ICOM IC R20 Service Manual

SERVICE MANUAL

COMMUNICATIONS RECEIVER

iC-r20

INTRODUCTION This service manual describes the latest service information for the IC-R20 COMMUNICATIONS RECEIVER at the time of publication. This service manual covers each versions. MODEL

IC-R20

VERSION

AC adapter

[USA], [EXP-01], [CAN]

BC-149A

[EUR], [EXP-02]

BC-149D –

[UK], [SEA]

To upgrade quality, any electrical or mechanical parts and internal circuits are subject to change without notice or obligation.

DANGER NEVER connect the receiver to an AC outlet or to an external DC power supply that uses more than 6.3 V. This will ruin the receiver. DO NOT expose the receiver to rain, snow or any liquids. DO NOT reverse the polarities of the power supply when connecting the receiver. DO NOT apply an RF signal of more than 20 dBm (100 mW) to the antenna connector. This could damage the receiver’s front end.

ORDERING PARTS Be sure to include the following four points when ordering replacement parts: 1. 2. 3. 4.

10-digit order numbers Component part number and name Equipment model name and unit name Quantity required

1110003200 8930062430

S.IC Key

TA31136FN 2699 Keyboard

IC-R20 RF UNIT 5 pieces IC-R20 Chassis 12 pieces

Addresses are provided on the inside back cover for your convenience.

REPAIR NOTES 1. 2. 3. 4. 5. 6.

Make sure a problem is internal before disassembling the receiver. DO NOT open the receiver until the receiver is disconnected from its power source. DO NOT force any of the variable components. Turn them slowly and smoothly. DO NOT short any circuits or electronic parts. An insulated turning tool MUST be used for all adjustments. DO NOT keep power ON for a long time when the receiver is defective. READ the instructions of test equipment thoroughly before connecting equipment to the receiver.

Icom, Icom Inc. and are registered trademarks of Icom Incorporated (Japan) in the United States, the United Kingdom, Germany, France, Spain, Russia and/or other countries.

TABLE OF CONTENTS

SECTION

1

SPECIFICATIONS

SECTION

2

INSIDE VIEWS

SECTION

3

DISASSEMBLY INSTRUCTIONS

SECTION

4

CIRCUIT DESCRIPTION

4-1 4-2 4-3 4-4 4-5 4-6

RECEIVER CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 - 1 PLL CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 - 7 OTHER CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 - 10 POWER SUPPLY CIRCUITS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 - 11 PORT ALLOCATIONS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 - 12 BC-156 CIRCUIT DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 - 14

5

ADJUSTMENT PROCEDURES

5-1 5-2

PREPARATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 1 SOFTWARE ADJUSTMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 3

SECTION

6

PARTS LIST

SECTION

7

MECHANICAL PARTS AND DISASSEMBLY

SECTION

8

SEMI-CONDUCTOR INFORMATION

SECTION

9

BOARD LAYOUTS

9-1 9-2 9-3 9-4 9-5 9-6 9-7 9-8

RF UNIT . . . . . . . . . . . LOGIC UNIT . . . . . . . . REC UNIT . . . . . . . . . 1STAVCO BOARD . . . 1STBVCO BOARD . . . 2NDCVCO BOARD. . . 2NDDVCO BOARD . . . DOWNCONV BOARD .

SECTION

. . . . . . . .

. . . . . . . .

SECTION

10 BLOCK DIAGRAM

SECTION

11 VOLTAGE DIAGRAM 11-1 11-2 11-3 11-4 11-5 11-6 11-7 11-8

SECTION

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

. . . . . . . .

RF UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . LOGIC UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . REC UNIT. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1STAVCO BOARD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1STBVCO BOARD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2NDCVCO BOARD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2NDDVCO BOARD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . DOWNCONV BOARD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

. . . . . . . .

9 9 9 9 9 9 9 9

-

1 3 5 7 7 7 7 7

11 11 11 11 11 11 11 11

-

1 3 4 5 5 6 6 7

12 12 12 12

-

1 1 2 3

12 BC-156 BATTERY CHARGER UNIT 12-1 12-2 12-3 12-4

DISASSEMBLY INFORMATION BC-156 BLOCK DIAGRAM . . . . BC-156 VOLTAGE DIAGRAM . . BC-156 BOARD LAYOUTS . . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

. . . .

SECTION 1

SPECIFICATIONS M

• IC-R20 M GENERAL

RECEIVER

• Receiver system

• Frequency coverage

: Triple super heterodyne and down convertor • Intermediate frequency : 1st 266.7 and 429.1 MHz 2nd 19.65 MHz 3rd 450 kHz • Sensitivity* : Single mode receiving; Except spurious point (Unit; µV)

:

Version

Receive coverage (MHz)

[EUR], [UK], [SEA], [CAN] [EXP-01], [EXP-02]

0.150–3304.999

[USA]

0.150–821.999, 851.000–866.999, 896.000–1304.999, 1305.000–3304.999

[FRA]

0.150–29.999, 50.200–51.200, 87.500–108.000, 144.000–146.000 430.000–440.000, 1240.000–1300.000

Frequency (MHz) 0.495 – 1.619 1.620 – 4.999 5.000 – 29.999 30.000 – 49.999 50.000 – 53.999 54.000 – 75.999 76.000 – 108.000 108.001 – 117.999 118.000 – 135.999 136.000 – 146.999 147.000 – 174.999 175.000 – 221.999 330.000 – 469.999 470.000 – 769.999 770.000 – 832.999 833.00 – 1304.999 1330.000 – 2304.999 2330.000 – 2999.999

• Mode • No. of memory channel

: FM, WFM, AM, SSB, CW : 1250 channel (incl. scan edge and auto memory write ch.) • Frequency stability : ±6 ppm max. • Tuning steps : 0.01, 0.1, 1, 5, 6.25, 8.33*, 9*, 10, 12.5, 15, 20, 25, 30, 50 and 100 kHz *selectable depending on the operating frequency band. • Antenna Impedance : 50 Ω • Power supply requirement : 3 × AA(R6) alkaline cells, BP-206 or external power supply (BC-149/A/D, CP-18) • Polarity : Negative ground • Current drain (at 3.7 V, backlight is OFF) : Rated audio 150 mA typical Standby 100 mA typical Power saved 35 mA typical (Power save ratio is 1 : 4) • Usable temperature range • Dimensions (projections not included)

• Squelch Sensitivity Frequency (MHz)

: 400 mA typical

SSB/CW

2.2

0.4

1.4

0.25 — 0.25

— —

1.8

0.4

1.4

—

0.56 0.71 5.6 18

0.25 —

1.8 — 2.5

0.32 — —

—

: (except spurious points) FM

0.495 – 1.619

—

1.620 – 4.999

0.56 µV

WFM

AM 2.2 µV

—

1.4 µV

30.000 – 75.999 76.000 – 108.000 108.001 – 117.999

18 µV

—

—

1.4 µV

0.4 µV

118.000 – 135.999 136.000 – 174.999

• Audio output power (at 3.7 V) : 100 mW typical at 10 % distortion with an 8 Ω load

• Charging current

AM

—

5.000 – 29.999

• Weight (with antenna and BP-206) : Approx. 320 (g); 1119⁄32 (oz) • External SP connector : 3-conductor 3.5(d) mm (1⁄8”) / 8Ω

: Approx. 8 hours

WFM

*FM and WFM is measured at 12 dB SINAD. AM, SSB and CW are measured at 10 dB S/N.

: –10˚C to +60˚C ( –14˚F to +140˚F) : 60(W) × 142(H) × 34.8(D) mm; 23⁄8 (W) × 519⁄32 (H) × 13⁄8(D) in

• BP-206 charging time

FM — 0.56

175.000 – 221.999

18 µV

330.000 – 469.999

—

470.000 – 769.999

0.56 µV

18 µV

770.000 – 832.999 833.000 – 1304.999

0.71 µV

1330.000 – 2304.999

5.6 µV

2333.000 – 2999.999

18 µV

• Selectivity

WFM

1-1

—

: SSB/CW AM / FM

All stated specifications are subject to change without notice or obligation.

—

More than 1.8 kHz / –6 dB More than 12 kHz / –6 dB Less than 30 kHz / –60 dB More than 150 kHz / –6 dB

• BC-156 • Input voltage

: 8.0–16.0 V

• Charging current

: 0.96–1.44 A (Rapid charging)

• Usable temperature

: 0˚C to +35˚C (+32˚F to +95˚F)

• Timer device

: 192–288 minutes (Rapid charging) 12–18 minutes (Reserve charging) :

• Protect function FUNCTION

BP-206 CONDITION

BC-156 ACTION

LED CONDITION

Over discharge

Becomes 1.5 V

Charging stop

Blinking orange

Over charge

Becomes 4.5 V

Charging stop

Blinking orange

Overcurrent

Shorten BP-206 and GND

Charging stop

Blinking orange

Full charge

Becomes 4.2 V

Charging stop

Lighting green

Normal charging

Becomes 3.5 V

Charging

Lighting orange

1-2

SECTION 2

INSIDE VIEWS

2-1 RF UNIT • Top view B-UHF RF amplifier (Q548: 2SC5006)

A/B-UHF (pre-amplifier (Q551: PA805T) Highpass filter circuit (C854, C856, C858)

Lowpass filter circuit (L123—L125) A-UHF RF amplifier (Q35: 2SC5006)

1G RF amplifier (Q26: 2SC5624)

30—300 MHz RF amplifier (Q36: 2SC5006)

470—833 MHz RF amplifier (Q24: 2SC5008)

PLL reference oscillator circuit Oscilktes 19.200 MHz X1: CR-593, D171: HVC350B Q556: 2SC4617

B-BAND RF amplifier (IC18: PC2746TB) B-BAND 1st mixer (IC15: PC2757TB)

A-BAND RF amplifier (IC19: PC2757 TB)

SSB AF amplifier (Q532: 2SK1069)

A-BAND 1st mixer (IC1: PC2757 TB)

B-BAND 1st IF filter (266.7 MHz) (FI1: EFCH266MKQP1)

A-BAND 1st IF filter (429.1 MHz) (FI4: EFCH429MKQP4) A-BAND 2nd mixer (IC10: PC2757TB)

B-BAND 2nd mixer (IC16: PC2757TB)

A-BAND 3rd Lo amplifier (Q540: 2SC5006)

BFO mixer (D115, D116: RB876W)

A-BAND IF IC (IC2: TA31136FN)

B-BAND 2nd IF amplifier (Q542: 2SC5006) B-BAND FM IF IC (IC17: TA31136FN)

A-BAND 2nd IF filter (19.65 MHz) (FI3: FL-293)

B-BAND 3rd Lo amplifier (Q555: 2SC5006)

A-BAND 2nd IF amplifier (Q5: 2SC5006)

SSB IF amplifier 450 kHz (Q531: 2SC4617)

• Bottom view A/B-VHF pre-amplifier (Q550: FH102) DOWNCONV BOARD

A-VHF A-band RF amplifier (Q14: 2SC5006) MF/HF-L/HF-H RF amplifier circuit Q505: 2SC4226, D163, D164: MA2S728

1STBVCO BOARD 1STAVCO BOARD

Bar antenna B-BAND AM detector and AGC amplifier (Q545: XP6501)

A-BAND AM detector and AGC amplifier (Q4: XP6501)

2NDDVCO BOARD 2NDCVCO BOARD

A-BAND IF amplifier (Q1: XP6501) B-BAND IF amplifier (Q544: XP6501)

2-1

2-2 LOGIC UNIT • Bottom view

• Top view

AF amplifier regulator (Q7: XP1501 Q9: 2SB1132) AF amplifier (IC15: TA31056F Q8: 2SA1588)

LCD (DS12: M3-0243TIY)

BFO circuit IC6: SN74AHC1GU04DBVR X2: CSBFB543K AF pre-amplifiers (Q12, Q16: 2SC4617)

+3 regulators (Q10, Q15: 2SA1362) Reset IC (IC2: BD5228G)

A-BAND AF circuit Q25: XP6501, Q26: 2SJ144, Q23: 2SC4617, IC7: SM6451B

B-BAND AF circuit Q24: XP6501, Q27: 2SJ144, Q22: 2SC4617, IC7: SM6451B

Main CPU (IC3: M30620MCP-129GP [OTHER], M30620MCP-130GP [USA]) +3V reg. (Q17: 2SA1588) +3SC reg. (Q13: XP6501) +3S reg. (Q14: 2SA1588) 3V reg. IC (IC8, IC9: R1111N321B)

Battery daging regulators (Q30: 2SB1201, Q32: 2SC4617, Q33: 2SB1132)

2-3 REC UNIT • Bottom view

• Top view

USB interface IC (IC3: FT245BM)

Flash memory for recording/playback (IC6: K9F5608UOC-YCBO)

Mute (when SQL off) (IC8, IC9: SN74AHC1G66HDBVR) Recording/playback IC (IC7: ML2302TB)

Sub CPU (IC2: M30620FCPGP)

+3V regulator (IC1: BD5228G, IC10: R1111N321B)

2-2

SECTION 3

DISASSEMBLY INSTRUCTIONS

(1) REMOVING THE REAR PANEL

(3) REMOVING THE REC UNIT

q Unscrew 4 screws, A (2 × 115 mm, black). w Unscrew 2 screws, B (2 × 8 mm, black). e Unplug W1 and J8 (LOGIC unit) to separate the front and the rear panels.

q Unscrew 4 flat-head screws, H (2 × 4 mm, silver). w Unsolder 1 point, I. e Remove the REC unit in the direction of the arrow.

A H B Rear panel

I REC unit J8 W1

LOGIC unit

Speaker

Front panel

(2) REMOVING THE LOGIC UNIT

(4) REMOVING THE RF UNIT

q Remove 2 knobs, C, and unscrew 2 nuts, D. w Unscrew 2 flat-head screws, E (2 × 4 mm, silver), and 1 pan-head screw, F (2 × 4 mm, black). e Unsolder 10 points, G. r Unplug J5 (bottom side of LOGIC unit) and J1 (RF unit) to separate the LOGIC unit. t Remove the LOGIC unit in the direction of the arrow.

q Unscrew 3 flat-head screws, J (2 × 4 mm, silver). w Unsolder 2 points, K. e Remove the RF unit in the direction of the arrow.

C

D

J

F E J5

K K J1 RF unit

G LOGIC unit

3-1

SECTION 4

CIRCUIT DESCRIPTION • A-BAND CIRCUIT (1) MF (above 0.15 MHz, below 1.9 MHz) signals RF signals (0.15–1.9 MHz) from an attenuator (D69) pass through the low-pass filter (L123–L125 and C851–C853), band switch (D66) and another low-pass filter (L88, L89, C533–C535, C657, C658). The filtered signals pass through another band switch (D67), and are then amplified at an RF amplifier (Q505). The amplified signals are applied to the next band switch (D72).

4-1 RECEIVER CIRCUITS 4-1-1 BAND SWITCHING CIRCUIT (RF UNIT) The RF signals from the antenna connector pass through the limiter (D68) and an attenuator* (D69). The signals are then applied to the antenna switching circuit (D3, D11, D13, D65, D66 and D73–D75 ). *Above 2 GHz RF signals do not pass through the attenuator.

(2) HF-L (above 1.9 MHz, below 15 MHz) signals RF signals (1.9–15 MHz) from an attenuator (D69) pass through the low-pass filter (L123–L125 and C851–C853), band switch (D65) and bandpass filter (L85–L87, L91, C522–C531 and C891). The filtered signals pass through another band switch (D70), and are then amplified at an RF amplifier (Q505). The amplified signals are applied to the next band switch (D72).

4-1-2 RF CIRCUIT (RF UNIT) The RF circuit amplifies the received signals within the range of frequency coverage and filters out-of-band signals.

ANTENNA

• RF CIRCUITS LO (1001 or 2002MHz) IC3

1305 3305 MHz

IC2 RF

LIMITER

BAND SW

HPF

mixer from the bar antenna

ATT

BPF

MF (0.15 1.9 MHz)

ANT SW

LPF LPF A-VHF (118 175 MHz)

RF

BAND SW

Q505

HF-L (1.9 15 MHz) BAND BPF SW MF (15 30 MHz)

RF

Q550 Pre Amp

BPF Q14

B-VHF (118 175 MHz)

HPF

BPF

RF

Q549 30 300M (30 300 MHz except A-VHF range) Q36 BAND RF BPF SW

A-UHF (300 470 MHz) RF

BPF Q35

BAND SW

Q551 Pre Amp

HPF LPF

B-UHF (300 470 MHz) BPF

BAND SW

RF

Q548

800M (470 833 MHz) BPF

RF

BPF

Q24 1G (833 1305 MHz) RF

IC18 RF

IC19 RF

1st mixer

Q25

RF-B circuit

to 2nd mixer IC15 circuit 1st mixer IC1

RF-A circuit to 2nd mixer circuit

4-1

BPF

BAND SW

(3) HF-H (above 15 MHz, below 30 MHz) signals RF signals (15–30 MHz) from an attenuator (D69) pass through the low-pass filter (L123–L125 and C851–C853), band switch (D73) and bandpass filter (L81–L84 and C511–C520). The filtered signals pass through another band switch (D64), and are then amplified at an RF amplifier (Q505). The amplified signals are applied to the next band switch (D72).

(3) 800M (above 470 MHz, below 833 MHz) signals RF signals (470–833 MHz) from an attenuator (D69) pass through the high-pass filter (L126, L127 and C854–C858) and band switch (D11). The filtered signals pass through the bandpass filter (D173, D174, L129 and L130), and are then amplified at the RF amplifier (Q24). The amplified signals pass through the bandpass filter (D175, D176 and L132). The signals are applied to the next band switch (D32).

(4) A-VHF (above 118 MHz, below 175 MHz) signals RF signals (118–175 MHz) from an attenuator (D69) pass through the low-pass filter (L123–L125 and C851–C853), band switch (D74), and are then applied to the pre-amplifier (Q550) which is controlled by “A_VHF3V” signal via the D148. The signals are amplified at the RF amplifier (Q14), and pass through the bandpass filter (D1, D2, L1 and C14–C16). The filtered signals are applied to the next band switch (D25).

(4) 1G (above 833 MHz, below 1305 MHz) signals RF signals (833–1305 MHz) from an attenuator (D69) pass through the high-pass filter (L126, L127 and C854–C858) and band switch (D13). The filtered signals pass through the bandpass filter (L11–L13, L43, C5, C45–C51), and are then amplified at the RF amplifier (Q26). The signals are applied to the next band switch (D36).

4-1-3 DOWN CONVERTER CIRCUIT (RF UNIT AND DOWNCONV BOARD)

(5) 30–300M (above 30 MHz, below 300 MHz and except A-VHF signals) signals RF signals (118–175 MHz) from an attenuator (D69) pass through the low-pass filter (L123–L125 and C851–C853) and band switch (D75). The filtered signals pass through the bandpass filter (L9, L10, L92, L133, C40–C43, C665 and C666), and are then amplified at an RF amplifier (Q36). The amplified signals are applied to the next band switch (D34).

The down converter circuit converts the signals within 1305–3305 MHz into 0.15 MHz to 1305 MHz signals. The converted frequencies can calculate as follow. F(x)=X–1001 (X is above 1305 MHz, below 2306 MHz) F(x)=X–2002 (X is above 2306 MHz, below 3305 MHz) NOTE: F(x) is converted frequency X is receiving frequency (Calculate example) • Convert into 599 MHz when receiving 1600 MHz. • Convert into 798 MHz when receiving 2800 MHz.

(6) A-UHF (above 300 MHz, below 470 MHz) signals RF signals (300–470 MHz) from an attenuator (D69) pass through the high-pass filter (L126, L127 and C854–C858) and band switch (D3). The filtered signals pass through the low-pass filter (L3, L4, C22, C23 and C218), and are then amplified at the pre-amplifier (Q551) which is controlled by “A_UHF3V” signal via the D150. The amplified signals are applied to the RF amplifier (Q35), and then pass through the bandpass filter (D4, D5, L60, C58 and C59). The signals are applied to the next band switch (D29).

The RF signals from the limiter (D68) are applied to the DOWNCONV board via the J1, pin 8 on the DOWNCONV board. The signals pass through the band switch (DOWNCONV board; D1) and high-pass filter (DOWNCONV board; L1, L2, C2–C4, C41 and C42), and are then amplified at the RF amplifier (DOWNCONV board; IC2, pin 1). The signals are mixed with 1001 MHz or 2002 MHz LO signal at the mixer (DOWNCONV board; IC3, pin 1). The converted signals output from pin 6, and pass through the band switch (DOWNCONV board; D2). The converted signals are applied to the RF unit via J1, pin 1 on the board. According to converted frequency, the signals are applied to the each matched RF circuit.

• B-BAND CIRCUIT (1) B-VHF (above 118 MHz, below 175 MHz) signals RF signals (118–175 MHz) from an attenuator (D69) pass through the low-pass filter (L123–L125 and C851–C853), band switch (D74), and are then applied to the pre-amplifier (Q550) which is controlled by “B_VHF3V” signal via the D149. The signals are amplified at the RF amplifier (Q549), and pass through the bandpass filter (D145, D146, L120, C833 and C834). The filtered signals are applied to the next band switch (D147).

4-1-4 1ST MIXER AND 1ST IF CIRCUITS (RF UNIT) The 1st mixer circuit converts the received RF signals to a fixed frequency of the 1st IF signal with a PLL output frequency. By changing the PLL frequency, only the desired frequency will pass through the bandpass filters at the next stage of the 1st mixer.

(2) B-UHF (above 330 MHz, below 470 MHz) signals RF signals (330–470 MHz) from an attenuator (D69) pass through the high-pass filter (L126, L127 and C854–C858) and band switch (D3). The filtered signals pass through the low-pass filter (L3, L4, C22 and C23), and are then amplified at the pre-amplifier (Q551) which is controlled by “A_VHF3V” signal via the D151. The amplified signals are applied to the RF amplifier (Q548), and then pass through the bandpass filter (D141, D142, L113, C814 and C816). The signals are applied to the next band switch (D143).

• A-BAND CIRCUIT The RF signals from the band switch (D25, D29, D34 and D72) are amplified at the RF amplifier (IC19, pins 1, 4), and are mixed with 1st LO signals at the 1st mixer circuit (IC1, pin 1) to produce a 429.1 MHz 1st IF signal. The 1st IF signal is output from pin 6, and passed through the bandpass filter (FI4) to suppress unwanted harmonic components. The filtered 1st IF signal is applied to the 2nd mixer circuit. The 1st LO signals are generated at the 1st A_VCO circuit and are applied to the 1st mixer (IC1, pin 3) directly.

4-2

• B-BAND CIRCUIT The RF signals from the band switch (D32, D36, D143 and D147) are amplified at the RF amplifier (IC18, pins 1, 4), and are mixed with 1st LO signals at the 1st mixer circuit (IC15, pin 1) to produce a 266.7 MHz 1st IF signal. The 1st IF signal is output from pin 6, and passed through the bandpass filter (FI1) to suppress unwanted harmonic components. The filtered 1st IF signal is applied to the 2nd mixer circuit.

4-1-6 3RD MIXER AND DEMODULATOR CIRCUITS (RF UNIT) The 3rd mixer circuit converts the 2nd IF signal to a 3rd IF signal. The demodulator circuit converts the 3rd IF signal into AF signals. • A-BAND CIRCUIT The 19.65 MHz 2nd IF signal from the 2nd IF amplifier (Q5) is applied to the 3rd mixer section of the FM IF IC (IC2, pin 16) and is then mixed with the 3rd LO signal for conversion into a 450 kHz 3rd IF signal.

The 1st LO signals are generated at the 1st B_VCO circuit and are applied to the 1st mixer (IC15, pin 3) directly.

IC2 contains the 3rd mixer, limiter amplifier, quadrature detector and S-meter detector, etc. A frequency from the PLL reference oscillator is used for the 3rd LO signal (19.20 MHz).

4-1-5 2ND MIXER AND 2ND IF CIRCUITS (RF UNIT) The 2nd mixer circuit converts the 1st IF signal to a 2nd IF signal. • A-BAND CIRCUIT The filtered 429.1 MHz 1st IF signal from the bandpass filter (FI4) is mixed with the 2nd LO signal at the 2nd mixer circuit (IC10, pin 1, 6) to produce a 19.65 MHz 2nd IF signal.

(1) FM MODE The 3rd IF signal is output from the FM IF IC (IC2, pin 3), and passes through the mode switch (D109) and ceramic bandpass filter (FI2). The filtered signal passes through the mode switch (D112), and is then fed back and amplified at the limiter amplifier section (pin 5). The signal is demodulated to AF signals at the quadrature detector section (pins 10, 11) and detector coil (L21). The demodulated AF signals are output from pin 9 and are applied to the AF switch (IC12, pin 11) via the “A_DETFM” line, and are then applied to the AF circuit (LOGIC unit) as “A_DET” signal.

In case of AM/CW/SSB/Narrow FM mode, the 2nd IF signal passes through the mode switch (D58), crystal bandpass filter (FI3) and another mode switch (D60). In case of WFM mode, the 2nd IF signal passes through the mode switch (D59), low-pass filter (C202, C745, R207 and R536) and another mode switch (D61). The filtered 2nd IF signal is amplified at the 2nd IF amplifier (Q5), and is then applied to the demodulator circuit.

(2) WFM MODE The 3rd IF signal is output from the FM IF IC (IC2, pin 3), and passes through the mode switch (D108) and low-pass filter (L99, C686 and C687). The filtered signal passes through the mode switch (D111), and is then fed back to the limiter amplifier section (pin 5). The amplified signal is demodulated at the quadrature detector section (pins 10 and 11) and detector coil (L21). The AF signals are output from pin 9 and are applied to the AF switch (IC12, pin 11) via the “A_DETFM” line, and are then applied to the AF circuit (LOGIC unit) as “A_DET” signal.

• B-BAND CIRCUIT The filtered 266.7 MHz 1st IF signal from the bandpass filter (FI1) is mixed with the 2nd LO signal at the 2nd mixer circuit (IC16, pin 1, 6) to produce a 19.65 MHz 2nd IF signal. In case of AM/CW/SSB/Narrow FM mode, the 2nd IF signal passes through the mode switch (D130), crystal bandpass filter (FI7) and another mode switch (D132). In case of WFM mode, the 2nd IF signal passes through the mode switch (D131), low-pass filter (C755, C756, R428, R429 and R537) and another mode switch (D133).

By connecting R55 to R54 in parallel, the output characteristics of pin 12, “RSSI”, change gradually. Therefore, the FM IF IC can detect WFM components.

The filtered 2nd IF signal is amplified at the 2nd IF amplifier (Q542), and is then applied to the demodulator circuit.

• 1ST, 2ND MIXER AND 2ND IF CIRCUITS 1st LO signal from 2nd LO signal from the 1STAVCO board the 2NDCVCO board RF signals from the A-BAND circuit

BPF 1st mixer IC1

2nd mixer IC10

BAND SW

Xtal BPF FI3

BAND SW

Q5 RF

2nd IF signal

A-BAND circuit

LPF 1st LO signal from 2nd LO signal from the 1STBVCO board the 2NDDVCO board RF signals from the B-BAND circuit

BPF 1st mixer IC15

2nd mixer IC16

BAND SW

Xtal BPF FI7 LPF

4-3

BAND SW

Q542 RF

B-BAND circuit

2nd IF signal

(3) AM MODE The 3rd IF signal is output from the FM IF IC (IC2, pin 3), and passes through the mode switch (D109) and ceramic bandpass filter (FI2). The filtered signal passes through the mode switch (D112), and is then applied to the IF amplifier (Q531). The amplified signal is demodulated at the AM detector (Q4). The AF signals pass through the ANL circuit (D114), and are then applied to the AF switch (IC12, pin 4) via the “A_DETAM” line, and are then applied to the AF circuit (LOGIC unit) as “A_DET” signal.

(1) FM MODE The 3rd IF signal is output from the FM IF IC (IC17, pin 3), and passes through the mode switch (D134) and ceramic bandpass filter (FI8). The filtered signal passes through the mode switch (D136), and is then fed back and amplified at the limiter amplifier section (pin 5). The signal is demodulated AF signals at the quadrature detector section (pins 10, 11) and detector coil (L105). The demodulated AF signals are output from pin 9 and are applied to the AF switch (IC21, pin 1) via the “DET_OUT” line, and are then applied to the AF circuit (LOGIC unit) as “B_DET” signal.

(4) SSB/CW MODES The 3rd IF signal is output from the FM IF IC (IC2, pin 3), and passes through the mode switch (D110) and ceramic bandpass filter (FI6). The filtered signal passes through the mode switch (D113), and is then applied to the IF amplifier (Q531). The amplified signal is mixed with BFO signal from the LOGIC unit at the mixer (D115 and D116) to demodulate to AF signals. The AF signals are applied to the SSB AF amplifier (Q532), and are then applied to the AF switch (IC12, pin 1) via the “A_DETSSB” line, and are then applied to the AF circuit (LOGIC unit) as “A_DET” signal.

(2) WFM MODE The 3rd IF signal is output from the FM IF IC (IC17, pin 3), and passes through the mode switch (D135) and low-pass filter (L106, C781 and C782). The filtered signal passes through the mode switch (D137), and is then fed back to the limiter amplifier section (pin 5). The amplified signal is demodulated at the quadrature detector section (pins 10 and 11) and detector coil (L105). The AF signals are output from pin 9 and are applied to the AF switch (IC21, pin 1) via the “DET_OUT” line, and are then applied to the AF circuit (LOGIC unit) as “B_DET” signal.

• B-BAND CIRCUIT The 19.65 MHz 2nd IF signal from the 2nd IF amplifier (Q542) is applied to the 3rd mixer section of the FM IF IC (IC17, pin 16) and is then mixed with the 3rd LO signal for conversion into a 450 kHz 3rd IF signal.

By connecting R436 to R437 in parallel, the output characteristics of pin 12, “RSSI”, change gradually. Therefore, the FM IF IC can detect WFM components.

IC17 contains the 3rd mixer, limiter amplifier, quadrature detector and S-meter detector, etc. A frequency from the PLL reference oscillator is used for the 3rd LO signal (19.20 MHz). • A-BAND 3RD MIXER AND DEMODULATOR CIRCUITS "BFO" signal from the LOGIC unit

Q523 MUTE SW Q524, Q526, Q528

Q530

"A_DETSSB" signal to the AF switch AF

IF

Q532

D115 Q531 D116 "A_AGC" signal to RF amplifiers AGC

SSB/CW

AGC

Q522

FI6 AM/NFM

C98

R61

NB

DET

AM DET Q4

Q4

8

R59

Q521, Q525

IF

FI2

Q1 WFM C99

R60

7

5

3

Limiter amp.

C96 FM detector

"A_DETFM" signal to the AF switch

2

10

11 C101

13

12

16

R55

"A_WFMC" Q41

4-4

X1 19.2 MHz

REF CONT. D171

IC2 TA31136F 2nd IF (19.65 MHz) from Q5 "A_NOISE" signal to the CPU (LOGIC unit; IC3, pin 5)

L21 C93

R54 C94

REF OSC Q556

3rd Mixer

Noise comp.

RSSI

R56 C95

LO

Noise detector

Active filter

9

Q540

LPF

C242

"A_RSSI" signal to the CPU (LOGIC unit; IC3, pin 91)

While in WFM/AM modes, AF signals from the demodulator circuit (RF unit) bypass the AF filter via the AF filter bypass switch (Q27), and are then amplified at the AF amplifier (Q22).

(3) AM MODE The 3rd IF signal is output from the FM IF IC (IC17, pin 3), and passes through the mode switch (D134) and ceramic bandpass filter (FI8). The filtered signal passes through the mode switch (D136), and is then applied to the IF amplifier (Q544). The amplified signal is demodulated at the AM detector (Q545). The AF signals pass through the ANL circuit (D139), and are then applied to the AF switch (IC21, pin 4) via the “AM_DET” line, and are then applied to the AF circuit (LOGIC unit) as “B_DET” signal.

The signals are applied to the electronics volume (IC7, pin 11) to control volume level after passing through the mute switch (Q19). The signals output from pin 12, and are applied to the pre-amplifier (Q16). The signals are amplified at the AF amplifier (IC5, pin 1), and then output from pin 6. The signals are applied to the internal speaker which is connected with J8 via the external speaker jack (J3).

4-1-7 AF AMPLIFIER CIRCUIT (LOGIC UNIT) The AF amplifier circuit amplifies the demodulated AF signals to drive a speaker.

The electronic volume control circuit controls AF gain, therefore, the AF output level is according to the [VOL] setting and also the squelch conditions.

• A-BAND CIRCUIT While in FM mode, AF signals from the demodulator circuit (RF unit) pass through the AF filter (Q25), and are then amplified at the AF amplifier (Q23).

4-1-8 SQUELCH CIRCUIT (LOGIC AND RF UNITS) • NOISE SQUELCH The noise squelch circuit cuts out AF signals when no RF signals are received. By detecting noise components in the AF signals, the squelch circuit switches the AF mute switch.

While in WFM/AM/SSB/CW modes, AF signals from the demodulator circuit (RF unit) bypass the AF filter via the AF filter bypass switch (Q26), and are then amplified at the AF amplifier (Q23).

A portion of the “A_NOISE” signals from the FM IF IC (RF unit; IC2, pin 13) are applied to the CPU (LOGIC unit; IC3, pin 5). The CPU analyzes the noise condition and outputs the “AFON” signal (from pin 17) to the AF amplifier’s controller (LOGIC unit; Q7).

The signals are applied to the electronics volume (IC7, pin 6) to control volume level. The signals output from pin 5, and are applied to the pre-amplifier (Q12). The signals are amplified at the AF amplifier (IC5, pin 1), and then output from pin 6. The signals are applied to the internal speaker which is connected with J8 via the external speaker jack (J3).

• 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.

• B-BAND CIRCUIT While in FM mode, AF signals from the demodulator circuit (RF unit) pass through the AF filter (Q24), and are then amplified at the AF amplifier (Q22).

• B-BAND 3RD MIXER AND DEMODULATOR CIRCUITS "B_AGC" signal to RF amplifiers D139 "AM_DET" signal to the AF switch

ANL

Q545

IF

FI8

Q544 WFM

C768 8

R439 R440

AM/NFM

AM DET Q545

AGC

C769

R438

7

5

3

Limiter amp.

C770 FM detector

2

10

11 C765

R443 C772

13

12

16

R436

"B_WFMC" Q543

4-5

X1 19.2 MHz

REF CONT. D171

IC2 TA31136F 2nd IF (19.65 MHz) from Q5 "B_NOISE" signal to the CPU (LOGIC unit; IC3, pin 4)

L105 C880

R437 C764

REF OSC Q556

3rd Mixer

Noise comp.

RSSI

"DET_OUT" signal to the AF switch

LO

Noise detector

Active filter

9

Q555

LPF

C767

"B_RSSI" signal to the CPU (LOGIC unit; IC3, pin 87)

(1) A-BAND CIRCUIT A portion of the AF signals from the FM IF IC (RF unit; IC2, pin 9) passes through the low-pass filter (LOGIC unit; C161, C164, R169 and R175) via the “A_DET” line to remove AF (voice) signals and is applied to the CTCSS decoder inside the CPU (LOGIC unit; IC3, pin 89) via the “A_CTONE” line to control the AF mute switch.

The A-AGC or B-AGC voltage is used for the the bias voltage of the IF and RF amplifiers. When receiving strong signals, the detected voltage increases and the AGC voltage decreases. Therefore, the receiver obtain stable receiver gain.

4-1-10 IC RECORDER CIRCUIT (LOGIC UNIT) (2) B-BAND CIRCUIT A portion of the AF signals from the FM IF IC (RF unit; IC17, pin 9) passes through the low-pass filter (LOGIC unit; C160, C163, R168 and R174) via the “B_DET” line to remove AF (voice) signals and is applied to the CTCSS decoder inside the CPU (LOGIC unit; IC3, pin 90) via the “B_CTONE” line to control the AF mute switch.

The IC RECORDER circuit is composed of RECORDER IC (IC7), sub CPU (IC2), flash memory (IC6), USB interface (IC3), etc. (1) IN CASE OF RECORDING • A-BAND CIRCUIT The AF signals from the AF amplifier (Q23) are applied to the REC board via the HJ8, pin 2 as “A_AIN” signal. The signals are applied to the RECORDING IC (IC7, pin 25) to compress the voice signals, and are then converted to digital signals. The signals are applied to the sub CPU (IC2), and are then stored in the flash memory (IC6).

4-1-9 AGC CIRCUIT (RF UNIT) The AGC (Automatic Gain Control) circuit reduces IF and RF amplifiers gain to keep the audio output at a constant level. The receiver gain is determined by the voltage on the AGC line (A-BAND circuit is Q4’s collector, B-BAND circuit is Q545’s collector).

• B-BAND CIRCUIT The AF signals from the AF amplifier (Q22) are applied to the REC board via the HJ8, pin 3 as “B_AIN” signal. The signals pass through the AF mute switch (IC8, pins 1 and 2), and are then applied to the RECORDING IC (IC7, pin 20) to compress the voice signals, and are then converted to digital signals. The signals are applied to the sub CPU (IC2), and are then stored in the flash memory (IC6).

• A-BAND CIRCUIT A part of the 3rd IF signal from the mode switch (D111–D113) is amplified at the IF amplifier (Q1), and is then applied to the AM detector. (Q4, pin 5). The signal is output from pin 1, and is then applied to the AGC circuit of the same one (pin 3). The signal is output from pin 4 as “A-AGC” signal, and is then applied to the 3rd IF amplifier (Q1), 2nd IF amplifier (Q5) and RF amplifiers (Q14, Q35, Q36 and Q505).

(2) IN CASE OF PLAYBACK The stored RECORDING data in the flash memory (IC6) are applied to the sub CPU (IC2), and are then applied to the RECORDING IC (IC7). The signals are converted to analog signals, and are then expanded into the AF voice signals. The AF signals output from RECORDING IC (IC7, pin 25). The signals are applied to the LOGIC unit via the J6, pin 3 as “AOUT” signal, and are then applied to the electronics volume (IC7, pin 11) to control volume level. The signals output from pin 12, and are applied to the pre-amplifier (Q16). The signals are amplified at the AF amplifier (IC5, pin 1), and then output from pin 6. The signals are applied to the internal speaker which is connected with J8 via the external speaker jack (J3).

• B-BAND CIRCUIT A part of the 3rd IF signal from the mode switch (D136 and D137) is amplified at the IF amplifier (Q544), and is then applied to the AM detector. (Q545, pin 5). The signal is output from pin 1, and is then applied to the AGC circuit of the same one (pin 3). The signal is output from pin 4 as “B-AGC” signal, and is then applied to the 3rd IF amplifier (Q544), 2nd IF amplifier (Q542) and RF amplifiers (Q24, Q25, Q548 and Q549).

• AF AMPLIFIER AND IC RECORDER CIRCUITS Pre. amp. EXT. SP. J3

AF Filter Amplifier

Q12 AF amp.

Q23, Q25, Q26

VR

IC5 Pre. amp. INT. SP. J8

IC7

Q16

SW Q19

AF Filter Amplifier Q22, Q24, Q27

Playing line Recoding line Sub CPU IC2

Memory IC6

Rec. IC IC7

REC UNIT

USB Interface IC3

4-6

A_DET

B_DET

4-2-2 REFERENCE OSCILLATOR CIRCUIT (RF UNIT)

4-2 PLL CIRCUITS 4-2-1 PLL CIRCUIT

The reference oscillator circuit (X1, Q556, D171) generates a 19.2 MHz reference frequency which is stabilized within the temperature range –10˚C (+14˚F) to +60˚C (+140˚F). The reference frequency is applied to the PLL ICs (refer to the list below in details) and the FM IF ICs (IC2, pin 2 for ABAND circuit: IC17, pin 2 for B-BAND circuit) via the LO amplifiers (Q540 for A-BAND circuit; Q555 for B-BAND circuit).

A PLL circuit provides stable oscillation of the 1st LO frequencies. The PLL circuit compares the phase of the divided VCO frequency to the reference frequency. The PLL output frequency is controlled by the divided ratio (N-data) of a programmable divider. • A-BAND CIRCUIT (1STAVCO BOARD) An oscillated signal from one of the 1st VCO circuits (Q1–Q3, D1–D4) passes through the LO switch (D7–D19) and buffer amplifiers (IC2, Q8). The amplified signal is applied to the PLL IC (IC3, pin 11) and is prescaled in the PLL IC based on the divided ratio (N-data). The PLL IC detects the out-of-step phase using the reference frequency and outputs it from pin 5. The output signal is passed through the loop filter (Q6, Q7), and is then applied to the one of the 1st VCO circuits as the lock voltage.

BOARD NAME

• B-BAND CIRCUIT (1STBVCO BOARD) An oscillated signal from one of the 1st VCO circuits (Q1–Q5, D1–D5) passes through the LO switch (D7–D10) and buffer amplifiers (IC2, Q8). The amplified signal is applied to the PLL IC (IC3, pin 11) and is prescaled in the PLL IC based on the divided ratio (N-data). The PLL IC detects the out-of-step phase using the reference frequency and outputs it from pin 5. The output signal is passed through the loop filter (Q6, Q7), and is then applied to the one of the 1st VCO circuits as the lock voltage.

INPUT

OUTPUT

1STAVCO

IC3

pin 19

pin 5

1STBVCO

IC3

pin 19

pin 5

2NDCVCO

IC1

pin 1

pin 6

2NDDVCO

IC1

pin 1

pin 6

DOWNCONV

IC4

pin 1

pin 5

4-2-3 1ST VCO CIRCUITS (1STAVCO AND 1STBVCO BOARDS) • A-BAND CIRCUIT (1STAVCO BOARD) The oscillated signal at 1st A-VCO circuits is applied to the buffer amplifiers (IC2) via one of the LO switches (D7–D9). The amplified signal is applied to the 1st mixer circuit (RF unit; IC1, pin 3) via the LO amplifier (Q9). The 1st A-VCO circuit is composed of 1AVCO, 2AVCO and 3AVCO. Components and osillating frequences of each circuits are as follow list.

• DOWN CONVERTER PLL CIRCUIT (DOWNCONV BOARD) An oscillated signal from the VCO circuit (Q1, D3) is amplified at the buffer amplifier (Q2). The amplified signal is applied to the PLL IC (IC4, pin 8) and is prescaled in the PLL IC based on the divided ratio (N-data). The PLL IC detects the out-of-step phase using the reference frequency and outputs it from pin 5. The output signal is passed through the low-pass filter (L6, C21, C22 and C40), and is then applied to the one of the 1st VCO circuits as the lock voltage.

• A-BAND PLL CIRCUIT

PLL IC

1st A-VCO

Components

Oscillating freq. (MHz)

1AVCO

Q1, D1 and D2

849.1–899.0999

2AVCO

Q2 and D3

604.1–849.0999

3AVCO

Q3 and D4

429.25–604.0999

1AVCO

LO switch

Q1, D1, D2

D7

Buffer Q9

to the 1st mixer circuit

Buffer

2AVCO

IC2 Buffer

D8

Q2, D3

Q8

3AVCO D9

Q3, D4 Q6, Loop Q7 filter

IC3 (PLL IC) 5

RF UNIT REF. OSC.

Programmable counter

Programmable divider

to the FM IF IC REF. CONT.

Phase detector

19

X1 19.2 MHz

4-7

Prescaler

Shift register

11 16 17 18

PLLBSTB PLLDATA PLLCK

A portion of the signal from the buffer amplifier (IC2) is amplified at the buffer amplifier (Q8) and is then fed back to the PLL IC (IC3, pin 11) as the comparison signal.

A part of oscillated signal from the 2nd C-VCO circuit is applied to the PLL IC (IC1, pin 8) as the comparison signal, and is then output from pin 5. The signal passes through the loop filter (R14, R15 and R22), and is then applied to the 2nd C-VCO circuit again as PLL lock voltage.

• B-BAND CIRCUIT (1STBVCO BOARD) The oscillated signal at 1st B-VCO circuits is applied to the buffer amplifiers (IC2) via one of the LO switches (D7–D10). The amplified signal is applied to the 1st mixer circuit (RF unit; IC15, pin 3) via the LO amplifier (Q9). Components and osillating frequences of each circuits are as follow list. 1st B-VCO

Components

Oscillating freq. (MHz)

1BVCO

Q1, D1 and D2

863.3–1099.6999

2BVCO

Q2 and D3

683.3–866.6999

3BVCO

Q3 and D4

566.3–686.6999

4BVCO

Q4, Q5 and D5

384.7–441.6999

• 2ND C VCO CIRCUIT

A_R3V

Q4 Ripple filter

Buffer OSC (19.2 MHz)

Loop filter VCO

2ND VCO

Q1, D1

5 8

PLL IC IC1

Q3

to the 2nd mixer (IC10, pin 3)

A portion of the signal from the buffer amplifier (IC2) is amplified at the buffer amplifier (Q8) and is then fed back to the PLL IC (IC3, pin 11) as the comparison signal.

4-2-4 2ND VCO CIRCUITS (2NDCVCO AND 2NDDVCO BOARDS) The 2nd VCO circuit generates the 2nd LO frequencies, and the signals are applied to the 2nd mixer circuit. • A-BAND CIRCUIT (2NDCVCO BOARD) The 2nd C-VCO circuit (Q1 and D1) generates 409.4500 MHz and 448.7500 MHz. The oscillated signal is applied to the 2nd mixer (RF unit; IC10, pin 3), and is then mixed with the 1st IF signal.

• B-BAND PLL CIRCUIT

1BVCO

LO switch

Q1, D1, D2

D7 Buffer

2BVCO Q9 Q2, D3

IC2

3BVCO

Q3, D4

to the 1st mixer circuit

Buffer

D8

Buffer Q8

D9

4BVCO

Q4, Q5, D5

Q6, Loop Q7 filter

IC3 (PLL IC) 5

RF UNIT REF. OSC.

Phase detector

Programmable counter

Programmable divider

to the FM IF IC REF. CONT.

D10

19

X1 19.2 MHz

4-8

Prescaler

Shift register

11 16 17 18

PLLBSTB PLLDATA PLLCK

1

• B-BAND CIRCUIT The 19.2 MHz reference signal is amplified at the LO amplifier (Q555), and is then applied to the FM IF IC (IC17, pin 2) as the 3rd LO signal. The signal is mixed with 2nd IF signal to convert into 3rd IF signal. The 3rd IF signal is applied to the each demodulator (FM/WFM/AM) circuits.

• B-BAND CIRCUIT (2NDDVCO BOARD) The 2nd D-VCO circuit (Q1 and D1) generates 247.0500 MHz and 286.3500 MHz. The oscillated signal is applied to the 2nd mixer (RF unit; IC16, pin 3), and is then mixed with the 1st IF signal. • 2ND D VCO CIRCUIT

Loop filter

• 3RD LO CIRCUIT (B-BAND) A_R3V

Q4 Ripple filter

VCO Q1, D1

Buffer OSC (19.2 MHz)

2ND VCO

5 8

1 D171 REF CONT.

PLL IC IC1

X1

Q555

Q556 REF OSC

LO

Q3

19.2 MHz 3rd LO signal

FM IF IC (IC17) to the demodulator circuits

3rd mixer

to the 2nd mixer (IC16, pin 3) 2nd IF signal

A part of oscillated signal from the 2nd C-VCO circuit is applied to the PLL IC (IC1, pin 8) as the comparison signal, and is then output from pin 5. The signal passes through the loop filter (R14, R15 and R22), and is then applied to the 2nd D-VCO circuit again as PLL lock voltage.

4-2-6 DOWN CONVERTER VCO CIRCUIT (DOWNCONV BOARD)

4-2-5 3RD LO CIRCUIT (RF UNIT)

The DOWN CONVERTER circuit uses 19.2 MHz reference signal which is generates at the X1 and Q556 on the RF unit.

The 3rd LO circuit uses 19.2 MHz reference signal which is generates at the X1 and Q556.

The DOWN CONVERTER VCO circuit (Q1 and D3) generates 1001 MHz or 2002 MHz. The oscillated signal is amplified at the buffer amplifier (Q4), and passes through band switch.

• A-BAND CIRCUIT The 19.2 MHz reference signal is amplified at the LO amplifier (Q540), and is then applied to the FM IF IC (IC2, pin 2) as the 3rd LO signal. The signal is mixed with 2nd IF signal to convert into 3rd IF signal. The 3rd IF signal is applied to one of demodulator (FM/WFM/AM/SSB) circuits.

When receiving 1305–2305.999 MHz RF signals, 1001 MHz LO signal is selected. The RF signals pass through band switch (D6), and then pass through another band switch (D8).

• 3RD LO CIRCUIT (A-BAND) D171 REF CONT.

X1

When receiving 2306–3304.999 MHz, 2002 MHz LO signal is selectd. The RF signals pass through the band switch (D5), and then pass through the high-pass filter (L9, L10 and C28–C32). The signals passes through another band switch (D7).

Q540

Q556 REF OSC

LO

19.2 MHz 3rd LO signal

The 1001 MHz or 2002 MHz LO signal is applied to the mixer circuit (IC3, pin 3).

FM IF IC (IC2) to the demodulator circuits

3rd mixer

A part of oscillated signal from the DOWN CONVERTER VCO circuit is amplified at the buffer amplifier (Q2), and is then applied to the PLL IC (IC4, pin 8) as the comparison signal, and is then output from pin 5. The signal passes through the loop filter (L6, C21, C22 and C40), and is then applied to the DOWN CONVERTER VCO circuit again as PLL lock voltage.

2nd IF signal

• DOWN CONVERTER VCO CIRCUIT D171 REF CONT.

X1

Q556 REF OSC

Q6 Buff

19.2 MHz

PLL IC IC4

RF UNIT

Q2 Buff VCO Q1, D3

LPF

Q4 Buff 1001 MHz or 2002 MHz LO signal to the mixer (IC3)

DOWNCONV BOARD

4-9

4-2-7 BFO CIRCUIT (LOGIC UNIT) The oscillated signal at the BFO VCO circuit (IC6, X2) is applied to the MAIN unit via the J5 (pin 35) as the BFO, and is then amplified at the BFO amplifier (RF unit; Q530). The amplified signal is mixed with 3rd IF signal to demodulate to AF signal on SSB/CW modes. The carrier frequency is shifted by “BFO_SHIFT” signal from the main CPU (IC3, pin 2) while receiving SSB modes.

4-3 OTHER CIRCUITS 4-3-1 BATTERY CHARGER CIRCUIT (LOGIC UNIT) When charging the installed battery (BP-206), the battery charger control signal (CHGC) becomes high, and is then output from the CPU (IC3, pin 39). The signal is applied to the battery charger controller (Q34), and its output controls the battery charger circuit (Q31, D28, D29) to output 400 mA (typical) charging current.

4-3-2 BAR ANTENNA TUNING CIRCUIT (RF UNIT) When selecting the internal bar antenna while AM band signals are receiving, the interal bar antenna switching signal is output from the D/A converter (IC22, pin 7) as “ANTSW” signal. The signal is applied to the antenna switching circuit (Q510, D76), and then switches to the internal bar antenna. The expander IC (IC14) outputs the “A-TRAC” bar antenna control signal from pin 8. The signal is applied to the level converter (Q513), and is then applied to the AM bar antenna tune circuit (D100). The circuit tunes to the desire frequency to change the D100’s capacity.

4-3-3 EARPHONE ANTENNA CIRCUIT (LOGIC AND RF UNITS) When selecting the earphone antenna while WFM band receiving, the received RF signal passes through the external speaker jack (LOGIC unit; J3). The signal is applied to the RF unit via the J5, pin 4 as “EAR” signal. The signal is applied to the antenna switch (RF unit; D101), and is then applied to the 30–300 MHz RF circuit.

4-3-4 RESET CIRCUIT (LOGIC UNIT) When [POWER] switch is ON, CPU3 signal from the +3 regulator (IC8) is applied to the reset IC (IC2, pin 2). The IC outputs reset signal via the “RESET” line, and the signal is applied to the main CPU (IC3, pin 10) to reset it.

4-3-5 LCD BACKLIGHT CIRCUIT (LOGIC UNIT) When the LCD backlight is ON, the LCD backlight control signal becomes high, and is output from the main CPU (IC3, pin 41) as “LIGHT” signal. The signal is applied to the backlight control switch (Q2, Q4 and Q5), and is then applied to the LCD backlight LEDs (DS1–DS9 and EP12).

4 - 10

4-4-3 RF UNIT VOLTAGE LINES

4-4 POWER SUPPLY CIRCUITS 4-4-1 LOGIC UNIT VOLTAGE LINES Line

Description

VCC

The voltage is same as connected battery pack. The voltage is supplied to the charge controller (Q32).

Common 3 V converted from the VCC line or external DC power supply by the +3 regulator CPU3V (IC8, pins 1 and 5). The output voltage is supplied to the main CPU (IC3), reset IC (IC2), EEPROM (IC1), etc.

+3S

Common 3 V converted from the CPU3V line by the +3 regulator (Q13 and Q14). The regulator is controlled by the +3SC line from the main CPU (IC3, pin 40). The output voltage is supplied to the electronics volume (IC7), pre-amplifiers (Q12 and Q16), etc.

+3V

Common 3 V converted from the CPU3V line by the +3 regulator circuit (Q17). The output voltage is supplied to the CI-V interface circuit (IC4, Q3 and Q6), etc.

A_R3

Receive 3 V converted from the VCC line or external DC power supply by the +3 regulators (IC9, pins 1 and 5; Q10). The regulator is controlled by the A_R3C line from the main CPU (IC3, pin 67). The output voltage is supplied to the RF unit, etc.

B_R3

Receive 3 V converted from the VCC line or external DC power supply by the +3 regulators (IC9, pins 1 and 5; Q15). The regulator is controlled by the B_R3C line from the main CPU (IC3, pin 75). The output voltage is supplied to the RF unit, etc.

Description

+3V

Common 3 V from the LOGIC unit via the J7, pin 1, and is then supplied to the SUB_3V regulator (Q2). The regulator is controlled by SUB_3C line from the sub CPU (IC2, pin 45).

Description

+3V

B_R3V

Receive 3 V line from the LOGIC unit via the J1, pin 22. The voltage is supplied to the RF (IC18), IF (Q542) and LO (Q555) amplifiers, 1st (IC15) and 2nd (IC16) mixers, regulators, etc.

HF3V

Receive 3 V converted from the A_R3V line by the +3 regulator (Q509). The regulator is controlled by the HFC line from the main CPU (LOGIC unit; IC3, pin 46).

NB3V

Common 3 V converted from the A_R3V line by the +3 regulator (Q527). The regulator is controlled by the NBC line from the D/A converter (IC22, pin 13).

Receive 3 V converted from the A_R3V line by the +3 regulator (Q502). The regulator is conA_UHF3V trolled by the A_UHFC line from the expander IC (IC14, pin 4). Receive 3 V converted from the B_R3V line by the +3 regulator (Q554). The regulator is conB_VHF3V trolled by the B_VHFC line from the expander IC (IC20, pin 2). Receive 3 V converted from the B_R3V line by the +3 regulator (Q554). The regulator is conB_UHF3V trolled by the B_UHFC line from the expander IC (IC20, pin 3).

B_G3V

Receive 3 V converted from the B_R3V line by the +3 regulator (Q503). The regulator is controlled by the B_GC line from the expander IC (IC20, pin 4).

Receive 3 V converted from the B_R3V line by the +3 regulator (Q503). The regulator is conB_800M3V trolled by the B_800MC line from the expander IC (IC20, pin 5). Receive 3 V converted from the B_R3V line by the +3 regulator (Q546). The regulator is conB_AM3V trolled by the B_AMC line from the expander IC (IC20, pin 18).

4-4-2 REC UNIT VOLTAGE LINES Common 3 V from the LOGIC unit via the J7, pin 1, and is then supplied to the SUB_3V regulator (Q2). The regulator is controlled by SUB_3C line from the sub CPU (IC2, pin 45).

A_R3V

Receive 3 V converted from the A_R3V line by the +3 regulator (Q502). The regulator is conA_VHF3V trolled by the A_VHFC line from the expander IC (IC14, pin 2).

Common 3 V converted from +3V line by the SUB_3V regulator (Q2). The output voltage is SUB_3V supplied to the sub CPU (IC2), memory (IC6), RECORDING IC (IC7), etc.

Line

Description Receive 3 V line from the LOGIC unit via the J1, pin 37. The voltage is supplied to the RF (IC19), IF (Q5) and LO (Q540) amplifiers, 1st (IC1) and 2nd (IC10) mixers, regulators, etc.

Receive 3 V converted from the A_R3V line by the +3 regulator (Q501). The regulator is con300M3V trolled by the A_300MC line from the expander IC (IC14, pin 3).

4-4-2 REC UNIT VOLTAGE LINES Line

Line

Common 3 V converted from +3V line by the SUB_3V regulator (Q2). The output voltage is SUB_3V supplied to the sub CPU (IC2), memory (IC6), RECORDING IC (IC7), etc.

4 - 11

4-5 PORT ALLOCATIONS

(LOGIC unit; IC3)–Continued

4-5-1 MAIN CPU PORT ALLOCATIONS (LOGIC UNIT; IC3)

Pin number

Pin number 3 8 9

46

17

Port name DATAC CLS1 CLS0

48

26

41

KR5–KR0 Input ports for key matrix

Outputs B-band mute control signal. High : While B-band is muting.

65

PLLCSTB

Outputs A-BAND de-emphasis control signal.

Outputs strobe signals to the A-BAND 2nd LO circuit.

66

PLLESTB

Outputs strobe signals to the DOWN CONVERTER LO circuit.

67

A_R3C

Outputs A-BAND power supply circuit control signal. Low : While A-BAND receiving.

68

PLLCK

Outputs clock signal to the PLL IC.

69

PLLDSTB

Outputs strobe signals to the B-BAND 2nd LO circuit.

70

PLLBSTB

Outputs strobe signals to the B-BAND 1st LO circuit.

71

A_TCON

Outputs A-RTONE filter amplifier control signal.

72

LCD_CS Outputs LCD chip select signal.

Input port for [SQL] switch. Low : While [SQL] switch is pushed.

Outputs A-BAND’s 1st LO control signal.

VRSTR Outputs strobe signals for volume.

40

• Input port for the matrix signal. L0 • Outputs B-RTONE filter amplifier B_TCON control signal.

Outputs strobe signals to the A-BAND 1st LO circuit.

Outputs REC unit regulator control sigSUB_3C nal. High : While recording or playing.

REC

Outputs recording LED control signal.

CHGS

Outputs charging current control signal. High : While rapid charging.

CHGC

• Input port for the matrix signal. • Outputs power ON/OFF control signal.

PLLASTB

34

39

I1 PCON

64

A_VCO1

38

KS3–KS1 Output key matrix signals.

Outputs B-BAND de-emphasis control signal.

A_DUD A_DCK Input ports for [A-DIAL]/[B-DIAL]. B_DUD B_DCK SQL

Outputs strobe signal to the D/A converter IC (IC22, pin 1).

B_AF_THURU

31

36

55–61

Description

63

B_AMUTE A_AF_THURU

54

Outputs control signal to the AF amplifier.

19

25

53

Output clock shift signals.

POWER Input port for [POWER] key.

21–24

49–52

Outputs data and clock control signal.

18

20

STR2

Description

Input port for the detecting signal whether the external power supply is HVDET connecting or not. Low : The external power supply is connected. AFON

Port name

Outputs charger circuit control signal. High : While charging.

+3S

Outputs +3S regulator control signal.

LIGHT

Outputs LCD back light control signal. Low : Lights ON.

74

BFOC

Outputs BFO control signal. Low : While SSB is receiving.

75

B_R3C

Outputs B-BAND power supply circuit control signal. Low : While B-BAND receiving.

76

LCD_RESET Outputs reset signal to the LCD.

77

LCD_RS

Outputs command and data signals to the LCD.

78

LD2

Outputs strobe signals to the expander IC (RF unit; IC20, pin 15).

LD1

Outputs strobe signals to the expander IC (RF unit; IC14, pin 15).

43

B2C

Outputs BAND2 selecting signal in the HF band.

79–81

44

B3C

Outputs BAND3 selecting signal in the HF band.

98

ECK

Outputs clock signal to the EEPROM (IC1, pin 6).

45

B1C

Outputs BAND1 selecting signal in the HF band.

99

ESIO

I/O port for data signal from/to the EEPROM (IC1, pin 5).

46

HFC

Outputs HF band selecting signal at ABAND.

42

47

PLLDATA Outputs data signal to the PLL IC.

4 - 12

B_VCO2 Output B-BAND 1st LO circuit control B_VCO3 signals. B_VCO4

4-5-2 SUB CPU PORT ALLOCATIONS (REC UNIT; IC2)

4-5-4 D/A CONVERTER IC PORT ALLOCATIONS (RF UNIT; IC14)

Pin number 18

Pin number

Port name RSTO

Description Input port for the USB reset signal.

Port name

Description

2

A_VHFC

Outputs VHF band selecting signal at the A-BAND circuit.

19

PWREN Input port for the USB suspend signal.

24

FIFOST

Outputs recording/playing select signal.

3

A_300MC

Outputs 300 MHz band selecting signal at the A-BAND circuit.

25

CBUSY

Input port for the ADPCM command waiting signal.

4

A_UHFC

Outputs UHF band selecting signal at the A-BAND circuit.

Input ports for the ADPCM buffer signals.

6

A_VCO3

26–28

EMP MID FUL

Outputs the A-BAND 1st LO circuit control signal.

7

A_NFMC

Outputs narrow FM mode selecting signal at the A-BAND circuit.

13

Outputs ANL (Automatic Noise Limiter) A_ANLC control signal at A-BAND circuit. High : While ANL is ON.

18

A_AMC

Outputs AM mode selecting signal at the A-BAND circuit.

19

SSBC

Outputs narrow SSB mode selecting signal at the A-BAND circuit.

35 36 25

B_SQL A_SQL SUB_3C

Output recording mute signals. Input port for the power supply verifying signal.

4-5-3 EXPANDER IC PORT ALLOCATIONS (RF UNIT; IC22) Pin number

Port name

Description

4-5-5 D/A CONVERTER IC PORT ALLOCATIONS (RF UNIT; IC20)

4

DOWN_CONV

Outputs the down converter control signal.

5

2GLO

Outputs 2002 MHz LO select signal for the down converter.

6

1GLO

Outputs 1001 MHz LO select signal for the down converter.

2

B_VHFC

Outputs VHF band selecting signal at the B-BAND circuit.

7

ANTSW

Outputs the bar antenna select signal. High : The bar antenna is selected.

3

B_UHFC

Outputs UHF band selecting signal at the B-BAND circuit.

4

B_GC

Outputs GHz band selecting signal at the B-BAND circuit.

APS

Outputs the power save control signal to the A-BAND circuit. Low : While the A-BAND circuit is power saving.

5

B-800MC

Outputs 800 MHz band selecting signal at the B-BAND circuit.

7

A_WFMC

Outputs wide FM mode selecting signal at the B-BAND circuit.

8

B_VCO1

Outputs the B-BAND 1st LO circuit control signal.

9

Outputs ANL (Automatic Noise Limiter) B_ANLC control signal at B-BAND circuit. High : While B-BAND ANL is ON.

18

A_AMC

11

12 13 14

A_WFM

Pin number

Outputs WFM mode select signal at the A-BAND circuit.

NBC

Outputs noise blanker control signal.

BPS

Outputs the power save control signal to the B-BAND circuit. Low : While the B-BAND circuit is power saving.

19

4 - 13

Port name

Description

Outputs AM mode selecting signal at the B-BAND circuit.

Outputs narrow AM or narrow FM B_AM_FM mode selecting signal at the B-BAND circuit.

4-6-3 CHARGING CONTROL CIRCUIT (MAIN UNIT AND TANSHI BOARD)

4-6 BC-156 CIRCUIT DESCRIPTION 4-6-1 DC/DC CONVERTER CIRCUIT (MAIN UNIT) Input voltage (8–16 V) from the BC-123A/E pass through reverse protection circuit (D6) via the J1. The voltage pass through the current limiter (R19) which can pass less than 2.0 A via the fuse (F1), and is then applied to the DC/DC converter circuit (IC2, Q7, D2, L1 and C4). The circuit converts 8–16 V input voltage to obtain approximately 5.2 V/2 A, and the converted voltage is applied to the charging circuit (IC1, Q1).

• CHARGING THE BATTERY WITH IC-R20 The “DET2” signal from the TANSHI board is applied to the D5 (MAIN unit) via the J4 (MAIN unit), and is then applied to the Q4 (MAIN unit). As Q4 turns ON, the output signal from Q4 is applied to the D4. The signal is applied to the Q3 to turn ON, then the output signal from Q3 is applied to the charging control IC (MAIN unit; IC1, pin 2). The IC controls Q1’s base voltage to keep stable voltage/current battery charging.

• DC/DC CONVERTER CIRCUIT

A part of signal from Q4 (MAIN unit) is applied to the charging selector circuit (TANSHI board; RL1) via the J1, pin 8 (TANSHI board) as “CONT” signal.

Current limiter

from the BC-123A/E Protection circuit

F1

D6

DC/DC converter

R19

• CHARGING THE BATTERY ONLY The “DET1” signal from the TANSHI board is applied to the D5 (MAIN unit) via the J4 (MAIN unit), and is then applied to the Q2 (MAIN unit). As Q2 turns ON, the output signal from Q2 is applied to the D4. The signal is applied to the Q3 to turn ON, then the output signal from Q3 is applied to the charging control IC (MAIN unit; IC1, pin 2). The IC controls Q1’s base voltage to keep stable voltage/current battery charging.

IC1, Q7, D2, L4, C1 to the charging circuit

4-6-2 CHARGING CIRCUIT (MAIN UNIT AND TANSHI BOARD) The converted voltage from the DC/DC converter circuit is applied to the charging circuit (MAIN unit; IC1, Q1), and is then applied to the TANSHI board via the J4, pins 1 and 2 (MAIN unit) as “CHGOUT” signal. The signal passes through the charging current detector (R1), and is then applied to the charging selector (TANSHI board; RL1) which is controlled by “CONT” signal. The signal is then applied to the CP1 (TANSHI board) as “SBATT+” signal or CP4 as “BATT+” signal. A part of “CHGOUT” signal is applied to the charging circuit (IC1, pins 13 and 14) via the J1, pin 6 (TANSHI board) to control battery charging.

• CHARGING CIRCUIT "DET1" signal to D5 (MAIN unit) MAIN UNIT

CP3 (DET1) CP2 (SBATT )

TANSHI BOARD

CP1 (SBATT+) Converted 5.2 V/2 A

Current detector

Charging circuit

R1

Selector RL1

IC1, Q1

CP4 (BATT+) CP5 (BATT )

"CONT" signal from Q6 (MAIN unit)

"DET2" signal to D5 (MAIN unit)

CP6 (DET2)

• CHARGING CONTROL CIRCUIT 5.2 V/2 A from the DC/DC converter circuit D1

"CHGOUT" signal to the charger selector (RL1)

Q1 Q2 Charging controller IC1

Q3

CP3 (DET1) D4

Q4

4 - 14

CP6 (DET2) D5

SECTION 5 ADJUSTMENT PROCEDURES 5-1 PREPARATION Almost adjustments must be adjusted on the adjustment mode. The shorten plug (see below) is required when entering the adjustment mode.

‘ REQUIRED TEST EQUIPMENT EQUIPMENT

GRADE AND RANGE

EQUIPMENT

DC power supply

Output voltage Current capacity

: 6.0 V DC : 1 A or more

Digital multimeter

Frequency counter

Frequency range : 0.1–1000 MHz Frequency accuracy : ±1 ppm or better Sensitivity : 100 mV or better

Standard signal generator (SSG)

GRADE AND RANGE Input impedance

: 10 kΩ/V DC or better

Frequency range Output level

: 0.1–3000 MHz : 0.1 µV–32 mV (–127 to –17 dBm)

‘ ENTERING THE ADJUSTMENT MODE q Connect the shorten plug to the [SP] jack. w Push and hold [8 SET], [MR S.MW], [BAND] and [MAIN/SUB] keys, and then turn power ON. NOTE: Entering adjustment mode, keep on entering adjustment mode until dis-connect the shorten plug and turn power OFF.

■ OPERATION ON THE ADJUSTMENT MODE Change the adjustment channel or item [UP] Change the adjustment channel or item [DOWN] Change the adjustment value

: [MR S.MW] key : [SCOPE] key : [R-DIAL]

While entering adjustment mode, some adjustments must push [• LOCK] or [8 SET] keys to write the adjustment value to the CPU. Refer to following list in detail. KEY

OPERATION Write the REFERENCE FREQUENCY ADJUSTMENT value.

[• LOCK]

Write the BFO ADJUSTMENT value. Write the AFC ADJUSTMENT value.

[8 SET]

Write the TRACKING ADJUSTMENT value. Write the S-METER ADJUSTMENT value.

‘ CONNECTIONS

JIG Shorten I/O and GND line.

Standard signal generator to the antenna connector 0.1 V to 32 mV ( 127 dBm to 17 dBm)

3.5(d) mm I/O GND 3-conductor 3.5(d) mm plug must be used.

to [SP] jack

to [DC] jack

IC-R20

5-1

Power supply 6V/1A

5-2 SOFTWARE ADJUSTMENTS ADJUSTMENT

ADJUSTMENT CONDITION

OPERATION

REFERENCE 1 • Connect the frequency counter to the check point • Rotate [R-DIAL] to set to 247.05000 MHz. CP18 on the RF unit. • Push [• LOCK] key. FREQUENCY • Receiving [REF] CENTER VOLTAGE

: ON • Adjust L21 to CP1 voltage to be 1.0 V. 1 • Dual watch mode • Set the receiver to [A-BAND] and FM mode. • Operating frequency : 145.100 MHz • Connect an SSG to the antenna connector and set as Level : 1 mV* (–47 dBm) Frequency : 145.100 MHz Modulation : OFF • Connect the Digital multimeter to the check point CP1 on the RF unit. • Receiving • Adjust L105 to CP11 voltage to be 1.0 V. 2 • Set the receiver to [B-BAND] and FM mode. • Operating frequency : 145.100 MHz • Connect an SSG to the antenna connector and set as Level : 1 mV* (–47 dBm) Frequency : 145.100 MHz Modulation : OFF • Connect the Digital multimeter to the check point CP11 on the RF unit. • Receiving

BFO [LSB]

1 • Connect the frequency counter to the check point on • Rotate [R-DIAL] to set to 448.5 kHz. the LOGIC unit (See page 5-3). • Push [• LOCK] key. • Receiving

[USB]

2 • Connect the frequency counter to the check point on • Rotate [R-DIAL] to set to 451.5 kHz. the LOGIC unit (See page 5-3). • Push [• LOCK] key. • Receiving

[CW]

3 • Connect the frequency counter to the check point on • Rotate [R-DIAL] to set to 449.2 kHz. the LOGIC unit (See page 5-3). • Push [• LOCK] key. • Receiving

SSB-IF SHIFT [LSB-IFS]

1 • Connect an SSG to the antenna connector and set as • Set an SSG’s level to 10 dB S/N sensitivity (A). Frequency : 14.0990 MHz • Measure the AF output level while the IC-R20 Modulation : OFF outputs 1 kHz signal (B). • Receiving 2 • Set an SSG as Level Frequency Modulation • Receiving

[USB-IFS]

: A+ 35 dB : 14.1005 MHz : OFF

• Measure the AF output level (C). • If AF output level C is lower than B, skip this adjustment. • If AF output level C is higher than B, rotate [R-DIAL] to adjust the AF output level to the same level as B. • Push [• LOCK] key.

3 • Connect an SSG to the antenna connector and set as • Set an SSG’s level to 10 dB S/N sensitivity (A). Frequency : 14.1010 MHz • Measure the AF output level while the IC-R20 Modulation : OFF outputs 1 kHz signal (B). • Receiving 4 • Set an SSG as Level Frequency Modulation • Receiving

: A+ 35 dB : 14.0995 MHz : OFF

• Measure the AF output level (C). • If AF output level C is lower than B, skip this adjustment. • If AF output level C is higher than B, rotate [R-DIAL] to adjust the AF output level to the same level as B. • Push [• LOCK] key.

*This output level of a standard signal generator (SSG) is indicated as SSG’s open circuit.

5-2

• RF UNIT BOTTOM VIEW

• RF UNIT TOP VIEW

L105 Center voltage adjustment (B-BAND)

CP18 Reference frequency check point

CP11 Center voltage check point (B-BAND) L21 Center voltage adjustment (A-BAND) CP1 Center voltage check point (A-BAND)

• BFO CHECK POINT (LOGIC UNIT TOP VIEW)

BFO check point

5-3

SOFTWARE ADJUSTMENTS–Continued ADJUSTMENT

ADJUSTMENT CONDITION

OPERATION

AFC [AFC] (FM A-BAND)

• Push [• LOCK] key. 1 • Mode : FM • Connect an SSG to the antenna connector and set as Level : 1 mV* (–47 dBm) Frequency : 145.100 MHz Modulation : OFF • Receiving

(WFM A-BAND)

2 • Mode • Receiving

: WFM

• Push [• LOCK] key.

(FM B-BAND)

3 • Mode • Receiving

: FM

• Push [• LOCK] key.

(WFM B-BAND)

4 • Mode • Receiving

: WFM

• Push [• LOCK] key.

• Push [8 SET] key. 1 • Mode : FM TRACKING • Connect an SSG to the antenna connector and set as [TRL/TRH] Level : 71 mV* (–10 dBm) (0.495 MHz Frequency : 0.495 MHz Bar Antenna Modulation : ±1 kHz tuning) Deviation : ±3.5 kHz • Receiving 2 • Connect an SSG to the antenna connector and set as • Push [8 SET] key. (1.620 MHz Level : 220 mV* (0 dBm) Bar Antenna Frequency : 1.620 MHz tuning) • Receiving (118.1 MHz RF amplifier tuning)

• Push [8 SET] key. : FM 3 • Mode • Connect an SSG to the antenna connector and set as Level : 0.56 µV* (–112 dBm) Frequency : 118.1 MHz • Receiving

(174.9 MHz RF amplifier tuning)

4 • Connect an SSG to the antenna connector and set as • Push [8 SET] key. Frequency : 174.9 MHz • Receiving

(330.1 MHz RF amplifier tuning)

5 • Connect an SSG to the antenna connector and set as • Push [8 SET] key. Frequency : 330.1 MHz • Receiving

(469.9 MHz RF amplifier tuning)

6 • Connect an SSG to the antenna connector and set as • Push [8 SET] key. Frequency : 469.9 MHz • Receiving

(118.1 MHz RF amplifier tuning)

7 • Connect an SSG to the antenna connector and set as • Push [8 SET] key. Frequency : 118.1 MHz • Receiving

(174.9 MHz RF amplifier tuning)

8 • Connect an SSG to the antenna connector and set as • Push [8 SET] key. Frequency : 174.9 MHz • Receiving

(330.1 MHz RF amplifier tuning)

9 • Connect an SSG to the antenna connector and set as • Push [8 SET] key. Frequency : 330.1 MHz • Receiving

(469.9 MHz 10 • Connect an SSG to the antenna connector and set as • Push [8 SET] key. Frequency : 469.9 MHz RF amplifier • Receiving tuning) (470.1 MHz 11 • Connect an SSG to the antenna connector and set as • Push [8 SET] key. Frequency : 470.1 MHz RF amplifier • Receiving tuning) (599.9 MHz 12 • Connect an SSG to the antenna connector and set as • Push [8 SET] key. Frequency : 599.9 MHz RF amplifier • Receiving tuning) *This output level of a standard signal generator (SSG) is indicated as SSG’s open circuit. 5-4

SOFTWARE ADJUSTMENTS–Continued ADJUSTMENT S-METER [S-M] (1.81 MHz FM mode)

ADJUSTMENT CONDITION

OPERATION

• Push [8 SET] key. 1 • Mode : FM • Connect an SSG to the antenna connector and set as Level : 0.56 µV* (–112 dBm) Frequency : 1.81 MHz Modulation : ±1 kHz Deviation : ±3.5 kHz • Receiving

• Push [8 SET] key. : WFM 2 • Mode (1.81 MHz • Connect an SSG to the antenna connector and set as WFM mode) Level : 5.6 µV* (–92 dBm) Deviation : ±52.5 kHz • Receiving (14.1 MHz FM mode)

• Push [8 SET] key. 3 • Mode : FM • Connect an SSG to the antenna connector and set as Level : 0.56 µV* (–112 dBm) Frequency : 14.1 MHz Deviation : ±3.5 kHz • Receiving

• Push [8 SET] key. : WFM 4 • Mode (14.1 MHz • Connect an SSG to the antenna connector and set as WFM mode) Level : 5.6 µV* (–92 dBm) Deviation : ±52.5 kHz • Receiving (145.1 MHz FM mode)

• Push [8 SET] key. : FM 5 • Mode • Connect an SSG to the antenna connector and set as Level : 0.56 µV* (–112 dBm) Frequency : 145.1 MHz Deviation : ±3.5 kHz • Receiving

• Push [8 SET] key. : WFM 6 • Mode (145.1 MHz • Connect an SSG to the antenna connector and set as WFM mode) Level : 5.6 µV* (–92 dBm) Deviation : ±52.5 kHz • Receiving (201.1 MHz FM mode)

• Push [8 SET] key. 7 • Mode : FM • Connect an SSG to the antenna connector and set as Level : 0.56 µV* (–112 dBm) Frequency : 201.1 MHz Deviation : ±3.5 kHz • Receiving

• Push [8 SET] key. 8 • Mode : WFM (201.1 MHz • Connect an SSG to the antenna connector and set as WFM mode) Level : 5.6 µV* (–92 dBm) Deviation : ±52.5 kHz • Receiving (435.1 MHz FM mode)

• Push [8 SET] key. 9 • Mode : FM • Connect an SSG to the antenna connector and set as Level : 0.56 µV* (–112 dBm) Frequency : 435.1 MHz Deviation : ±3.5 kHz • Receiving

• Push [8 SET] key. : WFM (435.1 MHz 10 • Mode • Connect an SSG to the antenna connector and set as WFM mode) Level : 5.6 µV* (–92 dBm) Modulation : ±52.5 kHz • Receiving

*This output level of a standard signal generator (SSG) is indicated as SSG’s open circuit. 5-5

SOFTWARE ADJUSTMENTS–Continued ADJUSTMENT

ADJUSTMENT CONDITION

OPERATION

• Push [8 SET] key. 11 • Mode : FM S-METER • Connect an SSG to the antenna connector and set as [S-M] Level : 0.56 µV* (–112 dBm) (1400.1 MHz Frequency : 1400.1 MHz FM mode) Modulation : ±1 kHz Deviation : ±3.5 kHz • Receiving • Push [8 SET] key. : WFM (1400.1 MHz 12 • Mode • Connect an SSG to the antenna connector and set as WFM mode) Level : 5.6 µV* (–92 dBm) Deviation : ±52.5 kHz • Receiving S-METER [S-M] (145.1 MHz FM mode)

• Push [8 SET] key. : FM 13 • Mode • Connect an SSG to the antenna connector and set as Level : 0.56 µV* (–112 dBm) Frequency : 145.1 MHz Deviation : ±3.5 kHz • Receiving

• Push [8 SET] key. : WFM (145.1 MHz 14 • Mode • Connect an SSG to the antenna connector and set as WFM mode) Level : 5.6 µV* (–92 dBm) Deviation : ±52.5 kHz • Receiving (435.1 MHz FM mode)

• Push [8 SET] key. : FM 15 • Mode • Connect an SSG to the antenna connector and set as Level : 0.56 µV* (–112 dBm) Frequency : 435.1 MHz Deviation : ±3.5 kHz • Receiving

• Push [8 SET] key. : WFM (435.1 MHz 16 • Mode • Connect an SSG to the antenna connector and set as WFM mode) Level : 5.6 µV* (–92 dBm) Deviation : ±52.5 kHz • Receiving (650.1 MHz FM mode)

• Push [8 SET] key. : FM 17 • Mode • Connect an SSG to the antenna connector and set as Level : 0.56 µV* (–112 dBm) Frequency : 650.1 MHz Deviation : ±3.5 kHz • Receiving

• Push [8 SET] key. : WFM (650.1 MHz 18 • Mode • Connect an SSG to the antenna connector and set as WFM mode) Level : 5.6 µV* (–92 dBm) Deviation : ±52.5 kHz • Receiving • Push [8 SET] key. : FM (1100.1 MHz 19 • Mode • Connect an SSG to the antenna connector and set as FM mode) Level : 0.56 µV* (–112 dBm) Frequency : 1100.1 MHz Deviation : ±3.5 kHz • Receiving • Push [8 SET] key. : WFM (1100.1 MHz 20 • Mode • Connect an SSG to the antenna connector and set as WFM mode) Level : 5.6 µV* (–92 dBm) Modulation : ±52.5 kHz • Receiving

*This output level of a standard signal generator (SSG) is indicated as SSG’s open circuit. 5-6

SOFTWARE ADJUSTMENTS–Continued ADJUSTMENT

ADJUSTMENT CONDITION

OPERATION

21 • Mode : FM • Push [8 SET] key. S-METER • Connect an SSG to the antenna connector and set as [S-M] Level : 0.56 µV* (–112 dBm) (2510.1 MHz Frequency : 2510.1 MHz FM mode) Modulation : ±1 kHz Deviation : ±3.5 kHz • Receiving : WFM • Push [8 SET] key. (2510.1 MHz 22 • Mode • Connect an SSG to the antenna connector and set as WFM mode) Level : 32 µV* (–77 dBm) Deviation : ±52.5 kHz • Receiving *This output level of a standard signal generator (SSG) is indicated as SSG’s open circuit.

5-7

SECTION 6

PARTS LIST [1STAVCO BOARD]

6-1 IC-R20 [1STAVCO BOARD] REF NO.

ORDER NO.

REF NO. DESCRIPTION

M.

IC2 IC3

1110005180 S.IC 1130011660 S.IC

µPC2746TB-E3 MB15T61ULPVA-G-ER

B B

Q1 Q2 Q3 Q6 Q7 Q8 Q9 Q11 Q12 Q13

1530003260 1530003260 1530003260 1560000530 1530003000 1530003580 1530003580 1590001810 1590001810 1530003590

2SC5006-T1 2SC5006-T1 2SC5006-T1 2SK880-GR (TE85R) 2SC4117-BL (TE85R) 2SC5231C8-TL 2SC5231C8-TL XP1113 (TX) XP1113 (TX) 2SC5277D2-TL

T T T B B B B B B B

S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.FET S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR

D1 D2 D3 D4 D7 D8 D9

1720000400 1720000400 1750001050 1750001050 1790001620 1790001620 1790001620

S.VARICAP S.VARICAP S.VARICAP S.VARICAP S.DIODE S.DIODE S.DIODE

1SV245 (TPH3) 1SV245 (TPH3) HVC417CTRU HVC417CTRU 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3)

T T T T T T T

L1 L2 L3 L4 L5 L6 L7 L8 L9 L10

6200009350 6200009350 6200010030 6200003960 6200009350 6200009980 6200003960 6200009350 6200009280 6200003960

S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL

ELJRE R22G-F3 ELJRE R22G-F3 C2012C-15NG MLF1608A 1R0K-T ELJRE R22G-F3 C2012C-18NG MLF1608A 1R0K-T ELJRE R22G-F3 LQW18AN27NG00D (LQW1608A27NG00) MLF1608A 1R0K-T

T T T T T T T T T T

R1 R2 R3 R4 R5 R6 R7 R8 R9 R10 R11 R12 R13 R14 R15 R23 R24 R25 R26 R27 R28 R29 R30 R31 R32 R33 R34 R35 R36 R37 R38 R40 R41 R42 R43 R44 R45

7030004970 7030004990 7030005040 7030005210 7030004990 7030004970 7030004990 7030005040 7030005210 7030004990 7030004970 7030004990 7030005040 7030005210 7030007280 7030005120 7030007300 7030004990 7030005290 7030005210 7030007340 7030005090 7030004990 7030005080 7030007270 7030007260 7030004990 7030009140 7030005040 7030005040 7030005040 7030005040 7030005300 7030004970 7030005080 7030004990 7030005120

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ

470 221 472 822 221 470 221 472 822 221 470 221 472 822 331 102 332 221 682 822 153 104 221 823 151 330 221 272 472 472 472 472 150 470 823 221 102

X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

(47 Ω) (220 Ω) (4.7 kΩ) (8.2 kΩ) (220 Ω) (47 Ω) (220 Ω) (4.7 kΩ) (8.2 kΩ) (220 Ω) (47 Ω) (220 Ω) (4.7 kΩ) (8.2 kΩ) (330 Ω) (1 kΩ) (3.3 kΩ) (220 Ω) (6.8 kΩ) (8.2 kΩ) (15 kΩ) (100 kΩ) (220 Ω) (82 kΩ) (150 Ω) (33 Ω) (220 Ω) (2.7 kΩ) (4.7 kΩ) (4.7 kΩ) (4.7 kΩ) (4.7 kΩ) (15 Ω) (47 Ω) (82 kΩ) (220 Ω) (1 kΩ)

R46 R47 R48 R49 R50 R51 R52 R53 R54 R55

ORDER NO. 7030005120 7030005120 7030005120 7030008300 7030005090 7030005090 7030005090 7030005570 7030004970 7030005120

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

7030010040 S.RESISTOR R56

7030005120 S.RESISTOR 7030010040 S.RESISTOR

R57

7030005120 S.RESISTOR 7030010040 S.RESISTOR

C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 C16 C17 C18 C19 C20 C21 C22 C23 C24 C31 C35 C37 C38 C39 C40 C41 C42 C43 C44 C46 C47 C48 C49 C50 C52 C53 C54 C55 C56 C58 C59 C60 C61 C62 C63 C64 C65 C66

T T T T T T T T T T T T T T T B B B B B B B B B B B B B T T T B B B B B B

4030017460 4030017460 4030017360 4030017570 4030017460 4030016930 4030017530 4030016930 4030017460 4030017460 4030017350 4030017460 4030016930 4030017530 4030016930 4030017360 4030017460 4030017460 4030017600 4030017570 4030017460 4030016930 4030017530 4030016930 4030016790 4030017770 4550003220 4550000930 4550000930 4030016790 4030017460 4030017460 4030017350 4030017460 4030017460 4030017460 4340000290 4030017620 4030017380 4030017460 4030017460 4030017460 4030017460 4030017460 4030016930 4030016790 4030016790 4030016930 4030016930 4030017460 4550007040 4550007040 4550007040

S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.TANTALUM S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.MYLAR S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.TANTALUM S.TANTALUM

DESCRIPTION

M.

ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ

102 X (1 kΩ) 102 X (1 kΩ) 102 X (1 kΩ) 184 X (180 kΩ) 104 X (100 kΩ) 104 X (100 kΩ) 104 X (100 kΩ) 820 X (82 Ω) 470 X (47 Ω) 102 X (1 kΩ) [EUR], [UK], [USA], [CAN] ERJ2GE-JPW [SEA], [EXP-01], [EXP-02] ERJ2GEJ 102 X (1 kΩ) [EUR], [UK], [USA], [CAN] ERJ2GE-JPW [SEA], [EXP-01], [EXP-02] ERJ2GEJ 102 X (1 kΩ) [EUR], [UK], [USA], [CAN] ERJ2GE-JPW [SEA], [EXP-01], [EXP-02]

B B B B B B B B T

ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H030B ECJ0EC1H040B ECJ0EB1E102K ECJ0EB1A104K ECJ0EC1H0R5B ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H020B ECJ0EB1E102K ECJ0EB1A104K ECJ0EC1H0R5B ECJ0EB1A104K ECJ0EC1H030B ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H080C ECJ0EC1H040B ECJ0EB1E102K ECJ0EB1A104K ECJ0EC1H0R5B ECJ0EB1A104K ECJ0EB1C103K ECJ0EB1E332K TEESVA 1E 105M8L TEESVA 1D 684M8L TEESVA 1D 684M8L ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H020B ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECHU 1C 103JX5 ECJ0EC1H100C ECJ0EC1H050B ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1E102K ECST0JZ106R ECST0JZ106R ECST0JZ106R

T T T T T T T T T T T T T T T T T T T T T T T T B B B B B T B B B B B B B B B B B T T T B B B B B B B B B

B B B B B B

S.=Surface mount

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6-1

[1STAVCO BOARD] REF NO.

ORDER NO.

[1STBVCO BOARD] DESCRIPTION

REF NO.

M.

C67

4030017460 S.CERAMIC

J1 J2

6910015520 CONNECTOR 6910015510 CONNECTOR

ECJ0EB1E102K [EUR], [UK], [USA], [CAN] B IMSA-9230B-1-07Z064-T B IMSA-9230B-1-08Z064-T B

EP1

0910058163 PCB

B 6080C

R14 R15 R16 R17 R18 R19 R23 R24 R25 R26 R27 R28 R29 R30 R31 R32 R33 R34 R35 R36 R37 R38 R39 R40 R41 R42 R43 R44 R45 R46 R47 R48 R49 R50 R51 R52 R53 R54 R55

[1STBVCO BOARD] REF NO.

ORDER NO.

DESCRIPTION

M.

IC2 IC3

1110005180 S.IC 1130011660 S.IC

µPC2746TB-E3 MB15T61ULPVA-G-ER

B B

Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8 Q9 Q10 Q11 Q12

1530003260 1530003260 1530003260 1530003260 1530003260 1560000530 1530003000 1530003580 1530003580 1590001810 1590001810 1530003590

S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.FET S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR

2SC5006-T1 2SC5006-T1 2SC5006-T1 2SC5006-T1 2SC5006-T1 2SK880-GR (TE85R) 2SC4117-BL (TE85R) 2SC5231C8-TL 2SC5231C8-TL XP1113 (TX) XP1113 (TX) 2SC5277D2-TL

T T T T T B B B B B B B

D1 D2 D3 D4 D5 D7 D8 D9 D10

1720000400 1720000400 1750001050 1750001050 1750001050 1790001620 1790001620 1790001620 1790001620

S.VARICAP S.VARICAP S.VARICAP S.VARICAP S.VARICAP S.DIODE S.DIODE S.DIODE S.DIODE

1SV245 (TPH3) 1SV245 (TPH3) HVC417CTRU HVC417CTRU HVC417CTRU 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3)

T T T T T T T T T

ORDER NO. 7030005210 7030005000 7030005290 7030005710 7030005290 7030007280 7030005120 7030007300 7030004990 7030005290 7030005210 7030007340 7030005090 7030004990 7030005080 7030007270 7030007260 7030004990 7030009140 7030005040 7030005040 7030005040 7030005040 7030005040 7030005300 7030004970 7030005080 7030004990 7030005120 7030005120 7030005120 7030005120 7030008300 7030005090 7030005090 7030005090 7030005570 7030004970 7030005120

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

7030010040 S.RESISTOR R56

7030005120 S.RESISTOR 7030010040 S.RESISTOR

L1 L2 L3 L4 L5 L6 L7 L8 L9 L10 L11 L12 L13 L14

6200009350 6200009350 6200010020 6200003960 6200009350 6200010020 6200003960 6200009350 6200009280 6200003960 6200004940 6200010210 6200005740 6200005740

S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL

ELJRE R22G-F3 ELJRE R22G-F3 C2012C-12NG MLF1608A 1R0K-T ELJRE R22G-F3 C2012C-12NG MLF1608A 1R0K-T ELJRE R22G-F3 LQW18AN27NG00D (LQW1608A27NG00) MLF1608A 1R0K-T MLF1608D R27K-T C2012C-22NG ELJRE 47NG-F ELJRE 47NG-F

T T T T T T T T T T T T T T

R1 R2 R3 R4 R5

7030004970 7030004990 7030005040 7030005210 7030007250

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

470 X (47 Ω) 221 X (220 Ω) 472 X (4.7 kΩ) 822 X (8.2 kΩ) 220 X (22 Ω) [SEA], [EXP-01], [EXP-02] ERJ2GEJ 181 X (180 Ω) [EUR], [UK], [USA], [CAN] ERJ2GEJ 470 X (47 Ω) ERJ2GEJ 221 X (220 Ω) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 822 X (8.2 kΩ) ERJ2GEJ 221 X (220 Ω) [EUR], [UK], [USA], [CAN] ERJ2GEJ 220 X (22 Ω) [SEA], [EXP-01], [EXP-02] ERJ2GEJ 470 X (47 Ω) ERJ2GEJ 221 X (220 Ω) ERJ2GEJ 472 X (4.7 kΩ)

T T T T

7030009160 S.RESISTOR R6 R7 R8 R9 R10

7030004970 7030004990 7030005040 7030005210 7030004990

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

7030007250 S.RESISTOR R11 R12 R13

7030004970 S.RESISTOR 7030004990 S.RESISTOR 7030005040 S.RESISTOR

ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ

R57

7030005120 S.RESISTOR 7030010040 S.RESISTOR

C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 C16 C17 C18 C19 C20 C21 C22 C23 C24 C25 C26 C27 C28 C29

T T T T T T T T T T T

4030017460 4030017460 4030017350 4030017350 4030017460 4030016930 4030017530 4030016930 4030017460 4030017460 4030017350 4030017460 4030016930 4030017530 4030016930 4030017570 4030017460 4030017460 4030017600 4030017570 4030017460 4030016930 4030017530 4030016930 4030017460 4030017460 4030017540 4030017540 4030017460

S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC

DESCRIPTION

M.

ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ

822 X (8.2 kΩ) 471 X (470 Ω) 682 X (6.8 kΩ) 121 X (120 Ω) 682 X (6.8 kΩ) 331 X (330 Ω) 102 X (1 kΩ) 332 X (3.3 kΩ) 221 X (220 Ω) 682 X (6.8 kΩ) 822 X (8.2 kΩ) 153 X (15 kΩ) 104 X (100 kΩ) 221 X (220 Ω) 823 X (82 kΩ) 151 X (150 Ω) 330 X (33 Ω) 221 X (220 Ω) 272 X (2.7 kΩ) 472 X (4.7 kΩ) 472 X (4.7 kΩ) 472 X (4.7 kΩ) 472 X (4.7 kΩ) 472 X (4.7 kΩ) 150 X (15 Ω) 470 X (47 Ω) 823 X (82 kΩ) 221 X (220 Ω) 102 X (1 kΩ) 102 X (1 kΩ) 102 X (1 kΩ) 102 X (1 kΩ) 184 X (180 kΩ) 104 X (100 kΩ) 104 X (100 kΩ) 104 X (100 kΩ) 820 X (82 Ω) 470 X (47 Ω) 102 X (1 kΩ) [EUR], [UK], [USA], [CAN] ERJ2GE-JPW [SEA], [EXP-01], [EXP-02] ERJ2GEJ 102 X (1 kΩ) [EUR], [UK], [USA], [CAN] ERJ2GE-JPW [SEA], [EXP-01], [EXP-02] ERJ2GEJ 102 X (1 kΩ) [EUR], [UK], [USA], [CAN] ERJ2GE-JPW [SEA], [EXP-01], [EXP-02]

T T T T T T B B B B B B B B B B B B B T T T T B B B B B B B B B B B B B B T

ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H020B ECJ0EC1H020B ECJ0EB1E102K ECJ0EB1A104K ECJ0EC1H0R5B ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H020B ECJ0EB1E102K ECJ0EB1A104K ECJ0EC1H0R5B ECJ0EB1A104K ECJ0EC1H040B ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H080C ECJ0EC1H040B ECJ0EB1E102K ECJ0EB1A104K ECJ0EC1H0R5B ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1HR75B ECJ0EC1HR75B ECJ0EB1E102K

T T T T T T T T T T T T T T T T T T T T T T T T T T T T T

B B B B B B

S.=Surface mount

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6-2

[1STBVCO BOARD] REF NO. C30 C31 C35 C37 C38 C39 C40 C41 C42 C43 C44 C45 C46 C47 C48 C49 C50 C52 C53 C54 C55 C56 C57 C58 C59 C60 C61 C62 C63 C64 C65 C66 C67 C68

J1 J2

EP1

ORDER NO. 4030017460 4030017460 4030017770 4550003220 4550000930 4550000930 4030016790 4030017460 4030017460 4030017350 4030017460 4030017530 4030017460 4030017460 4340000290 4030017620 4030017380 4030017460 4030017460 4030017460 4030017460 4030017460 4030017460 4030016930 4030016790 4030016790 4030016930 4030016930 4030017460 4550007040 4550007040 4550007040 4550007040 4030017460

S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.TANTALUM S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.MYLAR S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.TANTALUM S.TANTALUM S.TANTALUM S.CERAMIC

6910015520 CONNECTOR 6910015510 CONNECTOR

0910058174 PCB

[2NDCVCO BOARD] DESCRIPTION

M.

ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E332K TEESVA 1E 105M8L TEESVA 1D 684M8L TEESVA 1D 684M8L ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H020B ECJ0EB1E102K ECJ0EC1H0R5B ECJ0EB1E102K ECJ0EB1E102K ECHU 1C 103JX5 ECJ0EC1H100C ECJ0EC1H050B ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1E102K ECST0JZ106R ECST0JZ106R ECST0JZ106R ECST0JZ106R ECJ0EB1E102K [EUR], [UK], [USA], [CAN] only

T B B B B B B B B B B T B B B B B B B T T T T B B B B B B B B B B

IMSA-9230B-1-07Z064-T IMSA-9230B-1-08Z064-T

REF NO.

ORDER NO.

DESCRIPTION

M. T T T T B

R17 R18 R19 R21 R22

7030008300 7030005120 7030005120 7030005120 7030007280

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ

184 102 102 102 331

X X X X X

(180 kΩ) (1 kΩ) (1 kΩ) (1 kΩ) (330 Ω)

C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C16 C17 C18 C19 C20 C21 C22 C23 C24 C25 C26 C27 C30 C31 C32 C33

4550006910 4030017390 4030017640 4030017620 4030017630 4030017460 4030017570 4030017340 4030017380 4030017380 4030017730 4030017380 4030017420 4030017420 4030017420 4550007150 4030016790 4030016790 4030016790 4030017460 4030016930 4030017460 4030017460 4030017460 4550007040 4030017350

S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC

TEESVP 1C 334M8R ECJ0EC1H180J ECJ0EC1H150J ECJ0EC1H100C ECJ0EC1H120J ECJ0EB1E102K ECJ0EC1H040B ECJ0EC1H010B ECJ0EC1H050B ECJ0EC1H050B ECJ0EB1E471K ECJ0EC1H050B ECJ0EC1H470J ECJ0EC1H470J ECJ0EC1H470J ECST0JZ475R ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECST0JZ106R ECJ0EC1H020B

T T T T T T T T T T B B B B B B T T T B B B T T T T

J1 J2

6910010840 CONNECTOR 6910014430 CONNECTOR

IMSA-9230B-1-05Z057-T IMSA-9230B-1-06Z057-T

T T

EP1

0910058183 PCB

B 6082C

B

B B

B 6081D

[2NDDVCO BOARD] REF NO.

[2NDCVCO BOARD] REF NO. IC1

Q1 Q3 Q4

D1

L1 L2 L3 L4

R1 R2 R3 R4 R9 R10 R11 R12 R13 R14 R15 R16

ORDER NO. 1130011670 S.IC

DESCRIPTION

M.

MB15E03SLPFV1-G-BND-ER

B

1530003610 S.TRANSISTOR FH102-TL 1530003590 S.TRANSISTOR 2SC5277D2-TL 1530003630 S.TRANSISTOR 2SC4617 TLS

1750000740 S.VARICAP

6200009070 6200005720 6200005700 6200009350

7030004970 7030005050 7030005120 7030005120 7030005580 7030004980 7030005120 7030005120 7030005120 7030005530 7030009270 7030005120

S.COIL S.COIL S.COIL S.COIL

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

T T T

1SV314 (TPH3)

470 103 102 102 560 101 102 102 102 100 821 102

X X X X X X X X X X X X

DESCRIPTION

M.

MB15E03SLPFV1-G-BND-ER

B

IC1

1130011670 S.IC

Q1 Q3 Q4

1530003610 S.TRANSISTOR FH102-TL 1530003590 S.TRANSISTOR 2SC5277D2-TL 1530003630 S.TRANSISTOR 2SC4617 TLS

T T T

D1

1750000710 S.VARICAP

HVC350BTRF

T

L1 L2 L3 L4

6200010850 6200005740 6200005700 6200009350

S.COIL S.COIL S.COIL S.COIL

LQW18AN22NG00D (LQW1608A22NG00) ELJRE 47NG-F ELJRE 22NG-F ELJRE R22G-F3

T T T T

R1 R2 R3 R4 R9 R10 R11 R12 R13 R14 R15 R16 R17 R18

7030004970 7030005240 7030007280 7030005120 7030004990 7030004980 7030005120 7030005120 7030005120 7030005530 7030009270 7030005120 7030008300 7030005120

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ

T

LQW18AN18NG00D (LQW1608A18NG00) ELJRE 33NG-F ELJRE 22NG-F ELJRE R22G-F3

ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ

ORDER NO.

(47 Ω) (10 kΩ) (1 kΩ) (1 kΩ) (56 Ω) (100 Ω) (1 kΩ) (1 kΩ) (1 kΩ) (10 Ω) (820 Ω) (1 kΩ)

T T T T

T T T T B B B B B B B T

470 473 331 102 221 101 102 102 102 100 821 102 184 102

X X X X X X X X X X X X X X

(47 Ω) (47 kΩ) (330 Ω) (1 kΩ) (220 Ω) (100 Ω) (1 kΩ) (1 kΩ) (1 kΩ) (10 Ω) (820 Ω) (1 kΩ) (180 kΩ) (1 kΩ)

T T T T B B B B B B B T T T

S.=Surface mount

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6-3

[2NDDVCO BOARD] REF NO. R19 R21 R22

ORDER NO. 7030005120 S.RESISTOR 7030005120 S.RESISTOR 7030007280 S.RESISTOR

C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C16 C17 C18 C19 C20 C21 C22 C23 C24 C25 C26 C27 C30 C31 C32

4550006910 4030017500 4030017400 4030017630 4030017650 4030017460 4030017620 4030017570 4030017600 4030017600 4030017730 4030017380 4030017420 4030017420 4030017420 4550007150 4030016790 4030016790 4030016790 4030017460 4030016930 4030017460 4030017460 4030017460 4550007040

J1 J2

EP1

S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM

[DOWNCONV BOARD] DESCRIPTION

M.

ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 331 X (330 Ω)

T T B

TEESVP 1C 334M8R ECJ0EC1H560J ECJ0EC1H220J ECJ0EC1H120J ECJ0EC1H270J ECJ0EB1E102K ECJ0EC1H100C ECJ0EC1H040B ECJ0EC1H080C ECJ0EC1H080C ECJ0EB1E471K ECJ0EC1H050B ECJ0EC1H470J ECJ0EC1H470J ECJ0EC1H470J ECST0JZ475R ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECST0JZ106R

T T T T T T T T T T B B B B B B T T T B B B T T T

6910010840 CONNECTOR 6910014430 CONNECTOR

IMSA-9230B-1-05Z057-T IMSA-9230B-1-06Z057-T

T T

0910058193 PCB

B 6083C

REF NO.

[DOWNCONV BOARD] REF NO.

ORDER NO.

DESCRIPTION

M.

IC2 IC3 IC4

1110005120 S.IC 1110005230 S.IC 1130011670 S.IC

µPC2749TB-E3 µPC2757TB-E3 MB15E03SLPFV1-G-BND-ER

T T B

Q1 Q2 Q3 Q4 Q5 Q6

1530003260 1530003260 1590003380 1530003780 1590001810 1530003590

S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR

2SC5006-T1 2SC5006-T1 UNR9111J-(TX) 2SC5624VH-TL XP1113 (TX) 2SC5277D2-TL

T B B T B B

D1 D2 D3 D5 D6 D7 D8

1790001620 1790001620 1720000400 1790001620 1790001620 1790001620 1790001620

S.DIODE S.DIODE S.VARICAP S.DIODE S.DIODE S.DIODE S.DIODE

1SV308 1SV308 1SV245 1SV308 1SV308 1SV308 1SV308

T B T T T T T

L1 L2 L3 L4 L6 L7 L8 L9 L10 L11

6200005650 6200005650 6200004480 6200010020 6200009350 6200006770 6200005640 6200005610 6200005580 6200005640

S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL

ELJRE 8N2Z-F ELJRE 8N2Z-F MLF1608D R82K-T C2012C-12NG ELJRE R22G-F3 ELJRE 1N5Z-F ELJRE 6N8Z-F ELJRE 3N9Z-F ELJRE 2N2Z-F ELJRE 6N8Z-F

(TPL3) (TPL3) (TPH3) (TPL3) (TPL3) (TPL3) (TPL3)

T T T T T T T T T B

ORDER NO.

DESCRIPTION

M. T T T B T T B T T T T T T T B B B B B B B T T T T T T T B B B B T

T T T T T T T T T T T T T B B B B B T B T B B T T T T T T T T T T T T T T T T B B B B B B

R1

7030004980 S.RESISTOR

R2 R3 R4 R5 R6 R7 R8 R9 R10 R11 R12 R13 R14 R15 R16 R17 R18 R19 R20 R21 R22 R23 R25 R26 R27 R28 R29 R30 R31 R32 R33

7030009160 7030005000 7030005040 7030005040 7030005040 7030005040 7030007280 7030005050 7030005040 7030004970 7030005300 7030005530 7030005300 7030005720 7030004990 7030007270 7030005120 7030007280 7030009270 7030005530 7030005600 7030005040 7030005040 7030005120 7030005120 7030005040 7030005530 7030005120 7030008300 7030005120 7030005120 7030003440

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

ERJ2GEJ 101 X (100 Ω) except [EUR], [UK] ERJ2GEJ 181 X (180 Ω) [EUR], [UK] ERJ2GEJ 471 X (470 Ω) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 331 X (330 Ω) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 470 X (47 Ω) ERJ2GEJ 150 X (15 Ω) ERJ2GEJ 100 X (10 Ω) ERJ2GEJ 150 X (15 Ω) ERJ2GEJ 563 X (56 kΩ) ERJ2GEJ 221 X (220 Ω) ERJ2GEJ 151 X (150 Ω) ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 331 X (330 Ω) ERJ2GEJ 821 X (820 Ω) ERJ2GEJ 100 X (10 Ω) ERJ2GEJ 273 X (27 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 100 X (10 Ω) ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 184 X (180 kΩ) ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 102 X (1 kΩ) ERJ3GEYJ 102 V (1 kΩ)

C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 C16 C17 C18 C19 C21 C22 C23 C26 C27 C28 C29 C30 C31 C32 C34 C35 C36 C37 C38 C39 C40 C41 C42 C43 C44 C45 C46 C47 C48 C49

4030017620 4030017600 4030017580 4030017600 4030017730 4030017730 4030017340 4030017350 4030017350 4030017340 4030017460 4550007040 4030017400 4030016930 4030017730 4030017730 4030017730 4030017730 4030017730 4030017730 4550006910 4550007070 4030016930 4030017620 4030017340 4030017340 4030017350 4030017630 4030017400 4030017730 4030017730 4030017350 4030017730 4030017730 4030017340 4030017570 4030017640 4030017630 4030017730 4030017730 4030017360 4030017360 4030016790 4030016790 4030016790

S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC

ECJ0EC1H100C ECJ0EC1H080C ECJ0EC1H060C ECJ0EC1H080C ECJ0EB1E471K ECJ0EB1E471K ECJ0EC1H010B ECJ0EC1H020B ECJ0EC1H020B ECJ0EC1H010B ECJ0EB1E102K ECST0JZ106R ECJ0EC1H220J ECJ0EB1A104K ECJ0EB1E471K ECJ0EB1E471K ECJ0EB1E471K ECJ0EB1E471K ECJ0EB1E471K ECJ0EB1E471K TEESVP 1C 334M8R TEESVP 1A 475M8R ECJ0EB1A104K ECJ0EC1H100C ECJ0EC1H010B ECJ0EC1H010B ECJ0EC1H020B ECJ0EC1H120J ECJ0EC1H220J ECJ0EB1E471K ECJ0EB1E471K ECJ0EC1H020B ECJ0EB1E471K ECJ0EB1E471K ECJ0EC1H010B ECJ0EC1H040B ECJ0EC1H150J ECJ0EC1H120J ECJ0EB1E471K ECJ0EB1E471K ECJ0EC1H030B ECJ0EC1H030B ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K

S.=Surface mount

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6-4

[DOWNCONV BOARD] REF NO.

ORDER NO. S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC

[REC UNIT] DESCRIPTION

M.

ECJ0EB1E471K ECJ0EB1E471K ECJ0EB1E471K ECJ0EB1C103K ECJ0EC1H470J ECJ0EC1H470J ECJ0EC1H470J ECJ0EB1A104K

B B B B B B T T

T T

C50 C51 C52 C53 C54 C55 C56 C58

4030017730 4030017730 4030017730 4030016790 4030017420 4030017420 4030017420 4030016930

J1 J2

6910015510 CONNECTOR 6910015530 CONNECTOR

IMSA-9230B-1-08Z064-T IMSA-9230B-1-06Z064-T

EP1

0910058152 PCB

B 6079B

REF NO.

[REC UNIT] REF NO.

ORDER NO. S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.REG

DESCRIPTION

M.

BD5228G-TR M30622M6P-131GP (RX-2699A ALL) FT245BM SN74AHC1G02DCKR SN74AHC1G32DCKR K9F5608UOC-YCBO ML2302TB SN74AHC1G66HDBVR SN74AHC1G66HDBVR R1111N321B-TR

T B T B B B T T T T

IC1 IC2 IC3 IC4 IC5 IC6 IC7 IC8 IC9 IC10

1130011980 1140012090 1130011680 1130012250 1130012260 1130011970 1190001950 1130011800 1130011800 1180002370

Q1 Q2

1590003300 S.TRANSISTOR UNR921NJ-(TX) 1590003510 S.TRANSISTOR UNR9119J-(TX)

B B

X1 X2

6050010940 S.XTAL 6050011240 S.XTAL

T T

CR-672 (6.000 MHz) CR-708 (16.384 MHz)

R1 R6 R7 R8 R9 R10 R11 R12 R13 R15 R16 R17 R18 R19 R20 R21 R22

7030005050 7030009530 7030009530 7030005240 7030005050 7030005240 7030005000 7030007280 7030005030 7030005240 7030005170 7030005100 7030005230 7030005240 7030004980 7030005090 7030005090

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ

103 270 270 473 103 473 471 331 152 473 474 154 334 473 101 104 104

X X X X X X X X X X X X X X X X X

(10 kΩ) (27 Ω) (27 Ω) (47 kΩ) (10 kΩ) (47 kΩ) (470 Ω) (330 Ω) (1.5 kΩ) (47 kΩ) (470 kΩ) (150 kΩ) (330 kΩ) (47 kΩ) (100 Ω) (100 kΩ) (100 kΩ)

C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 C16 C17

4030016790 4550006050 4030016790 4030016790 4030016790 4030017660 4030017660 4030017330 4030017040 4030017330 4030016790 4030016790 4030016790 4030016790 4030016790 4030016790 4030017390

S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC

ECJ0EB1C103K TEESVA 0J 106M8L ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EC1H330J ECJ0EC1H330J ECJ0EF1C104Z ECJ0EB1A333K ECJ0EF1C104Z ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EC1H180J

ORDER NO. S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC

DESCRIPTION

M.

ECJ0EB1C103K ECJ0EB1C103K ECJ0EC1H220J ECJ0EC1H220J ECJ0EB1C103K C1608 JB 1A 105K-T C1608 JB 1A 105K-T ECJ0EB1C103K ECJ0EB1C103K ECST0GX107R ECJ0EB1C103K

T T T T T T T T T B B

C18 C19 C20 C21 C22 C23 C24 C25 C26 C27 C28

4030016790 4030016790 4030017400 4030017400 4030016790 4030017490 4030017490 4030016790 4030016790 4550007130 4030016790

J2 J6 J7

6510024170 S.CONNECTOR CSS5005-0401GSZ 6910006590 CONNECTOR IMSA-9230B-1-04Z030-T 6910006520 CONNECTOR IMSA-9230B-1-06Z030-T

T T T

S1 S2 S3

2230001070 S.SWITCH 2230001070 S.SWITCH 2230001070 S.SWITCH

JPM1990-2711R JPM1990-2711R JPM1990-2711R

T T T

EP1 EP2 EP3 EP4

6910012350 0910058204 6910012350 6910012350

MMZ1608Y 102BT B 6084D MMZ1608Y 102BT MMZ1608Y 102BT

T

DESCRIPTION

M. B B

B B B B B B B B B B B B

T B T B B B B B B B B B B B B B B B B B B B B B B

S.BEAD PCB S.BEAD S.BEAD

T T

[LOGIC UNIT] REF NO. IC1 IC2 IC3

ORDER NO. 1130011140 S.IC 1130011980 S.IC 1140012110 S.IC

IC4 IC5 IC6 IC7 IC8 IC9 IC11 IC12 IC13 IC14 IC15

1130007110 1190000710 1130011870 1130011860 1180002370 1180002370 1130007110 1110006380 1110006380 1130006550 1130006550

S.IC S.IC S.IC S.IC S.REG S.REG S.IC S.IC S.IC S.IC S.IC

CAT24WC256K1.8 BD5228G-TR M30620MCP-130GP (RX-2699C USA) [USA] M30620MCP-129GP (RX-2699B J/E) except [USA] TC7W04FU (TE12L) TA31056F (EL) SN74AHC1GU04DBVR SM6451BT-G-E2 R1111N321B-TR R1111N321B-TR TC7W04FU (TE12L) LM2904PWR LM2904PWR TC7S08FU (TE85R) TC7S08FU (TE85R)

Q1 Q3 Q4 Q5 Q6 Q7 Q8 Q9 Q10 Q11 Q12 Q13 Q14 Q15 Q16 Q17 Q19 Q20 Q21 Q22 Q23 Q24 Q25 Q26 Q27

1530003630 1510000770 1530003630 1530003630 1530002690 1590001170 1510000670 1520000460 1510000580 1590003230 1530003630 1590001190 1510000670 1510000580 1530003630 1510000670 1590001390 1590003250 1590003250 1530003630 1530003630 1590001190 1590001190 1590001390 1590001390

S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.FET S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.FET S.FET

2SC4617 TLS 2SA1586-GR (TE85R) 2SC4617 TLS 2SC4617 TLS 2SC4116-GR (TE85R) XP1501-(TX) .AB 2SA1588-GR (TE85R) 2SB1132 T100 R 2SA1362-GR (TE85R) UNR9113J-(TX) 2SC4617 TLS XP6501-(TX) .AB 2SA1588-GR (TE85R) 2SA1362-GR (TE85R) 2SC4617 TLS 2SA1588-GR (TE85R) 2SJ144-Y (TE85R) UNR9115J-(TX) UNR9115J-(TX) 2SC4617 TLS 2SC4617 TLS XP6501-(TX) .AB XP6501-(TX) .AB 2SJ144-Y (TE85R) 2SJ144-Y (TE85R)

1140012100 S.IC

T T T T T B T B T T T T T T B T T

T T T T T B B T T B B B B B B T T

B

S.=Surface mount

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6-5

[LOGIC UNIT] REF NO.

[LOGIC UNIT]

ORDER NO.

DESCRIPTION S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.FET S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR

Q28 Q29 Q30 Q31 Q32 Q33 Q34 Q35 Q36 Q37 Q38

1530003630 1590003290 1520000650 1590002950 1530003630 1520000460 1590003390 1590003290 1530003630 1510000670 1590001650

D2

1790001240 S.DIODE

D3 D5 D6 D8 D9 D11 D12 D13 D14 D18 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 D32 D33 D34 D35 D36

1750000940 1790001240 1750000940 1790001240 1750000940 1790001240 1750000940 1750000940 1750000770 1720000600 1750000940 1750000940 1790001560 1790001560 1790001560 1790001560 1750000940 1750000940 1790001250 1790000670 1750000940 1750000940 1790001250 1730002510 1790000670 1790001240 1790000860

X1 X2

6050011310 S.XTAL 6060000820 S.CERAMIC

CR-717 (9.8304 MHz) CSBFB453KJ58-R1

B B

L1

6200003640 S.COIL

MLF1608E 100K-T

B

R1 R2 R3 R4 R5 R6 R7 R8 R9 R10 R11 R12 R13 R14 R15 R17 R18 R19 R20 R21 R22 R23 R24 R25 R26 R27 R28 R29 R30 R31

7410001110 7410001220 7410001220 7030005050 7410001220 7410001220 7030005050 7030005240 7030005240 7030005050 7030005120 7030005120 7030005310 7030005570 7030005090 7410001220 7410001220 7030005570 7030005090 7410001110 7030010040 7030005570 7030005120 7410001110 7030005120 7030005530 7030005160 7030005570 7030005120 7030005240

EXB28V332JX EXB28V103JX EXB28V103JX ERJ2GEJ 103 X EXB28V103JX EXB28V103JX ERJ2GEJ 103 X ERJ2GEJ 473 X ERJ2GEJ 473 X ERJ2GEJ 103 X ERJ2GEJ 102 X ERJ2GEJ 102 X ERJ2GEJ 124 X ERJ2GEJ 820 X ERJ2GEJ 104 X EXB28V103JX EXB28V103JX ERJ2GEJ 820 X ERJ2GEJ 104 X EXB28V332JX ERJ2GE-JPW ERJ2GEJ 820 X ERJ2GEJ 102 X EXB28V332JX ERJ2GEJ 102 X ERJ2GEJ 100 X ERJ2GEJ 105 X ERJ2GEJ 820 X ERJ2GEJ 102 X ERJ2GEJ 473 X

B B B B B B B B B B B T B T B B B T B B B T B B B B B T B B

S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.VARICAP S.VARICAP S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.ZENER S.DIODE S.DIODE S.DIODE

S.ARRAY S.ARRAY S.ARRAY S.RESISTOR S.ARRAY S.ARRAY S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.ARRAY S.ARRAY S.RESISTOR S.RESISTOR S.ARRAY S.RESISTOR S.RESISTOR S.RESISTOR S.ARRAY S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

2SC4617 TLS UNR9213J-(TX) 2SB1201-S-TL HAT1023R-EL 2SC4617 TLS 2SB1132 T100 R UNR9215J-(TX) UNR9213J-(TX) 2SC4617 TLS 2SA1588-GR (TE85R) XP4601 (TX)

M.

MA2S728-(TX) [SEA], [EXP-01], [EXP-02], [CAN] only ISS400 TE61 MA2S728-(TX) [USA] only ISS400 TE61 MA2S728-(TX) [UK], [USA] only ISS400 TE61 MA2S728-(TX) [EUR] only ISS400 TE61 ISS400 TE61 HVC376BTRF HN2V02H-B (TE12R) ISS400 TE61 ISS400 TE61 1SS372 (TE85R) 1SS372 (TE85R) 1SS372 (TE85R) 1SS372 (TE85R) ISS400 TE61 ISS400 TE61 MA2S111-(TX) SB07-03C-TB ISS400 TE61 ISS400 TE61 MA2S111-(TX) MA8027-H (TX) SB07-03C-TB MA2S728-(TX) MA133 (TX)

(10 kΩ)

(10 kΩ) (47 kΩ) (47 kΩ) (10 kΩ) (1 kΩ) (1 kΩ) (120 kΩ) (82 Ω) (100 kΩ) (82 Ω) (100 kΩ) (82 Ω) (1 kΩ) (1 kΩ) (10 Ω) (1 MΩ) (82 Ω) (1 kΩ) (47 kΩ)

B B T T T T T T T B B

B T B T B T B T B B B B B B B B B T T T T T T B B T T T

REF NO.

ORDER NO.

R32 R33 R34 R35 R36 R38 R39 R40 R41 R42 R43 R45 R47 R49 R51 R52 R53 R54 R55 R56 R57 R58 R59 R60 R61 R62 R63 R64 R66 R67 R68 R69 R70 R71 R72 R73 R74 R76 R77 R82 R83 R84 R85 R86 R87 R88 R89 R90 R91 R93 R94 R95 R96 R97 R98 R99 R100 R101 R103 R104 R105 R106 R107 R108 R110 R111 R112 R113 R114 R115 R116 R117 R118 R119 R120 R121 R122 R123 R124 R125 R126

7030005120 7030005090 7030005050 7410001130 7030005040 7030005570 7030005050 7030005050 7030008010 7410001130 7030007340 7030005530 7030007320 7030005570 7410001130 7030005090 7030005570 7030005050 7030005570 7030005040 7030010040 7030005100 7030005100 7030005100 7030005100 7030005090 7410001220 7030005000 7030005120 7030005120 7030005120 7030005050 7030010040 7030010040 7030010040 7030010040 7030005240 7030005240 7410001130 7030005240 7030005240 7030005050 7030004980 7030005090 7030007350 7030005040 7030005170 7030005040 7030009290 7030005160 7030005240 7030005050 7030005160 7030005160 7030005060 7030005170 7030010040 7030009290 7030005060 7030005170 7030005290 7030010040 7030005160 7030005170 7030005080 7030010040 7030005310 7030005310 7030007320 7030008010 7030008010 7030005160 7030005530 7030008010 7030009270 7030005530 7030005050 7030009270 7030005170 7030005170 7030005170

S.RESISTOR S.RESISTOR S.RESISTOR S.ARRAY S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.ARRAY S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.ARRAY S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.ARRAY S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.ARRAY S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

DESCRIPTION

M.

ERJ2GEJ 102 X ERJ2GEJ 104 X ERJ2GEJ 103 X EXB28V102JX ERJ2GEJ 472 X ERJ2GEJ 820 X ERJ2GEJ 103 X ERJ2GEJ 103 X ERJ2GEJ 123 X EXB28V102JX ERJ2GEJ 153 X ERJ2GEJ 100 X ERJ2GEJ 225 X ERJ2GEJ 820 X EXB28V102JX ERJ2GEJ 104 X ERJ2GEJ 820 X ERJ2GEJ 103 X ERJ2GEJ 820 X ERJ2GEJ 472 X ERJ2GE-JPW ERJ2GEJ 154 X ERJ2GEJ 154 X ERJ2GEJ 154 X ERJ2GEJ 154 X ERJ2GEJ 104 X EXB28V103JX ERJ2GEJ 471 X ERJ2GEJ 102 X ERJ2GEJ 102 X ERJ2GEJ 102 X ERJ2GEJ 103 X ERJ2GE-JPW ERJ2GE-JPW ERJ2GE-JPW ERJ2GE-JPW ERJ2GEJ 473 X ERJ2GEJ 473 X EXB28V102JX ERJ2GEJ 473 X ERJ2GEJ 473 X ERJ2GEJ 103 X ERJ2GEJ 101 X ERJ2GEJ 104 X ERJ2GEJ 393 X ERJ2GEJ 472 X ERJ2GEJ 474 X ERJ2GEJ 472 X ERJ2GEJ 562 X ERJ2GEJ 105 X ERJ2GEJ 473 X ERJ2GEJ 103 X ERJ2GEJ 105 X ERJ2GEJ 105 X ERJ2GEJ 333 X ERJ2GEJ 474 X ERJ2GE-JPW ERJ2GEJ 562 X ERJ2GEJ 333 X ERJ2GEJ 474 X ERJ2GEJ 682 X ERJ2GE-JPW ERJ2GEJ 105 X ERJ2GEJ 474 X ERJ2GEJ 823 X ERJ2GE-JPW ERJ2GEJ 124 X ERJ2GEJ 124 X ERJ2GEJ 225 X ERJ2GEJ 123 X ERJ2GEJ 123 X ERJ2GEJ 105 X ERJ2GEJ 100 X ERJ2GEJ 123 X ERJ2GEJ 821 X ERJ2GEJ 100 X ERJ2GEJ 103 X ERJ2GEJ 821 X ERJ2GEJ 474 X ERJ2GEJ 474 X ERJ2GEJ 474 X

T B B B B T B B B B B B B T B B T B T B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B

(1 kΩ) (100 kΩ) (10 kΩ) (4.7 kΩ) (82 Ω) (10 kΩ) (10 kΩ) (12 kΩ) (15 kΩ) (10 Ω) (2.2 MΩ) (82 Ω) (100 kΩ) (82 Ω) (10 kΩ) (82 Ω) (4.7 kΩ) (150 (150 (150 (150 (100

kΩ) kΩ) kΩ) kΩ) kΩ)

(470 Ω) (1 kΩ) (1 kΩ) (1 kΩ) (10 kΩ)

(47 kΩ) (47 kΩ) (47 kΩ) (47 kΩ) (10 kΩ) (100 Ω) (100 kΩ) (39 kΩ) (4.7 kΩ) (470 kΩ) (4.7 kΩ) (5.6 kΩ) (1 MΩ) (47 kΩ) (10 kΩ) (1 MΩ) (1 MΩ) (33 kΩ) (470 kΩ) (5.6 kΩ) (33 kΩ) (470 kΩ) (6.8 kΩ) (1 MΩ) (470 kΩ) (82 kΩ) (120 kΩ) (120 kΩ) (2.2 MΩ) (12 kΩ) (12 kΩ) (1 MΩ) (10 Ω) (12 kΩ) (820 Ω) (10 Ω) (10 kΩ) (820 Ω) (470 kΩ) (470 kΩ) (470 kΩ)

S.=Surface mount

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6-6

[LOGIC UNIT] REF NO.

ORDER NO.

R127 R128 R129 R130 R131 R132 R133 R134 R135 R136 R137 R139 R140 R141 R142 R143 R144 R145 R146 R147 R148 R149 R150 R151 R152 R153 R154 R155 R156 R157 R158 R159 R160 R161 R162 R163 R164 R165 R166 R167 R168 R169 R170 R172 R174 R175 R176 R177 R178 R179 R180 R181 R182 R183 R184 R185 R186 R187 R188 R189 R190 R191 R192 R193 R194 R195 R196 R197 R198 R199 R200 R201 R202 R203 R204 R205 R206 R207 R208 R209 R210

7030005170 7030008300 7030008300 7030008300 7030009150 7030008300 7030009150 7030005080 7030005090 7030005080 7030005090 7030005080 7030005080 7030007340 7030007340 7030005170 7030005170 7030005090 7030005090 7030007320 7030005100 7030007350 7030005100 7030007350 7030008300 7030008300 7030007320 7030008300 7030008300 7030005080 7030007320 7030005170 7030007320 7030005170 7030005080 7030005160 7030005160 7030007350 7030007350 7030005050 7030005090 7030005090 7030007320 7030007320 7030005090 7030005090 7030006610 7030008300 7030006610 7030008300 7030005240 7030005590 7030007570 7030005120 7030005570 7030003210 7030003210 7030005120 7030007270 7030005120 7510001470 7030005090 7030008300 7030005090 7030005871 7030008051 7030000120 7030000120 7030005090 7030004990 7030005210 7030005170 7030005570 7030005570 7030005570 7030005570 7030005570 7030005090 7030005090 7030005090 7030005090

[LOGIC UNIT]

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.THERMISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

DESCRIPTION

M.

ERJ2GEJ 474 X (470 kΩ) ERJ2GEJ 184 X (180 kΩ) ERJ2GEJ 184 X (180 kΩ) ERJ2GEJ 184 X (180 kΩ) ERJ2GEJ 824 X (820 kΩ) ERJ2GEJ 184 X (180 kΩ) ERJ2GEJ 824 X (820 kΩ) ERJ2GEJ 823 X (82 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 823 X (82 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 823 X (82 kΩ) ERJ2GEJ 823 X (82 kΩ) ERJ2GEJ 153 X (15 kΩ) ERJ2GEJ 153 X (15 kΩ) ERJ2GEJ 474 X (470 kΩ) ERJ2GEJ 474 X (470 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 225 X (2.2 MΩ) ERJ2GEJ 154 X (150 kΩ) ERJ2GEJ 393 X (39 kΩ) ERJ2GEJ 154 X (150 kΩ) ERJ2GEJ 393 X (39 kΩ) ERJ2GEJ 184 X (180 kΩ) ERJ2GEJ 184 X (180 kΩ) ERJ2GEJ 225 X (2.2 MΩ) ERJ2GEJ 184 X (180 kΩ) ERJ2GEJ 184 X (180 kΩ) ERJ2GEJ 823 X (82 kΩ) ERJ2GEJ 225 X (2.2 MΩ) ERJ2GEJ 474 X (470 kΩ) ERJ2GEJ 225 X (2.2 MΩ) ERJ2GEJ 474 X (470 kΩ) ERJ2GEJ 823 X (82 kΩ) ERJ2GEJ 105 X (1 MΩ) ERJ2GEJ 105 X (1 MΩ) ERJ2GEJ 393 X (39 kΩ) ERJ2GEJ 393 X (39 kΩ) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 225 X (2.2 MΩ) ERJ2GEJ 225 X (2.2 MΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 394 X (390 kΩ) ERJ2GEJ 184 X (180 kΩ) ERJ2GEJ 394 X (390 kΩ) ERJ2GEJ 184 X (180 kΩ) ERJ2GEJ 473 X (47 kΩ) ERJ2GEJ 680 X (68 Ω) ERJ2GEJ 122 X (1.2 kΩ) ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 820 X (82 Ω) ERJ3GEYJ 120 V (12 Ω) ERJ3GEYJ 120 V (12 Ω) ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 151 X (150 Ω) ERJ2GEJ 102 X (1 kΩ) NTCG20 4AG 473JT ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 184 X (180 kΩ) ERJ2GEJ 104 X (100 kΩ) ERA3YKD 104V (100 kΩ) ERA3YKD 184V (180 kΩ) MCR10EZHJ 6.8 Ω (6R8) MCR10EZHJ 6.8 Ω (6R8) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 221 X (220 Ω) ERJ2GEJ 822 X (8.2 kΩ) ERJ2GEJ 474 X (470 kΩ) ERJ2GEJ 820 X (82 Ω) ERJ2GEJ 820 X (82 Ω) ERJ2GEJ 820 X (82 Ω) ERJ2GEJ 820 X (82 Ω) ERJ2GEJ 820 X (82 Ω) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 104 X (100 kΩ)

B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B T T T T T T T T T B B T T T T T T T T B B T B B B B B B B B

REF NO.

ORDER NO.

R211 R212 R213 R214 R215 R216 R217

7030005000 7030005000 7030010040 7030010040 7030010040 7030010040 7030005090

C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C16 C18 C19 C20 C21 C22 C23 C24 C26 C27 C28 C29 C30 C31 C33 C34 C35 C36 C37 C38 C39 C40 C41 C42 C43 C44 C45 C46 C47 C48 C49 C50 C51 C52 C53 C54 C55 C56 C57 C58 C59 C60 C61 C62 C63 C64 C65 C66 C67 C68 C69 C70 C71 C72 C73 C74 C75 C76

4030016930 4030017460 4030017460 4030017460 4030017460 4030017460 4030016790 4030017460 4030017460 4030017460 4030017460 4030017460 4030016930 4030017460 4030017460 4030017420 4030017420 4030017420 4030017420 4030017640 4030016930 4030017460 4030017460 4030016790 4030017730 4030016930 4030018870 4550006140 4030017460 4550006550 4030018870 4030017680 4030017420 4550006340 4030016930 4510007970 4030016930 4030017430 4550006320 4550006320 4030016930 4030017490 4030016930 4030017460 4030016930 4030016930 4030017460 4030017460 4030016790 4030016930 4030017460 4030016790 4030017490 4030016930 4030017460 4030016930 4030017460 4550006320 4030017460 4030017460 4030016790 4030017490 4030017490 4030017460 4030017460 4550006700 4030017490 4030017490 4030016790 4030017730 4030017490 4030017490

DESCRIPTION

M.

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

ERJ2GEJ 471 X (470 Ω) ERJ2GEJ 471 X (470 Ω) ERJ2GE-JPW ERJ2GE-JPW ERJ2GE-JPW ERJ2GE-JPW ERJ2GEJ 104 X (100 kΩ)

B B B B B B B

S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.ELECTROLYTIC S.CERAMIC S.CERAMIC S.TANTALUM S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC

ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H470J ECJ0EC1H470J ECJ0EC1H470J ECJ0EC1H470J ECJ0EC1H150J ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1C103K ECJ0EB1E471K ECJ0EB1A104K ECJ0EF0J105Z ECST1EY474R ECJ0EB1E102K TEESVD 0G 227M12R ECJ0EF0J105Z ECJ0EC1H820J ECJ0EC1H470J ECST1AY335R ECJ0EB1A104K ECEV1AA330WR ECJ0EB1A104K ECJ0EC1H101J ECST0JY475R ECST0JY475R ECJ0EB1A104K C1608 JB 1A 105K-T ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1C103K ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1C103K C1608 JB 1A 105K-T ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1E102K ECST0JY475R ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1C103K C1608 JB 1A 105K-T C1608 JB 1A 105K-T ECJ0EB1E102K ECJ0EB1E102K ECST1AY106R C1608 JB 1A 105K-T C1608 JB 1A 105K-T ECJ0EB1C103K ECJ0EB1E471K C1608 JB 1A 105K-T C1608 JB 1A 105K-T

B B B B B B B B B B B B B B B T T T T B B B B B B T B B T B B T B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B

S.=Surface mount

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6-7

[LOGIC UNIT] REF NO.

ORDER NO.

C77 C78 C79 C80 C81 C82 C83 C84 C85 C86 C87 C88 C89 C90 C91 C92 C93 C94 C95 C96 C97 C98 C99 C100 C101 C102 C103 C104 C105 C106 C107 C108 C109 C110 C111 C112 C113 C114 C115 C116 C117 C118 C119 C120 C122 C123 C124 C125 C126 C127 C128 C131 C132 C133 C134 C135 C136 C137 C138 C139 C140 C141 C142 C143 C144 C145 C146 C147 C148 C149 C150 C151 C152 C153 C154 C155 C156 C157 C158 C159 C160

4030017460 4030017490 4030017490 4550006700 4030017490 4550006620 4550006620 4030017780 4030016930 4030016930 4030017460 4030017460 4030017460 4550006540 4030017460 4030017760 4030017460 4030017760 4030016930 4030016930 4030016930 4550006540 4030016970 4030016970 4030016930 4030016930 4030016930 4030016930 4550006540 4510008040 4550006210 4030016930 4030016930 4030016930 4030016930 4030016930 4030016930 4030017460 4030016930 4030016930 4030017490 4030017490 4030016930 4030016930 4030016930 4030016930 4030016930 4030016930 4030017490 4030017730 4030017730 4030017490 4030017490 4030017740 4030017740 4030017490 4030017450 4030017450 4030017490 4030017460 4030017430 4030017460 4030017430 4030017490 4030017490 4030016780 4030016780 4030018100 4030018100 4030017490 4030017460 4030017460 4030008680 4030016930 4030016930 4030017730 4030016930 4030017730 4030016930 4550006540 4030017720

[LOGIC UNIT]

S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.TANTALUM S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.ELECTROLYTIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC

DESCRIPTION

M.

ECJ0EB1E102K C1608 JB 1A 105K-T C1608 JB 1A 105K-T ECST1AY106R C1608 JB 1A 105K-T ECST0JY226R ECST0JY226R ECJ0EB1E472K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECST1CY475R ECJ0EB1E102K ECJ0EB1H222K ECJ0EB1E102K ECJ0EB1H222K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECST1CY475R ECJ0EB1C223K ECJ0EB1C223K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECST1CY475R EEFCD 0K 330R ECST1CX106R ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1A104K C1608 JB 1A 105K-T C1608 JB 1A 105K-T ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K C1608 JB 1A 105K-T ECJ0EB1E471K ECJ0EB1E471K C1608 JB 1A 105K-T C1608 JB 1A 105K-T ECJ0EB1E821K ECJ0EB1E821K C1608 JB 1A 105K-T ECJ0EB1E271K ECJ0EB1E271K C1608 JB 1A 105K-T ECJ0EB1E102K ECJ0EC1H101J ECJ0EB1E102K ECJ0EC1H101J C1608 JB 1A 105K-T C1608 JB 1A 105K-T ECJ0EB1C153K ECJ0EB1C153K ECJ0EB1H681K ECJ0EB1H681K C1608 JB 1A 105K-T ECJ0EB1E102K ECJ0EB1E102K C2012 JF 1C 105Z-T ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1E471K ECJ0EB1A104K ECJ0EB1E471K ECJ0EB1A104K ECST1CY475R ECJ0EB1H331K

B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B

REF NO.

ORDER NO.

C161 C162 C163 C164 C165 C166 C167 C168 C169 C170 C171 C172 C173 C174 C175 C176 C177 C178 C179 C180 C181 C182 C183 C184 C185 C186 C187 C188 C189 C190 C191 C192 C193 C194 C196

4030017720 4030011600 4030017720 4030017720 4030017760 4030018080 4030017760 4030018080 4030016790 4030016930 4030016790 4030016930 4030017460 4030016930 4030016930 4030016930 4030017460 4030017460 4030017460 4030017460 4030017460 4030017460 4030017780 4030017490 4030017460 4030017460 4030017460 4030017460 4030017460 4030016930 4030016930 4030016930 4030016930 4030017490 4030016930

J3 J5 J6 J8 J9

DESCRIPTION

M.

S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC

ECJ0EB1H331K C1608 JB 1E 104K-T ECJ0EB1H331K ECJ0EB1H331K ECJ0EB1H222K ECJ0EB1H182K ECJ0EB1H222K ECJ0EB1H182K ECJ0EB1C103K ECJ0EB1A104K ECJ0EB1C103K ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E472K C1608 JB 1A 105K-T ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K C1608 JB 1A 105K-T ECJ0EB1A104K

B B B B B B B B B B B B T B T T T T B T B T T B T B B B B B B B B B T

6450002250 6510022150 6450002130 6510021900 6510024220

CONNECTOR S.CONNECTOR CONNECTOR S.CONNECTOR S.CONNECTOR

HSJ1456-010320 AXN340C130P 04-730A2-02BKA BM02B-ASRS-TF 23FLZ-RSM1-TB

B B B T B

DS1 DS2 DS3 DS4 DS5 DS6 DS7 DS8 DS9 DS11 DS12

5040002930 5040002930 5040002930 5040002930 5040002930 5040002930 5040002930 5040002930 5040002930 5040002990 5030002690

S.LED S.LED S.LED S.LED S.LED S.LED S.LED S.LED S.LED S.LED LCD

SML-512MW T86 SML-512MW T86 SML-512MW T86 SML-512MW T86 SML-512MW T86 SML-512MW T86 SML-512MW T86 SML-512MW T86 SML-512MW T86 SML-512UWT86 M3-0243TIY

T T T T T T T T T T T

S24 S25

2250000200 ENCODER 2250000200 ENCODER

TP90N00E20-16F-1517 TP90N00E20-16F-1517

B B

EP1 EP2 EP3 EP4 EP6 EP7 EP8 EP9 EP10 EP12 EP13 EP14

6910012350 6910012350 6910012350 6910012350 6910014680 6910013310 6910014680 6910014690 6910014690 6910015960 6910016220 0910058133

MMZ1608Y 102BT MMZ1608Y 102BT MMZ1608Y 102BT MMZ1608Y 102BT MMZ1608Y 121BT MMZ1608D121B MMZ1608Y 121BT MPZ1608S221A-T MPZ1608S221A-T CV1081 RX2699 MZA2010D121C B 6077C

T T T T B T B T T

S.BEAD S.BEAD S.BEAD S.BEAD S.BEAD S.BEAD S.BEAD S.BEAD S.BEAD E.OTHER S.BEAD PCB

B

S.=Surface mount

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6-8

[RF UNIT] REF NO.

[RF UNIT]

ORDER NO.

DESCRIPTION

M.

IC1 IC2 IC10 IC12 IC14 IC15 IC16 IC17 IC18 IC19 IC20 IC21 IC22

1110005230 1110003200 1110005230 1130011770 1110006360 1110005230 1110005230 1110003200 1110005180 1110005180 1110006360 1130011770 1130011760

S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC

µPC2757TB-E3 TA31136FN (EL) µPC2757TB-E3 CD4066BPWR M62366GP D60J µPC2757TB-E3 µPC2757TB-E3 TA31136FN (EL) µPC2746TB-E3 µPC2746TB-E3 M62366GP D60J CD4066BPWR CD4094BPWR

T T T B T T T T T T T T B

Q1 Q4 Q5 Q14 Q24 Q26 Q35 Q36 Q41 Q44 Q501 Q502 Q503 Q504 Q505 Q506 Q507 Q508 Q509 Q510 Q513 Q519 Q521 Q522 Q523 Q524 Q525 Q526 Q527 Q528 Q529 Q530 Q531 Q532 Q534 Q535 Q540 Q542 Q543 Q544 Q545 Q546 Q547 Q548 Q549 Q550 Q551 Q552 Q553 Q554 Q555 Q556

1590001190 1590001190 1530003260 1530003260 1530003810 1530003780 1530003260 1530003260 1590003230 1590001660 1590003230 1590001810 1590001810 1590001680 1530002880 1590003410 1530003810 1590001660 1590003230 1590001540 1590001650 1590003230 1530003630 1530003630 1530003630 1530003630 1590001190 1590003230 1590003230 1530003260 1590003290 1530003630 1530003630 1560000810 1590001810 1590001810 1530003260 1530003260 1590003230 1590001190 1590001190 1590001660 1590003290 1530003260 1530003260 1530003610 1590002650 1590003230 1590001810 1590001810 1530003260 1530003630

S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.FET S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR

XP6501-(TX) .AB XP6501-(TX) .AB 2SC5006-T1 2SC5006-T1 2SC5008-T1 2SC5624VH-TL 2SC5006-T1 2SC5006-T1 UNR9113J-(TX) XP4312 (TX) UNR9113J-(TX) XP1113 (TX) XP1113 (TX) XP1110 (TX) 2SC4226-T1 R24 UNR9110J-(TX) 2SC5008-T1 XP4312 (TX) UNR9113J-(TX) UMD6N TR XP4601 (TX) UNR9113J-(TX) 2SC4617 TLS 2SC4617 TLS 2SC4617 TLS 2SC4617 TLS XP6501-(TX) .AB UNR9113J-(TX) UNR9113J-(TX) 2SC5006-T1 UNR9213J-(TX) 2SC4617 TLS 2SC4617 TLS 2SK1069-4-TL XP1113 (TX) XP1113 (TX) 2SC5006-T1 2SC5006-T1 UNR9113J-(TX) XP6501-(TX) .AB XP6501-(TX) .AB XP4312 (TX) UNR9213J-(TX) 2SC5006-T1 2SC5006-T1 FH102-TL UPA805T-T1 UNR9113J-(TX) XP1113 (TX) XP1113 (TX) 2SC5006-T1 2SC4617 TLS

B B T B T T T T T B B B B B B B B B B B B B T T T T T T T T B T T T B B T T T B B B B T B B T T B B T T

D1 D2 D3 D4 D5 D11 D13 D25 D29 D32 D34 D36

1750000710 1750000710 1790001620 1750000710 1750000710 1790001620 1790001620 1790001620 1790001620 1790001620 1790001620 1790001620

S.VARICAP S.VARICAP S.DIODE S.VARICAP S.VARICAP S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE

HVC350BTRF HVC350BTRF 1SV308 (TPL3) HVC350BTRF HVC350BTRF 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3)

B B T T T T T B T T T T

REF NO.

ORDER NO.

D57 D58 D59 D60 D61 D64 D65 D66 D67 D68 D69 D70 D72 D73 D74 D75 D76 D100 D101 D106 D107 D108 D109 D110 D111 D112 D113 D114 D115 D116 D117 D119 D121 D130 D131 D132 D133 D134 D135 D136 D137 D138 D139 D141 D142 D143 D145 D146 D147 D148 D149 D150 D151 D152 D153 D154 D155 D156 D157 D158 D159 D160 D161 D162 D163 D164 D165 D166 D167 D168 D169 D170 D171 D172 D173 D174 D175 D176 D178 D179

1790001240 1790001260 1790001260 1790001260 1790001260 1790001620 1790001620 1790001620 1790001620 1720000240 1790001620 1790001620 1790001620 1790001620 1790001620 1790001620 1790001260 1720000820 1790001260 1750000940 1750000940 1750000940 1750000940 1750000940 1750000940 1750000940 1750000940 1790001240 1790001790 1790001790 1160000140 1160000140 1160000140 1790001260 1790001260 1790001260 1790001260 1750000940 1750000940 1750000940 1750000940 1790001240 1790001240 1750000710 1750000710 1790001620 1750000710 1750000710 1790001620 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1790001240 1750000710 1790001240 1750000720 1750000720 1750000720 1750000720 1750000940 1750000940

S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.VARICAP S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.VARICAP S.VARICAP S.DIODE S.VARICAP S.VARICAP S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.VARICAP S.DIODE S.VARICAP S.VARICAP S.VARICAP S.VARICAP S.DIODE S.DIODE

DESCRIPTION

M.

MA2S728-(TX) MA2S077-(TX) MA2S077-(TX) MA2S077-(TX) MA2S077-(TX) 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3) 1SV172 (TE85R) 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3) 1SV308 (TPL3) MA2S077-(TX) SVC347S/T-TL MA2S077-(TX) ISS400 TE61 ISS400 TE61 ISS400 TE61 ISS400 TE61 ISS400 TE61 ISS400 TE61 ISS400 TE61 ISS400 TE61 MA2S728-(TX) RB876W TL RB876W TL DAP222 TL DAP222 TL DAP222 TL MA2S077-(TX) MA2S077-(TX) MA2S077-(TX) MA2S077-(TX) ISS400 TE61 ISS400 TE61 ISS400 TE61 ISS400 TE61 MA2S728-(TX) MA2S728-(TX) HVC350BTRF HVC350BTRF 1SV308 (TPL3) HVC350BTRF HVC350BTRF 1SV308 (TPL3) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) MA2S728-(TX) HVC350BTRF MA2S728-(TX) HVC375BTRF HVC375BTRF HVC375BTRF HVC375BTRF ISS400 TE61 ISS400 TE61

B T T T T B B B B B B B B B B T B B T B B T T T T T T B T T B B B T T T T T T T T B B T T T B B B B B T T B T T T T T T T T B B B B T B T T B B T T T T T T T T

S.=Surface mount

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6-9

[RF UNIT] REF NO.

[RF UNIT]

ORDER NO. S.SAW CERAMIC S.MONOLITH S.SAW CERAMIC S.MONOLITH CERAMIC

DESCRIPTION

M.

EFCH266MKQP1 CFWLB450KE2A-B0 (CFWM450E) FL-293 (19.650 MHz) EFCH429MKQP1 CFWLA450KL6A002-B0 (CFWS450K3) FL-293 (19.650 MHz) CFWLB450KE2A-B0 (CFWM450E)

T B T T B T B

FI1 FI2 FI3 FI4 FI6 FI7 FI8

2040001200 2020001270 2010002280 2040001190 2020001470 2010002280 2020001270

X1

6050010210 S.XTAL

CR-593 (19.200 MHz)

T

L1 L3 L4 L5 L9 L10 L11 L12 L13 L15 L17 L21 L28 L39 L41 L43 L44 L56 L60 L61 L70 L73 L74 L81 L82 L83 L84 L85 L86 L87 L88 L89 L90 L91 L92 L93 L94 L95 L99 L101 L102 L104 L105 L106 L112 L113 L119 L120 L121 L122 L123 L124 L125 L126 L127 L128 L129 L130 L131 L132 L133 L134

6200005740 6200005680 6200005700 6200005680 6200005720 6200005700 6200005680 6200005660 6200005630 6200005740 6200007170 6150004840 6200006670 6200005730 6200006980 6200006770 6200005620 6200005640 6200008570 6200008570 6200004720 6200006960 6200005740 6200004940 6200005140 6200004790 6200003630 6200006970 6200003630 6200003960 6200006710 6200003640 6200002040 6200006970 6200005180 6200005700 6200005720 6200005680 6200005500 6200005640 6200006960 6200007170 6150004840 6200005500 6200008570 6200008570 6200006670 6200005740 6200009100 6200007740 6200009290 6200010910 6200009290 6200009070 6200009070 6200006980 6200005610 6200005610 6200005610 6200005610 6200006990 6200003550

S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL

ELJRE 47NG-F ELJRE 15NG-F ELJRE 22NG-F ELJRE 15NG-F ELJRE 33NG-F ELJRE 22NG-F ELJRE 15NG-F ELJRE 10NG-F ELJRE 5N6Z-F ELJRE 47NG-F MLF1608A 3R3K-T LS-510 ELJRE 68NG-F ELJRE 39NG-F ELJRE R10G-F ELJRE 1N5Z-F ELJRE 4N7Z-F ELJRE 6N8Z-F LQW2BHN6N8D01L (LQN21A 6N8D04) LQW2BHN6N8D01L (LQN21A 6N8D04) MLF1608D R10K-T MLF1608A 2R7K-T ELJRE 47NG-F MLF1608D R27K-T MLF1608D R33K-T MLF1608D R47K-T MLF1608D R68K-T MLF1608A 3R9K-T MLF1608D R68K-T MLF1608A 1R0K-T MLF1608E 5R6K 5.6U MLF1608E 100K-T NL 252018T-101J MLF1608A 3R9K-T MLF1608D R39K-T ELJRE 22NG-F ELJRE 33NG-F ELJRE 15NG-F NL 322522T-471J ELJRE 6N8Z-F MLF1608A 2R7K-T MLF1608A 3R3K-T LS-510 NL 322522T-471J LQW2BHN6N8D01L (LQN21A 6N8D04) LQW2BHN6N8D01L (LQN21A 6N8D04) ELJRE 68NG-F ELJRE 47NG-F ELJRE R18G-F LQW2BHN47NJ01L (LQN21A 47NJ04) LQW18AN47NG00D (LQW1608A47NG00) LQW18AN56NG00D LQW18AN47NG00D (LQW1608A47NG00) LQW18AN18NG00D (LQW1608A18NG00) LQW18AN18NG00D (LQW1608A18NG00) ELJRE R10G-F ELJRE 3N9Z-F ELJRE 3N9Z-F ELJRE 3N9Z-F ELJRE 3N9Z-F ELJRE 56NG-F MLF1608A 4R7K-T

B T T T T T T T T T T B B T T T T T T T B T T B B B B B B B B B B B T T T T T T T T B T T T B B B T T T T T T B T T T T T T

R4 R6 R8 R9 R10

7030007280 7030005710 7030007340 7030005310 7030005240

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ

331 121 153 124 473

X X X X X

(330 Ω) (120 Ω) (15 kΩ) (120 kΩ) (47 kΩ)

T T B B B

REF NO.

ORDER NO.

R11 R13 R14 R15 R16 R18 R19 R20 R26 R28 R29 R30 R31 R34 R35 R36 R46 R49 R50 R54 R55 R56 R57 R58 R59 R60 R61 R62 R68 R78 R81 R88 R91 R93 R95 R98 R99 R100 R101 R102 R103 R105 R106 R108 R110 R112 R116 R159 R172 R174 R177 R179 R203 R204 R205 R207 R208 R209 R216 R220 R221 R222 R223 R224 R225 R226 R228 R229 R230 R231 R232 R233 R234 R235 R236 R237 R238 R239 R240 R241 R243

7030005240 7030007340 7030005070 7030005240 7030005240 7030007340 7030005240 7030007280 7030005240 7030005160 7030005170 7030007300 7030005120 7030005120 7030007340 7030005110 7030005040 7030005050 7030005050 7030005220 7030007290 7030005000 7030007340 7030005010 7030005030 7030005090 7030005240 7030009160 7030005240 7030007280 7030007290 7030007280 7030007290 7030005710 7030007290 7030007290 7030005120 7030008010 7030005240 7030007290 7030005050 7030005590 7030005240 7030007290 7030008010 7030007290 7030005100 7030005120 7030005050 7030005040 7030005090 7030005100 7030004980 7030005120 7030005050 7030005050 7030005050 7030005010 7030007290 7030005300 7030007280 7030007290 7030007290 7030007300 7030005120 7030007290 7030004980 7030005240 7030005050 7030005040 7030007300 7030009270 7030009270 7030005120 7030005050 7030009140 7030005090 7030007290 7030005120 7030007290 7030005090

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6 - 10

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

DESCRIPTION

M.

ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ

B T T T T T T T B B B B B T T T T T T T T T T T T T T T T B B T T T T T T T T T T T T T T T B T T T B B T T T T T T B T T B B B B B B B B T B B B B B B B T B B B

473 153 683 473 473 153 473 331 473 105 474 332 102 102 153 224 472 103 103 223 222 471 153 681 152 104 473 181 473 331 222 331 222 121 222 222 102 123 473 222 103 680 473 222 123 222 154 102 103 472 104 154 101 102 103 103 103 681 222 150 331 222 222 332 102 222 101 473 103 472 332 821 821 102 103 272 104 222 102 222 104

X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

(47 kΩ) (15 kΩ) (68 kΩ) (47 kΩ) (47 kΩ) (15 kΩ) (47 kΩ) (330 Ω) (47 kΩ) (1 MΩ) (470 kΩ) (3.3 kΩ) (1 kΩ) (1 kΩ) (15 kΩ) (220 kΩ) (4.7 kΩ) (10 kΩ) (10 kΩ) (22 kΩ) (2.2 kΩ) (470 Ω) (15 kΩ) (680 Ω) (1.5 kΩ) (100 kΩ) (47 kΩ) (180 Ω) (47 kΩ) (330 Ω) (2.2 kΩ) (330 Ω) (2.2 kΩ) (120 Ω) (2.2 kΩ) (2.2 kΩ) (1 kΩ) (12 kΩ) (47 kΩ) (2.2 kΩ) (10 kΩ) (68 Ω) (47 kΩ) (2.2 kΩ) (12 kΩ) (2.2 kΩ) (150 kΩ) (1 kΩ) (10 kΩ) (4.7 kΩ) (100 kΩ) (150 kΩ) (100 Ω) (1 kΩ) (10 kΩ) (10 kΩ) (10 kΩ) (680 Ω) (2.2 kΩ) (15 Ω) (330 Ω) (2.2 kΩ) (2.2 kΩ) (3.3 kΩ) (1 kΩ) (2.2 kΩ) (100 Ω) (47 kΩ) (10 kΩ) (4.7 kΩ) (3.3 kΩ) (820 Ω) (820 Ω) (1 kΩ) (10 kΩ) (2.7 kΩ) (100 kΩ) (2.2 kΩ) (1 kΩ) (2.2 kΩ) (100 kΩ)

S.=Surface mount

[RF UNIT] REF NO.

ORDER NO.

R245 R246 R247 R323 R324 R325 R326 R327 R329 R330 R335 R346 R347 R352 R353 R354 R355 R356 R357 R358 R359 R360 R361 R362 R363 R364 R365 R366 R367 R368 R369 R370 R372 R373 R374 R375 R376 R377 R378 R379 R380 R381 R382 R383 R384 R385 R386 R387 R388 R389 R390 R391 R392 R393 R394 R396 R397 R398 R414 R415 R423 R425 R426 R427 R428 R429 R430 R431 R432 R433 R434 R435 R436 R437 R438 R439 R440 R441 R442 R443 R444

7030005220 7030005110 7030011150 7030004990 7030004980 7030005570 7030005570 7030004980 7030005090 7030007340 7030005090 7030005050 7030005050 7030005090 7030005240 7030005600 7030005030 7030008280 7030005230 7030005030 7030005110 7030007290 7030005100 7030005100 7030005040 7030005720 7030005220 7030005090 7030005110 7030007340 7030007280 7030005050 7030005090 7030008410 7030005050 7030005050 7030005220 7030005040 7030005090 7030007310 7030009140 7030007280 7030005030 7030005030 7030005240 7030005090 7030007290 7030007290 7030007290 7030007290 7030005600 7030005050 7030005240 7030005220 7030005600 7030005220 7030005090 7030005090 7030008010 7030007310 7030005300 7030005120 7030005010 7030004980 7030005050 7030005050 7030005050 7030005110 7030007340 7030005120 7030009160 7030005240 7030007290 7030005220 7030005090 7030005030 7030005240 7030005010 7030007340 7030005000 7030005120

[RF UNIT]

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

DESCRIPTION

M.

REF NO.

ORDER NO.

ERJ2GEJ 223 X (22 kΩ) ERJ2GEJ 224 X (220 kΩ) ERJ2GEJ 2R7 X (2.7 Ω) ERJ2GEJ 221 X (220 Ω) ERJ2GEJ 101 X (100 Ω) ERJ2GEJ 820 X (82 Ω) ERJ2GEJ 820 X (82 Ω) ERJ2GEJ 101 X (100 Ω) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 153 X (15 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 473 X (47 kΩ) ERJ2GEJ 273 X (27 kΩ) ERJ2GEJ 152 X (1.5 kΩ) ERJ2GEJ 271 X (270 Ω) ERJ2GEJ 334 X (330 kΩ) ERJ2GEJ 152 X (1.5 kΩ) ERJ2GEJ 224 X (220 kΩ) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 154 X (150 kΩ) ERJ2GEJ 154 X (150 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 563 X (56 kΩ) ERJ2GEJ 223 X (22 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 224 X (220 kΩ) ERJ2GEJ 153 X (15 kΩ) ERJ2GEJ 331 X (330 Ω) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 392 X (3.9 kΩ) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 223 X (22 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 155 X (1.5 MΩ) ERJ2GEJ 272 X (2.7 kΩ) ERJ2GEJ 331 X (330 Ω) ERJ2GEJ 152 X (1.5 kΩ) ERJ2GEJ 152 X (1.5 kΩ) ERJ2GEJ 473 X (47 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 273 X (27 kΩ) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 473 X (47 kΩ) ERJ2GEJ 223 X (22 kΩ) ERJ2GEJ 273 X (27 kΩ) ERJ2GEJ 223 X (22 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 123 X (12 kΩ) ERJ2GEJ 155 X (1.5 MΩ) ERJ2GEJ 150 X (15 Ω) ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 681 X (680 Ω) ERJ2GEJ 101 X (100 Ω) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 224 X (220 kΩ) ERJ2GEJ 153 X (15 kΩ) ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 181 X (180 Ω) ERJ2GEJ 473 X (47 kΩ) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 223 X (22 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 152 X (1.5 kΩ) ERJ2GEJ 473 X (47 kΩ) ERJ2GEJ 681 X (680 Ω) ERJ2GEJ 153 X (15 kΩ) ERJ2GEJ 471 X (470 Ω) ERJ2GEJ 102 X (1 kΩ)

B B B T T T T B B B T T T T T T T T T T T T T T T T T T T T T T T B B B B B B T T T T T T T T T T T T T T T T T B B T T T T T T T T T T T T T T T T T T T T T T T

R445 R446 R447 R448 R449 R450 R451 R452 R453 R454 R455 R457 R458 R459 R461 R462 R463 R464 R465 R466 R467 R469 R471 R472 R473 R474 R475 R476 R478 R479 R481 R482 R483 R484 R485 R486 R487 R488 R489 R490 R491 R492 R493 R494 R495 R496 R497 R498 R499 R500 R501 R503 R505 R510 R511 R512 R513 R514 R515 R516 R517 R518 R519 R520 R521 R522 R523 R524 R525 R526 R527 R528 R529 R530 R531 R532 R533 R534 R536 R537 R538

7030005050 7030005050 7030004990 7030007290 7030007290 7030005050 7030007300 7030005100 7030005100 7030005090 7030005120 7030005240 7030005160 7030005170 7030005050 7030008410 7030005050 7030005050 7030005220 7030005040 7030005090 7030005070 7030007340 7030007280 7030005240 7030005240 7030007290 7030005310 7030007280 7030007340 7030005240 7030007290 7030005240 7030005220 7030005040 7030004980 7030004980 7030007280 7030005220 7030005040 7030007280 7030007270 7030007270 7030005040 7030005040 7030005040 7030004990 7030004980 7030005570 7030005570 7030005040 7030007310 7030008010 7030007290 7030007290 7030008410 7030005110 7030007290 7030005090 7030005090 7030005120 7030005120 7030005040 7030004970 7030004970 7030005090 7030005090 7030005090 7030005530 7030005530 7030005530 7030007290 7030005000 7030005040 7030005090 7030005530 7030005530 7030011150 7030003290 7030003290 7030010040

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6 - 11

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

DESCRIPTION

M.

ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 221 X (220 Ω) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 332 X (3.3 kΩ) ERJ2GEJ 154 X (150 kΩ) ERJ2GEJ 154 X (150 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 473 X (47 kΩ) ERJ2GEJ 105 X (1 MΩ) ERJ2GEJ 474 X (470 kΩ) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 392 X (3.9 kΩ) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 103 X (10 kΩ) ERJ2GEJ 223 X (22 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 683 X (68 kΩ) ERJ2GEJ 153 X (15 kΩ) ERJ2GEJ 331 X (330 Ω) ERJ2GEJ 473 X (47 kΩ) ERJ2GEJ 473 X (47 kΩ) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 124 X (120 kΩ) ERJ2GEJ 331 X (330 Ω) ERJ2GEJ 153 X (15 kΩ) ERJ2GEJ 473 X (47 kΩ) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 473 X (47 kΩ) ERJ2GEJ 223 X (22 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 101 X (100 Ω) ERJ2GEJ 101 X (100 Ω) ERJ2GEJ 331 X (330 Ω) ERJ2GEJ 223 X (22 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 331 X (330 Ω) ERJ2GEJ 151 X (150 Ω) ERJ2GEJ 151 X (150 Ω) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 221 X (220 Ω) ERJ2GEJ 101 X (100 Ω) ERJ2GEJ 820 X (82 Ω) ERJ2GEJ 820 X (82 Ω) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 155 X (1.5 MΩ) ERJ2GEJ 123 X (12 kΩ) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 392 X (3.9 kΩ) ERJ2GEJ 224 X (220 kΩ) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 102 X (1 kΩ) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 470 X (47 Ω) ERJ2GEJ 470 X (47 Ω) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 100 X (10 Ω) ERJ2GEJ 100 X (10 Ω) ERJ2GEJ 100 X (10 Ω) ERJ2GEJ 222 X (2.2 kΩ) ERJ2GEJ 471 X (470 Ω) ERJ2GEJ 472 X (4.7 kΩ) ERJ2GEJ 104 X (100 kΩ) ERJ2GEJ 100 X (10 Ω) ERJ2GEJ 100 X (10 Ω) ERJ2GEJ 2R7 X (2.7 Ω) ERJ3GEYJ 560 V (56 Ω) ERJ3GEYJ 560 V (56 Ω) ERJ2GE-JPW

T B T T T T B B B B B B B B T B B B B B T T T T T T T B B B B B B B B B B B T T T T T T T T T T T T T T T B B T T T T T T T T T T T T T B B B T T T B B B B T T B

S.=Surface mount

[RF UNIT]

[RF UNIT]

REF NO.

ORDER NO.

R539 R540 R541 R542

7030005300 7030005300 7030007270 7030007340

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

ERJ2GEJ ERJ2GEJ ERJ2GEJ ERJ2GEJ

C5 C12 C13 C14 C15 C16 C18 C22 C23 C27 C28 C30 C32 C40 C41 C42 C43 C44 C45 C46 C47 C48 C49 C50 C51 C52 C54 C55 C58 C59 C60 C61 C62 C63 C64 C65 C66 C69 C70 C71 C73 C74 C75 C92 C93 C94 C95 C96 C97 C98 C99 C100 C101 C102 C103 C121 C134 C136 C138 C141 C142 C145 C147 C148 C150 C153 C200 C201 C202 C203 C206 C214 C218 C221 C233

4030017730 4030017420 4030017650 4030017460 4030017340 4030017460 4030016790 4030017590 4030017380 4030017460 4030017460 4030017460 4030017460 4030017640 4030017380 4030017370 4030017430 4030016790 4030017730 4030017360 4030017580 4030017580 4030017360 4030017340 4030017560 4030017730 4030017460 4030017460 4030017460 4030017350 4030016790 4030017460 4550006200 4030017700 4030017640 4030016790 4030016790 4030017460 4030017460 4030017360 4030017460 4030017460 4030017460 4030016790 4030017460 4030017460 4030017460 4030016790 4030016790 4030017730 4030017730 4030016930 4030017620 4030017460 4030016790 4030017460 4030017460 4030017590 4030017730 4030016790 4030017460 4030017460 4030017560 4030017730 4030017460 4030016930 4030016790 4030016930 4030016930 4030016930 4030017370 4030017460 4030017340 4030016790 4030017460

S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC

ECJ0EB1E471K ECJ0EC1H470J ECJ0EC1H270J ECJ0EB1E102K ECJ0EC1H010B ECJ0EB1E102K ECJ0EB1C103K ECJ0EC1H070C ECJ0EC1H050B ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H150J ECJ0EC1H050B ECJ0EC1H3R5B ECJ0EC1H101J ECJ0EB1C103K ECJ0EB1E471K ECJ0EC1H030B ECJ0EC1H060C ECJ0EC1H060C ECJ0EC1H030B ECJ0EC1H010B ECJ0EC1H2R5B ECJ0EB1E471K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H020B ECJ0EB1C103K ECJ0EB1E102K ECST0JY106R ECJ0EC1H151J ECJ0EC1H150J ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H030B ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1E471K ECJ0EB1E471K ECJ0EB1A104K ECJ0EC1H100C ECJ0EB1E102K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H070C ECJ0EB1E471K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H2R5B ECJ0EB1E471K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1C103K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EC1H3R5B ECJ0EB1E102K ECJ0EC1H010B ECJ0EB1C103K ECJ0EB1E102K

DESCRIPTION 150 150 151 153

X X X X

(15 Ω) (15 Ω) (150 Ω) (15 kΩ)

REF NO.

ORDER NO.

C239 C241 C242 C259 C264 C402 C408 C410 C414 C416 C424 C427 C430 C431 C432 C433 C434 C435 C436 C503 C504 C505 C511 C512 C513 C514 C515 C516 C517 C518 C519 C520 C521 C522 C523 C524 C525 C526 C527 C528 C529 C530 C531 C532 C533 C534 C535 C536 C537 C538 C539 C540 C541 C542 C543 C544 C545 C546 C548 C558 C560 C561 C562 C563 C566 C567 C568 C569 C570 C571 C657 C658 C659 C662 C663 C664 C665 C666 C667 C669 C673

4030016790 4030011810 4030011810 4030017430 4030017460 4030017460 4030017460 4030017460 4030017460 4030017650 4030016790 4030017400 4030016790 4030016790 4030017460 4030017460 4030016930 4030017460 4030017360 4030017460 4030017460 4030017460 4030018010 4030017620 4030017430 4030017710 4030017690 4030017440 4030017430 4030017440 4030017780 4030018080 4030016930 4030017910 4030017910 4030016790 4030017780 4030017900 4030017420 4030017620 4030017700 4030017450 4030017430 4030016930 4030017910 4030017430 4030017750 4030016930 4030016930 4030016930 4030016930 4030016930 4030016930 4030016930 4030017460 4030017460 4030016790 4030016930 4030017460 4030017460 4030017460 4030017460 4030017460 4030017460 4030016790 4030016930 4030017420 4030016930 4030017460 4030017460 4030017700 4030018140 4550006200 4030016930 4030016930 4030016930 4030017430 4030018140 4030016790 4030017460 4030017460

M. B B T T

T B B B B B T T T T T T T T T T T T T T T T T T T T T T T T B B B B B B B B T T T B T T T T T T T T T T T T T B T T T T T T T T T T B T T B T T T T B

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6 - 12

S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC

DESCRIPTION

M.

ECJ0EB1C103K C1608 JB 1A 224K-T C1608 JB 1A 224K-T ECJ0EC1H101J ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H270J ECJ0EB1C103K ECJ0EC1H220J ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1E102K ECJ0EC1H030B ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H360J ECJ0EC1H100C ECJ0EC1H101J ECJ0EC1H181J ECJ0EC1H121J ECJ0EC1H221J ECJ0EC1H101J ECJ0EC1H221J ECJ0EB1E472K ECJ0EB1H182K ECJ0EB1A104K ECJ0EB1H152K ECJ0EB1H152K ECJ0EB1C103K ECJ0EB1E472K ECJ0EB1C123K ECJ0EC1H470J ECJ0EC1H100C ECJ0EC1H151J ECJ0EB1E271K ECJ0EC1H101J ECJ0EB1A104K ECJ0EB1H152K ECJ0EC1H101J ECJ0EB1E122K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1C103K ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1C103K ECJ0EB1A104K ECJ0EC1H470J ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H151J ECJ0EB1H391K ECST0JY106R ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EC1H101J ECJ0EB1H391K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1E102K

T B T T T B B T T B T T T T T B B T T B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B T B B B B B T B B B B B B T T T T T B B T

S.=Surface mount

[RF UNIT] REF NO.

ORDER NO.

C674 C676 C677 C678 C679 C683 C686 C687 C688 C689 C690 C691 C692 C694 C697 C698 C699 C700 C701 C702 C703 C704 C705 C706 C707 C708 C709 C710 C711 C712 C713 C714 C715 C716 C717 C718 C719 C720 C740 C741 C744 C745 C746 C747 C748 C749 C750 C752 C753 C754 C755 C756 C757 C758 C759 C760 C761 C762 C764 C765 C766 C767 C768 C769 C770 C771 C772 C773 C774 C775 C776 C777 C778 C779 C780 C781 C782 C783 C784 C785 C786

4030017420 4030017400 4030017350 4030017460 4030017460 4030017460 4030018140 4030018140 4030016790 4030016790 4030016790 4030016790 4030016790 4030016930 4030016790 4030016790 4030017440 4030016790 4030016790 4030016930 4030017480 4030016790 4030016930 4030017460 4030017460 4030011810 4030016930 4030017460 4030016930 4030016930 4030016930 4030016790 4030016790 4030017730 4030016930 4030016790 4030017460 4030016790 4030016790 4030016790 4030016790 4030017730 4030017370 4030017460 4030017460 4030017460 4030017460 4030017400 4030017400 4030017460 4030017730 4030016930 4030016930 4030016790 4030017460 4030017460 4030017460 4030017430 4030017460 4030017620 4030016790 4030011810 4030017730 4030017730 4030016790 4030016790 4030017460 4030016930 4030016790 4550006200 4030011810 4030016790 4030016790 4030016790 4030016930 4030017440 4030017440 4030016930 4030016790 4030017640 4030017700

[RF UNIT]

S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC

DESCRIPTION

M.

REF NO.

ORDER NO.

ECJ0EC1H470J ECJ0EC1H220J ECJ0EC1H020B ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1H391K ECJ0EB1H391K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1A104K ECJ0EB1C103K ECJ0EB1C103K ECJ0EC1H221J ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1A104K C1608 JB 1A 474K-T ECJ0EB1C103K ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K C1608 JB 1A 224K-T ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1E471K ECJ0EB1A104K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1E471K ECJ0EC1H3R5B ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H220J ECJ0EC1H220J ECJ0EB1E102K ECJ0EB1E471K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H101J ECJ0EB1E102K ECJ0EC1H100C ECJ0EB1C103K C1608 JB 1A 224K-T ECJ0EB1E471K ECJ0EB1E471K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1C103K ECST0JY106R C1608 JB 1A 224K-T ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1A104K ECJ0EC1H221J ECJ0EC1H221J ECJ0EB1A104K ECJ0EB1C103K ECJ0EC1H150J ECJ0EC1H151J

B T T T T T T T T T T T T T T T T T T T T T T T B B B B T T T T T T T T T T T T T T T T T T T T T T T T T T T T T T T T T B T T T T T T T B B T T B B T T T T B B

C788 C789 C790 C791 C792 C793 C794 C795 C796 C797 C807 C808 C809 C811 C812 C814 C815 C816 C817 C827 C828 C832 C833 C834 C835 C836 C837 C838 C839 C840 C841 C842 C843 C844 C845 C846 C847 C848 C849 C850 C851 C852 C853 C854 C855 C856 C857 C858 C859 C860 C861 C862 C863 C864 C865 C866 C867 C868 C869 C870 C871 C872 C873 C874 C875 C876 C877 C878 C879 C880 C881 C882 C884 C885 C886 C887 C888 C889 C890 C891 C893

4030016790 4030017460 4030016790 4550006200 4030016790 4030016790 4030017460 4030016930 4030011810 4030017460 4030017460 4030017460 4030017460 4030017460 4030017460 4030017350 4030017460 4030017460 4030017590 4030017460 4030017460 4030017460 4030017340 4030017460 4030017460 4030017460 4030017430 4030017430 4030017460 4030017460 4030017390 4030017460 4030017600 4030017460 4030017600 4030017460 4030017460 4030017360 4030017430 4030017430 4030017650 4030017650 4030017640 4030017610 4030017420 4030017590 4030017430 4030017630 4030017460 4030017460 4030017460 4030017460 4030017460 4030016930 4030017460 4030017460 4030016790 4030017460 4030016790 4030016790 4030016790 4030016930 4030017440 4030017390 4030017510 4030017500 4030016790 4030016790 4030017620 4030017460 4030017460 4030017460 4030017460 4030017460 4030017460 4030017460 4030017460 4030016930 4030016930 4030016790 4030016790

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6 - 13

S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC

DESCRIPTION

M.

ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1C103K ECST0JY106R ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1A104K C1608 JB 1A 224K-T ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H020B ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H070C ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H010B ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H101J ECJ0EC1H101J ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H180J ECJ0EB1E102K ECJ0EC1H080C ECJ0EB1E102K ECJ0EC1H080C ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H030B ECJ0EC1H101J ECJ0EC1H101J ECJ0EC1H270J ECJ0EC1H270J ECJ0EC1H150J ECJ0EC1H090C ECJ0EC1H470J ECJ0EC1H070C ECJ0EC1H101J ECJ0EC1H120J ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1C103K ECJ0EB1A104K ECJ0EC1H221J ECJ0EC1H180J ECJ0EC1H680J ECJ0EC1H560J ECJ0EB1C103K ECJ0EB1C103K ECJ0EC1H100C ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1A104K ECJ0EB1A104K ECJ0EB1C103K ECJ0EB1C103K

B B B B B B B B B T T T T T T T T T T B B B B B B B B B B B B B B T T T T T T T T T T T T T T T T T T B B T T T T T T T T B T T T T T T T B B T B T T T T T T B T

S.=Surface mount

[RF UNIT] REF NO.

ORDER NO.

C894 C895 C896 C897 C898 C899 C900 C901 C902 C903 C904 C905 C906 C907 C908 C909 C910 C911 C912 C913 C914 C916 C917 C918 C919 C920 C921 C922

4030016790 4030017730 4030016790 4030017460 4030017460 4030017460 4030017460 4030017460 4030017420 4030017420 4030017420 4030017420 4030017420 4030017420 4030017420 4550007130 4550007130 4550007130 4030016930 4030017460 4030017460 4030017460 4030017460 4030017460 4030017460 4030017460 4030017460 4030017700

J1

6510022160 S.CONNECTOR AXN440C040P

W1 W2

7120000470 JUMPER 7120000470 JUMPER

ERDS2T0 ERDS2T0

EP1 EP2

0910058144 PCB 3310003010 ANTENNA

B 6078D KY-058-006-2

S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.TANTALUM S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC

DESCRIPTION

M.

ECJ0EB1C103K ECJ0EB1E471K ECJ0EB1C103K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H470J ECJ0EC1H470J ECJ0EC1H470J ECJ0EC1H470J ECJ0EC1H470J ECJ0EC1H470J ECJ0EC1H470J ECST0GX107R ECST0GX107R ECST0GX107R ECJ0EB1A104K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EB1E102K ECJ0EC1H151J

T T T B B B B T T T T T T T T B B B B T T T T B B T B T

6-2 BC-156 [TANSHI BOARD] REF NO.

ORDER NO.

DESCRIPTION

M.

D1

1710000050 DIODE

1SS53

T

R1 R2

7100000820 RESISTOR 7510000530 THERMISTOR

2SG 0.15 ERT-D2FHL 103S

T T

C1

4010007620 CERAMIC

DSXE65SJ YF 473Z

T

RL1

6330001630 RELAY

A-5W-K

T

J1

6510003570 CONNECTOR

S09B-EH-S

T

EP1 EP2

0910052472 PCB 9001602001 TUBE

B 5425B IRRAX 0.7 (d) L=10 mm

[MAIN UNIT] REF NO.

T

ORDER NO.

DESCRIPTION

M.

IC1 IC2

1110005090 S.IC 1110006250 S.IC

MM1433EVBE NJM2360AM-TE3

T T

Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8

1520000600 1590001870 1590003450 1590001870 1590001870 1590001870 1550000020 1590002310

S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.FET S.TRANSISTOR

2SB1184 TL Q DTA114EE TL UNR9214J-(TX) DTA114EE TL DTA114EE TL DTA114EE TL 2SJ377 (TE16R) DTC114EE TL

T T T T T T T T

D1 D2 D3 D4 D5 D6

1790000680 1790000680 1790001250 1790000850 1750000120 1790000680

S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE

SB20-03P-TD SB20-03P-TD MA2S111-(TX) MA132WK (TX) DWA010-TE SB20-03P-TD

T T T T T T

L1

6190001150 COIL

HK-08S050-2010

T

R2 R3 R5 R6 R9 R11 R12 R14 R15 R16 R17 R18 R19 R21 R22 R23

7030003340 7030003410 7030005321 7030005501 7030003720 7030005691 7030006601 7030003680 7030003700 7030003640 7030003420 7030003440 7030007330 7030003410 7030007911 7030003200

S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR

ERJ3GEYJ 151 V (150 Ω) ERJ3GEYJ 561 V (560 Ω) ERA3YED 103V ERA3YKD 124V (120 kΩ) ERJ3GEYJ 224 V (220 kΩ) ERA3YED 123V ERA3YED 272V ERJ3GEYJ 104 V (100 kΩ) ERJ3GEYJ 154 V (150 kΩ) ERJ3GEYJ 473 V (47 kΩ) ERJ3GEYJ 681 V (680 Ω) ERJ3GEYJ 102 V (1 kΩ) ERJ1WRSJR15U (0.15 Ω) ERJ3GEYJ 561 V (560 Ω) ERA3YKD 563V (56 kΩ) ERJ3GEYJ 100 V (10 Ω)

T T T T T T T T T T T T T T T T

C1 C2 C3 C4 C5 C6 C7 C8 C9

4030009660 4510004510 4030006850 4510004590 4030006900 4030011600 4030009660 4510006760 4030009660

S.CERAMIC ELECTROLYTIC S.CERAMIC ELECTROLYTIC S.CERAMIC S.CERAMIC S.CERAMIC ELECTROLYTIC S.CERAMIC

C1608 JF 1C 224Z-T 25 MV 470 HC C1608 JB 1H 471K-T 16 MV 470 HC C1608 JB 1H 103K-T C1608 JB 1E 104K-T C1608 JF 1C 224Z-T 20 SA 100M C1608 JF 1C 224Z-T

T T T T T T T T T

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

6 - 14

S.=Surface mount

[MAIN UNIT] REF NO.

ORDER NO.

C10 C12 C13 C14 C15 C16 C18 C19 C20 C21 C22 C23 C24 C25 C26 C27 C28 C29 C30 C31 C32 C33 C34 C35 C36

4030006860 4510004590 4030006860 4030006860 4030006860 4550000540 4030011600 4030011600 4030006860 4510004640 4030011600 4030006860 4030011600 4030006860 4030011600 4030006860 4030011600 4030006860 4030011600 4030006860 4030011600 4030006860 4030011600 4030006860 4550006540

J1

DESCRIPTION S.CERAMIC ELECTROLYTIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM S.CERAMIC S.CERAMIC S.CERAMIC S.ELECTROLYTIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.CERAMIC S.TANTALUM

M.

C1608 JB 1H 102K-T 16 MV 470 HC C1608 JB 1H 102K-T C1608 JB 1H 102K-T C1608 JB 1H 102K-T TEESVA 1V 154M8L C1608 JB 1E 104K-T C1608 JB 1E 104K-T C1608 JB 1H 102K-T ECEV1CA470SP C1608 JB 1E 104K-T C1608 JB 1H 102K-T C1608 JB 1E 104K-T C1608 JB 1H 102K-T C1608 JB 1E 104K-T C1608 JB 1H 102K-T C1608 JB 1E 104K-T C1608 JB 1H 102K-T C1608 JB 1E 104K-T C1608 JB 1H 102K-T C1608 JB 1E 104K-T C1608 JB 1H 102K-T C1608 JB 1E 104K-T C1608 JB 1H 102K-T ECST1CY475R

T T T T T T T T T T T T T T T T T T T T T T T T T

6450000410 CONNECTOR

HEC0470-01-630

T

F1 F2 F3

5210000040 FUSE 5220000020 HOLDER 5220000020 HOLDER

FGB 2A (FGB0 125V) S-N5051 S-N5051

T T T

DS1

5040002150 LED

VRPG3349S-734

T

WS1

8600036620 OTHER

EX2308 P01*J04MA

EP1

0910052462 PCB

B 5373B

M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)

S.=Surface mount

6 - 15

SECTION 7

MECHANICAL PARTS AND DISASSEMBLY [2NDDVCO BOARD]

[CHASSIS PARTS] REF. NO. ORDER NO.

DESCRIPTION

REF. NO. ORDER NO.

QTY.

J1

6510024470 Connector BNC-R168

1

W1

8900009640 Cable OPC-963

1

MP1 MP2 MP3 MP4 MP5 MP6 MP7 MP8 MP9 MP11 MP12 MP13 MP14 MP15 MP16 MP17 MP18 MP19 MP20 MP21 MP22 MP23 MP24 MP26 MP27 MP28 MP29 MP30 MP31 MP32 MP34 MP35 MP36

8210020700 8210020710 8110008140 8310061220 8930062400 8930062410 8610011940 8930062440 8930062450 8930062470 8930062500 8930062510 8930062520 8930051630 8930050560 8930050570 8930051390 8830000570 8810005700 8810009220 8810008750 8930051851 8610007510 8810008640 8810008640 8810008640 8310061230 8930062390 8930062420 8930062430 8810008640 8810005700 8930063290

1 1 1 1 1 1 2 1 1 1 1 1 3 1 1 1 1 2 1 2 4 3 2 3 4 2 1 1 1 1 1 1 3

SP 1

2510000960 speaker K036NA500-26

MP1

QTY.

DESCRIPTION

8510016230 2699 C-VCO case

1

[DOWNCONV BOARD] 2699 front panel assembly 2699 rear panel assembly 2699 battery cover 2699 lock plate 2699 jack cap 2699 USB cap Knob N320 2699 detection button 2699 button 2699 TOP PLATE 2699 A-terminal Y713 2699 B-terminal Y714 2699 C-terminal Y715 2304 sheet 2304 C1-terminal 2304 C2-terminal 2304 shaft knut (A) FX643 Screw PH No.0 M2 × 4 black Screw PH B0 M2 × 8 ZK (BT) Screw PH BT M2 × 15 ZK 891 terminal rubber (B)-1 Knob spring No.7800 [SEA], [EXP], [CAN] only Screw FH BT No.0 M2 × 4 NI-ZU Screw FH BT No.0 M2 × 4 NI-ZU Screw FH BT No.0 M2 × 4 NI-ZU 2699 window plate 2699 window sheet 2699 lens 2699 keyboard Screw FH BT No.0 M2 × 4 NI-ZU Screw FH No.0 M2 × 4 black Insulation sheet (HW)

REF. NO. ORDER NO. MP1 MP2

8510016240 2699 conv case 8930062490 2699 conv plate

REF. NO. ORDER NO.

2250000200 Encoder TP90N00E20-16F-1517 2250000200 Encoder TP90N00E20-16F-1517

1 1

DS12

5030002690 LCD M3-0243TIY

1

MP2 MP3 MP4 MP5

8930062480 8930062530 8930062540 8510016370

1 2 1 1

2699 LCD holder 2699 battery spring Sponge (HO) 2699 LOGIC shield plate Y725

REF. NO. ORDER NO. MP1 MP2

DESCRIPTION

8510016250 2699 A-REC case 8510016260 2699 B-REC case

MP1

8930063280 Double side tape (AP)

1

1 1

B0, BT: Self-tapping PH: Pan head, FH: Flat head, NI-ZU: Nickel-Zinc ZK: Black

[ACCESSORIES]

QTY. 1

QTY.

DESCRIPTION

Screw abbreviations

[RF UNIT] 3310003010 Antenna KY-058-006-2

QTY.

DESCRIPTION

S24 S25

[REC UNIT]

1

EP 2

1 1

[LOGIC UNIT]

REF. NO. ORDER NO.

REF. NO. ORDER NO.

QTY.

DESCRIPTION

DESCRIPTION

QTY.

Antenna FA-B04RE Battery BP-206 ACC except [SEA] AC adapter BC-149A [USA], [EXP-01], [CAN] only AC adapter BC-149D [EUR], [FRA], [EXP-02] only

1 1 1 1

EP1 EP2 EP3

3310002670 0800005460 0800006350 0800006360

MP1 MP2 MP3

8930061480 Clip MB-98 ACC (2742 clip assembly) 8930050410 2304 spacer 8010018080 Strap belt HK-009

[1STAVCO BOARD] REF. NO. ORDER NO. MP1

DESCRIPTION

8510016210 2699 A-VCO case Y723

EP1

QTY.

MP1

MP2

1

MP4

[1STBVCO BOARD] REF. NO. ORDER NO. MP1

DESCRIPTION

8510016220 2699 B-VCO case Y724

QTY. 1

EP2

[2NDCVCO BOARD] REF. NO. ORDER NO. MP1

DESCRIPTION

8510016230 2699 C-VCO case

QTY. 1

7-1

EP3

MP3

1 1 1

DOWNCONV BOARD MP2 (D) 2 (3/32)

34.8 (4 3/8)

MP1 (D)

0.9 (1/8)

4.2 (5/32)

1STBVCO BOARD MP26 (C) 1STAVCO BOARD

140 (5 9/16) 157 (6 3/16)

MP7 (C)

MP19 (C) S25 (L)

S24 (L)

Unit; mm (inch)

1 (1/32)

MP1 (2D)

CU

NIT

MP1 (RE)

DS12 (L) 58 (2 1/32)

MP1 (1A) EP1 (R)

RE

MP35 (C)

1 (1/32)

MP1 (1B)

MP27 (C)

J1 (C)

32.9 (1 9/32)

RF

33.9 (1 11/32)

UN

IT

MP4 (L)

14.8 (19/32)

MP1 (R)

2NDDVCO BOARD

MP22 (C)

MP1 (2C) 2NDCVCO BOARD

MP2 (L) MP2 (RE) MP20 (C) MP30 (C)

LO

GIC

MP29 (C)

MP27 (C)

UN

IT

MP5 (L) MP28 (C) MP11 (C) MP34 (C) MP3 (L) MP9 (C)

MP32 (C)

MP5 (C) MP31 (C) MP6 (C) MP17 (C) MP15 (C) SP1 (C)

MP8 (C)

W1 (C)

MP3 (C)

MP23 (C)

MP21 (C) MP12 (C)

MP1 (C) MP13 (C)

UNIT abbreviations (C) (R) (D) (L) (RE)

7-2

: CHASSIS PARTS : RF UNIT : DOWNCONV BOARD : LOGIC UNIT : REC UNIT

(1A) (1B) (2C) (2D)

: 1STAVCO BOARD : 1STBVCO BOARD : 2NDCVCO BOARD : 2NDDVCO BOARD

MP23 (C)

MP2 (C) MP4 (C)

MP36 (C) MP14 (C)

MP18 (C)

MP16 (C) MP23 (C)

SECTION 8

SEMI-CONDUCTOR INFORMATION

• TRANSISTOR AND FET’S

• DIODES

IC-R20

IC-R20

2SA1362-GR (Symbol: AEG)

2SA1586-GR (Symbol: SG)

B

2SA1588 GR (Symbol: ZG)

B

B

C

C

E

C

E

2SC4116 GR (Symbol: LL)

2SC4226 R24 (Symbol: R24)

B

B

B

C

C

E

E

2SC4617 TLS (Symbol: BS)

B

C

C

E

2SB1201-S-TL (Symbol: B1201)

1SS372 (Symbol: N9)

1SV172 (Symbol: BE)

C

C

A

A

B C

E

DAP222 TL (Symbol: P)

HN2V02H-B (Symbol: 2V02H)

C

E

C1

E

A1 C2

2SC5008-T1 (Symbol: 24)

2SC5231C8-TL (Symbol: C8)

2SC5277D2-TL (Symbol: D2)

B

B

C

C

2SJ144-Y (Symbol: VX)

C

E

S

E

B

D

C

E

E

2SC5624VH-TL (Symbol: VH-)

B

A

C

A

C

A

C

A

C

C

S

FH102-TL (Symbol: 102)

G

G

D

D

HAT1023R-EL (Symbol: 1023) B2

C2

S

E2

B1

C1

E1

UNR9111J (Symbol: 6A)

B

UNR9113J (Symbol: 6C)

B

G2

D2

S2

D1

G1

D1

S1

E

C2

B2

B1

E2

B1

E

C1

E1

B2

C1

B1

C1

B1

B2

C2

E2

C2

C2

B2

MA8027-H (Symbol: 2^7)

C2

E1

C1

B1

E2

B1

C1

E1

B2

C2

B1

C1

B2

C

RB876W TL (Symbol: 3X)

2SJ377 (Symbol: 4L)

D

C2

DTC114EE TL (Symbol: 24)

C

C1

B1

B2

C2

E2

1SS53 (Symbol: White line)

DWA010-TE (Symbol: W8) A1

E

G

C1

C

C C2

SB20-03P-TD (Symbol: SC) A1

A1

A A2

UNR9214J-(TX) (Symbol: 8D)

C E

MA2S111-(TX) (Symbol: A)

MA132WK(TX) (Symbol: MU)

B

C

E

A C A

B

B S

A

SVC347S/T-TL (Symbol: V1)

A

G D

B

C

A

BC-156

E1

white

DTA114EE TL (Symbol: 14)

C

MA2S111 (Symbol: A)

SB07-03C-TB (Symbol: J)

C, A

A

BC-156 2SB1184 TL Q (Symbol: B1184)

MA2S077 (Symbol: S)

A

A2

B2

A

C

XP6501-AB (Symbol: 5N)

E2

C

C, A

MA2S728 (Symbol: B)

C

XP4601 (Symbol: 5C)

A

C

XP4312 (Symbol: 7T)

E

E1

HVC376BTRF (Symbol: B9)

E

XP1501-AB (Symbol: 5R) C1

A

B

E

XP1113 (Symbol: 7L)

C

A

E1

C

E

XP1110 (Symbol: AD)

C

C

A

UNR921NJ (Symbol: EX)

C

E

UPA805T-T1 (Symbol: T82)

UNR9115J (Symbol: 6E) B

C

A

HVC375BTRF (Symbol: B8)

MA133 (Symbol: MP)

UMD6N TR (Symbol: D6)

D2

B

C

A

C

C

UNR9110J (Symbol: 6L)

C

G

E

2SK880-GR (Symbol: XG)

HVC350BTRF (Symbol: B0)

1SS400 (Symbol: A)

HVC417CTRU (Symbol: A8)

A

2SK1069-4 (Symbol: FJ)

C

1SV314 (Symbol: V6)

B C

E

A

2SC5006-T1 (Symbol: 24)

1SV308 (Symbol: TX)

1SV245 (Symbol: T3)

E

2SC4117-BL (Symbol: CL)

B

2SB1132 R (Symbol: BAR)

C E

S

8-1

C1

SECTION 9

BOARD LAYOUTS

The combination of this page and the next page shows the unit layout in the same configuration as the actual P.C. Board.

9-1 RF UNIT • TOP VIEW

W2

W1

ANT

to LOGIC UNIT J5 B_DET B_R3V GND B_NOISE B_RSSI +3V GND PLLBSTB PLLDSTB VP GND PLLESTB PLLCSTB PLLASTB RFO A_DET A_R3V GND A_NOISE 40 A_RSSI 21

20 LD2 +3S GND B_VCO2 B_VCO3 B_VCO4 PLLCK PLLDATA STR2 HFC B1C B2C B3C J1 D CLK LD1 EAR A_VCO1 A_VCO2 1 GND

9-1

• BOTTOM VIEW

HJ9

to 2NDDVCO BOARD J2 1 6

The combination of this page and the previous page shows the unit layout in the same configuration as the actual P.C. Board.

OSC GND +3V PLLCK PLLDATA PLLDSTB

RF UNIT

to 2NDDVCO BOARD J1 1 5 B_R3V GND BPS D_VCO_OUT GND

to 1STBVCO BOARD J2 to 1STBVCO BOARD J1 +3V 1 B_R3V VP 1 B_VCO1 GND B_VCO2 PLLBSTB B_VCO3 PLLDATA B_VCO4 PLLCK GND BPS 8 B_VCO_OUT 7 OSC HJ7 HJ6

HJ8

to DOWNCONV BOARD J1 8

1

RF_IN GND OSC PLLCK PLLDATA PLLESTB GND IF_OUT

HJ10

to DOWNCONV BOARD J2 HJ4

+3S +3V DOWN_CONV HJ11 2GLO 1GLO GND 1 6

PLLCSTB PLLDATA PLLCK +3V GND OSC

to 2NDCVCO BOARD J2

1

6

HJ5

GND C_VCO_OUT APS GND A_R3V

to 2NDCVCO BOARD J1

5

green HJ2 +3V 1 A_R3V A_VCO1 A_VCO2 A_VCO3 GND GND 8 A_VCO_OUT to 1STAVCO BOARD J2

black 1

7

HJ3 VP GND PLLASTB PLLDATA PLLCK APS OSC

white red

3

1

4

2

EP2

to 1STAVCO BOARD J1

9-2

1

The combination of this page and the next page shows the unit layout in the same configuration as the actual P.C. Board.

9-2 LOGIC UNIT • TOP VIEW

to RF UNIT J1 LD2 +3S GND B_VCO2 B_VCO3 B_VCO4 PLLCK PLLDATA STR2 HFC B1C B2C B3C D CLK LD1 EAR A_VCO1 A_VCO2 GND 1

20

B_DET 21 B_R3V GND B_NOISE B_RSSI +3V GND PLLBSTB J5 PLLDSTB VP GND PLLESTB PLLCSTB PLLASTB RFO A_DET A_R3V GND A_NOISE A_RSSI 40

to REC UNIT J6 1 AOUT A_ATN B_ATN 4 GND HJ8

LCD

Li-ion Battery

–

+

J9

CP2 CP4

A DIAL

B DIAL

J6 J3 EXT SP/CI-V from the external speaker

DC from the external DC power supply

9-3

HJ9 GND SUB_3C VOL_UP_DOWN SQL TXD RXD 6 to REC UNIT J7 1

CP1 CP3

The combination of this page and the previous page shows the unit layout in the same configuration as the actual P.C. Board.

LOGIC UNIT

2 1

• BOTTOM VIEW

J8 1 AFOUT 2 GND

W18 + SP W19 –

9-4

The combination of this page and the next page shows the unit layout in the same configuration as the actual P.C. Board.

9-3 REC UNIT to LOGIC UNIT HJ8 4 GND AOUT B_AIN 1 A_ATN J6

• TOP VIEW

USB

9-5

VL DOWN

J7 +3V SUB_3C VOL_UP_DOWN SQL CPU_TX CPU_RX 6 to LOGIC UNIT HJ9 1

VL UP

SQL

The combination of this page and the previous page shows the unit layout in the same configuration as the actual P.C. Board.

REC UNIT • BOTTOM VIEW

9-6

9-4 1STAVCO BOARD

9-6 2NDCVCO BOARD

• TOP VIEW

• TOP VIEW

The combination of this page and the next page shows the unit layout in the same configuration as the actual P.C. Board.

A_R3V GND APS C_VCO_OUT GND

to RF UNIT HJ5

1

J1

5

9-8 DOWNCONV BOARD • TOP VIEW

OSC GND +3V PLLCK PLLDATA PLLDSTB

to RF UNIT HJ4

1

6

9-5 1STBVCO BOARD

J2

9-7 2NDDVCO BOARD

• TOP VIEW

• TOP VIEW

B R3V GND BPS D_VCO_OUT GND

to RF UNIT HJ9

1

J1

5

OSC GND +3V PLLCK PLLDATA PLLDSTB

to RF UNIT “HJ8”

6

9-7

1

J2

The combination of this page and the previous page shows the unit layout in the same configuration as the actual P.C. Board.

2NDCVCO BOARD

1STAVCO BOARD

• BOTTOM VIEW

• BOTTOM VIEW

to RF UNIT HJ11 1

GND 1GLO 2GLO DOWN_CONV +3V +3S

6

DOWNCONV BOARD • BOTTOM VIEW

J2 to RF UNIT HJ3 OSC 7 APS J1 PLLCK PLLDATA PLLASTB GND 1 VP

8 A_VCO_OUT GND GND A_VCO3 J2 A_VCO2 A_VCO1 A_R3V 1 +3V to RF UNIT HJ2

2NDDVCO BOARD

1STBVCO BOARD

• BOTTOM VIEW

• BOTTOM VIEW

IF_OUT GND PLLESTB PLLDATA PLLCK OSC GND RF_IN

J1

8

1 to RF UNIT HJ10

to RF UNIT HJ7 OSC 7 BPS J1 PLLCK PLLDATA PLLBSTB GND 1 VP

8 B_VCO_OUT GND B_VCO4 B_VCO3 J2 B_VCO2 B_VCO1 B_R3V 1 +3V to RF UNIT HJ6

9-8

BLOCK DIAGRAM

ANTENNA

B_R3V

0.1500 – 3304.9999 MHz

RF UNIT

VOLTAGE LINE

RECORDING LINE

RX LINE

PLAYBACK LINE

266.7 MHz FI1 EFCH266MKQP1

B_R3V

Explanatory notes

1ST MIXER RF AMP IC18: µPC2746TB

B_R3V

AM/NFM B 2ND IF FILTER

LIMIT

ANT TUNE

D132: MA2S077 D133: MA2S077

BAR ANT

D100: SVC347

ATT

ATT-CONT.

Q508: XP4312 Q507: 2SC5008 D69: 1SV308 D169–D170: MA2S728

Q513: XP4601

HF3V

BAND SW

D64, D67, D70: 1SV308 D76: MA2S077

MF

IC3: MB15T61UL

LPF WFM

IC2: µPC2746TB

Q8: 2SC5231

PLL IC

BUFF

BUFF

IC17: TA31136FN B-MIXOUT

MODE SW

1–4B3V Q7: 2SC4117 Q6: 2SK880

D1:1SV245 1BVCO Q1:2SC5006 D2:1SV245

LOOP FIL

VCO 3V

B-IFIN

B_R3V

LPF

19.2 MHz LO AMP Q555 2SC5006

WIDEFM CONT.

WFM

Q543 UNR9113J

B_AM3V Q544 XP6501

A_R3V

B_AM3V Q545 ×1/2 XP6501

HF-L

1–4B3V

1B3V

BPF

HF-H

3BVCO D4:HVC417C Q3:2SC5006

BPF

247.0500/286.3500 MHz

LO SW

VCO Q1:FH102 D1:HVC350B

AM DET

LOOP FIL

ANL DET OUT Q547:UNR9213J D139:MA2S728

AF SW BMODEC

IC1: MB15E03SL

B_DET B AM FM B WFMC

Q553 MODE XP1113 CONT.

PLL IC

IC21: CD4066 NB3V Q525: XP6501 Q521: 2SC4617

B_R3V

566.3000–686.6999 MHz OSC

NB3V

NB AMP

BUFF

4B3V

A-VHF

D1–D2: HVC350B A-AGC

D36: 1SV308 D32: 1SV308 D143: 1SV308 D147: 1SV308

B_VHF3V B-VHF

D145–D146: HVC350B B-AGC

RF AMP

IC19 µPC2746TB

BAND SW

BPF D4–D5: HVC350B

A-AGC

Q9 2SC5231 LO AMP

D72: 1SV308 D29: 1SV308 D25: 1SV308 D34: 1SV308

Q13: 2SC5227 OSC

B-UHF RF AMP B-AGC

RF AMP

VCO 3V

1GHz BPF

RF AMP

Q11, Q12: XP1113

BPF

Q26: 2SC5624 D155: MA2S728 D156: MA2S728

LOOP FIL

1AVCO Q1: 2SC5006 D2: 1SV245 D1: 1SV245

BUFF

IC4: MB15B03SL

LO SELCT

BUFF

OSC

PLL IC

Q2: 2SC5006

BUFF

LO SW

849.1000–899.0999 MHz

2A3V

DOWNCONV BOARD

MIX IC3: µPC2757TB

BAND SW D8: 1SV308 D7: 1SV308

HPF

BAND SW

BUFF

D6: 1SV308 Q4: 2SC5624 D5: 1SV308

A NFMC

3A3V

AM DET

A-AGC

AGC

3rd IF AMP Q531: 2SC4617 A_DETFM

BUFF

BFO

A_DET AF SW

A_DETSSB

RFO AMP D115: RB876W D116: RB876W

Q530: 2SC4617

2NDCVCO BOARD

1STAVCO BOARD

Q4 ×1/2 XP6501

Q4 ×1/2 XP6501

Q1 XP6501 IF AMP

PLL IC

OSC

SSBAF AMP Q532 2SK1069

A_DETAM

ANL

Q529: UNR9213J D114: MA2S728

IC12: CD4066

Q6: 2SC5277

LPF D3: 1SV245 Q1: 2SC5006 1001.0000/2002.0000 MHz

Q503: XP1113

B_UHF3V

Q503: XP1113

B_VHF3V

Q554: XP1113 +3 REG

+3 REG

+3 REG

+3 REG DA/EXPND IC22: CD4094 IC20, IC14: M62366

B_G3V

B_800M3V

Q546: XP4312

A_UHF3V

Q554: XP1113

A_VHF3V

Q502: XP1113

+3 REG

+3 REG

+3 REG

300M3V

Q502: XP1113

NB3V

HF3V

Q501: UNR9113J Q527: UNR9113J Q509: UNR9113J +3 REG

+3 REG

+3 REG A_R3V

B_AMC

IC2: µPC2749TB

WFM

Q3: 2SC5277

B_AM3V RF AMP

LPF

Q41: UNR9113J

SSB3V

MODE SW

AM/NFM D113: 1SS400 D112: 1SS400 D111: 1SS400

WIDEFM CONT.

SSBC

IC1: MB15E03SL

D7–D9: 1SV308

VCO HPF

A_R3V

Q4: 2SC4617 409.4500/ 448.7500 MHz LOOP FIL VCO Q1: FH102 D1: 1SV314

429.2500–604.0999 MHz

D2: 1SV308

BAND SW

A WFMC

1–3A3V

CERAMIC BPF

A-IFIN

RIPPLE FIL

1A3V

MODE SW

D108:1SS400 D109:1SS400 D110:1SS400

Q519: UNR9113J MODE Q534: XP1113 CONT. D119: DAP222

IC2: µPC2746TB

BUFF

3AVCO D4: HVC417C Q3: 2SC5006

Q5: XP1113

D1: 1SV308

A-MIXOUT FM IF IC

A_R3V

604.1000–849.0999 MHz

B-AGC

BAND SW

IC2: TA31136FN

Q5: 2SC5006

AMODEC

0.450 MHz A 3RD IF FILTER FI2: CFWM450E

AMODEC

D60:MA2S077 D61:MA2S077 A-AGC

WFM

Q8: 2SC5231

2AVCO D3:HVC417C Q2:2SC5006

D176:HVC375B D175:HVC375B

B-AGC

PLL IC Q7:2SC4117 Q6:2SK880

Q24: 2SC5008

B_G3V

IC3: MB15T61

1–4A3V

800 MHz BPF

BUFF

BPF HVC350B D141 D142

B_800M3V

D173: HVC375B D174: HVC375B

A_R3V

A_R3V IF AMP

MODE SW

D58: MA2S077 AM/NFM/SSB D59: MA2S077 A 2ND IF FILTER

SSB/CW

3RD LO AMP

AMODEC

AMODEC

B_VHF3V

Q548: 2SC5006 D158: MA2S728 D153: MA2S728

XTAL BPF

MODE SW

CERAMIC BPF

Q540: 2SC5006

A_300MC

Q551: µPA805T D150: MA2S728 D151: MA2S728

19.65 MHz FI3 FL-293

19.2 MHz

LPF

A-UHF

RF AMP

PRE AMP

LPF

2ND MIXER IC10 µPC2757TB

D171: HVC350B

LO AMP

A_VHFC

BAND SW

A_R3V

BRF 1ST Mix IC1 A 1ST IF FILTER µPC2757TB

X1: CR-593

AMODEC

B_800MC

D13: 1SV308 D3: 1SV308 D11: 1SV308

A_R3V

RF AMP

A-AGC Q35:2SC5006 D159:MA2S728 A_UHF3V D168:MA2S728

REF CONT.

REF OSC

A_UHFC

BPF

AGC Q522: 2SC4617

FI6: CFWM450K3 OSC

B_VHFC

ANT SW

A_R3V

Q36:2SC5006 D160:MA2S728 D167:MA2S728

429.1 MHz FI4 EFCH429MKQP1

Q528: 2SC5006 Q524: 2SC4617 Q526: UNR9113J

A_R3V

Q556: 2SC4617

300M3V

D75:1SV308 Q552:UNR9113J D101:MA2S077 30–300 MHz HPF

BAND SW

BPF

NB3V

19.2 MHz OSC

B_UHFC

Q549: 2SC5006 D152: MA2S728 D161: MA2S728

RF AMP

+3S

B_GC

Q550: FH102 D149: MA2S728 D148: MA2S728

2NDDVCO BOARD

1STBVCO BOARD

BPF

MUTE SW

Q523: 2SC4617

Doubler

10 - 1

B_R3V NBC

RF AMP

NB3V

DET

Q3: 2SC5277 4BVCO D5:HVC417C 384.7000–441.6999 MHz Q4, Q5:2SC5006

A_VHF3V

B-AGC

AGC Q545 ×1/2 XP6501

Q4: 2SC4617

D7–D10: 1SV308

2BVCO D3:HVC417C 683.3000–866.6999 MHz Q2:2SC5006 3B3V

PRE AMP

B_AM3V

AM DET

IF AMP

BUFF

863.3000– 1099.6999MHz 2B3V

Q10–Q11: XP1113

A-AGC

Q14: 2SC5006 D162: MA2S728 D166: MA2S728

A_DET MODE SW

AM/NFM B 3RD IF FILTER D136: 1SS400 D137: 1SS400

D134:1SS400 D135:1SS400

B-AGC

B_DET

B MODEC

RIPPLE FIL

HF3V Q505: 2SC4226 D164: MA2S728 D163: MA2S728 RF AMP

BAND SW

LPF

OSC

D178: 1SS400 Q504: XP1110

Q510: UMD6 Q506: UNR9110J

LPF

Q12: 2SC5277

BAND SELECT

ANT SW

1SV308 D65–D66, D73, D74

LO AMP LO AMP Q9: 2SC5231

OSC

0.450 MHz FI8 CFWM450E CERAMIC BPF

B MODEC

FM IF-IC

3RD LO AMP

VP A-TRAC

LEVEL CONV.

B_R3V

Q542 2SC5006

IF AMP

0.4950–1.6200 MHz D68 1SV172

B_R3V

MODE SW

XTAL BPF

MODE SW D130: MA2S077 D131: MA2S077

IC16: µPC2757TB

B 1ST IF FILTER

B MODEC

FI7 FL-293

BRF IC15: µPC2757TB

19.65 MHz

B MODEC

2ND MIXER

HFC

SECTION 10

B_DET

B_DET

A_DET A_DET X2: CSBF453K LCD DRIVE

IC6: SN74AHC1CU04DBVR X2: CSBFB453K Q11: UNR9113J D18: HN2V02H

BFO BFO

BFOC

D22–25: 1SS372 Q28: 2SC4617 IC11: TC7W04FU VP DC-DC REG

MAIN CPU IC3: M30620 B_CTONE

B_DET

LPF

IC12: LM2904PWR B_RTONE

B_DET TONE FIL

CPU3V IC13: LM2904PWR

CLOCK SHIFT A_RTONE

X1: CR-717 9.8304 MHz

RESET

A_DET TONE FIL

D14: HVC376B

IC2: BD5228G

A_CTONE

EEPROM IC1: CAT24WC256 J3

IC5: TA31056F Q7 : XP1501 Q8 : 2SA1588 Q9 : 2SB1132

Q12: 2SC4617

AF AMP

PRE AMP

CIV-INTERFACE

EXTSP IC4: TC7W04FU Q3 : 2SA1586 Q6 : 2SC4116

A_DET

IC7: SM6451B

LOUT

AF FIL/AMP Q23: 2SC4617 Q25: XP6501 Q26: 2SJ144

VR Q19: 2SJ144

J8

INT/KEY MATRIX

A_DET

LPF

D2 : MA2S728 D3 : 1SS400 D5 : MA2S728 D6 : 1SS400 D7 : 1SS400 D8 : MA2S728 D9 : 1SS400 D10: 1SS400 D11: MA2S728 D12: 1SS400

PRE AMP

INTSP

B_DET AF FIL/AMP

SW

ROUT

Q16: 2SC4617

Q22: 2SC4617 Q24: XP6501 Q27: 2SJ144 B AMUTE

A DIAL +3S

B DIAL

Li+

Q13: XP6501 Q14: 2SA1588

EXTDC

+3 REG

Q1 : 2SC4617 Q4 : 2SC4617 Q5 : 2SC4617 Q36: 2SC4617 DS1–DS11: SML-512MW EP12: CV1081

CHGC CHGS CPU3

LIGHT BACKLIGHT CONTROL

+3 REG

CHARGE CONTROL

IC8: RN111N321B

+3V +3 REG Q17: 2SA1588

Q30: 2SB1201 Q31: HAT1023R Q32: 2SC4617 Q33: 2SB1132 Q34: UNR9215J Q35: UNR9213J D28: MA2S111 D29: SB07-03C D34: SB07-03C D35: MA2S728 D36: MA133

A_R3

REC UNIT

+3 REG

16.384 MHz X2: CR-708

Q10: 2SA1362

+3 REG IC9: RN111N321B

B_R3 IC2: M30620 +3 REG SUBCPU X1: CR-672 6.000 MHz

MEMORY

REC IC

IC6: K9F5608U0C-YCB0

Q15: 2SA1362

LOGIC UNIT

IC7: ML2302TB

AF IN/OUT J2 USB

Explanatory notes

USB INTERFACE D0-D7 IC3: FT245BM

10 - 2

VOLTAGE LINE

RECORDING LINE

RX LINE

PLAYBACK LINE

433 MHz 3.0V

VOLTAGE DIAGRAM

Explanatory notes VOLTAGE LINE

C71 3p

6 IFO 5 VCC 4 PS

1 2 RFI 3 GND LO

RX LINE

11-1 RF UNIT

B_R3V

IC15 µPC2757TB

C748 0.001 R423 15

ATT

4

C674 47p

C527 47p

R226 2.2k

C528 10p C530 HF 270p

C529 150p

R228 100

L

D73 1SV308

C513 100p CP7

C514 180p

R243 100k D100 SVC347

VHF PRE-AMP

C416 27p

D74 1SV308

C567 0.1

C515 120p

C859 0.001

C12 47p

C853 15p

L70 0.10µH

L128 0.1µH

C548 0.001

D75 1SV308

L123 47nH

C42 3.5p R494 4.7k

C860 0.001

D101 MA2S077

2

1

C40 15p

C41 5p

R18 15k

C141 0.01

L92 0.39µH

R6 120

C833 1p D145 HVC350B

C834 0.001

C835 0.001

L120 47nH

R481 47k

D147 1SV308 R482 2.2k

R483 47k

D146 HVC350B

L3 15nH

D68 1SV172

C22 7p

R511 2.2k

R489 22k

R239 2.2k

470 MHz 2.9V

C836 0.001

ANTSW A_R3V

B_TRAC

B-BAND VHF

R323 220

B_TRAC

C54 0.001

A_ATTC

A_ATTC

A_ATTC

4

3

5

2

6

1

C845 8p

C848 3p

R493 150

C846 0.001

C844 0.001

OSC PLLCK PLLDATA PLLESTB

C925 10p

C924 10p

C923 – C925 except [SEA], [EXP]

D13 1SV308

R99 1k

HJ11 1 1 2 2 3 3 4 4 5 5 6 6

1GLO 2GLO DOWN_CONV +3V

R98 2.2k C55 0.001

C145 0.001

L130 3.9nH

D173 HVC375B

C46 3p

C47 6p

C48 6p

L11 15nH

L12 10nH

C49 3p

L129 3.9nH

L13 5.6nH

C895 470p

C5 470p C50 1p

C214 0.001

L131 3.9nH

D4 HVC350B

L60 6.8nH

D29 1SV308

C136 7p D5 HVC350B

3 2 1

C662 0.1

B_TRAC

C58 0.001

C886 0.001 D176 HVC375B

C51 2.5p

R93 120

R523 100k

D175 HVC375B

A-BAND UHF

Q26 2SC5624 L44 4.7nH

L43 1.5nH R19 47k

C52 470p

R20 330

R473 47k

L112 6.8nH R472 330

433 MHz 2.9V

R112 2.2k

C811 0.001

B_ATTC

C414 0.001

A_R3V

C815 0.001 C814 2p

D141 HVC350B

R474 47k C816 0.001

L113 6.8nH

C817 7p

D143 1DV308

D142 HVC350B

R475 2.2k

L56 6.8nH C153 0.1

R471 15k C807 0.001

B_UHF3V

B BAND UHF

1 2 3

B_UHF3V

IFO RFI GND VCC LO PS

6 5 4

145 MHz 3.0V

C677 2p FI4 EFCH429MKQP1 I

C808 0.001

C206 3.5p AGC

D158 MA2S728

A_R3V

IC1 µPC2757TB

C809 0.001

D153 MA2S728 AGC

C148 470p

A_ATTC B_TRAC

R469 68k

D151 MA2S728

R326 82

C150 0.001

C812 0.001

D36 1SV308

R324 100

C664 0.1

IFO10

Q548 2SC5006

R524 100k

C147 2.5p

4 5 6

A BAND RF AMP

D168 MA2S728

D32 1SV308

OUT GND VCC

R325 82

A_UHF3V

C410 0.001

R102 2.2k

GND GND IN

R231 4.7k

R91 2.2k

D159 MA2S728

B_800M3V

L132 3.9nH

Q24 2SC5008

C138 470p

B_ATTC

B_ATTC C868 0.001

B_800M3V

B_800M3V

B_TRAC

B_TRAC

R4 330

R220 15

L94 33nH

C435 0.001 C678 0.001

O

C70 0.001 L95 15nH R221 330

L93 22nH

C679 0.001

C683 0.001

IC10 µPC2757TB 1 2 3

IFO RFI GND VCC LO PS

6 5 4

C432 0.001

B_800M3V

R110 12k B_BAND 1G

C911 100

C59 2p

R16 47k

R13 15k

C887 0.001 R100 12k

R101 47k

C32 0.001

C45 470p

C30 0.001

C663 0.1

C27 0.001

AGC

D157 MA2S728

B BAND 800M

R522 100k

C923 10p

C850 100p

C134 0.001

D150 MA2S728

C901 0.001

D174 HVC375B D11 1SV308

L61 6.8nH

R14 68k R88 330

L122 47nH

C28 0.001

C849 100p R492 150

EAR

A_TRAC R15 47k

Q35 2SC5006

C847 0.001

R491 330

R490 4.7k

433 MHz 2.6V

EAR

EAR

A_ATTC

IC19 µPC2746TB

B_ATTC

R95 2.2k

VP

RFIN

B_TRAC 145 MHz 2.0V

AGC

ANTSW

D154 MA2S728 HJ10 RFIN GND OSC PLLCK PLLDATA PLLESTB

B_800MC

C505 0.001 B_R3V ANTSW

C828 0.001

A_TRAC

L39 39nH

L5 15nH

C23 5p

3

D161 MA2S728

A_ATTC

Q551 UPA805T

L4 22nH

B_GC

2 4

A_VCO OUT

C888 0.001

1

5

C504 0.001 B_800M3V

D34 1SV308

UHF PRE-AMP D3 1SV308

B_UHFC B_R3V

Q503 XP1113

B_VHF3V

EAR

C542 0.1

1

5

A_ATTC

D152 MA2S728

A_TRAC

C858 12p

B_VHFC

2

B_UHF3V

A_R3V

C899 0.001

51 MHz 2.9V

C676 22p

C218 1p

R534 2.7

R476 120k

C832 0.001

L119 68nH

C827 0.001

ANTSW

C546 0.1

3

4 C862 0.001

A_VHF3V

300M3V

C541 0.1

R510 2.2k

R540 15

R479 15k

D160 MA2S728

EAR

A_TRAC

IF_OUT

Q554 XP1113

B_VHF3V A_TRAC

B_G3V

Q549 2SC5006

D167 MA2S728

R330 15k

ANTENNA 0.1500 – 3304.9999 MHz

A_UHFC

3

4

C863 0.001

C838 100p

C44 0.01

A_VHFC

C503 0.001

D166 MA2S728

R478 330

L41 0.1µH

1

5

2

C408 0.001

C233 0.001

A

A_300MC

Q502 XP1113

A_VHF3V

D162 MA2S728

R108 2.2k

R106 47k

145 MHz 2.9V

C900 0.001

C898 0.001

R335 100k

C857 100p

Q501 UNR9113J

300M3V

R11 47k R81 2.2k

A-BAND VHF

C142 0.001 R105 68

ANTSW

L127 18nH

C669 0.001

CP3

L133 56nH

C666 390p

A_TRAC

R329 100k

C561 0.001

D25 1SV308

C121 0.001

D2 HVC350B

L1 47nH

R10 47k

D1 HVC350B

R8 15k

D149 MA2S728

C673 0.001

C856 7p

B3C

B_UHF3V

3

C560 0.001

Q504 XP1110

C16 0.001

C15 1p

C14 0.001

A_R3V

D178 1SS400

3

C69 0.001

R9 120k

R487 100

D148 MA2S728

Q36 2SC5006

R495 4.7k

ANTSW

C855 47p

R539 15

L28 68nH

C840 0.001

Q552 UNR9113J L126 18nH

C837 100p

C861 0.001

VP C854 9p

Q14 2SC5006

R531 100k

C897 0.001

C43 100p

C665 100p

L10 22nH

L9 33nH

R496 4.7k

R486 100

C843 8p

L121 R485 0.18µH 4.7k

30 – 300 MHz C851 27p

Q513 XP4601

1

145 MHz 2.6V

L124 56nH

6

6

R78 330

C841 18p

C839 0.001

CP6

5

2

433 MHz 1.9V A_TRAC

A_UHF3V

C852 27p

4

3

R500 82

B2C

2 4 C521 0.1

5

R484 22k

R216 2.2k

L125 47nH

L84 0.68µH

Q550 FH102

4

C13 27p

L83 0.47µH

C842 0.001

R488 330

R498 100

C864 0.1

A_TRAC

5 MHz 2.9V

1

5

B_ATTC

R246 220k

C512 10p

C532 0.1

R224 3.3k

R223 2.2k

B_R3V

C511 36p

D64 1SV308

C518 220p

C520 0.0018

HF H

4 5 6

OUT GND VCC

B BAND RF AMP

D163 MA2S728

ANTSW

R538 JPW

C517 100p

C519 0.0047

R222 2.2k

GND GND IN

R499 82

C865 0.001

IC18 µPC2746TB

D164 MA2S728 C516 220p

L82 0.33µH

L81 0.27µH

3 2 1

C866 0.001

R501 4.7k

C531 100p

R225 1k

D65 1SV308

C872 0.1

C538 0.1

A_R3V

C912 0.1

to DOWNCONV BOARD J2

L85 3.9µH

C910 100

R533 10

C921 0.001

B_UHF3V

CP8

DOWN CONV BOARD

C526 0.012

L91 3.9µH

AGC

R497 220

B_R3V

Q505 2SC4226

green D66 1SV308

8 7 6 5 4 3 2 1

R230 10k

C537 0.1

ATT AGC

AGC

A_UHF3V

4

L87 1µH

L86 0.68µH

D72 1SV308

A_ATTC

R

to DOWNCONV BOARD J1

C525 0.0047

3 red

G

C658 390p D70 1SV308

3

C544 0.001

B_RXV

C562 0.001

B_R3V

C558 0.001

C522 0.0015

C657 150p

Q509 UNR9113J

CP18

C919 0.001

ANTSW

2

C534 100p C535 0.0012 C524 0.01

C533 0.0015 C523 0.0015

C539 0.1

L90 100µH

D67 1SV308

A_R3V

C891 0.01 1

2 white

W

BAR ANTENNA 0.4950 – 1.6200 MHz

5

Q508 XP4312

R237 2.7k

C543 R236 0.001 10k

Q507 2SC5008

1 blue

B

EP2

R233 820

6

R229 47k

L89 10µH

B_VHF3V

R247 2.7

L88 5.6µH

MF

C750 0.001

D_VCO OUT B_VCO OUT

B BAND RF IN

HFC

A_UHF3V

CP5

ATT-ON 0V

R238 100k

C563 0.001

C536 0.1

Q510 UMD6

IFO16

IFO 6 VCC 5 PS 4

C749 0.001 D_VCO OUT

B_VCO OUT B1C

Q506 UNR9110J

AGC

D69 R232 1SV308 3.3k C540 0.1

C570 0.001

6

C571 0.001

A_ATTC

R234 820

5

1

C569 0.1

D76 MA2S077

C545 0.01

C667 0.01

R235 1k

2

C568 47p

R245 22k

AGC

W2

4

AGC

W1

R240 1k

D169 MA2S728

3

A_ATTC

D170 MA2S728

R327 100

R241 2.2k

A_TRAC

C566 0.01

L101 6.8nH

C747 0.001

L74 47nH

L15 47nH

A_R3V ANTSW

1 RFI 2 GND 3 LO

O

I

C746 3.5p

B_R3V

IC16 µPC2757TB

C436 3p

FI1 EFCH266MKQP1

C_VCO OUT

SECTION 11

B_R3V

D156 MA2S728

B_TRAC

A-AGC

B_ATTC

1295 MHz 2.9V D155 MA2S728 +3S

B_G3V

B_G3V

AGC

AGC

B_G3V

B

11 - 1

B_R3V

B_R3V

B_NOISE

Q542 2SC5006

B_RSSI

R433 1k

9

C762 100p

D172 MA2S728

CP12 L105 LS-510

AGC

AGC

ATT

ATT

B_WFMC

WFM_CONT

R517 1k

OSC

C424 0.01

C745 470p

A_R3V C74 0.001 R35 15k

R205 10k

R36 220k C431 0.001

R355 1.5k

R354 27k

A_DET 1 2 3 4 5 6 7

I/O1 VDD O/I1 CONT1 O/I2 CONT4 I/O2 I/O4 CONT2 O/I4 CONT3 O/I3 VSS I/O3

R358 1.5k

C697 0.01

R352 100k

4

R360 2.2k

3

2

5

A_NFMC

2

A_R3V

1

A_AMC

SSB3V

C705 0.1

Q526 UNR9113J

A_R3V

R68 47k

R363 4.7k

C701 0.01

16 15 14 13 12 11 10 9

OSCIN OSCOUT MIXOUT VCC IFIN DEC FILOUT FILIN

MIXIN GND N-REC N-DET RSSI IFOUT QUAD AFOUT

C94 0.001

Q41 UNR9113J

R60 100k

C688 0.01 FI6 CFWS450K3

EAR A_R3V LD1 A_DET CLK BFO D PLLASTB B3C PLLCSTB B2C PLLESTB B1C

NBC A_R3V

B2C PLLESTB B1C

STR2

Q528 2SC5006 R372 100k

C706 0.001

C402 0.001

R529 470

C221 0.01

C92 0.01

C100 0.1

R46 4.7k

R61 47k

B_RSSI

C96 0.01

R57 15k

R58 680

C95 0.001

D57 MA2S728

R30 3.3k R116 150k 4

R31 1k

R177 100k

R525 10 3

C714 0.01

C712 0.1

R384 47k

C711 0.1

Q530 2SC4617

Q531 2SC4617

R386 2.2k

2

R385 100k

R383 1.5k

C715 0.01

A_R3V

R391 10k

R388 2.2k R389 2.2k R387 2.2k

CW 2.9V

C717 0.1

D116 RB876W

R390 27k

R394 27k

R392 47k

C720 0.01

4

A_AMC

C_VCO OUT A_NFMC

R528 2.2k

C716 470p C718 C719 0.01 0.001

R393 22k

C890 0.1

33 9 32 10 31 11 30 12 29 13

LOGIC UNIT to LOGIC unit J5

28 14 27 15 26 16 25 17 24 18 23 19 22 20 21

C65 0.01

R26 47k

5

R526 10

A_R3V

PLLCSTB PLLDATA PLLCK +3V GND OSC

SSBC

4

5

2

1

3

Q4 XP6501 C62 10

R28 1M

R29 C61 470k 0.001

C707 0.001

6

1

R376 22k

C913 0.001

R375 10k

C708 0.22

1 2 3 4 5 6 7 8

to 1STAVCO BOARD J2

HJ2 +3V

+3V A_VCO1 A_VCO2

A_VCO3

D179 1SS400

A_VCO1 A_VCO2 A_VCO3 GND GND

C908 C907 C914 C906 47p 47p 0.001 47p A_VCO OUT

R377 4.7k C710 0.001

HJ3 VP

R378 100k

Q529 UNR9213J

1STAVCO BOARD

A_VCO OUT

A_DETAM VP GND PLLASTB PLLDATA PLLCK APS OSC

PLLASTB PLLDATA PLLCK A_ANLC

A_R3V

to 2NDCVCO BOARD J2

C909 100

R532 10

D117 DAP222 C433 0.001

C60 0.01

D114 MA2S728

1 2 3 4 5 6

A_AMC

Q44 XP4312

C709 0.1 R374 10k

2

1 2 3 4 5 6

to 2NDCVCO BOARD J1

2NDCVCO BOARD

HJ4

A_R3V

C66 0.01 6

1 2 3 4 5

A_WFMC

1

C434 0.1

R174 4.7k

1 2 3 4 5

3

R172 10k

R373 3.9k

Q532 2SK1069

34 8

HJ5

1

C200 0.01

35 7

HFC VP STR2 PLLDSTB PLLDATA PLLBSTB PLLCK

A_R3V GND APS C_VCO OUT GND

APS

2

3

D115 RB876W

LD2 B_DET

A_R3V

D119 DAP222

Q534 XP1113

5

6

R179 150k

36 6

+3S B_R3V LD2 B_DET

A_R3V 5

A_DETSSB

R382 1.5k

D112 1SS400

C922 150p

L99 470µH C687 390p

SSB3V C889 0.1

+3S

SSBC

C203 0.1

D111 1SS400

C63 150p

37 5

+3S

A_R3V C64 15p

38 4

B_VCO4 +3V B_VCO3 B_RSSI B_VCO2 B_NOISE

D113 1SS400

C686 390p

39 3

R347 10k

C692 0.01

R50 FI2 10k CFWM450E C690 0.01 I O R542 15k

C689 0.01

40 2

O

D108 1SS400

C99 470p

R59 1.5k

R56 470

C242 0.22

BFO

A_DETFM

A_WFMC

A_RSSI

A_NOISE

A_R3V

R380 2.7k

EAR

B3C

Q519 UNR9113J

C691 0.01

D109 1SS400

C97 0.01

C93 0.001

R396 22k

RX LINE

A-AGC

C704 0.01

SSB3V

C239 0.01

SSB3V R381 330

CW 2.6V

R379 1.5M

R369 330

CW 2.9V

I

D110 1SS400

R49 10k

C98 470p

L21 LS-510

C713 0.1

A_RSSI A_VCO2 A_NOISE A_VCO1

HFC

SSB3V

1 2 3 4 5 6 7 8

C101 10p

C896 0.01

D165 MA2S728

R368 15k

C893 0.01

R530 4.7k

Q1 XP6501

VOLTAGE LINE

R370 10k

R364 56k

R366 100k C702 0.1

R367 220k

Q522 2SC4617

R159 1k

IC2 TA31136FN

A_R3V

C264 0.001

A_RSSI A_VCO2 A_NOISE A_VCO1

BFO

Q527 UNR9113J

Q524 2SC4617

C703 0.47 C698 0.01

A_R3V

CP2

R103 10k

A_WFMC

3

to 1STBVCO BOARD J1

J1

LD1

R365 22k

R362 150k

1 2 3 4 5 6 7

1

D

NB-ON 1.0V

HJ7 1 2 3 4 5 6 7

+3V

B_R3V D121 DAP222

SSB3V

1

CP1

OSC

R398 100k

C241 0.22

C659 10

R55 R54 2.2k 22k

11 - 2

OSC

Q535 XP1113 4

6

5

R346 10k

C75 0.001

C259 100p

B

BPS

CLK

Q523 2SC4617

C700 0.01

C741 0.01

C103 0.01

A_R3V

R361 150k

Q525 XP6501

R356 270

A_R3V

C73 0.001

VP GND PLLBSTB PLLDATA PLLCK BPS OSC

+3S

C699 220p

1STBVCO BOARD

C920 0.001

14 13 12 11 10 9 8

to 1STBVCO BOARD J2

C902 47p

VP

IC12 CD4066BPWR

to 2NDDVCO BOARD J1

C905 C904 C903 47p 47p 47p

R541 150

B_NOISE

R62 180

R34 1k

Explanatory notes

B_VCO OUT

ANL_CONT

NB-ON 2.9V

R357 330k

145 MHz 3.0V

Q5 2SC5006

WFM 2.9V

A_R3V

B_VCO OUT

PLLBSTB

SSB3V

L17 3.3µH C102 0.001

R208 10k C202 0.1

R467 100k

Q547 UNR9213J

C894 0.01

D107 1SS400

C430 R209 680 0.01 4 D60 MA2S077 D61 MA2S077

R207 10k

C797 0.001

R465 22k

1 2 3 4 5

1 2 3 4 5 6 7 8

B_R3V

14 13 12 11 10 9 8

I/O1 VDD O/I1 CONT1 O/I2 CONT4 I/O2 I/O4 CONT2 O/I4 CONT3 O/I3 VSS I/O3

A_DET

R353 47k

A_R3V

R203 100

R536 56

1 2 3 4 5 6 7

A_R3V

SSB3V

C18 0.01

B_VCO2 B_VCO3 B_VCO4

C790 0.01

AM_DET

C796 0.22

R359 220k

D171 HVC350B

SSB3V

OSC

3

R466 4.7k

C795 0.1

R463 10k

C744 0.01

D106 1SS400

D59 MA2S077

R464 10k

R397 100k

SSB3V

A_R3V

C794 0.001

+3S

R414 12k

Q540 2SC5006

A_ATTC

C427 22p

D139 MA2S728

2NDDVCO BOARD

HJ6 +3V B_RXV B_VCO1 B_VCO2 B_VCO3 B_VCO4

B_RXV B_VCO1

+3V

C740 0.01

1.8V

19.200 MHz

D58 MA2S077

R459 470k

C789 0.001

IC21 CD4066BPWR R462 3.9k

Q521 2SC4617

C874 18p

C875 68p

R415 1.5M

L134 4.7µH

R520 47

R458 1M

R441 680

20 19 18 17 16 15 14 13 12 11

GND AO2 AO1 DI CLK LD DO AO12 AO11 VCC

C694 0.1

C876 56p

ANTSW

C201 0.1 FI3 FL-293 19.650 MHz 1 2

+3V

A_R3V B_R3V

Q556 2SC4617 R514 2.2k

C884 0.001

AM MODE

+3V

C879 10p

IFO10

C792 0.01

1 2 3 4 5

C918 0.001

C793 0.01 B_DET

B_WFMC ATT

A_300MC

A_VCO3

A_UHFC

A_NFMC

A_TRAC

A_VHFC

VSS AO3 AO4 AO5 AO6 AO7 AO8 AO9 AO10 VDD

R515 100k

C878 0.01 C873 220p

R513 220k X1 CR-593 19.200 MHz

C877 0.01

B_GC

L73 2.7µH

1

1

A_AMC A_WFMC

ANTSW

OSC

B_ATTC

B_TRAC

R516 100k

R512 3.9k

B_800MC

R204 1k

2

2

C881 0.001

+3S

1.6V

OSC

3

3

DET_OUT

IC14 M62366GP

+3S

D

B_TRAC

C791 10

CP11

C767 0.22

B_R3V GND BPS D_VCO OUT GND

D_VCO OUT

Q546 XP4312

Q545 XP6501

1

R442 15k

CLK

B_UHFC

6

6

SSBC

C867 0.01

C771 0.01

B_RSSI

APS

NBC

3.0V

FSET

B_VHFC

R443 470 C772 0.001

1 2 3 4 5 6 7 8 9 10

+3S

D

5

5

AGC

WFM_CONT

+3S

16 15 14 13 12 11 10 9

V+ OE Q5 Q6 Q7 Q8 Q’S QS

2

4

4

SSB3V

+3S

STR D CLK Q1 Q2 Q3 Q4 GND

A_WFMC

BPS 1 2 3 4 5 6 7 8

D

R527 10

6

to 2NDDVCO BOARD J2

HJ9 B_R3V B_AMC

R457 47k

C788 0.01

Q544 XP6501 3

WFM_CONT B_NOISE

CLK

5

R453 150k

AGC

STR2

2GLO

1GLO

DOWN_CONV

D

4

D138 MA2S728

1

ATT

IC22 CD4094BPWR

ANTSW

GND AO2 AO1 DI CLK LD DO AO12 AO11 VCC

B_AMC

VSS AO3 AO4 AO5 AO6 AO7 AO8 AO9 AO10 VDD

20 19 18 17 16 15 14 13 12 11

B_AM FM

LD2

B_VCO1

B_ANLC

IC20 M62366GP 1 2 3 4 5 6 7 8 9 10

B_800MC

B_UHFC B_GC

B_VHFC

B_WFMC

A

C785 15p

B_WFMC

1 2 3 4 5 6

WFM CONT

C783 0.1

R449 2.2k

C880 0.001

R461 10k

AGC

Q543 UNR9113J

R436 2.2k R437 22k

B_R3V

B_NOISE

C870 0.01

B_RSSI

AGC

R518 1k

C764 0.001

R454 R455 100k 1k

C786 150p

R452 150k

R440 47k

5

+3V

1 2 3 4 5 6

WFM_CONT

L106 470µH C782 220p

C781 220p

B_R3V

2

B_R3V

R451 3.3k

C769 470p

C770 0.01

C765 10p

Q555 2SC5006

OSC

AGC

R438 100k

C768 470p

R439 1.5k

C871 0.01

R503 1.5M

C773 0.1

D137 1SS400

R448 2.2k

C784 0.01

7 8

C869 0.01

R505 12k

ATT

5 6

IC17 TA31136FN

B_R3V 433 MHz 1.5V

R519 4.7k

C774 0.01 B_R3V

3

+3V

WFM 2.9V

C766 0.01

C760 0.001

2 3 4

R447 220

4 R450 10k

+3S

WFM_CONT

13 12 11 10

D135 1SS400

D136 1SS400

C778 0.01

C777 0.01

B_ANLC

R429 10k

C756 0.1

R434 180

1

OSCIN OSCOUT MIXOUT VCC IFIN DEC FILOUT FILIN

MIXIN GND N-REC N-DET RSSI IFOUT QUAD AFOUT

HJ8 PLLDSTB PLLDATA PLLCK +3V GND OSC

B_AM FM

A_DETFM

R428 10k

R431 220k

C758 0.001

16 15 14

D134 1SS400

O

A_R3V

D132 MA2S077

D133 MA2S077

C755 470p

3rd_Lo C761 0.001

C759 0.001

I

AM/NFM_CONT

C780 0.1

R446 10k

FI8 CFWM450E

+3V

R432 15k

C779 0.01

R445 10k

R444 1k

A_DETAM

4

B_R3V 433 MHz 3.0V

C776 0.22

C775 10

R435 47k

L104 3.3µH

C753 22p

R537 56

R427 100

C882 0.001

A_DETSSB

3

R430 10k R426 680

A_ATTC

C752 22p D131 MA2S077

B_R3V

C885 C757 0.001 0.1 FI7 FL-293 19.650 MHz 2 1

A_ANLC

D130 MA2S077 C754 0.001

IFO16

L102 2.7µH

R521 47

SSBC

R425 1k

A_AMC D CLK LD1

B_R3V

B_R3V

AM/NFM CONT Q553 XP1113

B_R3V

B_R3V

AM/NFM CONT

A_R3V

OSC C916 0.001

C917 0.001

1 2 3 4 5 6 7

1 2 3 4 5 6 7

to 1STAVCO BOARD J1

11-2 LOGIC UNIT

B_DCK B_DUD A_DCK A_DUD

KR0 KR1 KR2 KR3 KR4 KR5 I0 I1 KS0 KS1 KS2 KS3

B_AF_THURU

R97 1M

C74 470p

75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 S15

5

DS1

S11

7

Q5 2SC4617

0

R29 82

DS3

DS4

R32 1k

R38 82 DS5

R49 82 DS6

S16

8

S22

9

S12

>

D3 1SS400

D6 1SS400 D2 D5 MA2S728 MA2S728 [SEA], [EXP], [CAN] [USA] only only B3 B2

R53 82 DS7

Q36_2SC4617

EP12_CV1081

.

R33 100k

R203 82

REC

D9 1SS400

D12 1SS400

3.2V B1

R15 100k

R20 100k

8 7 6 5

R39 10k

A DIAL

A B COM

VP

C100 0.022

R40 10k

R34 10k

5

6

4 3

2

1

B_R3V

+3S D

1 2 3

R209 100k

5

Q6 2SC4116

1

2

C63 0.001

D

C128 470p

C46 1

C41 0.1

C49 0.1

Q12 2SC4617

Q9 2SB1132

+3S C57 1

C60 0.1

Q16 2SC4617

R84 10k C47 0.1

C84 0.0047

C85 0.1

R107 1M

R108 470k

8 7 6 5

1 2 3 4

R91 5.6k

R95 10k C58 0.1

R101 5.6k

C189 0.001 1 2 3 +3S 4 5 6 7 8

C117 1

R124 D20 470k 1SS400

C103 0.1

C151 R166 0.001 39k

R151 39k

R110 82k

R117 1M

R114 2.2M

R120 820

C110 0.1

Q24 XP6501 C119 0.1

R128 180k

R135 100k

C70 10

MDT MCK MLEN DVSS ROUT RIN AVSS VRR

R152 180k

R141 15k

R175 100k

R176 390k

R177 180k

C170 0.1

A_AIN

C80 10

3.0V

C104 0.1

R125 470k

C113 D21 0.1 1SS400

Q23 2SC4617 R123 820

C118 1

C120 0.1

C134 820p

R136 82k C111 0.1

R129 180k

R137 100k

C124 0.1

R142 15k

Explanatory notes VOLTAGE LINE

RECORDING LINE

RX LINE

PLAYBACK LINE

C137 270p

Q25 XP6501

C125 0.1

R146 100k

R155 180k

R156 180k

Q26 2SJ144 R147 2.2M

31 11 30 12 29 13 28 14 27 15 26 16 25 17 24 18 23 19 22 20 21

R195 180k

CP6 S S26

CP1 VCC 3.7V

C107 10

Li–

J6

EP9 D34 SB07-03C

Li+

CP3

C182 0.001

EXT DC

C183 0.0047

C177 D35 0.001 MA2S728

CP5 B GND C178 C196 EP10 0.001 0.1

Q30 2SB1201 R185 12

R186 R196 6.8 12

Q33 2SB1132

R197 6.8

R189 1k

Q35 UNR9213J

D36 MA133

R180 47k

Q32 2SC4617

R187 1k

Q34 UNR9215J R188 150

C180 0.001

CHGC CHGS HVDET

Q29 UNR9213J

R160 2.2M C148 680p

to RF unit J1

32 10

CPU3V

B_AF_THURU B_AIN B_AMUTE AOUT BEEP A_AIN

BEEP

C116 0.1

C176 0.1

1 2 3 4

R184 82

C166 0.0018

B_AIN

R122 10k

S S S G

D28 MA2S111

C156 0.1 R163 1M

R121 10

R193 100k

R182 1.2k

R170 2.2M

B_AMUTE

C102 0.1

C175 0.1

R181 68

C169 0.01 B_DET

R154 2.2M

C97 0.1

33 9

R190 47k

R191 100k

C173 0.001

R159 470k

34 8

CP4

D29 SB07-03C

C165 0.0022

R145 100k

35 7

C192 0.1

R194 100k

R183 1k

A_DET

C164 330p

C147 C155 680p 470p

C123 0.1

A_R3V

8 D 7 D 6 D 5 D

B_DET

R158 2.2M

Q27 2SJ144

C96 0.1

IC5 TA31056F

C39 0.1

C136 270p

36 6

CP2

AOUT

16 15 14 13 12 11 10 9

C181 0.001

D27 1SS400

Q31 HAT1023R

C163 330p

C133 R153 820p 180k C122 0.1

C154 0.1

R174 100k

R168 100k

37 5

R192 180k

D31 1SS400 VCC

R150 150k

C161 330p

R134 82k

C112 0.1

IC7 SM6451B RSTN ADRS1 ADRS2 DVDD LOUT LIN AVDD VRL

BATTIN

C142 100p

38 4

+3S B_R3V LD2 B_DET

C174 0.1

D30 1SS400

C146 0.015

3.0V

Q22 2SC4617

C190 0.1

1 8 VCC IN 2 7 TB VREF 3 6 OUT NF 4 5 GND COMP

C34 220 EP8

C141 0.001

39 3

A_DET

B_AF_THURU

3.3V_SQL_OPEN

C38 3.3

R144 470k

3.0V

CK +3S

3

Q8 2SA1588

Q19 2SJ144

C86 0.1

VRSTB A_R3V CLK D

CLK

R56 4.7k C31 0.47

C64 0.001

B_VCO4 +3V B_VCO3 B_RSSI B_VCO2 B_NOISE

D26 1SS400

TSQL/DTCS/VSC ON 2.9V R162 82k

R140 82k

R127 470k

R119 C115 12k 0.1

C101 0.1

B_R3C

R212 470 CLK

C40 33

4

R99 470k

A_R3V

4

Q7 XP1501

R100 JPW

VRSTB 5

CK

D13 1SS400

C55 0.001

C52 0.001

DATA

IC15 TC7S08FU

R64 470 R8 47k

A_R3C R211 470

4

R89 470k

R90 4.7k

R106 JPW

B_VCO4 +3V B_VCO3 B_RSSI B_VCO2 B_NOISE

CPU3V

A_VSCAF

C109 0.1

R118 10

C95 0.1

C59 0.001

HFC VP STR2 PLLDSTB PLLDATA PLLBSTB PLLCK

C179 0.001

R149 39k

R169 100k

3.0V

Q15 2SA1362

HFC VP STR2 PLLDSTB PLLDATA PLLBSTB PLLCK

40 2

TEMP

C153 0.1

R116 12k

B_R3V

DATA 5

1 2 3

R199 220

R165 39k

C150 0.001

A_CTONE

Q10 2SA1362

IC14 TC7S08FU

C29 0.1

C140 100p

B_CTONE

3.1V

EAR A_R3V LD1 A_DET CLK BFO D PLLASTB B3C PLLCSTB B2C PLLESTB B1C

R148 150k

IC13 LM2904PWR

C48 0.001

CPU3V CNVSS RESET TXD RXD SCLK BUSY

C157 470p

R178 390k R172 2.2M

C171 0.01 A_DET

R164 1M

R179 180k

R13 120k

SUB_3C VOL_UP_DOWN SQL TXD RXD

C167 0.0022

(HJ9) +3V SUB_3C VOL_UP_DOWN SQL TXD (CPU_TX) RXD (CPU_RX)

1 2 3 4 5 6

to REC unit J7

(HJ8) AOUT A_AIN B_AIN GND

1 2 3 4

to REC unit J6

C193 0.1

R161 470k C158 0.1

D33 D32 MA2S111 MA8027 +3V

C172 0.1

AOUT A_AIN B_AIN

C168 0.0018

AFOUT

AFOUT

AFOUT EXT SP J3

R57 JPW EP1 EP2 C20 47p

S25 B DIAL

R213 JPW

R7 10k

S24 A 2 B 3 1 COM

R132 180k

Q21 UNR9115J R113 120k

C94 0.0022

A_CTONE

EAR A_R3V LD1 A_DET CLK BFO D PLLASTB B3C PLLCSTB B2C PLLESTB B1C

HVIN C93 0.001

A_RTONE

A_R3V

R41 12k

R54 10k

CPU3V CNVSS RESET TXD RXD SCLK BUSY

R126 470k

R133 820k

3.0V

+3V

AFON

1 2 3 4 5 6 7 8 9

R202 82 DS9

3.1V

REC

D8 D11 MA2S728 MA2S728 [USA] only [EUR] only

LIGHT

D5

IC4 TC7W04FU 1 2 3 4

B0

CIV_IN CIV_OUT

D2

R55 82 DS8

REC DS11 SML-512UW

Q3 2SA1586

C26 0.001

C185 0.001

R206 82

R204 82 R205 82

S23

PLAY

I1 KS3 KS2 KS1 KS0

C108 0.1

8 7 6 5

C160 330p

EAR

C36 82p

R198 100k

KR5 S6

1 2 3 4

IC12 LM2904PWR C88 0.001

DS1–DS9_SML-512UW

S21

6

DS2

R23 82

LIGHT

SCOPE

R19 82

R14 82

C145 0.015

A_TCON

B_CTONE

A_RSSI A_VCO2 A_NOISE A_VCO1

B_VSCAF

A_R3V

A_RTONE

EP7

KR4 S5

C99 0.022

A_RSSI A_VCO2 A_NOISE A_VCO1

+3S B_R3V LD2 B_DET

CPU3V

R12 1k

KR3

4

R115 12k

C139 0.001

R143 470k

C127 470p

B_DET

4

Q4 2SC4617

S20

3

S10

R131 820k

5

MR

LIGHT

S14

2

S4

R139 82k

3

MODE

CPU3V

S9

1

Q20 UNR9115J R112 120k

B_RTONE

R130 180k

4

Q1 2SC4617

S19

KR2 S3

C91 0.001

3

VFO

C87 0.001

6

BAND

S13

TSQL/DTCS/VSC ON 2.9V R157 82k

B_TCON

B_RTONE

R214 JPW

C144 1

B_R3V

+3V

+3V AFOUT

S8

B_R3V

R82 47k

+3V 3.6V

C138 1

CK DATA

S18 POWER

D25 1SS372

C114 0.001

6

C35 1

D24 1SS372

C159 4.7

CK DATA

R216 JPW

C30 1

C132 1

2

R52 R215 100k JPW

D23 1SS372

D22 1SS372

1

C28 470p

X1 CR-717

Q28 2SC4617

C152 1

C149 1

C143 1

R167 10k

C126 1

C106 33

C90 4.7 CK DATA

RXD TXD

C135 1

3.6V

3.2V DATA

A_TCON

KR1

S2

R210 100k

A_AIN

S7 MAIN

CK PCON

C98 4.7

C89 0.001

C77 0.001

AFON HVDET

R62 100k

1

C162 0.1

IC11 TC7W04FU

to_LCD DS12 M3-0243TIY

J5

C194 1

C131 1

8 7 6 5

1 2 3 4

C105 4.7

IC9 R1111N321B

R47_2.2M

DATAC

S1 DW

L1 10µH

R111 JPW

C92 0.0022

D14 HVC376B

C16 0.001

KR0

C83 22

R98 33k

C62 4.7

1 VOUT VDD 2 GND 3 NC CE

VOUT VDD 1 4 GND 2 NC CE 3

A_AF_THURU B_AMUTE

C27 0.01

C191 0.1

+3V

SQL

R28 1M

C22 15p

POWER

+3V

5

CNVSS CLS1 CLS0

DATAC

CPU3V

RESET

3.1V C54 0.1

5

C69 0.001

+3V

P73/CTS2/RTS2

C24 0.001 R27 10

CPU3V

R94 47k

R88 4.7k

R104 470k

B_R3V

B_NOISE A_NOISE BEEP BFO_SHIFT

Approx. 12V

IC8 R1111N321B

B_TCON

R36 4.7k

C7 0.01

R22 JPW R24 1k R26 1k

4

NC

R31 47k

5

CD

R18 10k

RESET

CPU3V

1 OUT 2 VDD 3 VSS

R207 100k

R208 100k

4

C82 22

R105 6.8k

Q13 XP6501

+3SC

CIV_OUT CIV_IN SUB_3C

R4 10k

IC2 BD5228G

R86 100k

C51 0.001

C68 0.001

C61 0.001

R87 39k

C45 0.1

EP13 MZA2010D121C A_VCO1

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

R11 1k

STR2 PLLDATA HFC B1C B3C B2C LD1 LIGHT +3SC CHGC CHGS CKO REC CK VRSTB DATA

Q17 2SA1588

+3V

C13 0.1

A_VCO2

CPU3V

+3S

R10 10k

8 VCC 7 WP 6 SCL 5 SDA

A0 A1 NC VSS

3

DATA

1 2 3 4

R9 47k ECK ESIO

IC1 CAT24WC256

C1 0.1

R66 1k R67 1k R68 1k R69 10k

R71_JPW R72_JPW R73_JPW

CPU3V

C187 0.001

CPU3V 5

BUSY

CPU3V

2

CKO

Q14 2SA1588

R77 1k

R70_JPW

A_RTONE

1

+3V

R83 47k

R63 10k

SCLK

VOL_UP_DOWN TEMP R2_10k BATTIN HVIN B_RSSI R6_10k A_VSCAF A_CTONE B_CTONE A_RSSI R3_10k B_RTONE B_VSCAF

50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26

POWER TXD RXD

R5_10k

4

+3V R76 47k

R74 47k

P42/A18 P43/A19 P44/CS0 P45/CS1 P46/CS2 P47/CS3 P50/WRL/WR P51/WRH/BHE P52/RD P53/BCLK P54/HLDA P55/HOLD P56/ALE P57/RDY/CLKOUT P60/CTS0/RTS0 P61/CLK0 P62/RXD0 P63/TXD0 P64/CTS1/RTS1 P65/CLK1 P66/RXD1 P67/TXD1 P70/TXD2/SDA P71/RXD2/SCL P72/clk2/TA1OUT

P12/D10 P11/D9 P10/D8 P07/D7 P06/D6 P05/D5 P04/D4 P03/D3 P02/D2 P01/D1 IC3 P00/D0 M30620MCP-130GP [USA] only P107/AN7/KI3 P106/AN6/KI2 M30620MCP-129GP [OTHER] P105/AN5/KI1 P104/AN4/KI0 P103/AN3 P102/AN2 P101/AN1 AVSS P100/AN0 P97/ADTRG/SIN4 VREF P96/ANEX1/SOUT4 AVCC P95/ANEX0/CLK4

5

C186 0.001

D18 HN2V02H-B

P13/D11 P14/D12 P15/D13/INT3 P16/D14/INT4 P17/D15/INT5 P20/A0(/D0/-) P21/A1(/D1/D0) P22/A2(/D2/D1) P23/A3(/D3/D2) P24/A4(/D4/D3) P25/A5(/D/D4) P26/A6(/D6/D5) P27/A7(/D7/D6) VSS P30/A8(/-/D7) VCC P31/A9 P32/A10 P33/A11 P34/A12 P35/A13 P36/A14 P37/A15 P40/A16 P41/A17

76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100

P94/DA1/TB4IN P93/DA0/TB3IN P92/TB2IN/SOUT3 P91/TB1IN/SIN3 P90/TB0IN/CLK3 BYTE CNVSS P87/XCIN P86/XCOUT RESET XOUT VSS XIN VCC P85/NMI P84/INT2 P83/INT1 P82/INT0 P81/TA4IN/U P80/TA4OUT/U P77/TA3IN P76/TA3OUT P75/TA2IN/W P74/TA2OUT/W

LD2 B_VCO2 B_VCO3 B_VCO4

C12 0.001 C14 0.001

C2 0.001 C3 0.001 C4 0.001 C5 0.001 C6 0.001 C8 0.001 C9 0.001 C10 0.001 C11 0.001

R1 3.3k

R200 8.2k

R103 33k

6

C184 1 C75 1 C76 1 C78 1 C79 1 C81 1

VP

R93 1M

Q11 UNR9113J

C65 0.01

X2 CSBFB453K

R201 470k

C71 1 C72 1

CK DATA

CPU3V

C23 0.1

C56 0.01

C53 0.01

C188 0.001

2

R60 150k R61 150k

R58 150k R59 150k

C50 0.1

C73 0.01

1

R51 1k

BFOC

Q37 2SA1588

4

R96 1M

R85 100

3.2V

5

Q38 XP4601

CPU3V

CW/BFO_ON 2.8V

23 25 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 24

C66 1 C67 1 BFO

R43 15k

R45 10

A_R3C

R35 1k

1 1 2 2 3 3

+3S

R42 1k

CPU3V R217 100k

CK DATA

BFO_SHIFT

B_TCON PCON

R25 3.3k

R21 3.3k

R17 10k MP5

3.1V

IC6 SN74AHC1GU04DBVR

PLLESTB PLLCSTB PLLASTB

R30 1k PLLBSTB PLLDSTB PLLCK

LCD_RS

LCD_RESET

B_R3C BFOC CIV_IN LCD_CS A_TCON

J9 LCD_CS LCD_RESET LCD_RS CK DATA

EP4 C21 47p

A_DUD

AFOUT +3V

C42 100p

C43 4.7

C44 4.7

AFOUT

A_AF_THURU

EP6

AFOUT

+3V

+3V

C18 47p EP3

2 3 1

A_DCK

C19 47p

J8 B_DUD B_DCK

AFOUT GND C37 47p

LOGIC UNIT A_AF_THURU

11 - 3

C33 0.001

2

4

1

3

INT SP

11-3 REC UNIT

X2 CR-708 16.384 MHz

C21 22p

C20 22p

CNVSS RESET TXD RXD SCLK BUSY EPM

FUL MID EMP

CS D/C BUSY SIOCK DASD ADSD VCK DGND DACKL DREQL IOW IOR VOXO XT XT TEST0

FIFOST RESET CBUSY EMP MID FUL WR RD

AVDD SG LOUT LIN MOUT MIN AGND TEST9 AOUT SPIN SPOUT– SPOUT+ NC NC NC AGND

C24 1

FUL MID EMP

FUL MID EMP

WR RD

WR RD

3.1V

CBUSY FIFOST

CBUSY FIFOST

RESET

RESET

C7 33p

C10 0.1

VBUS

CD 5

SUB_RX SUB_TX

CPU_TX CPU_RX

VOL_UP_DOWN SQL

R20 100

R11 470

3.0V

RSTO

VBUS VBUS

EP3

R13 1.5k

R6 27 R7 27 VBUS

1 2 3 4 5 6 7 8

EESK EEDATA VCC RESET# RSTO# 3V3OUT USBDP USBDM

C27 100

IC3 FT245BM

A_SQL B_SQL D0

D1 D2 D3 D4 D5 D6 D7 GND

24 23 22 21 20 19 18 17

D1 D2 D3 D4 D5 D6 D7

EP1

C9 0.033

TXE RXF PWREN

A_SQL B_SQL

A_AIN B_AIN AOUT GND

B_AIN AOUT

Q2 UNR9119J

Q1 UNR921NJ

D0 D1 D2 D3 D4 D5 D6 D7

C25 0.01 1 2 3

5 4 C26 0.01

A_SQL

IC8 SN74AHC1G66HDBV

D0 D1 D2 D3 D4 D5 D6 D7

1 2 3

5 4

B_SQL

B_SQL SQL

SQL

VOL_UP_DOWN

VOL_UP_DOWN S2 UP

TXE RXF PWREN

REC UNIT

DOWN

VOLTAGE LINE

RECORDING LINE

RECORDING/PLAYING COMMON LINE

PLAYBACK LINE

S1 SQL

R18 330k

Explanatory notes

C18 0.01

IC9 SN74AHC1G66HDBV

S3

11 - 4

to LOGIC unit HJ9

1 2 3 4

to LOGIC unit HJ8

J6

A_AIN

C28 0.01

VBUS

C8 0.1

1 2 3 4 5 6

SUB_3V

C12 0.01

NC 4 C5 0.01

+3V SUB_3C VOL_UP_DOWN SQL CPU_TX CPU_RX

SUB_3C

VOL_UP_DOWN

C6 33p

J2

C1 0.01

C23 1

C19 0.01

R17 150k

TXD RXD SCLK BUSY EPM B_SQL A_SQL SUB_3V

PWREN RXF TXE

VBUS

D+ D– VBUS

CBUSY RESET FIFOST

C22 0.01

AOUT

VBUS

C3 0.01

OUT VDD VSS

R16 470k

SQL

1 2 3

4

FUL MID EMP

C16 0.01

MP2

SUB_3C

TXE RXF PWREN

5

RD WR

+3V

TXD RXD SCLK BUSY EPM PWREN RXF TXE

32 31 30 29 28 27 26 25

NC

MP1

CBUSY FIFOST R_B RESET

EECS TEST AVCC AGND XTOUT XTIN VCC D0

VOUT

IC1 BD5228G

48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33

C17 18p

1 A VCC 5 2 B 3 GND Y 4

IC5 SN74AHC1G32DCK

IC7 ML2302TB

RD WR DVDD FUL MID EMP CH CBUSY RESET FIFOST DGND VR CB1 CB2 SPVDD AVDD

J7

R12 330

C2 10

EP4

RD CS2

D0 D1 D2 D3 D4 D5 D6 D7 DVDD TEST2 TEST3 TEST4 TEST5 TEST6 TEST7 TEST8

RESET

X1 CR-672 6.000 MHz R9 10k

R22 100k

D3 D2 D1 D0

IC6 K9F5608U0C

C14 0.01

IC4 SN74AHC1G02DCK

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

D0 D1 D2 D3 D4 D5 D6 D7

GND PWREN# SI/WU RXF# VCCIO TXE# WR RD#

VBUS 1 VDD 2 GND 3 CE

from/to USB jack

R21 100k

CNVSS

R1 10k

IC10 R1111N321B

9 8 5 4 3 2 1 6 7

SUB_3V A_SQL B_SQL SUB_RX SUB_TX BUSY SCLK RXD TXD

5 1 A VCC 2 B 4 3 GND Y

D7 D6 D5 D4

9 10 11 12 13 14 15 16

SUB_3V CNVSS RESET TXD RXD SCLK BUSY GND EPM

EPM

R10 47k

HJ1 1 2 3 4 5 6 7 8 9

C13 0.01 WR CS2

RD

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

R8 47k

CS1

WR RD

P94/DA1/TB4IN P93/DA0/TB3IN P92/TB2IN/SOUT3 P91/TB1IN/SIN3 P90/TB0IN/CLK3 BYTE CNVSS P87/XCIN P86/XCOUT RESET XOUT VSS XIN VCC P85/NMI P84/INT2 P83/INT1 P82/INT0 P81/TA4IN/U P80/TA4OUT/U P77/TA3IN P76/TA3OUT P75/TA2IN/W P74/TA2OUT/W P73/CTS2/RTS2

R19 47k

CS0 CS1 CS2 SUB_3C WR

48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25

A_AIN

IC2 M30620FCPGP

C4 0.01

R15 47k

P42/A18 P43/A19 P44/CS0 P45/CS1 P46/CS2 P47/CS3 P50/WRL/WR P51/WRH/BHE P52/RD P53/BCLK P54/HLDA P55/HOLD P56/ALE P57/RDY/CLKOUT P60/CTS0/RTS0 P61/CLK0 P62/RXD0 P63/TXD0 P64/CTS1/RTS1 P65/CLK1 P66/RXD1 P67/TXD1 P70/TXD2/SDA P71/RXD2/SCL P72/clk2/TA1OUT

RD WR

P12/D10 P11/D9 P10/D8 P07/D7 P06/D6 P05/D5 P04/D4 P03/D3 P02/D2 P01/D1 P00/D0 P107/AN7/KI3 P106/AN6/KI2 P105/AN5/KI1 P104/AN4/KI0 P103/AN3 P102/AN2 P101/AN1 AVSS P100/AN0 VREF AVCC P97/ADTRG/SIN4 P96/ANEX1/SOUT4 P95/ANEX0/CLK4

NC NC NC NC I/O7 I/O6 I/O5 I/O4 NC NC NC VCC VSS NC NC NC I/O3 I/O2 I/O1 I/O0 NC NC NC NC

RD WR

D7 D6 D5 D4 D3 D2 D1 D0

50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26

NC NC NC NC NC GND R/B RE CE NC NC VCC VSS NC NC CLE ALE WE WP NC NC NC NC NC

17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

P13/D11 P14/D12 P15/D13/INT3 P16/D14/INT4 P17/D15/INT5 P20/A0(/D0/–) P21/A1(/D1/D0) P22/A2(/D2/D1) P23/A3(/D3/D2) P24/A4(/D4/D3) P25/A5(/D/D4) P26/A6(/D6/D5) P27/A7(/D7/D6) VSS P30/A8(/-/D7) VCC P31/A9 P32/A10 P33/A11 P34/A12 P35/A13 P36/A14 P37/A15 P40/A16 P41/A17 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100

64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49

C15 0.01

75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51

CLE ALE

C11 0.01

11-4 1STAVCO BOARD

11-5 1STBVCO BOARD J1 VP GND PLLBSTB PLLDATA PLLCK BPS OSC

J1

R56 JPW [SEA], [EXP] only R56 1k R55 JPW [SEA], [EXP] only R55 1k R48 1k

2.3V

C38 0.68

R24 3.3k C39 0.68

GNDOSC SWA2 SWB2 GNDDIG SWA1

R23 1k

FINRF1 FINRF2 XFINRF GNDRF PS

C35 0.0033

12 11 10 9 8

R25 220

Q6 2SK880

R27 8.2k

C41 0.001 C63 0.001

R53 82

C64 10

R29 100k

D2 1SV245

L1 0.22µH

D1 1SV245

C1 0.001

C2 0.001

L3 15nH

L2 0.22µH

C54 0.001 C66 10

C65 10

R2 220

C6 0.1

1

5

C9 0.001

L6 18nH

Q2 2SC5006

D3 HVC417C

R54 47

C17 0.001

L8 0.22µH

C18 0.001

L9 27nH

D1 1SV245

C2 L3 0.001 12nH

C11 2p

R7 220

C12 C13 0.001 0.1

R9 8.2k

C53 0.001

R44 220

R43 82k

L5 0.22µH

D8 1SV308

R42 47

C4 2p

C5 0.001

C6 0.1

C10 0.001 C9 0.001

C20 4p

R12 220

D4 HVC417C C21 C22 0.001 0.1

R41 15

R54 47

D9 1SV308

IC2 µPC2746TB 3 GND 2 GND 1 IN

R13 4.7k

R14 8.2k

1.13V

1STAVCO BOARD

OUT 4 GND 5 VCC 6

L8 0.22µH

R4 8.2k

5

C47 0.001 2.0V

3.0V

D4 HVC417C

C17 0.001

L11 D5 0.27µH HVC417C

C49 10p

R37 4.7k

C11 2p

C25 0.001

Explanatory notes

C26 0.001

3

1

Q11 XP1113

R33 33

C53 0.001

R42 47

C50 5p

1.7V

3.0V

R44 220 R43 82k

R45 1k

C52 0.001

Q9 2SC5231

D8 1SV308

R7 220 R8 4.7k R9 8.2k R15 470

C56 0.001

C24 0.1

C19 8p

R41 15

R38 4.7k D9 1SV308

C23 0.5p C20 4p

IC2 µPC2746TB 3 2 GND 1 GND IN

R12 220 R13 4.7k

R19 330

4BVCO

OUT 4 GND 5 VCC 6

C47 0.001 2.0V

3.0V

R34 220 C46 0.001 L14 47nH

C49 10p 1.13V

C28 0.75p

R16 6.8k

C29 0.001

R18 6.8k C45 0.5p

R40 4.7k

C55 0.001

C15 0.1

C14 0.5p

Q3 2SC5006

C27 0.75p

+3V B_R3V B_VCO1 B_VCO2 B_VCO3 B_VCO4 GND _ B VCO_OUT

1

4

C21 C22 R14 0.001 0.1 8.2k

R34 220 C46 0.001

J2

Q10 XP1113

C65 10

C67 10

R10 220 22 [SEA], [EXP]

L10 1µH

L9 27nH

C18 0.001

3 2

C54 0.001

D7 1SV308

C16 4p

R11 47

R38 4.7k C23 0.5p

4

5

C12 C13 0.001 0.1

R15 330

C56 0.001

C68 0.001 [EUR], [UK], [USA], [CAN] only

C66 10

3BVCO

C24 0.1

C64 10

R3 4.7k

Q2 2SC5006

D3 HVC417C

C43 2p

2SC5231

R2 220

L7 1µH

L6 12nH

C52 0.001

C50 5p

Q9 2SC5231

C19 8p

Q3 2SC5006

R33 33

C44 0.001

2

Q1 2SC5006

R8 4.7k

L10 1µH

R5 180 22 [SEA], [EXP]

C7 0.5p

R45 1k

R31 82k

R36 4.7k

L4 1µH

L2 0.22µH

R53 82

C8 0.1

C3 2p

R6 47 C55 0.001

C14 0.5p

3AVCO R11 47

R1 47

R30 220

C41 C42 0.001 0.001 C63 R29 0.001 100k Q8

3.0V

R37 4.7k

C16 3p

C58 0.1

1BVCO

D2 1SV245

12 11 10 9 8

R50 R51 R52 100k 100k 100k

L12 22nH

Q4 2SC5006

to RF unit HJ7

3.1V

C37 1

R35 2.7k

R10 220 C15 0.1

L7 1µH

to RF unit HJ2

Q6 2SK880

R27 8.2k

C62 0.1

3.0V

R25 220

Q11 XP1113

1.67V

C10 0.001

FINRF1 FINRF2 XFINRF GNDRF PS

2BVCO

R6 47

C61 0.1

1 2 3 4 5 6 7

2.6V

R32 150

2.8V

R4 8.2k

2AVCO

L5 0.22µH

R55 JPW [SEA], [EXP]

GNDOSC SWA2 SWB2 GNDDIG SWA1

R23 1k

2 R3 4.7k

C5 0.001

1 2 3 4 5 6 7 8

C1 0.001

3

4 C4 4p

R24 3.3k

C39 0.68

R26 6.8k

L1 0.22µH

1

5

D7 1SV308

20 21 22 23 24

C48 0.01

2

C7 0.5p

Q1 2SC5006

C38 0.68

Q7 2SC4117

J2 +3V A_R3V A_VCO1 A_VCO2 A_VCO3 GND GND A_VCO_OUT

3

4

R36 4.7k

L4 1µH

R28 15k

Q12 XP1113

C8 0.1

C3 3p

C43 2p

C67 0.001 [EUR], [UK], [USA], [CAN] only

R5 220

1AVCO C48 0.01

Q8 2SC5231

R55 1k

C35 0.0033

R35 2.7k

R1 47

IC3 MB15T61UL

Q12 2SC5277

C40 0.01

R56 JPW [SEA], [EXP]

3.0V

C42 0.001

3.1V

C58 0.1

C37 1

C44 0.001

R31 82k

R56 1k

C60 0.01

C59 R48 R49 0.01 1k 180k

2.6V

R30 220

R47 1k

2.3V

3.0V

2.8V

R26 6.8k

C62 R50 R51 R52 0.1 100k 100k 100k

C61 0.1

SWB1 DORF1 SW1 SW2 DORF2 VPRF LD/FOUT

20 21 22 23 24

C40 0.01

Q7 2SC4117

OSCIN CLOCK DATA LE VCCSD GNDRF VCCRF

IC3 MB15T61UL

Q13 2SC5277

R28 15k

R32 150

19 18 17 16 15 14 13

R47 1k

1 2 3 4 5 6 7

C59 R49 0.01 180k

3.0V

C60 0.01

3.0V

to RF unit HJ3

R57 JPW [SEA], [EXP]

1 2 3 4 5 6 7

3.0V

1 2 3 4 5 6 7

R57 1k

OSCIN 19 CLOCK 18 DATA 17 LE 16 VCCSD 15 GNDRF 14 VCCRF 13

VP GND PLLASTB PLLDATA PLLCK APS OSC

R46 1k

C31 0.001

SWB1 DORF1 SW1 SW2 DORF2 VPRF LD/FOUT

R57 JPW [SEA], [EXP] only R57 1k

R46 1k

C31 0.01

R17 120 L13 47nH

Q5 2SC5006 C30 0.001

R39 4.7k

C57 0.001

Explanatory notes D10 1SV308

R40 4.7k

VOLTAGE LINE

1STBVCO BOARD

VOLTAGE LINE

11 - 5

to RF unit HJ6

11-6 2NDCVCO BOARD Q4 2SC4617

2.4V

3.0V

J1 A_R3V GND APS C_VCO_OUT GND

A_R3V

1CVCO R4 1k

L2 33nH

2.3V

C6 0.001 L4 0.22µH

C3 15p

L1 18nH

C33 2p

C2 18p

D1 1SV314

C4 10p

R2 10k

1

5

2

4

3

C1 0.33

C31 0.001 C_VCO_OUT

L3 22nH

C7 4p

R10 100

C8 1p

Q1 FH102

R3 1k

C5 12p

C32 10

to RF unit HJ5

C9 5p

C10 5p

1.7V

APS

R13 1k

R12 1k

J2

APS PLLCSTB PLLDATA PLLCK

PLLCSTB PLLDATA PLLCK C17 5p

R11 1k

PLLCSTB PLLDATA PLLCK +3V GND OSC

R9 56

C18 47p

1 2 3 4 5 6

to RF unit HJ4

A_R3V +3V

C19 47p

C16 470p

IC1 MB15E03SL

C20 47p

R22 330

R14 10 R15 820

FIN XFIN GND DO VCC VP OSCO OSCI

CLK DAT LE PS ZC L/F P R

9 10 11 12 13 14 15 16

3.0V

R19 1k

8 7 6 5 4 3 2 1

C25 0.001

C23 0.01

R18 1k

R17 180k

C22 0.01

C24 0.01

C26 0.1

C27 0.001

2.3V

0.7V

Q3 2SC5277

C21 4.7

Explanatory notes

R16 1k

OSC

R1 47

6

C30 0.001

R21 1k

1 2 3 4 5

2NDCVCO BOARD

VOLTAGE LINE

11-7 2NDDVCO BOARD 2.4V

Q4 2SC4617

L4 0.22µH C2 56p

L1 22nH

C3 22p

D1 HVC305B

R2 47k

C4 12p

6

1

5

2

R3 330

C30 0.001

C31 0.001

C32 10

1 2 3 4 5

to RF unit HJ9

D_VCO_OUT L3 22nH

C7 10p

3

4

C5 27p

B_R3V GND BPS D_VCO_OUT GND

C1 0.33

R10 100

C8 4p

Q1 FH102

C9 8p

C10 8p

1.7V

BPS

R13 1k

R12 1k

J2

BPS PLLDSTB PLLDATA PLLCK

PLLDSTB PLLDATA PLLCK C17 5p

R11 1k

PLLDSTB PLLDATA PLLCK +3V GND OSC

R9 220 B_R3V +3V

C18 47p C19 47p

C16 470p

IC1 MB15E03SL

C20 47p

R22 330

9 10 11 12 13 14 15 16

R14 10 R15 820

C21 4.7

CLK DAT LE PS ZC L/F P R

FIN XFIN GND DO VCC VP OSCO OSCI

3.0V

8 7 6 5 4 3 2 1

C25 0.001

C26 0.1

C27 0.001

Explanatory notes

R19 1k R18 1k

2.3V

C23 0.01

R17 180k

C24 0.01

Q3 2SC5277

C22 0.01

R16 1k

OSC

R1 47

L2 47nH

2.3V

C6 0.001

J1 B_R3V

R21 1k

1DVCO R4 1k

3.0V

0.7V

2NDDVCO BOARD

VOLTAGE LINE

11 - 6

1 2 3 4 5 6

to RF unit HJ8

11-8 DOWNCONV BOARD 2.8V

RF_IN GND 2.2V

C47 0.01

R29 1k

R31 1k

C51 470p

C48 0.01

Q6 2SC5277

0.7V

RF_IN GND

C53 0.01

R32 1k

C49 0.01

R30 180k

RF_IN GND

PLLCK PLLDATA PLLESTB

IC4 MB15E03SL 1 2 3 4 5 6 7 8

R20 10

OSCI OSCO VP VCC DO GND XFIN FIN

C50 470p

C52 470p

16 15 14 13 12 11 10 9

R P L/F ZC PS LE DAT CLK

RF_IN GND OSC PLLCK PLLDATA PLLESTB GND IF_OUT 2.8V

C18 470p

C17 470p

R16 150

2.3V

R15 220

R14 56k

C16 470p C15 470p

Q2 2SC5006

C26 0.1 +3V

+3V +3S

2.8V

C12 10

L6 D3 0.22µH 1SV245 C21 470p

C40 4p

R13 15 C8 2p

L3 0.82µH

C13 22p

L4 12nH

R33 1k

C14 0.1

C19 470p

R10 47

2.6V

C23 4.7

Q3 UNR911J

C10 1p

Q1 2SC5006

C9 2p

R12 10

R7 330

IF_OUT DOWN_CONV +3V +3S

R19 820

C22 0.33

to RF unit HJ10

J1

R17 1k

R18 330

8 7 6 5 4 3 2 1

R11 15 C11 0.001

C58 0.1

R9 4.7k

R8 10k

Q5 XP1113

C37 470p

R22 4.7k

R27 4.7k

R25 1k

C38 470p C34 470p

D8 1SV308 D7 1SV308

R28 10 C30 2p

C39 1p R23 4.7k

L7 1.5nH

C54 47p

R26 1k L8 6.8nH

C28 1p

D5 1SV308

C31 12p

L10 2.2nH

L9 3.9nH

1

5

D6 1SV308

C29 1p

2

C35 470p

C36 2p

C32 22p

3

C55 47p

+3S +3V DOWN_CONV 2GLO 1GLO GND

+3S

4

J2

R21 27k C27 10p

Q4 2SC5624

1001 MHz or 2002 MHz LO

C56 47p

RF_IN R4 4.7k

1.7V

IC2 µPC2749TB

R5 4.7k C4 8p

R2 470

2.8V

C3 6p

C2 8p

3 GND 2 GND 1 IN

3 2 LO 1 GND RFI

4 OUT 5 GND 6 VCC

C1 10p

D1 1SV308 L2 8.2nH

L1 8.2nH

C41 15p

C42 12p

2.4V

IC3 µPC2757TB

R1 180 [USA], [EUR]

C44 470p

PS 4 VCC 5 IFO 6

C6 470p

C7 1p C45 3p

R6 4.7k

IF_OUT

DOWN_CONV 3V C43 470p

6 5 4 3 2 1

L11 6.8nH

D2 1SV308

C46 3p

R3 4.7k

C5 470p

Explanatory notes

DOWNCONV BOARD

VOLTAGE LINE

11 - 7

to RF unit HJ11

SECTION 12

BC-156 DESKTOP CHAGER INFORMATION

12-1 DISASSEMBLY INFORMATION MP3 (C)

[CHASSIS PARTS] REF. NO. ORDER NO. MP1 MP2 MP3 MP4 MP5 MP6 MP7 MP8

8930062600 8110007620 8810009990 8930039620 8930051010 8930051020 8930051030 8010019600

QTY.

DESCRIPTION 2708 holder 2505 cover Screw PH BT M3 X 8 ZK Stand/leg cushion (A) 2308 terminal holder 2308 A-terminal Y490 2308 B-terminal 2505 case (D)

1 1 8 2 1 3 3 1

MP1 (C)

[MAIN UNIT] REF. NO. ORDER NO.

QTY.

DESCRIPTION

J1

6450000410 Connector HEC0470-01-630

1

F1 F2 F3

5210000040 Fuse FGB 2A (FGB0 125V) 5220000020 Fuse holder S-N5051 5220000020 Fuse holder S-N5051

1 1 1

WS1

8600036620 OTHER EX2308 PD1* J04MA

1

MP8 (C) J1 (T) EP2 (T) MP7 (C)

MP5 (C)

[TANSHI BOARD]

MP3 (C)

REF. NO. ORDER NO.

QTY.

DESCRIPTION

J1

6510003570 Connector S09B-EH-S

1

EP2

9001602001 IRRAX 0.7 (d) L=10mm

2

RL1

6330001630 Relay A-5W-K

1

F1 (M)

REF. NO. ORDER NO. 800003420 800003430

WS1 (M) F2 (M)

MP2 (C) QTY.

BC-123A (LS-11033-ADT) w/box SKT [EUR] BC-123E (LS-11030-ADT) w/box SKT [UK]

1 1

BT: Self-tapping PH: Pan head ZK: Black

UNIT abbreviations MP4 (C) MP3 (C)

12-2 BC-156 BLOCK DIAGRAM 8–16V DC IN VCC

MAIN UNIT SW REG IC2:NJM2360M Q7:2SJ377 D2:SB20-03P

CHARG CONTROL IC1:MM1433EVBE Q1:2SB1184

TANSHI BOARD CHG SELECT RL1

CHG1

MP3 (C)

F3 (M) DESCRIPTION

Screw abbreviations

RL1 (T)

J1 (M)

[ACC ACCESSORIES] EP1

MP6 (C)

MP6 (C)

I SENSE R1

CHG2

12 - 1

MP3 (C) MP4 (C)

(C) : CHASSIS PARTS (M) : MAIN UNIT (T) : TANSHI BOARD

12-3 BC-156 VOLTAGE DIAGRAM • MAIN UNIT 3.0 Vp-p

CHG ON 1.77 ms

Q7 2SJ377

F1 FGB 2A J1 C7 0.22

R18 1k

C1 0.22

C8 100

C9 0.22

R3 560

D2 SB20-03P

R17 680 1 CS 2 ES 3 CT 4 GND

8 CD 7 SI 6 V+ 5 INVIN

C2 470

L1 HK08S050-2010

C10 0.001

D6 SB20-03P

C22 0.1 C23 0.001

C16 0.15

C6 0.1

CP1

R5 10k R

G

C5 0.01

C12 470

DS1 VRPG3349S-734

C36 4.7

C24 0.1

C26 0.1 C27 0.001

IC1 MM1433EVBE

J4 CHGOUT CHGOUT DET2 BATT– DET1 BATT+ SW CONT THD

1 2 3 4 5 6 7 8 9 10 11 12

R23 10

SW

C14 0.001

C15 0.001

C25 0.001 R6 120k

C4 470

5.1v

R2 150

D3 MA2S111

C3 470p

R15 150k

Q1 2SB1184

C13 0.001

Q6 DTA114EE

IC2 NJM2360AM R16 47k

R21 560

Q5 DTA114EE

24 23 22 21 20 19 18 17 16 15 14 13

R19 0.15 (1W)

OSCFB– OSCOUT LEDR LEDG VOUT ADJ5 VCC CNT CFB CS BAT2 BAT1

F3 S-N5051

0.6V D1 SB20-03P

CHGSW RESET TP1 TP2 VREF GND1 GND2 ADJ1 ADJ2 ADJ3 ADJ4 TDET

F2 S-N5051 EXT. DC IN 13.5V

CHG OFF

5.2V

5.4V

13.5V (EXT DC)

C21 47

Q2 DTA114EE

R9 220k

D4 MA132WK

Q4 DTA114EE

4

1

3

2

R11 12k

R14 100k

DET1

C19 0.1

R12 2.7k

C18 0.1

C20 0.001

C28 0.1

R22 56k

C29 0.001

DET2

C30 0.1

Q3 UNR9214J

D5 DWA010

C31 0.001 DET1

MAIN UNIT

C32 0.1

DET2 CONT

CONT

SW

Q8 DTC114EE

SW

C34 0.1 C35 0.001

CHG ON 1.2V CHG OFF 0V

Explanatory notes

C33 0.001

VOLTAGE LINE

• TANSHI BOARD RL1: ON 0V RL1: OFF 5.1V

SBATT+

CP1

+ BATT+ BATT–

SBATT– CP2

RL1 A-5W-K D1 1SS53 R2 10k

DET1

CP3

BATT+

CP4

BATT–

CP5

DET2

CP6

–

BATT–

CONT

DET1 DET1

CHGOUT CHGOUT DET2 BATT– DET1 BATT+ 5V CONT THD

THD

to BC-156 MAIN unit J4

1 2 3 4 5 6 7 8 9

R1 0.15

DET2

J1

C1 0.047

+

– DET1

DET1

DET2

TANSHI BOARD

Explanatory notes VOLTAGE LINE

12 - 2

1 2 3 4 5 6 7 8 9

to TANSHI board J1

12-4 BC-156 BOARD LAYOUTS • MAIN UNIT (TOP VIEW)

1

1

CHGOUT CHGOUT DET2 J4 BATT– DET1 BATT+ SW CONT 9 THD to TANSHI BOARD J1

F1

• TANSHI BOARD (TOP VIEW)

CP2

CP4 CP3

9

THD CONT 5V J1 BATT+ DET1 BATT– DET2 CHGOUT 1 CHGOUT to BC-156 MAIN UNIT J4

CP5

CP6

CP1

12 - 3

• MAIN UNIT (BOTTOM VIEW)

12 - 4

1-1-32, Kamiminami, Hirano-ku, Osaka 547-0003, Japan Phone : +81 (06) 6793 5302 Fax : +81 (06) 6793 0013 URL : http://www.icom.co.jp/world/index.html

Icom America Inc.

Icom (Europe) GmbH

2380 116th Avenue N.E., Bellevue, WA 98004, U.S.A. Phone : +1 (425) 454-8155 Fax : +1 (425) 454-1509 URL : http://www.icomamerica.com E-mail : [email protected] Phone : +1 (425) 454-7619

Communication Equipment Himmelgeister Str. 100, D-40225 Dusseldorf, Germany Phone : +49 (0211) 346047 Fax : +49 (0211) 333639 URL : http://www.icomeurope.com E-mail : [email protected]

Icom Canada Glenwood Centre #150-6165 Highway 17 Delta, B.C., V4K 5B8, Canada Phone : +1 (604) 952-4266 Fax : +1 (604) 952-0090 URL : http://www.icomcanada.com E-mail : [email protected]

Icom (Australia) Pty. Ltd. A.B.N. 88 006 092 575 290-294 Albert Street, Brunswick, Victoria, 3056, Australia Phone : +61 (03) 9387-0666 Fax : +61 (03) 9387-0022 URL : http://www.icom.net.au E-mail : [email protected]

Icom New Zealand 146A Harris Road, East Tamaki, Auckland, New Zealand Phone : +64 (09) 274 4062 URL : http://www.icom.co.nz E-mail : [email protected]

Icom Spain S.L Crta. de Gracia a Manresa Km. 14,750 08190 Sant Cugat del Valles Barcelona, SPAIN Phone : +34 (93) 590 26 70 Fax : +34 (93) 589 04 46 URL : http://www.icomspain.com E-mail : [email protected]

Icom (UK) Ltd. Unit 9, Sea St., Herne Bay, Kent, CT6 8LD, U.K. Phone : +44 (01227) 741741 Fax : +44 (01227) 741742 URL : http://www.icomuk.co.uk E-mail : [email protected]

Icom France S.a Zac de la Plaine, 1, Rue Brindejonc des Moulinais BP 5804, 31505 Toulouse Cedex, France Phone : +33 (5) 61 36 03 03 Fax : +33 (5) 61 36 03 00 URL : http://www.icom-france.com E-mail : [email protected]

Asia Icom Inc. Fax : +64 (09) 274 4708

6F No.68, Sec. 1 Cheng-Teh Road, Taipei, Taiwan, R.O.C. Phone : +886 (02) 2559 1899 Fax : +886 (02) 2559 1874 URL : http://www.asia-icom.com E-mail : [email protected]

Beijing Icom Ltd.

Icom Polska

1305, Wanshang Plaza, Shijingshan Road, Beijing China Phone : +86 (010) 6866 6337 Fax : +86 (010) 6866 3553 URL : http://www.bjicom.com E-mail : [email protected]

Sopot, 3 Maja 54 Poland Phone : +48 (58) 550 7135 Fax : +48 (58) 551 0484 E-mail : [email protected]

1-1-32, Kamiminami, Hirano-ku, Osaka 547-0003, Japan

S-14104MZ-C1 © 2004 Icom Inc.