 1SS400 TE61 B 64.9/43.1
D43 1750000940 S.DIO 1SS400 TE61 B 66.2/43.1
D44 1750000940 S.DIO 1SS400 TE61 B 67.5/43.1
D45 1750000940 S.DIO 1SS400 TE61
[EU1], [US1], [EU2], [US2], [EU3], [US3] T 58.4/41.9
D46 1750000940 S.DIO 1SS400 TE61
[EX1], [CS1], [EX2], [CS2], [CS3], [EX4] T 59.7/41.9
D47 1750000940 S.DIO 1SS400 TE61 T 61/41.9
D48 1750000940 S.DIO 1SS400 TE61
[EU1], [US1], [EU2], [US2], [EU3], [US3] T 67.1/40.8
D49 1750000940 S.DIO 1SS400 TE61 [EU1], [EU2], [EU3] T 68.4/40.8
D50 1790000660 S.DIO MA728 (TX) T 114.2/3.3
D51 1750000940 S.DIO 1SS400 TE61 B 13.6/41.9
D56 1750000770 S.VCP HVC376BTRF B 33.5/9.8
D58 1790001260 S.DIO MA2S077-(TX) B 81.3/27.8
D59 1720000730 S.VCP MA2S30400L B 76.3/27.5
D60 1720000730 S.VCP MA2S30400L B 78.8/27.5
D61 1720000650 S.VCP 1SV286 (TPH3) B 76.4/31.2
D63 1750000370 S.DIO DA221 TL B 93.4/30.7
D64 1750000940 S.DIO 1SS400 TE61 T 84/37.9
D65 1750000710 S.VCP HVC350BTRF T 102.7/7.7
D66 1750000940 S.DIO 1SS400 TE61
[EU1], [EX1], [EU2], [EX2], [EU3], [EX4] T 67.5/43.3
D67 1750000940 S.DIO 1SS400 TE61 [EX1], [EX2], [EX4] T 66.2/43.3
D68 1750000940 S.DIO 1SS400 TE61
[EU1], [EX1], [EU2], [EX2], [EU3], [EX4] T 64.9/43.3
D69 1750000940 S.DIO 1SS400 TE61 [EX1], [EX2], [EX4] T 63.6/43.3
D71 1750000940 S.DIO 1SS400 TE61 T 79.6/37.9
D72 1750000940 S.DIO 1SS400 TE61 B 101.7/6.4
FI1 2030000150 S.MLH FL-335 (46.350 MHz) B 94.4/25
FI2 2020001590 CER ALFY450F=K
X2 6050011500 S.XTL CR-739 (9.8304 MHz) B 46/4.6
X3 6070000190 S.DCR CDBCB450KCAY24-R0 T 96.8/26
X4 6050011940 S.XTL CR-783 (15.3 MHz) B 84.1/36.9
L1 6200008170 S.COL 0.35-1.6-8TL 54N B 116.7/5.9
L2 6200008280 S.COL 0.30-1.7-7TL 50N B 115.8/9.2
L4 6200008280 S.COL 0.30-1.7-7TL 50N B 117.7/13.4
L5 6200008500 S.COL 0.30-1.3-6TL 28N T 119.8/29.7
L6 6200007710 S.COL LQW2BHN27NJ01L T 114/28.4
L7 6200005260 S.COL LL1608-F68NK T 101.8/22.7
L15 6200008170 S.COL 0.35-1.6-8TL 54N T 112.7/9.1
L16 6200008260 S.COL 0.30-1.7-8TL 60N B 111.4/3.2
L18 6200009930 S.COL C2012C-68NG T 107.2/5.2
L19 6200009890 S.COL C2012C-82NG T 102.7/3.5
L20 6200003270 S.COL NL 252018T-R56J B 97.1/17.1
L24 6200004870 S.COL ELJFC 2R7K-F B 110/12.9
L26 6200003590 S.COL EXCCL3225U1 T 117.5/33.8
L29 6200009530 S.COL ELJRE R15G-F3 B 94.2/12.6
L32 6200008490 S.COL 0.30-0.9-3TR 7.5N T 120.9/19
L37 6200006990 S.COL ELJRE 56NG-F T 93.2/21.1
L38 6200007870 S.COL ELJRF 39NJF2 (39) B 90.6/13.9
L40 6200009350 S.COL ELJRE R22G-F3 B 86.9/21.6
L41 6200011030 S.COL ELJRF R10JF2 (0.1) B 82.9/20.6
L42 6200011000 S.COL ELJRF 56NJF2 (56) B 85.7/30
L43 6200007000 S.COL ELJRE 82NG-F T 88.4/36.8
L44 6200010100 S.COL C2012C-33NG B 76.9/25.8
L45 6200010210 S.COL C2012C-22NG B 81/25.9
L46 6200001980 S.COL NL 252018T-1R0J B 79.4/31.2
L47 6200008500 S.COL 0.30-1.3-6TL 28N B 119.9/17.4
L48 6200005690 S.COL ELJRE 18NG-F T 113.8/23.2
L49 6200005690 S.COL ELJRE 18NG-F T 105.6/20.8
L50 6200003270 S.COL NL 252018T-R56J B 98.2/31.1
L51 6200004480 S.COL MLF1608D R82K-T T 96.1/35.7
L55 6200003540 S.COL MLF1608D R22K-T T 94.2/34.9
L56 6200010330 S.COL C2012C-R18G B 110/6.5
L57 6200009930 S.COL C2012C-68NG B 100.8/11.4
L58 6200010540 S.COL C2012C-47NG T 113.4/5.9
L59 6200007870 S.COL ELJRF 39NJF2 (39) B 91.8/12.9
R1 7030003670 S.RES ERJ3GEYJ 823 V (82 kΩ) T 118.5/6.7
R5 7030003240 S.RES ERJ3GEYJ 220 V (22
Ω) T 114.6/21.2
R7 7030004990 S.RES ERJ2GEJ 221 X (220 Ω) T 108.3/20.6
R10 7030007260 S.RES ERJ2GEJ 330 X (33 Ω) T 98.7/18.9
R11 7030007300 S.RES ERJ2GEJ 332 X (3.3 kΩ) T 98/21.9
R12 7030007300 S.RES ERJ2GEJ 332 X (3.3 kΩ) T 100.5/22.3
R13 7030007260 S.RES ERJ2GEJ 330 X (33 Ω) T 100.8/24.9
R14 7030005040 S.RES ERJ2GEJ 472 X (4.7 kΩ) T 96.7/20.5
R15 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) T 95.4/19.9
R16 7030005300 S.RES ERJ2GEJ 150 X (15 Ω) T 95.4/20.9
R20 7030005220 S.RES ERJ2GEJ 223 X (22 kΩ) B 87.2/28.6
R21 7030007290 S.RES ERJ2GEJ 222 X (2.2 kΩ) B 85.2/28.6
R30 7030008400 S.RES ERJ2GEJ 182 X (1.8 kΩ) T 86.7/19.9
R44 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) T 74.9/17.9
R48 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 78.2/35.7
R49 7030010040 S.RES ERJ2GE-JPW B 80.7/37
R50 7030005700 S.RES ERJ2GEJ 274 X (270 kΩ) B 79.7/37
R52 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) T 108.5/11.7
R53 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) T 109.2/13
R54 7030008300 S.RES ERJ2GEJ 184 X (180 kΩ) T 104/16.5
R57 7030005110 S.RES ERJ2GEJ 224 X (220 kΩ) T 109.9/4.3
R59 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) B 106.2/7
S.=Surface mount
[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
6-1 IC-V82
S.=Surface mount
6 - 2
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
[MAIN UNIT]
REF ORDER DESCRIPTION M. H/V
NO. NO.
LOCATION
[MAIN UNIT]
REF ORDER DESCRIPTION M. H/V
NO. NO.
LOCATION
R61 7030005530 S.RES ERJ2GEJ 100 X (10 Ω) T 107.6/7.3
R64 7030005110 S.RES ERJ2GEJ 224 X (220 kΩ) T 103.6/6.1
R66 7030005110 S.RES ERJ2GEJ 224 X (220 kΩ) T 101.1/4.1
R68 7030005040 S.RES ERJ2GEJ 472 X (4.7 kΩ) B 92.2/15.9
R69 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) B 92.7/18.2
R70 7030008300 S.RES ERJ2GEJ 184 X (180 kΩ) B 98/13
R71 7030005000 S.RES ERJ2GEJ 471 X (470 Ω) B 96.2/19.8
R72 7030005310 S.RES ERJ2GEJ 124 X (120 kΩ) B 101.5/14.4
R75 7030004990 S.RES ERJ2GEJ 221 X (220 Ω) B 101.4/17
R77 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) B 93.2/20.1
R79 7030007280 S.RES ERJ2GEJ 331 X (330 Ω) B 95/30.2
R80 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 95.9/32
R81 7030005000 S.RES ERJ2GEJ 471 X (470 Ω) B 102.5/30.9
R82 7030008410 S.RES ERJ2GEJ 392 X (3.9 kΩ) T 97.9/30.2
R83 7030005000 S.RES ERJ2GEJ 471 X (470 Ω) T 98.4/31.8
R84 7030009280 S.RES ERJ2GEJ 391 X (390 Ω) T 105/32.8
R85 7030005030 S.RES ERJ2GEJ 152 X (1.5 kΩ) T 102.9/38
R86 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) T 98.2/38.4
R87 7030007290 S.RES ERJ2GEJ 222 X (2.2 kΩ) T 97.2/40.4
R88 7030005060 S.RES ERJ2GEJ 333 X (33 kΩ) T 96.2/38.4
R93 7030005600 S.RES ERJ2GEJ 273 X (27 kΩ) B 104.6/18
R94 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) B 107.9/12.4
R95 7030007310 S.RES ERJ2GEJ 155 X (1.5 MΩ) B 108.5/15
R97 7030005110 S.RES ERJ2GEJ 224 X (220 kΩ) T 89.1/15.8
R98 7030005100 S.RES ERJ2GEJ 154 X (150 kΩ) T 80.2/17.5
R99 7030008300 S.RES ERJ2GEJ 184 X (180 kΩ) B 105.1/16
R100 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 105/10.9
R101 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) B 34.7/12.6
R102 7030005530 S.RES ERJ2GEJ 100 X (10 Ω) B 35.9/13.1
R103 7030008010 S.RES ERJ2GEJ 123 X (12 kΩ) B 31.5/13.7
R104 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 104.9/15
R105 7030005000 S.RES ERJ2GEJ 471 X (470 Ω) T 98.2/16.8
R107 7030005100 S.RES ERJ2GEJ 154 X (150 kΩ) T 80.7/16
R108 7030005110 S.RES ERJ2GEJ 224 X (220 kΩ) T 99.2/15.2
R112 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) T 88.5/13.8
R113 7030005070 S.RES ERJ2GEJ 683 X (68 kΩ) T 80.7/14.9
R114 7030008290 S.RES ERJ2GEJ 183 X (18 kΩ) T 97.6/13.7
R115 7030005310 S.RES ERJ2GEJ 124 X (120 kΩ) T 96.7/12.7
R117 7030005030 S.RES ERJ2GEJ 152 X (1.5 kΩ) T 96.7/11.7
R120 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 62.6/20.4
R121 7030005030 S.RES ERJ2GEJ 152 X (1.5 kΩ) B 65.9/20.4
R122 7030009140 S.RES ERJ2GEJ 272 X (2.7 kΩ) B 65.3/16.2
R123 7030005290 S.RES ERJ2GEJ 682 X (6.8 kΩ) B 66.9/20.4
R126 7030005310 S.RES ERJ2GEJ 124 X (120 kΩ) B 63.5/8.1
R127 7030007260 S.RES ERJ2GEJ 330 X (33 Ω) B 67.4/14.6
R128 7030005530 S.RES ERJ2GEJ 100 X (10 Ω) B 73.8/4.4
R130 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 29.6/10.6
R131 7030008400 S.RES ERJ2GEJ 182 X (1.8 kΩ) B 26.5/10.5
R132 7030005000 S.RES ERJ2GEJ 471 X (470 Ω) B 93.7/2
R136 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) B 23.5/40.9
R137 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) B 20.6/16.9
R139 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 110.5/35
R141 7030007290 S.RES ERJ2GEJ 222 X (2.2 kΩ) B 107.2/32.1
R144 7030005220 S.RES ERJ2GEJ 223 X (22 kΩ) B 82.4/3.1
R148 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 29.9/14.1
R150 7030005000 S.RES ERJ2GEJ 471 X (470 Ω) B 69.5/27.9
R155 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) T 67.7/1.9
R159 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 105/11.9
R160 7030003340 S.RES ERJ3GEYJ 151 V (150 Ω) B 109.2/9.5
R161 7030005220 S.RES ERJ2GEJ 223 X (22 kΩ) T 111.8/14
R162 7030005220 S.RES ERJ2GEJ 223 X (22 kΩ) T 111.8/15
R163 7030007290 S.RES ERJ2GEJ 222 X (2.2 kΩ) T 111.8/13
R164 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 26.9/28.9
R169 7030007350 S.RES ERJ2GEJ 393 X (39 kΩ) T 76.3/18.2
R170 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) T 79.4/13.5
R174 7030007340 S.RES ERJ2GEJ 153 X (15 kΩ) T 93.4/2.8
R176 7030008410 S.RES ERJ2GEJ 392 X (3.9 kΩ) B 103.3/17.5
R177 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) T 100.2/16.5
R178 7030005110 S.RES ERJ2GEJ 224 X (220 kΩ) B 107.1/15.5
R181 7030010080 S.RES ERJ2RHD 104 X (100 kΩ) B 45.4/8.2
R182 7510001660 S.TMR NTCG16 4LH 473KT B 49.8/8.8
R184 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) T 75.3/29.9
R185 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) T 76/25.9
R186 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) T 74.7/22.4
R187 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 104.8/7.7
R193 7030005720 S.RES ERJ2GEJ 563 X (56 kΩ) B 50.2/12
R194 7030005720 S.RES ERJ2GEJ 563 X (56 kΩ) B 48.6/12.4
R195 7030005720 S.RES ERJ2GEJ 563 X (56 kΩ) B 48.8/13.4
R196 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 49.3/10.9
R204 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) T 65.2/3.5
R205 7030005040 S.RES ERJ2GEJ 472 X (4.7 kΩ) T 66.4/1.9
R210 7030008410 S.RES ERJ2GEJ 392 X (3.9 kΩ) T 108.7/14.3
R222 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) T 106.4/2.6
R224 7030007350 S.RES ERJ2GEJ 393 X (39 kΩ) B 47.7/9.2
R225 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 25.8/17.2
R227 7030008410 S.RES ERJ2GEJ 392 X (3.9 kΩ) B 47.8/10.4
R228 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 25.8/16.2
R240 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) B 29.9/15.8
R244 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 102.5/31.9
R245 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 32.5/17.7
R246 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 36.1/14.3
R251 7030005230 S.RES ERJ2GEJ 334 X (330 kΩ) T 105.5/18.6
R252 7030005310 S.RES ERJ2GEJ 124 X (120 kΩ) B 109/2.2
R257 7030010040 S.RES ERJ2GE-JPW T 88.1/16.8
R258 7030008300 S.RES ERJ2GEJ 184 X (180 kΩ) T 107.8/3.2
R259 7030005110 S.RES ERJ2GEJ 224 X (220 kΩ) B 103.6/2.9
R260 7030005220 S.RES ERJ2GEJ 223 X (22 kΩ) B 109.7/34
R261 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 115.5/35.2
R262 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) B 98.6/20.3
R266 7030007340 S.RES ERJ2GEJ 153 X (15 kΩ) B 23.9/17.4
R318 7030005070 S.RES ERJ2GEJ 683 X (68 kΩ) B 51.4/37.2
R319 7030005070 S.RES ERJ2GEJ 683 X (68 kΩ) B 47.4/36.1
R320 7030007340 S.RES ERJ2GEJ 153 X (15 kΩ) B 47.4/37.1
R321 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 50.2/38.3
R323 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 45.4/37.9
R324 7030007570 S.RES ERJ2GEJ 122 X (1.2 kΩ) B 45.7/39.6
R325 7030005070 S.RES ERJ2GEJ 683 X (68 kΩ) B 49.3/40.6
R326 7030005070 S.RES ERJ2GEJ 683 X (68 kΩ) B 51.4/39.1
R327 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 45.1/36.6
R328 7030005110 S.RES ERJ2GEJ 224 X (220 kΩ) B 101/28.4
R329 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 100.5/30
R330 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 117.6/37.5
R331 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 119.4/38.8
R332 7030005290 S.RES ERJ2GEJ 682 X (6.8 kΩ) B 119.2/35
R333 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) B 122.8/30.4
R334 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) B 120.8/34.2
R335 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) B 117.9/35.7
R336 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 49.2/38.3
R337 7030007310 S.RES ERJ2GEJ 155 X (1.5 MΩ) T 88/18.6
R340 7030005040 S.RES ERJ2GEJ 472 X (4.7 kΩ) T 113.9/18.5
R341 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) T 115.4/18.6
R346 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 30.9/15.8
R357 7030007340 S.RES ERJ2GEJ 153 X (15 kΩ) T 112.1/18.5
R358 7030005600 S.RES ERJ2GEJ 273 X (27 kΩ) T 110.6/20
R362 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 29.8/32.3
R363 7030007300 S.RES ERJ2GEJ 332 X (3.3 kΩ) B 11.4/41.9
R364 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 10.1/40.1
R367 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) B 15.5/30.7
R368 7030005110 S.RES ERJ2GEJ 224 X (220 kΩ) B 15/32
R369 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) B 31.8/40.6
R370 7030005170 S.RES ERJ2GEJ 474 X (470 kΩ) B 33.1/40.1
R371 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) B 10.1/24.8
R372 7030009290 S.RES ERJ2GEJ 562 X (5.6 kΩ) B 9.1/26.5
R373 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 13.2/23
R374 7030005010 S.RES ERJ2GEJ 681 X (680 Ω) B 12.2/23
R375 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) B 10.1/28.3
R376 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) B 17.2/30
R377 7030008300 S.RES ERJ2GEJ 184 X (180 kΩ) B 38.7/38.8
R378 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 38.7/40.4
R379 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 38.7/41.9
R380 7030005170 S.RES ERJ2GEJ 474 X (470 kΩ) B 40.3/41.9
R381 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 27.1/42.3
R382 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 26.9/27.9
R384 7030005060 S.RES ERJ2GEJ 333 X (33 kΩ) B 22.6/5.9
R385 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 20.9/5.2
R386 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 17.4/32.7
R387 7030007300 S.RES ERJ2GEJ 332 X (3.3 kΩ) B 98.2/28.9
R388 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) T 92.3/24.9
R389 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 99.4/22.8
R397 7030008400 S.RES ERJ2GEJ 182 X (1.8 kΩ) T 96.9/16
R398 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 35.8/8.6
R402 7030010040 S.RES ERJ2GE-JPW T 89.9/29.1
R405 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 60.2/7.7
R406 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 57.2/5.7
R413 7030010040 S.RES ERJ2GE-JPW T 106/16.6
R417 7030010040 S.RES ERJ2GE-JPW B 90.9/18.5
R418 7030010040 S.RES ERJ2GE-JPW B 90.1/15.2
R419 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) B 89.7/16.4
R420 7030007290 S.RES ERJ2GEJ 222 X (2.2 kΩ) T 90.1/18.7
R421 7030010040 S.RES ERJ2GE-JPW T 89.6/19.9
R422 7030005000 S.RES ERJ2GEJ 471 X (470 Ω) B 85.8/20.2
R423 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 85.2/22.2
R424 7030005040 S.RES ERJ2GEJ 472 X (4.7 kΩ) B 86.3/24.8
R425 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) B 84.6/25.2
R426 7030005000 S.RES ERJ2GEJ 471 X (470 Ω) B 79.4/20.6
R427 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 81.6/20.1
R428 7030008410 S.RES ERJ2GEJ 392 X (3.9 kΩ) B 81.6/22.7
R429 7030005710 S.RES ERJ2GEJ 121 X (120 Ω) B 81.1/21.4
R430 7030007250 S.RES ERJ2GEJ 220 X (22 Ω) B 86.3/25.8
R431 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 87.3/27.6
R432 7030007320 S.RES ERJ2GEJ 225 X (2.2 MΩ) T 90.9/37.9
R433 7030004970 S.RES ERJ2GEJ 470 X (47 Ω) B 77.9/19.6
R434 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 75.9/20.9
R435 7030009270 S.RES ERJ2GEJ 821 X (820 Ω) B 80.6/23.3
R436 7030007350 S.RES ERJ2GEJ 393 X (39 kΩ) B 77.5/24.2
R437 7030005040 S.RES ERJ2GEJ 472 X (4.7 kΩ) B 79.5/28.9
R438 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) B 80.5/29.2
R439 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 81.5/29.2
R440 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 76.9/29.5
R441 7030007320 S.RES ERJ2GEJ 225 X (2.2 MΩ) T 80/30.2
R442 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) T 78.8/30.7
R443 7030005220 S.RES ERJ2GEJ 223 X (22 kΩ) T 75.6/32.7
R444 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) T 75.6/33.7
R445 7030009290 S.RES ERJ2GEJ 562 X (5.6 kΩ) T 78.8/32.4
R446 7030005010 S.RES ERJ2GEJ 681 X (680 Ω) T 75.6/31.2
R447 7030005010 S.RES ERJ2GEJ 681 X (680 Ω) T 81.7/25.8
R448 7030007570 S.RES ERJ2GEJ 122 X (1.2 kΩ) T 83/26.7
R449 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) T 83/28.4
R455 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 95.5/33.3
R456 7030010040 S.RES ERJ2GE-JPW B 95.5/34.3
[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
S.=Surface mount
6 - 3
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
[MAIN UNIT]
REF ORDER DESCRIPTION M. H/V
NO. NO.
LOCATION
[MAIN UNIT]
REF ORDER DESCRIPTION M. H/V
NO. NO.
LOCATION
R457 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) T 75.8/37.6
R458 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) T 77.3/36.9
R459 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) T 74.7/36.5
R460 7030008290 S.RES ERJ2GEJ 183 X (18 kΩ) T 81/36.7
R463 7030007060 S.RES ERJ2GEJ 684X (680 kΩ) T 93.2/32.2
R465 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) T 91.9/32.7
R466 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) T 106.3/6.8
R467 7030005110 S.RES ERJ2GEJ 224 X (220 kΩ) T 102.8/8.8
R469 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) B 89.5/35.4
R473 7030010040 S.RES ERJ2GE-JPW
[EX1], [CS1], [EX2], [CS2], [CS3], [EX4] B 54.2/29.3
R474 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 31.9/15.4
R475 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 36.1/15.3
R476 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 28.8/32.3
R477 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) B 27.8/32.3
R478 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 26.9/29.9
R479 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 26.9/30.9
R480 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) B 20.6/17.9
R482 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) B 25.1/32.4
R483 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) B 25.1/31.4
R484 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) B 25.1/30.4
R485 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) B 9.1/40.1
R486 7030005160 S.RES ERJ2GEJ 105 X (1 MΩ) T 94.4/11.1
R487 7030005220 S.RES ERJ2GEJ 223 X (22 kΩ) T 76/36
R488 7030005220 S.RES ERJ2GEJ 223 X (22 kΩ) T 79.3/35.5
R489 7030005220 S.RES ERJ2GEJ 223 X (22 kΩ) T 77.1/38.2
R491 7030005110 S.RES ERJ2GEJ 224 X (220 kΩ) B 45/10.4
R492 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) B 44.3/9.4
R493 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) B 44.2/8.4
R494 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) B 40.1/11.2
R495 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) B 40.8/8.1
R496 7030007340 S.RES ERJ2GEJ 153 X (15 kΩ) B 19.2/31.2
R497 7030007320 S.RES ERJ2GEJ 225 X (2.2 MΩ) B 20.2/27.7
R498 7030005080 S.RES ERJ2GEJ 823 X (82 kΩ) B 19/27.3
R499 7030005080 S.RES ERJ2GEJ 823 X (82 kΩ) B 19/25.7
R500 7030010010 S.RES ERJ2RKF 334 X (330 kΩ) B 37.4/10.4
R501 7030005471 S.RES ERA3YKD 244V (240 kΩ) B 38/8.5
R502 7030005120 S.RES ERJ2GEJ 102 X (1 kΩ) B 37.6/12.4
R503 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) T 108.8/9.6
R504 7030005220 S.RES ERJ2GEJ 223 X (22 kΩ) T 78.1/39.4
R505 7030007270 S.RES ERJ2GEJ 151 X (150 Ω) T 91.6/29.9
R506 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 38.3/37.6
R507 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 37.8/36.3
R508 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 20.6/15.9
R509 7030005170 S.RES ERJ2GEJ 474 X (470 kΩ) B 20.2/14.6
R510 7030005240 S.RES ERJ2GEJ 473 X (47 kΩ) B 18.1/16.4
R511 7030008300 S.RES ERJ2GEJ 184 X (180 kΩ) B 16.6/14.6
R512 7030004970 S.RES ERJ2GEJ 470 X (47 Ω) T 107.3/20.6
R513 7030005070 S.RES ERJ2GEJ 683 X (68 kΩ) B 65.8/14.6
R514 7030004980 S.RES ERJ2GEJ 101 X (100 Ω) B 78.5/37.1
R515 7030010040 S.RES ERJ2GE-JPW [EU1] only B 25.3/41.7
R516 7030005310 S.RES ERJ2GEJ 124 X (120 kΩ) B 96.7/15.1
R517 7030005090 S.RES ERJ2GEJ 104 X (100 kΩ) B 95.7/15.1
R518 7030005050 S.RES ERJ2GEJ 103 X (10 kΩ) T 75.8/38.6
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
C96 4030017680 S.CER ECJ0EC1H820J B 101.7/4.4
C97 4030017340 S.CER ECJ0EC1H010B B 102.7/4.2
C99 4030017460 S.CER ECJ0EB1E102K B 92.2/16.9
C102 4030017600 S.CER ECJ0EC1H080C B 93/12.3
C104 4030017460 S.CER ECJ0EB1E102K B 100.1/16.6
C105 4030016790 S.CER ECJ0EB1C103K B 100.1/17.6
C106 4030017390 S.CER ECJ0EC1H180J B 96.2/18.8
C107 4030017460 S.CER ECJ0EB1E102K B 94.5/17.6
C108 4030016790 S.CER ECJ0EB1C103K B 94.5/16.6
C111 4030016790 S.CER ECJ0EB1C103K B 93.1/32.3
C112 4030017460 S.CER ECJ0EB1E102K T 97.4/32.8
C113 4030017460 S.CER ECJ0EB1E102K T 97.1/31.2
C114 4030017040 S.CER ECJ0EB1A333K T 102.1/29
C115 4030017460 S.CER ECJ0EB1E102K B 99.6/33.6
C116 4030017680 S.CER ECJ0EC1H820J T 101.1/28.9
C117 4030017460 S.CER ECJ0EB1E102K T 95.5/30.3
C118 4030016790 S.CER ECJ0EB1C103K T 102.9/39
C119 4030018860 S.CER ECJ0EB0J105K T 93.5/29.9
C120 4030016930 S.CER ECJ0EB1A104K T 100.4/38.2
C121 4030017440 S.CER ECJ0EC1H221J T 97.2/39.4
C122 4030017440 S.CER ECJ0EC1H221J T 97.2/37.4
C123 4030017460 S.CER ECJ0EB1E102K B 70.8/38.6
C124 4030016790 S.CER ECJ0EB1C103K B 104.6/17
C125 4030017760 S.CER ECJ0EB1H222K B 109.5/16
C126 4030018110 S.CER ECJ0EB1H272K B 110.5/16
C128 4030016930 S.CER ECJ0EB1A104K T 81.4/13.5
C129 4550002960 S.TAN TEESVA 1C 155M8L B 104.9/13.4
C131 4030016790 S.CER ECJ0EB1C103K T 88.1/11.7
C132 4030018240 S.CER ECJ0EB1E562K B 23.9/15.8
C133 4030016930 S.CER ECJ0EB1A104K T 96.9/17.3
C134 4030017440 S.CER ECJ0EC1H221J T 98.2/15.2
C135 4030017450 S.CER ECJ0EB1E271K T 98/12.2
C136 4030018240 S.CER ECJ0EB1E562K T 96/13.7
C137 4030017040 S.CER ECJ0EB1A333K T 95.4/12.2
C138 4030017460 S.CER ECJ0EB1E102K B 104.6/3
C139 4030018860 S.CER ECJ0EB0J105K B 63.8/20.4
C144 4030017460 S.CER ECJ0EB1E102K B 30.2/17.4
C145 4510008540 S.ELE EEE1CA100SR B 61.8/11
C147 4030016950 S.CER ECJ0EB1A473K B 30.6/10.6
C149 4030016790 S.CER ECJ0EB1C103K B 63.5/6.1
C150 4550000460 S.TAN TEESVA 1C 105M8L B 68.9/16.1
C152 4030016950 S.CER ECJ0EB1A473K B 72.5/3.9
C153 4510008500 S.ELE EEE1CA101WP B 80.8/11.1
C154 4550006220 S.TAN TEESVA 0J 156M8L B 27.2/6.8
C161 4030016790 S.CER ECJ0EB1C103K B 111.6/31.5
C162 4030016790 S.CER ECJ0EB1C103K B 109.2/35.3
C163 4030017460 S.CER ECJ0EB1E102K B 83.4/3.1
C164 4030017460 S.CER ECJ0EB1E102K B 72/2.6
C165 4030017460 S.CER ECJ0EB1E102K B 92.6/7.4
C166 4030017460 S.CER ECJ0EB1E102K B 93.7/4
C167 4030017420 S.CER ECJ0EC1H470J B 93.7/5
C168 4030017460 S.CER ECJ0EB1E102K B 92.1/9.4
C169 4030017460 S.CER ECJ0EB1E102K B 84.2/6.8
C171 4030016930 S.CER ECJ0EB1A104K B 65.5/5.9
C173 4510008500 S.ELE EEE1CA101WP B 111.8/39.9
C174 4510008660 S.ELE EEE0JA220SR B 117.5/32
C179 4030016790 S.CER ECJ0EB1C103K T 106/17.6
C193 4030017530 S.CER ECJ0EC1H0R5B B 33.5/13.6
C194 4030017600 S.CER ECJ0EC1H080C B 35.5/11.6
C195 4030017500 S.CER ECJ0EC1H560J B 33/12.6
C197 4030016930 S.CER ECJ0EB1A104K B 33.1/14.8
C199 4030016930 S.CER ECJ0EB1A104K B 46.5/11
C204 4030017460 S.CER ECJ0EB1E102K B 111.4/8.4
C205 4030006860 S.CER C1608 JB 1H 102K-T B 114.6/13.2
C209 4030016930 S.CER ECJ0EB1A104K B 29/8.8
C212 4030016790 S.CER ECJ0EB1C103K T 79/17.9
C213 4550002890 S.TAN TEESVA 1A 225M8L T 77.3/16.4
C214 4030017040 S.CER ECJ0EB1A333K T 80.4/13.5
C216 4030018920 S.CER ECJ0EB1H392K B 39.6/37.2
C217 4030016930 S.CER ECJ0EB1A104K T 101.2/17.5
C219 4030017040 S.CER ECJ0EB1A333K B 46.4/8.7
C230 4030017030 S.CER ECJ0EB1A273K B 27.4/16.1
C232 4030016930 S.CER ECJ0EB1A104K B 49.9/9.9
C233 4030017460 S.CER ECJ0EB1E102K T 74.7/21.4
C234 4030017460 S.CER ECJ0EB1E102K T 75.7/24.6
C236 4030016790 S.CER ECJ0EB1C103K B 67.9/27.9
C243 4030017460 S.CER ECJ0EB1E102K B 112.3/16.5
C244 4030016790 S.CER ECJ0EB1C103K B 65.7/29.4
C245 4030016790 S.CER ECJ0EB1C103K B 59.5/38.7
C249 4030016790 S.CER ECJ0EB1C103K B 50.9/41.1
C251 4030017460 S.CER ECJ0EB1E102K T 111.8/16
C252 4030017460 S.CER ECJ0EB1E102K T 113.1/13.5
C277 4030017580 S.CER ECJ0EC1H060C B 108.8/4.4
C278 4030007040 S.CER C1608 CH 1H 180J-T B 114.6/14.5
C281 4030010760 S.CER C1608 CH 1H 331J-T B 118/16.1
C282 4030017460 S.CER ECJ0EB1E102K T 109.4/34.2
C283 4030017760 S.CER ECJ0EB1H222K T 119.8/34.9
C285 4030009650 S.CER C1608 CH 1H 240J-T B 116.7/16.3
C287 4030007050 S.CER C1608 CH 1H 220J-T B 121.4/14.6
C288 4030017460 S.CER ECJ0EB1E102K B 111.4/9.4
C289 4030017460 S.CER ECJ0EB1E102K T 121.5/30.1
C293 4030016930 S.CER ECJ0EB1A104K T 82.3/37.2
C296 4030017730 S.CER ECJ0EB1E471K B 35.8/10.6
C297 4030016790 S.CER ECJ0EB1C103K B 35.8/9.6
[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
S.=Surface mount
6 - 4
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
[MAIN UNIT]
REF ORDER DESCRIPTION M. H/V
NO. NO.
LOCATION
[MAIN UNIT]
REF ORDER DESCRIPTION M. H/V
NO. NO.
LOCATION
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
C487 4030017420 S.CER ECJ0EC1H470J T 83.6/36.7
C488 4030017730 S.CER ECJ0EB1E471K T 85.4/36.7
C489 4030017460 S.CER ECJ0EB1E102K T 91.4/27.9
C491 4030017500 S.CER ECJ0EC1H560J T 94.6/37.1
C492 4030017570 S.CER ECJ0EC1H040B T 94.6/36.1
C493 4030017460 S.CER ECJ0EB1E102K T 92.3/23.9
C496 4030016790 S.CER ECJ0EB1C103K T 93.3/36.4
C497 4030017380 S.CER ECJ0EC1H050B T 91.9/31.2
C499 4030017360 S.CER ECJ0EC1H030B T 106.4/3.6
C500 4030018860 S.CER ECJ0EB0J105K T 108.7/7.3
C502 4030017350 S.CER ECJ0EC1H020B B 103.8/6.7
C503 4030017340 S.CER ECJ0EC1H010B B 102.8/6.7
C504 4030017340 S.CER ECJ0EC1H010B B 102.8/8.3
C505 4030017430 S.CER ECJ0EC1H101J T 103.5/9.8
C506 4030017460 S.CER ECJ0EB1E102K T 93.8/9.8
C507 4030017350 S.CER ECJ0EC1H020B B 101.7/9.2
C509 4030017460 S.CER ECJ0EB1E102K B 89/36.8
C510 4030007120 S.CER C1608 CH 1H 820J-T T 119.2/17.7
C511 4030017460 S.CER ECJ0EB1E102K B 101.5/22.2
C512 4030017460 S.CER ECJ0EB1E102K T 108.3/17.1
C514 4030018520 S.CER C1608 JB 0J 225M-T B 30.6/12.6
C515 4030016930 S.CER ECJ0EB1A104K B 34.1/14.8
C516 4030007030 S.CER C1608 CH 1H 150J-T T 116.4/5.9
C517 4030018860 S.CER ECJ0EB0J105K B 13.5/13.3
C518 4030017460 S.CER ECJ0EB1E102K T 81/31.2
C519 4340000260 S.MLR ECPU 1C 104MA5 B 82.8/31.4
C521 4030017460 S.CER ECJ0EB1E102K T 91.7/34.9
C522 4030018860 S.CER ECJ0EB0J105K B 77.2/39.1
C523 4030018860 S.CER ECJ0EB0J105K B 78.2/39.1
C524 4030017460 S.CER ECJ0EB1E102K B 42.6/9.2
C525 4030017460 S.CER ECJ0EB1E102K B 41.6/9.3
C526 4030017460 S.CER ECJ0EB1E102K B 40.6/9.9
C527 4030017460 S.CER ECJ0EB1E102K B 39.4/9.4
C528 4030017460 S.CER ECJ0EB1E102K B 18.6/29.5
C529 4030017720 S.CER ECJ0EB1H331K B 20.2/26.7
C530 4030018860 S.CER ECJ0EB0J105K B 20/24.8
C531 4030016790 S.CER ECJ0EB1C103K B 38.9/11.8
C532 4030017460 S.CER ECJ0EB1E102K B 21.5/27.3
C533 4030017400 S.CER ECJ0EC1H220J B 97.6/26.6
C534 4030017650 S.CER ECJ0EC1H270J B 90.2/12.9
C535 4030016930 S.CER ECJ0EB1A104K B 15.6/13.8
C536 4030009510 S.CER C1608 CH 1H 010B-T T 117.2/15.3
C537 4030009510 S.CER C1608 CH 1H 010B-T T 116.9/13.4
C538 4030017460 S.CER ECJ0EB1E102K B 100.4/13
C539 4030017460 S.CER ECJ0EB1E102K B 95.6/12.3
C540 4030017780 S.CER ECJ0EB1E472K B 63.9/5.1
J2 6450001680 CNR HSJ1122-010010
J3 6450002250 CNR HSJ1456-010320
J5 6510021970 S.CNR AXN330C130P B 23.8/36.6
J6 6510021900 S.CNR BM02B-ASRS-TF T 71.5/3.9
J7 6510024580 S.CNR HSJ1621-019011 B 12.6/1.9
DS2 5010000160 S.LED LNJ310M6URA T 64.1/38.8
DS3 5010000160 S.LED LNJ310M6URA T 64.1/7
DS4 5030002800 LCD LCD A01B001X
MC1 7700002160 MIC KUC3523-040245
S3 2260002840 SW SKHLLFA010
S801 7600000210 ECR TP70N00E20-15F-1903
EP1 0910058722 PCB B 6221B
EP5 6910012350 S.BEA MMZ1608Y 102BT T 101.2/9.4
EP6 6910012350 S.BEA MMZ1608Y 102BT B 20.8/42.3
EP7 6910012350 S.BEA MMZ1608Y 102BT B 22.1/42.3
EP9 6910012350 S.BEA MMZ1608Y 102BT B 5.1/9.1
EP10 6910012350 S.BEA MMZ1608Y 102BT B 7.1/12
EP11 6910012350 S.BEA MMZ1608Y 102BT B 5.1/6.3
EP12 8930064900 LCT SRCN-2826-SP-N-W
[CHASSIS UNIT]
REF ORDER DESCRIPTION M. H/V
NO. NO.
LOCATION
J1 6510022460 CNR BNC-R162
SP1 2510001280 SP SDRS-3650P-008A
W1 8900009640 CBL OPC-963
[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
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7
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