Icom IC-T90A Marine Radio User manual
ICOM IC-T90A is an easy-to-use VHF/UHF transceiver with excellent receiving capabilities, making it perfect for amateur radio enthusiasts and professionals alike. It features 555 memory channels with 50 scan edges that make it easy to access your favorite frequencies, and versatile scanning options. ICOM IC-T90A is also equipped with an AM/FM broadcast receiver, and CTCSS and DCS encode/decode capabilities. With its rugged construction and IP54 dust/water resistance rating, ICOM IC-T90A is built to withstand the rigors of outdoor use.
advertisement
Assistant Bot
Need help? Our chatbot has already read the manual and is ready to assist you. Feel free to ask any questions about the device, but providing details will make the conversation more productive.
1-1-32, Kamiminami, Hirano-ku, Osaka 547-0003, Japan
S-13903MZ-C1
2002 Icom Inc.
IC-T90A (1,4)
MULTIBAND FM TRANSCEIVER
iC-t90a
INTRODUCTION
This service manual describes the latest service information for the IC-T90A MULTIBAND FM TRANSCEIVER at the time of publication.
MODEL
T90A
VERSION
U.S.A.
General
Canada
S.E. Asia
SYMBOL
USA
GEN
CAN
SEA
To upgrade quality, all electrical or mechanical parts and internal circuits are subject to change without notice or obligation.
DANGER
NEVER
connect the transceiver to an AC outlet or to a DC power supply that uses more than 12 V. Such a connection could cause a fire hazard and/or electric.
DO NOT
expose the transceiver to rain, snow or any liquids.
DO NOT
reverse the polarities of the power supply when connecting the tranceiver.
DO NOT
apply an RF signal of more than 20 dBm (100 mW) to the antenna connector. This could damage the transceiver s front end.
ORDERING PARTS
Be sure to include the following four points when ordering replacement parts:
1. 10-digit order numbers
2. Component part number and name
3. Equipment model name and unit name
4. Quantity required
<SAMPLE ORDER>
1130006220 S.IC TC4W53FU IC-T90A
8930054290 2372 Main seal IC-T90A
LOGIC UNIT 1 piece
Chassis 5 pieces
Addresses are provided on the inside back cover for your convenience.
REPAIR NOTES
1. Make sure a problem is internal before disassembling the transceiver.
2. DO NOT open the transceiver until the transceiver is disconnected from its power source.
3. DO NOT force any of the variable components. Turn them slowly and smoothly.
4. DO NOT short any circuits or electronic parts. An insulated tuning tool MUST be used for all adjustments.
5. DO NOT keep power ON for a long time when the transceiver is defective.
6. DO NOT transmit power into a signal generator or a sweep generator.
7. ALWAYS connect a 40 dB or 50 dB attenuator between the transceiver and a deviation meter or spectrum analyser when
using such test equipment.
8. READ the instructions of test equipment thoroughly before connecting equipment to the transceiver.
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
<
Corporate Headquarters
>
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
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
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
146A Harris Road, East Tamaki,
Auckland, New Zealand
Phone : 09 274 4062 Fax : 09 274 4708
URL : http://www.icom.co.nz
Communication Equipment
Himmelgeister Str. 100, D-40225 D sseldorf, Germany
Phone : 0211 346047 Fax : 0211 333639
URL : http://www.icomeurope.com
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
Unit 9, Sea St., Herne Bay, Kent, CT6 8LD, U.K.
Phone : 01227 741741 Fax : 01227 741742
URL : http://www.icomuk.co.uk
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
6F No. 68, Sec. 1 Cheng-Teh Road, Taipei, Taiwan, R.O.C.
Phone : (02) 2559 1899 Fax : (02) 2559 1874
IC-T90A (2,3)
SPECIFICATIONS
TABLE OF CONTENTS
SECTION 1
SECTION 2
SECTION 3 DISASSEMBLY INSTRUCTIONS
SECTION 4
4 - 1
4 - 2
4 - 3
4 - 4
4 - 5
RECEIVER CIRCUITS ................................................................................................... 4 - 1
TRANSMITTER CIRCUITS ............................................................................................ 4 - 4
PLL CIRCUITS................................................................................................................. 4 - 5
POWER SUPPLY CIRCUITS .......................................................................................... 4 - 7
PORT ALLOCATIONS ..................................................................................................... 4 - 7
SECTION 5
5 - 1
5 - 2
5 - 3
PREPARATION................................................................................................................ 5 - 1
TRIMMER ADJUSTMENT ............................................................................................... 5 - 3
ADJUSTMENT MODE ADJUSTMENTS ......................................................................... 5 - 5
SECTION 6
SECTION 7
SECTION 8
SECTION 9
9 - 1
9 - 2
9 - 3
LOGIC UNIT .................................................................................................................... 9 - 1
RF UNIT........................................................................................................................... 9 - 3
AF UNIT / VCO UNIT ...................................................................................................... 9 - 5
SECTION 10
SECTION 11
SECTION 1 SPECIFICATIONS
M
GENERAL
• Frequency range
Version
USA
CAN
GEN
SEA
:
50 MHz
50 – 53.995
145 MHz
144 – 148
136 – 174
*
1
140 – 150
*
1
440 MHz
430 – 450
*
2
400 – 470
*
3
430 – 440
Receiving
0.495–999.990
*
4
*
1
Specifications guaranteed 144 – 148 MHz
*
2
Specifications guaranteed 440 – 450 MHz
*
3 Specifications guaranteed 430 – 440 MHz
*
4 Except 824 – 849 MHz, 869 – 894 MHz [USA] only
• Mode
• Number of memory channels
• Frequency stability
: FM, AM (RX only) and WFM (Rx only)
: 555 (incl. 50 scan edges and 5 call channels)
: ±6 ppm max.
(
–10˚C to +60˚C; 14˚F to 140˚F)
• Tuning steps
• Usable tempareture range
• Power supply requirement
• Usable battery pack/case
: 5, 6.25, 8.33, 9, 10, 12.5, 15, 20, 25, 30, 50 100, and 200 kHz
: –10˚C to +60˚C; 14˚F to 140˚F
: 5.5 – 11 V DC or specified battery pack
: BP-217 (7.4 V) and BP-216 (3.2 V)
• Polarity : Negative ground
• Current drain (at 8.0 V DC) : (typical value)
TX
RX
High power
Low power
Rated output
Standby
Power saved
*
1
50/145 MHz
2.0 A
0.8 A
220 mA
440 MHz
2.0 A
1.2 A
100 mA
65 mA
*
1
Power save duty is 1:4.
• Anntena connector : SMA (50
Ω
)
• Dimensions (projections not included) : 58(W)
×
87(H)
×
29(D) mm; 2 17 ⁄
32
(
W
)
×
3 7 ⁄
16
(
H
)
×
1 5 ⁄
32
(
D
) in
• Weight (with BP-217/Ant.) : 280 g; 9
7
⁄
8 oz
(Unit: MHz)
M
TRANSMITTER
• Output power
(at 8.0 V DC)
• Modulation system
• Max. freq. deviation
• Spurious Emissions
• External MIC connector
: High
Low
5.0 W typical
0.5 W typical
: Variable reactance modulation
: ±5 kHz
: Less than –60 dB
: 3-conductor 2.5(d) mm ( 1 ⁄
8”
); 2 k
Ω
1 - 1
M
RECEIVER
• Receiver system : Double-conversion superheterodyne
• Intermediate frequency : 1st
2nd
13.350 MHz (FM/AM)
13.350 MHz (WFM)
450 kHz
• Sensitivity* 1 :
(except spurious points; typical values)
Frequency (MHz)
FM
0.495–1.625
1.625–4.995
–
0.4 µV
5.000–29.995
29.995–49.995
0.18 µV
0.16 µV 50.000–54.000
54.005–76.000
76.000–108.000
108.000–118.000
118.000–136.000
0.18 µV
AM
1.3 µV
0.56 µV
–
0.5 µV
WFM
–
1.0 µV*
4
136.000–143.995
144.000–148.000
148.005–175.000
175.000–221.995
0.16 µV
0.4 µV
–
–
1.8 µV
222.000–225.000
225.005–246.995
0.32 µV
0.4 µV
0.79 µV* 2
247.000–329.995
329.995–429.995
430.000–450.000
0.32 µV
1.0 µV*
3
–
0.16 µV
450.005–470.000
470.000–770.000
0.32 µV
–
3.2 µV
770.000–832.995
833.000–999.990
–
1.0 µV
* 1 FM and WFM are measured at 12 dB SINAD, AM is measured at 10 dB S/N.
* 2 The frequency range is between 222.000 MHz and
229.995 MHz.
*
3
The frequency range is between 320.000 MHz and
329.995 MHz.
*
4
The frequency range is between 40.000 MHz and 108.000
MHz.
• AF output impedance : 8
Ω
• Squelch sensitivity* 1 : (typical; Except sprious points)
Frequency (MHz)
0.495–1.625
1.625–4.995
5.000–29.995
29.995–49.995
50.000–54.000
54.005–76.000
76.000–108.000
108.000–118.000
118.000–136.000
136.000–143.995
144.000–148.000
148.005–175.000
175.000–221.995
222.000–225.000
225.005–246.995
247.000–329.995
329.995–429.995
430.000–450.000
450.005–470.000
470.000–770.000
770.000–832.995
833.000–1319.995
FM
–
0.4 µV
0.18 µV
0.16 µV
0.18 µV
0.16 µV
0.4 µV
0.32 µV
0.4 µV
0.32 µV
0.16 µV
0.32 µV
1.0 µV
AM
1.3 µV
0.56 µV
–
0.5 µV
–
0.79 µV*
1.0 µV*
–
3
2
WFM
–
1.0 µV*
–
1.8 µV
–
3.2 µV
–
4
*
1
FM and WFM are measured at 12 dB SINAD, AM is measured at 10 dB S/N.
*
2
The frequency range is between 222.000 MHz and
229.995 MHz.
*
3
The frequency range is between 320.000 MHz and
330.000 MHz.
*
4
The frequency range is between 40.000 MHz and 108.000
MHz.
• Selectivity
AM and FM
WFM
: Less than 15 kHz/–9 dB
More than 30 kHz/–60 dB
: Less than 350 kHz/–3 dB
More than 700 kHz/–20 dB
• Spurious and image rejection ratio
: • 50 MHz More than 60 dB
IF/2: More than 50 dB
IF: More than 40 dB
• 145 MHz More than 60 dB
IF/2: More than 50 dB
• 440 MHz More than 50 dB
IF: More than 60 dB
• Audio output power : 200 mW typical at 10 % distortion with an 8
Ω load
All stated specifications are subject to change without notice or obligation.
1 - 2
SECTION 2 INSIDE VIEWS
• LOGIC UNIT
Top view
RESET IC
(IC142: S-80928CNMC)
EEPROM
(IC2: HN58X24128FPI,
Q2: UN9115)
• LOGIC UNIT
Bottom view
Crystal oscillator for CPU clock
(X1: CR-687, 6.7584 MHz, Q40: UN9215)
CPU
(IC1: M30220MA-114RP)
AF regulator
(Q201: 2SB1201,
Q202: XP1501)
+3 regulator
(Q8: 2SB1132,
Q9: XP1501)
+3C regulator
(Q142: XP1501,
Q145: 2SB1132,
D143: MA2S111)
Microphone mute
(Q310: XP6501)
Microphone amplifier
(Q311: XP5601,
Q312: XP6501)
CPU3 regulator
(IC141: NJM2370U32)
440 MHz band modulation switch
(Q304: 2SJ364)
145 MHz band modulation switch
(Q305: 2SJ364)
50 MHz band modulation switch
(Q342: 2SJ364)
2 - 1
• AF UNIT
Top view
• RF UNIT
Top view
1st AF amplifier
(Q205: 2SD2216)
AF mute
(Q251: 2SJ364)
AF power amplifier
(IC252: TA7368F)
AM detector
(Q201, Q202: XP6501)
FM IF IC
(IC151: TA31136FN)
IF amplifier
(Q102: 2SC4403)
Crystal oscillator
(X1: VR-583, 13.800 MHz)
T5V regulator
(Q11: XP1501, Q55: 2SB1132)
R3V regulator
Q208: 2SA1576
Q209: XP1501
AM/FM switch
(Q206: XP4315)
• RF UNIT
Bottom view
Drive amplifier
(Q52: 2SK3475)
629.995–999.90 MHz RF amplifier
(Q452: 2SK3475)
75.995–229.995 MHz
RF amplifier
(Q351: 3SK320)
Pre-drive
(Q54: 2SC5289)
Power amplifier
(Q51: 2SK3476)
VCO circuit
1st mixer
(IC351:
µ
PC2757TB)
T3 regulator
(Q56: XP4315, D50: MA6S121)
144 MHz TX high-pass filter circuit
50 MHz TX low-pass filter circuit
R3 regulator
(Q353: XP4312)
0.495–29.995 MHz RF amplifier
(Q302: 2SC5006)
29.995–75.995 MHz
RF amplifier (Q303: 2SC5006)
2 - 2
SECTION 3 DISASSEMBLY INSTRUCTIONS
3. Removing the AF unit 1. Removing the rear panel
B
Rear panel
A
C
G
Vol lead
F
Vol plate
F
H
Antenna plate
F
AF unit
J251
Rear panel
Lock plate q
Unscrew 1 screw
A
(M2
×
4 mm, black)
.
w
Unscrew 2 screws
B
(M2
×
20 mm, black), and 4 screws
C
(M2
×
6 mm, black) from the rear panel.
e
Take off the rear panel in the direction of the arrow.
2. Removing the LOGIC unit
W1 (L)
5
E
J1
4
6
1
Main seal
3
E
2 q
Take off the lock plate. w
Unsolder 5 points
F at the antenna plate, vol plate and lead.
e
Unscrew 1 screw
G
(2
×
4 mm, silver), and 2 screws
H
(M2
×
12 mm, black) from the AF unit.
r
Take off the AF unit in the direction of the arrow to separate the rear panel.
4. Removing the RF unit
J
RF unit
Antenna rug
Antenna connector
I
D
Rear panel
LOGIC unit q
Unplug the flexible cable W1 from J1 on the LOGIC unit to separate the rear panel. w
Take off the main seal.
e
Unsolder 2 points
D at the speaker lead. r
Unscrew 6 screws
E
(2
×
4 mm, silver) to separate the
LOGIC unit.
NOTE:
When you tighten 6 screws
E
, tighten those in turn of
1
–
6
.
q
Unsolder 2 points
I at the antenna rug plate and antenna connector. w
Unscrew 2 screws
J
(M2
×
4 mm, silver) from the FRONT panel.
e
Take off the RF unit in the direction of the arrow to separate the rear panel.
3 - 1
SECTION 4 CIRCUIT DESCRIPTION
4-1 RECEIVER CIRCUITS
4-1-1 TRIPLEXER CIRCUIT (RF UNIT)
The transceiver has a triplexer (low-pass and bandpass filters) on the first stage from the antenna switching diode to separate the signals.
• RF signals 0.495 MHz–75.995 MHz
The 0.495 MHz–75.995 MHz RF signals are passed through the low-pass filters (L5, L6, L24, C43, C483–C486, L11–L13,
L17–L19, C21, C481, C482) and are applied to the antenna switching circuit.
• RF signals 76.0 MHz–299.995 MHz
The 76.0 MHz–299.995 MHz RF signals are passed through the low-pass (L5, L6, L24, C43, C483–C486) and high-pass
(L9, C9–C11) filters and are applied to the antenna switching circuit.
• RF signals 230.0 MHz–629.995 MHz
The 230.0 MHz–629.995 MHz RF signals are passed through the high-pass (L1, C1–C3) and low-pass (FI1) filters and are applied to the antenna switching circuit.
• RF signals 630.0 MHz–999.990 MHz
The 630.0 MHz–999.990 MHz RF signals are passed through the high-pass (L3, L4, C6–C8) filter and are applied to the RF circuit.
• RF signals 0.495 MHz–75.995 MHz
The signals pass through the antenna switching circuit (D9), and then applied to the RF circuit.
• RF signals 76.0 MHz–299.995 MHz
The signals pass through the antenna switching circuit (D8), and then applied to the RF circuit.
• RF signals 230.0.0 MHz–629.995 MHz
The signals pass through the antenna switching circuit (D7), and then applied to the RF circuit.
4-1-3 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–29.995 MHz RF CIRCUIT
The signals from the antenna switching circuit pass through the attenuator (D305) and band switch (D301). The signals applied to the bandpass filter (L301, L302, C301–C307) to suppress unwanted signals, then amplified at the RF amplifier (Q302).
(2) 30.0 MHz–75.995 MHz RF CIRCUIT
The signals from the antenna switching circuit pass through the attenuator (D305) and band switch (D306). The signals applied to the bandpass filter (D307, D308, L303, L304,
C317–C320) to suppress unwanted signals, then pass through the bandpass filter (D309, D310, L306, L307,
L323–C325, C331) after being amplified at the RF amplifier
(Q303).
4-1-2 ANTENNA SWITCHING CIRCUIT (RF UNIT)
The antenna switching circuit functions as a low-pass filter while receiving. However, its impedance becomes very high while transmitting by applying a current to D4, D6, D9, D12,
D13, D19.
Thus, tramsmit signals are blocked from the entering the receiver circuits. The antenna switching circuit employs a
1/4
λ type diode switching system. The signals are applied to the each antenna switching circuit.
• TRIPLEXER AND ANTENNA SWITCHING CIRCUITS
0.495 MHz 75.995 MHz RF signals
Q355
ATT
CTRL
D305
LIMIT
76.0 MHz 299.995 MHz RF signals
D351
LIMIT
230.0 MHz 629.995 MHz RF signals
630.0 MHz 999.990 MHz RF signals
D401
LIMIT
D451
LIMIT
R3V
ATT
D457
SW
D10
SW
Antenna switching circuit
D6, D9
ANT
SW
D4, D19
ANT
SW
D12, D13
ANT
SW
LPF
HPF
LPF
Triplexer circuit
LPF
HPF
HPF
ANT
4 - 1
(3) 76.0 MHz–229.995 MHz RF CIRCUIT
The signals from the antenna switching circuit pass through the attenuator (D351), and then applied to the bandpass filter (D352, D353, L351, L352) to suppress unwanted signals.
The signals pass through the bandpass filter (D354–D356,
D359, L354, L355, L357, L358, C357–C364) after being amplified at the RF amplifier (Q351).
(4) 230.0 MHz–629.995 MHz RF CIRCUIT
The signals from the antenna switching circuit are applied to the band switch (D457), and then pass through the attenuator (D401). The signals pass through the bandpass filter
(D402, D403, L401, L402, C402, C404–C406) to suppress unwanted signals, then applied to the RF amplifier (Q401).
The amplified signals pass through the bandpass filter
(D405, D407, L409, C414, C415), and are then amplified at the RF amplifier (Q402).
(5) 630.0 MHz–999.990 MHz RF CIRCUIT
The signals from the antenna pass through the high-pass filter (L3, L4, C6–C8), and then applied to the attenuator
(D451) after being passed through the band switch (D10).
The signals pass through the bandpass filter (D452, L451,
C451–C454), then applied to the RF amplifier (Q451). The amplified signals pass through the bandpass filter (D453,
D454, L452, L453, C456, C460, C462–C464) and RF amplifier (Q452).
The amplified or filtered signals pass through one of the band switch (D303, D313, D358, D408, D455), and then applied to the 1st mixer circuit (IC351, pin 1).
The amplified or filtered RF signals are mixed with 1st LO signals at the 1st mixer (IC351) to produce a 69.45 MHz 1st
IF signal. The 1st IF signal is output from pin 6, and passed through the bandpass filter (Narrow: AF unit; FI101, Wide: AF unit; FI102) to suppress unwanted harmonic components via the mode switch (AF unit; D101, D102). The filtered 1st IF signal is applied to the IF amplifier (AF unit; Q102). The amplified signal is applied to the 2nd mixer circuit.
The 1st LO signals (53.350 MHz–99.345 MHz, 99.350
MHz–560.545 MHz or 281.675 MHz–534.720 MHz) are generated at the 144 MHz VCO (VCO unit; Q3–Q5, D3, D4) or
430 MHz VCO (VCO unit; Q1, Q2, D1) circuits. The oscillated signal is applied to the 1st mixer via the doubler circuit
(Q354, D357) or directly.
4-1-5 2ND IF AND DEMODULATOR CIRCUITS
(AF UNIT)
The 2nd mixer circuit converts the 1st IF signal to a 2nd IF signal. A double conversion superheterodyne system (which converts receive signals twice) improves the image rejection ratio and obtain stable receiver gain.
The FM IF IC (IC151) contains 2nd local oscillator, 2nd mixer, limiter amplifier, quadrature detector and S-meter detector circuits.
The amplified 69.45 MHz 1st IF signal from the IF amplifier
(Q102) is mixed with the 2nd LO signal at the 2nd mixer
(IC151) to produce a 455 kHz 2nd IF signal. The 2nd IF signal from the IC151, pin 3 passes through (AM and FM mode) or bypasses (WFM mode) the 2nd IF filter (FI151) where unwanted heterodyne signals are suppressed via the mode switch (D151, D152). The filtered signals are applied to the
AM detector circuit or FM detector circuit respectively.
4-1-4 1ST MIXER AND 1ST IF CIRCUITS (RF, AF
AND VCO UNITS)
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 filter at the next stage of the 1st mixer.
• RF CIRCUIT
1st LO signal from the VCO circuit
1st IF signal to the AF unit
(AM, FM: 69.45 MHz,
WFM: 13.35 MHz)
1st mixer
(IC351)
SW
D303
SW
D313
BPF
SW
D358
SW
D408
Q402
RF
Q452
RF
SW
D455
Q302
RF
Q303
RF
BPF
BPF
BPF
BPF
BPF
Q351
RF
Q401
RF
Q451
RF
SW
D301,
D306
0.495 MHz 75.995 MHz
RF signals
BPF
BPF
BPF
76.0 MHz 299.995 MHz
RF signals
230.0 MHz 629.995 MHz
RF signals
630.0 MHz 999.990 MHz
RF signals
"AGC" signal from the AF unit (Q202, pin 4)
4 - 2
(1) AM DETECTOR CIRCUIT
The filtered signals are applied to the AM detector circuit
(Q201, Q202) to demodulate the 2nd IF signal into the AM AF signals.
(2) FM AND WFM DETECTOR CIRCUIT
The filtered signals are applied to the limiter amplifier section in the FM IF IC (IC151, pin 5), and then applied to the quadrature detector section to demodulate the 2nd IF signal into
FM and WFM AF signals.
The demodulated AM, FM or WFM signals are applied to the
AF amplifier circuit.
The AF filter circuit (LOGIC unit; IC241, pin 5) removes AF signals below 300 Hz (CTCSS signals) for clear AF output and these are applied to the CPU (LOGIC unit; IC1, pin 7) for the CTCSS squelch detection via the “CTCIN” line.
The electronic volume control circuit controls AF gain, therefore, the AF output level is according to the [VOL] setting and also the squelch conditions.
4-1-6 AF AMPLIFIER CIRCUIT (AF UNIT)
The AF amplifier circuit which is included a low-pass filter, AF mute switch, AF volume controller and AF amplifier amplifies the demodulated AF signals to drive a speaker.
(1) AM AND FM AF SIGNALS
The demodulated AM or FM (“DETO” signal) AF signals from the AM detector (Q201, Q202) or FM detector (IC151, pin 9) circuits are passed through the low-pass filter (Q204) via the mode swtich (D201). The filtered signals are applied to the
1st AF amplifier (Q205).
(2) WFM AF SIGNALS
The demodulated WFM (“DETO” signal) AF signals from FM detector (IC151, pin 9) circuit are bypassed the low-pass filter (Q204) via the mode swtich (D201). The demodulated signals are applied to the 1st AF amplifier (Q205).
The amplified AF signals from the 1st AF amplifier (Q205) are applied to the AF mute switch (Q251) which is controlled by
“MUTE” signal from the CPU (LOGIC unit; IC1, pin 48), and are then applied to the electronic volume control circuit
(IC251, pin 6). The level controlled AF signals are output from the volume IC (LOGIC unit; IC251, pin 7) and are then applied to the AF power amplifier (IC252, pin 4). The power amplified AF signals are then applied to the internal speaker
(LOGIC unit; SP1) through the “INTSP” signal via the [EXT
SP] jack (J253) when no plug is connected to the jack.
4-1-7 SQUELCH CIRCUIT(AF AND LOGIC 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.
A portion of the AF signals from the FM IF IC (IC151, pin 9) are applied to the active filter section (IC151, pins 7, 8). The active filter section amplifies and filters noise components.
The filtered signals are applied to the noise detector section and output from IC151 (pin 13) as the “NOISE” signal.
The “NOISE” signal from IC151 (pin 13) is applied to the CPU
(LOGIC unit; IC1, pin 47). The CPU analyzes the noise condition and outputs the “MUTE” signal to AF mute switch
(Q251).
Even when the squelch is closed, the AF mute switch (Q251) opens at the moment of emitting beep tones.
• 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.
A portion of the AF signals from the FM IF IC (IC151, pin 9) passes through the low-pass filter (LOGIC unit; IC241, pins
5, 7) to remove AF (voice) signals and is applied to the
CTCSS decoder inside the CPU (LOGIC unit; IC1, pin 8) via the “CTCIN” line to control the AF mute switch.
• 2ND IF AND DEMODULATOR CIRCUIT
Q201,
Q202
AM detector
R159
R167
C158
R155
C156
C160
C161
8
R158
7 5
Active filter
Noise detector
Limiter amp.
FM detector
9 10
C154
RSSI
11
R151
2nd IF filter
450 kHz
FI151
12
Noise comp.
3
2nd
Mixer
13 16
2
AF signal to the mode switch
(AF unit; Q203, D201)
"DETO" signal to the low-pass filter (LOGIC unit; IC241)
WFM
CTRL
C155
Q207
"2nd LO" signal from
X1 (RF unit)
IC151 TA31136FN
1st IF (69.45 MHz) from IC351, pin 6 (RF unit)
"NOISE" signal to the CPU pin 48
"SD" signal to the CPU pin 3
WFM R3V
4 - 3
4-1-8 AGC CIRCUIT (AF AND RF UNITS)
The AGC (Automatic Gain Control) circuit reduce signal fading and keeps the audio output level constant.
A portion of AF signals from the AM detector circuit (Q201) are applied to the amplifier (Q202). The amplified DC voltage from the Q202, pin 4 is applied to the RF amplifiers (RF unit;
Q302, Q303, Q351, Q401, Q402, Q451, Q452) to reduce the amplifier gain when strong signals are received.
4-2 TRANSMITTER CIRCUITS
4-2-1 MICROPHON AMPLIFIER CIRCUIIT
(LOGIC UNIT)
The microphone amplifier circuit amplifies the audio signals from the microphone, within +6 dB/octave pre-emphasis characteristics (300 Hz–3 kHz), to a level needed for the modulation circuit. The microphone amplifier circuit is used for both the VHF and UHF bands.
The AF signals from the microphone (MC1) or external [MIC] jack (AF unit; J252) passes through the microphone mute circuit (Q310, pins 4, 2) which is controlled by the CPU (IC1, pin
48) via the “MUTE” signal. The AF signals are applied to the microphone (limiter) amplifier (Q311, Q312) which has +6 dB/octave pre-emphasis characteristics, and are then passed through the low-pass filter (Q310, pins 4, 1). The filtered signals are applied to the modulation circuit (VCO unit) as the “VMOD” signal via the each modulation band switch
(Q342, R365: for 50 MHz band, Q305, R326: for 145 MHz band, Q304, R325: for the 440 MHz band).
4-2-2 MODULATION CIRCUIT (RF AND VCO UNITS)
The modulation circuit modulates the VCO oscillating signal
(RF signal) using the microphone AF signals.
The signals from the modulation band switches (LOGIC unit) are then applied to the 144 MHz VCO or 430 MHz VCO circuits separately.
• 144 MHz VCO
The applied signals from the RF unit change the reactance of
D3 to modulate the oscillated signal at the 144 MHz VCO circuit (VCO unit; Q4, Q5).
• 430 MHz VCO
The applied signals from the RF unit change the reactance of
D1 to modulate the oscillated signal at the 430 MHz VCO circuit (VCO unit; Q1, Q2).
The modulated signal is amplified at the buffer amplifier
(VCO unit; Q7) and is then bypassed divider circuit (VCO unit; IC1) via the divier switch (VCO unit; D8, D10). The signal is amplified at the two LO amplifiers (VCO unit; Q16,
Q212), and then applied to the drive/power amplifier circuits.
4-2-3 DRIVE/POWER AMPLIFIER CIRCUITS
(RF UNIT)
The drive amplifier circuit amplifies the transmit signal to a level needed for the power amplifier circuit. The power amplifier circuit amplifies this to obtain a specified transmit output power.
The signal from the two LO amplifiers (VCO unit; Q16, Q212) is passed through the Transmit/Receive switch (Q51), and is amplified at the buffer amplifier (IC51, pin 1). The signal is applied to the pre-driver (Q54) via the attenuator (D54). The amplified signal is applied to the power amplifier via the 50
MHz line, 144 MHz and 430 MHz line separetly.
• 50 MHz LINE
The amplified signal passes through the low-pass filter (L54,
C60, C89, R81, R82) via the D57, and is then applied to the power amplifier (Q51).
• 144 MHz AND 430 MHz LINE
The amplified signal passes through the high-pass filter (L56,
C65, C68, C69), and is then applied to the drive amplifier
(Q52). The signal is applied to the power amplifier (Q51).
The amplified signal is applied to the each TX filter circuit.
4-2-4 TX FILTER CIRCUIT (RF UNIT)
The amplified signal from the drive/power amplified circuit is passed through the each TX filter circuit to suppress highharmonics spurious components
(1) 50 MHz TX FILTER CIRCUIT
The amplified 50 MHz signal from the power amplifier passes through the low-pass filter (L22, L23, C34, C44, C480) and 1/4
λ type antenna switch (D6). The filtered signal is applied to the low-pass filter (L11–L13, L17–L19, C21, C481,
C482) again, and is then passed through the triplexer circuit
(L5, L6, L24, C43, C483, C486).
(2) 144 MHz TX FILTER CIRCUIT
The amplified 144 MHz signal from the power amplifier passes through the bandpass filter (L18, L19, C24, C26, C27) and
1/4
λ type antenna switch (D4, D19). The filtered signal is applied to the high-pass filter (L9, C9–C11), and is then passed through the triplexer circuit (L5, L6, L24, C43,
C483–C486).
(3) 430 MHz TX FILTER CIRCUIT
The amplified 430 MHz signal from the power amplifier passes through the high-pass filter (L16, L456, C32, C33, C98) and 1/4
λ type antenna switch (D2, D18). The filtered signal is applied to the low-pass filter (FI1), and is then passed through the triplexer circuit (L1, C1–C3).
The filtered signal is applied to the antenna connector
(CHASSIS unit; J1).
Collector voltage for the drive amplifier (Q52) and control voltage for the power amplifier (Q51) are controlled by the
APC circuit to protect the power module from a mismatched condition as well as to stabilize the output power.
4 - 4
4-2-5 APC CIRCUIT (RF UNIT)
The APC circuit protects the power amplifier from a mismatched output load and stabilizes the output power. The
APC circuit is designed to use VHF and UHF bands commonly.
The APC sensor (R109) detects driving current from the drive voltage at the drive (Q52) and power (Q51) amplifiers. The detected current is converted into DC voltage at Q101, then applied to the APC control circuit (IC101, pin 2). The applied voltage is compared with a “PSET” voltage from the CPU via the D/A convertor (IC251), and the APC control circuit outputs control voltage from pin 1 to control the drive and power amplifiers.
When the driving current is increased, input voltage of the differential amplifier (IC101, pin 2) will be increased. In such cases, the differential amplifier output voltage (IC101, pin 1) is decreased to reduce the driving current.
4-3 PLL CIRCUITS
4-3-1 GENERAL
A PLL circuit provides stable oscillation of the transmit frequency and the receive local frequency. 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.
4-3-2 144 MHz AND 430 MHz VCO CIRCUITS
(VCO UNIT)
• 144 MHz VCO CIRCUIT
The oscillated signal at the 144 MHz VCO circuit (Q1–Q3,
D1, D2) is amplified at two buffer amplifiers (Q7, Q11), and is then applied to the PLL IC (IC201, pin 19). The signal is divided by serial data from the CPU (LOGIC unit; IC1) and phase detected with the divided reference frequency (5 kHz). The phase difference is output from pin 5 as pulses.
• APC CIRCUIT
VCC
TXC
APC SENSOR CIRCUIT
R109
Q102
Q101
144, 430 MHz
RF transmit signal
Drive amp.
Q52
Power amp.
Q51 to the antenna from Tx/Rx switch
+3
Buff.
amp.
IC51
Pre drive
Q54
D/A CONVERTER
IC251
(RF unit)
6 PSET
2
3
IC101
+
1 VGGC
14 DSET 5
IC101
7
50 MHz
RF transmit signal
Differential amplifier
4 - 5
• 430 MHz VCO CIRCUIT
The oscillated signal at the 430 MHz VCO circuit (Q4, Q5,
D3) is amplified at two buffer amplifiers (Q7, Q11), and is then applied to the PLL IC (IC201, pin 19). The signal is divided by serial data from the CPU (LOGIC unit; IC1) and phasedetected with the divided reference frequency (5 kHz). The phase difference is output from pin 5 as pulses.
The output signals from the PLL IC (IC201, pin 5) are converted to DC voltages (lock voltage) by the loop filter, and are then fed back to the 144 MHz and 430 MHz VCO circuits to stabilize the VCO frequency.
4-3-3 VCO DIVIDER CIRCUIT (VCO AND RF UNITS)
The PLL circuit employs the two VCO circuits (144 MHz and
430 MHz) and VCO divider (IC1) to transmit on 3 bands and receive wide band.
The oscillated signal at the 144 MHz or 430 MHz VCO circuit is amplified at the buffer amplifier (Q7), and is then passed through the divider switch (D7, D8).
When the signal bypasses the divider circuit (IC1), it passes through the divider switch (D8, D10).
The VCO signal is applied to the LO amplifiers (Q16, Q212), and then passed through the transmit/receive switch (D21,
D202). The signal is applied to the buffer amplifier (RF unit;
IC51, pin 1) for the TX LO frequency, or applied to the 1st mixer circuit (IC351, pin 3) for the RX 1st LO frequency as
“LO” signal via or bypass the doubler circuit (Q354).
When the signal is applied to the divider circuit (IC1, pin 2), the circuit divides the VCO signal into the ratio of 1/2. The divided signal passes through the low-pass filter (L12, L13,
C48–C51) and divider switch (D9).
• PLL CIRCUIT
Q206,
Q207
Loop filter
D7
1/2
430 MHz VCO
Q1, Q2,
D1
50, 144MHz VCO
Q3, Q4,
Q5,
D3, D4
13
Q7
Buff.
D8
Q11
Buff.
IC201 (PLL IC)
Phase detector
Programmable counter
Prescaler
Programmable divider
Shift register
3
4
LPF
19
Q211
Amp.
15
PLL lock detector
7
PLSTB
CLK
UNLK
D9
Q16
LO
Q212
LO
D10
TX/RX switch
D51
RF UNIT
to transmitter circuit
D201 to 1st mixer circuit
(IC351, pin 3)
Q1
Buff.
X1
13.8 MHz
Q2
Amp.
to FM IF IC (IC151, pin 2)
AF UNIT
4 - 6
4-4 POWER SUPPLY CIRCUITS
VOLTAGE LINE
LINE
DESCRIPTION
HV
The voltage from the external power supply or attached battery pack.
VCC
CPU3
+3C
+3
+10V
AFV
R3
R3V
T3
The same voltage as the “HV” line (external power supply or battery pack).
Common 3 V converted from the “VCC” line by
CPU3 regulator IC (LOGIC unit; IC141). The output voltage is supplied to the +3C regulator circuits, etc.
Common 3 V converted from the “VCC” line by the +3C regulator circuit (LOGIC unit; Q142 and
Q145) using the +3CPU regulator (LOGIC unit;
IC141.)
Common 3 V converted from the “VCC” line by the +3 regulator circuit (LOGIC unit; Q8 and Q9) using the +3C regulator (LOGIC unit; Q142 and
Q145).
Common 10 V converted from the “+3” line by the +10 regulator circuit(LOGIC unit; IC91, IC92,
Q91, D91, D300–D302). The output voltage is applied to the RF and VCO units.
6 V for receiver circuit converted from the “VCC” line by the “AF” regulator circuit (LOGIC unit;
Q201, Q202). The output voltage is applied to the AF amplifier (AF unit; IC252, pin 2).
3 V for receiver circuit converted from the “+3” line by the “R3” regulator circuit (RF unit; O353).
3 V for the receiver circuit converted from the
“VCC” line by the “R3V’ regulator circuit (AF unit;
Q208 and Q209).
3 V for transmitter circuit converted from the “+3” line by the “T3” regulator circuit (RF unit; Q56 and D20). The output voltage is applied to the buffer amplifier (RF unit; IC51, pin 6).
4-5 PORT ALLOCATIONS
4-5-1 D/A CONVERTOR IC (RF UNIT; IC251)
Pin Port number name
Description
5
6
11
12
13
14
FSET
PSET
TUNE
RXC
ATT
DSET
Outputs frequnecy setting D/A data to the reference oscillator (RF unit; X1).
Outputs the power amplifier’s output power setting data to the APC controller (RF unit; IC101).
Outputs D/A data to the tuned bandpass filters (RF unit).
Outputs the R3 regulator (RF unit;
Q353) control signal.
High: While receiving.
Outputs attenuator control signal.
Low: Attenuator is ON.
Outputs the drive amplifier’s output power setting data to the APC controller (RF unit; IC101).
4-5-2 R3V SWITCH IC (AF UNIT; IC51)
Pin Port number name
Description
4 BSFT
Outputs frequency shift control signal to tuned bandpass filters (RF unit).
5
6
7
14
15
B1C
B2C
B3
B4C
B5
Outputs 0.5–29.995 MHz band control signal.
Low: While 0.5–29.995 MHz band is receiving.
Outputs 30–75.995 MHz band control signal.
Low: While 30–75.995 MHz band is receiving.
Outputs 76–229.995 MHz band control signal.
Low: While 76–229.995 MHz band is receiving.
Outputs 230–629.995 MHz band control signal.
Low: While 230–629.995 MHz band is receiving.
Outputs 630–999.995 MHz band control signal.
Low: While 630–999.995 MHz band is receiving.
4 - 7
4-5-3 CPU (LOGIC UNIT; IC1)
Pin Port number name
1
3
5
6
7
12
13
14
19
25
Description
PATMP
SD
CHG
VIN
CTCIN
WFM
AM
CLSFT
RESET
Input port for the PA’s temperature while transmitting.
Input port for the S-meter signal.
Input port for the battery voltage divide signal.
Input port for the power supply voltage divide signal.
Input port for the CTCSS decorded signal (67.0–254.1 Hz analog signal).
Outputs the FM or WFM regulator control signal.
Low: FM or WFM mode is selected.
Outputs the AM mode regulator control signal.
Low: AM mode is selected.
Outputs the clock shift control signal.
Input port for the CPU reset signal.
High: The CPU is reset.
POWER
Input port for the [POWER] switch.
Low: Power is ON.
26
28
29
30
31
33
34
35
40
42
43
44
45
CPUHV
IOSTB
DASTB
CLIN
CLOUT
PDAUL
CK
PLSTB
ECK
CHGC
PCON
R3C
TXC
Input port for the external power supply connecting signal.
Low: While the external power supply is connected.
Outputs the expander IC (AF unit;
IC51, pin 1) strobe signal.
Outputs strobe signals to the D/A IC
(RF unit; IC251, pin 2).
Input port for the cloning signal.
Output port for the cloning signal.
I/O port for the PLL IC (VCO unit;
IC201, pin 7) data signal.
Low: PLL is unlocked.
High: PLL is locked.
Outputs clock signals to the R3V switch (AF unit; IC51, pin 3), D/A IC
(RF unit; IC251, pin 3) and PLL IC
(VCO unit; IC201, pin 4).
Outputs the PLL IC strobe signal.
Outputs the EEPROM clock signal.
Outputs the battery charger control signal.
Outputs the +3C regulator control signal.
Outputs the R3C regulator control signal.
Low: While receiving.
Outputs the T5V regulator control signal.
High: While transmitting.
Pin Port number name
46
47
48
49
51
52
53
54
55
56
57
58–61
62–65
66–69
Description
MICC
NOISE
MUTE
AFON
BUSYL
GLED
RLED
Outputs the mic amplifier regulator control signal.
Input port for the SQL detection noise signal.
Outputs mute control signal.
High: AF muting while receiving.
MIC muting while transmitting.
Output AF amplifier regulator control signal.
Outputs BUSY LED control signal.
High: The BUSY LED is ON.
Outputs key backlight control signal.
High: Green backlight is ON.
Outputs key backlight control signal.
High: Red backlight is ON.
LCDL
V3C
Outputs LCD backlight control signal.
Low: Lights ON.
Outputs the 430 MHz VCO regulator control signal.
Low: 430 MHz is selected.
DIUD
DICK
Input port for the up/down signal from the main dial (AF unit; S251).
KS3–KS0 Output ports for key matrix.
I3–I0 Output ports for Initial matrix.
KR3–KR1 Input ports for key matrix.
70
71
72
73
74
75
77
81
82
V1C
VOLDN
VOLUP
SQL
430M
144M
PTT
V2C
VSFT
Outputs the 50 MHz VCO regulator control signal.
Low: 50 MHz is selected.
Input port for the volume level control signal.
Low: Volume level is low.
Input port for the volume level control signal.
Low: Volume level is high.
Input port for the [SQL] switch.
Low: While [SQL] switch is pushed.
Outputs the 430 MHz modulation circuit control signal.
Low: While 430 MHz is transmitting.
Outputs the 144 MHz modulation circuit control signal.
Low: While 144 MHz is transmitting.
Input port for the [PTT] switch.
High: While [PTT] switch is pushed.
Outputs 144 MHz VCO regulator control signal.
Low: 144 MHz is selected.
Outputs the VCO select signal.
4 - 8
4-5-3 CPU (Continued)
Pin Port number name
84 50M
Description
Outputs the 50 MHz modulation circuit control signal.
Low: While 50 MHz is transmitting.
85
86
88–90
92
138
139
141
144
CTSEL
DTCS
Outputs the CT3 switch (LOGIC unit;
Q301) control signal.
Low: DTCS/CTCSS is selected.
Outputs the DTCS decorder filter control signal.
SEG37–
SEG35
Output segment data to the LCD
(LOGIC unit; DS4, pins 5–7).
SEG34
Outputs segment data to the LCD
(LOGIC unit; DS4, pin 8).
94–96
97
98
SEG33–
SEG31
Output segment data to the LCD
(LOGIC unit; DS4, pins 9–11).
CONT1
CONT0
Output the LCD contrast control signals.
99–127
128–131
SEG28–
SEG0
Output segment data to the LCD
(LOGIC unit; DS4, pins 12–40).
COM3–
COM0
Output common data to the LCD
(LOGIC unit; DS4, pins 1–4).
VOLC
Outputs the volume IC (AF unit;
IC251, pin 5) control signal.
CTCOUT Outputs CTCSS/DTCS signals.
BEEP
WXALT
Output beep, DTMF tone, 1750 Hz tone sounds.
Input port for the WX alert signal.
4 - 9
SECTION 5 ADJUSTMENT PROCEDURES
5-1 PREPARATION
Some adjustments must be adjusted on the adjustment mode. When entering the adjustment mode, the 68 k
Ω terminator (shown at page 5-2) is required.
‘
REQUIRED TEST EQUIPMENT
EQUIPMENT
DC power supply
GRADE AND RANGE
Output voltage
Current capacity
: 11 V DC
: 3 A or more
RF power meter
(terminated type)
Frequency counter
FM deviation meter
Measuring range : 1–10 W
Frequency range : 28–600 MHz
Impedance : 50
Ω
SWR : Less than 1.2 : 1
Frequency range : 0.1–600 MHz
Frequency accuracy : ±1 ppm or better
Sensitivity : 100 mV or better
Frequency range : 30–600 MHz
Measuring range : 0 to ±10 kHz
EQUIPMENT
Ammeter
DC voltmeter
Audio generator
Standard signal generator (SSG)
Oscilloscope
Attenuator
GRADE AND RANGE
Measuring capacity : 10 A and 30 A
Input impedance : 50 k
Ω
/V DC or better
Frequency range : 300–3000 Hz
Measuring range : 1–500 mV
Frequency range : 1–1300 MHz
Output level : 0.1 µV–32 mV
(–127 to –17 dBm)
Frequency range : DC–20 MHz
Measuring range : 0.01–20 V
Power attenuation : 40 or 50 dB
‘
ENTERING THE ADJUSTMENT MODE
q
Connect a 68 k
Ω terminator to the [SP] jack.
w
Push and hold the [SQL] and [8] keys, and then turn power ON.
■
OPERATION ON THE ADJUSTMENT MODE
Change the adjustment value
Change the adjustment channel or item [UP]
: [DIAL]
: [VFO] key
Change the adjustment channel or item [DOWN] : [MR] key
Verify the setting condition : [8] key
■
OPERATION ON THE “OUTPUT POWER” ADJUSTMENT
When adjusting the “OUTPUT POWER” adjustment, need to change the adjustment channel indicator manually.
When displayed channel indicator “DH” on the LCD at first, push the “0” or “.” keys to change the channel indicator as follow.
Pushing key
“0” key
“0” key
LCD (Before)
DH
PH
LCD (After)
PH
DH
Pushing key
“.” key
“.” key
“.” key
LCD (Before)
DH
DL
DE
LCD (After)
DL
DE
DH
5 - 1
• CONNECTION
Standard signal generator
0.1 V to 32 mV
( 127 dBm to 17 dBm) to the antenna connector
CAUTION:
DO NOT transmit while an SSG is connected to the antenna connector.
to [MIC]
FM deviation meter to [SP] jack
Attenuator
40 dB or 50 dB
RF power meter
0.1 10 W/50
Frequency counter
Audio generator
JIG
68 k
1/8" (3.5 mm)
3-conductor plug
+
AD-92SMA
Optional SMA BNC adaptor
Power supply
11 V / 3 A
5 - 2
5-2 TRIMMER ADJUSTMENT
The following adjustment must be performed on the normal mode.
ADJUSTMENT
PLL LOCK
VOLTAGE
POWER
BALANCE
ADJUSTMENT CONDITION
1 • Displayed frequency
: 30.000 MHz
• Mode : FM
• Receiving
2 • Displayed frequency
: 29.995 MHz
• Mode : FM
• Receiving
3 • Displayed frequency
: 150.000 MHz
• Mode
• Receiving
: WFM
4 • Displayed frequency
• Mode
• Receiving
: 169.995 MHz
: WFM
5 • Displayed frequency
: 550.000 MHz
• Mode
• Receiving
: WFM
6 • Displayed frequency
: 629.990 MHz
• Mode
• Receiving
: FM
1 • Displayed frequency
: 144.000 MHz
• Transmitting
2 • Displayed frequency
: 148.000 MHz
• Transmitting
3 • Displayed frequency
: 440.000 MHz
• Transmitting
4 • Displayed frequency
: 460.000 MHz
• Transmitting
UNIT
VCO
Top
MEASUREMENT
panel
5 • Same adjustments as steps 1–4 several times.
LOCATION
Connect the DC voltmeter or an oscilloscope to the checkpoint “CP”.
Connect an RF power meter to the antenna connector.
VALUE
0.4 V–1.0 V
7.0 V–11.0 V
0.7 V–2.0 V
7.0 V–11.0 V
0.6 V–1.2 V
7.0 V–11.0 V
144.000 MHz’s power
Same value as
144.000 MHz’s power
440.000 MHz’s power
Same value as
440.000 MHz”s power
ADJUSTMENT
POINT
UNIT ADJUST
Verify
RF
Verify verify
Verify
Verify
Verify
L19
L19
L16,
L456
L16,
L456
5 - 3
• VCO UNIT
• RF UNIT
CP
PLL lock voltage check point
L16
L456
TX power balance adjustment (435 MHz)
L19
TX power balance adjustment (145 MHz)
5 - 4
5-3 ADJUSTMENT MODE ADJUSTMENTS
The following adjustment must be performed at “ADJUSTMENT MODE”.
ADJUSTMENT ADJUSTMENT CONDITION
REFERENCE
FREQUENCY
1 • Displayed frequency :
(Fr ch.) 445.000 MHz
• Output power : Low
• Transmitting
OUTPUT
POWER
(11V 50 MHz
High power)
1 • Displayed frequency :
(PH ch.) 50.000 MHz
• Output power : High
• Transmitting
2 • Displayed frequency :
(PH ch.) 53.900 MHz
• Transmitting
(11V 145 MHz
High power)
3 • Displayed frequency :
(PH ch.) 144.000 MHz
• Output power : High
• Transmitting
(11V 440 MHz
High power)
5
4 • Displayed frequency :
(PH ch.) 148.000 MHz
• Transmitting
• Displayed frequency :
(PH ch.) 440.000 MHz
• Output power : High
• Transmitting
6 • Displayed frequency :
(PH ch.) 450.000 MHz
• Transmitting
(11V 50 MHz
Low power)
7 • Displayed frequency :
(PH ch.) 50.000 MHz
• Output power : Low
• Transmitting
(11V 145 MHz
Low power)
9
8 • Displayed frequency :
(PH ch.) 53.900 MHz
• Transmitting
• Displayed frequency :
(PH ch.) 144.000 MHz
• Output power : Low
• Transmitting
10 • Displayed frequency :
(PH ch.) 148.000 MHz
• Transmitting
UNIT
Top panel
Top
MEASUREMENT
panel
LOCATION
Loosely couple the frequency counter to the antenna connector.
Connect an RF power meter to the
[ANT] connector.
VALUE
445.0000 MHz
5.0 W
5.0 W
Top panel
Connect an RF power meter to the
[ANT] connector.
Top panel
Connect an RF power meter to the
[ANT] connector.
Top panel
Connect an RF power meter to the
[ANT] connector.
Top panel
Connect an RF power meter to the
[ANT] connector.
5.0 W
5.0 W
5.0 W
5.0 W
0.5 W
0.5 W
0.5 W
0.5 W
ADJUSTMENT
POINT
UNIT ADJUST
Top panel
[DIAL]
Top panel
[DIAL]
[DIAL]
Top panel
[DIAL]
[DIAL]
Top panel
[DIAL]
[DIAL]
Top panel
[DIAL]
[DIAL]
Top panel
[DIAL]
[DIAL]
5 - 5
ADJUSTMENT MODE ADJUSTMENTS (Continued)
• The following adjustment must be performed at “ADJUSTMENT MODE”.
• The adjustment channel indicators (PL, DL, PH, DH, PE, DE) need to change from “DH” channel indicator to use “0” or “.” keys.
ADJUSTMENT ADJUSTMENT CONDITION
OUTPUT
POWER
(11 V 440 MHz
Low power)
11 • Displayed frequency :
(DH ch.) 440.000 MHz
• Output power : Low
• Transmitting
12 • Set the channel indicator : “PH”
• Transmitting
UNIT
Front panel
MEASUREMENT
LOCATION
LCD display
VALUE
DH = “00”
1.1 A
ADJUSTMENT
POINT
UNIT ADJUST
Top panel
[DIAL]
[DIAL]
13 • Set the channel indicator : “DH”
• Transmitting
Side panel
Top panel
Front panel
Connect an ammeter between a power supply and the transceiver.
Connect an RF power meter to the
[ANT] connector.
LCD display
0.5 W
DH = “00”
[DIAL]
[DIAL] 14 • Displayed frequency :
(DH ch.) 450.000 MHz
• Output power : Low
• Transmitting
15 • Set the channel indicator : “PH”
• Transmitting
1.1 A [DIAL]
16 • Set the channel indicator : “DH”
• Transmitting
OUTPUT
POWER
(8V 50 MHz
High power)
(8V 144 MHz
High power)
3
(8V 440 MHz
High power)
5
1
2
4
6
• Displayed frequency :
(PL ch.) 50.000 MHz
• Output power : High
• Transmitting
• Displayed frequency :
(PL ch.) 53.900 MHz
• Transmitting
• Displayed frequency :
(PL ch.) 144.000 MHz
• Output power : High
• Transmitting
• Displayed frequency :
(PL ch.) 148.000 MHz
• Transmitting
• Displayed frequency :
(PL ch.) 440.000 MHz
• Output power : High
• Transmitting
• Displayed frequency :
(PL ch.) 450.000 MHz
• Transmitting
Side panel
Top panel
Top panel
Connect an ammeter between a power supply and the transceiver.
Connect an RF power meter to the
[ANT] connector.
Connect an RF power meter to the
[ANT] connector.
Top panel
Connect an RF power meter to the
[ANT] connector.
Top panel
Connect an RF power meter to the
[ANT] connector.
0.5 W
5.0 W
5.0 W
5.0 W
5.0 W
5.0 W
5.0 W
[DIAL]
Top panel
[DIAL]
[DIAL]
Top panel
[DIAL]
[DIAL]
Top panel
[DIAL]
[DIAL]
5 - 6
ADJUSTMENT MODE ADJUSTMENTS (Continued)
• The following adjustment must be performed at “ADJUSTMENT MODE”.
• The adjustment channel indicators (PL, DL, PH, DH, PE, DE) need to change from “DH” channel indicator to use “0” or “.” keys.
ADJUSTMENT ADJUSTMENT CONDITION
OUTPUT
POWER
(8V 50 MHz
Low power)
7 • Displayed frequency :
(PH ch.) 50.000 MHz
• Output power : Low
• Transmitting
(8V 145 MHz
Low power)
8 • Displayed frequency :
(PH ch.) 53.900 MHz
• Transmitting
9 • Displayed frequency :
(PH ch.) 144.000 MHz
• Output power : Low
• Transmitting
10 • Displayed frequency :
(PH ch.) 148.000 MHz
• Transmitting
(8V 440 MHz
Low power)
11 • Displayed frequency :
(DL ch.) 440.000 MHz
• Output power : Low
• Transmitting
12 • Set the channel indicator : “PL”
• Transmitting
MEASUREMENT
UNIT
Top panel
LOCATION
Connect an RF power meter to the
[ANT] connector.
Top panel
Connect an RF power meter to the
[ANT] connector.
Front panel
LCD display
VALUE
0.5 W
0.5 W
0.5 W
0.5 W
DL = “00”
1.1 A
ADJUSTMENT
POINT
UNIT ADJUST
Top panel
[DIAL]
Top panel
Top panel
[DIAL]
[DIAL]
[DIAL]
[DIAL]
[DIAL]
13 • Set the channel indicator : “DL”
• Transmitting
Side panel
Top panel
Front panel
Connect an ammeter between a power supply and the transceiver.
Connect an RF power meter to the
[ANT] connector.
LCD display
0.5 W
DL = “00”
[DIAL]
[DIAL] 14 • Displayed frequency :
(DL ch.) 450.000 MHz
• Output power : Low
• Transmitting
15 • Set the channel indicator : “PL”
• Transmitting
1.1 A [DIAL]
16 • Set the channel indicator : “DL”
• Transmitting
Side panel
Top panel
Connect an ammeter between a power supply and the transceiver.
Connect an RF power meter to the
[ANT] connector.
0.5 W [DIAL]
5 - 7
ADJUSTMENT MODE ADJUSTMENTS (Continued)
• The following adjustment must be performed at “ADJUSTMENT MODE”.
• The adjustment channel indicators (PL, DL, PH, DH, PE, DE) need to change from “DH” channel indicator to use “0” or “.” keys.
ADJUSTMENT ADJUSTMENT CONDITION
OUTPUT
POWER
(5V 50 MHz)
1
2
(5V 145 MHz)
3
• Displayed frequency :
(PE ch.) 50.000 MHz
• Output power : Low
• Transmitting
• Displayed frequency :
(PE ch.) 53.900 MHz
• Transmitting
• Displayed frequency :
(DE ch.) 144.000 MHz
• Output power : Low
• Transmitting
4 • Set the channel indicator : “PE”
• transmitting
MEASUREMENT
UNIT
Side panel
LOCATION
Connect an ammeter between a power supply and the transceiver.
Front panel
LCD display
Side panel
Connect an ammeter between a power supply and the transceiver.
VALUE
0.45 A
0.45 A
DE = “00”
0.40 A
ADJUSTMENT
POINT
UNIT ADJUST
Top panel
[DIAL]
[DIAL]
Top panel
[DIAL]
[DIAL]
5 • Set the channel indicator : “DE”
• Transmitting
6 • Displayed frequency :
(DE ch.) 148.000 MHz
• Output power : Low
• Transmitting
7 • Set the channel indicator : “PE”
• transmitting
Front panel
LCD display
Side panel
Connect an ammeter between a power supply and the transceiver.
0.45 A
DE = “00”
0.40 A
[DIAL]
Top panel
[DIAL]
[DIAL]
8 • Set the channel indicator : “DE”
• Transmitting
(5V 440 MHz)
9 • Displayed frequency :
(DE ch.) 440.000 MHz
• Output power : Low
• Transmitting
10 • Set the channel indicator : “PE”
• transmitting
11 • Set the channel indicator : “DE”
• Transmitting
12 • Displayed frequency :
(DE ch.) 450.000 MHz
• Output power : Low
• Transmitting
13 • Set the channel indicator : “PE”
• transmitting
14 • Set the channel indicator : “DE”
• Transmitting
Front panel
LCD display
Side panel
Connect an ammeter between a power supply and the transceiver.
LCD display Front panel
Front panel
LCD display
Side panel
Front panel
Connect an ammeter between a power supply and the transceiver.
LCD display
0.45 A
DE = “00”
0.35 A
DE = “60”
DE = “00”
0.35 A
DE = “60”
[DIAL]
Top panel
[DIAL]
[DIAL]
[DIAL]
Top panel
[DIAL]
[DIAL]
[DIAL]
5 - 8
ADJUSTMENT MODE ADJUSTMENTS (Continued)
• The following adjustment must be performed at “ADJUSTMENT MODE”.
ADJUSTMENT
FM
DEVIATION
(50 MHz)
(145 MHz)
(440 MHz)
DTMF
DEVIATION
(50 MHz)
(145 MHz)
(440 MHz)
ADJUSTMENT CONDITION
1 • Displayed frequency :
(DH ch.) 53.900 MHz
• Connect a audio generator to the
[MIC] jack and set as:
1 kHz/90 mVrms
• Set an FM deviation meter as:
HPF : OFF
LPF : 20 kHz
De-emphasis : OFF
Detector : (p-p)/2
• Output power : High
• Transmitting
2 • Displayed frequency :
(DH ch.) 144.000 MHz
• Transmitting
3 • Displayed frequency :
(DH ch.) 440.000 MHz
• Transmitting
1 • Displayed frequency :
(DM ch.) 52.000 MHz
• No audio applied to the [MIC] jack.
• Set an FM deviation meter as:
HPF : OFF
LPF : 20 kHz
De-emphasis : OFF
Detector : (p-p)/2
• Output power : High
• Transmitting
2 • Displayed frequency :
(DM ch.) 144.000 MHz
• Transmitting
3 • Displayed frequency :
(DM ch.) 440.000 MHz
• Transmitting
MEASUREMENT
UNIT
Top
Panel
LOCATION
Connect an FM deviation meter to the [ANT] connector through an attenuator.
Top panel
Connect an FM deviation meter to the [ANT] connector through an attenuator.
VALUE
± 4.2 kHz
± 4.0 kHz
± 4.2 kHz
± 3.5 kHz
± 3.5 kHz
± 3.5 kHz
ADJUSTMENT
POINT
UNIT ADJUST
LOGIC R365
R326
R325
Top panel
[DIAL]
[DIAL]
[DIAL]
• LOGIC UNIT
R325
FM deviation adjustment (440 MHz)
R365
FM deviation adjustment (50 MHz)
R326
FM deviation adjustment (145 MHz)
5 - 9
ADJUSTMENT MODE ADJUSTMENTS (Continued)
• The following adjustment must be performed at “ADJUSTMENT MODE”.
ADJUSTMENT
CTCSS
DEVIATION
(50 MHz)
(145 MHz)
(440 MHz)
DTCS
DEVIATION
(50 MHz)
(145 MHz)
(440 MHz)
ADJUSTMENT CONDITION
1 • Displayed frequency :
(CT ch.) 53.900 MHz
• No audio applied to the [MIC] jack.
• Set an FM deviation meter as:
HPF
LPF
: OFF
: 20 kHz
De-emphasis : OFF
Detector : (p-p)/2
• Output power : High
• Transmitting
2 • Displayed frequency :
(CT ch.) 145.000 MHz
• Transmitting
3 • Displayed frequency :
(CT ch.) 445.500 MHz
• Transmitting
1
2
3
• Displayed frequency :
(DS ch.) 51.000 MHz
• No audio applied to the [MIC] jack.
• Set an FM deviation meter as:
HPF
LPF
: OFF
: 20 kHz
De-emphasis : OFF
Detector : (p-p)/2
• Output power : High
• Transmitting
• Displayed frequency :
(DS ch.) 145.000 MHz
• Transmitting
• Displayed frequency :
(DS ch.) 445.500 MHz
• Transmitting
UNIT
Top
Panel
LOCATION
Connect an FM deviation meter to the [ANT] connector through an attenuator.
Top
MEASUREMENT
panel
Connect an FM deviation meter to the [ANT] connector through an attenuator.
VALUE
± 0.55 kHz
± 0.55 kHz
± 0.65 kHz
± 0.5 kHz
± 0.6 kHz
± 0.6 kHz
ADJUSTMENT
POINT
UNIT ADJUST
Top panel
[DIAL]
[DIAL]
[DIAL]
Top panel
[DIAL]
[DIAL]
[DIAL]
5 - 10
ADJUSTMENT MODE ADJUSTMENTS (Continued)
The following adjustment must be performed at “ADJUSTMENT MODE”.
“DETECTOR COIL” adjustment must be performed on same channel as “DTCS DEVIATION ADJUSTMENT” (DT ch.).
ADJUSTMENT ADJUSTMENT CONDITION
DETECTOR
COIL
RF
TRACKING
1 • Displayed frequency :
(DS ch.) 445.000 MHz
• Connect the SSG to the antenna connector and set as:
Level : 1.0 µV
*
(–47 dBm)
Modulation : OFF
• Receiving
1 • Displayed frequency :
(TL ch.) 30.100 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
2 • Displayed frequency :
(TH ch.) 47.100 MHz
• Receiving
3 • Displayed frequency :
(TL ch.) 48.100 MHz
• Receiving
4 • Displayed frequency :
(TH ch.) 75.100 MHz
• Set the SSG as:
Level : 1 µV
*
(–107 dBm)
• Receiving
5 • Displayed frequency :
(TL ch.) 76.100 MHz
• Set the SSG as:
Level : 1 µV
*
(–107 dBm)
• Receiving
6 • Displayed frequency :
(TH ch.) 149.100 MHz
• Receiving
7 • Displayed frequency :
(TL ch.) 150.100 MHz
• Receiving
8 • Displayed frequency :
(TH ch.) 229.100 MHz
• Set the SSG as:
Level : 3.2 µV
*
(–97 dBm)
• Receiving
9 • Displayed frequency :
(TL ch.) 280.100 MHz
• Receiving
10 • Displayed frequency :
(TM ch.) 370.100 MHz
• Set the SSG as:
Level : 0.5 µV
*
(–113 dBm)
• Receiving
UNIT
AF
AF
MEASUREMENT
LOCATION
Connect a multimeter to check point
CP0.
Connect a DC voltmeter or oscillo scope to the IC151, pin 12 (“SD” line).
*This output level of the standard signal generator (SSG) is indicated as SSG’s open circuit.
5 - 11
VALUE
1.0 V
Maximum voltage
Maximum voltage
Maximum voltage
Maximum voltage
Maximum voltage
Maximum voltage
Maximum voltage
Maximum voltage
Maximum voltage
Maximum voltage
ADJUSTMENT
POINT
UNIT ADJUST
AF L151
Top panel
[DIAL]
[DIAL]
[DIAL]
[DIAL]
[DIAL]
[DIAL]
[DIAL]
[DIAL]
[DIAL]
[DIAL]
• AF UNIT
CP0
Detector coil check point
IC151, pin 12 (SD line)
RF Tracking check point
L151
Detector coil adjustment
5 - 12
ADJUSTMENT MODE ADJUSTMENTS (Continued)
The following adjustment must be performed at “ADJUSTMENT MODE”.
RF
TRACKING
MEASUREMENT
ADJUSTMENT ADJUSTMENT CONDITION VALUE
11 • Displayed frequency :
(TM ch.) 430.100 MHz
• Connect the SSG to the antenna connector and set as:
Level : 0.5 µV
*
(–113 dBm)
Modulation : 1 kHz
Deviation
• Receiving
: ± 3.5 kHz
12 • Displayed frequency :
(TH ch.) 499.100 MHz
• Receiving
13 • Displayed frequency :
(TL ch.) 450.100 MHz
• Receiving
14 • Displayed frequency :
(TH ch.) 569.100 MHz
• Receiving
15 • Displayed frequency :
(TL ch.) 630.100 MHz
• Set the SSG as:
Level : 1 µV
*
(–107 dBm)
• Receiving
16 • Displayed frequency :
(TH ch.) 900.100 MHz
• Set the SSG as:
Level : 3.2 µV
*
(–97 dBm)
• Receiving
UNIT LOCATION
AF Connect a DC voltmeter or oscillo scope to the IC151, pin 12 (“SD” line).
Maximum voltage
Maximum voltage
Maximum voltage
Maximum voltage
Maximum voltage
Maximum voltage
CONVENIENT:
The “RF TRACKING” can be adjusted automatically.
q
: Set the Displayed frequency (TL ch.) 30.100 MHz w
: Connect the SSG to the antenna connector and set as:
Level
Modulation
: 0.5 µV
: 1 kHz
*
(–113 dBm)
Deviation e
: Receiving
: ± 3.5 kHz r
: Push the [BAND] key to start tuning, automatically.
t
: Repeat q
r to perform additional frequencies.
*This output level of the standard signal generator (SSG) is indicated as SSG’s open circuit.
When adjusting by automatically, must change the SSG’s level which is depened on adjustment frequencies as shown above.
ADJUSTMENT
POINT
UNIT ADJUST
Top panel
[DIAL]
[DIAL]
[DIAL]
[DIAL]
[DIAL]
[DIAL]
5 - 13
ADJUSTMENT MODE ADJUSTMENTS (Continued)
The following adjustment must be performed at “ADJUSTMENT MODE”.
ADJUSTMENT
S-METER
ADJUSTMENT CONDITION
1
2
• Displayed frequency :
(SM ch.) 1.620 MHz
• Mode : FM
• Connect the SSG to the antenna connector and set as:
Level : 0.63 µV
*
(–111 dBm)
Modulation : 1 kHz
Deviation : ±3.5 kHz
• Receiving
• Same operation as step 1 for the listed frequencies and SSG level shown below.
• Some adjustment frequencies must adjust both FM and WFM modes.
When adjust the WFM mode, set the SSG’s deviation as
±52.5 kHz.
ADJUSTMENT freq.
(SM Ch.) 28.100 MHz
(SM Ch.) 51.000 MHz
(SM Ch.) 145.100 MHz
SSG level (FM)
0.5 µV (–113 dBm)
0.5 µV (–113 dBm)
0.5 µV (–113 dBm)
(SM Ch.) 180.100 MHz 0.63 µV (–111 dBm)
(SM Ch.) 435.100 MHz
0.5 µV (–113 dBm)
(SM Ch.) 520.100 MHz 0.79 µV (–109 dBm)
(SM Ch.) 729.100 MHz
0.5 µV (–113 dBm)
SSG level (WFM)
–
1.8 µV (–102 dBm)
1.8 µV (–102 dBm)
3.2 µV (– 97 dBm)
–
3.2 µV (– 97 dBm)
3.2 µV (– 97 dBm)
*This output level of the standard signal generator (SSG) is indicated as SSG’s open circuit.
• AF UNIT
OPERATION
Push the [BAND] key.
Push the [BAND] key.
IC151, pin 12 (SD line)
RF Tracking check point
5 - 14
SECTION 6 PARTS LIST
[RF UNIT]
REF ORDER
NO.
NO.
IC51 1110005590 S.IC
IC101 1110004050 S.IC
IC251 1110004530 S.IC
IC351 1110005230 S.IC
DESCRIPTION
µPC2762TB-E3
NJM3404AV-TE1
M62368GP 70ED
µPC2757TB-E3
Q1
Q2
1590001150 S.TRANSISTOR UN9211 (TX)
1590001860 S.TRANSISTOR UN9215 (TX)
Q51
Q52
Q54
Q56
1560001150 S.FET
1560001160 S.FET
2SK3476 (TE12L)
2SK3475 (TE12L)
1530003790 S.TRANSISTOR 2SC5289-T1
1590001670 S.TRANSISTOR XP4316 (TX)
Q101 1590002160 S.TRANSISTOR XP6401-(TX)
Q102 1590001860 S.TRANSISTOR UN9215 (TX)
Q205 1590001470 S.TRANSISTOR UN9213 (TX)
Q251 1590002950 S.FET
HAT1023R-EL
Q301 1590001470 S.TRANSISTOR UN9213 (TX)
Q302 1530003260 S.TRANSISTOR 2SC5006-T1
Q303 1530003260 S.TRANSISTOR 2SC5006-T1
Q351 1580000740 S.FET
3SK320 (TE85L)
Q352 1590001650 S.TRANSISTOR XP4601 (TX)
Q353 1590001660 S.TRANSISTOR XP4312 (TX)
Q354 1530003760 S.TRANSISTOR 2SC5508-T2
Q355 1590001690 S.TRANSISTOR UN9115 (TX)
Q356 1590001660 S.TRANSISTOR XP4312 (TX)
Q401 1530003810 S.TRANSISTOR 2SC5008-T1
Q402 1530003260 S.TRANSISTOR 2SC5006-T1
Q451 1530003780 S.TRANSISTOR 2SC5624VH-TL
Q452 1530003810 S.TRANSISTOR 2SC5008-T1
Q453 1590001440 S.TRANSISTOR UN9214 (TX)
1790001620 S.DIODE
1790000850 S.DIODE
1750000580 S.DIODE
1790001620 S.DIODE
1790001620 S.DIODE
1790001620 S.DIODE
1790001620 S.DIODE
1790001620 S.DIODE
1750000530 S.DIODE
1750000530 S.DIODE
1750000530 S.DIODE
1790001620 S.DIODE
1750000530 S.DIODE
1790001200 S.DIODE
1750000800 S.DIODE
1750000860 S.DIODE
1790001620 S.DIODE
1750000800 S.DIODE
1750000540 S.DIODE
1790001240 S.DIODE
1750000800 S.DIODE
1790001260 S.DIODE
1750000800 S.DIODE
1790001200 S.DIODE
1790001160 S.DIODE
1750000800 S.DIODE
1790001260 S.DIODE
1720000790 S.VARICAP
1790001260 S.DIODE
1720000790 S.VARICAP
1750000800 S.DIODE
1790001160 S.DIODE
1790001260 S.DIODE
1720000800 S.VARICAP
1790001260 S.DIODE
1720000800 S.VARICAP
1720000800 S.VARICAP
1750000800 S.DIODE
1790001260 S.DIODE
1790001250 S.DIODE
1790001160 S.DIODE
1790001260 S.DIODE
1720000790 S.VARICAP
1790001260 S.DIODE
D307
D308
D309
D310
D313
D351
D352
D353
D354
D355
D57
D201
D251
D252
D301
D302
D303
D304
D305
D306
D356
D358
D359
D360
D401
D402
D403
D404
D9
D10
D12
D13
D16
D18
D19
D50
D51
D54
D2
D3
D4
D6
D7
D8
1SV308 (TPL3)
MA132WK (TX)
1SV307 (TPH3)
1SV308 (TPL3)
1SV308 (TPL3)
1SV308 (TPL3)
1SV308 (TPL3)
1SV308 (TPL3)
1SV271 (TPH3)
1SV271 (TPH3)
1SV271 (TPH3)
1SV308 (TPL3)
1SV271 (TPH3)
MA6S121 (TX)
HVC136TRF
HVC132
1SV308 (TPL3)
HVC136TRF
RB060L-40 TE-25
MA2S728-(TX)
HVC136TRF
MA2S077-(TX)
HVC136TRF
MA6S121 (TX)
1SS362 (TE85R)
HVC136TRF
MA2S077-(TX)
HVC321B1TRF
MA2S077-(TX)
HVC321B1TRF
HVC136TRF
1SS362 (TE85R)
MA2S077-(TX)
1SV290 (TPH3)
MA2S077-(TX)
1SV290 (TPH3)
1SV290 (TPH3)
HVC136TRF
MA2S077-(TX)
MA2S111-(TX)
1SS362 (TE85R)
MA2S077-(TX)
HVC321B1TRF
MA2S077-(TX)
6 - 1
[RF UNIT]
REF ORDER
NO.
NO.
D405
D406
D407
D408
D451
D452
D453
D454
D455
D456
D457
1720000790 S.VARICAP
1790001260 S.DIODE
1720000790 S.VARICAP
1750000800 S.DIODE
1790001160 S.DIODE
1720000790 S.VARICAP
1720000790 S.VARICAP
1720000790 S.VARICAP
1750000800 S.DIODE
1790001250 S.DIODE
1790001620 S.DIODE
FI1 4580000130 S.FILTER
6200010200 S.COIL
6200005660 S.COIL
6200005670 S.COIL
6200008260 S.COIL
6200008150 S.COIL
6200007810 S.COIL
6200008360 S.COIL
6200008360 S.COIL
6200008360 S.COIL
6200004480 S.COIL
6200004480 S.COIL
6200008510 S.COIL
6200004480 S.COIL
6200008260 S.COIL
6200008480 S.COIL
6200004480 S.COIL
6200004480 S.COIL
6200008190 S.COIL
6200008210 S.COIL
6200008300 S.COIL
6200004480 S.COIL
6200004480 S.COIL
6200009980 S.COIL
6200009930 S.COIL
6200010320 S.COIL
6200010260 S.COIL
6200010410 S.COIL
6200006670 S.COIL
6200006990 S.COIL
6200009990 S.COIL
6200002630 S.COIL
6200007810 S.COIL
6200010410 S.COIL
6200003640 S.COIL
6200004480 S.COIL
6200003590 S.COIL
6200003590 S.COIL
6200007170 S.COIL
6200003350 S.COIL
6200010350 S.COIL
6200007340 S.COIL
6200010340 S.COIL
6200007340 S.COIL
6200010010 S.COIL
6200010010 S.COIL
6200007820 S.COIL
6200010100 S.COIL
6200010010 S.COIL
6200010100 S.COIL
6200010010 S.COIL
6200005710 S.COIL
6200010130 S.COIL
6200010120 S.COIL
6200010130 S.COIL
6200010130 S.COIL
6200010130 S.COIL
6200010130 S.COIL
6200005700 S.COIL
6200009070 S.COIL
6200005600 S.COIL
L54
L56
L57
L65
L66
L68
L101
L102
L252
L253
L30
L32
L34
L51
L53
L22
L23
L24
L25
L26
L17
L18
L19
L20
L21
L12
L13
L14
L15
L16
L1
L3
L4
L5
L6
L9
L11
L355
L357
L358
L359
L401
L402
L403
L404
L405
L406
L301
L302
L303
L304
L306
L307
L351
L352
L353
L354
L408
L409
L451
DESCRIPTION
HVC321B1TRF
MA2S077-(TX)
HVC321B1TRF
HVC136TRF
1SS362 (TE85R)
HVC321B1TRF
HVC321B1TRF
HVC321B1TRF
HVC136TRF
MA2S111-(TX)
1SV308 (TPL3)
GLP10-512M
0.26-0.9-8TR 26N
ELJRE 10NG-F
ELJRE 12NG-F
0.30-1.7-8TL 60N
0.35-1.6-7TL 44N
LQH31HN95NK01L (LQN 1H 95NK04)
0.25-1.9-13TL
0.25-1.9-13TL
0.25-1.9-13TL
MLF1608D R82K-T
MLF1608D R82K-T
0.30-0.9-4TR 10.5N
MLF1608D R82K-T
0.30-1.7-8TL 60N
0.30-1.4-5TR 25N
MLF1608D R82K-T
MLF1608D R82K-T
0.25-1.9-8TL 80N
0.45-1.5-5TL 23.2N
0.35-1.6-9TL 65N
MLF1608D R82K-T
MLF1608D R82K-T
C2012C-18NG
C2012C-68NG
C2012C-R15G
0.40-1.5-5TL 24N
ELJRE 1N0Z-F2
ELJRE 68NG-F
ELJRE 56NG-F
C2012C-R22G
NL 252018T-R10J
LQH31HN95NK01L (LQN 1H 95NK04)
ELJRE 1N0Z-F2
MLF1608E 100K-T
MLF1608D R82K-T
EXCCL3225U1
EXCCL3225U1
MLF1608A 3R3K-T
ELJNC R27K-F
C2012C-R27G
ELJND R22J 0.22U
C2012C-R33G
ELJND R22J 0.22U
C2012C-39NG
C2012C-39NG
ELJND R33J 0.33U
C2012C-33NG
C2012C-39NG
C2012C-33NG
C2012C-39NG
ELJRE 27NG-F
LQW18AN6N8C00
LQW18AN5N6C00
LQW18AN6N8C00
LQW18AN6N8C00
LQW18AN6N8C00
LQW18AN6N8C00
ELJRE 22NG-F
LQW18AN18NG00D (LQW1608A18NG00)
ELJRE 3N3Z-F
S.=Surface mount
[RF UNIT]
REF ORDER
NO.
NO.
L452
L453
L454
L455
L456
6200005610 S.COIL
6200005610 S.COIL
6200006980 S.COIL
6200005720 S.COIL
6200010240 S.COIL
DESCRIPTION
ELJRE 3N9Z-F
ELJRE 3N9Z-F
ELJRE R10G-F
ELJRE 33NG-F
0.4-0.8-2TL
R354
R355
R356
R357
R358
R359
R360
R312
R313
R314
R315
R316
R317
R318
R351
R352
R353
R302
R303
R304
R305
R306
R307
R308
R309
R310
R311
R108
R109
R110
R111
R112
R205
R206
R209
R251
R301
R80
R81
R82
R101
R102
R103
R104
R105
R106
R107
R57
R59
R60
R61
R63
R64
R73
R77
R78
R79
R13
R16
R40
R41
R51
R52
R53
R54
R55
R56
R1
R2
R6
R7
R8
R9
R10
R11
7030009280 S.RESISTOR
7030004980 S.RESISTOR
7030004980 S.RESISTOR
7030007270 S.RESISTOR
7030009280 S.RESISTOR
7030009280 S.RESISTOR
ERJ2GE
ERJ2GEJ 101 X (100
Ω
)
ERJ2GEJ 101 X (100
Ω
)
ERJ2GEJ 151 X (150
Ω
)
7510001660 S.THRMISTOR
NTCG16 4LH 473KT
7030005240 S.RESISTOR
ERJ2GEJ 473 X (47 k
Ω
)
7030007290 S.RESISTOR
7030007290 S.RESISTOR
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GE
7030005040 S.RESISTOR
7030005040 S.RESISTOR
7030005050 S.RESISTOR
7030007250 S.RESISTOR
7030007280 S.RESISTOR
7030007270 S.RESISTOR
7030005120 S.RESISTOR
7030009200 S.RESISTOR
7030005090 S.RESISTOR
7030005030 S.RESISTOR
7030009270 S.RESISTOR
7030004990 S.RESISTOR
7030005000 S.RESISTOR
7030005120 S.RESISTOR
7030007290 S.RESISTOR
7030005120 S.RESISTOR
7030005580 S.RESISTOR
7030005580 S.RESISTOR
7030007280 S.RESISTOR
7030007280 S.RESISTOR
7030010670 S.RESISTOR
7030005160 S.RESISTOR
7030005230 S.RESISTOR
7030005110 S.RESISTOR
7030005160 S.RESISTOR
7030005050 S.RESISTOR
7030005050 S.RESISTOR
7030005230 S.RESISTOR
7030005110 S.RESISTOR
7030007330 S.RESISTOR
7030008400 S.RESISTOR
7030005050 S.RESISTOR
7030005230 S.RESISTOR
7030007570 S.RESISTOR
7030005080 S.RESISTOR
7030005120 S.RESISTOR
7030005090 S.RESISTOR
7030007290 S.RESISTOR
7030007290 S.RESISTOR
7030005050 S.RESISTOR
7030005220 S.RESISTOR
7030004980 S.RESISTOR
7030004990 S.RESISTOR
7030005120 S.RESISTOR
7030007290 S.RESISTOR
7030007290 S.RESISTOR
7030005050 S.RESISTOR
7030007350 S.RESISTOR
7030004990 S.RESISTOR
7030005030 S.RESISTOR
7030005090 S.RESISTOR
7030009160 S.RESISTOR
7030005090 S.RESISTOR
7030007290 S.RESISTOR
7030005030 S.RESISTOR
7030005120 S.RESISTOR
7030005040 S.RESISTOR
7030005070 S.RESISTOR
7030005240 S.RESISTOR
7030005240 S.RESISTOR
7030009200 S.RESISTOR
7030007250 S.RESISTOR
7030005090 S.RESISTOR
7030005090 S.RESISTOR
7030005040 S.RESISTOR
ERJ2GE
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 220 X (22
Ω
)
ERJ2GEJ 331 X (330
Ω
)
ERJ2GEJ 151 X (150
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 390 X (39
Ω
)
ERJ2GEJ 104 X (100 k
Ω
ERJ2GEJ 152 X (1.5 k
Ω
)
)
ERJ2GEJ 821 X (820
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 471 X (470
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 560 X (56
Ω
)
ERJ2GEJ 560 X (56
Ω
)
ERJ2GEJ 331 X (330
Ω
ERJ2GEJ 331 X (330
Ω
)
)
ERJ2GEJ 3R9X (3.9
Ω
)
ERJ2GEJ 105 X (1 M
Ω
)
ERJ2GEJ 334 X (330 k
Ω
)
ERJ2GEJ 224 X (220 k
Ω
)
ERJ2GEJ 105 X (1 M
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 334 X (330 k
Ω
)
ERJ2GEJ 224 X (220 k
Ω
)
ERJ1WRSJR15U (0.15
Ω
)
ERJ2GEJ 182 X (1.8 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 334 X (330 k
Ω
)
ERJ2GEJ 122X (1.2 k
Ω
)
ERJ2GEJ 823 X (82 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
ERJ2GEJ 103 X (10 k
Ω
)
)
ERJ2GEJ 223 X (22 k
Ω
)
ERJ2GEJ 101 X (100
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 393 X (39 k
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 152 X (1.5 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 181 X (180
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
ERJ2GEJ 152 X (1.5 k
Ω
)
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 683 X (68 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 390 X (39
Ω
)
ERJ2GEJ 220 X (22
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
ERJ2GEJ 472 X (4.7 k
Ω
)
)
6 - 2
[RF UNIT]
REF ORDER
NO.
NO.
R361 7030007290 S.RESISTOR
R362 7030007300 S.RESISTOR
R363 7030007570 S.RESISTOR
R364 7030005830 S.RESISTOR
R365 7030005860 S.RESISTOR
R366 7030005090 S.RESISTOR
R367 7030005580 S.RESISTOR
R368 7030004970 S.RESISTOR
R369 7030007290 S.RESISTOR
R401 7030005120 S.RESISTOR
R402 7030005090 S.RESISTOR
R403 7030005050 S.RESISTOR
R404 7030005720 S.RESISTOR
R405 7030005120 S.RESISTOR
R407 7030004990 S.RESISTOR
R408 7030005050 S.RESISTOR
R409 7030008410 S.RESISTOR
R410 7030005090 S.RESISTOR
R412 7030005720 S.RESISTOR
R414 7030004990 S.RESISTOR
R415 7030005050 S.RESISTOR
R416 7030005090 S.RESISTOR
R417 7030007290 S.RESISTOR
R418 7030007290 S.RESISTOR
R419 7030008410 S.RESISTOR
R420 7030005120 S.RESISTOR
R451 7030005120 S.RESISTOR
R452 7030005090 S.RESISTOR
R453 7030005220 S.RESISTOR
R454 7030005050 S.RESISTOR
R456 7030004990 S.RESISTOR
R457 7030005090 S.RESISTOR
R459 7030005050 S.RESISTOR
R460 7030004990 S.RESISTOR
R461 7030007280 S.RESISTOR
R462 7030005090 S.RESISTOR
R463 7030007290 S.RESISTOR
R465 7030007250 S.RESISTOR
R466 7030004970 S.RESISTOR
R467 7030009280 S.RESISTOR
R468 7030005050 S.RESISTOR
R469 7030005120 S.RESISTOR
R470 7030005120 S.RESISTOR
R471 7030005120 S.RESISTOR
DESCRIPTION
ERJ2GEJ 222 X (2.2 k
Ω
ERJ2GEJ 332 X (3.3 k
Ω
)
)
ERJ2GEJ 122X (1.2 k
Ω
)
RR0510R-223-D (22 k
Ω
)
RR0510R-823-D (82 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 560 X (56
Ω
)
ERJ2GEJ 470 X (47
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
ERJ2GEJ 103 X (10 k
Ω
)
)
ERJ2GEJ 563 X (56 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 392 X (3.9 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 563 X (56 k
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GEJ 392 X (3.9 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 223 X (22 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 331 X (330
Ω
)
ERJ2GEJ 104 X (100 k
Ω
ERJ2GEJ 222 X (2.2 k
Ω
)
)
ERJ2GEJ 220 X (22
Ω
)
ERJ2GEJ 470 X (47
Ω
)
ERJ2GE
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
C43
C44
C51
C52
C55
C57
C59
C32
C33
C34
C35
C36
C37
C39
C40
C41
C42
C17
C18
C19
C21
C23
C24
C26
C27
C30
C31
C1
C2
C3
C6
C7
C8
C9
C10
C11
4030017620 S.CERAMIC
4030017650 S.CERAMIC
4030017600 S.CERAMIC
4030017350 S.CERAMIC
4030017550 S.CERAMIC
4030017360 S.CERAMIC
4030017660 S.CERAMIC
4030017430 S.CERAMIC
4030017670 S.CERAMIC
4030017600 S.CERAMIC
4030017420 S.CERAMIC
4030016790 S.CERAMIC
4030017510 S.CERAMIC
4030007070 S.CERAMIC
4030017640 S.CERAMIC
4030017600 S.CERAMIC
4030017670 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017630 S.CERAMIC
4030007010 S.CERAMIC
4030017690 S.CERAMIC
4030017460 S.CERAMIC
4030017570 S.CERAMIC
4030017340 S.CERAMIC
4030017390 S.CERAMIC
4030017650 S.CERAMIC
4030017500 S.CERAMIC
4030017500 S.CERAMIC
4030017400 S.CERAMIC
4030017500 S.CERAMIC
4030017330 S.CERAMIC
4550007000 S.TANTALUM
4030017460 S.CERAMIC
4030017330 S.CERAMIC
4030018010 S.CERAMIC
ECJ0EC1H100C
ECJ0EC1H270J
ECJ0EC1H080C
ECJ0EC1H020B
ECJ0EC1H1R5B
ECJ0EC1H030B
ECJ0EC1H330J
ECJ0EC1H101J
ECJ0EC1H390J
ECJ0EC1H080C
ECJ0EC1H470J
ECJ0EB1C103K
ECJ0EC1H680J
C1608 CH 1H 330J-T
ECJ0EC1H150J
ECJ0EC1H080C
ECJ0EC1H390J
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H120J
C1608 CH 1H 100D-T
ECJ0EC1H121J
ECJ0EB1E102K
ECJ0EC1H040B
ECJ0EC1H010B
ECJ0EC1H180J
ECJ0EC1H270J
ECJ0EC1H560J
ECJ0EC1H560J
ECJ0EC1H220J
ECJ0EC1H560J
ECJ0EF1C104Z
ECST1VY105R
ECJ0EB1E102K
ECJ0EF1C104Z
ECJ0EC1H360J
S.=Surface mount
[RF UNIT]
REF ORDER
NO.
NO.
C319
C320
C321
C323
C324
C325
C331
C332
C333
C351
C352
C353
C307
C308
C309
C310
C311
C314
C315
C316
C317
C318
C256
C257
C258
C259
C301
C302
C303
C304
C305
C306
C114
C115
C116
C204
C205
C220
C252
C253
C254
C255
C103
C104
C105
C106
C107
C108
C109
C110
C111
C112
C88
C89
C91
C92
C93
C94
C95
C98
C101
C102
C77
C78
C79
C80
C81
C82
C83
C84
C85
C87
C60
C62
C64
C65
C66
C67
C68
C69
C70
C76
DESCRIPTION
4030017510 S.CERAMIC
4030016790 S.CERAMIC
4030017330 S.CERAMIC
4030017640 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030017660 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030016790 S.CERAMIC
4030017630 S.CERAMIC
4030017330 S.CERAMIC
4030017460 S.CERAMIC
4030017330 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030017330 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030016790 S.CERAMIC
4030016790 S.CERAMIC
4030018220 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
4030017460 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EB1E102K
ECJ0EB1E102K
4550007000 S.TANTALUM
ECST1VY105R
4030017460 S.CERAMIC
ECJ0EB1E102K
4030017460 S.CERAMIC
ECJ0EB1E102K
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030017330 S.CERAMIC
4030017460 S.CERAMIC
4030018100 S.CERAMIC
4030016930 S.CERAMIC
4030018100 S.CERAMIC
4030017680 S.CERAMIC
4030017660 S.CERAMIC
4030017690 S.CERAMIC
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EF1C104Z
ECJ0EB1E102K
ECJ0EB1H681K
ECJ0EB1A104K
ECJ0EB1H681K
ECJ0EC1H820J
ECJ0EC1H330J
ECJ0EC1H121J
4030016930 S.CERAMIC
4030016930 S.CERAMIC
4030016930 S.CERAMIC
4030016930 S.CERAMIC
4030017460 S.CERAMIC
4030016930 S.CERAMIC
4030016930 S.CERAMIC
4030016930 S.CERAMIC
4030017640 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030017620 S.CERAMIC
4030016790 S.CERAMIC
4030017610 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030017630 S.CERAMIC
4030016790 S.CERAMIC
4030016930 S.CERAMIC
4030017460 S.CERAMIC
4030017380 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1E102K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EC1H150J
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EC1H100C
ECJ0EB1C103K
ECJ0EC1H090C
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EC1H120J
ECJ0EB1C103K
ECJ0EB1A104K
ECJ0EB1E102K
ECJ0EC1H050B
ECJ0EB1E102K
ECJ0EC1H680J
ECJ0EB1C103K
ECJ0EF1C104Z
ECJ0EC1H150J
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EC1H330J
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EB1C103K
ECJ0EC1H120J
ECJ0EF1C104Z
ECJ0EB1E102K
ECJ0EF1C104Z
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EF1C104Z
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EB1C103K
ECJ0EB1C103K
ERA21B6C2D300JD01L (GRH708 CH)
ECJ0EF1C104Z
ECJ0EF1C104Z
ECJ0EF1C104Z
ECJ0EF1C104Z
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EF1C104Z
ECJ0EF1C104Z
ECJ0EB1E102K
DESCRIPTION
ECJ0EB1C103K
ECJ0EB1C103K
ECJ0EC1H101J
ECJ0EC1H040B
ECJ0EC1H680J
ECJ0EC1H050B
ECJ0EB1E102K
ECJ0EC1H680J
ECJ0EB1E102K
ECJ0EC1H040B
ECJ0EC1H010B
ECJ0EB1E102K
ECJ0EC1H040B
ECJ0EC1H820J
ECJ0EC1H101J
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E471K
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EB1C103K
ECJ0EC1H121J
ECJ0EC1H150J
ECJ0EC1H680J
ECJ0EC1H120J
ECJ0EC1H020B
ECJ0EC1H270J
ECJ0EC1H040B
ECJ0EC1H040B
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EC1H220J
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H221J
ECJ0EC1H070C
ECJ0EC1H100C
ECJ0EC1H101J
ECJ0EB1E102K
ECJ0EC1H150J
ECJ0EB1E102K
ECJ0EC1H040B
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EC1H090C
ECJ0EB1E102K
ECJ0EC1H221J
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H0R3B
ECJ0EB1E102K
ECJ0EC1H220J
ECJ0EC1H020B
ECJ0EB1E102K
ECJ0EC1H040B
ECJ0EB1E102K
ECJ0EC1H101J
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H181J
ECJ0EB1E102K
ECJ0EC1H030B
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H0R5B
ECJ0EC1H101J
ECJ0EC1H100C
ECJ0EB1E102K
ECJ0EB1E102K
[RF UNIT]
REF ORDER
NO.
NO.
C482
C483
C484
C485
C486
C487
C488
C489
C490
C492
C470
C472
C473
C474
C476
C477
C478
C479
C480
C481
C460
C461
C462
C463
C464
C465
C466
C467
C468
C469
C420
C421
C451
C452
C453
C454
C455
C456
C457
C458
C409
C410
C411
C412
C413
C414
C415
C416
C417
C419
C375
C376
C401
C402
C403
C404
C405
C406
C407
C408
C364
C365
C367
C368
C369
C370
C371
C372
C373
C374
C354
C355
C356
C357
C358
C359
C360
C361
C362
C363
4030016790 S.CERAMIC
4030016790 S.CERAMIC
4030017430 S.CERAMIC
4030017570 S.CERAMIC
4030017510 S.CERAMIC
4030017380 S.CERAMIC
4030017460 S.CERAMIC
4030017510 S.CERAMIC
4030017460 S.CERAMIC
4030017570 S.CERAMIC
4030017340 S.CERAMIC
4030017460 S.CERAMIC
4030017570 S.CERAMIC
4030017680 S.CERAMIC
4030017430 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017730 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030016790 S.CERAMIC
4030017690 S.CERAMIC
4030017640 S.CERAMIC
4030017510 S.CERAMIC
4030017630 S.CERAMIC
4030017350 S.CERAMIC
4030017650 S.CERAMIC
4030017570 S.CERAMIC
4030017570 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030017400 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017440 S.CERAMIC
4030017590 S.CERAMIC
4030017620 S.CERAMIC
4030017430 S.CERAMIC
4030017460 S.CERAMIC
4030017640 S.CERAMIC
4030017460 S.CERAMIC
4030017570 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030017610 S.CERAMIC
4030017460 S.CERAMIC
4030017440 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017520 S.CERAMIC
4030017460 S.CERAMIC
4030017400 S.CERAMIC
4030017350 S.CERAMIC
4030017460 S.CERAMIC
4030017570 S.CERAMIC
4030017460 S.CERAMIC
4030017430 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017710 S.CERAMIC
4030017460 S.CERAMIC
4030017360 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017530 S.CERAMIC
4030017430 S.CERAMIC
4030017620 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
S.=Surface mount
6 - 3
[RF UNIT]
REF ORDER
NO.
NO.
J251
J252
W1
W2
7030010040 S.JUMPER
7030010040 S.JUMPER
EP1
EP2
EP3
EP4
EP5
EP6
0910055443 PCB
6910013310 S.BEAD
6910014640 S.BEAD
6910014640 S.BEAD
6910014640 S.BEAD
6910014640 S.BEAD
DESCRIPTION
6510022860 S.CONNECTOR AXK6S30445P
6450000870 CONNECTOR HEC2711-01-020
ERJ2GE-JPW
ERJ2GE-JPW
B 5845C
MMZ1608D121B
MPZ2012S221A-T
MPZ2012S221A-T
MPZ2012S221A-T
MPZ2012S221A-T
[AF UNIT]
REF ORDER
NO.
NO.
IC51 1130007570 S.IC
IC151 1110003200 S.IC
IC251 1110004520 S.IC
IC252 1110001810 S.IC
DESCRIPTION
BU4094BCFV-E2
TA31136FN (EL)
M5222FP 600C
TA7368F (TP1)
D1
D2
D3
D51
D52
D101
D102
D103
D104
D151
D152
D201
Q1
Q2
Q11
Q51
Q52
Q53
Q54
Q55
Q56
Q57
1530003010 S.TRANSISTOR 2SC4117-GR (TE85R)
1530003220 S.TRANSISTOR 2SC4406-4-TL
1590001170 S.TRANSISTOR XP1501-(TX) .AB
1510000670 S.TRANSISTOR 2SA1588-GR (TE85R)
1510000670 S.TRANSISTOR 2SA1588-GR (TE85R)
1510000670 S.TRANSISTOR 2SA1588-GR (TE85R)
1590002700 S.TRANSISTOR XP4214 (TX)
1520000460 S.TRANSISTOR 2SB1132 T100 R
1590002700 S.TRANSISTOR XP4214 (TX)
1540000350 S.TRANSISTOR 2SD2216-S (TX)
Q58
Q59
Q61
Q62
Q63
1590002380 S.TRANSISTOR XP1115 (TX)
1590001690 S.TRANSISTOR UN9115 (TX)
1590001690 S.TRANSISTOR UN9115 (TX)
1590002380 S.TRANSISTOR XP1115 (TX)
1590002380 S.TRANSISTOR XP1115 (TX)
Q64
Q65
Q66
Q67
1510000620 S.TRANSISTOR 2SA1576 T106 S
1590001730 S.TRANSISTOR UN9113 (TX)
1590001730 S.TRANSISTOR UN9113 (TX)
1590001730 S.TRANSISTOR UN9113 (TX)
Q101 1590001980 S.TRANSISTOR XP4315 (TX)
Q102 1530002560 S.TRANSISTOR 2SC4403-3-TL
Q103 1590001730 S.TRANSISTOR UN9113 (TX)
Q201 1590001190 S.TRANSISTOR XP6501-(TX) .AB
Q202 1590001190 S.TRANSISTOR XP6501-(TX) .AB
Q203 1550000010 S.FET
2SJ364-Q (TX)
Q204 1590001190 S.TRANSISTOR XP6501-(TX) .AB
Q205 1540000350 S.TRANSISTOR 2SD2216-S (TX)
Q206 1590001980 S.TRANSISTOR XP4315 (TX)
Q207 1590002380 S.TRANSISTOR XP1115 (TX)
Q208 1510000510 S.TRANSISTOR 2SA1576A T106R
Q209 1590001170 S.TRANSISTOR XP1501-(TX) .AB
Q251 1550000010 S.FET
2SJ364-Q (TX)
Q253 1590001690 S.TRANSISTOR UN9115 (TX)
1750000770 S.VARICAP
1750000360 S.DIODE
1750000360 S.DIODE
1790001240 S.DIODE
1790001250 S.DIODE
1750000360 S.DIODE
1750000360 S.DIODE
1790000860 S.DIODE
1790001250 S.DIODE
1750000360 S.DIODE
1750000360 S.DIODE
1750000360 S.DIODE
HVC376BTRF
1SS364 (TE85L)
1SS364 (TE85L)
MA2S728-(TX)
MA2S111-(TX)
1SS364 (TE85L)
1SS364 (TE85L)
MA133 (TX)
MA2S111-(TX)
1SS364 (TE85L)
1SS364 (TE85L)
1SS364 (TE85L)
FI101 2020001950 S.CERAMIC
FI102 2020001940 S.CERAMIC
FI151 2020001270 CERAMIC
FL-338 (69.450 MHz)
SFECS13M3DA0001-B0 (SFECS13.35M
CFWLB450KE2A-B0 (CFWM450E)
[AF UNIT]
REF ORDER
NO.
NO.
X1 6050010160 S.XTAL
DESCRIPTION
CR-583 (13.800 MHz)
L3
L4
L5
L8
L9
L101
L103
L104
L151
6200004600 S.COIL
6200004590 S.COIL
6200004590 S.COIL
6200005700 S.COIL
6200004600 S.COIL
6200004480 S.COIL
6200004780 S.COIL
6200001980 S.COIL
6150005010 S.COIL
MLF1608D R15K-T
MLF1608D R18K-T
MLF1608D R18K-T
ELJRE 22NG-F
MLF1608D R15K-T
MLF1608D R82K-T
MLF1608A 1R5K-T
NL 252018T-1R0J
LS-528 (637AN-0223GW=P3)
R8
R9
R10
R11
R12
R13
R51
R52
R54
R55
R1
R2
R3
R4
R5
R7
7030005600 S.RESISTOR
7030005090 S.RESISTOR
7030005090 S.RESISTOR
7030006610 S.RESISTOR
7030004970 S.RESISTOR
7030005120 S.RESISTOR
7030005240 S.RESISTOR
7030004970 S.RESISTOR
7030008010 S.RESISTOR
7030008400 S.RESISTOR
7030008010 S.RESISTOR
7030008010 S.RESISTOR
7030005040 S.RESISTOR
7030005000 S.RESISTOR
7030005040 S.RESISTOR
7030005000 S.RESISTOR
R56
R57
R58
R59
R60
7030005040 S.RESISTOR
7030005000 S.RESISTOR
7030005050 S.RESISTOR
7030005050 S.RESISTOR
7030005000 S.RESISTOR
R61
R62
R63
R64
7030005090 S.RESISTOR
7030005160 S.RESISTOR
7030005040 S.RESISTOR
7030007290 S.RESISTOR
R101 7030005040 S.RESISTOR
R102 7030005040 S.RESISTOR
R103 7030005040 S.RESISTOR
R104 7030005040 S.RESISTOR
R105 7030005040 S.RESISTOR
R107 7030007340 S.RESISTOR
R108 7030005290 S.RESISTOR
R109 7030004970 S.RESISTOR
R110
R111
R112
7030004990 S.RESISTOR
7030004990 S.RESISTOR
7030005040 S.RESISTOR
R113
R114
7030007270 S.RESISTOR
7030007280 S.RESISTOR
R151 7030005220 S.RESISTOR
R152 7030007290 S.RESISTOR
R153 7030007570 S.RESISTOR
R154 7030005120 S.RESISTOR
R155 7030005720 S.RESISTOR
R156 7030007340 S.RESISTOR
R158 7030005110 S.RESISTOR
R159 7030005040 S.RESISTOR
R161 7030008010 S.RESISTOR
R162 7030005040 S.RESISTOR
R163 7030008010 S.RESISTOR
R164 7030008010 S.RESISTOR
R165 7030008010 S.RESISTOR
R166 7030008010 S.RESISTOR
R167 7030005110 S.RESISTOR
R201 7030005000 S.RESISTOR
R202 7030005230 S.RESISTOR
R203 7030009280 S.RESISTOR
R204 7030005050 S.RESISTOR
R205 7030005240 S.RESISTOR
R206 7030005160 S.RESISTOR
R207 7030005110 S.RESISTOR
R208 7030005220 S.RESISTOR
R209 7030005030 S.RESISTOR
R210 7030004980 S.RESISTOR
R211 7030005060 S.RESISTOR
R212 7030007290 S.RESISTOR
R213 7030005040 S.RESISTOR
R214 7030005040 S.RESISTOR
R215 7030008290 S.RESISTOR
ERJ2GEJ 273 X (27 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 394 X (390 k
Ω
)
ERJ2GEJ 470 X (47
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 470 X (47
Ω
)
ERJ2GEJ 123 X (12 k
Ω
)
ERJ2GEJ 182 X (1.8 k
Ω
)
ERJ2GEJ 123 X (12 k
Ω
)
ERJ2GEJ 123 X (12 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 471 X (470
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 471 X (470
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 471 X (470
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 471 X (470
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 105 X (1 M
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 153 X (15 k
Ω
)
ERJ2GEJ 682 X (6.8 k
Ω
)
ERJ2GEJ 470 X (47
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 151 X (150
Ω
ERJ2GEJ 331 X (330
Ω
)
)
ERJ2GEJ 223 X (22 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GEJ 122X (1.2 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 563 X (56 k
Ω
)
ERJ2GEJ 153 X (15 k
Ω
)
ERJ2GEJ 224 X (220 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 123 X (12 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 123 X (12 k
Ω
)
ERJ2GEJ 123 X (12 k
Ω
)
ERJ2GEJ 123 X (12 k
Ω
)
ERJ2GEJ 123 X (12 k
Ω
)
ERJ2GEJ 224 X (220 k
Ω
)
ERJ2GEJ 471 X (470
Ω
)
ERJ2GEJ 334 X (330 k
Ω
)
ERJ2GE
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 105 X (1 M
Ω
)
ERJ2GEJ 224 X (220 k
Ω
)
ERJ2GEJ 223 X (22 k
Ω
)
ERJ2GEJ 152 X (1.5 k
Ω
)
ERJ2GEJ 101 X (100
Ω
)
ERJ2GEJ 333 X (33 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
ERJ2GEJ 183 X (18 k
Ω
)
)
S.=Surface mount
6 - 4
[AF UNIT]
REF ORDER
NO.
NO.
R228
R229
R230
R231
R232
R233
R234
R251
R252
R253
R216
R217
R218
R219
R220
R221
R222
R223
R224
R225
R254
R256
R257
R258
R259
R260
R261
R262
R263
R264
R265
R266
7030008290 S.RESISTOR
7030008290 S.RESISTOR
7030005050 S.RESISTOR
7030008290 S.RESISTOR
7030005090 S.RESISTOR
7030005050 S.RESISTOR
7030008300 S.RESISTOR
7030005160 S.RESISTOR
7030005240 S.RESISTOR
7030007340 S.RESISTOR
7030008300 S.RESISTOR
7030009160 S.RESISTOR
7030005530 S.RESISTOR
7030005120 S.RESISTOR
7030007290 S.RESISTOR
7030005050 S.RESISTOR
7030005050 S.RESISTOR
7030005160 S.RESISTOR
7030005240 S.RESISTOR
7030005060 S.RESISTOR
7030005110 S.RESISTOR
7030007340 S.RESISTOR
7030005070 S.RESISTOR
7030005080 S.RESISTOR
7030005210 S.RESISTOR
7030005310 S.RESISTOR
7030005060 S.RESISTOR
7030005040 S.RESISTOR
7030007270 S.RESISTOR
7030005530 S.RESISTOR
7030007280 S.RESISTOR
7030008280 S.RESISTOR
DESCRIPTION
ERJ2GEJ 183 X (18 k
Ω
)
ERJ2GEJ 183 X (18 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 183 X (18 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 184 X (180 k
Ω
)
ERJ2GEJ 105 X (1 M
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 153 X (15 k
Ω
)
ERJ2GEJ 184 X (180 k
Ω
)
ERJ2GEJ 181 X (180
Ω
)
ERJ2GEJ 100 X (10
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 105 X (1 M
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 333 X (33 k
Ω
)
ERJ2GEJ 224 X (220 k
Ω
ERJ2GEJ 153 X (15 k
Ω
)
)
ERJ2GEJ 683 X (68 k
Ω
)
ERJ2GEJ 823 X (82 k
Ω
)
ERJ2GEJ 822 X (8.2 k
Ω
)
ERJ2GEJ 124 X (120 k
Ω
ERJ2GEJ 333 X (33 k
Ω
)
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 151 X (150
Ω
)
ERJ2GEJ 100 X (10
Ω
)
ERJ2GEJ 331 X (330
Ω
ERJ2GEJ 271 X (270
Ω
)
)
C57
C58
C59
C60
C101
C103
C105
C107
C109
C110
C23
C24
C25
C26
C51
C52
C53
C54
C55
C56
C111
C113
C114
C115
C116
C117
C151
C152
C153
C154
C155
C156
C7
C8
C9
C10
C11
C12
C13
C14
C17
C18
C1
C2
C3
C4
C5
C6
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030017710 S.CERAMIC
4030017690 S.CERAMIC
4030017430 S.CERAMIC
4030017600 S.CERAMIC
4030016790 S.CERAMIC
4030017570 S.CERAMIC
4030017400 S.CERAMIC
4030017350 S.CERAMIC
4030017400 S.CERAMIC
4030017570 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EC1H181J
ECJ0EC1H121J
ECJ0EC1H101J
ECJ0EC1H080C
ECJ0EB1C103K
ECJ0EC1H040B
ECJ0EC1H220J
ECJ0EC1H020B
ECJ0EC1H220J
ECJ0EC1H040B
ECJ0EB1E102K
ECJ0EB1C103K
4030017590 S.CERAMIC
4030017660 S.CERAMIC
4030017580 S.CERAMIC
4030017660 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EC1H070C
ECJ0EC1H330J
ECJ0EC1H060C
ECJ0EC1H330J
ECJ0EB1E102K
4030017460 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EB1E102K
ECJ0EB1E102K
4550006620 S.TANTALUM
ECST0JY226R
4030017460 S.CERAMIC
ECJ0EB1E102K
4030017460 S.CERAMIC
ECJ0EB1E102K
4030017460 S.CERAMIC
ECJ0EB1E102K
4550006620 S.TANTALUM
ECST0JY226R
4550006620 S.TANTALUM
ECST0JY226R
4030017460 S.CERAMIC
ECJ0EB1E102K
4030016790 S.CERAMIC
ECJ0EB1C103K
4030017570 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030017430 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EC1H040B
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EC1H101J
ECJ0EB1E102K
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030017600 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EC1H080C
ECJ0EB1E102K
ECJ0EB1C103K
4550006200 S.TANTALUM
ECST0JY106R
4030017460 S.CERAMIC
ECJ0EB1E102K
4030017330 S.CERAMIC
4030016790 S.CERAMIC
4030017670 S.CERAMIC
ECJ0EF1C104Z
ECJ0EB1C103K
ECJ0EC1H390J
4030017700 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EC1H151J
ECJ0EB1E102K
6 - 5
[AF UNIT]
REF ORDER
NO.
NO.
C296
C298
C299
C300
C301
C302
C303
C304
C277
C278
C279
C282
C283
C284
C286
C287
C289
C293
C263
C265
C267
C268
C269
C270
C272
C274
C275
C276
C252
C253
C254
C255
C256
C257
C258
C259
C260
C261
C219
C220
C221
C223
C225
C227
C228
C229
C230
C251
C209
C210
C211
C212
C213
C214
C215
C216
C217
C218
C167
C168
C201
C202
C203
C204
C205
C206
C207
C208
C157
C158
C159
C160
C161
C162
C163
C164
C165
C166
DESCRIPTION
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017330 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4550006200 S.TANTALUM
4030016790 S.CERAMIC
4030016790 S.CERAMIC
4030016790 S.CERAMIC
4550006620 S.TANTALUM
4030017400 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030012610 S.CERAMIC
4550005980 S.TANTALUM
4030017330 S.CERAMIC
4030009660 S.CERAMIC
4030016790 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4030016950 S.CERAMIC
4030017780 S.CERAMIC
4030016790 S.CERAMIC
4030017780 S.CERAMIC
4030017760 S.CERAMIC
4030016790 S.CERAMIC
4030016960 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4030017490 S.CERAMIC
4030017460 S.CERAMIC
4550006620 S.TANTALUM
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030016950 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4030017460 S.CERAMIC
4030017330 S.CERAMIC
ECJ0EB1A473K
ECJ0EF1C104Z
ECJ0EF1C104Z
ECJ0EB1E102K
ECJ0EF1C104Z
4030017460 S.CERAMIC
4030017330 S.CERAMIC
4030008680 S.CERAMIC
4030008680 S.CERAMIC
ECJ0EB1E102K
ECJ0EF1C104Z
C2012 JF 1C 105Z-T
C2012 JF 1C 105Z-T
4510006960 S.ELECTROLYTIC ECEV0JA151WP
4030017330 S.CERAMIC
4030017420 S.CERAMIC
4550003080 S.TANTALUM
4030016950 S.CERAMIC
ECJ0EF1C104Z
ECJ0EC1H470J
TEMSVA 1A 335M-8L
ECJ0EB1A473K
4510006960 S.ELECTROLYTIC ECEV0JA151WP
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017420 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H470J
ECJ0EB1E102K
ECJ0EB1E102K
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017420 S.CERAMIC
4030017420 S.CERAMIC
4030017420 S.CERAMIC
4030017690 S.CERAMIC
4030017420 S.CERAMIC
4030017460 S.CERAMIC
4030017420 S.CERAMIC
4030017460 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H470J
ECJ0EC1H470J
ECJ0EC1H470J
ECJ0EC1H121J
ECJ0EC1H470J
ECJ0EB1E102K
ECJ0EC1H470J
ECJ0EB1E102K
ECJ0EF1C104Z
ECJ0EF1C104Z
ECJ0EF1C104Z
ECJ0EF1C104Z
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EF1C104Z
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EF1C104Z
ECJ0EF1C104Z
ECST0JY106R
ECJ0EB1C103K
ECJ0EB1C103K
ECJ0EB1C103K
ECST0JY226R
ECJ0EC1H220J
ECJ0EB1E102K
ECJ0EB1C103K
C2012 JB 1C 474K-T
TEMSVA 1A 475M-8L
ECJ0EF1C104Z
C1608 JF 1C 224Z-T
ECJ0EB1C103K
ECJ0EF1C104Z
ECJ0EF1C104Z
ECJ0EF1C104Z
ECJ0EB1A473K
ECJ0EB1E472K
ECJ0EB1C103K
ECJ0EB1E472K
ECJ0EB1H222K
ECJ0EB1C103K
ECJ0EB1C183K
ECJ0EF1C104Z
ECJ0EF1C104Z
ECJ0EF1C104Z
ECJ0EF1C104Z
C1608 JB 1A 105K-T
ECJ0EB1E102K
ECST0JY226R
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
J51
J251
6510022880 S.CONNECTOR AXK5S30340P
6510022470 S.CONNECTOR 40FLT-SM1-TB
S.=Surface mount
[AF UNIT]
REF ORDER
NO.
NO.
J252
J253
S251 7600000210 ENCODER
W1
W2
W3
7030010040 S.JUMPER
7030010040 S.JUMPER
9014505003 WIRE
EP1
EP3
EP4
EP5
EP6
EP7
EP8
0910054435 PCB
6910012350 S.BEAD
6910012350 S.BEAD
6910012350 S.BEAD
6910013310 S.BEAD
6910013310 S.BEAD
6910013310 S.BEAD
DESCRIPTION
6450001680 CONNECTOR HSJ1122-010010
6450002250 CONNECTOR HSJ1456-010320
TP70N00E20-15F-1903
ERJ2GE-JPW
ERJ2GE-JPW
22/07/070/W02/W02
B 5735E
MMZ1608Y 102BT
MMZ1608Y 102BT
MMZ1608Y 102BT
MMZ1608D121B
MMZ1608D121B
MMZ1608D121B
[LOGIC UNIT]
REF ORDER
NO.
NO.
IC1
IC2
IC5
IC91
IC92
1140010730 S.IC
1140010710 S.IC
1140009240 S.IC
1130006220 S.IC
1130007110 S.IC
1130007020 S.IC
IC141 1180002150 S.IC
IC142 1110005730 S.IC
IC241 1110003800 S.IC
DESCRIPTION
M30220MA-116RP
M30220MA-114RP
HN58X24128FPI
TC4W53FU (TE12L)
TC7W04FU (TE12L)
TC7S66FU (TE85R)
NJM2370U32-TE1
S-80928CNMC
NJM2904V-TE1
[USA] except [USA]
D5
D6
D51
D52
D53
D56
D58
D60
D91
Q1
Q2
Q3
Q4
Q6
Q8
Q9
Q10
Q11
Q40
1590001690 S.TRANSISTOR UN9115 (TX)
1590001690 S.TRANSISTOR UN9115 (TX)
1590001400 S.TRANSISTOR XP1214 (TX)
1520000650 S.TRANSISTOR 2SB1201-S-TL
1590001400 S.TRANSISTOR XP1214 (TX)
1520000460 S.TRANSISTOR 2SB1132 T100 R
1590001170 S.TRANSISTOR XP1501-(TX) .AB
1540000350 S.TRANSISTOR 2SD2216-S (TX)
1590001140 S.TRANSISTOR UN9210 (TX)
1590001860 S.TRANSISTOR UN9215 (TX)
Q91 1540000350 S.TRANSISTOR 2SD2216-S (TX)
Q141 1540000350 S.TRANSISTOR 2SD2216-S (TX)
Q142 1590001170 S.TRANSISTOR XP1501-(TX) .AB
Q145 1520000460 S.TRANSISTOR 2SB1132 T100 R
Q146 1590001170 S.TRANSISTOR XP1501-(TX) .AB
Q147 1520000460 S.TRANSISTOR 2SB1132 T100 R
Q151 1540000350 S.TRANSISTOR 2SD2216-S (TX)
Q201 1520000650 S.TRANSISTOR 2SB1201-S-TL
Q202 1590001170 S.TRANSISTOR XP1501-(TX) .AB
Q301 1590002380 S.TRANSISTOR XP1115 (TX)
Q302 1520000430 S.TRANSISTOR 2SB1462-R (TX)
Q304 1550000010 S.FET
2SJ364-Q (TX)
Q305 1550000010 S.FET
2SJ364-Q (TX)
Q307 1590001440 S.TRANSISTOR UN9214 (TX)
Q310 1590001190 S.TRANSISTOR XP6501-(TX) .AB
Q311 1590001210 S.TRANSISTOR XP5601-(TX) .AB
Q312 1590001190 S.TRANSISTOR XP6501-(TX) .AB
Q342 1550000010 S.FET
Q343 1550000010 S.FET
2SJ364-Q (TX)
2SJ364-Q (TX)
Q451 1530002690 S.TRANSISTOR 2SC4116-GR (TE85R)
1790000860 S.DIODE
1790000670 S.DIODE
1790000820 S.DIODE
1790000850 S.DIODE
1790000820 S.DIODE
1790000850 S.DIODE
1790001250 S.DIODE
1790001200 S.DIODE
1790001250 S.DIODE
1790001560 S.DIODE
MA133 (TX)
SB07-03C-TB
MA132K (TX)
MA132WK (TX)
MA132K (TX)
MA132WK (TX)
[USA], [CAN]
[GEN], [SEA] except [GEN]
MA6S121 (TX)
MA2S111-(TX) [USA], [CAN] only
1SS372 (TE85R)
[LOGIC UNIT]
REF ORDER
NO.
NO.
D141 1790001250 S.DIODE
D143 1790001250 S.DIODE
D152 1790001250 S.DIODE
D253 1790001250 S.DIODE
D300 1790001560 S.DIODE
D301 1790001560 S.DIODE
D302 1790001560 S.DIODE
X1 6050011080 S.XTAL
L24
L140
6200003640 S.COIL
6200003640 S.COIL
DESCRIPTION
MA2S111-(TX)
MA2S111-(TX)
MA2S111-(TX)
MA2S111-(TX)
1SS372 (TE85R)
1SS372 (TE85R)
1SS372 (TE85R)
CR-687 (6.7584 MHz)
MLF1608E 100K-T
MLF1608E 100K-T
R70
R71
R72
R73
R74
R75
R80
R81
R82
R83
R56
R61
R62
R63
R64
R65
R66
R67
R68
R69
R84
R85
R88
R89
R91
R92
R93
R39
R40
R42
R43
R46
R47
R51
R53
R54
R55
R23
R24
R27
R28
R29
R32
R33
R34
R35
R38
R13
R14
R15
R16
R17
R18
R19
R20
R21
R22
R1
R2
R4
R5
R8
R9
R10
R11
R12
7510001660 S.THRMISTOR
NTCG16 4LH 473KT
7030005090 S.RESISTOR
ERJ2GEJ 104 X (100 k
Ω
)
7030008280 S.RESISTOR
7030008280 S.RESISTOR
7030005240 S.RESISTOR
ERJ2GEJ 271 X (270
Ω
)
ERJ2GEJ 271 X (270
Ω
)
ERJ2GEJ 473 X (47 k
Ω
7030005310 S.RESISTOR
7030005050 S.RESISTOR
7030000150 S.RESISTOR
7030005240 S.RESISTOR
7030005240 S.RESISTOR
7030005240 S.RESISTOR
7030000150 S.RESISTOR
7030005120 S.RESISTOR
7030005120 S.RESISTOR
)
ERJ2GEJ 124 X (120 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
MCR10EZHJ 12
Ω
(120)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
MCR10EZHJ 12
Ω
(120)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
7030010390 S.RESISTOR
7030005050 S.RESISTOR
7030010370 S.RESISTOR
7030005120 S.RESISTOR
7030004980 S.RESISTOR
7030005120 S.RESISTOR
7030004980 S.RESISTOR
7030005240 S.RESISTOR
7030005120 S.RESISTOR
7030010380 S.RESISTOR
7030004980 S.RESISTOR
7030005120 S.RESISTOR
7030004980 S.RESISTOR
7030005120 S.RESISTOR
7030005090 S.RESISTOR
7030005240 S.RESISTOR
7030008010 S.RESISTOR
7030005010 S.RESISTOR
7030009160 S.RESISTOR
7030005710 S.RESISTOR
7030005710 S.RESISTOR
7030005160 S.RESISTOR
7030005070 S.RESISTOR
7030005050 S.RESISTOR
7030008270 S.RESISTOR
7030005040 S.RESISTOR
7030005010 S.RESISTOR
7030004990 S.RESISTOR
7030005010 S.RESISTOR
7030004990 S.RESISTOR
7030005010 S.RESISTOR
7030004990 S.RESISTOR
7030005010 S.RESISTOR
7030004990 S.RESISTOR
7030005010 S.RESISTOR
7030004990 S.RESISTOR
7030005010 S.RESISTOR
7030004990 S.RESISTOR
7030005010 S.RESISTOR
7030004990 S.RESISTOR
7030005040 S.RESISTOR
7030005080 S.RESISTOR
7030005080 S.RESISTOR
7030005720 S.RESISTOR
7030005720 S.RESISTOR
7030005310 S.RESISTOR
7030005050 S.RESISTOR
7030005050 S.RESISTOR
7030005240 S.RESISTOR
7030005050 S.RESISTOR
7030004970 S.RESISTOR
7030004970 S.RESISTOR
ERA3YED 821V
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2RHD 561 X (560
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 101 X (100
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 101 X (100
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2RHD 471 X (470
Ω
)
ERJ2GEJ 101 X (100
Ω
ERJ2GEJ 102 X (1 k
Ω
)
)
ERJ2GEJ 101 X (100
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
ERJ2GEJ 123 X (12 k
Ω
)
)
ERJ2GEJ 681 X (680
Ω
)
ERJ2GEJ 181 X (180
Ω
)
ERJ2GEJ 121 X (120
Ω
)
Ω
ERJ2GEJ 121 X (120
ERJ2GEJ 105 X (1 M
Ω
)
)
ERJ2GEJ 683 X (68 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
RR0510R-104-D (100 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 681 X (680
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 681 X (680
Ω
)
ERJ2GEJ 221 X (220
Ω
)
Ω
ERJ2GEJ 681 X (680 )
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 681 X (680
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 681 X (680
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 681 X (680
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 681 X (680
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
ERJ2GEJ 823 X (82 k
Ω
)
)
ERJ2GEJ 823 X (82 k
Ω
)
ERJ2GEJ 563 X (56 k
Ω
)
ERJ2GEJ 563 X (56 k
Ω
)
ERJ2GEJ 124 X (120 k
Ω
ERJ2GEJ 103 X (10 k
Ω
)
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 470 X (47
Ω
)
ERJ2GEJ 470 X (47
Ω
)
S.=Surface mount
6 - 6
[LOGIC UNIT]
REF ORDER
NO.
NO.
R400
R451
R452
R453
R454
R455
R456
R457
R458
R459
R460
R336
R340
R360
R361
R363
R364
R365
R366
R367
R368
R324
R325
R326
R328
R329
R330
R331
R332
R333
R335
R312
R313
R314
R315
R316
R317
R318
R319
R320
R321
R249
R301
R302
R305
R306
R307
R308
R309
R310
R311
R209
R210
R211
R241
R243
R244
R245
R246
R247
R248
R149
R151
R152
R153
R154
R203
R204
R205
R207
R208
R139
R140
R141
R142
R143
R144
R145
R146
R147
R148
7030005710 S.RESISTOR
7030007300 S.RESISTOR
7030005000 S.RESISTOR
7030005461 S.RESISTOR
7030005000 S.RESISTOR
7030005110 S.RESISTOR
7030005120 S.RESISTOR
7030007290 S.RESISTOR
7030005060 S.RESISTOR
7030007340 S.RESISTOR
7030009290 S.RESISTOR
7310004660 S.TRIMMER
7310004660 S.TRIMMER
7030005170 S.RESISTOR
7030005170 S.RESISTOR
7030005120 S.RESISTOR
7030005210 S.RESISTOR
7030005080 S.RESISTOR
7030005830 S.RESISTOR
7030005120 S.RESISTOR
7030005050 S.RESISTOR
7030005070 S.RESISTOR
7030005050 S.RESISTOR
7030005240 S.RESISTOR
7030005530 S.RESISTOR
7030005310 S.RESISTOR
7310004660 S.TRIMMER
7310004660 S.TRIMMER
7030005170 S.RESISTOR
7030005170 S.RESISTOR
7030005090 S.RESISTOR
7030008300 S.RESISTOR
7030005600 S.RESISTOR
7030005240 S.RESISTOR
7030005120 S.RESISTOR
7030005240 S.RESISTOR
7030005240 S.RESISTOR
7030005110 S.RESISTOR
7030005240 S.RESISTOR
7030005050 S.RESISTOR
7030007290 S.RESISTOR
7030005530 S.RESISTOR
7030005040 S.RESISTOR
7030007340 S.RESISTOR
7030005830 S.RESISTOR
7030005050 S.RESISTOR
7030005040 S.RESISTOR
7030005050 S.RESISTOR
7030005050 S.RESISTOR
7030005240 S.RESISTOR
7030008270 S.RESISTOR
7030005050 S.RESISTOR
7030005120 S.RESISTOR
7030005240 S.RESISTOR
7030005050 S.RESISTOR
7030005040 S.RESISTOR
7030000240 S.RESISTOR
7030000240 S.RESISTOR
7030000240 S.RESISTOR
7030005160 S.RESISTOR
7030005090 S.RESISTOR
7030005120 S.RESISTOR
7030008010 S.RESISTOR
7030005050 S.RESISTOR
7030005230 S.RESISTOR
7030005080 S.RESISTOR
7030005080 S.RESISTOR
7030005080 S.RESISTOR
7030005070 S.RESISTOR
7030005240 S.RESISTOR
7030005160 S.RESISTOR
7030005100 S.RESISTOR
7030009290 S.RESISTOR
7030007280 S.RESISTOR
7030005290 S.RESISTOR
7030007290 S.RESISTOR
7030004980 S.RESISTOR
7030005110 S.RESISTOR
7030005720 S.RESISTOR
7030008051 S.RESISTOR
7030007300 S.RESISTOR
DESCRIPTION
ERJ2GEJ 100 X (10
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 153 X (15 k
Ω
)
RR0510R-223-D (22 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
ERJ2GEJ 103 X (10 k
Ω
)
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
RR0510R-104-D (100 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
ERJ2GEJ 102 X (1 k
Ω
)
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
MCR10EZHJ 68
Ω
(680)
MCR10EZHJ 68
Ω
(680)
MCR10EZHJ 68
Ω
(680)
ERJ2GEJ 105 X (1 M
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 123 X (12 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 334 X (330 k
Ω
)
ERJ2GEJ 823 X (82 k
Ω
)
ERJ2GEJ 823 X (82 k
Ω
)
ERJ2GEJ 823 X (82 k
Ω
)
ERJ2GEJ 683 X (68 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 105 X (1 M
Ω
)
ERJ2GEJ 154 X (150 k
Ω
ERJ2GEJ 562 X (5.6 k
Ω
)
)
ERJ2GEJ 331 X (330
Ω
)
ERJ2GEJ 682 X (6.8 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
Ω
ERJ2GEJ 101 X (100 )
ERJ2GEJ 224 X (220 k
Ω
)
ERJ2GEJ 563 X (56 k
Ω
)
ERA3YKD 184V (180 k
Ω
)
ERJ2GEJ 332 X (3.3 k
Ω
)
ERJ2GEJ 121 X (120
Ω
)
ERJ2GEJ 332 X (3.3 k
Ω
)
ERJ2GEJ 471 X (470
Ω
)
ERA3YKD 204V (200 k
Ω
)
ERJ2GEJ 471 X (470
Ω
)
ERJ2GEJ 224 X (220 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
ERJ2GEJ 333 X (33 k
Ω
)
ERJ2GEJ 153 X (15 k
Ω
)
ERJ2GEJ 562 X (5.6 k
Ω
)
EVM-2WSX80 B54 (503)
EVM-2WSX80 B54 (503)
ERJ2GEJ 474 X (470 k
Ω
)
ERJ2GEJ 474 X (470 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 822 X (8.2 k
Ω
)
ERJ2GEJ 823 X (82 k
Ω
)
RR0510R-223-D (22 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
ERJ2GEJ 683 X (68 k
Ω
)
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 100 X (10
Ω
)
ERJ2GEJ 124 X (120 k
Ω
)
EVM-2WSX80 B54 (503)
EVM-2WSX80 B54 (503)
ERJ2GEJ 474 X (470 k
Ω
)
ERJ2GEJ 474 X (470 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 184 X (180 k
Ω
)
ERJ2GEJ 273 X (27 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 224 X (220 k
Ω
)
ERJ2GEJ 473 X (47 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 222 X (2.2 k
Ω
)
6 - 7
[LOGIC UNIT]
REF ORDER
NO.
NO.
C151
C152
C153
C154
C162
C198
C199
C200
C205
C207
C208
C209
C140
C141
C142
C143
C145
C146
C147
C148
C149
C150
C95
C96
C97
C98
C99
C101
C102
C103
C138
C139
C76
C80
C81
C88
C89
C90
C91
C92
C93
C94
C40
C41
C43
C44
C45
C46
C47
C55
C57
C75
C29
C30
C32
C33
C34
C35
C36
C37
C38
C39
C14
C15
C16
C17
C20
C23
C24
C25
C26
C27
C3
C4
C5
C7
C8
C9
C10
C11
C12
C13
4030017460 S.CERAMIC
4550006960 S.TANTALUM
4030017460 S.CERAMIC
4030017510 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017330 S.CERAMIC
4030008680 S.CERAMIC
4030008680 S.CERAMIC
4550006640 S.TANTALUM
4030017330 S.CERAMIC
4030008680 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017260 S.CERAMIC
4030017460 S.CERAMIC
4030017330 S.CERAMIC
4030017460 S.CERAMIC
4550006780 S.TANTALUM
4030017460 S.CERAMIC
4030017330 S.CERAMIC
4030017330 S.CERAMIC
4550006730 S.TANTALUM
4030017460 S.CERAMIC
4550006780 S.TANTALUM
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030017420 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4550006210 S.TANTALUM
4030011810 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017640 S.CERAMIC
4030017390 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017330 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030016790 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4550006780 S.TANTALUM
4030017440 S.CERAMIC
4030017780 S.CERAMIC
4030017760 S.CERAMIC
4030017400 S.CERAMIC
4030017500 S.CERAMIC
4030017420 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017420 S.CERAMIC
4030017420 S.CERAMIC
4030017420 S.CERAMIC
4030017460 S.CERAMIC
4030017420 S.CERAMIC
4030017460 S.CERAMIC
4030017420 S.CERAMIC
4030017420 S.CERAMIC
4030017420 S.CERAMIC
4030016790 S.CERAMIC
4030017420 S.CERAMIC
4030017390 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4550002980 S.TANTALUM
DESCRIPTION
ECJ0EB1E102K
TEMSVB2 0G 107M8R
ECJ0EB1E102K
ECJ0EC1H680J
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EF1C104Z
C2012 JF 1C 105Z-T
C2012 JF 1C 105Z-T
ECST1DY225R
ECJ0EF1C104Z
C2012 JF 1C 105Z-T
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
C2012 JB 0J 475KT
ECJ0EB1E102K
ECJ0EF1C104Z
ECJ0EB1E102K
TEMSVB2 0J 476M-8R
ECJ0EB1E102K
ECJ0EF1C104Z
ECJ0EF1C104Z
TEMSVB2 0J 226M-8L
ECJ0EB1E102K
TEMSVB2 0J 476M-8R
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EC1H470J
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECST1CX106R
C1608 JB 1A 224K-T
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H150J
ECJ0EC1H180J
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EF1C104Z
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EB1C103K
ECJ0EB1C103K
ECJ0EB1E102K
TEMSVB2 0J 476M-8R
ECJ0EC1H221J
ECJ0EB1E472K
ECJ0EB1H222K
ECJ0EC1H220J
ECJ0EC1H560J
ECJ0EC1H470J
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H470J
ECJ0EC1H470J
ECJ0EC1H470J
ECJ0EB1E102K
ECJ0EC1H470J
ECJ0EB1E102K
ECJ0EC1H470J
ECJ0EC1H470J
ECJ0EC1H470J
ECJ0EB1C103K
ECJ0EC1H470J
ECJ0EC1H180J
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
TEMSVA 1C 225M-8L
S.=Surface mount
[LOGIC UNIT]
REF ORDER
NO.
NO.
C347
C348
C400
C401
C402
C403
C404
C405
C451
C452
C318
C319
C320
C321
C323
C324
C325
C326
C340
C341
C306
C308
C310
C311
C312
C313
C314
C315
C316
C317
C211
C240
C242
C243
C244
C246
C247
C248
C304
C305
C453
C454
C455
C456
C919
C920
4550006140 S.TANTALUM
4030009980 S.CERAMIC
4030016940 S.CERAMIC
4030017330 S.CERAMIC
4030016930 S.CERAMIC
4030016930 S.CERAMIC
4030017430 S.CERAMIC
4550006150 S.TANTALUM
4030017430 S.CERAMIC
4030017420 S.CERAMIC
4550006620 S.TANTALUM
4030009630 S.CERAMIC
4030017420 S.CERAMIC
4550005980 S.TANTALUM
4030017460 S.CERAMIC
4030017420 S.CERAMIC
4030011810 S.CERAMIC
4030017460 S.CERAMIC
4550005980 S.TANTALUM
4030016950 S.CERAMIC
4030016960 S.CERAMIC
4030017420 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4550006320 S.TANTALUM
4550006620 S.TANTALUM
4030008680 S.CERAMIC
4030008680 S.CERAMIC
4030008680 S.CERAMIC
4030008680 S.CERAMIC
4030008680 S.CERAMIC
4030008680 S.CERAMIC
4030016790 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030016930 S.CERAMIC
4030009630 S.CERAMIC
4550006620 S.TANTALUM
4030016790 S.CERAMIC
4030016790 S.CERAMIC
DESCRIPTION
ECST1EY474R
C1608 JB 1H 152K-T
ECJ0EB1A393K
ECJ0EF1C104Z
ECJ0EB1A104K
ECJ0EB1A104K
ECJ0EC1H101J
ECST1CY105R
ECJ0EC1H101J
ECJ0EC1H470J
ECST0JY226R
C1608 JB 1H 822K-T
ECJ0EC1H470J
TEMSVA 1A 475M-8L
ECJ0EB1E102K
ECJ0EC1H470J
C1608 JB 1A 224K-T
ECJ0EB1E102K
TEMSVA 1A 475M-8L
ECJ0EB1A473K
ECJ0EB1C183K
ECJ0EC1H470J
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECST0JY475R
ECST0JY226R
C2012 JF 1C 105Z-T
C2012 JF 1C 105Z-T
C2012 JF 1C 105Z-T
C2012 JF 1C 105Z-T
C2012 JF 1C 105Z-T
C2012 JF 1C 105Z-T
ECJ0EB1C103K
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1A104K
C1608 JB 1H 822K-T
ECST0JY226R
ECJ0EB1C103K
ECJ0EB1C103K
J1 6510022470 S.CONNECTOR 40FLT-SM1-TB
DS1
DS2
DS3
DS4
DS5
DS6
DS7
DS8
DS9
5010000160 S.LED
5010000160 S.LED
5010000150 S.LED
5030001990 LCD
5040002670 S.LED
5040002670 S.LED
5040002670 S.LED
5040002670 S.LED
5040002670 S.LED
DS10 5040002670 S.LED
DS11 5040002670 S.LED
DS12 5040002670 S.LED
LNJ310M6URA
LNJ310M6URA
LT1EP53A
TTR5169 UPFDHW
CL-165HR/YG
CL-165HR/YG
CL-165HR/YG
CL-165HR/YG
CL-165HR/YG
CL-165HR/YG
CL-165HR/YG
CL-165HR/YG
MC1 7700002310 MICROPHONE EM-140
S401
S402
2230001090 S.SWITCH
2230001090 S.SWITCH
EVQPSH02K
EVQPSH02K
SP1 2510000840 SPEAKER
W1
W2
W3
8900010520 CABLE
7120000470 JUMPER
7030000010 S.JUMPER
CS028014-12
OPC-1033
ERDS2T0
MCR10EZHJ JPW (000)
EP1
EP2
8930055190 LCD CONTACT SRCN-2372-SP-N-W
0910054444 PCB B 5736D
[LOGIC UNIT]
REF ORDER
NO.
NO.
EP3 6910012350 S.BEAD
EP141 6910012350 S.BEAD
EP142 6910012350 S.BEAD
DESCRIPTION
MMZ1608Y 102BT
MMZ1608Y 102BT
MMZ1608Y 102BT
6 - 8
[VCO UNIT]
REF ORDER
NO.
NO.
IC1 1110004460 S.IC
IC201 1130007610 S.IC
DESCRIPTION
µPB1509GV-E1
µPD3140GS-E1 (DS8)
D1
D2
D3
D7
D8
D9
D10
Q1
Q2
Q3
Q4
Q5
Q7
Q11
Q14
1530003810 S.TRANSISTOR 2SC5008-T1
1530003810 S.TRANSISTOR 2SC5008-T1
1590001860 S.TRANSISTOR UN9215 (TX)
1530003810 S.TRANSISTOR 2SC5008-T1
1530003810 S.TRANSISTOR 2SC5008-T1
1530003560 S.TRANSISTOR 2SC5195-T1
1530003310 S.TRANSISTOR 2SC5107-O (TE85R)
1590001660 S.TRANSISTOR XP4312 (TX)
Q15
Q16
1590001470 S.TRANSISTOR UN9213 (TX)
1530003810 S.TRANSISTOR 2SC5008-T1
Q206 1560000540 S.FET
2SK880-Y (TE85R)
Q207 1530003010 S.TRANSISTOR 2SC4117-GR (TE85R)
Q211 1530002600 S.TRANSISTOR 2SC4215-O (TE85R)
Q212 1530003810 S.TRANSISTOR 2SC5008-T1
1720000790 S.VARICAP
1790001260 S.DIODE
1720000790 S.VARICAP
1750000800 S.DIODE
1750000800 S.DIODE
1750000800 S.DIODE
1750000800 S.DIODE
HVC321B1TRF
MA2S077-(TX)
HVC321B1TRF
HVC136TRF
HVC136TRF
HVC136TRF
HVC136TRF
L2
L3
L4
L12
L13
L201
L202
L203
6200007760 S.COIL
6200004480 S.COIL
6200010110 S.COIL
6200006980 S.COIL
6200007000 S.COIL
6200003550 S.COIL
6200003550 S.COIL
6200006960 S.COIL
LQW2BHN82NJ01L (LQN21A 82NJ04)
MLF1608D R82K-T
0.20-0.8-4TR 11N
ELJRE R10G-F
ELJRE 82NG-F
MLF1608A 4R7K-T
MLF1608A 4R7K-T
MLF1608A 2R7K-T
R9
R10
R11
R12
R13
R14
R15
R16
R17
R18
R1
R2
R3
R4
R5
R6
R7
R8
R19
R33
R34
R35
R44
R45
R46
R47
R48
R49
R50
R51
7030005700 S.RESISTOR
7030005120 S.RESISTOR
7030009290 S.RESISTOR
7030007270 S.RESISTOR
7030008400 S.RESISTOR
7030009290 S.RESISTOR
7030007270 S.RESISTOR
7030005300 S.RESISTOR
7030005700 S.RESISTOR
7030004980 S.RESISTOR
7030005040 S.RESISTOR
7030005710 S.RESISTOR
7030005120 S.RESISTOR
7030005040 S.RESISTOR
7030005710 S.RESISTOR
7030009320 S.RESISTOR
7030005060 S.RESISTOR
7030004980 S.RESISTOR
7030005530 S.RESISTOR
7030005060 S.RESISTOR
7030007270 S.RESISTOR
7030004970 S.RESISTOR
7030005120 S.RESISTOR
7030005040 S.RESISTOR
7030007570 S.RESISTOR
7030005040 S.RESISTOR
7030004990 S.RESISTOR
7030008410 S.RESISTOR
7030005040 S.RESISTOR
7030007290 S.RESISTOR
ERJ2GEJ 274 X (270 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 562 X (5.6 k
Ω
)
Ω
ERJ2GEJ 151 X (150 )
ERJ2GEJ 182 X (1.8 k
Ω
)
ERJ2GEJ 562 X (5.6 k
Ω
)
ERJ2GEJ 151 X (150
Ω
)
ERJ2GEJ 150 X (15
Ω
)
ERJ2GEJ 274 X (270 k
Ω
)
ERJ2GEJ 101 X (100
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 121 X (120
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
ERJ2GEJ 121 X (120
Ω
)
)
ERJ2GEJ 4R7 X (4.7
Ω
)
ERJ2GEJ 333 X (33 k
Ω
)
ERJ2GEJ 101 X (100
Ω
)
ERJ2GEJ 100 X (10
Ω
)
ERJ2GEJ 333 X (33 k
Ω
)
ERJ2GEJ 151 X (150
Ω
)
ERJ2GEJ 470 X (47
Ω
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
ERJ2GEJ 122X (1.2 k
Ω
)
)
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 221 X (220
Ω
)
ERJ2GEJ 392 X (3.9 k
Ω
)
ERJ2GEJ 472 X (4.7 k
Ω
ERJ2GEJ 222 X (2.2 k
Ω
)
)
S.=Surface mount
[VCO UNIT]
REF ORDER
NO.
NO.
R229
R230
R231
R232
R233
R234
R235
R236
R238
R239
R52
R208
R211
R212
R213
R215
R216
R217
R220
R228
R240
R241
R242
R243
R244
7030007290 S.RESISTOR
7030008250 S.RESISTOR
7030005090 S.RESISTOR
7030008410 S.RESISTOR
7030008280 S.RESISTOR
7030006020 S.RESISTOR
7030006030 S.RESISTOR
7030006020 S.RESISTOR
7030008250 S.RESISTOR
7030005050 S.RESISTOR
7030005120 S.RESISTOR
7030005120 S.RESISTOR
7030005120 S.RESISTOR
7030004980 S.RESISTOR
7030005100 S.RESISTOR
7030007270 S.RESISTOR
7030005040 S.RESISTOR
7030007270 S.RESISTOR
7030007340 S.RESISTOR
7030008280 S.RESISTOR
7030005050 S.RESISTOR
7030004970 S.RESISTOR
7030007340 S.RESISTOR
7030007270 S.RESISTOR
7030004980 S.RESISTOR
DESCRIPTION
ERJ2GEJ 222 X (2.2 k
Ω
)
RR0510P-562-D (5.6 k
Ω
)
ERJ2GEJ 104 X (100 k
Ω
)
ERJ2GEJ 392 X (3.9 k
Ω
)
ERJ2GEJ 271 X (270
Ω
)
Ω
RR0510P-682-D (6.8 k
RR0510P-822-D (8.2 k
Ω
)
)
RR0510P-682-D (6.8 k
Ω
)
RR0510P-562-D (5.6 k
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 102 X (1 k
Ω
ERJ2GEJ 102 X (1 k
Ω
)
)
ERJ2GEJ 102 X (1 k
Ω
)
ERJ2GEJ 101 X (100
Ω
)
ERJ2GEJ 154 X (150 k
Ω
)
Ω
ERJ2GEJ 151 X (150 )
ERJ2GEJ 472 X (4.7 k
Ω
)
ERJ2GEJ 151 X (150
Ω
)
ERJ2GEJ 153 X (15 k
Ω
)
ERJ2GEJ 271 X (270
Ω
)
ERJ2GEJ 103 X (10 k
Ω
)
ERJ2GEJ 470 X (47
Ω
)
ERJ2GEJ 153 X (15 k
Ω
)
ERJ2GEJ 151 X (150
Ω
)
ERJ2GEJ 101 X (100
Ω
)
C51
C59
C63
C64
C65
C66
C67
C207
C209
C210
C24
C25
C26
C39
C40
C41
C42
C48
C49
C50
C11
C12
C13
C16
C17
C19
C20
C21
C22
C23
C1
C2
C4
C5
C7
C8
C9
C10
C228
C229
C230
C232
C233
C234
C235
C211
C212
C213
C214
C215
C219
C221
C224
C225
C226
4030017640 S.CERAMIC
4030017460 S.CERAMIC
4030017350 S.CERAMIC
4030017350 S.CERAMIC
4030017460 S.CERAMIC
4030016790 S.CERAMIC
4030017530 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017690 S.CERAMIC
4030017550 S.CERAMIC
4030017550 S.CERAMIC
4030017730 S.CERAMIC
4030017460 S.CERAMIC
4030017560 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EC1H150J
ECJ0EB1E102K
ECJ0EC1H020B
ECJ0EC1H020B
ECJ0EB1E102K
ECJ0EB1C103K
ECJ0EC1H0R5B
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H121J
ECJ0EC1H1R5B
ECJ0EC1H1R5B
ECJ0EB1E471K
ECJ0EB1E102K
ECJ0EC1H2R5B
ECJ0EB1E102K
ECJ0EB1E102K
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017550 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017590 S.CERAMIC
4030017650 S.CERAMIC
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H1R5B
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EC1H070C
ECJ0EC1H270J
4030017420 S.CERAMIC
4030016930 S.CERAMIC
4030016790 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EC1H470J
ECJ0EB1A104K
ECJ0EB1C103K
ECJ0EB1E102K
ECJ0EB1E102K
4030017460 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EB1E102K
ECJ0EB1E102K
4550000540 S.TANTALUM
TESVA 1V 154M1-8L
4030017460 S.CERAMIC
ECJ0EB1E102K
4030017330 S.CERAMIC
ECJ0EF1C104Z
4030017460 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EB1E102K
ECJ0EB1E102K
4340000280 S.MYLAR
ECPU 1C 473MA5
4550007020 S.TANTALUM
ECST1AZ155R
4550007020 S.TANTALUM
ECST1AZ155R
4550006560 S.TANTALUM
ECST1CY225R
4030017460 S.CERAMIC
ECJ0EB1E102K
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4030017460 S.CERAMIC
ECJ0EB1E102K
ECJ0EB1E102K
ECJ0EB1E102K
4030017420 S.CERAMIC
4030017420 S.CERAMIC
4030017460 S.CERAMIC
4030016930 S.CERAMIC
4030017460 S.CERAMIC
4030017660 S.CERAMIC
4030017550 S.CERAMIC
ECJ0EC1H470J
ECJ0EC1H470J
ECJ0EB1E102K
ECJ0EB1A104K
ECJ0EB1E102K
ECJ0EC1H330J
ECJ0EC1H1R5B
[VCO UNIT]
REF ORDER
NO.
NO.
C236
C237
C238
C239
4030017460 S.CERAMIC
4030017460 S.CERAMIC
4550007040 S.TANTALUM
4030017340 S.CERAMIC
DESCRIPTION
ECJ0EB1E102K
ECJ0EB1E102K
ECST0JZ106R
ECJ0EC1H010B
J1
J2
W1
EP1
EP2
6910011530 CONNECTOR IMSA-9230B-1-08Z057-T
6910014430 CONNECTOR IMSA-9230B-1-06Z057-T
7030010040 S.JUMPER
0910054453 PCB
6910012350 S.BEAD
ERJ2GE-JPW
B 5737C
MMZ1608Y 102BT
S.=Surface mount
6 - 9
SECTION 7 MECHANICAL PARTS AND DISASSEMBLY
MP1
MP2
MP3
MP4
MP5
MP6
MP8
8210018240
8930054200
8930056321
8310050390
8610010990
8930054290
8930054371
MP9 8930054580
MP10 8930054490
MP11 8830001470
MP12 8930039850
MP14 8860001281
MP15 8860001250
MP17 8930053590
MP19 8830000880
MP20 8610007510
MP21 8810009510
MP22 8810008620
MP23 8810010090
MP24 8810009560
MP25 8810000100
MP26 8930055510
MP27 8930058510
MP28 8930058500
MP29 8930058620
MP30 8930058630
MP31 8930058640
MP32 8930058800
MP33 8930058800
MP34 8930058820
[CHASSIS PARTS]
REF
NO.
J1
ORDER
NO.
6510022671
DESCRIPTION
Connector SMA-R235-1
QTY.
1
Panel 2507 REAR PANEL 63-222
2372 Jack cap
2507 DC cap-1
2372 Lock plate
Knob N284
2372 main seal
2372 Terminal spring-1
Seal O-ring (AM)
2372 shaft
VR nut (N)
Sealing washer (J)
2507 antenna rug-1
2372 vol rug Y587
Seal O-ring (AG)
VR nut (I)
Knob spring NO.7800
Screw PH BT M2
×
4 NI-ZU
Screw PH BT M2
×
20 ZK 2
Screw PH BT M2
×
12 ZK 2
Screw PH BT M2
×
6 ZK
Screw PH M2
×
4 ZK
2372 Insulate sheet
Isolating plate (HC)
Isolating plate (HB)
Isolating plate (HE)
Isolating plate (HF)
2507 PA sheet
2507 plate
2507 plate
2507 A-plate
[USA], [CAN] only
[USA], [CAN] only
[USA], [CAN] only
1
1
1
1
3
1
1
1
1
3
1
2
1
1
1
1
1
1
1
1
1
4
1
1
1
1
1
1
[RF UNIT]
REF
NO.
ORDER
NO.
MP1
MP2
MP5
8930056310
8510014590
8410002470
MP6
MP8
8510014410
8930058060
MP9 8930058010
MP10 8930058070
MP11 8930053900
MP12 8930056030
MP13 8930004081
MP14 8930058540
MP15 8930058520
MP18 8930058530
MP19 8930058810
MP20 8930058510
DESCRIPTION
2507 terminal holder
2507 A-VCO case
2507 heat sink
2507 RF plate Y611
Isolating plate (GZ)
Sermary sheat (AF) TC-100TKC (5X7)
2507 radiation plate
Isolating plate (GK)
Isolating plate (GS)
Ground spring (B)-1
2507 R-connect plate
2507 L-connect plate
2507 sheet
2507 spring
Isolating plate (HC)
[USA], [CAN] only
QTY.
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
[AF UNIT]
REF
NO.
ORDER
NO.
S251 7600000210
MP2
MP4
8930058200
8510014850
[LOGIC UNIT]
REF
NO.
DS4
EP1
ORDER
NO.
5030001990
8930055190
SP1
MC1
2510000840
7700002310
MP1
MP2
MP3
MP4
MP5
MP6
MP7
MP8
MP9
8210018351
8310050400
8210017460
8930054221
8930054570
8930054500
8930054940
8930054380
8930048840
MP10 8930046020
MP11 8930054250
MP12 8930055170
MP13 8810009510
MP14 8510013950
MP15 8930058650
DESCRIPTION
LCD TTR5169 UPFDHW
LCD contact SRCN-2372-SP-N-W
Speaker CS028014-12
Microphone EM-140
2372 front panel(E)-1
2372 window plate
2372 reflector
2372 lens-1
870 Salan net (A)
2372 window sheet
2372 LCD sponge
2372 PTT plate
2135 MIC sponge
1123 sheet (A)-1
2372 10-KEY
2372 tact plate
Screw PH BT M2
×
4 NI-ZU 6
2372 LOGIC plate
Isolating plate (HG)
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
QTY.
1
1
W1 8900010520 Cable OPC-1033
Screw abbreviations
BT: Self-tapping PH: Pan head NI-ZU: Nickel-Zinc ZK: Black
1
[ACCESSORIES]
REF
NO.
EP1
EP2
EP3
ORDER
NO.
3310002950
0800005960
5930001220
5930000950
MP1
MP2
8010018080
0880001120
EP2
DESCRIPTION
Encoder TP70N00E20-15F-1903
2507 A-AF sheet
2507 AF shield
DESCRIPTION
Antenna FA-S6270D
Battery BP-217 ACC
Charger BP-110AR
Charger BC-110D
[USA], [CAN] only
[GEN] only
QTY.
1
1
1
1
Strap belt HK-009
Clip MB-83 ACC
MP2 MP1 EP1
QTY.
1
1
1
1
1
[VCO UNIT]
REF
NO.
MP1
MP2
ORDER
NO.
8930058300
8930058610
DESCRIPTION
Aluminium sheet (AF)
Isolating plate (HD)
QTY.
1
1
EP3
7 - 1
MP2 (L)
MP6 (L)
MP3 (L)
MP15 (L)
EP1 (L)
DS4 (L)
MP7 (L)
MP14 (L)
MP13 (L)
MP13 (L)
MP1 (L)
W1 (L)
MP21 (C)
MP4 (L)
MP5 (L)
SP1 (L)
MP10 (L)
MP9 (L)
MC1 (L)
LOGIC UNIT
MP11 (L) MP6 (C)
MP29 (C)
MP1 (V)
MP2 (V)
MP28 (C)
MP14 (C)
MP27 (C)
J1 (C)
B
C
MP13 (R)
C
A
MP17 (C)
B
MP15 (C)
MP9 (C)
MP12 (R)
MP8 (L)
MP12 (L)
S251(A)
MP30 (C)
MP31 (C)
MP26 (C)
MP18 (R)
MP2 (C)
MP19 (C)
MP1 (C)
A
MP5 (C)
MP11 (C)
MP22 (C)
MP12 (C)
MP25 (C)
MP12 (C)
MP24 (C)
MP3 (C)
MP24 (C)
MP21 (C)
MP8 (C)
MP15 (R)
MP6 (R)
MP4 (A)
AF UNIT
MP14 (R)
MP1 (R)
MP9 (R)
MP2 (R)
RF UNIT
MP10 (R)
MP11 (R)
MP8 (R)
MP4 (C)
MP10 (C)
Note
(C): CHASSIS PARTS
(L) : LOGIC UNIT
( R ): RF UNIT
(A) : AF UNIT
(V) : VCO UNIT
MP2 (A)
MP23 (C)
7 - 2
8 - 1 TRANSISTORS AND FETS
NAME SYMBOL INSIDE VIEW
C
2SA1576 S
2SA1588-GR
2SB1462-R
FS
ZG
AR
B E
C
2SB1132 R BARB
B C E
2SB1201-S-TL B1201
C
B
E
C
B
E
2SC4116-GR
2SC4117-GR
2SC4215-O
2SC4403-3-TL
2SC4406-4-TL
2SC5006-T1
2SC5008-T1
2SC5107-O
2SC5195-T1
2SD2216-S
LG
DG
QO
LY3
JT
24
44
MFO
88
Y
C
B E
B E
2SC5289-T1 T90
E
E
C
B
2SC5508-T2
2SC5624VH-TL
T79
VH-
C
G
E
2SJ364-Q 4MQ
S
G
D
2SK880-Y XY
S D
UN9210
UN9211
UN9213
UN9214
UN9215
XP1115
NAME SYMBOL
2SK3475 WB
2SK3476 TUCF
INSIDE VIEW
S
G
G
S
D
S
D
G2 G1
3SK320 U7
D
C
S
UN9113 6C
B
C
E
UN9115 6E
B
C
E
8L
8A
8C
8A
8E
9L
B
C
E
B
C1
E
C2
B1 E B2
C1 C2
XP1214 9H
B1 E1 B2
C1 C2
XP1501-AB 5R
B1 E B2
NAME SYMBOL INSIDE VIEW
C1 B2 E2
XP4214 BR
E1 B1 C2
C1 B2 E2
XP4312 7T
E1 B1 C2
C1 B2 E2
XP4315
XP4316
CB
7U
E1 B1 C2
C2 B1 E1
XP4601 5C
E2 B2 C1
C2 E1 C1
XP5601-AB 4N
E2 B2 B1
C1 B1 C2
XP6401 5O
E1 E2 B2
C1 B1 C2
XP6501-AB 5N
E1 E2 B2
G S S S
HAT1023R-EL 1023
D D D D
8 - 1
8 - 2 DIODES
NAME SYMBOL
1SS362
1SS372
MA133
C3
N9
MP
INSIDE VIEW
A
C
C
1SS364
MA132WK
BF
MU
1SV271
1SV290
1SV308
HVC132
HVC136 TRF
HVC321 B1 TRF V8
HVC376 B TRF B9
MA2S077
MA2S111
S
A
MA2S728
RB060L-40
B
36
TG
TJ
TX
P2
P6
A
A1
A2
C
A C
1SV307 TX
C
MA132HK M3N
C
A
MA132K
SB07-03C-TB
7N
J
A
C1 C2 C3
MA6S121 M2D
A1 A2 A3
SECTION 9 BOARD LAYOUTS
9 - 1 LOGIC UNIT
• TOP VIEW
MC1
MICROPHONE
The combination of this page and the next page shows the unit layout in the same configuration as the actual P.C. Board.
VFO MHZ
MODE SCAN
9 TS
9 - 1
LOGIC unit
• BOTTOM VIEW
The combination of this page and the previous page shows the unit layout in the same configuration as the actual P.C. Board.
W2 (L)
SP1
W2 (L)
40
39
SQL
J1
PTT to AF unit J251
9 - 2
2
1
9 - 2 RF UNIT
• TOP VIEW
Antenna to VCO unit
J1
8
VSHFT
VMOD
GND
+10V
1
PDA/UL
CK
PLSTB
REF
8 to AF unit
J51
30
16
PDA/UL
VMOD
HV
VSHFT
CK
DATA
PLSTB
DASTB
+3
PATMP
B2C
+10V
T43
T50
T14
B4C
BSFT
V2
FSET
V3
V1
IF
CHG
AGC
B1C
VCC
B5C
B3C
GND
REF
1
J251
15
30
16
1
15
1
9 - 3
The combination of this page and the next page shows the unit layout in the same configuration as the actual P.C. Board.
6
1
GND
V1
V2
+3
V3
LO
6
1 to VCO unit
J2
RF unit
• BOTTOM VIEW
9 - 4
The combination of this page and the previous page shows the unit layout in the same configuration as the actual P.C. Board.
9 - 3 AF UNIT
• TOP VIEW
40 to LOGIC unit J1
39
1
GND
GND
CHG
VMOD
GND
PATMP
AFV
+3C
XMOD
+3
VOLC
HV
DETO
VCC
BEEP
NOISE
MUTE
EXTM
V1C
V3C
REMO
VSHFT
V2C
SD
R3C
DICK
DATA
IOSTB
AM
DIUD
DASTB
TXC
PDA/UL
CK
INTSP
GND
WFM
PLSTB
WXALT
+10V
40
J251
2
39
1
2
EXT.MIC
J252
1 2
3
EXT.SP
REMOTO
J253
4
2
3
1 to S251
VCO UNIT
• TOP VIEW
to RF UNIT
8
VSFT
VMOD
GND
+10V
UNLK
CK
PLSTB
REF
J1
1
8
1
The combination of this page and the next page shows the unit layout in the same configuration as the actual P.C. Board.
1 to RF UNIT
J2
GND
V1
V2
VCO3
V3
LO
1
6
6
9 - 5
VCO UNIT
• BOTTOM VIEW
AF unit
• BOTTOM VIEW
S251
S253
4
3
1
2
S252
1
2
3
The combination of this page and the previous page shows the unit layout in the same configuration as the actual P.C. Board. to RF unit
J251
J51
1
CK
DATA
PLSTB
PDA/UL
VMOD
HV
DASTB
T43
T50
T14
B4C
AGC
B1C
VCC
B5
B3
GND
REF
VSHFT
+3
PATMP
B2C
+10V
BSFT
V2
FSET
V3
V1
IF
CHG
15
30
16
9 - 6
SECTION 10 BLOCK DIAGRAM
INTSP
LOGIC UNIT
INTSP INTSP
MICIN
PTT
EXTM
Q310: XP6501
MIC
MUTE
MIC
AMP
Q311: XP5601
Q312: XP6501
Q310: XP6501
LPF
Q307: UN9214
DEV
CHANGE
Q304, Q305, Q342, Q343: 2SJ364
MOD
SW
+10V
MUTE
+10
REG
IC91: TC7W04FU
IC92: TC7S66FU
D91 : 1SS372
D300: 1SS372
D301: 1SS372
D302: 1SS372
Q91: 2SD2216
X1: CR-687
Q40: UN9215
6.7584 MHz
CLK
IC5: TC4W53FU
CT/DT
SW
XMOD
EUR
LPF
CT3
Q301:
XP1115
CT3
SW
IC241: NJM2904V
MIC3
Q301:
XP1115
MIC3
SW
Q45: 2SC4116
LPF
CLOUT
CLIN
Q141: 2SD2216
D141: MA2S111
CLONE
BUFF
Q302: 2SB1462
TX
SENS
LED3
PTT
VMOD
BEEP
MUTE
XMOD
+10V
DETO
DIUD
DICK
REMO
Q146: XP1501
Q147: 2SB1132
LED3
REG
+3C +3
+3
REG
+3
+3C
Q8: 2SB1132
Q9: XP1501
DS5, DS6, DS7, DS8, DS9,
DS10, DS11, DS12: CL-165
KEY
LIGHT Q6: XP1214
LED
LED
CTRL
LCD
LIGHT
LED
Q1: UN9115
LED
CTRL
DS1, DS2:
LNJ310M6URA
TX/RX
INDICATOR
LED
LCDL
Q3: XP1214
LED
CTRL
DS3: LT1EP53A
BUSYL
TXC
DS4: TTR5169
LCD
RLED, GLED
TEMP
POWER
CPU
IC1: M30220MA-114RP except [USA]
M30220MA-116RP [USA]
EEPROM
IC2: HN58X24128FPI
Q2: UN9115
KEY
INIT
MATRIX
CHG
Q4 : 2SB1201
Q10: 2SD2216
Q11: UN9210
D5: MA133
CHG
D6: SB07-03C
D253: MA2S111
CHGC
PCON
CPU3
IC142: S-80928CNMC
RESET
AFON
CPUHV
+3C
REG
CHG
Q142: XP1501
Q145: 2SB1132
D143: MA2S111
+3
+3C
CHG
BEEP
MUTE
+10V
DETO
CPU3
REG
IC141:
NJM2370U32
SD
NOISE
PATMP
AFV
PATMP
SD
NOISE
VCC AF
REG
VCC
Q201: 2SB1201
Q202: XP1501
Q151: 2SD2216
D152: MA2S111
HV
SENS
DATA, CK, PLSTB, IOSTB, DASTB, PDAUL
HV
V1C
V2C
V3C
R3C
TXC
VOLC
WXALT
VSFT
AM
WFM
HV
V1C
V2C
V3C
R3C
TXC
EXTM
VMOD
XMOD
DIUD
DICK
REMO
VOLC
WXALT
VSFT
AM
WFM
+10V
BA
BB
BC
10 -1
+10V
BA
BB
BC
VMOD
VSFT
DIUD
DICK
EXTM
REMO
INTSP
VOLC
AM
+3
+3C
R3C
TXC
VCC
V1C
V2C
V3C
HV
CHG
PATMP
XMOD
SD
NOISE
DETO
WXALT
MUTE
BEEP
WFM
VMOD
VSFT
+10V
PDAUL, CK, PLSTB
IC201:
µ
PD3140GS
PLL
IC
R3
MOD
MUTE
Q205: UN9113
Q206: 2SK880
Q207: 2SC4117
LOOP
FIL
430 MHz
Q1: 2SC5008
Q2: 2SC5008
D1: HVC321B
144 MHz
Q7: 2SC5195
BUFF
D7, D8: HVC136
SW
D9, D10: HVC136 Q16: 2SC5008 Q212: 2SC5008
SW
LO
AMP
LO
AMP
Q3: UN9215
Q4: 2SC5008
Q5: 2SC5008
D2: MA2S077
D3: HVC321B
1/2
IC1:
µ
PB1509GV
LPF
BUFF
Q11: 2SC5107
D51: HVC136
D201: HVC136
TX/RX
SW
IC51:
µ
PC2762TB
BUFF
D54: HVC132 Q54: 2SC5289
ATT
PRE
DRIVE
Lo Frequency:
281.675–534.720 MHz
Lo Frequency: 53.350–99.345 MHz
99.350–560.545 MHz
50 MHz
LPF
140 MHz
430 MHz
HPF
Q52: 2SK3475
DRIVE
AMP
Q51: 2SK3476
AMP
50–54 MHZ
LPF
IC101: NJM3404AV
APCS
APC
CTRL
144–148 MHz
BPF
430–450MHz
HPF
D6: 1SV308
D9: 1SV308
ANT
SW
Q2: UN9215
D8: 1SV308
D19: 1SV271
D4: 1SV307
D16: 1SV271
ANT
SW
0.495–75.995 MHz
LPF
76–229.995 MHz
HPF
D12: 1SV271
D13: 1SV271
ANT
SW
Q1: UN9211
D2: 1SV308
D18: 1SV308
D7: 1SV308
230–629.995 MHz
LPF
630–999.990 MHz
HPF
AMP
Q211: 2SC4215
VCO UNIT
Q354: 2SC5508
Q356: XP4312
DOUBLER
IC351:
µ
PC2757TB
D303: HVC136
SW
R3
Q302: 2SC5006
RF
AMP
Q301: UN9213
D302: MA2S077
0.5–30 MHz
D301: HVC136
D306: HVC136
BPF SW
D305:
1SS362
LIMIT
X1: CR-583
13.800 MHz
Q1: 2SC4117
BUFF
XMOD
D1: HVC376B
Q2: 2SC4406
AMP
D2: 1SS364
SW
BPF
D3: 1SS364
SW
D313: HVC136
SW
D309: MA2S077
D310: HVC321B
BPF
Q303: 2SC5006
RF
AMP
D307: MA2S077
D308: HVC321B
BPF
AF UNIT
SD
NOISE
DETO
MUTE
BEEP
EXT
SP
CHASSIS
EXT
MIC
INTSP
REMO
EMI
FIL
+3
EMI
FIL
EMI
FIL
EXTM
Q251: 2SJ364
AF
MUTE
Q205: 2SD2216
AF
AMP
Q204: XP6501
LPF
Q203: 2SJ364
D201: 1SS364
SW
WFM AM3
IC252: TA7368F
AF
AMP
IC251: M5222FP
AF VOL
VOLC
Q201: XP6501
Q202: XP6501
AM
DET
AGC
WFM
BSFT
IF DET
IC
IC151:
TA31136FN
Q102: 2SC4403
D103: MA133
IF
AMP
D104: MA2S111
D102: 1SS364
SW
69.45 MHz
BPF
FI101: DSF444SC
D101: 1SS364
SW
D152:
1SS364
SW
D151: 1SS364
SW
13.35 MHz
BPF
FI102: SFECS13.35MA
WFM3
BPF
FI151: CFWM450E
Q207: XP1115
WFM
WFM
CTRL
R3V
ENC
UP
E
DN
DIUD
DICK
EXTM
REMO
INTSP
VOLC
B1C B2C B3C B4C B5C R3V
DATA
CK
IOSTB
R3V SW
IC51: BU4094BCFV
Q61: UN9115
Q62: XP1115
Q63: XP1115
Q253: UN9115
AM3 FM3
AM/FM
SW
Q206:
XP4315
Q208: 2SA1576
Q209: XP1501
R3V
REG
T50 T14 T43
T5V
SW
Q51, Q52, Q53: 2SA1588
Q54, Q56: XP4214
Q11: XP1501
Q55: 2SB1132
T5V
REG
VCC V1 V2 V3
Q64: 2SA1576
Q57: 2SD2216
D51: MA2S728
VCO3V
SW
Q58: XP1115
Q59: UN9115
DC
FIL
+3
Q65, Q66, Q67: UN9113
AM
+3
+3C
R3C
TXC
VCC
V1C
V2C
V3C
HV
CHG
PATMP
AGC
BSFT
R3V
D358: HVC136
SW
D408: HVC136
Q402: 2SC5006
SW
RF
AMP
D455: HVC136 Q452: 2SC5008
SW
RF
AMP
D355, D356:
1SV290
BPF
Q351: 3SK320
RF
AMP
D354, D359:
MA2S077
D405, D407:
HVC321B
BPF
Q401: 2SC5008
RF
AMP
D404, D406:
MA2S077
D453, D454:
HVC321B
BPF
Q451: 2SC5624
RF
AMP
D352: MA2S077
D353: 1SV290
BPF
D402: MA2S077
D403: HVC321B
BPF
D452: HVC321B
BPF
FSET
DATA
CK
DASTB
D/A
IC251: M623686P
T50
T14
T43
RXC
T6
Q56: XP4316
D50: MA6S121
T3
REG
Q353: XP4312
R3
REG
+3
+3
D351: 1SS362
LIMIT
D401: 1SS362
LIMIT
D451: 1SS362
LIMIT
D457: 1SV308
SW
D10: 1SV308
SW
PAVCC
APC
SENS
Q101: XP6401
Q102: UN9215
Q251: HAT1023R
D251: RB060L
D252: MA2S728
DC SW
HV
CHG
HV
Q355: UN9115
ATT
CTRL
R3V
ATT
Q352: XP4601
TUNE
CTRL
+10V
TUNE
EMI
FIL
EMI
FIL
EMI
FIL
EMI
FIL
RF UNIT
LPF
HPF
ANT
+
–
BATT
EXT
DC
10 - 2
SECTION 11 VOLTAGE DIAGRAM
11 - 1 LOGIC UNIT
REMO
DS4
TTR5169 UPFDHW
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 37 38 39 40
VIN
+3
KR3
S1004
KR2
S1001
KR1
S1002
KR0
C90
0.001
S1003
C91
0.001
C92
0.001
C93
0.001
KR3
KR2
KR1
KR0
I3
I2
I1
I0
KS3
C7
0.001
C8
0.1
S1006 S1007 S1008 S1020
KSD2
D60
MA2S111
[USA], [CAN] only
KS2
S1010
S1014
S1011
S1015
S1012
S1016
S1019
KSD3
S1018
KSD4
C57
0.001
C55
0.001
D58
MA6S121
S1022 S1021
TXFU TXFV TXF50
D53
MA132WK except [GEN]
D56
MA2S111 except [GEN]
B3 B2
S401
D52
MA132K
SQL
B1
KS1
B0
D51
MA132K [USA], [CAN]
MA132WK [GEN], [SEA]
KS0
Q1
UN9115
LED3
LCDL
R10
10k
R53
68k
R9
120k
DS3
LT1EP53A
R74
220
DS11
CL-165HR
G
J2
7
8
5
6
9
1
2
3
4
+3CPU
CNV5S
RESET
P74
TXD0
RXD0
CLK0
P60
R38
100k
R4
270
R5
270
5
Q3
XP1214
1
2
4
3
R73
680
R72
220
R
DS10
CL-165HR
G
BUSYL
TXC
R71
680
R70
220
R
DS9
CL-165HR
G
R69
680
R68
220
R67
680
R66
220
R65
680
R64
220
R63
680
R62
220
R
DS8
CL-165HR
G R
DS7
CL-165HR
G R
DS6
CL-165HR
G R
DS5
CL-165HR
G
R47
120
R61
680
R43
180
DS12
CL-165HR
R42
680 DS2
LNJ310M6URA
R46
120
DS1
LNJ310M6URA
R
G
R
5
Q6
XP1214
1
RLED
4
2
3
GLED
BUSYL
TXC
+3CPU
R146
10k
R39
47k
POWER
C151
0.001
C5
0.001
RESET
S1005
C89
0.001
RESET
IC92
TC7S66FU
5
1
4
+3
3
2
R92
47
1
2
3
4
8
7
6
5
IC91
TC7W04FU
C94
0.1
C88
68p
D91
1SS372
C96
1
D300
1SS372
C401
1
D301
1SS372
C402
1
D302
1SS372
C403
1
C95
1
C400
1
C404
1
C405
1
1
2
3
IC142
S-80928CNMC
5
OUT
VDD
VSS
CD
N C
Q91
2SD2216
9.0V
4
R91
10k
C99
1
C97
2.2
C98
0.1
C152
0.01
R93
47
POWER
R12
47k
R13
47k
C9
0.001
R14
47k
+3CPU
VIN
R1
47k
+3
D141
MA2S111
Q141
2SD2216
R147
47k
C20
22p CLOUT
R141
15k
R2
100k
CLIN
C12
0.01
C11
0.01
C919
0.01
LOGIC UNIT (1)
VOLC
CTCOUT
BEEP
+3CPU
128
129
130
131
132
133
134
122
123
124
125
126
127
114
115
116
117
118
119
120
121
109
110
111
112
113
135
136
137
138
139
140
141
142
143
144
SEG18
SEG17
SEG16
SEG15
SEG14
SEG13
SEG12
SEG11
SEG10
SEG9
SEG8
SEG7
SEG6
SEG5
SEG4
SEG3
SEG2
SEG1
SEG0
COM3
COM2
COM1
COM0
SEG1
SEG0
COM3
COM2
COM1
COM0
C2
SEG8
SEG7
SEG6
SEG5
SEG4
SEG3
SEG2
SEG18/P102
SEG17/P101
SEG16/P100
SEG15
SEG14
SEG13
SEG12
SEG11
SEG10
SEG9
C1
VL3
VL2
VL1
VSS
P132/DA2
P131/DA1
AVSS
P130/ADTRG/DAO
VREF
AVCC
P97/AN7
R56
4.7k
R28
1k
R35
1k
+10V
11 - 1
REMO
VIN
+3
CONT1
CONT0
IC1
M30220MA-114RP
except [USA]
M30220MA-116RP
[USA] only
CLSFT
R8
47k
R54
10k
Q40
UN9215
C4
18p
R34
100
X1
CR-687 6.7584 MHz
C40
18p
C3
15p
CLIN
CLOUT
R40
12k
POWER
R459
10k
C920
0.01
R333
22k
R55
100k
CHG
R23
1k
+10V
C33
47p
VIN
+3
+3CPU
PTT
SQL
P15/KI5
P16/KI6
P17/KI7
P20/KI8
P21/KI9
P22/KI10
P23/KI11
P24/KI12
P25/KI13
P26/KI14
P27/KI15
P30/KI16
P31/KI17
P32/KI18
P33/KI19
P34
P35
P40/TA0OUT
P41/TA0IN
P42/TA1OUT
P43/TA1IN
P44/TA2OUT
P45/TA2IN
P46/TA3OUT/INT4
P47/TA3IN/INT4
P50/TB0IN
P51/TB1IN
P52/TB2IN
P53/TB3IN
P54/TB4IN
P55/TB5IN
P56/INT3
P57/CKOUT
P60/CTS0/RTS0
P61/CLK0
P62/RXD0
39
38
37
46
45
44
43
42
41
40
53
52
51
50
49
48
47
60
59
58
57
56
55
54
67
66
65
64
63
62
61
72
71
70
69
68
AFON
MUTE
NOISE
MICC
TXC
R3C
PCON
CHGC
ESIO
ECK
P60
CLK0
RXD0
C154
0.001
KR3
I0
I1
I2
I3
KS0
KS1
KS2
KS3
VOLUP
VOLDN
V1C
KR0
KR1
KR2
EP141
MMZ1608Y102BT
EP142 MMZ1608Y102BT
V3C
LCDL
RLED
GLED
BUSYL
TXC
V1C
DICK
DIUD
V3C
C153
47p
NOISE
TXC
R3C
AFON
MUTE
MICC
PCON
CHGC
ESIO
ECK
AM
WFM
CTSEL
CTSEL
LED3
LED3
R32
100
CHG
CTCIN
CTCOUT
LC
+10V
LA
LB
VIN
+3
+3CPU
PTT
CPUHV
LOGIC UNIT
LA
LB
VIN
+3
+3CPU
PTT
CPUHV
AFON
MUTE
MICC
PCON
CHGC
LED3
CTCIN
CTCOUT
LC
+10V
Q2
UN9115
ESIO
ECK
ESIO
ECK
1
2
3
4
A0
A1
A2
VSS
VCC
WP
SCL
SDA
6
5
8
7
IC2
HN58X24128FPI
CTSEL
R361 47k
R360
10k
C14
47
VIN
+3C
3.05V
+3CPU
R152
47k
C103
0.001
R151
1k
Q151
2SD2216
C102
0.001
HV
R154
4.7k
R153
10k
C101
0.001
D152
MA2S111
R460
2.2k
VCC
3.10V
R139
10
+3CPU
R51
1M
R400
100k
C140
0.1
C150
0.01
1
2
3
CTRL
GND
NB
VIN
5
VOUT
4
IC141
NJM2370U32
D143
MA2S111
R145
10k
C149
47
C148
0.001
C147
22
C145
0.1
R143
10k
C141
0.001
R148
100k
C146
0.1
5
1 2 3
4
Q142
XP1501
Q145
2SB1132
R142
22k
R144
4.7k
R149
10k
C143
0.001
+3C
C142
47
R75
4.7k
R140
4.7k
1
2
3
4
IC5
TC4W53FU
8
7
6
5
2
3
1
Q9
XP1501
5
4
Q8
2SB1132
+3
C75
2.2
C76
0.001
C138
4.7
C139
0.001
+3
+3C
VCC
HV
3
2
1
Q146
XP1501
4
5
Q147
2SB1132
3.12V
LED3
AFV
+3
+3C
VCC
HV
3.13V
Q201
2SB1201
TX: 0V
RX: 5.83V
R203
68
R205
68
C205
10
R204
68
R207
1M
C162
0.001
R208
100k
C207
0.22
Q202
XP1501
5
1 2
C208
0.001
R209
1k
4
3
R210
12k
C209
0.001
R211
10k
C211
0.47
+3CPU
DETO
MUTE
PTT
HV
+3CPU
DETO
MUTE
PTT
CHG
PATMP
C10
0.01
VOLC
BEEP
NOISE
VSFT
V1C
V2C
V3C
REMO
DICK
DIUD
L140
10
µ
H
SD
R3C
DATA
DASTB
IOSTB
TXC
AM
WFM
PDAUL
PLSTB
CK
WXALT
HV
+3CPU
DETO
AFON
MUTE
PTT
PTT
C315
0.001
CHGC
1
2
3
Q301
XP1115
5 CT3
4
CTCIN
+3
R248
1M
C246
0.1
R246
68k
R247
47k
C243
0.1
IC241
NJM2904V
C247
100p
8 7 6 5
R249
150k
1 2 3 4
C244
0.1
R245
82k
C240
0.0015
C248
1
R241
330k
R244
82k
C242
0.039
LED3
R243
82k
CTCSS
CHGC
+3
MIC3
R88
10k
R89
47k
R306
2.2k
CHGC
+3
MIC3
CHGC
+3
R84
120k
R81
82k
C80
100
C81
0.001
6 5 4
1 2 3
R85
10k
Q310
XP6501
R83
56k
C15
220p
C306
22
R82
56k
C16
0.0047
C17
0.0022
R80
82k
R312
120
R308
220k
C314
0.22
R314
470
Q311
XP5601
R307
100
6 5 4
1 2 3
R302
330
C312
0.001
R310
180k
R301
5.6k
C311
4.7
C308
0.0082
C318
0.018
6 5 4
Q312
XP6501
1 2 3
C305
47p
C313
47p
R311
3.3k
C310
47p
R315
200k
R309
56k
C304
100p
R313
3.3k
MICIN
BEEP
R330
1k
R321
15k
C456
22
R458
47k
R457
220k
R454
1k
C455
0.0082
R456
47k
R455
47k
C454
0.1
R452
27k
C453
0.001
Q451
2SC4116
C452
0.01
EUR
Q307
UN9214
R453
47k
C451
0.01
R451
180k
EUR
C347
4.7
R324
5.6k
Q304
2SJ364
R331
8.2k
R325
50k
Q305
2SJ364
R332
82k
R326
50k
Q343
2SJ364
R364
120k
R366
50k
Q342
2SJ364
R363
10
R365
50k
R305
6.8k
C348
22
R328
470k
C320
0.001
R329
470k
C321
0.001
144M 430M
XMOD
+10V
R368
470k
C341
0.001
R367
470k
C340
0.001
C326
0.001
50M
R340
68k
VMOD
XMOD
+10V
C35
47p
C41
0.001
C37
47p
C32
0.001
NOISE
VSFT
V1C
V2C
V3C
SD
REMO
R3C
DICK
DIUD
DATA
DASTB
IOSTB
TXC
AM
WFM
PDAUL
PLSTB
CK
WXALT
+10V
CHG
PATMP
VMOD
XMOD
AFV
+3
+3C
DETO
VOLC
VCC
HV
MUTE
BEEP
C26
0.001
C25
0.001
C24
47p
C23
56p
C34
0.001
C36
47p
C29
47p
C30
47p
C47
0.001
C43
0.001
C39
47p
C27
47p
C38
0.01
C44
0.001
C45
0.001
C46
0.001
HV
W3
R11
12
R15
12
Q4
2SB1201
C199
0.001
C198
0.001
D6
SB07-03C
D5
MA133
C200
0.001
C13
0.001
+3CPU
CHGC
Q11
UN9210
R19
10k
R18
820
R16
1k
Q10
2SD2216
R20
560
D253
MA2S111
R29
470
+3
GND
GND
GND
CHG
J1
28
29
30
31
32
33
34
35
36
37
38
39
40
22
23
24
25
17
18
19
20
21
26
27
9
10
11
12
13
14
15
16
6
7
8
3
4
1
2
5
V1C
V2C
V3C
SD
REMO
R3C
DICK
DIUD
DATA
DASTB
IOSTB
TXC
AM
WFM
PDAUL
PLSTB
CK
WXALT
INTSP
+10V
GND
VMOD
XMOD
AFV
+3
+3C
DETO
VOLC
VCC
HV
MUTE
BEEP
EXTM
NOISE
VSFT to AF unit
J251
R316
470
R336
10k
C323
0.001
C316
4.7
TX: 2.93V
RX: 0V
C317
0.047
R317
220k
Q302
2SB1462
C324
0.001
TX: 2.29V
RX: 3.12V
R335
1k
R318
1k
R319
2.2k
C325
0.001
EXTM INTSP
SP1
CS028014-12
MICIN
S402
C319
47p
R320
33k
PTT
LOGIC UNIT (2)
11 - 2
MC1
EM-140
11 - 2 RF UNIT
to AF unit
J51
15 16
14
13
12
11
10
9
8
7
6
5
4
3
2
1
17
18
19
J251
20
21
22
23
24
25
26
27
28
29
30
REF
CHG
GND
IF
B3C
V1
B5C
V3
VCC
FSET
B1C
V2
AGC
BSFT
B4C
+10V
T14
B2C
T50
PATMP
T43
+3
DASTB
VSHFT
PLSTB
HV
DATA
VMOD
CK
PDA/UL
EXT
DC IN
J252
CP9
BATTERY
CP10
VSHFT
VMOD
R5 1.8k
R8 15
R13
1k
C1
15p
Q3
UN9215
L3
0.82
µ
H
C2
0.001
R1
270k
C13
120p
R9
270k
R10
100
R44
1k
C59
0.1
L2
82nH
D1
HVC321BTRF
D2
MA2S077
R2
1k
L4
11nH
D3
HVC321BTRF
C19
470p
C7
0.001
0.8V
C4
2p
0.8V
C11
0.001
R3
5.6k
R7
150
C5 2p
Q1
2SC5008
C8
0.01
R4
150
1.6V
C12
0.001
R240
10k
2.3V
C226
0.001
C238
10
R6
5.6k
R15
120
C23
0.001
C9
0.5p
Q2
2SC5008
C10
0.01
R16
4.7
V3
C24
0.001
C17
1.5p
Q4
2SC5008
R14
4.7k
R17
33k
R11
4.7k
C20
0.001
Q5
2SC5008
C21
2.5p
C16
1.5p
R12
120
2.6V
1.6V
C22
0.001
Q7
2SC5195
+3
C26
0.001
R18
100
C224
0.001
C225
0.001
V2
C236
0.001
C25
0.001
V1
GND
V1
V2
VCO3
V3
LO
J2
LO
Q14 XP4312
4
5
6
3
2
1
5
6
3
4
1
2
R243
150
Q212
2SC5008
2.0V
R242
15k
C237
0.001
R244
100
R241
47
0.8V
+3
GND
V1
V2
VCO3
V3
LO
REF
PLSTB
CK
UNLK
VSHFT
VMOD
PDA/UL
CK
+10V
PLSTB
REF
R19
10
R209
1k
L252
EXCCL3225U
C252
0.001
L253
EXCCL3225U
6
5
4
3
2
8
7
1
R45
4.7k
C63
0.01
C64
0.001
R46
1.2k
C65
0.001
D7
HVC136TRF
R47
4.7k
D8
HVC136TRF
C66
0.001
C207
0.15
W1
J1
C40
0.001
C39
1.5p
0.8V
R33
33k
REF
R34
150
Q11
2SC5107
C41
0.001
R229 1k
R35
47
1.5V
R234
150
C42
0.001
C229
47p
R230
1k
C228
47p
R231
1k
R232
100
3.1V
L201
4.7
µ
H
C209
0.001
C210
0.1
L202
4.7
µ
H
C211
0.001
C212
0.001
PLSTB
CK
UNLK
R213
270
R211
100k
R228
10k
VSHFT
VMOD
+10V
UNLK
CK
PLSTB
REF
R208
5.6k
EP2
MMZ1608Y
102BT
C219
2.2
R220
5.6k
C233
0.001
C232
0.1
R235
4.7k
R233
150k
L203
2.7
µ
H
C234
33p
C221
0.001
C230
0.001
C213
0.047
Q211
2SC4215
R216
8.2k
Q206
2SK880
C214
1.5
IC201
µ
PD3140GS
1
2
7
8
9
10
5
6
3
4
VCC1
IN1
ENB
CLK
DATA
T1
LOK
CP1
FI1
FO1
GND1
20
IN2 19
VCC2 18
XB 17
XI 16
XO 15
GND2 14
CP2
FI2
FO2
12
11
R215
6.8k
C215
1.5
Q207
R217
6.8k
+10V
R212
3.9k
2SC4117
VCO UNIT
+10V
C468
0.001
PLSTB
VMOD
CK
PDA/UL
C258
0.1
C490
0.001
Q205
UN9213
VMOD
C469
0.001
1
2
3
4
3.0V
IC1
µ
PB1509GV
VCC1
IN
IN
GND
+10V
HV
D251
RB060L-40
C254
0.001
C253
1
D252
MA2S728
VCC2 8
OUT 7
SW2 6
SW1
B5C
VCC
B1C
B4C
T14
T50
T43
C259
0.001
R251
100k
C256
0.001
R48
220
C67
0.001
C48
0.001
L12
0.1
µ
H
C50
27p
C49
7p
C51
47p
R49
3.9k
L13
82nH
D9
HVC136TRF
Q16
2SC5008
R238
15k
R239
270
C235
1.5p
D10
HVC136TRF
R50
4.7k
R51
2.2k
R52
2.2k
R236
150
C239
1p
Q15
UN9213
3
4
1
2
S
S
S
G
D
D
D
D
8
7
6
5
Q251
HAT1203R
CHG
FSET
+3
PSET
C257
0.01
C255
0.001
C489
0.01
C472
470p
C220
0.001
C205
0.001
C204
0.001
DASTB
CK
DATA
FSET
PSET
3
4
5
1
2
6
7
8
DO
LD
CLK
DI
A01
A02
NC
GND
VCC 16
VDD 15
A06 14
A05 13
A04 12
A03 11
NC 10
VSS
9
IC251
M62368GP
+3
DSET
ATT
RXC
TUNE
ATT
AGC
V1
V2
V3
+3
R467
390
R205
1.2k
T43
R73
2.2k
D51
HVC136
C79
0.001
4
5
6
W1
Q56
XP4316
3
2
1
3
2
1
IC51
µ
PC2762TB
GND
GND
IN
5
6
+3
V1
V3
V2
BSFT
B2C
PATMP
PSET
+10V
Q352
XP4601
4 5 6
3 2 1
Q353
XP4312
4 3
2
1
+3
PATMP
T50
T14
VCC
T43
PSET
B5C
B4C
B1C
9.0V
C371
0.001
R365
82k
R364
22k
TUNE
TX: 0V
RX: 3.0V
C88
0.001
5
6
T50
4
Q356
XP4312
3
2
1
T14
T50
T43
D50
MA6S121
C112
0.001
3.0V
*6
C109
0.001
Q102
+3
PATMP
T50
T14
VCC
UN9215
C108
0.001
R111
10k
L102
0.82
µ
H
R110
1.8k
Q453
UN9214
R109 0.15
4 5 6
Q101
XP6401
L101
10
µ
H
3 2 1
C470
0.001
C107
0.001
R108
220k
R105
10k
R106
10k
C106
0.001
C105
0.001
C104
0.1
R107
330k
R104
1M
C103
0.1
C111
0.1
1
2
3
4
IC101
NJM3404AV
8
7
6
5
R103
220k R102
330k
+3
PATMP
R9
47k
T14
T50
L23
23.2nH
C480
120p
C34
120p
R101
1M
C102
0.1
PSET
DSET
C478
0.01
IF
C492
22p
R363
1.2k
R206
82k
C370
9p
0.6V
*6
R368
47
L359
27nH
Q354
2SC5508
D201
HVC136TRF
C375
0.3p
3.1V
*4
2.8V
*6
C417
0.001
C376
0.001
3.0V
*3
B5C
Q402
2SC5006
L408
22nH
R417
2.2k
*4
1.4V
C419
0.001
C488
0.001
C416
10p
R412
56k
D408
HVC136TRF
2.8V
*4
C411
3p
C412
0.001
L405
6.8nH
R418
2.2k
R414
220
D406
MA2S077
D407
HVC321B1TRF
C415
100p
C414
0.5p
R420
1k
C467
0.001
R415
10k
C413
0.001
R355
47k
L406
6.8nH
R416
100k
B4C
C409
180p
L404
6.8nH
L403
6.8nH
Q401 2SC5008
D405
HVC321B1TRF
D404
MA2S077
R410
100k
BSFT
R419
3.9k
C410
0.001
TUNE
R405
1k
C408
0.001
R404
56k
2.9V
*4
R407
220
R409
3.9k
R403
10k
1.4V
*4
C404
4p
D403
HVC321B1TRF
C407
0.001
C406
100p
R408
10k
R402
100k
L402
5.6nH
C420
0.01
C421
0.01
230–630MHz
C402
2p
L401
6.8nH
D401
1SS362
D402
MA2S077
C405
0.001
C474
0.001
R468
10k
C473
0.01
D457
1SV308
C401
22p
C403
0.001
L409
18nH
R401
1k
BSFT
TUNE
B3C
2.3V
*3
D360
MA2S111
R361
2.2k
C364
15p
R357
22
C365
0.001
C360
7p
L353
0.33
µ
H
R367
56
C357
0.001
Q351
3SK320
R354
47k
1.3V
*3
76–230 MHz
BSFT
D358
HVC136TRF
L357
33nH
D356
1SV290
C361
10p
D355
1SV290
L354
33nH
C352
5p
C351
0.001
B2C
B1C
D359
MA2S077
C363
0.001
L358
39nH
C362
100p
R360
4.7k
C374
0.001
BSFT
3.0V
*2
R359
100k
TUNE
C359
220p
R358
100k
L355
39nH
R41
4.7k
D354
MA2S077
C358
0.001
C356
0.001
R353
68k
D353
1SV290
L351
39nH
R356
39
C355
0.001
R366
100k
C372
220p
L352
39nH
R352
4.7k
D351
1SS362
D352
MA2S077
C354
0.001
R351
1k
C353
0.001
BSFT
TUNE
C367
4p
W2
B2C
R317
2.2k
C332
0.01
C333
0.1
R362
3.3k
5
6
C369
0.001
R369
2.2k
IC351
µ
PC2757TB
4 3
PS
VCC
IFO
LO
GND
RFI
2
1
C368
0.01
R314
100k
C331
12p
D313
HVC136TRF
D310
HVC321B1TRF
C325
0.001
L306
0.33
µ
H
L307
0.22
µ
H
R312
220
C323
9p
Q303
2SC5006
1.5V
*2
R311
39k
R310
10k
C320
10p
*2
2.3V
R315
180
D309
MA2S077
C324
0.01
C321
0.01
D308
HVC321B1TRF
C319
0.001
R316
100k
D307
MA2S077
R313
1.5k
TUNE
R318
1.5k
C318
0.01
R309
2.2k
C317
15p
D306
HVC136TRF
L303
0.27
µ
H
R308
2.2k
L304
0.22
µ
H
30–76 MHz
C315
0.1
C316
0.1
C314
0.1
D305
1SS362
R307
1k
ATT
TUNE
R112
330k
C101
0.1
C110
0.1
D7
1SV308
Q355
UN9115
OUT
GND
VCC
4
5
6
C78
0.1
L65
0.1
µ
H
ATT
RFI
BSFT
B1C
AGC
R78
56
R79
56
C80
0.1
R61
220
C66
0.001
R59
1.5k
C77
12p
C76
0.01
R64
1k
C479
0.01
R77
1k
D54
HVC132 R63
4701
R60
820
ATT
Q54
2SC5289
L57
0.22
µ
H
C69
0.001
C65
15p
TX: 2.8V
RX: 0V
L56
56nH
TX: 0.6V
RX: 0V
C67
0.01
R80
330
C70
0.01
D57
1SV308
C68
33p
EP2 MMZ1608D121B
C62
0.01
R56
39
C64
0.1
R57
100k
C52
1
C51
0.1
L51
24nH
L66
95nH
C55
0.001
L68
1.0nH
L53
1.0nH
Q51
2SK3476
Q52
C89
0.1
R81
330
C59
36p
2SK3475
R82
3.9
R52
22
R55
1k
R54
150
R53
330
C57
0.1
L54
68nH
C60
68p
R8
47k
R471
1k
MP5
C98
30p
C33
10p
C23
33p
L456
3.7nH
L19
25nH
ATT
R2
100
C30
0.001
C27
39p
RFI
C26
8p
L15
0.82
µ
H
C32
12p
C114
0.001
L25
0.82
µ
H
D2
1SV308
L16
10.5nH
C24
15p
L18
60nH
C85
0.001
R6
100
L22
80nH
C44
56p
BSFT
B1C
AGC
D13
1SV271
C94
0.01
C93
0.01
L17
0.82
µ
H
D16
1SV271
C487
4p
D8
1SV308
D9
1SV308
R1
390
D19
1SV271
C87
0.01
R7
150
C37
1p
C40
27p
C42
56p
L14
0.82
µ
H
D18
1SV308
Q1
UN9211
C81
0.01
C115
0.01
D12
1SV271
R13
390
C91
0.01
C476
0.001
C82
0.001
R470
1k
D3 MA132WK
C84
0.001
C83
C477
0.001
0.001
R469
1k
D4
1SV307
C116
0.001
R16
390
C95
0.01
D6
1SC308
L21
0.82
µ
H
C35
0.001
L30
18nH
C36
4p
L32
68nH
C39
18p
L34
0.15
µ
H
C41
56p
L26
0.82
µ
H
C31
0.001
Q2
UN9215
C19
0.01
C373
0.001
3.0V
*1
C11
39p
C92
0.001
RF UNIT
*1: While receiving 0.495–29.995 MHz
*2: While receiving 23.00–75.995 MHz
*3: While receiving 76.00–229.995 MHz
*4: While receiving 230.00–629.995 MHz
*5: While receiving 630.00–999.99 MHz
*6: While receiving FM 630.00–999.99 MHz
*7: While receiving WFM 550.00–999.99 MHz
C7
1.5p
C6
2p
L4
12nH
FI1
GLP10-512M
O I
L3
10nH
C3
8p
C2
27p
L1
26nH
L5
60nH
L24
65nH
L6
44nH
C484
2p
C486
4p
C483
12p
C485
27p
L11
0.25-1.9-13TL
L13
0.25-1.9-13TL
C17
8p
C481
15p
L12
0.25-1.9-13TL
C18
47p
3.1V
*5
C9
33p
C10
100p
L9
95nH
C21
68p
C8
3p
C482
68p
R302
2.2k
D303
HVC136TRF
1.8V
*1
D304
MA6S121
R306
220
C310
0.1
R304
22k
Q302
2SC5006
R305
100
C309
0.1
C307
0.1
R303
10k
0.6V
*1
L302
0.27
µ
H
C305
33p
C306
120p
C304
82p
C303
680p
R40
4.7k
C302
0.1
C301
680p
R301
2.2k
L301
3.3
D302
H
MA2S077
Q301
D301
HVC136TRF
UN9213
0.5–30 MHz
BSFT
C311
0.001
C308
0.1
BSFT
B1C
C1
10p
C43
22p
R10
2.2k
D10
1SV308
B1C
CP11
ANT
R11
2.2k
B5C
R454
10k
AGC
D456
MA2S111
C466
0.001
R463
2.2k
L455
33nH
R461
330
R459
10k
1.9V
*5
C458
4p
D455
HVC136TRF
3.0V *5
R460
220
C457
0.001
R465
22
C462
4p
L453
3.9nH
C463
82p
C465
0.01
C460
1p
D454
3.0V
*5
D453
HVC321B1TRF
HVC321B1TRF
C464
100p
R466
47
L454
0.1
µ
H
C456
68p
L452
3.9nH
C455
0.001
R456
220
630–999.995 MHz
R453
22k
1.8V
*5
D452
HVC321B1TRF
C452
4p
C451
100p
C454
5p
R452
100k
L451
3.3nH
C453
68p
D451
1SS362
Q452
2SC5008
R462
100k
R457
100k
Q451
2SC5624VH
C461
0.001
R451
1k
TUNE
ATT
AGC
ATT
11 - 3
11 - 3 AF UNIT
EXT.
MIC
EXT. SP
REMOTE
J253
BSFT
C301
0.1
C300
0.1
Q253
UN9115
C303
0.001
EP3
C304
0.001
R265
330
B5C
Q61
UN9115
B4C
Q62
XP1115
B3C
4
5
B1C
Q63
XP1115
B2C
4
5
IOSTB
DATA
CK
3
2
1
3
2
1
1
2
3
4
7
8
5
6
IC51
BU4094BCFV
STRB
DATA
CLK
Q1
Q2
Q3
Q4
VSS
VDD
OENA
Q5
Q6
Q7
Q8
Q'S
QS
16
15
14
13
12
11
10
9
R3V
DATA
CK
IOSTB
VCC
V3C
TXC
V2C
+3
V2
4
Q58
XP1115
3
V3
5
2
1
V1
Q59
UN9115
V1C
Q55
2SB1132
VCC
TX: 6.02V
RX: 0V
R60
470
+3C
Q11
XP1501
5
1 2
R61
100k
4
3
R62
1M
C57
0.001
R58
10k
C56
0.001
R59
10k
C55
0.001
C54
22
TXC
V3C
Q65
UN9113
VCC
3.21V
C60
0.001
Q64
2SA1576
D52
MA2S111
Q57
2SD2216
R63
4.7k
C59
22
R64
2.2k
D51
MA2S728
C58
22
Q66
UN9113
V2C
Q67
UN9113
2
3
1
Q56
XP4214
6
5
4
R52
470
Q51
2SA1588
R51
4.7k
C51
0.001
TX: 6.05V
RX: 0V
2
3
1
Q54
XP4214
6
R55
470
5
4
Q52
2SA1588
TX: 5.94V
RX: 0V
R54
4.7k
C52
0.001
R57
470
Q53
2SA1588
R56
4.7k
C53
0.001
TX: 5.92V
RX: 0V
+3C
V3C
V2C
TXC
V1
+3
R10
12k
D3
1SS364
C14
4p
L5
0.18
µ
H
R9
47
C12
2p
C13
22p
TX: 0
RX: 2.9V
C10
4p
C25
6p
C24
33p
L4
0.18
µ
H
L8
22nH
C11
22p
L3
0.15
µ
H
D2
1SS364
C9
0.01
R8
47k
R13
12k
R12
12k
R266
270
C17
0.001
R11
1.8k
Q2
2SC4406
C18
0.01
TX: –
RX: 1.51V
R5
47
Q1
2SC4117
R4
390k
T43
T50
T14
L9
0.15
µ
H
3.05V
C7
100p
C8
8p
R7
1k
REF
V1
+3
C5
180p
C6
120p
C4
0.01
X1
CR-583
13.800 MHz
C3
0.001
1.65V
C2
0.001
R2
100k
R3
100k
C23
7p
R1
27k
D1
HVC376BTRF
C1
0.001
T43
T50
T14
REF
V1
+3
XMOD
C26
33p
VCC
FSET
TX: 0V
RX: 0.63V
T14
B2C
T50
T43
DASTB
PLSTB
DATA
CK
REF
REF
B3C
B5C
VCC
B1C
AGC
B4C
V1
+3
C293
47p
VCC to LOGIC unit J1
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
40
39
38
37
36
35
34
33
32
31
30
8
7
6
5
4
3
2
1
13
12
11
10
9
J251
R3C
DICK
DIUD
DATA
DASTB
IOSTB
TXC
AM
WFM
PDA/UL
PLSTB
CK
WXALT
INTSP
+10V
CHG
PATMP
VMOD
XMOD
AFV
+3
+3C
DETO
VOLC
VCC
HV
MUTE
BEEP
EXTM
NOISE
VSHFT
V1C
V2C
V3C
SD
REMO
CHG
PATMP
VMOD
XMOD
HV
EXTM
VSHFT
V3C
REMO
DIUD
DATA
DASTB
IOSTB
TXC
C289
0.001
C287
47p
C286
120p
C284
47p
C283
47p
PDA/UL
PLSTB
CK
C298
0.1
INTSP
+10V
S251
UP
E
DN
J252
DIUK
EP5
EP4
C278
0.001
EP3–EP5
MMZ1608Y102BT
C279
0.001
C277
0.001
W3
C274
47p
C272
0.001
VCC
R3V
VCC
AGC
FSET
DIUD
W2
C282
47p
C299
0.1
C302
0.001
AFV
WXALT
WFM
AM
+3
EXTM
INTSP
REMO
C276
0.001
C265
47p
C269
150
R264
10
R263
150
C270
0.001
C268
0.047
C267
3.3
6
7
8
9
10
NF
PHASE
PREGND
PWGND
POUT
RIPPLE 5
VIN
4
3
NC
VCC 2
NC 1
IC252
TA7368F
C263
0.1
TX: 0V
RX: 5.82V
C261
150
VOLC
MUTE
BEEP
+3C
DETO
NOISE
SD
R3C
DETO
NOISE
SD
C166
0.01
C168
22
D152
1SS364
R163
12k
FI151
CFWM450E
I O
C165
0.01
R161
12k
C164
10
R164
12k
D151
1SS364
R165
12k
C163
0.1
C162
0.1
R158
220k
C161
0.001
C160
0.001
6
7
4
5
1
2
3
8
R154
1k
IC151
TA31136FN
OSCIN
OSCOUT
MIXOUT
VDD
IFIN
BIAS
FILOUT
FILIN
MIXIN
VSS
NOUT
NDET
SOUT
IFOUT
QUADIN
AFOUT
16
15
14
13
12
11
10
9
C153
0.01
R155
56k
C156
0.001
R152
2.2k
C154
39p
R151
22k
C155
150p
R159
4.7k
R167
220k
C158
0.001
R156
15k
R162
4.7k
C157
0.001
R166
12k
C167
0.01
R153
1.2k
L151
LS-528
C159
0.1
C116
0.01
D103
MA133
TX: 0.62V
RX: 2.19V
C152
0.1
C151
0.001
R3V
R110
220
L104
1.0
µ
H
R111
220
C114
8p
R107
15k
R108
6.8k
TX: 0.55V
RX: 0.97V
W1
Q102
2SC4403
C113
0.01
5
6
4
Q101
XP4315
3
2
1
Q103
UN9113
C115
0.001
R109
47
D104
MA2S111
C111
0.001
WFM
R105
4.7k
D102
1SS364
R112
4.7k
R104
4.7k
C107
0.001
C105
0.01
C110
0.001
R114
330
FI101
FL-338
69.450 MHz
O I
C103
4p
R113
150
R102
4.7k
L101
0.82
µ
H
D101
1SS364
IF
C101
0.01
FI102
SFECS13.35MA
2
O
G
I
FL
1
4
3
L103
1.5
µ
H
C109
100p
R103
4.7k
R101
4.7k
C117
10
AGC
DETO
AGC
VCC
+3C
R3C
1
2
3
5
R231
1k
4
C275
0.001
Q209
XP1501
C230
0.001
C229
0.001
WFM
AM
WXALT
3.11V
C260
1
R262
4.7k
C296
0.001
R261
33k
R260
120k
1
2
3
4
OUT1
IN1
COM
GND
C259
1
R259
8.2k
+3
IC251
M5222FP
VCC
OUT2
IN2
VC
8
7
6
5
R256
15k
R258
82k
C258
0.1
R257
68k
C256
0.1
C255
0.001
C254
0.1
R254
220k
C253
0.1
R253
33k
C252
0.047
Q251
2SJ364
R234
10k
R252
47k
R251
1M
Q208
2SA1576
TX: 0.63V
RX: 3.19V
C228
22
WFM
4
Q206
XP4315
3
5
6
2
1
1
2
3
Q207
XP1115
5
4
C227
0.001
R230
10
C225
1
R232
2.2k
C223
0.1
R229
180
R228
180k
Q205
2SD2216
VOLC
BEEP
MUTE
C257
0.001
C251
0.001
Q204
XP6501
6
C221
0.1
R225
15k
C220
0.1
C216
0.0022
5 4
1 2 3
Q203
2SJ364
R224
47k
WFM
R216
18k
R220
100k
C217
0.01
R219
18k
R215
18k
C215
0.0047
R217
18k
C214
0.01
C219
0.1
R218
10k
R221
10k
R223
1M
C218
0.018
R222
180k
WFM
C213
0.0047
R210
100 R203
390
R205
47k
C204
0.47
C203
0.01
R201
470
R214
4.7k
D201
1SS364
R233
10k
C210
0.1
R213
4.7k
R211
33k
C209
0.1
Q202
XP6501
6
R209
1.5k
1
5
2
C208
0.01
R208
22k
4
3
R207
220k
R206
1M
C207
0.22
R204
10k
C206
0.1
C205
4.7
6 5
1 2 3
C202
0.001
4
R212
2.2k
C211
0.1
DETO
Q201
XP6501
R202
330k
C201
22p
C212
0.047
AF UNIT
BSFT
AGC
+10V
B4C
B2C
T14
PATMP
T50
+3
T43
VSHFT
DASTB
CHG
REF
IF
GND
V1
B3C
V3
B5C
FSET
VCC
V2
B1C
HV
PLSTB
VMOD
DATA
PDA/UL
CK
J51
15 16
14
13
12
11
10
9
8
7
6
5
4
3
2
1
17
18
19
20
21
22
23
24
25
26
27
28
29
30 to RF unit
J251
11 - 4
INTRODUCTION
This service manual describes the latest service information for the IC-T90A MULTIBAND FM TRANSCEIVER at the time of publication.
MODEL
T90A
VERSION
U.S.A.
General
Canada
S.E. Asia
SYMBOL
USA
GEN
CAN
SEA
To upgrade quality, all electrical or mechanical parts and internal circuits are subject to change without notice or obligation.
DANGER
NEVER
connect the transceiver to an AC outlet or to a DC power supply that uses more than 12 V. Such a connection could cause a fire hazard and/or electric.
DO NOT
expose the transceiver to rain, snow or any liquids.
DO NOT
reverse the polarities of the power supply when connecting the tranceiver.
DO NOT
apply an RF signal of more than 20 dBm (100 mW) to the antenna connector. This could damage the transceiver s front end.
ORDERING PARTS
Be sure to include the following four points when ordering replacement parts:
1. 10-digit order numbers
2. Component part number and name
3. Equipment model name and unit name
4. Quantity required
<SAMPLE ORDER>
1130006220 S.IC TC4W53FU IC-T90A
8930054290 2372 Main seal IC-T90A
LOGIC UNIT 1 piece
Chassis 5 pieces
Addresses are provided on the inside back cover for your convenience.
REPAIR NOTES
1. Make sure a problem is internal before disassembling the transceiver.
2. DO NOT open the transceiver until the transceiver is disconnected from its power source.
3. DO NOT force any of the variable components. Turn them slowly and smoothly.
4. DO NOT short any circuits or electronic parts. An insulated tuning tool MUST be used for all adjustments.
5. DO NOT keep power ON for a long time when the transceiver is defective.
6. DO NOT transmit power into a signal generator or a sweep generator.
7. ALWAYS connect a 40 dB or 50 dB attenuator between the transceiver and a deviation meter or spectrum analyser when
using such test equipment.
8. READ the instructions of test equipment thoroughly before connecting equipment to the transceiver.
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
<
Corporate Headquarters
>
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
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
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
146A Harris Road, East Tamaki,
Auckland, New Zealand
Phone : 09 274 4062 Fax : 09 274 4708
URL : http://www.icom.co.nz
Communication Equipment
Himmelgeister Str. 100, D-40225 D sseldorf, Germany
Phone : 0211 346047 Fax : 0211 333639
URL : http://www.icomeurope.com
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
Unit 9, Sea St., Herne Bay, Kent, CT6 8LD, U.K.
Phone : 01227 741741 Fax : 01227 741742
URL : http://www.icomuk.co.uk
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
6F No. 68, Sec. 1 Cheng-Teh Road, Taipei, Taiwan, R.O.C.
Phone : (02) 2559 1899 Fax : (02) 2559 1874
IC-T90A (2,3)
1-1-32, Kamiminami, Hirano-ku, Osaka 547-0003, Japan
S-13903MZ-C1
2002 Icom Inc.
IC-T90A (1,4)
MULTIBAND FM TRANSCEIVER
iC-t90a
advertisement
Key Features
- 555 memory channels for storing your favorite frequencies
- AM/FM broadcast receiver for listening to your favorite radio stations
- Rugged construction and IP54 dust/water resistance rating for durability in harsh environments
- CTCSS and DCS encode/decode capabilities for accessing repeater systems
- Wide range of scanning options for monitoring multiple frequencies
- Easy-to-use interface with large buttons and a backlit LCD display
- Compact and portable design for easy carrying
Frequently Answers and Questions
How many memory channels does the ICOM IC-T90A have?
What type of modulation does the ICOM IC-T90A support?
What is the frequency range of the ICOM IC-T90A?
Is the ICOM IC-T90A weather-resistant?
Related manuals
advertisement
Table of contents
- 1 Front cover
- 2 Introduction
- 3 Table of contents
- 4 Specifications
- 6 Inside views
- 8 Disassembly instructions
- 9 Circuit description
- 9 Receiver circuits
- 12 Transmitter circuits
- 13 PLL circuits
- 15 Power supply circuits
- 15 Port allocations
- 18 Adjustment procedures
- 18 Preparation
- 20 Trimmer adjustment
- 22 Adjustment mode adjustment
- 32 Parts list
- 32 RF unit
- 35 AF unit
- 37 Logic unit
- 39 VCO unit
- 41 Mechanical parts and disassembly
- 43 Semi-conductor information
- 44 Board layouts
- 44 Logic unit
- 46 RF unit
- 48 AF unit
- 48 VCO unit
- 50 Block diagram
- 52 Voltage diagram
- 52 Logic unit(1)
- 53 Logic unit(2)
- 54 RF unit
- 55 AF unit
- 56 Address
- 57 Back cover