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Transcript 
SERVICE
MANUAL
COMMUNICATIONS RECEIVER
INTRODUCTION
This service manual describes the latest service information
for the IC-R2 at the time of publication.
MODEL
VERSION
Europe
Italy
Taiwan
U.S.A.
Canada
IC-R2
SYMBOL
EUR
ITA
TPE
USA
CAN
OTH
OTH-1
Other
To upgrade quality, all electrical or mechanical parts and
internal circuits are subject to change without notice or obligation.
DANGER
NEVER connect the receiver to an AC outlet or to a DC
power supply that uses more than 3.5 V. Such a connection
could cause a fire hazard and/or electric.
DO NOT expose the receiver to rain, snow or any liquids.
DO NOT reverse the polarities of the power supply when
connecting the receiver.
DO NOT apply an RF signal of more than 20 dBm (100mW)
to the antenna connector. This could damage the receiver's front end.
ORDERING PARTS
Be sure to include the following four points when ordering
replacement parts:
1.
2.
3.
4.
10-digit order numbers
Component part number and name
Equipment model name and unit name
Quantity required
<SAMPLE ORDER>
8930046581
LCD Contact
IC-R2
8810009560 Screw PH BO M2x6 ZK IC-R2
LOGIC UNIT 5 pieces
Chassis
10 pieces
Addresses are provided on the inside back cover for your
convenience.
REPAIR NOTES
1.
2.
3.
4.
5.
6.
Make sure a problem is internal before disassembling the receiver.
DO NOT open the receiver until the receiver is disconnected from its power source.
DO NOT force any of the variable components. Turn them slowly and smoothly.
DO NOT short any circuits or electronic parts. An insulated turning tool MUST be used for all adjustments.
DO NOT keep power ON for a long time when the receiver is defective.
READ the instructions of test equipment thoroughly before connecting equipment to the receiver.
TABLE OF CONTENTS
SECTION
1
SPECIFICATIONS
SECTION
2
INSIDE VIEWS
SECTION
3
DISASSEMBLY INSTRUCTIONS
SECTION
4
CIRCUIT DESCRIPTION
SECTION
4-1
RECEIVER CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-1
4-2
PLL CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-3
4-3
POWER SUPPLY CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-4
4-4
PORT ALLOCATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-4
5
ADJUSTMENT PROCEDURES
5-1
PREPARATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-1
5-2
PLL ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-3
5-3
RECEIVER ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-5
SECTION
6
PARTS LIST
SECTION
7
MECHANICAL PARTS AND DISASSEMBLY
SECTION
8
SEMI-CONDUCTOR INFORMATION
SECTION
9
BOARD LAYOUTS
9-1
LOGIC UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9-1
9-2
RF UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9-3
SECTION
10 BLOCK DIAGRAM
SECTION
11
VOLTAGE DIAGRAM
11-1
LOGIC UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11-1
11-2
RF UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11-2
SECTION 1
M
SPECIFICATIONS
M
GENERAL
• Frequency range
Version
EUR, U.K.,
CAN, OTH,
OTH-1
• Receiver system
• Intermediate frequency
:
Receive Frequencies (MHz)
U.S.A.
0.495 – 1309.995
FM
Frequency (MHz)
WFM
—
0.495 – 1.625
0.56 µV
1.625 – 5.0
5.0 – 30.0
• Mode
• No. of memory channel
• Frequency stability
: FM, WFM, AM
: 450 channel
: ±6 ppm max.
(–10˚C to +60˚)
• Tuning steps
: 5, 6.25, 10, 12.5, 15, 20,
25, 30, 50, and 100 kHz
• Anntena Impedance
: 50 Ω
• Power supply requirement
: 2 × AA(R6) Ni-Cd or alkaline cell
• Polarity
: Negative ground
• Frequency resolution
: 5 kHz, 6.25 kHz
• Current drain (at 3.0 V)
:
Rated audio 170 mA typical
Standby
100 mA typical
Power saved 41 mA typical
• Dimensions
(projections not included)
: Tripple super heterodyne
: 1st 266.7 MHz
2nd 19.65 MHz
3rd 450 kHz
: (except spurious points)
• Sensitivity*
0.495 – 823.995
849.000 – 868.995
894.000 – 1309.995
• Usable temperature range
RECEIVER
AM
2.5 µV
—
1.8 µV
30.0 – 76.0
76.0 – 108.0
108.0 – 118.0
0.4 µV
118.0 – 136.0
1.8 µV
—
—
1.8 µV
136.0 – 175.0
1.8 µV
175.0 – 222.0
222.0 – 247.0
—
247.0 – 330.0
330.0 – 470.0
0.56 µV
470.0 – 770.0
770.0 – 833.0
833.0 – 1309.995
0.79 µV
2.5 µV
—
1.8 µV
—
—
* FM and WFM are measured at 12 dB SINAD; AM is measured
: –10˚C to +60˚C
( –14˚F to +140˚F)
: 58(W) × 86(H) × 27(D) mm;
29⁄32 (W) × 33⁄8 (H) × 11⁄16(D) in
at 10 dB S/N.
• Squelch Sensitivity
:
FM
Frequency (MHz)
• Weight (with antenna and battely) : 170 (g); 6 (oz)
• External SP connector
: 3-conductor 3.5(d) mm
(1⁄8”) / 8Ω
WFM
—
0.495 – 1.625
0.56 µV
1.625 – 5.0
5.0 – 30.0
AM
2.5 µV
—
1.8 µV
30.0 – 76.0
76.0 – 108.0
108.0 – 118.0
0.4 µV
118.0 – 136.0
5.6 µV
—
—
1.8 µV
136.0 – 175.0
5.6 µV
175.0 – 222.0
222.0 – 247.0
—
247.0 – 330.0
330.0 – 470.0
0.56 µV
470.0 – 770.0
770.0 – 833.0
833.0 – 1309.995
0.79 µV
• Selectivity
WFM
• Audio output power
1-1
1.8 µV
—
—
:
AM / FM
All stated specifications are subject to change without notice or obligation.
5.6 µV
—
more than 15 kHz / –6 dB
less than 30 kHz / –60 dB
more than 150 kHz / –6 dB
: 100 mW typical at 10 %
distortion with an 8 Ω load
SECTION 2
INSIDE VIEWS
• LOGIC UNIT
AF power amplifier
(IC15: TA31056F)
AF mute switch
(Q37: 2SJ144)
AF filter
(Q30: XP6501)
+3.2 regurater
(IC4: S-81332H)
• RF UNIT
TOP VIEW
BOTTOM VIEW
1st mixer
(IC1: µPC2757T)
2nd mixer
(IC10: µPC2757T)
IF amplifer
(Q5: 2SC5231)
FM IF IC
(IC2: TA31136FN)
PLL reference
oscillator
(X1: CR593 19.200MHz)
PLL circuit
VCO circuit
PLL IC
(IC3: µPD3140GS)
2-1
SECTION 3
DISASSEMBLY INSTRUCTIONS
• REMOVING THE REAR PANEL
• REMOVING THE LOGIC UNIT
1 Unscrew 2 screws, A.
2 Remove the rear panel in the direction of the arrow.
1 Unscrew 2 screws, G.
2 Unsolder 2 points, H, and then remove the LOGIC unit.
G
A
Rear panel
LOGIC unit
H
• REMOVING THE RF UNIT
1 Unscrew 1 screw, B.
2 Remove 1 knob, c.
Unscrew 2 nuts, D and E.
3 Unsolder 5 points, F, and then remove the RF unit.
F
B
E
RF unit
C
D
3-1
SECTION 4
CIRCUIT DESCRIPTION
4-1 RECEIVER CIRCUITS
(3) 30–117.995 MHz, 175–329.995 MHz
The 30 MHz–117.95 MHz, 175 MHz–329.995 MHz signals
pass through the low-pass filter (C40–C43, C665, C666, L9,
L10, L92), and are then applied to the RF amplifier (Q36).
The amplified signals are amplified at the RF amplifier (IC11)
via band switching diodes (D34, D71). The amplified signals
are applied to the 1st mixer circuit (IC1).
4-1-1 ANTENNA SWITCHING CIRCUIT (RF UNIT)
The RF signals from the antenna connector pass through
the limitter (D68) and an attenuator (D69). The signals are
then applied to the RF circuit the antenna switching circuit
(D13, D73, D75) which suppress out-of-band signals.
(4) 833 MHz–1309.995 MHz
The 833 MHz–1309.995 MHz signals pass through the
bandpass filter (C5, C45–51, L11–L13, L43), and are then
applied to the RF amplifier (Q26). The amplified signals are
amplified at the RF amplifier (IC11) via band switching
diodes (D36). The amplified signals are applied to 1st mixer
circuit (IC1).
4-1-2 RF CIRCUIT (RF UNIT)
The RF circuit amplifies the received signals within the
range of frequency coverage and filters out-of-band signals.
(1) 0.495 MHz–29.999 MHz
RF signals (0.495–29.999MHz) from an antenna switching
circuit (D73) pass through a low-pass filter (C511–C515,
L81, L82). The filtered signals are amplified at an RF amplifier (Q505) passing through each band-pass filter depending
on the receiving frequency. The amplified signals are then
applied to the 1st mixer circuit (IC1) after being amplified at
another RF amplifier (IC11) via the band switching
diode(D71).
4-1-3 1ST MIXER CIRCUIT (RF UNIT)
The 1st mixer circuit converts the received RF signals to a
fixed frequency of the 1st IF signal with a PLL output frequency. By changing the PLL frequency, only the desired
frequency will pass through the bandpass filters at the next
stage of the 1st mixer.
The signals below 1.9 MHz pass through a low-pass filter
(C534, C535, C657, C658, L88, L89) via the band switching
diode (D66), and are then applied to the RF amplifier circuit
(Q505) via the band switching diode (D67).
The filtered RF signals are mixed with 1st LO signals at the
1st mixer circuit (IC1) to produce a 266.7 MHz 1st IF signal.
The 1st IF signal is output from pin 6, and passed through
the bandpass filter (FI1) to suppress unwanted harmonic
components. The filtered 1st IF signal is applied to the 2nd
mixer circuit.
The 1.9 MHz–14.995 MHz signals pass through the band
switching diode (D65) and band-pass filter (C522–C531,
L85–L87, L91), and are then applied to the RF amplifier circuit (Q505) via the band switching diode (D70).
The 1st LO signals are generated at the 1st VCO (Q28, Q30,
D45) and are applied to the 1st mixer (IC1, pin 3) directly or
passing through the doubler circuit (Q31) after being amplified at the buffer amplifiers (IC4, Q40).
The 15 MHz–29.995 MHz signals pass through the band
switching diode (D63) and high-pass filter (C516–C520,
L83, L84) and are then applied to the RF amplifier circuit
(Q505) via the band switching diode (D64).
(2) 118 MHz–174.995 MHz, 330 MHz–832.995 MHz
RF signals (118 MHz–174.995 MHz, 330 MHz–832.995
MHz) from an antenna switching diode (D75) are passed
through each bandpass filter and RF amplifier, and are then
applied to the 1st mixer circuit (IC1) via the band switching
diode (D71) and RF amplifier (IC11).
4-1-4 1ST IF AND 2ND MIXER CIRCUITS (RF UNIT)
The 2nd mixer circuit converts the 1st IF signal to a 2nd IF
signal.
The filtered 266.7 MHz 1st IF signal from the bandpass filter
is mixed with the 2nd LO signal at the 2nd mixer circuit
(IC10, pin 1) to produce a 19.65 MHz 2nd IF signal. The 2nd
IF signal pass through (except WFM mode) or bypass (WFM
mode) the bandpass filter (FI3), and is then amplified at the
2nd IF amplifier (Q5). The amplified signal is applied to the
demodulator circuit.
The 118 MHz–174.995 MHz signals pass through the band
switching diode (D74) and low-pass filter (C8–C13, C67,
C416, L14, L57–L59, L70), and are then amplified at RF
amplifier (Q14). The amplified signal passes through the
tunable band-pass filters (D1, D2) and band switching diode
(D25).
4-1-5 DEMODULATOR CIRCUITS (RF UNIT)
The 330 MHz–469.995 MHz signals are amplified at RF
amplifier (Q35) via the band switching diode (D3) and bandpass filter (C19–C23, C216, L2–L5). The amplified signal
passes through the tunable band-pass filters (D3, D4) and
band switching diode (D29).
The demodulator circuit converts the 2nd IF signal into AF
signals.
The 19.65 MHz 2nd IF signal from the 2nd IF amplifier (Q5)
is applied to the 3rd mixer section of the FM IF IC (IC2, pin
16) and is then mixed with the 3rd LO signal for conversion
into a 450 kHz 3rd IF signal.
The 470 MHz–832.995 MHz signals are amplified at RF
amplifier (Q24) via the band-pass filter (C32, C33,
C35–C37, C39, C144, C145), between the band switching
diode (D11, D32).
4-1
While in AM mode, AF signals are pass through the bandpass filter and are then applied to the pre-amplifier (Q31).
IC2 contains the 3rd mixer, limiter amplifier, quadrature
detector and S-meter detector, etc. A frequency from the
PLL reference oscillator is used for the 3rd LO signal (19.20
MHz).
While in WFM mode, AF signals are applied to the preamplifier (Q31) directly.
(1) FM mode
The 3rd IF signal is output from FM IF IC (IC2, pin 3) and
passes through the ceramic bandpass filter (FI2). The filtered signal is fed back and amplified at the limiter amplifier
section (pin 5), then demodulated AF signals at the quadrature detector section (pins 10, 11) and detector coil (L21).
The demodulated AF signals are output from pin 9 and are
applied to the AF circuit (LOGIC unit).
The pre-amplified AF signals pass through the AF mute circuit (Q37) and are then applied to the electronic volume control circuit (IC14, pin 6). The level controlled AF signals are
output from pin 7 and applied to the AF power amplifier
(IC15, pin 1) via the buffer amplifier (Q36). The power amplified AF signals are applied to the internal speaker via the
[EXT SP] jack.
The electronic volume control circuit controls AF gain, therefore, the AF output level is according to the [VOL] setting
and also the squelch conditions.
(2) WFM mode
The 3rd IF signal from the 3rd mixer bypasses the ceramic
filter (FI2) and fed back to the limiter amplifier section (pin 5).
The amplified signal is demodulated at the quadrature
detector section (pins 10, 11) and detector coil (L21). The AF
signals are output from pin 9 and are applied to the AF circuit (LOGIC unit).
4-1-7 SQUELCH CIRCUIT (LOGIC AND RF UNITS)
• NOISE SQUELCH
The noise squelch circuit cuts out AF signals when no RF
signals are received. By detecting noise components in the
AF signals, the squelch circuit switches the AF mute switch.
By connecting R55 to R54 in parallel, the output characteristics of pin 12, “RSSI”, change gradually. Therefore, the FM
IF IC can detect WFM components.
A portion of the AF signals from the FM IF IC (RF unit; IC2,
pin 9) are applied to the active filter section (IC2, pin 8). The
active filter section amplifies and filters noise components.
(3) AM mode
The filtered 3rd IF signal from the bandpass filter (FI2) is
amplified at the 3rd IF amplifier (Q1). The amplified IF signal
is applied to the AM detector circuit (Q4) to converted into
AF signals, and the signals are applied to the AF circuit
(LOGIC unit).
The filtered signals are applied to the noise detector section
and output from IC2 (pin 13) as the “SDET” signal.
The “SDET” signal from IC2 (pin 13) passes through the
noise detector (LOGIC unit; IC1), and is then applied to the
CPU (LOGIC unit; IC11, pin 12) via the “SQL” line. The CPU
analyzes the noise condition and outputs the “AMUTE” signal to the AF mute switch (Q37).
4-1-6 AF AMPLIFIER CIRCUIT (LOGIC UNIT)
The AF amplifier circuit amplifies the demodulated AF signals to drive a speaker.
Even when the squelch id closed, the AF mute switch (Q37)
opens at the moment of emitting beep tones.
While in FM mode, AF signals from the demodulator circuit
(RF unit) are passed through the de-emphasis circuit (R118,
C66, C68) with frequency characteristics of –6 dB/octave,
and are then applied to the pre-amplifier (Q31) via the bandpass filter (Q30).
• 2nd IF AND DEMODULATOR CIRCUITS
C98
8
R58
R57
3rd IF filter
450 kHz
C99
R60
5
3
Noise
detector
Active
filter
Noise
comp.
RSSI
AF signal "WFMS"
R56
C95
C101
11
16
PLL IC
IC3
X1
19.2 MHz
FM
detector
10
17
2
3rd
Mixer
Limiter
amp.
C96
9
LPF
FI2
7
L21
C93
13
12
R54
R55
WFM
C94
Q41
4-2
C242
16
IC2 TA31136F
2nd IF (19.65 MHz)
from Q5
"SDET" signal to the IC11 (Logic unit)
"RSSI" signal to the CPU
pin 7 (Logic unit)
4-2-3 1ST VCO CIRCUIT (RF UNIT)
• TONE SQUELCH
The tone squelch circuit detects AF signals and opens the
squelch only when receiving a signal containing a matching
subaudible tone (CTCSS). When tone squelch is in use, and
a signal with a mismatched or no subaudible tone is
received, the tone squelch circuit mutes the AF signals even
when noise squelch is open.
The oscillated signal is applied to the buffer amplifiers (IC4,
Q40). The amplified signal is applied to the 1st mixer circuit
(IC1) via the RX LO swtich circuit (D42–D44) and doubler
circuit (Q31).
The 1st VCO circuit (Q28, Q30, D54) oscillates 267.2
MHz–380 MHz and 380 MHz–550 MHz by switching the
SHIFT switch (Q29) “High” and “Low” respectively.
A portion of the AF signals from the FM IF IC (IC2, pin 9)
passes through the low-pass filter (LOGIC unit; IC9) via the
“WFMS” line to remove AF (voice) signals and is applied to
the CTCSS decoder inside the CPU (LOGIC unit; IC11, pin
8) via the “RTONE” line to control the AF mute switch.
A portion of the signal from IC4 is amplified at the buffer
amplifier (Q43) and is then fed back to the PLL IC (IC3, pin
2) as the comparison signal.
4-2-4 2nd VCO CIRCUIT (RF UNIT)
4-2 PLL CIRCUITS
The 2nd LO circuit generates the 2nd LO frequencies, and
the signals are applied to the 2nd mixer circuit.
4-2-1 PLL CIRCUIT (RF UNIT)
A PLL circuit provides stable oscillation of the receive
1st/2nd LO frequencies. The PLL circuit compares the
phase of the divided VCO frequency to the reference frequency. The PLL output frequency is controlled by the divided ratio (N-data) of a programmable divider.
The 2nd VCO circuit (Q6, L45, C80, C207, C208) oscillates
260 MHz. The oscillated signal is applied to the 2nd mixer
(IC10, pin 3), and is then mixed with the 1st IF signal.
An oscillated signal from the 2nd VCO passes through the
low-pass filter (C154, C250–C252, L69), and is applied to
the PLL IC (IC3, pin 2), and is then output from pin 8.
An oscillated signal from the 1st VCO passes thorough the
buffer amplifiers (IC4, Q43) is applied to the PLL IC (IC3, pin
19) and is prescaled in the PLL IC based on the divided ratio
(N-data). The PLL IC detects the out-of-step phase using the
reference frequency and outputs it from pin 13. The output
signal is passed through the loop filter (Q2, Q45) and is then
applied to the 1ST VCO circuit as the lock voltage.
• 2nd LO VCO circuit
Loop
filter
Q37, D53
4-2-2 REFERENCE OSCILLATOR CIRCUIT
(RF UNIT)
R3V
VCO
Ripple
filter
Q6, D17
The reference oscillator circuit (X1, IC3) generates a 19.2
MHz reference frequency which is stabilized within the temperature range –10˚C (+14˚F) to +60˚C (+140˚F). The reference frequency is applied to the PLL IC (IC3, pin 16) and the
signal is output from the pin 17, and is then applied to the
FM IF IC (IC2, pin 2) via the low-pass fileter.
2nd LO
VCO
LPF
to the 2nd mixer (IC10)
• PLL circuit
Buffer
to 1st mixer circuit
Q40
Buffer
1st VCO
IC4
Buffer
Q28, Q30, D54
Q43
Loop
Q2, Q45 filter
to the FM IF IC
X1
19.2 MHz
IC3 (PLL IC)
Programmable
counter
13
Phase
detector
17
Programmable
divider
16
4-3
Prescaler
Shift register
19
3
4
5
PSTB
CLK
DATA
8
2
PLL IC
IC3
4-3 POWER SUPPLY CIRCUITS
4-4 PORT ALLOCATIONS
VOLTAGE LINE
4-4-1 CPU (LOGIC UNIT IC11)
LINE
DESCRIPTION
BATT
The voltage from the attached battery.
VP
Common 13 V converted from BATT line by the
DC-DC convertors (IC10 and D3, D5, D15). The
output voltage is applied to the PLL circuit (RF
unit).
R3V
Receive 3V controlled by the R3V regulator circuit (Q4) using the “RX” signal from CPU (IC11).
+3S
Common 3V converted by the +3S regulator circuit (Q3, Q39) using the “+3SC” signal from CPU
(IC11).
+3V
Pin
Port
number name
Common 3V converted by the +3V regulator circuit (Q6) using the “POWERC” signal from CPU
(IC11).
1
ADJ
Output control signal for the adjustment mode.
2
ATT
Outputs RF attenuator control signal
to attenuator switch.
3
K2
Input port for [LOCK], [BAND], [V/M]
switches.
4
K1
Input port for [UP], [DOWN] switches.
5
AMUTE
Output AF mute switch (LOGIC unit;
Q37) control signal.
LOW : While squelched.
6
BATT
Input port for the Low battery detection.
7
RSSI
Input port for the RSSI signal from the
FM IF IC (RF unit; IC2, pin12) to
detect receiving signal strength.
8
RTONE
Input port for the receiving tone signal.
9
TRC
Outputs control signal for the tunable
band-pass filter.
10
FSET
Outputs control signal for the RIT frequency.
11
CTON
Outputs control signal for the CTCSS
requlator circuit.
12
SQL
Pulse signal input port for the squelch.
13
KFUNC
14
KTS
Input port for the [TS] switch.
Low : While [TS] switch is pushed.
15
VRC
Outputs level control signal for AF volume.
16
DCK
Input port for the DOWN signal from
the [DIAL].
17
AM
18
WFM
Outputs WFM mode select signals.
Low : When WFM is selected.
21
BEEP
Outputs beep audio signals.
22
DUD
Input port for the UP signal from the
[DIAL].
23
POWER
Input for the [POWER] switch.
Low : While [POWER] switch is
pushed
AFON
Outputs control signal for the AF
amplifier requlator circuit.
High : Activates the AF amplifier circuit.
DBL1
Outputs control signal for the 1st doubler circuit.
Low : Activates the 1st doubler circuit.
24
25
4-4
Description
Input port for the [FUNC] switch.
Low : While [FUNC] switch
pushed.
is
Outputs AM mode select signals.
Low : When AM is selected.
Pin
Port
number name
26
LIGHT
27
28
+3SC
Output LCD backlight control signal.
High : Lights ON
POWERC Outputs +3V requlator control singals.
B3
Outputs high-pass filter select signal.
Low : When frequency 15 to 30
MHz are displayed.
30
B2
Outputs band-pass filter select signal.
Low : When frequency 1.9 to 15
MHz are displayed.
31
B1
Outputs low-pass filter select signal.
Low : When frequency 0.5 to 1.5
MHz are displayed.
32
KSQL
Input port for the [SQL] switch.
High : While [SQL] switch is pushed.
33
RESET
39
EDA
Outputs data signals to the EEPROM
IC (LOGIC unit; IC2).
42
PCK/IS
Outputs clock signal to both PLL IC
(RF unit; IC3) and EEPROM IC
(LOGIC unit; IC2).
43
ECK/I3
Outputs clock signal to EEPROM IC.
44, 45
I2, I1
Input ports for Initial matrix.
46
PSTB
Outputs strobe signals for the PLL IC.
47
PDA
Outputs data signals to the PLL IC.
Input port for PLL unlock signal from
PLL IC (RF unit; IC3).
DBL2
Output control signal for the doubler
circuit.
Low : Activates the 2nd doubler circuit.
50
300MC
Outputs low-pass filter select signal.
Low : When frequencies 30 to 118
MHz or 175 to 330 MHz are
displayed.
51
GC
Outputs band-pass filter select signal.
Low :When frequencies 833 to
1309.995 MHz are displayed.
52
800MC
Outputs band-pass filter select signal.
Low : When frequencies 470 to
1027 MHz are displayed.
53
UHFC
Outputs band-pass filter select signal.
Low : When frequencies 330 to 470
MHz are displayed.
54
VHFC
Outputs band-pass filter select signal.
Low : When frequencies 118 to 175
MHz are displayed.
Input port for the RESET signal.
4-5
Description
55
SHIFT
Output port for 1st VCO SHIFT signals
to the shift switch (RF unit; Q29).
High : Shift ON (380 – 550 MHz).
Low : Shift OFF (267.2 – 380 MHz).
56
HFC
Output control signal for the 0.5–30
MHz band RF amplifier.
Low : Receiving 0.5–30 MHz bands.
Outputs +3S requlator control singal
for the receiver circuit.
Low : Receiving.
29
48
Pin
Port
number name
Description
SECTION 5
ADJUSTMENT PROCEDURES
5-1 PREPARATION
The receiver (IC-R2) must be adjusted on the adjustment mode after programmed adjustment frequency data into memory channel. When you program adjustment frequency data into memory channel, optional CS-R2 PROGRAMMING SOFTWARE, OPC-478
CLONING CABLE are requird.
‘ REQUIRED TEST EQUIPMENT
EQUIPMENT
GRADE AND RANGE
DC power supply
Output voltage
Current capacity
: 3.0 V DC
: 1 A or more
AC millivoltmeter
Measuring range
: 10 mV–10 V
External speaker
Input impedance
Capacity
:8Ω
: 1 W or more
EQUIPMENT
Frequency counter
Standard signal
generator (SSG)
GRADE AND RANGE
Frequency range
: 0.1–600 MHz
Frequency accuracy : ±1 ppm or better
Sensitivity
: 100 mV or better
Frequency range
Output level
: 0.1–1300 MHz
: 0.1 µV–32 mV
(–127 to –17 dBm)
‘ SOFTWARE INSTALLATION
NOTE: Before using the program, make a backup copy of the original disk. After making a backup copy, keep the original disk
in a safe place.
q Boot up DOS.
w Insert the backup disk into the floppy drive A.
e Type the following to install the adjustment program:
A:\>INSTALL A C:\CSR2 [Enter]
‘ ADJUSTMENT FREQUENCY DATA
When program adjustment frequency data (at right) into memory
channel, back up the original memory data using the optional CSR2, OPC-478, and re-program it after adjustment.
CAUTION: When clone the adjustment frequency data to the
receiver, the receiver’s memory channel wiil be overwritten the data and deleted original memory data at
same time.
‘ ENTERING THE ADJUSTMENT MODE
• ADJUSTMENT FREQUENCY
Channel
No.
Frequency
[MHz]
Display ch.
No.
0
280.100
FR
1
145.600
tk
2
435.600
tk
3
14.100
RS
4
145.100
RS
q Connect a JIG (see illustration at CONNECTION) to the [SP]
jack.
5
200.100
RS
w Push and hold [FUNC], then turn power ON.
6
435.100
RS
e Disconnect the JIG and connect a PC with an OPC-478.
7
650.100
RS
r Boot up DOS.
8
1100.100
RS
t Type the following to start up the adjustment program:
C:\>CD CSR2 [Enter]
NOTE: Adjustment frequency data must be proC:\CSR2>CSR2 [Enter]
grammed into proper channels, don’t turn the
• Main menu appears at the top side of the cloning program,
order of channels, otherwise adjustment value
select the sub-menu “Screen”–“Memory CH”–“Bank 1”, then
will be wrong.
input adjustment frequency (at right).
y Select “Write –> Receiver” of the Clone on the top menu.
• Application writes adjustment frequency data to the connected receiver.
u Disconnect the cloning cable and turn power OFF, then turn power ON to start adjustment.
‘ OPERATING ON THE ADJUSTMENT MODE
Change the value
Change the channel [UP]
Change the channel [DOWN]
: [DIAL]
: [BAND]
: [BAND]
‘ EXITING THE ADJUSTMENT MODE
When the adjustment is finished, the receiver must be cancelled adjustment mode to use normal operation, otherwise receiver
does not work properly.
q Turn power OFF.
w Push and hold [FUNC] and [V/M], then turn power ON.
NOTE: All memory data except adjustment value will be cleared at this operation.
5-1
■ CONNECTION
Terminator for the entering
adjustment mode
+
68 kΩ
to [SP] jack
1/8" (3.5 mm)
3-conductor plug
Standard signal
generator
AD-92SMA
Optional SMA–BNC adaptor
+
DC power supply
3.0 V/1.0 A
-
5-2
5-2 PLL ADJUSTMENT
ADJUSTMENT
MEASUREMENT
ADJUSTMENT CONDITION
UNIT
1ST VCO
LOCK
VOLTAGE
(SHIFT ON)
1 • Displayed frequency :
493.300 MHz
• Receiving
RF
VALUE
LOCATION
ADJUSTMENT
POINT
UNIT
ADJUST
Verify
Connect the digital 1.9 V – 2.9 V
multi-meter to the
check point LV1.
less than 12 V
2 • Displayed frequency :
282.900 MHz
• Receiving
(SHIFT OFF) 1 • Displayed frequency :
1.4 V – 2.4 V
0.495 MHz
• Receiving
less than 12 V
2 • Displayed frequency :
493.295 MHz
• Receiving
2ND VCO
LOCK
VOLTAGE
1 • Displayed frequency :
430.000 MHz
• Receiving
RF
Connect the digital 0.4 V – 1.0 V
multi-meter to the
check point LV2.
less than 2.5 V
2 • Displayed frequency :
493.300 MHz
• Receiving
REFERENCE 1 • Displayed frequency :
FREQUENCY
(FR ch)
280.100 MHz
• Receiving
RF
Connect the fre- 546.7999 MHz –
quency counter to 546.8001 MHz
the check point F.
DETECTOR
OUTPUT
VOLTAGE
RF
Connect the digital 1.0 V
multi-meter to check
point QUAD.
1 • Displayed frequency :
(tk ch)
145.600 MHz
• Connect an SSG to the antenna
connector and set as:
Level
: 1 mV* (60 dBµ)
Deviation : ± 3.5 kHz
Modulation : 1 kHz
• Receiving
*This output level of the standard signal generator (SSG) is indicated as SSG’s open circuit.
5-3
LOGIC
[DIAL]
RF
L21
L21
Detector output voltage adjustment
QUAD
Detector output voltage check point
F
PLL Reference Frequency
check point
LV2
2nd VCO lock voltage check point
LV1
1st VCO lock voltage
check point
5-4
5-3 RECEIVER ADJUSTMENT
ADJUSTMENT
MEASUREMENT
ADJUSTMENT CONDITION
UNIT
LOCATION
VALUE
ADJUSTMENT
POINT
UNIT
ADJUST
VHF
SENSITIVITY
1 • Displayed frequency :
(tk ch)
145.600 MHz
• Connect an SSG to the antenna
connector and set as :
Level
: 1 µV* (–107 dBm)
Modulation : 1 kHz
Deviation : ±3.5 kHz
• Receiving
RF
Connect the DC Maximum DC voltage LOGIC
voltmeter to the
check point SEN.
[DIAL]
UHF
SENSITIVITY
1 • Displayed frequency :
(tk ch)
435.600 MHz
• Connect an SSG to the antenna
connector and set as:
Level
: 1 µV* (–107 dBm)
Modulation : 1 kHz
Deviation : ±3.5 kHz
• Receiving
RF
Connect the DC Maximum DC voltage LOGIC
voltmeter to the
check point SEN.
[DIAL]
S-METER
1 • Displayed frequency :
(RS ch)
14.100 MHz
• Connect the SSG to the antenna
connector and set as :
Level
: 0.5 µV* (–113 dBm)
Modulation : 1 kHz
Deviation : ± 3.5 kHz
• Receiving
Push and hold the [MOD] key.
• Verify that S-Meter shows S4 (3dots).
2 • Displayed frequency :
(RS ch)
145.100 MHz
• Set the SSG as :
Level
: 0.5 µV* (–113 dBm)
• Receiving
3
• Displayed frequency :
(RS ch)
200.100 MHz
• Set the SSG as :
Level
: 0.5 µV* (–113 dBm)
• Receiving
4 • Displayed frequency :
(RS ch)
435.100 MHz
• Set the SSG as :
Level
: 0.5 µV* (–113 dBm)
• Receiving
5 • Displayed frequency :
(RS ch)
650.100 MHz
• Set the SSG as :
Level
: 0.5 µV* (–113 dBm)
• Receiving
6 • Displayed frequency :
(RS ch) 1100.100 MHz
• Set the SSG as :
Level
: 1 µV* (–107 dBµ)
• Receiving
*This output level of the standard signal generator (SSG) is indicated as SSG’s open circuit.
5-5
SEN
VHF and UHF sensitivity check point.
5-6
SECTION 6 PARTS LIST
[LOGIC UNIT]
REF
NO.
IC1
IC2
IC3
IC4
IC5
IC9
IC10
IC11
[LOGIC UNIT]
ORDER
NO.
REF
NO.
DESCRIPTION
IC14
IC15
1130008970
1130009020
1180001820
1180001720
1110004620
1110003800
1110004790
1140007760
1140007720
1110004520
1190000710
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
HD74LV00TELL
X25650S8I-2.5T6
XC62FP3002MR
S-81332HG-KC-T1
S-80725SL-AN-T1
NJM2904V-TE1
XC6371A351PR
M38267M8L-218GP
M38267M8L-222GP
M5222FP 600C
TA31056F (TP1)
Q3
Q4
Q6
Q8
Q11
Q13
Q17
Q18
Q23
Q24
Q26
Q30
Q31
Q35
Q36
Q37
Q38
Q39
Q40
Q41
1510000670
1510000670
1510000670
1590002430
1590001780
1590002310
1590001390
1590002430
1510000670
1510000670
1530002280
1590001190
1530002280
1510000670
1530002280
1590001390
1530002280
1590001190
1510000670
1530003630
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.FET
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.FET
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
2SA1588-GR (TE85R)
2SA1588-GR (TE85R)
2SA1588-GR (TE85R)
DTA144EE TL
XP4213 (TX)
DTC114EE TL
2SJ144-Y (TE85R)
DTA144EE TL
2SA1588-GR (TE85R)
2SA1588-GR (TE85R)
2SC4081 T107 S
XP6501-(TX).AB
2SC4081 T107 S
2SA1588-GR (TE85R)
2SC4081 T107 S
2SJ144-Y (TE85R)
2SC4081 T107 S
XP6501-(TX).AB
2SA1588-GR (TE85R)
2SC4617 TLS
D1
D3
D4
D5
D6
D7
D8
D9
D10
D13
D14
D15
D16
D17
1790001250
1790001560
1790000970
1790001560
1790001250
1790001250
1790001250
1790001250
1790001250
1790001250
1790001250
1790001560
1790000850
1790001250
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
MA2S111-(TX)
1SS372 (TE85R)
MA729 (TX)
1SS372 (TE85R)
MA2S111-(TX)
[OTH-1] only
MA2S111-(TX) [USA], [CAN], [OTH]
MA2S111-(TX)[UK], [OTH], [OTH-1]
MA2S111-(TX)
except [OTH-1]
MA2S111-(TX) [USA], [CAN] only
MA2S111-(TX)
[USA] only
MA2S111-(TX)
1SS372(TE85R)
MA132WK(TX)
MA2S111-(TX)
X1
6050010310 S.XTAL
CR-613 (4.935 MHz)
L1
6200008630 S.COIL
CD54-101KC
R1
R3
R5
R8
R9
R12
R14
R18
R23
R24
R25
R26
R32
R33
R34
R35
R37
R38
R39
7030005040
7030005240
7030005530
7030005060
7030005240
7030005090
7030005310
7030005110
7030007340
7030007340
7030005090
7030005060
7030005240
7030005240
7030005240
7030005050
7030005000
7030005160
7030005170
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
472
473
100
333
473
104
124
224
153
153
104
333
473
473
473
103
471
105
474
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
R40
R41
R42
R48
R49
R50
R51
R52
R67
R68
R77
R78
R79
R82
R86
R87
R88
R89
R90
R91
R92
R94
R100
R102
R103
R108
R109
R112
R113
R114
R116
R117
R118
R119
R120
R121
R122
R123
R124
R125
R126
R127
R128
R129
R130
R132
R133
R136
R137
R138
R140
R141
R149
R150
R153
R156
R157
R159
R161
R164
R165
R166
R172
R173
R174
R175
R179
R180
R181
R182
R183
R184
R185
R186
[USA] only
other
(4.7 kΩ)
(47 kΩ)
(10 Ω)
(33 kΩ)
(47 kΩ)
(100 kΩ)
(120 kΩ)
(220 kΩ)
(15 kΩ)
(15 kΩ)
(100 kΩ
(33 kΩ)
(47 kΩ)
(47 kΩ)
(47 kΩ)
(10 kΩ)
(470 Ω)
(1 MΩ)
(470 kΩ)
ORDER
NO.
7030005080
7030005080
7030005080
7030005310
7030005230
7030005310
7030005310
7030007340
7030005240
7030005040
7030005090
7030005090
7030005090
7030005240
7030005090
7030005110
7030005160
7030005090
7030005160
7030005170
7030005170
7030005050
7030005050
7030005090
7030005090
7030005160
7030005160
7030005060
7030005080
7030005040
7030005240
7030005170
7030007340
7030008300
7030008300
7030005170
7030008300
7030005310
7030005050
7030007340
7030008290
7030008290
7030005530
7030005240
7030007340
7030005050
7030008300
7030005220
7030005240
7030009290
7030008300
7030008300
7030007290
7030009270
7030005240
7030005060
7030005310
7030005060
7030005210
7030005050
7030007340
7030005110
7030005050
7030007290
7030007300
7030009290
7030004990
7030005170
7030008010
7030005090
7030005050
7030005120
7030007300
7030005090
DESCRIPTION
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
ERJ2GEJ 823 X (82 kΩ)
ERJ2GEJ 823 X (82 kΩ)
ERJ2GEJ 823 X (82 kΩ)
ERJ2GEJ 124 X (120 kΩ)
ERJ2GEJ 334 X (330 kΩ)
ERJ2GEJ 124 X (120 kΩ)
ERJ2GEJ 124 X (120 kΩ)
ERJ2GEJ 153 X (15 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 224 X (220 kΩ)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 474 X (470 kΩ)
ERJ2GEJ 474 X (470 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 105 X (1 MΩ)
ERJ2GEJ 333 X (33 kΩ)
ERJ2GEJ 823 X (82 kΩ)
ERJ2GEJ 472 X (4.7 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 474 X (470 kΩ)
ERJ2GEJ 153 X (15 kΩ)
ERJ2GEJ 184 X (180 kΩ)
ERJ2GEJ 184 X (180 kΩ)
ERJ2GEJ 474 X (470 kΩ)
ERJ2GEJ 184 X (180 kΩ)
ERJ2GEJ 124 X (120 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 153 X (15 kΩ)
ERJ2GEJ 183 X (18 kΩ)
ERJ2GEJ 183 X (18 kΩ)
ERJ2GEJ 100 X (10 Ω)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 153 X (15 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 184 X (180 kΩ)
ERJ2GEJ 223 X (22 kΩ)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 562 X (5.6 kΩ)
ERJ2GEJ 184 X (180 kΩ)
ERJ2GEJ 184 X (180 kΩ)
ERJ2GEJ 222 X (2.2 kΩ)
ERJ2GEJ 821 X (820 Ω)
ERJ2GEJ 473 X (47 kΩ)
ERJ2GEJ 333 X (33 kΩ)
ERJ2GEJ 124 X (120 kΩ)
ERJ2GEJ 333 X (33 kΩ)
ERJ2GEJ 822 X (8.2 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 153 X (15 kΩ)
ERJ2GEJ 224 X (220 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 222 X (2.2 kΩ)
ERJ2GEJ 332 X (3.3 kΩ)
ERJ2GEJ 562 X (5.6 kΩ)
ERJ2GEJ 221 X (220 Ω)
ERJ2GEJ 474 X (470 kΩ)
ERJ2GEJ 123X (12 kΩ)
ERJ2GEJ 104 X (100 kΩ)
ERJ2GEJ 103 X (10 kΩ)
ERJ2GEJ 102 X (1 kΩ)
ERJ2GEJ 332 X (3.3 kΩ)
ERJ2GEJ 104 X (100 kΩ)
S.=Surface mount
6-1
[LOGIC UNIT]
REF
NO.
C1
C3
C4
C5
C6
C8
C9
C11
C12
C13
C14
C15
C15
C16
C17
C18
C19
C24
C33
C35
C36
C37
C39
C40
C41
C42
C43
C44
C48
C51
C52
C53
C57
C58
C60
C61
C62
C63
C65
C66
C67
C68
C69
C70
C71
C72
C73
C74
C76
C77
C78
C79
C80
C81
C82
C86
C87
C88
C89
C90
C91
C92
C93
C94
C96
C97
C98
C100
C101
C102
C103
C106
C107
C108
C114
C116
C118
C119
C120
C121
C123
[LOGIC UNIT]
ORDER
NO.
4030014200
4030013970
4550006760
4030013850
4030008680
4030014120
4030014120
4030013970
4030013950
4030013970
4030013890
4510007130
4550006670
4030013850
4030008680
4550006920
4030008680
4550006200
4030008680
4030013850
4030008680
4030013850
4030013970
4030013850
4030013970
4030013970
4030013850
4030013970
4030008680
4030013850
4030013850
4030013970
4030013850
4030013970
4550006690
4550006550
4030013850
4030013970
4030013970
4030013970
4030013970
4030013930
4030013910
4030013910
4030013880
4030013910
4030013970
4030013970
4030013970
4030013970
4030013960
4030014200
4030013970
4030013970
4030013970
4030008680
4030008680
4550006320
4550006320
4030013910
4030013970
4030013970
4030013930
4030008680
4550006320
4030013970
4550006760
4030013970
4030013850
4030014200
4030013970
4030013970
4030011810
4030013850
4030013970
4030013970
4550006140
4030008680
4030008680
4030008680
4030013970
REF
NO.
DESCRIPTION
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.ELECTROLYTIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.TANTALLUM
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
ECUE1H101JCQ
C1005 JB 0J 104K-T-N
TEMSVB2 1A 336M-8R
ECUE1E102KBQ
C2012 JF 1C 105Z-T-A
ECUE1H100CCQ
ECUE1H100CCQ
C1005 JB 0J 104K-T-N
C1005 JB 1A 393K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 1H 152K-T-N
EEFCD0J470R
ECST1AD107R
ECUE1E102KBQ
C2012 JF 1C 105Z-T-A
TEMSVB2 1E 335M-8R
C2012 JF 1C 105Z-T-A
ECST0JY106R
C2012 JF 1C 105Z-T-A
ECUE1E102KBQ
C2012 JF 1C 105Z-T-A
ECUE1E102KBQ
C1005 JB 0J 104K-T-N
ECUE1E102KBQ
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
ECUE1E102KBQ
C1005 JB 0J 104K-T-N
C2012 JF 1C 105Z-T-A
ECUE1E102KBQ
ECUE1E102KBQ
C1005 JB 0J 104K-T-N
ECUE1E102KBQ
C1005 JB 0J 104K-T-N
ECST1AC476R
TEMSVD 0G 227M-12R
ECUE1E102KBQ
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 1C 183K-T-N
C1005 JB 1E 472K-T-N
C1005 JB 1E 472K-T-N
C1005 JB 1H 222K-T-N
C1005 JB 1E 472K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 1A 473K-T-N
ECUE1H101JCQ
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C2012 JF 1C 105Z-T-A
C2012 JF 1C 105Z-T-A
ECST0JY475R
ECST0JY475R
C1005 JB 1E 472K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 1C 183K-T-N
C2012 JF 1C 105Z-T-A
ECST0JY475R
C1005 JB 0J 104K-T-N
TEMSVB2 1A 336M-8R
C1005 JB 0J 104K-T-N
ECUE1E102KBQ
ECUE1H101JCQ
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1608 JB 1A 224K-T-N
ECUE1E102KBQ
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
ECST1EY474R
C2012 JF 1C 105Z-T-A
C2012 JF 1C 105Z-T-A
C2012 JF 1C 105Z-T-A
C1005 JB 0J 104K-T-N
ORDER
NO.
DESCRIPTION
DS2
DS8
5040002230 S.LED
5030001610 LCD
CL-200YG-C-TS
DLC-7995YBGF
S8
S9
S10
2230000900 S.SWITCH
2250000390 ENCODER
2230000900 S.SWITCH
JPM1990-2013R
TP90N00E20-16F-1995
JPM1990-2013R
J1
J2
6510020560 S.CONNECTOR AXK5S40340P
6450001910 CONNECTOR HSJ1594-010050
W2
W3
W5
7030003860 S.JUMPER
7030003860 S.JUMPER
7030003860 S.JUMPER
EP1
EP2
0910050773 PCB
B 5164C
8930046581 LCD CONTACT SRCN-1995-SP-N-W-1
ERJ3GE JPW V
ERJ3GE JPW V
ERJ3GE JPW V
[RF UNIT]
REF
NO.
ORDER
NO.
DESCRIPTION
IC1
IC2
IC3
IC4
IC10
IC11
1110004020
1110003200
1130007610
1110003470
1110004020
1110003470
S.IC
S.IC
S.IC
S.IC
S.IC
S.IC
µPC2757T-E3
TA31136FN (EL)
µPD3140GS-E1 (DS8)
µPC2746T-E3
µPC2757T-E3
µPC2746T-E3
Q1
Q2
Q4
Q5
Q6
Q14
Q24
Q26
Q28
Q29
Q30
Q31
Q33
Q35
Q36
Q37
Q40
Q41
Q43
Q44
Q45
Q46
Q501
Q502
Q503
Q504
Q505
Q506
Q507
Q508
Q509
1590001190
1560000540
1590001190
1530003580
1530003610
1530003610
1530003590
1530003590
1530003260
1590001940
1530003260
1530003610
1590001810
1590002650
1530003580
1530003630
1530003580
1590002430
1530003580
1590001660
1530003010
1590001660
1590002430
1590001810
1590001810
1590001810
1530002600
1590002430
1530003590
1590001660
1590002430
S.TRANSISTOR
S.FET
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
S.TRANSISTOR
XP6501-(TX).AB
2SK880-Y (TE85R)
XP6501-(TX).AB
2SC5231C8-TL
FH102-TL
FH102-TL
2SC5277D2-TL
2SC5277D2-TL
2SC5006-T1
DTC144EE TL
2SC5006-T1
FH102-TL
XP1113 (TX)
UPA805T-T1
2SC5231C8-TL
2SC4617 TLS
2SC5231C8-TL
DTA144EE TL
2SC5231C8-TL
XP4312 (TX)
2SC4117-GR (TE85R)
XP4312 (TX)
DTA144EE TL
XP1113 (TX)
XP1113 (TX)
XP1113 (TX)
2SC4215-O (TE85R)
DTA144EE TL
2SC5277D2-TL
XP4312 (TX)
DTA144EE TL
D1
D2
D3
D4
D5
D11
D13
D17
D18
D20
D21
1720000370
1720000370
1790001620
1720000370
1720000370
1790001620
1790001620
1720000700
1720000370
1790001590
1790001590
S.VARICAP
S.VARICAP
S.DIODE
S.VARICAP
S.VARICAP
S.DIODE
S.DIODE
S.VARICAP
S.VARICAP
S.DIODE
S.DIODE
HVU350TRF
HVU350TRF
ISV308 (TPL3)
HVU350TRF
HVU350TRF
ISV308 (TPL3)
ISV308 (TPL3)
1SV305 (TPL3)
HVU350TRF
MA6S718 (TX)
MA6S718 (TX)
S.=Surface mount
6-2
[RF UNIT]
REF
NO.
[RF UNIT]
ORDER
NO.
REF
NO.
DESCRIPTION
D25
D29
D31
D32
D34
D36
D42
D43
D44
D46
D47
D50
D52
D53
D54
D55
D56
D57
D58
D59
D60
D61
D62
D63
D64
D65
D66
D67
D68
D69
D70
D71
D72
D73
D74
D75
1790001620
1790001620
1790000850
1790001620
1790001620
1790001620
1790001260
1790001260
1790001260
1790001260
1790001620
1790001620
1790001620
1790001250
1720000650
1790000850
1790000850
1790000660
1790001260
1790001260
1790001260
1790001260
1790000660
1790001260
1790001260
1790001260
1790001260
1790001260
1720000240
1790001260
1790001260
1790001620
1790001620
1790001620
1790001620
1790001620
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.VARICAP
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
S.DIODE
FI1
FI2
FI3
2040001200 S.SAW
EFCH266MKQP1
2020001270 CERAMIC
CFWM450E
2010002280 S.MONOLITHIC FL-293 (19.650 MHz)
X1
6050010210 S.XTAL
CR-593 (19.200 MHz)
L1
L2
L3
L4
L5
L7
L8
L9
L10
L11
L12
L13
L14
L15
L17
L20
L21
L28
L39
L40
L41
L42
L43
L44
L45
L50
L51
L52
L53
L54
L55
L56
L57
L58
L59
L60
6200007740
6200005720
6200005700
6200005700
6200005680
6200005710
6200005630
6200005720
6200005700
6200005680
6200005660
6200005630
6200006990
6200005730
6200007170
6200005740
6150004840
6200008090
6200005730
6200005650
6200006980
6200005630
6200005620
6200005620
6200007670
6200005700
6200005680
6200005700
6200005680
6200005670
6200005660
6200005640
6200005740
6200006990
6200006990
6200008570
LQN21A 47NJ04
ELJRE 33NG-F
ELJRE 22NG-F
ELJRE 22NG-F
ELJRE 15NG-F
ELJRE 27NG-F
ELJRE 5N6Z-F
ELJRE 33NG-F
ELJRE 22NG-F
ELJRE 15NG-F
ELJRE 10NG-F
ELJRE 5N6Z-F
ELJRE 56NG-F
ELJRE 39NG-F
MLF1608A 3R3K-T
ELJRE 47NG-F
LS-510
LQN21A 68NJ04
ELJRE 39NG-F
ELJRE 8N2Z-F
ELJRE R10G-F
ELJRE 5N6Z-F
ELJRE 4N7Z-F
ELJRE 4N7Z-F
LQN21A 10NJ04
ELJRE 22NG-F
ELJRE 15NG-F
ELJRE 22NG-F
ELJRE 15NG-F
ELJRE 12NG-F
ELJRE 10NG-F
ELJRE 6N8Z-F
ELJRE 47NG-F
ELJRE 56NG-F
ELJRE 56NG-F
LQN21A 6N8D04
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
ISV308 (TPL3)
ISV308 (TPL3)
MA132WK (TX)
ISV308 (TPL3)
ISV308 (TPL3)
ISV308 (TPL3)
MA2S077-(TX)
MA2S077-(TX)
MA2S077-(TX)
MA2S077-(TX)
ISV308 (TPL3)
ISV308 (TPL3)
ISV308 (TPL3)
MA2S111-(TX)
1SV286 (TPH3)
MA132WK (TX)
MA132WK (TX)
MA728 (TX)
MA2S077-(TX)
MA2S077-(TX)
MA2S077-(TX)
MA2S077-(TX)
MA728 (TX)
MA2S077-(TX)
MA2S077-(TX)
MA2S077-(TX)
MA2S077-(TX)
MA2S077-(TX)
1SV172 (TE85R)
MA2S077-(TX)
MA2S077-(TX)
ISV308 (TPL3)
ISV308 (TPL3)
ISV308 (TPL3)
ISV308 (TPL3)
ISV308 (TPL3)
ORDER
NO.
DESCRIPTION
L61
L62
L63
L68
L69
L70
L73
L74
L77
L80
L81
L82
L83
L84
L85
L86
L87
L88
L89
L90
L91
L92
6200008570
6200008510
6200008490
6910011690
6200005700
6200004720
6200004730
6200005730
6200005650
6200005630
6200004940
6200005140
6200004790
6200004790
6200006970
6200004790
6200003630
6200007170
6200007170
6200002040
6200006970
6200005180
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
S.COIL
LQN21A 6N8D04
0.30-0.9-4TR 10.5N
0.30-0.9-3TR 7.5N
ACB1608M-600-T
ELJRE 22NG-F
MLF1608D R10K-T
MLF1608A 1R2K-T
ELJRE 39NG-F
ELJRE 8N2Z-F
ELJRE 5N6Z-F
MLF1608D R27K-T
MLF1608D R33K-T
MLF1608D R47K-T
MLF1608D R47K-T
MLF1608A 3R9K-T
MLF1608D R47K-T
MLF1608D R68K-T
MLF1608A 3R3K-T
MLF1608A 3R3K-T
NL 252018T-101J
MLF1608A 3R9K-T
MLF1608D R39K-T
R1
R4
R5
R6
R8
R9
R10
R11
R13
R14
R15
R16
R18
R19
R20
R26
R27
R28
R29
R30
R31
R34
R35
R36
R37
R38
R39
R40
R41
R42
R43
R46
R49
R50
R54
R55
R56
R57
R58
R59
R60
R61
R62
R64
R65
R66
R67
R78
R79
R81
R88
R89
R91
R93
R95
R98
R99
R99
7030007280
7030007280
7030005290
7030005710
7030007340
7030005290
7030005240
7030005240
7030007340
7030005290
7030005240
7030005240
7030007340
7030005240
7030005710
7030005240
7030005220
7030005160
7030005170
7030005030
7030005120
7030005120
7030007340
7030005290
7030005030
7030004980
7030005090
7030005090
7030004980
7030004980
7030004980
7030007340
7030005050
7030005050
7030005220
7030007300
7030005000
7030005050
7030005050
7030005030
7030005090
7030005230
7030005570
7030009280
7030009290
7030005220
7030005050
7030007280
7030005040
7030007290
7030007280
7030005040
7030007290
7030005710
7030007290
7030007290
7030005040
7030005120
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
331
331
682
121
153
682
473
473
153
682
473
473
153
473
121
473
223
105
474
152
102
102
153
682
152
101
104
104
101
101
101
153
103
103
223
332
471
103
103
152
104
334
820
391
562
223
103
331
472
222
331
472
222
121
222
222
472
102
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
(330 Ω)
(330 Ω)
(6.8 kΩ)
(120 Ω)
(15 kΩ)
(6.8 kΩ)
(47 kΩ)
(47 kΩ)
(15 kΩ)
(6.8 kΩ)
(47 kΩ)
(47 kΩ)
(15 kΩ)
(47 kΩ)
(120 Ω)
(47 kΩ)
(22 kΩ)
(1 MΩ)
(470 kΩ)
(1.5 kΩ)
(1 kΩ)
(1 kΩ)
(15 kΩ)
(6.8 kΩ)
(1.5 kΩ)
(100 Ω)
(100 kΩ)
(100 kΩ)
(100 Ω)
(100 Ω)
(100 Ω)
(15 kΩ)
(10 kΩ)
(10 kΩ)
(22 kΩ)
(3.3 kΩ)
(470 Ω)
(10 kΩ)
(10 kΩ)
(1.5 kΩ)
(100 kΩ)
(330 kΩ)
(82 Ω)
(390 Ω)
(5.6 kΩ)
(22 kΩ)
(10 kΩ)
(330 Ω)
(4.7 kΩ)
(2.2 kΩ)
(330 Ω)
(4.7 kΩ)
(2.2 kΩ)
(120 Ω)
(2.2 kΩ)
(2.2 kΩ)
(4.7 kΩ)
(1 kΩ)
S.=Surface mount
6-3
[RF UNIT]
REF
NO.
R100
R101
R102
R103
R104
R105
R106
R108
R110
R112
R116
R120
R121
R123
R124
R125
R128
R129
R130
R131
R132
R133
R134
R135
R147
R151
R152
R154
R156
R159
R160
R162
R163
R169
R170
R171
R172
R174
R177
R179
R187
R188
R196
R197
R198
R199
R200
R201
R202
R203
R204
R205
R207
R208
R209
R210
R215
R216
R219
R220
R221
R222
R223
R224
R225
R226
R227
R228
R229
R230
R231
R232
R233
R234
R235
R236
R237
R238
R239
R319
R323
R324
[RF UNIT]
ORDER
NO.
7030008010
7030005240
7030007290
7030005050
7030005040
7030005590
7030005240
7030007290
7030008010
7030007290
7030005100
7030005040
7030007280
7030005240
7030005710
7030005040
7030005050
7030005120
7030005120
7030005220
7030005220
7030005040
7030005050
7030005040
7030005120
7030005120
7030005050
7030005120
7030008410
7030005120
7030009140
7030005040
7030005710
7030005000
7030005080
7030004990
7030007340
7030005050
7030005090
7030007340
7030007290
7030005120
7030007270
7030004990
7030005720
7030008010
7030009290
7030005050
7030004990
7030005050
7030005050
7030005050
7030005050
7030005050
7030005030
7030007260
7030007260
7030007290
7030009530
7030005300
7030007280
7030007290
7030007290
7030007300
7030007290
7030007290
7030005120
7030004980
7030005240
7030005050
7030005040
7030007280
7030005570
7030005570
7030005030
7030005050
7030009140
7030005090
7030007290
7030005530
7030005710
7030005570
REF
NO.
DESCRIPTION
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
S.RESISTOR
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
ERJ2GEJ
123X (12 kΩ)
473 X (47 kΩ)
222 X (2.2 kΩ)
103 X (10 kΩ)
472 X (4.7 kΩ)
680 X (68 Ω)
473 X (47 kΩ)
222 X (2.2 kΩ)
123X (12 kΩ)
222 X (2.2 kΩ)
154 X (150 kΩ)
472 X (4.7 kΩ)
331 X (330 Ω)
473 X (47 kΩ)
121 X (120 Ω)
472 X (4.7 kΩ)
103 X (10 kΩ)
102 X (1 kΩ)
102 X (1 kΩ)
223 X (22 kΩ)
223 X (22 kΩ)
472 X (4.7 kΩ)
103 X (10 kΩ)
472 X (4.7 kΩ)
102 X (1 kΩ)
102 X (1 kΩ)
103 X (10 kΩ)
102 X (1 kΩ)
392 X (3.9 kΩ)
102 X (1 kΩ)
272 X (2.7 kΩ)
472 X (4.7 kΩ)
121 X (120 Ω)
471 X (470 Ω)
823 X (82 kΩ)
221 X (220 Ω)
153 X (15 kΩ)
103 X (10 kΩ)
104 X (100 kΩ)
153 X (15 kΩ)
222 X (2.2 kΩ)
102 X (1 kΩ)
151 X (150 Ω)
221 X (220 Ω)
563 X (56 kΩ)
123X (12 kΩ)
562 X (5.6 kΩ)
103 X (10 kΩ)
221 X (220 Ω)
103 X (10 kΩ)
103 X (10 kΩ)
103 X (10 kΩ)
103 X (10 kΩ)
103 X (10 kΩ)
152 X (1.5 kΩ)
330 X (33 Ω)
330 X (33 Ω)
222 X (2.2 kΩ)
270 X (27 Ω)
150 X (15 Ω)
331 X (330 Ω)
222 X (2.2 kΩ)
222 X (2.2 kΩ)
332 X (3.3 kΩ)
222 X (2.2 kΩ)
222 X (2.2 kΩ)
102 X (1 kΩ)
101 X (100 Ω)
473 X (47 kΩ)
103 X (10 kΩ)
472 X (4.7 kΩ)
331 X (330 Ω)
820 X (82 Ω)
820 X (82 Ω)
152 X (1.5 kΩ)
103 X (10 kΩ)
272 X (2.7 kΩ)
104 X (100 kΩ)
222 X (2.2 kΩ)
100 X (10 Ω)
121 X (120 Ω)
820 X (82 Ω)
ORDER
NO.
DESCRIPTION
R325
R326
R327
7030004980 S.RESISTOR
7030005570 S.RESISTOR
7030005030 S.RESISTOR
ERJ2GEJ 101 X (100 Ω)
ERJ2GEJ 820 X (82 Ω)
ERJ2GEJ 152 X (1.5 kΩ)
C1
C2
C5
C8
C9
C10
C11
C12
C13
C14
C15
C16
C18
C19
C20
C21
C22
C23
C27
C28
C30
C32
C33
C35
C36
C37
C39
C40
C41
C42
C43
C44
C45
C46
C47
C48
C49
C50
C51
C52
C54
C55
C58
C59
C60
C61
C62
C63
C64
C65
C66
C67
C69
C70
C71
C73
C74
C75
C78
C79
C80
C81
C82
C84
C85
C86
C87
C88
C89
C90
C92
C93
C94
C95
C96
C97
C98
4030014340
4030011810
4030014220
4030014240
4030014030
4030014000
4030014150
4030014180
4030014160
4030013850
4030013980
4030013850
4030009820
4030014130
4030014170
4030014050
4030014100
4030014080
4030013850
4030013850
4030013850
4030013850
4030014170
4030014120
4030014120
4030014030
4030014070
4030014140
4030014080
4030014060
4030014200
4030009820
4030009820
4030014050
4030014090
4030014090
4030014050
4030013980
4030014050
4030014220
4030013850
4030013850
4030013850
4030014020
4030009820
4030013850
4550006200
4030014210
4030014140
4030009820
4030009820
4030014170
4030013850
4030013850
4030014070
4030013850
4030013850
4030013850
4550006910
4030013850
4030014180
4030013850
4550006200
4030013850
4030014240
4030009820
4030014180
4030014180
4030014180
4030009820
4030009820
4030013850
4030013850
4030013850
4030009820
4030009820
4030014230
ECUE1H390JCQ
C1608 JB 1A 224K-T-N
ECUE1E471KBQ
ECUE1H180JCQ
ECUE1H2R5BCQ
ECUE1H1R5BCQ
ECUE1H220JCQ
ECUE1H470JCQ
ECUE1H270JCQ
ECUE1E102KBQ
ECUE1H010BCQ
ECUE1E102KBQ
C1005 JB 1C 103K-T-A
ECUE1H120JCQ
ECUE1H330JCQ
ECUE1H030BCQ
ECUE1H070CCQ
ECUE1H050BCQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1H330JCQ
ECUE1H100CCQ
ECUE1H100CCQ
ECUE1H2R5BCQ
ECUE1H040BCQ
ECUE1H150JCQ
ECUE1H050BCQ
ECUE1H3R5BCQ
ECUE1H101JCQ
C1005 JB 1C 103K-T-A
C1005 JB 1C 103K-T-A
ECUE1H030BCQ
ECUE1H060CCQ
ECUE1H060CCQ
ECUE1H030BCQ
ECUE1H010BCQ
ECUE1H030BCQ
ECUE1E471KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1H020BCQ
C1005 JB 1C 103K-T-A
ECUE1E102KBQ
ECST0JY106R
ECUE1H151JCQ
ECUE1H150JCQ
C1005 JB 1C 103K-T-A
C1005 JB 1C 103K-T-A
ECUE1H330JCQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1H040BCQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
TESVSP 1C 334M-8R
ECUE1E102KBQ
ECUE1H470JCQ
ECUE1E102KBQ
ECST0JY106R
ECUE1E102KBQ
ECUE1H180JCQ
C1005 JB 1C 103K-T-A
ECUE1H470JCQ
ECUE1H470JCQ
ECUE1H470JCQ
C1005 JB 1C 103K-T-A
C1005 JB 1C 103K-T-A
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
C1005 JB 1C 103K-T-A
C1005 JB 1C 103K-T-A
ECUE1E681KBQ
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.=Surface mount
6-4
[RF UNIT]
REF
NO.
C99
C100
C101
C102
C103
C104
C105
C106
C107
C108
C118
C119
C121
C134
C135
C136
C138
C139
C141
C142
C145
C147
C148
C150
C151
C153
C154
C155
C156
C158
C160
C162
C163
C164
C165
C166
C167
C168
C169
C170
C171
C172
C173
C178
C180
C182
C183
C186
C188
C190
C191
C192
C193
C194
C195
C196
C197
C198
C199
C200
C206
C207
C208
C209
C210
C211
C214
C216
C218
C233
C234
C235
C236
C237
C239
C241
C242
C243
C244
C247
C248
C249
[RF UNIT]
ORDER
NO.
4030014230
4030013970
4030014120
4030013850
4030009820
4030006900
4550003220
4030011600
4030011810
4030011810
4030013850
4030013850
4030013850
4030013850
4030013850
4030014100
4030014220
4030014120
4030009820
4030013850
4030014220
4030014030
4030014220
4030013850
4030014070
4030013970
4030014120
4030014080
4030014420
4030013850
4030013850
4550006200
4030013850
4030013850
4030014020
4030013850
4030013850
4030013850
4030013850
4030013850
4030013850
4030013850
4030013850
4030013850
4030013850
4030013850
4030014000
4030013850
4030013850
4030014000
4030014020
4030014070
4030014110
4030014150
4030014000
4030014020
4030014060
4030014090
4030014130
4030009820
4030014060
4030014170
4030014180
4030013850
4550000530
4030013850
4030013850
4030014130
4030013980
4030013850
4030013850
4030013850
4030013850
4030014000
4030009820
4030011810
4030011810
4030014240
4030014080
4030014090
4550003220
4030009820
REF
NO.
DESCRIPTION
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.CERAMIC
ECUE1E681KBQ
C1005 JB 0J 104K-T-N
ECUE1H100CCQ
ECUE1E102KBQ
C1005 JB 1C 103K-T-A
C1608 JB 1E 103K-T-A
TEMSVA 1E 105M-8L
C1608 JB 1C 104KT-N
C1608 JB 1A 224K-T-N
C1608 JB 1A 224K-T-N
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1H070CCQ
ECUE1E471KBQ
ECUE1H100CCQ
C1005 JB 1C 103K-T-A
ECUE1E102KBQ
ECUE1E471KBQ
ECUE1H2R5BCQ
ECUE1E471KBQ
ECUE1E102KBQ
ECUE1H040BCQ
C1005 JB 0J 104K-T-N
ECUE1H100CCQ
ECUE1H050BCQ
ECUE1H0R5BCQ
ECUE1E102KBQ
ECUE1E102KBQ
ECST0JY106R
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1H020BCQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1H1R5BCQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1H1R5BCQ
ECUE1H020BCQ
ECUE1H040BCQ
ECUE1H080CCQ
ECUE1H220JCQ
ECUE1H1R5BCQ
ECUE1H020BCQ
ECUE1H3R5BCQ
ECUE1H060CCQ
ECUE1H120JCQ
C1005 JB 1C 103K-T-A
ECUE1H3R5BCQ
ECUE1H330JCQ
ECUE1H470JCQ
ECUE1E102KBQ
TESVA 1V 104M1-8L
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1H120JCQ
ECUE1H010BCQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1H1R5BCQ
C1005 JB 1C 103K-T-A
C1608 JB 1A 224K-T-N
C1608 JB 1A 224K-T-N
ECUE1H180JCQ
ECUE1H050BCQ
ECUE1H060CCQ
TEMSVA 1E 105M-8L
C1005 JB 1C 103K-T-A
C250
C251
C252
C256
C257
C258
C259
C264
C402
C410
C414
C416
C423
C424
C427
C429
C430
C431
C432
C433
C434
C435
C436
C503
C504
C505
C507
C510
C511
C512
C513
C514
C515
C516
C517
C518
C519
C520
C521
C522
C523
C524
C525
C526
C527
C528
C529
C530
C531
C532
C533
C534
C535
C536
C537
C538
C539
C540
C541
C542
C543
C544
C545
C546
C548
C550
C553
C557
C558
C560
C561
C562
C563
C654
C655
C656
C657
C658
C659
C662
C663
C664
ORDER
NO.
4030014110
4030014070
4030014110
4030013850
4030013850
4030013850
4030014200
4030013850
4030014180
4030013850
4030013850
4030014160
4550003220
4030009820
4030014350
4030009820
4030009820
4030009820
4030013850
4030013850
4030009820
4030013850
4030014070
4030013850
4030013850
4030013850
4030014210
4030014020
4030014170
4030014130
4030014440
4030014210
4030014200
4030014330
4030014320
4030009810
4030013890
4030009820
4030013970
4030013880
4030013890
4030009820
4030009820
4030013950
4030014440
4030014160
4030014210
4030014490
4030014320
4030013970
4030013890
4030014490
4030013850
4030013970
4030013970
4030013970
4030013970
4030013970
4030013970
4030013970
4030013850
4030013850
4030009820
4030013970
4030013850
4030014110
4030013850
4030013850
4030013850
4030013850
4030013850
4030013850
4030013850
4030011810
4550000510
4030014110
4030014230
4030013880
4550006200
4030013850
4030013970
4030013970
DESCRIPTION
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
S.TANTALUM
S.CERAMIC
S.CERAMIC
S.CERAMIC
ECUE1H080CCQ
ECUE1H040BCQ
ECUE1H080CCQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1H101JCQ
ECUE1E102KBQ
ECUE1H470JCQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1H270JCQ
TEMSVA 1E 105M-8L
C1005 JB 1C 103K-T-A
ECUE1H560JCQ
C1005 JB 1C 103K-T-A
C1005 JB 1C 103K-T-A
C1005 JB 1C 103K-T-A
ECUE1E102KBQ
ECUE1E102KBQ
C1005 JB 1C 103K-T-A
ECUE1E102KBQ
ECUE1H040BCQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1H151JCQ
ECUE1H020BCQ
ECUE1H330JCQ
ECUE1H120JCQ
ECUE1H820JCQ
ECUE1H151JCQ
ECUE1H101JCQ
ECUE1H221JCQ
ECUE1H181JCQ
C1005 JB 1E 102K-T-A
C1005 JB 1H 152K-T-N
C1005 JB 1C 103K-T-A
C1005 JB 0J 104K-T-N
C1005 JB 1H 222K-T-N
C1005 JB 1H 152K-T-N
C1005 JB 1C 103K-T-A
C1005 JB 1C 103K-T-A
C1005 JB 1A 393K-T-N
ECUE1H820JCQ
ECUE1H270JCQ
ECUE1H151JCQ
ECUE1E331KBQ
ECUE1H181JCQ
C1005 JB 0J 104K-T-N
C1005 JB 1H 152K-T-N
ECUE1E331KBQ
ECUE1E102KBQ
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
ECUE1E102KBQ
ECUE1E102KBQ
C1005 JB 1C 103K-T-A
C1005 JB 0J 104K-T-N
ECUE1E102KBQ
ECUE1H080CCQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
ECUE1E102KBQ
C1608 JB 1A 224K-T-N
TESVA 1V 473M1-8L
ECUE1H080CCQ
ECUE1E681KBQ
C1005 JB 1H 222K-T-N
ECST0JY106R
ECUE1E102KBQ
C1005 JB 0J 104K-T-N
C1005 JB 0J 104K-T-N
S.=Surface mount
6-5
[RF UNIT]
REF
NO.
ORDER
NO.
DESCRIPTION
C665
C666
C667
4030014200 S.CERAMIC
4030014470 S.CERAMIC
4030009820 S.CERAMIC
ECUE1H101JCQ
ECUE1E391KBQ
C1005 JB 1C 103K-T-A
J1
6510020550 S.CONNECTOR AXK6S40445P
EP1
0910050763 PCB
B 5163C
S.=Surface mount
6-6
SECTION 7
MECHANICAL PARTS AND DISASSEMBLY
7-1 CABINET PARTS
[ACCESSORIES]
[CHASSIS PARTS]
REF. NO. ODER NO.
REF. NO. ODER NO.
DESCRIPTION
QTY.
J1
6510020950 Connector SMA-R226
1
SP1
2510000960 Speaker K036NA500-26A27
1
MP1
MP2
MP3
MP4
MP5
MP6
MP7
MP8
MP9
MP10
MP11
MP13
MP14
MP15
MP22
MP23
MP26
MP27
8210015690
8210014981
8110006280
8930044211
8930047620
8930047610
8310044470
8010017352
8930011900
8830000570
8830001090
8110006290
8610010520
8930044250
8810009790
8810009560
8930047470
8930043440
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3
2
1
1
1995 Front panel (C)
1995 Rear panel-1
1995 BATT cover
1995 7-Key-1
2127 PTT rubber
2127 Jack cap
1995 Window plate (A)
1995 Chassis-2
Sheet SP net (A)
Screw (A)
Screw (D)
1995 Lock cover
Knob N-262
1995 BATT seal
Screw PH B0 1.7X4NI-ZU (BT)
Screw PH B0 2X6ZK (BT)
1995 Mic sheet
Sponge (EY)
DESCRIPTION
5030001610 LCD DLC-7995
1
EP2
8930046581 LCD contact
1
MP1
MP2
MP3
MP4
MP5
8930044290
8930046400
8210015420
8810009790
8510012030
1
1
1
2
1
1995 LCD holder
1995 LCD sheet
1995 Reflector
Screw PH B0 1.7X4NI-ZU (BT)
2127 Shield case
[RF UNIT]
REF. NO. ODER NO.
J1
DESCRIPTION
6510020550 S.Connector AXK6S40445P
Screw abbreviations
EP1
EP2
3310002150 Antenna FA-S270C
0800005090 Chager BC-127A ACC
0800005100 Chager BC-127D ACC
MP1
MP2
8930044191 1995 Belt clip-1
8010011960 Handstrap
MP2
QTY.
1
A, B0, BT: Self-tapping
PH: Pan head
FH: Flat head
BiH: Bind head
NI: Nickel
SUS: Stainless
ZK: Black
7-1
QTY.
[EUR], [USA], [CAN]
[OTH] only
2
2
[USA], [CAN] only
[EUR], [OTH] only
1
1
1
1
1
MP1
BT1
QTY.
DS8
3030000420 NICD CEL
3030000450 NICD CEL
EP1
[LOGIC UNIT]
REF. NO. ODER NO.
DESCRIPTION
BT1
EP2
MP3 (C)
MP15 (C)
MP5 (C)
MP2 (C)
RF unit
J1 (R)
MP22 (C)
J1 (C)
MP4 (L)
MP2 (L)
MP3 (L)
EP2 (L)
MP23 (C)
DS8 (L)
MP1 (L)
MP6 (C)
MP8 (C)
MP14 (C)
MP22 (C)
MP11 (C)
MP10 (C)
MP1 (C)
MP5 (L)
MP26 (C)
MP27 (C)
MP4 (C)
MP7 (C)
LOGIC unit
SP1 (C)
MP9 (C)
UNIT abbreviation (C): CHASSIS PARTS, (R): RF UNIT, (L): LOGIC UNIT
7-2
MP13 (C)
SECTION 8
SEMI-CONDUCTOR INFORMATION
• TRANSISTOR AND FET’S
2SC4081 S
(Symbol: BS)
2SA1588 GR
(Symbol: A6)
C
E
2SC5006
(Symbol: 24)
2SC5277 D2
(Symbol: D2)
B
C
E
B
B
B
C
E
XP1113
(Symbol: 7L)
XP4213
(Symbol: 8S)
C2
E
C1
2SJ144 Y
(Symbol: VX)
2SK880 Y
(Symbol: XY)
S
C
E
XP4312
(Symbol: 7T)
G
G
D
µPA805T
(Symbol: T82)
FH102
(Symbol: 102)
B
C
E
E
D
DTC144EE
(Symbol: 26)
C
E
C
E
DTC114EE
(Symbol: 24)
B
C
S
C
E
DTA144EE
(Symbol: 16)
B2
E
2SC5231 C8
(Symbol: C8)
B
B
C
C
E
2SC4617 S
(Symbol: BR)
2SC4215 O
(Symbol: QO)
B
B
B
B1
2SC4117 GR
(Symbol: DG)
E2
C2
E2
C2
B2
E1
B2
E1
B1
C1
B1
C1
XP6501 AB
(Symbol: 5N)
E1
C1
E1
C1
E1
C1
B1
B2
B1
B2
E2
B1
C2
E2
C2
E2
B2
C2
• DIODES
1SS372
(Symbol: N9)
1SV172
(Symbol: BE)
1SV286
(Symbol: T7)
1SV305
(Symbol: TV)
1SV308
(Symbol: TX)
HVU350
(Symbol: 4)
MA132WK
(Symbol: MU)
MA2S077
(Symbol: S)
MA2S111
(Symbol: A)
MA6S718
(Symbol: M2N)
A1
K
A2
MA728
(Symbol: 2A)
A
MA729
(Symbol: 2B)
K
8-1
SECTION 9
BOARD LAYOUTS
9 - 1 LOGIC UNIT
+
D10
D6
D7
D8
D9
C39
IC5
Q13
R100
R5
C40
R88
R89
• TOP VIEW
R87
C15
IC11
R49
R50
C42
R26
IC2
R185
Q40
D1
R86
Q18
9-1
C51
R32
C106
R77
R33
R34
R35
W2
R51
+
+
C121
R24
C24
C35
IC3
C5
+
D14
DS2
• BOTTOM VIEW
+
C96
C4
Q11
+
C116
X1
C8
C107
R180
C101
Q35
S9
C103
Q4
R181
+
Q41
R114
D4
R37
R23
Q38
IC1
C123
Q3
C100
R183
R94
+
+
R184
Q24
C53
D3
R102
C94
C36
D15
IC15
+
+
C48
C61
R103
J2
C79
C60
C57
C44
C19
D5
C17
W3
C114
C43
R156
C76
R40
R41
R153
R141
R138
C77
R109
R132
R130
C93
R112
C86
R157
C92
Q37
C91
C90
R164
R166
S8
C71
R127
R122
R117
R150
R128
R165
R108
Q30
IC14
R137
R149
Q31
R126
C70
C69
D16
C72
R133
C63
C68
C73
R125
C67
R119
S10
R121
R136
C81
R124
R129
R123
R118
R120
C65
R159
C80
C82
C66
W5
R113
D17
Q17
C74
R116
C52
C18
+
R48
Q36
R140
Q8
C11
C78
R90
R82
C89
C97
C14
C12
R38
R39
C13
R42
9-2
R161
C3
R91
C88
C87
Q26
R12
C58
IC9
R92
++ ++
C1
R14
C33
1
Q23
+
C108
C118
C6
C120
R18
BATRY
BATRY
R172
R186
20
R52
R174
R9
R68
C37
C119
C98
C16
R182
R1
J1
AM
GND
SDET
RSSI
WFMS
GND
GC
300MC
800MC
GND
GND
UHFC
VHFC
TRAC
B3
B2
GND
Q6
R3
R179
+
21 WFM
AMS
R3V
FSET
+3V
GND
PSTB
PCK_IS
PDAUL
VP
+3S
GND
B1
HFC
SHIFT
ATT
DBL1
DBL2
GND
40 GND
IC10
C41
C102
J1
to RF unit J1
+
R78
R175
R67
+
R22
C9
R173
Q39
R25
R8
R79
L1
D13
+
+
IC4
9 - 2 RF UNIT
C65
D55
R177
R179
R62
R219
C221
R42
C206
C108
R38
R40
R135
R128
D42
C530
R202
C423
C106
Q2
R66
R319
C237
C244
++
Q43
R170
R171
C531
C562
R200
C104
C563
C529
R65
Q40
C236
Q45
R201
L80
+
+
C248
+
+
C105
C510
R156
L85
+
+
L91
C525
L87
C528
C523
R198
R169
C210
C532
R226
R225
D65
C522
D63
R222
C516
C23
C22
C21
L2
L86
C517
C519
L83
L5
C218
L4
C19
L3
C527
R223
C518
L39
R239
D3
C540
R236
C543
Q507
C524
C216
R235
R327
D68
C151
C20
C545
R233
R234
C542
L84
C520
C667
D69
C546
R237
C541
D64
R14
X1
R196
C560
D70
C521
R13
R232
R197
R224
R89
R88
C1
C257
C235
L61
C42
L10
R98
C134
C85
C258
R134
C561
Q35
C135
D18
R39
C28
C55
C84
C86
C256
L55
R15
C40
C550
R64
R220
C30
D52
C196
C195
C171
R147
L54
D4
C197
C198
C44
C59
C41
C27
D31
J1
L56
D47
R16
L92
C665
C46
C47
D13
L9
Q33
C169
L60
C48
C666
C150
C526
R108
C58
R106
L41
R91
C136
R105
R6
C43
C141
L13
R18
C49
C142
IC3
R4
R323
D5
Q36
R187
R221
D29
D34
C414
C5
R325
D36
C2
R326
C199
R112
Q26
C662
C249
R41
R324
C664
R231
C147
L43
IC11
R20
C45
C107
C87
Q5
C73
R43
C654
R19
R110
C89
R5
C148
C51
C155
R103
C435
C663
C50
D53
L69
L17
R34
L44
L11
J1
to RF unit J1
R49
C251
R35
R36
C431
R208
C18
R28
R159
IC10
R99
R29
C250
C247
C74
C432
9-3
R27
C88
L73
C75
C102
D60
R204
D58
L12
Q4
C252
R209
R205
C200
C61
IC2
C239
R46
D56
C427
C429
Q1
C430
FI3
C52
R30
R172
C64
R31
R116
C101
C92
R55
R199
Q41
R26
C63
C60
R60
R61
C97
C98
C99
R58
R59
R174
D57
R56
C94
R54
R57
C95
C242
C93
C96
• TOP VIEW
20 AM
GND
SDET
RSSI
WFMS
GND
GC
300MC
800MC
GND
GND
UHFC
VHFC
TRAC
B3
B2
GND
GND
BATRY
1 BATRY
21
WFM
AMS
R3V
FSET
+3V
GND
PSTB
PCK_IS
PDAUL
VP
+3S
GND
B1
HFC
SHIFT
ATT
DBL1
DBL2
GND
GND
40
C657
L28
L90
C539
C557
L88
C538
C67
C534
R79
C13
C416
L59
C10
C11
C512
L82
D11
D1
C32
C118
R8
C9
C535
C36
C12
C145
R93
L42
C138
C39
L58
D21
R101
Q24
D32
R100
L8
C264
C139
C54
L1
C37
C214
R95
C33
R102
Q501
D75
D2
C558
D67
L7
C436
FI1
C513
Q505
D25
D74
R229
D71
IC1
D73
R230
C119
C548
L53
C121
D72
R216
L51
C16
Q502
L74
L15
R203
C507
D59
D61
C90
R207
L77
L81
C658
C153
C80
L57
C182
C15
R81
C71
C241
L14
C193
C233
R11
C410
C243
R215
Q14
C191
C70
C259
L70
D62
C505
C434
C511
R238
C190
R10
C211
R152
C504
C209
R154
L20
Q37
C81
C14
C167
D50
L50
C194
C208
Q6
R120
C659
C515
C544
C168
L52
R129
R151
D20
Q503
C78
C192
C402
C207
D17
C537
R210
Q31
C553
R37
L45
R1
D66
Q508
C170
C186
L89
C166
Q506
R125
Q504
R132
C172
R227
+
+
C158
C188
R123
R131
C503
C536
D44
D46
R133
C162
C163
R67
R130
Q29
C180
R104
C79
Q509
L63
D43
L62
D54
L68
C183
C160
C178
C165
R188
R160
C82
R121
IC4
C156
Q30
R162
C164
R124
Q28
C424
C66
C100
Q44
C62
L21
C433
Q46
SEN
R163
FI2
++
C656
++
++
C173
+
+
+
+
C655
• BOTTOM VIEW
R50
C103
C154
C234
L40
C35
R78
C69
R9
R228
C8
C514
9-4
QUADFI2
SECTION 10
BLOCK DIAGRAM
RF UNIT
LIM
Q506: DTA144EE
LPF
B1_3V
D63: MA2S077
D65: MA2S077
D66: MA2S077
BPF
BANDSW
BANDSW
B1
Q501: DTA144EE
HFC
300M3V
300MC
RXBAND
SW
DATA
B2_3V
RXBAND
SW
B3_3V
HPF
UHFC
RXBAND
SW
VHFC
RX
1stVCO
B2
15-29.995MHz
267.1950-549.8475MHz
B3
Q503: XP1113
G3V
Q504: XP1113
D13: 1SV308
D73: 1SV308
D75: 1SV308
Q502: XP1113
UHF3V
D64: MA2S077
D67: MA2S077
D70: MA2S077
0.495-29.995MHz
LPF
RF
AMP
VHF3V
1.9-14.995MHz
ANT
SW
RXBAND
SW
HF3V RXBAND
SW
Q505: 2SC4215
D69: MA2S077
ATT
COMMON
Q509: DTA144EE
0.495-1.8995MHz
D68: 1SV172
Q28: 2SC5006
Q30: 2SC5006
D54: 1SV286
GC
RXBAND
SW
800M3V
380MC
Q40: 2SC5231
IC4: UPC2746T
BUFF
BUFF
1stVCO
118-175MHz
118-174.995MHz
BANDSW
LPF
D3: 1SV308
D11: 1SV308
D74: 1SV308
RF
AMP
BPF
Q14: FH102
D1: HVU350
D2: HVU350
Q43: 2SC5231
Q35: UPA805T
BPF
BPF
RF
AMP
PASS
RXLOSW
283.00494.195MHz
833.0001066.695MHz
D32: 1SV308
D34: 1SV308
D52: 1SV308
D50: 1SV308
D47: 1SV308
LPF
Q37: 2SC4617
D53: MA2S111
D57: MA728
D20: MA6S718
D21: MA6S718
Q46: XP4312
Q44: XP4312
Q4: XP6501
Q1: XP6501
LFP
Q33: XP1113
+3S
FI3: FL-293
Q31a: FH102
LOSW
CONT
BPF
RF
AMP
x2
D36: 1SV308
BANDSW D71: 1SV308
D60: MA2S077
D61: MA2S077
LPF
AM
DET
AMFMSW
D58: MA2S077
D59: MA2S077
Q31b: FH102
D16: MA132WK
Q18: DTA144EE
IC2: TA31136FN
Q26: 2SC5277
833-1309.995MHz
BPF
RF
AMP
1066.700-1309.995MHz
494.200-832.995MHz
RF
AMP
IF IC
WNSW
Q31: 2SC4081
Q37: 2SJ144
PRE
AMP
MUTE
DS8: DLC-7995
Q30: XP6501
LCD
AMUTE
DEFIL
WFM
D56: MA132WK
Q5:
2SC5231
FI1: EFCH266MKQP1
266.7MHz
BPF
D55:
MA132WK
IF
AMP
BPF
IC1: UPC2757T
IC11: UPC2746T
AM
D17: MA2S111
RX
SW
RX
SW
IC10:
UPC2757T
AF
AMP
V
R
C
x2
BANDSW
Q36: 2SC5231
30-117.995MHz
175-329.995MHz
R3V
RIPPLE
FIL
Q6: FH102
D17: 1SV305
BUFF
Q2: 2SK880
Q45: 2SC4117
PDAUL,PCK_IS,PSTB
IC3: UPD3140GS
2nd
VCO
RXLOSW
VR IC
LOOP
FIL
PLL
IC
LOOP
FIL
IC15: TA31056F
Q24: 2SA1588
Q36: 2SC4081
IC14: M5222FP
0.495-282.995MHz
SHIFT
Q24: 2SC5277
19.200 MHz
D18: HVU350
D25: 1SV308
D29: 1SV308
D72: 1SV308
470-832.995MHz
Q23: 2SA1588
Q41: 2SC4617
D42: MA2S077
D43: MA2S077
D44: MA2S077
BANDSW
D4: HVU350
D5: HVU350
AFREG
X1: CR593
AMP
T
R
A
C
330-469.995MHz
RF
AMP
AFON
Q29: DTC144EE
330-470MHz
BPF
SHIFT
SHIFT
SW
Q17: 2SJ144
WFIL
CERAMIC
BPF
FI2:
CFWM450E
WSW
LOGIC UNIT
RX
TONE
FIL
WFMS
Q6: 2SA1588
+3V
+3V
CONT
Q38a:
2SC4081
RTONE
IC9: NJM2904V
Q8: DTA144EE
LIGHT
LIGHT
SWITCH
POWERC
SDET
SQL
NOISE
DET
X1: CR613
TCON
4.935MHz
IC1: HD74LVOO
Q35: 2SA1588
+3S
+3S
CONT
W
F
M
+3SC
R3V
R3V
CONT
RX
IC4: S-81332HG
R
E
S
E
T
IC3: XC62FP3002MR
+3
REG
+3.2
REG
Q4: 2SA1588
RIPPLE
FIL
Q26: 2SC4081
BATT
10 - 1
X4
D3: 1SS372
D15: 1SS372
D5: 1SS372
DC-DC
IC10: X6371A351PR
D4: MA729
IC11: M38267M8L
B
A
T
T
CLSW
RESET
Q11b: XP4213
D1: MA2S111
IC5: S-80725SL
D14: MA2S111
Q13: DTC114EE
VP
7 KEY
CPU
Q3: 2SA1588
Q39: XP6501
E
X
T
BATT
CHECK
EEPROM
IC2: X25650S8I-2.5
Q40: 2SA1588
INITIAL
MATRIX
D6: MA2S111
D7: MA2S111
D8: MA2S111
D9: MA2S111
D10: MA2S111
D12: MA2S111
D13: MA2S111
Q11a: XP4213
DS2: CL-200YG-C-TS
LIGHT
LED
SECTION 11
VOLTAGE DIAGRAM
• LOGIC UNIT
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
DS8 DLC-7995
B3
COM0
COM1
COM2
COM3
SEG3
SEG31
SEG30
SEG29
SEG28
SEG27
SEG26
SEG25
SEG24
SEG23
SEG22
SEG21
SEG20
SEG19
SEG18
SEG17
SEG16
SEG15
SEG14
SEG13
SEG12
SEG11
SEG10
SEG9
SEG8
SEG2
SEG7
SEG6
SEG5
SEG4
SEG1
SEG0
3.01
B2
BATRY
LIGHT ON: 2.82
UP
S3
R18
220 k
DN
C52
0.001
COM3
COM2
COM1
R35
10 k
UP: 0
DN: 2.04
COM0
R34
47 k
C106
0.1
C114
0.1
S9
TP90N00E20-16F-1995
C8
10 P
3.16
Q4
2SA1588 GR
EDA
X1
CR-613
RESET
KSQL
B1
B2
B3
POWERC
+3SC
LIGHT
R3
47 k
R1
4.7 k
C9
10 P
R174
3.3 k
6
5
Q39
XP6501 AB
2
1
2.49
+
R9
47 k
1.89
Q13
DTC114EE
RESET
R100
10 k
0
R87
220 k
3.13
C39
0.1
R89
100 k
IC4
S-81332HG-KC
C120
1
D3
1SS372
C121
1
C6
1
IC10
XC6371A351PR
1
EX
O
D5
1SS372
3.0
C94
1
L1
CD54-101KC
C17
1
3.52
2
BATRY
C16
0.001
C98
33
D4
MA729
3
C40
0.001
D15
1SS372
C116
0.1
DC-DC CONV
R103
100 k
BATT
R102
100 k
R186
100 k
POWER
POWER
S10
JPM1990-2013R
3
2
BEEP
D1
MA2S111
1
6
C18
3.3
I
G
S7
KFUNC
+
C19
1
S1
5
R37
470
R23
15 k
+3S
R26
33 k
Q11 XP4213
TCON
Q40
2SA1588 GR
PSTB
I1
I2
ECK_I3
PCK_IS
ECS
EDA
SDET
ECS
IC2
X25650S8I-2.5
CS
SO
VCC
HOLD
WP
VSS
SCK
SI
Q8
DTA144EE
R12 100K
R24
15 k
D7
MA2S111
D8
MA2S111
IC9
NJM2904V
1
2
3
D9
MA2S111
SQL
D13 MA2S111
KS1
C43
0.001
R38
1M
C13
0.1
8
7
6
5
4
D10 MA2S111
C3
0.1
C44
0.1
R90
1M
KSO
D6
MA2S111
J2
HSJ1594-010050
R14
120 k
R92
C1
100 P 470 k
R52
15 k
8
7
6
5
R41
82 k
R91
470 k
C11
0.1
C12
0.039
R138
5.6 k
R39
470 k
Q35
2SA1588 GR
7
6
5
4
3
2
1
IC1
HD74LV00
C101
0.001
R181
12 k
C118
0.47
8
9
10
11
12
13
14
SP1
R180
470 k
C57
0.001
C102
100 P
SDET
R182
100 k
R183
10 k
C103
0.1
C100
0.1
8
R179
220
R3V
7
6
5
Q41
2SC4617 S
AF ON: 0.663
+
C61
220
VCC
TB
OUT
GND
OUT1
IN1
COM
GND
VCC
OUT2
IN2
VC
8
7
6
R128
10
C80
0.1
Q18
DTA144EE
C63
0.1
5
2.39
R127
18 k
R126
18 k
R159
33 k
C91
0.1
C90
0.0047
R166
220 k
R164
10 k
C86
1
R149
2.2 k
6
Q30
XP6501 AB
1.83
R133
180 k
C81
0.1
C97
0.1
D17
MA2S111
1
C73
0.1
5
4
C70
0.0047
2
C72
0.0047
R140
180 k
R141
180 k
R124
10 k
MUE: 3.0
R108
1M
+
C88
C79
100 P 4.7
Q31
2SC4081 S
2.42
C82
0.1
+
C89
4.7
R137
47 k
R122
180 k
AM,NFM: 1.31
R150
820
Q17
2SJ144 Y
C76
0.1
R153
47 k
AMS
R136
22 k
R117
470 k
R121
470 k
WFMS
C68
0.018
C66
0.1
R118
15 k
NFM: 1.37
C77
0.1
WFM: 0
C65
0.1
R120
180 k
C69
0.0047
R129
47 k
R116
47 k
C67
0.1
D16
MA132WK
3
R125 15 k
1
2
AM: 1.1
NFM: 1.06
R123
120 k
0.93
C92
0.1
Q37
2SJ144 Y
C78
0.047
3
4
R113
82 k
R112
33 k
C58
0.1
IC15
TA31056F
R119
180 k
AM: 1.44
2.97
R165
15 k
R161
8.2 k
IN
VREF
NF
COMP
AM
C71
0.0022
3.12
R157
120 k
Q23
2SA1588 GR
Q24
2SA1588 GR
AF ON: 2.34
+
R156
33 k
1
2
3
4
C87
1
R114
4.7 k
W5
0.94
C60
47
W2
W3
IC14
M5222FP
Q36
2SC4081 S
1.51
R40
82 k
+
R42
82 k
C14
0.0015
VRC
R77
100 k
R86 100 k
1
2
3
4
AM: 0
NFM: 3.01
BATRY
R25
100 k
BATRY
R79
100 k
RTONE
2.34
R78
100 k
AFON
R185
3.3 k
WFM
AMS
R3V
FSET
+3V
GND
PSTB
PCK_IS
PDAUL
VP
+3S
GND
B1
HFC
SHIFT
ATT
DBL1
DBL2
GND
GND
13.57
C48
1
G
D14
MA2S111
R88
1M
13.03
C119
1
0
3.21
IC5
S-80725SL-AN
POWERC
+3SC
R82
47 k
C33
1
C15
+ 47
C36
1
+
C4
33
C96
4.7
+3V
I
C24
10
C37
0.001
R67
47 k
R68
4.7 k
VP
C35
0.001
G
C5
0.001
3
R173
2.2 k
1.34
0
+
2.54
Q26
2SC4081 S
13.69
IC3
XC62FP3002MR
Q6
2SA1588 GR
R8
33 k
4
R175
5.6 k
C123
0.1
3.01
2.84
DUD
DCK
KTS
4
BATRY
BATRY
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
Q3
2SA1588 GR
1.94
ECS
ADJ
ATT
K2
K1
AMUTE
BATT
RSSI
RTONE
TRAC
FSET
TCON
SQL
KFUNC
KTS
VRC
DCK
AM
WFM
CLOUT
CLIN
BEEP
DUD
POWER
AFON
DBL1
R32
47 k
UP
E
DN
PSTB
I1
I2
ECK_I3
PCK_IS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
R33
47 k
IC11
M38267M8L-218GP [USA] only
M38267M8L-222GP other
R3V
+3S
PDAUL
4
R48
120 k
S2
K1
+3V
DBL2
5
C42
0.1
KSQL
300MC
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
NC
V/M
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
NC
SEG19
SEG20
SEG21
SEG22
SEG23
SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
OUT
VDD
VSS
R49
330 k
J1
AXK5S40340P
3.2
1
2
3
S5
BAND
C107
0.22
DS2
CL-200YG-C-TS
S8
JPM1990-2013R
C108
0.001
AM
R5
10
LAMPS
LIGHT
SHIFT
R3V
S6
R50
120 k
R184
1k
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
C51
0.001
MODE
VHFC
UHFC
800MC
GC
SEG18
SEG17
SEG16
SEG15
SEG14
SEG13
SEG12
SEG11
SEG10
SEG9
SEG8
SEG7
SEG6
SEG5
SEG4
SEG3
SEG2
SEG1
SEG0
HFC
R51
120 k
S4
K2
Q38
2SC4081 S
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
R172
10 k
R94
10 k
GND
SDET
RSSI
WFMS
GND
GC
300MC
800MC
GND
GND
UHFC
VHFC
TRAC
B3
B2
GND
C41
0.1
MODE: 0
BAND: 1.572
V/H: 2.31
R132
10 k
C93
0.018
R130
15 k
C74
0.1
R109
1M
WFM
WFM: 0
OTHERS: 3.01
AM,NFM: 1.67
C53
0.1
11 - 1
• RF UNIT
1stVCO
ATT
C536
0.1
R237
2.7 k
R236
10 k
Q507
2SC5277 D2
L81 0.27 µH
C517
180 P
L84
0.47 µH
R78
330
Q14 FH102
D74
1SV308
L57
47 nH
L59
56 nH
L58
56 nH
118-175M: 1.89
2
6
1
R9
6.8 k
L70
0.10 µh
175M LPF
VHF
118-175M
D75
1SV308
330-470M: 1.91
R79
4.7 k
C216
12 P
L3
22 nH
L4
22 nH
L5
15 nH
5
2
6
1
C550
8P
C21
3P
C22
7P
L61
6.8 nH
C27
0.001
470-833M: 1.88
C39
4P
30-118M
175-330M: 2.78
833-1300M: 1.23
C40
15 P
C42
3.5 P
C41
5P
R105
68
C141
0.01
C45
0.01
D32
1SV308
C47
6P
L13
5.6 nH
C48
6P
C50
1P
L11
15 nH
C5
470 P
L12
10 nH
C51
3P
L43
4.7 nH
C435
0.001
470-833M: 2.45
30-118M
175-330M: 2.46
R19
47 k
C52
470 P
R20
120
4
235
D36 1SV308
R231
4.7 k
L44
4.7 nH
C148
470 P
R110
12 k
IC10
UPC2757T-E3
IFO 6
VCC 5
PS 4
R112
2.2 k
833-1300M: 2.24
C663
0.1
R323
120
C1
39 P
C171
0.001
J1 AXK6S40445P
GND 40
GND 39
DBL2 38
C88
47 P
R43 100
C87
47 P
C18
0.01
L56
6.8 nH
R324
82
IC11
UPC2746T
R203
10 k
1 RFI
2 GND
3 LO
C153
0.1
R220
15
R221
330
C206
3.5 P
R4
330
6
IFO
VCC 5
PS 4
L77
8.2 nH
C234
0.001
4
C103 0.01
L17
3.3 µH
R35
15 k
D60
MA2S077
C101
10 P
R36
6.8 k
R208
10 k
R207
10 k
C431
0.01
C247
6P
C73
0.001
R56
470
5 B2
+3S 31
10 GND
VP 30
PDAUL 29
11 GND
12 800MC
PCK_IS 28
13 300MC
PSTB 27
14 GC
15 GND
R55
3.3 k
17 RSSI
R3V 23
18 SDET
AMS 22
19 GND
WFM 21
20 AM
GC
1
2
4
3 800MC
Q503 XP1113
FM: 1.26
R49
10
C239
0.01
1
C100
0.1
FI2
CFWM450E
2
R50
10 k
C99
680 P
3 4 5
WFM
3
4
R172
15 k
R199 R174
12 k 10 k
R46
15 k
C221
0.01
FM: 1.27
D55
MA132WK C92
0.01
WFM: 1.74
5
2
6
1
WFM: 1.16
Q46 XP4312
C95
0.001
R3V
R59
1.5 k
C242
C96
0.01
Q41 0.22
DTA144EE
C93
0.001
D21 MA6S718
16 WFMS
FSET 24
C98
680 P
2.0
D62 MA728
C553
0.001
8 VHFC
9 UHFC
D56
MA132WK
R34
1k
R326
82
C557
0.001
B1 33
GND 32
Q502 XP1113
C505
0.001
1
2
3
4
5
6
7
8
C94
0.001
L21
LS-510
D20 MA6S718
833-1300M: 0.58
833-1300M: 2.97
OSCIN
MIXIN
OSCOUT
GND
N-REC MIXOUT
VCC
N-DET
IFIN
RSSI
DEC
IFOUT
FILOUT
QUAD
FILIN
AFOUT
R54
22 k
R103
10 k
3.12
C264
0.001
C414
0.001
16
15
14
13
12
11
10
9
L74
39 nH
833-1300M
TRAC
PCK_IS
PSTB
+3V
VHFC
3
5
R60
100 k
R62
82
Q5
2SC5231 C8
C436
4P
L15
39 nH
7
800M3V
IC2
TA31136FN
CP2
2.72
FI1 EFCH266MKQP1
C70
0.001
HFC 34
UHFC
1
4
C241 0.22
C102
0.001
D61
MA2S077
WFM: 1.5
C71
4P
5
C504
0.001
R159
1k
C75 0.001
R209
1.5 k
2
B3
PDAUL
2
C659 +
10
C251
4P
C250
8P
FI3 FL-293
C507
150 P
UHF3V
R3V
R205 10 k
3
1
C427
56 P
6
ATT 36
+3V 25
C503
0.001
C252
8P
L69 22 nH
C430
0.01
WFM: 1.5
4 GND
SHIFT 35
300MC
VHF3V
C74
0.001
C429 L73
0.01 1.2 µH
D59
MA2S077
C90
0.01
C259
100 P
FM: 1.24
D58
MA2S077
1 BATRY
2 BATRY
3 GND
FSET
VP
R3V
Q501 DTA144EE
C154
10 P
R204 10 k
C402
47 P
DBL1 37
2.4
R1
330
C80
47 P
D17
1SV305
DBL2ON: 2.83
C86
0.01
0.89
R120
4.7 k
R147
1k
C424
0.01
G3V
3
DBL2ON: 3.06
L55
10 nH
DBL2
1
G3V
11 - 2
C199
12 P
3.19
C81
0.001
2
D47
1SV308
GND 26
Q6
FH102
4
C208
47 P
IC1 UPC2757T-E3
R325
100
6
FM: 1.24
C432
0.001
C662
0.001
C147 2.5 P
C79
0.001
C78
0.33
1
RFI
2 GND
3 LO
30-118M
175-330M
30-118M
175-330M: 2.99
Q26 2SC5277 D2
C82
10
L45
10 nH
+
R219
27
6
C49
3P
C198
6P
DBL2
DBL1ON: 2.84
C196
2P
L54
12 nH
R130
1k
+3S
1
D50
1SV308
C197
3.5 P
300M3V
L20
47 nH
5
C207
33 P
470-833M
C664
0.1
30-118M
175-330M: 0.37
+
R37
1.5 k
1
C46
3P
C209
0.001
330-470M: 3.05
D71
1SV308
R6
120
R106
47 k
C195
1.5 P
1.66
R154 1 k
R3V
C44 0.01
D31
MA132WK
L51
15 nH
DBL2ON: 1.07
C170
0.001
C656 8 P
R121 330
D34
1SV308
R108
2.2 k
C155
5P
Q37
2SC4617 S
D53
MA2S111
R102
2.2 k
R93
120
C138
470 P
L41 0.1µH
L92
0.39 µH
C55
0.001
R67
10 k
330-470M
C142 0.001
R18
15 k
R131
22 k
DBL1
2
SDET
R40
100 k
C89
47 P
Q36 2SC5231 C8
C666
390 P
R98
2.2 k
R99
1k
C43
100 P
C665
100 P
DBL1ON: 1.05
C188
0.001
3
5
L53
15 nH
R41 100
R91
2.2 k
470-833M: 0.54
Q24 2SC5277 D2
833-1300M: 0.53
1
R151
1k
C194
22 P
C193
8P
L52
22 nH
4
C85
18 P
C106
0.1
R201
10 k
6
C190
1.5 P
C192
4P
X1 CR-593
1
2
3
R39
100 k
Q45
2SC4117 GR
C654 0.22
C139 10 P
L7
27 nH
L10
22 nH
D5
HVU350
L60
6.8 nH
UHF
L40
8.2 nH
C35
10 P
C37
2.5 P
R66
22 k
R5
6.8 k
C214
0.001
L42
5.6 nH
R101
47 k
R95
2.2 k
R134
10 k
D18
HVU350
C2
0.22
TRAC
C136
7P
R38
100
2
R215
33
R135
4.7 k
R200
5.6 k
330-470M: 2.5
R210
33
C186
0.001
D44
MA2S077
C655
0.047
C249
0.01
UHF3V
R100 12 k
C145
470 P
L8
5.6 nH
C36
10 P
R16
0.001
Q2
2SK880 Y
R187
2.2 k
118-175M: 3.0
C58
0.001
D4
HVU350
C150
0.001
C54
0.001
C33
33 P
+
1 2 3 4 5 6 7 8 9 10
DBL2ON: 2.51
C84
0.001
CP4
C410
0.001
C23
5P
C104
0.01
+
C248
1
3
5
Q33
XP1113
4
D29
1SV308
470-833M: 2.98
L9
33 nH
118-175M: 2.47
C105
1
4
DBL1ON: 3.06
R152
10 k
DBL1
C191
2P
Q31 FH102
R132
22 k
C169
0.001
D52
1SV308
R42 100
330-470M: 2.18
R13 15 k
C30
0.001
C59
2P
C28 R15
0.001 47 k
470-833M: 2.98
D13
1SV308
R81
2.2 k
C233
0.001
330-470M: 3.5
C135
0.001
C151
4P
L2
33 nH
D11 1SV308
R11
47 k
D2
HVU350
C119
0.001
C134
0.001
R89
4.7 k
R14
6.8 k
C218
1P
C20
33 P
R239
2.2 k
R88
330
L39
39 nH
118-175M: 0.49
C32
0.001
L1
47 nH
R10
47 k
D1
HVU350
3
4
330-470M: 0.42
C19
12 P
IC3
UPD3140GS
D25 1SV308
R65 5.6 k
VHF3V
Q35
µPA805T
118-175M: 1.19
D3
1SV308
C121
0.001
TRAC
C548
0.001
R64
390
20 19 18 17 16 15 14 13 12 11
C561
0.001
C167
0.001
L50
22 nH
C172
0.001
R128
10 k
D42
MA2S077
R129
1k
R133
4.7 k
D43
MA2S077
+
C16
0.001
0.001
Q30
2SC5006
C168
0.001
B3
C243 18 P
R8
15 k
R216
2.2 k
3
L80 5.6 nH
C510
2P
DBL1,2OFF: 1.48
15-30M: 2.05
C15
1P
IC4
UPC2746T
R156
2.7 k
DBL1ON: 2.51
C560
0.001
C14
0.001
C69
0.001
R202
220
C108
0.22
Q40
2SC5231 C8
C244
5P
C237
1.5 P
C173
SHIFT ON: 1.99
SHIFT OFF: 1.21
B2
15-30M: 2.91
L28
68 nH
C67
33 P
C11
22 P
C8
18 P
3
C12
47 P
C10 1.5 P
C9 2.5 P
4
5
C183
1.5 P
SHIFT ON: 3.13
SHIFT OFF: 0.47
+ C423
1
R319
10
C160
0.001
2 35
2.24
R160
2.7 k
2
118-175M: 3.0
C13
27 P
C416
27 P
L14 56 nH
C107
0.22
1
4
4
+ C210
0.1
R228
100
C118
0.001
118-175M: 1.1
C538
0.1
5
B3_3V
C521
0.1
R123
47 k
C163
0.001
6
LV1
Q504 XP1113
B2_3V
R224
3.3 k
R223
2.2 k
118-175M: 2.12
15-30M: 1.89
C515
100 P
C514
150 P
C532
0.1
+
C162
10
C211
0.001
R163
120
R162
4.7 k
0.495-30M:2.97
Q505
2SC4215 O
1.9-15M: 2.91
C164
0.001
+3S
D72 1SV308
D64 MA2S077
C520
0.01
L83
0.47 µH
15-30M
0.495-30M: 0.34
C531
180 P
C530
330 P
C518
0.001
C519
0.0015
R222
2.2 k
C512
12 P
C529
150 P
C562
0.001
R230
10 k
C537
0.1
C528
27 P
C527
82 P
R226
2.2 k
L85
3.9 µH
C516
220 P
L82 0.33 µH
C511
33 P
C526
0.039
L91
3.9 µH
D63
MA2S077
C544
0.001
C558
0.001
C513
82 P
C525
0.01
R225
2.2 k
C543
0.001
D73 1SV308
D65
MA2S077
Q508
XP4312
ON: 0.79
OFF: 0
15-30M: 1.15
2
C545
0.01
3
L90
100 µH
D70
MA2S077
R104
4.7 k
R188
1k
R61
330 k
R57
10 k
R30
1.5 k
1.37
R31
1k
C63
150 P
R116
150 k
4
5
6
R179
15 k
3
2
1
C65
0.01
R26
47 k
R177
100 k
C64
15 P
C97
0.01
C66
4
5
6
3
2
1
0.01
Q4
XP6501 AB
0.82
1.34
R58
10 k
CP1
AMS
R29
470 k
Q1 XP6501 AB
WFM
WFMS
R233
82
1
L87
0.68 µH
Q29
DTC144EE
3.15
C236
0.001
R170
82 k
1
Q28
2SC5006
C235
0.001
R171
220
R124
120
R125
4.7 k
C178
0.001
0.95
SHIFT
C539
0.1
R229
47 k
D54
1SV286
D46
MA2S077
1.71
C158
0.001
C156
0.5 P
C182
0.001
C180
0.001
C166
0.001
C165
2P
L63
7.5 nH
L62
10.5 nH
L68
600
Q43
2SC5231 C8
HFC
HF3V
1.9-15M: 2.05
L86
0.47 µH
300M3V
C540
0.1
C524
0.01
Q509
DTA144EE
1.9-15M
C658
0.0022
C523
0.0015
R198
56 k
R197
220
RSSI
C563
0.001 6 5 4
R232
330
C535
0.001
C522
0.01
800M3V
D69
MA2S077
C657
680 P
1.9-15M: 1.88
C257
0.001
C256
0.001
0.495-1.9M: 2.9
D67 MA2S077
C534
330 P
C667
0.01
B1
Q506
DTA144EE
R227
1k
R327 1.5 k
R235
1.5 k
R238
100 k
C546
0.1
L89
3.3 µH
2.42
GND1
IN2
VCC2
XB
XI
XO
GND2
CP2
FI2
FO2
D66 MA2S077
R234 82
D68
1SV172
L88
3.3 µH
C258
0.001
1.8
VCC1
IN1
ENB
CLK
DATA
T1
LOK
CP1
FI1
FO1
0.495-1.9M
ON: 0
OFF: 3.0
ON: 0
OFF: 1.91
C541 0.1
C542 0.1
ON: 3.08
OFF: 1.15
B1_3V
0.495-1.9M: 1.99
ON: 0
OFF: 1.91
R169
470
R196
150
R3V
CHASSIS
UNIT
SHIFT OFF 267.2-380.0MHz
SHIFT ON 380.0-550.0MHz
3.12
0.495-1.9M: 1.99
R28
1M
D57
MA728
C434
0.01
C200
0.01
+
C62
10
R27
22 k
C61
0.001
6
5
4
1
2
3
C60
0.01
Q44
XP4312
C433
0.001
1-1-32, Kamiminami, Hirano-ku, Osaka 547-0003, Japan
Phone : 06 6793 5302
Fax
: 06 6793 0013
URL : http://www.icom.co.jp/world/index.html
Icom America Inc.
Icom (Europe) GmbH
< Corporate Headquarters >
Communication Equipment
Himmelgeister Str. 100, D-40225 Düsseldorf, Germany
Phone : 0211 346047 Fax : 0211 333639
URL : http://www.icomeurope.com
2380 116th Avenue N.E., Bellevue, WA 98004, U.S.A.
Phone : (425) 454-8155 Fax : (425) 454-1509
URL : http://www.icomamerica.com
< Customer Service >
Phone : (425) 454-7619
Icom Canada
Icom Spain S.L
Crta. de Gracia a Manresa Km. 14,750
08190 Sant Cugat del Valles Barcelona, SPAIN
Phone : (93) 590 26 70 Fax : (93) 589 04 46
URL : http://www.icomspain.com
Glenwood Centre #150-6165
Highway 17 Delta, B.C., V4K 5B8, Canada
Phone : (604) 952-4266 Fax : (604) 952-0090
URL : http://www.icomcanada.com
Icom (UK) Ltd.
Icom (Australia) Pty. Ltd.
Unit 9, Sea St., Herne Bay, Kent, CT6 8LD, U.K.
Phone : 01227 741741 Fax : 01227 741742
URL : http://www.icomuk.co.uk
A.B.N. 88 006 092 575
290-294 Albert Street, Brunswick, Victoria, 3056, Australia
Phone : 03 9387 0666
Fax : 03 9387 0022
URL : http://www.icom.net.au
Icom New Zealand
146A Harris Road, East Tamaki,
Auckland, New Zealand
Phone : 09 274 4062
Fax : 09 274 4708
URL : http://www.icom.co.nz
Icom France S.a
Zac de la Plaine, Rue Brindejonc des Moulinais
BP 5804, 31505 Toulouse Cedex, France
Phone : 561 36 03 03 Fax : 561 36 03 00
URL : http://www.icom-france.com
Asia Icom Inc.
6F No. 68, Sec. 1 Cheng-Teh Road, Taipei, Taiwan, R.O.C.
Phone : (02) 2559 1899 Fax : (02) 2559 1874
1-1-32, Kamiminami, Hirano-ku Osaka 547-0003, Japan
A-5520IZ-S-w
© 1998 Icom Inc.
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