Yaesu FTM-350R Service Manual

VERTEX STANDARD CO., LTD.

4-8-8 Nakameguro, Meguro-Ku, Tokyo 153-8644, Japan

VERTEX STANDARD

US Headquarters

DUAL BAND FM TRANSCEIVER

FTM-350R/E

Technical Supplement

©2010 VERTEX STANDARD CO., LTD.

EH033M90B

10900 Walker Street, Cypress, CA 90630, U.S.A.

YAESU UK LTD.

Unit 12, Sun Valley Business Park, Winnall Close
Winchester, Hampshire, SO23 0LB, U.K.

VERTEX STANDARD HK LTD.

Unit 5, 20/F., Seaview Centre, 139-141 Hoi Bun Road,
Kwun Tong, Kowloon, Hong Kong

VERTEX STANDARD (AUSTRALIA) PTY., LTD.

Normanby Business Park, Unit 14/45 Normanby Road
Notting Hill 3168, Victoria, Australia

Introduction

This manual provides technical information necessary for ser­vicing the FTM-350R/E Dual Band FM Transceiver.

Servicing this equipment requires expertise in handling sur­face-mount chip components. Attempts by non-qualified per­sons to service this equipment may result in permanent dam­age not covered by the warranty, and may be illegal in some
countries.

Two PCB layout diagrams are provided for each double-sided circuit board in the Transceiver. Each side of is
referred to by the type of the majority of components installed on that side (“leaded” or “chip-only”). In most
cases one side has only chip components, and the other has either a mixture of both chip and leaded compo­nents (trimmers, coils, electrolytic capacitors, ICs, etc.), or leaded components only.

While we believe the technical information in this manual to be correct, VERTEX STANDARD assumes no
liability for damage that may occur as a result of typographical or other errors that may be present. Your
cooperation in pointing out any inconsistencies in the technical information would be appreciated.

Important Note

The transceiver was assembled using Pb (lead) free solder, based on the RoHS specification.
Only lead-free solder (Alloy Composition: Sn-3.0Ag-0.5Cu) should be used for repairs performed on this appara­tus. The solder stated above utilizes the alloy composition required for compliance with the lead-free specification,
and any solder with the above alloy composition may be used.

Contents

Specifications ...................................................... 2

Exploded View & Miscellaneous Parts ............ 5

Block Diagram .................................................... 7

Alignment ............................................................ 9

Board Unit (Schematics, Layouts & Parts)

MAIN Unit Circuit Diagram (Lot.1~) ................... 17

MAIN Unit Parts Layout (Lot.1~) ......................... 19

MAIN Unit Circuit Diagram (Lot.5~) ................... 21

MAIN Unit Parts Layout (Lot.5~) ......................... 23

MAIN Unit Parts List ............................................ 25

PANEL Unit Circuit Diagram (Lot.1~) ................. 57

PANEL Unit Parts Layout (Lot.1~) ...................... 58

PANEL Unit Circuit Diagram (Lot.12~) ............... 59

PANEL Unit Parts Layout (Lot.12~) .................... 60

PANEL Unit Parts List ..........................................61

PANEL-R Unit Circuit Diagram (Lot.1~) ............. 67

PANEL-R Unit Parts Layout (Lot.1~) .................. 68

PANEL-R Unit Circuit Diagram (Lot.6~) ............. 69

PANEL-R Unit Parts Layout (Lot.6~) .................. 70

PANEL-R Unit Circuit Diagram (Lot.12~) ........... 71

PANEL-R Unit Parts Layout (Lot.12~) ................ 72

PANEL-R Unit Parts List ...................................... 73

1

Specifications

General

Frequency Ranges: RX: 0.5-1.8 MHz (AM Radio)

76-108 MHz (FM Radio)
108-137 MHz (Air Band)
137-174 MHz (144 MHz HAM Band)
174-250 MHz (VHF TV Band)
300-420 MHz (General 1)
420-470 MHz (430 MHz HAM Band)
470-800 MHz (UHF TV Band)
800-1000 MHz (General 2: USA Cellular Blocked)

TX: 144-146(148) MHz (Ham Band)

222-225 MHz (USA only)
430-440(450) MHz (Ham Band)

Channel Steps: 5, 6.25, 8.33, (9), 10, 12.5, 15, 20, 25, 50, 100, 200 kHz

(9): AM Radio Only

Frequency Stability: ±5ppm (14 °F to +140 °F [–10 °C to +60 °C])
Repeater Shift: ±600 kHz (144 MHz)

±1.6 / 5.0 / 7.6 MHz (430 MHz)

Emission Type: F1, F2, F3,
Antenna Impedance: 50 
Supply Voltage: Nominal: 13.8 V DC, Negative Ground

Operating: 11.7 ~ 15.8 V, Negative Ground

Current Consumption: 0.5 A (Receive)

10 A (TX, 144 MHz 50W)
10 A (TX, 430 MHz 50W)

Operating Temperature: –4 °F to +140 °F (–20 °C to +60 °C)
Case Size (WxHxD): Panel: 6.2” x 2.6” x 1.3” (157 x 66 x 33.5 mm) w/o knob & connectors

Rear Chassis: 5.5” x 1.8” x 5.9” (140 x 46 x150 mm) w/o connectors

Weight (Approx.) 4.6 lbs (2.1 kg) Panel + Rear Chassis + Connection Cable

Transmitter

RF Power Output: 50 / 20 / 5 W
Modulation Type: Variable Reactance F1, F2, F3
Maximum Deviation: ±5 kHz
Spurious Emission: At least 60 dB below
Microphone Impedance:2 k

2

Receiver

Circuit Type: Double-Conversion Super heterodyne (FM/AM)

Triple-Conversion Super heterodyne (WFM)
Single-Conversion Super heterodyne (Radio)

Intermediate Frequencies: 1st: 47.25 MHz, 2nd: 450 kHz (“Main Side” Band, FM/AM)

1st: 44.85 MHz, 2nd: 450 kHz (“Sub Side” Band, FM/AM)
1st: 45.8 MHz, 2nd: 10.7MHz, 3rd: 1MHz (“Main Side” Band, WFM)
1st: 44.0 MHz, 2nd: 10.7MHz, 3rd: 400 kHz (“Sub Side” Band, WFM)
1st: 130 kHz (FM Radio)
1st: 50 kHz (AM Radio)

Sensitivity:5 μV TYP for 10 dB SN (0.5-1.7 MHz, AM)

2 μV TYP for 12 dB SINAD (76-108 MHz, WFM)

0.8 μV TYP for 10 dB SN (108-137 MHz, AM)

0.2 μV for 12 dB SINAD (137-140 MHz, FM)

0.2 μV for 12 dB SINAD (140-150 MHz, FM) EXP

0.25 μV for 12 dB SINAD (150-174 MHz, FM)
1 μV TYP for 12 dB SINAD (174-222 MHz, WFM)

0.8 μV TYP for 10 dB SN (300-336 MHz, AM)

0.25 μV TYP for 12 dB SINAD (336-420 MHz, FM)

0.2 μV for 12 dB SINAD (420-470 MHz, FM) EXP
5 μV TYP for 12 dB SINAD (470-540 MHz, WFM)
5 μV TYP for 12 dB SINAD (540-800 MHz, WFM)

0.4 μV TYP for 12 dB SINAD (800 -899.99 MHz, FM)

0.8 μV TYP for 12 dB SINAD (800 -999.99 MHz, FM)
USA Version Cellular Blocked

Squelch Sensitivity: 0.16 μV (144 / 430 MHz Band)
Selectivity (NFM, AM): 12 kHz / 30 kHz (–6 dB / –60 dB)
AF Output: 8 W @ 8  for 10 % THD (@ 13.8 V) BTL EXP SP

4 W @ 4  for 10 % THD (@ 13.8 V) Normal EXP SP

AF Output Impedance: 4-16 

Specifications

Specifications are subject to change without notice, and are guaranteed within the 144/222/430 MHz amateur bands
only.

Cellular Blocked per FCC rule Part 15.121, may not receive 900 MHz Amateur band.

3

Note

4

No. VXSTD P/N Description Qty.

①

U9900236 BIND HEAD TAPTITE-B 2.6X20SUS 4

②

U24208020 BIND HEAD TAPTITE-B 2.6X8SUS 2

③

U24206002 BIND HEAD TAPTITE-B M2.6X6NI 7

④

U51416007 HEX SOCKET HEAD BOLT M4X16B 4

⑤

U71004007 SPRING LOCK WASHER SW4B 4

⑥

U24206002 BIND HEAD TAPTITE-B M2.6X6NI 2

⑦

U24308002 BIND HEAD TAPTITE-B M3X8NI 14

⑧

U03310002 SEMS SCREW ASM3X10NI 4

RA101470A
LIGHT GUIDE (LCD)

RA1016100
DIFFUSER SHEET

Q7000620
LCD MODULE

RA1015500
LCD HOLDER

RA1015800
LCD SPACER

RA1014800
WINDOW

RA113760A
CAP (BLUE)

RA113740A
CAP (BLACK)

RA0111400
RING NUT

RA1138900
VOLUME KNOB (ASSY)

RA1139200
ENCODER KNOB (ASSY)

RA1165900
SHEET (ENC) (2 pcs)

RA1140200
FRONT PANEL (PRINT-Y)

VXSTD P/N Description
D6000055 BRACKET (MMB-36)
CB0297000 SCREW SET
S5000297 HEXAGON WRENCH KEYS
Q0000151 FUSE 15A
AAA43X002 MICROPHONE (MH-48A6JA)
T9021715 DC CABLE
T9101588 CT CABLE AH033M 3M8PM
T9101574 CT CABLE 3.5 3P-2X3.5 3J

CP9235002 (USA)
CP9235003 (EXP)
CP9235004 (EU)
CP9235005 (AUS)
PANEL ASSY

RA101600A
REFLECTOR SHEET

RA113760A
CAP (BLUE)

RA1142500
BLIND SHEET (MIC)

RA101490A
LIGHT GUIDE (2 pcs)

RA113740A
CAP (BLACK)

RA101510B
RUBBER KNOB

ACCESSORIES

RA1015700
TERMINAL PLATE (4 pcs)

RA088510A
SP NET (2 pcs)

M4090183
SPEAKER (2 pcs)

CS2063102 (USA)
CS2063103 (EXP)
CS2063104 (EU)
CS2063105 (AUS)

RA1137700
RUBBER KNOB (SIDE) (2 pcs)

FRONT PANEL ASSY

CS2064101
REAR PANEL ASSY









RA1015400
MIC HOLDER RUBBER

U60600207
HEX NUT N6B #2 (3)

U9900249
TOOTHED LOCK
WASHER M10 (3)

U03512007
SEMS SCREW
ASM5X12B (3)

RA106080A
COVER (SUCKER)

RA1060700
RUBBER BOOTS (SUCKER)







PANEL-UNIT





PANEL-R-UNIT

RA106090A
ROTARY KNOB (SUCKER)

U9900250
PLAIN WASHER M10 (3)

RA1061000
HOLDER PLATE (SUCKER)

RA1061300
SPACER (SUCKER)



RA0924400
SPONGE RUBBER (BT)

RA1061200
PAD (SUCKER)

RA106110A
SHEET (SUCKER)

RA1223600
MASK SHEET (FPR) (2 pcs)

RA101500A
CAP (GPS)



RA1137300
REAR PANEL

RA1058400
GASKET (6612)







RA101190A
CHASSIS

Exploded View & Miscellaneous Parts



RA1012000
COVER

RA1016200
SP NET

M4090207
SPEAKER

RA0283900
SPONGE RUBBER (SP-B)
RA1265000 (EU Type)
SPONGE RUBBER (SP-CE)























R1103700
PAD (101006)

R0932500
LEAF SPRING



P1091172
CONNECTOR





RA0924400
SPONGE RUBBER (BT)

RA022750A
HOLDER PLATE(SP)



RA1166000
SPONGE RUBBER





















5

Note

6

Block Diagram

7

Note

8

Alignment

Introduction

The FTM-350R/E is carefully aligned at the factory
for the specified performance across the amateur
band. Realignment should therefore not be neces­sary except in the event of a component failure. Only
an authorized Vertex Standard representative should
perform all component replacement and service, or
the warranty policy may be void.

The following procedures cover the adjustments that
are not normally required once the transceiver has
left the factory. However, if damage occurs and some
parts subsequently are replaced, realignment may
be required. If a sudden problem occurs during nor­mal operation, it is likely due to component failure;
realignment should not be done until after the faulty
component has been replaced.

We recommend that servicing be performed only by
authorized Vertex Standard service technicians who
are experienced with the circuitry and fully equipped
for repair and alignment. If a fault is suspected, con­tact the dealer from whom the transceiver was pur­chased for instructions regarding repair. Authorized
Vertex Standard service technicians realign all cir­cuits and make complete performance checks to en­sure compliance with factory specifications after re­placing any faulty components.

Those who do undertake any of the following align­ments are cautioned to proceed at their own risk.
Problems caused by unauthorized attempts at re­alignment are not covered by the warranty policy.
Also, Vertex Standard reserves the right to change
circuits and alignment procedures in the interest of
improved performance, without notifying owners.

Required Test Equipment

The following test equipment (and familiarity with
its use) is necessary for complete realignment. Cor­rection of problems caused by misalignment result­ing from use of improper test equipment is not cov­ered under the warranty policy. While most steps
do not require all of the equipment listed, the inter­actions of some adjustments may require that more
complex adjustments be performed afterwards.
Do not attempt to perform only a single step unless
it is clearly isolated electrically from all other steps.
Have all test equipment ready before beginning and,
follow all of the steps in a section in the order pre­sented.
 RF Signal Generator with calibrated output level

at 1 GHz

 Deviation Meter (linear detector)
 In-line Wattmeter with 5% accuracy at 1 GHz
 50-Ohm 100-W RF Dummy Load
 4-Ohm AF Dummy Load
 Regulated DC Power Supply adjustable from 11.5

to 16 VDC, 15A

 Frequency Counter: 0.2-ppm accuracy at 1 GHz
 AF Signal Generator
 AC Voltmeter
 DC Voltmeter: high impedance
 SINAD Meter

Under no circumstances should any alignment be
attempted unless the normal function and operation
of the transceiver are clearly understood, the cause
of the malfunction has been clearly pinpointed and
any faulty components replaced, and realignment
determined to be absolutely necessary.

9

Alignment

Alignment Preparation & Precautions

A 50-Ohm RF load and in-line wattmeter must be
connected to the antenna jack in all procedures that
call for transmission; alignment is not possible with
an antenna. After completing one step, read the next
step to see if the same test equipment is required. If
not, remove the test equipment (except dummy load
and wattmeter, if connected) before proceeding.

Correct alignment requires that the ambient tem­perature be the same as that of the transceiver and
test equipment, and that this temperature be held
constant between 68 °F ~ 86 °F (20 °C ~ 30 °C). When
the transceiver is brought into the shop from hot or
cold air, it should be allowed some time to come to
room temperature before alignment. Whenever pos­sible, alignments should be made with oscillator
shields and circuit boards firmly affixed in place.
Also, the test equipment must be thoroughly
warmed up before beginning.

Entering the Alignment Mode

Alignment of the FTM-350R/E is performed using a
front panel software-based procedure. To perform
alignment of the transceiver, it must first be placed
in the “Alignment Mode,” in which the adjustments
will be made and then stored into memory.

To enter the Alignment mode:

1. Turn the radio on while pressing and holding the two

keys which are located on both sides of the [POWER]
switch.

2. Press the keys on the front panel in the following se­quence.

[]  []  []  []  []  []

Note: Signal levels in dB referred to in the alignment
procedure are based on 0dBµ = 0.5µV.

Test Setup

Set up the test equipment as shown below for trans­ceiver alignment. Maintain the supply voltage at

13.8V DC for all steps.

50-ohm

Dummy Load

Freq. Counter

Deviation

Meter

AC Voltmeter

Inline

Wattmeter

Regulated

13.8V PSU

Sampling

Coupler

AF Generator

AC Voltmeter

[][]

3. The transceiver is now in the “Alignment Mode.”

10

MIC Jack

Alignment

VCO VCV Adjustment

Connect the DC voltmeter to TP1302 (MAIN) and
TP1301 (SUB). Referring to the table below, tune the

transceiver to each frequency listed. Confirm that the
correct voltage is present, or adjust the listed setting
for the required voltage.

MAIN

Tune to: TX/RX for

440.05 MHz RX 2.6 ± 0.25 V

440.00 MHz TX 1.9 ± 0.25 V

146.05 MHz RX 1.7 ± 0.25 V

146.00 MHz TX 1.5 ± 0.25 V

SUB

Tune to: TX/RX for

440.05 MHz RX 2.6 ± 0.30 V

395.05 MHz RX 1.9 ± 0.25 V

146.05 MHz RX 1.4 ± 0.25 V

190.05 MHz RX 1.4 ± 0.25 V

DC Voltmeter

1. Set the power supply voltage to 13.8 V.
[

2. Press the

Item to “

3. Press and hold in the

to save the new setting.

TX Power Adjustment

1. Press the

Item to “

2. Set the transceiver frequency to 440.000 MHz.

3. Press the

4. Press the PTT switch to activate the transmitter,

adjust the left DIAL knob so that the RF Power

Meter reading is 5 W (± 0.5 W).

5. Press the

6. Press the PTT switch to activate the transmitter,

adjust the left DIAL knob so that the RF Power

Meter reading is 20 W (± 0.5 W).

7. Press the

8. Press the PTT switch to activate the transmitter,

adjust the left DIAL knob so that the RF Power

Meter reading is 50 W (± 0.5 W).

9. Set the transceiver frequency to 146.000 MHz.

10.Press the

11.Press the PTT switch to activate the transmitter,

adjust the left DIAL knob so that the RF Power

Meter reading is 5 W (± 0.5 W).

12.Press the

13.Press the PTT switch to activate the transmitter,

adjust the left DIAL knob so that the RF Power

Meter reading is 20 W (± 0.5 W).

14.Press the

15.Press the PTT switch to activate the transmitter,

adjust the left DIAL knob so that the RF Power

Meter reading is 50 W (± 0.5 W).

BAT UPBAT UP

BAT UP”.

BAT UPBAT UP

[

FWD

[

BCK

[

ADJ

PWR xxxPWR xxx

PWR xxx”.

PWR xxxPWR xxx

ADJ

]

key

]

key

]

key

[

ADJ

[

POW

[

POW

[

POW

[

POW

[

POW

[

POW

]

key to set the alignment Menu

[

]

FWD

key for one second,

]

key to set the alignment Menu

]

key to select "LOW".

]

key to select "MID".

]

key to select "HIGH".

]

key to select "LOW".

]

key to select "MID".

]

key to select "HIGH".

TP1302 TP1301

The following steps is USA Version only.

16.Set the transceiver frequency to 223.550 MHz.

17.Press the PTT switch to activate the transmitter,

adjust the left DIAL knob so that the RF Power

Meter reading is 1 W (± 0.1 W).

11

Alignment

PLL Reference Frequency

1. Set the transceiver frequency to 440.000 MHz.
[

2. Press the

3. Press the

Item “

4. Press the PTT switch to activate the transmitter,

adjust the left DIAL knob, if necessary, so the

counter frequency is within 100 Hz of 440.000
MHz.

5. Press and hold in the

to set the alignment Menu Item “

6. Set the transceiver frequency to 440.050 MHz.

7. Press the

8. Rotate the left DIAL knob to select Menu Item "TX/

RX".

9. Press the left DIAL knob, then rotate the left DIAL

knob to select "B08 WIDE/NARROW AUTO".

10.Press the left DIAL knob, then rotate the left DIAL

knob to select "AUTO (FM)".

11.Press the

setting.

12.Connect the frequency counter fed through the

0.001μF capactor to the TP1303.

13.Adjust the left DIAL knob, as needed, so that the

counter frequency reading is 395.200 MHz (±100
Hz).

RF Front-end Tuning

1. Connect the DC voltmeter to TP1401 (MAIN) and

TP1601 (SUB) on the MAIN unit, then inject a

439.050 MHz signal at a level of +10 dBμV (with 1
kHz modulation ± 3.5 kHz deviation) from the
RF signal generator.

2. Set the transceiver frequency to 439.050 MHz.

3. Press the

Item “

4. Adjust the left DIAL knob for maximum deflec-

tion on the DC Voltmeter and then turn the dial
in the opposite direction until the meter deflec­tion drops slightly lower than maximum.

5. Set the transceiver and RF signal generator fre-

quency to 145.050 MHz.

6. Adjust the left DIAL knob for maximum deflec-

tion on the DC Voltmeter and then turn the dial
in the opposite direction until the meter deflec­tion drops slightly low

7. Set the RF signal generator frequency to 439.050

MHz.

REFA xxxREFA xxx

REFA xxx”.

REFA xxxREFA xxx

TUNA xxxTUNA xxx

TUNA xxx”.

TUNA xxxTUNA xxx

]

POW

key to select "LOW".

[

]

ADJ

key to set the alignment Menu

[

]

ADJ

key for one second,

[

]

SET

key to enter the SET mode.

[

]

ESC

key repeatedly, to save the new

[

]

ADJ

key to set the alignment Menu

er than maximum.

REFB xxxREFB xxx

REFB xxx”.

REFB xxxREFB xxx

8. Set the transceiver frequency to 439.050 MHz of

the SUB Band.

[

9. Press and hold in the
ment Menu Item “

10.Adjust the left DIAL knob for maximum deflec-

tion on the DC Voltmeter and then turn the dial
in the opposite direction until the meter deflec­tion drops slightly lower than maximum.

11.Set the transceiver and RF signal generator fre­quency to 145.050 MHz.

12.Adjust the left DIAL knob for maximum deflec-

tion on the DC Voltmeter and then turn the dial
in the opposite direction until the meter deflec­tion drops slightly lower than maximum.

Squelch Threshold Level

1. Set the RF signal generator to 440.050 MHz. Set
the generator for ±3.5 kHz deviation of a 1 kHz
modulation tone, and set the RF output level from
the signal generator to -12 dBμV.

2. Set the transceiver frequency to 440.050 MHz.

3. Press the

4. Rotate the left DIAL knob to select Menu Item "TX/

RX".

5. Press the left DIAL knob, then rotate the left DIAL

knob to select "B08 WIDE/NARROW AUTO".

6. Press the left DIAL knob, then rotate the left DIAL

knob to select "AUTO (FM)".

7. Press the
setting and exit the Menu mode.

8. Press the
Item “

9. Press the

10.Increase the output level of the signal generator
up to -4 dBμV.

11.Press the

12.Set the transceiver and RF signal generator fre­quency to 146.050 MHz.

13.Increase the output level of the signal generator
up to -12 dBμV.

14.Press the
Item “

15.Press the

16.Increase the output level of the signal generator
up to -4 dBμV.

17.Press the

[

SET

[

ESC

[

ADJ

SQLA U DSQLA U D

SQLA U D”.

SQLA U DSQLA U D

[

BCK

[

FWD

[

ADJ

SQLA U DSQLA U D

SQLA U D”.

SQLA U DSQLA U D

[

BCK

[

FWD

TUNB xxxTUNB xxx

TUNB xxx”.

TUNB xxxTUNB xxx

]

key to enter the SET mode.

]

key repeatedly, to save the new

]

key to set the alignment Menu

]

key to save the new setting.

]

key to save the new setting.

]

key to set the alignment Menu

]

key to sav

]

key to save the new setting.

]

ADJ

key to set the align-

e the new setting.

12

Alignment

18.To change the mode to "WIDE FM", just repeat

steps 3 through 7 above, rotating the left DIAL

knob to select "WIDE FM" in step 6 above.

19.Set the RF signal generator to 440.050 MHz. Set
the generator for ±22.5 kHz deviation of a 1 kHz
modulation tone, and set the RF output level from
the signal generator to -1 dBμV.

20.Set the transceiver frequency to 440.050 MHz.

[

21.Press the
Item “

22.Press the

23.Increase the output level of the signal generator
up to +7 dBμV.

24.Press the

25.Set the transceiver and RF signal generator fre­quency to 146.050 MHz.

26.Increase the output level of the signal generator
up to -1 dBμV.

27.Press the
Item “

28.Press the

29.Increase the output level of the signal generator
up to +7 dBμV.

30.Press the

31.Press and hold in the
to set the alignment Menu Item “

32.Just repeat all steps above, in "SUB BAND".

SQLA U DSQLA U D

SQLA U D”.

SQLA U DSQLA U D

SQLA U DSQLA U D

SQLA U D”.

SQLA U DSQLA U D

ADJ

[

BCK

[

FWD

[

ADJ

[

BCK

[

FWD

]

key to set the alignment Menu

]

key to save the new setting.

]

key to save the new setting.

]

key to set the alignment Menu

]

key to save the new setting.

]

key to save the new setting.

[

]

ADJ

key for one second,

SQLB U DSQLB U D

SQLB U D”.

SQLB U DSQLB U D

S-Meter Calibration

1. Set the RF signal generator to 440.050 MHz. Set
the generator for ±3.5 kHz (±22.5 kHz for Wide
FM) deviation of a 1 kHz modulation tone, and
set the RF output level from the signal generator
to -5 dBμV.

2. Set the transceiver frequency to 440.050 MHz.

[

3. Press the

4. Rotate the left DIAL knob to select Menu Item "TX/

RX".

5. Press the left DIAL knob, then rotate the left DIAL

knob to select "B08 WIDE/NARROW AUTO".

6. Press the left DIAL knob, then rotate the left

knob to select "AUTO (FM)".
Press the

7.
setting and exit the Menu mode.

8. Press the
Item “

9. Press the

10.Increase the output level of the signal generator
up to +23 dBμV.

11.Press the

12.To change the mode to "WIDE FM", just repeat

steps 3 through 7 above, rotating the left DIAL

knob to select "WIDE FM" in step 6 above.

13.Increase the output level of the signal generator
up to 0 dBμV.

14.Press the

15.Increase the output level of the signal generator
up to +23 dBμV.

16.Press the

17.To change the mode to "FM", just repeat steps 3

through 7 above, rotating the left DIAL knob to

select "FM" in step 6 above.

18.Set the transceiver and RF signal generator fre­quency to 146.050 MHz.

19.Increase the output level of the signal generator
up to -5 dBμV.

20.Press the

21.Increase the output level of the signal generator
up to +23 dBμV.

22.Press the

23.To change the mode to "WIDE FM", just repeat

steps 3 through 7 above, rotating the left DIAL

knob to select "WIDE FM" in step 6 above.

24.Increase the output level of the signal generator
up to 0 dBμV.

25.Press the

SMA U DSMA U D

SMA U D”.

SMA U DSMA U D

]

SET

key to enter the SET mode.

[

]

ESC

key repeatedly, to save the new

[

]

ADJ

key to set the alignment Menu

[

]

BCK

key to save the new setting.

[

]

FWD

key to save the new setting.

[

]

BCK

key to save the new setting.

[

]

FWD

key to save the new setting.

[

]

BCK

key to save the new setting.

[

]

FWD

key to save the new setting.

[

]

BCK

key to save the new setting.

DIAL

13

Alignment

26.Increase the output level of the signal generator
up to +23 dBμV.

[

27.Press the

28.Press and hold in the
to set the alignment Menu Item “

29.Just repeat all steps above, in "SUB BAND".

]

FWD

key to save the new setting.

[

]

ADJ

key for one second,

SMB U DSMB U D

SMB U D”.

SMB U DSMB U D

TX Deviation

1. Inject a 1 kHz, 80 mV signal from the Audio Gen­erator.

2. Set the transceiver frequency to 440.050 MHz.

3. Press the

4. Press the
Item “

5. Press the PTT switch to activate the transmitter,
adjust the left DIAL knob so that the Deviation

Meter reading is 4.5 kHz (±0.2 kHz) (USA Ver­sion: 4.2 kHz (±0.2 kHz).

6. Set the transceiver frequency to 146.050 MHz.

7. Press the PTT switch to activate the transmitter,
adjust the left DIAL knob so that the Deviation

Meter reading is 4.5 kHz (±0.2 kHz) (USA Ver­sion: 4.2 kHz (±0.2 kHz).

The following steps is USA Version only.

8. Set the transceiver frequency to 223.550 MHz.

9. Press the PTT switch to activate the transmitter,
adjust the left DIAL knob so that the Deviation

Meter reading is 4.2 kHz (±0.2 kHz).

[

DEV xxxDEV xxx

DEV xxx”.

DEV xxxDEV xxx

POW

[

ADJ

]

key to select "LOW".

]

key to set the alignment Menu

14

CTCSS TX Deviation

1. Set the transceiver frequency to 440.050 MHz.

2. Press the

3. Press and hold in the
change the [

the "SQL" functions.

4. Press the [

ENC" notation appears.

5. Press the
knob to select "100.0 Hz".

6. Press the

7. Press the
Item “

Rotate the left DIAL knob to select "

8.

9. Press the
Item “

10.Press the PTT switch to activate the transmitter,
adjust the left DIAL knob so that the Deviation

Meter reading is 0.65 kHz ~ 0.75 kHz.

11.Set the transceiver frequency to 146.050 MHz.

12.Press the

13.Press and hold in the
change the [

the "SQL" functions.

14.Press the [

ENC" notation appears.

[

[

[

MOD xxxMOD xxx

MOD xxx”.

MOD xxxMOD xxx

CTC xxxCTC xxx

CTC xxx”.

CTC xxxCTC xxx

[

]

POW

TYPE] key repeatedly, until the "TONE

TFRQ] key, then rotate the right DIAL

ESC

[

[

POW

TYPE] key repeatedly, until the "TONE

key to select "LOW".

[F] key for two seconds to

SMART FUNCTION

]

key to save the new setting.

]

ADJ

key to set the alignment Menu

]

ADJ

key to set the alignment Menu

]

key to select "LOW".

[F] key for two seconds to

SMART FUNCTION

] key category to

MOD 10EHMOD 10EH

MOD 10EH".

MOD 10EHMOD 10EH

] key category to

Alignment

15.Press the
knob to select "100.0 Hz".

16.Press the

17.Press the
Item “

18.Rotate the left DIAL knob to select "

19.Press the
Item “

20.Press the PTT switch to activate the transmitter,
adjust the left DIAL knob so that the Deviation

Meter reading is 0.65 kHz ~ 0.75 kHz.

The following steps is USA Version only.

21.Set the transceiver frequency to 223.550 MHz.

22.Press and hold in the
change the [

the "SQL" functions.

23.Press the [

ENC" notation appears.

24.Press the
knob to select "100.0 Hz".

25.Press the

26.Press the
Item “

27.Rotate the left DIAL knob to select "

8.Press the

2

Item “

29.Press the PTT switch to activate the transmitter,
adjust the left DIAL knob so that the Deviation

Meter reading is 0.65 kHz ~ 0.75 kHz.

[

TFRQ] key, then rotate the right DIAL

[

]

ESC

key to save the new setting.

[

]

ADJ

key to set the alignment Menu

MOD xxxMOD xxx

MOD xxx”.

MOD xxxMOD xxx

MOD 136HMOD 136H

MOD 136H".

MOD 136HMOD 136H

[

]

ADJ

key to set the alignment Menu

CTC xxxCTC xxx

CTC xxx”.

CTC xxxCTC xxx

[F] key for two seconds to

SMART FUNCTION

TYPE] key repeatedly, until the "TONE

[

TFRQ] key, then rotate the right DIAL

[

]

ESC

key to save the new setting.

[

]

ADJ

key to set the alignment Menu

MOD xxxMOD xxx

MOD xxx”.

MOD xxxMOD xxx

[

]

ADJ

key to set the alignment Menu

CTC xxxCTC xxx

CTC xxx”.

CTC xxxCTC xxx

] key category to

MOD 126HMOD 126H

MOD 126H".

MOD 126HMOD 126H

DCS TX Deviation

1. Set the transceiver frequency to 440.050 MHz.
[

2. Press the

3. Press and hold in the

change the [

the "SQL" functions.

4. Press the [

notation appears.

5. Press the

6. Press the

Item “

7. Rotate the left DIAL knob to select "

8. Press the

Item “

9. Press the PTT switch to activate the transmitter,

adjust the left DIAL knob so that the Deviation

Meter reading is 0.60 kHz ~ 0.80 kHz.

10.Set the transceiver frequency to 146.050 MHz.

11.Press the

12.Press and hold in the

change the [

the "SQL" functions.

Press the [

13.

notation appears.

14.Press the

15.Press the

Item “

16.Rotate the left DIAL knob to select "

17.Press the

Item “

18.Press the PTT switch to activate the transmitter,

adjust the left DIAL knob so that the Deviation

Meter reading is 0.60 kHz ~ 0.80 kHz.

MOD xxxMOD xxx

MOD xxx”.

MOD xxxMOD xxx

DCS xxxDCS xxx

DCS xxx”.

DCS xxxDCS xxx

MOD xxxMOD xxx

MOD xxx”.

MOD xxxMOD xxx

DCS xxxDCS xxx

DCS xxx”.

DCS xxxDCS xxx

]

POW

key to select "LOW".

[F] key for two seconds to

SMART FUNCTION

TYPE] key repeatedly, until the "DCS"

[

]

ESC

key to save the new setting.

[

]

ADJ

key to set the alignment Menu

[

]

ADJ

key to set the alignment Menu

[

]

POW

key to select "LOW".

[F] key for two seconds to

SMART FUNCTION

TYPE] key repeatedly, until the "DCS"

[

]

ESC

key to save the new setting.

[

]

ADJ

key to set the alignment Menu

[

]

ADJ

key to set the alignment Menu

] key category to

MOD 10EHMOD 10EH

MOD 10EH".

MOD 10EHMOD 10EH

] key category to

MOD 136HMOD 136H

MOD 136H".

MOD 136HMOD 136H

The following steps is USA Version only.

19.Set the transceiver frequency to 223.550 MHz.

20.Press and hold in the

change the [

the "SQL" functions.

21.Press the [

notation appears.

22.Press the

23.Press the

Item “

24.Rotate the left DIAL knob to select "

25.Press the

Item “

SMART FUNCTION

TYPE] key repeatedly, until the "DCS"

[

]

ESC

key to save the new setting.

[

]

ADJ

MOD xxxMOD xxx

MOD xxx”.

MOD xxxMOD xxx

[

]

ADJ

DCS xxxDCS xxx

DCS xxx”.

DCS xxxDCS xxx

[F] key for two seconds to

] key category to

key to set the alignment Menu

MOD 126HMOD 126H

MOD 126H".

MOD 126HMOD 126H

key to set the alignment Menu

15

Alignment

26.Press the PTT switch to activate the transmitter,
adjust the left DIAL knob so that the Deviation

Meter reading is 0.60 kHz ~ 0.80 kHz.

Center Meter Calibration

1. Set the RF signal generator to 440.050 MHz. Set
the generator for ±3.5 kHz (Narrow FM) or ±22.5
kHz (Wide FM) deviation of a 1 kHz modulation
tone, and set the RF output level from the signal
generator to +10 dBμV.

2. Set the transceiver frequency to 440.050 MHz.

[

3. Press the

4. Rotate the left DIAL knob to select Menu Item "TX/

RX".

5. Press the left DIAL knob, then rotate the left DIAL

knob to select "B08 WIDE/NARROW AUTO".

6. Press the left DIAL knob, then rotate the left DIAL

knob to select "AUTO (FM)".

7. Press the
setting and exit the Menu mode.

8. Press the
Item “

9. Press the

10.To change the mode to "NAR FM", just repeat

steps 3 through 7 above, rotating the left DIAL

knob to select "NAR FM" in step 6 above.

11.Press the

12.To change the mode to "WIDE FM", just repeat

steps 3 through 7 above, rotating the left DIAL

knob to select "WIDE FM" in step 6 above.

13.Press the

14.Press and hold in the
to set the alignment Menu Item “

15.Just repeat all steps above, in "SUB BAND".

VOX Alignment

1. Press the
Item “

2. Press the

CTRA UPCTRA UP

CTRA UP”.

CTRA UPCTRA UP

VOX UPVOX UP

VOX UP”.

VOX UPVOX UP

]

SET

key to enter the SET mode.

[

]

ESC

key repeatedly, to save the new

[

]

ADJ

key to set the alignment Menu

[

]

FWD

key to save the new setting.

[

]

FWD

key to save the new setting.

[

]

ADJ

key to save the new setting.

[

]

ADJ

key for one second,

[

]

ADJ

key to set the alignment Menu

[

]

FWD

key to save the new setting.

CTRB UPCTRB UP

CTRB UP”.

CTRB UPCTRB UP

16

To close the alignment mode, just turn the power off by

pressing and holding the POWER switch for two sec-

onds. The next time the transceiver is turned on, normal
operation will resume.

MAIN Unit (Lot. 1~4)

㻡㻚㻜㼂

㻝㻟㻚㻤㼂

㻝㻟㻚㻝㼂

㻝㻟㻚㻤㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻯㻸㻻㻯㻷㻿㻵㻲㼀

㻌㻌㻻㻺㻌㻦㻌㻜㼂

㻌㻌㻻㻲㻲㻦㻠㻚㻥㼂

㻟㻚㻡㼂

㻠㻚㻤㼂

㻟㻚㻝㼂

㻥㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻤㻚㻥㼂

㻡㻚㻜㼂

㻟㻚㻢㼂

㻝㻟㻚㻤㼂

㻥㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻠㻚㻥㼂

㻞㻚㻝㼂

㻞㻚㻝㼂

㻞㻚㻝㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻠㻚㻥㼂

㻠㻚㻥㼂

㻡㻚㻢㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻟㻚㻟㼂

㻞㻚㻡㼂

㻡㻚㻜㼂

㻨㻤㻚㻣㼂㻪

㻔㻥㻚㻜㼂㻕

㻥㻚㻜㼂

㻥㻚㻜㼂

㻥㻚㻜㼂

㻢㻚㻣㼂

㻠㻚㻣㼂

㻠㻚㻡㼂

㻜㻚㻡㼂

㻟㻚㻥㼂

㻠㻚㻟㼂

㻔㻥㻚㻜㼂㻕

㻔㻥㻚㻜㼂㻕

㻔㻜㻚㻠㼂㻕

㻥㻚㻜㼂

㻔㻣㻚㻤㼂㻕

㻔㻝㻚㻠㼂㻕

㼇㻝㻚㻤㼂㼉

㼇㻝㻚㻞㼂㼉

㼇㻝㻞㻚㻠㼂㼉

㼇㻝㻚㻥㼂㼉

㼇㻣㻚㻝㼂㼉

㼇㻝㻟㻚㻤㼂㼉

㼇㻝㻚㻟㼂㼉

㼇㻥㻚㻜㼂㼉

㼇㻝㻟㻚㻣㼂㼉

㼇㻝㻚㻣㼂㼉

㻝㻟㻚㻤㼂

㻨㻤㻚㻣㼂㻪

㻨㻝㻚㻠㼂㻪

㻨㻤㻚㻞㼂㻪

㻨㻣㻚㻞㼂㻪

㼇㻜㻚㻤㼂㼉

㻜㻚㻤㼂

㻜㻚㻟㼂

㻤㻚㻣㼂 㻝㻚㻞㼂㻌㻌㻝㻚㻢㼂

㻝㻚㻞㼂㻌㻌㻝㻚㻢㼂

㻜㻚㻠㻡㼂

㻜㻚㻠㻞㼂

㻜㻚㻟㼂

㻤㻚㻣㼂

㻤㻚㻣㼂

㻜㻚㻤㼂

㻥㻚㻜㼂
㻥㻚㻜㼂

㻥㻚㻜㼂

㻥㻚㻜㼂

㻥㻚㻜㼂

㻞㻚㻝㼂

㻡㻚㻜㼂

㻠㻚㻣㼂

㻞㻚㻝㼂

㻡㻚㻜㼂

㻞㻚㻝㼂

㻠㻚㻥㼂

㻠㻚㻥㼂

㻤㻚㻥㼂

㻤㻚㻥㼂

㻤㻚㻝㼂

㻤㻚㻝㼂

㻜㻚㻝㻤㼂

㻜㻚㻝㻤㼂

㻤㻚㻣㼂

㻤㻚㻣㼂

㻠㻚㻥㼂

㻠㻚㻣㼂

㻠㻚㻣㼂

㻢㻚㻜㼂

㻠㻚㻤㼂

㻡㻚㻜㼂

㻠㻚㻢㼂

㻠㻚㻥㼂

㻠㻚㻣㼂

㻢㻚㻜㼂

㻠㻚㻤㼂

㻜㻚㻤㼂

㻺㻭㻾㻾㻻㼃㻌㻡㻚㻜㼂

㻥㻚㻝㼂

㻜㻚㻠㼂

㻣㻚㻞㼂

㻣㻚㻞㼂

㻢㻚㻣㼂

㻠㻚㻣㼂

㻟㻚㻟㼂

㻠㻚㻣㼂

㻠㻚㻤㼂

㻞㻚㻝㼂

㻝㻚㻡㼂

㻜㻚㻜㼂

㼇㻝㼃㻌㻦㻌㻟㻚㻣㼂㼉

㼇㻤㻚㻡㼂㼉

㻡㻚㻟㼂

㻜㻚㻣㼂

㻜㻚㻣㼂㻟㻚㻡㼂

㻠㻚㻠㼂

㻞㻚㻤㼂

㻜㻚㻟㻢㼂

㻜㻚㻟㻣㼂

㻟㻚㻡㼂

㻞㻚㻤㼂

㻝㻚㻜㼂㻌㻌㻝㻚㻢㼂

㻝㻚㻜㼂㻌㻌㻝㻚㻢㼂

㻤㻚㻣㼂

㻤㻚㻞㼂

㻜㻚㻝㻣㼂

㻤㻚㻟㼂

㻜㻚㻝㻢㼂

㻤㻚㻢㼂

㻤㻚㻢㼂

㻜㻚㻣㼂

㻜㻚㻞㼂
㻜㻚㻤㼂
㻜㻚㻞㼂

㻞㻚㻠㼂

㻟㻚㻡㼂

㻤㻚㻟㼂

㻤㻚㻜㼂

㻜㻚㻤㼂

㻜㻚㻣㼂
㻜㻚㻣㼂

㻤㻚㻤㼂
㻤㻚㻤㼂

㻜㻚㻣㼂

㻤㻚㻞㼂

㻢㻚㻤㼂

㻌㻌㻌㻌㻖㻌㻖㻌㼂㻌㻦㻌㻾㼤㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻔㻌㻖㻌㻖㻌㼂㻌㻕㻌㻦㻌㻝㻠㻢㻹㻴㼦㻌㼀㼤㻌㻴㼕㻌㻼㼛㼣㼑㼞㻌㻌㻌㻌㻌㻌㻌㻌
㼇㻌㻖㻌㻖㻌㼂㻌㼉㻌㻦㻌㻞㻞㻟㻹㻴㼦㻌㼀㼤㻌㻼㼛㼣㼑㼞㻌㻌㻌㻌㻨㻌㻖㻌㻖㻌㼂㻪㻌㻦㻌㻠㻠㻜㻹㻴㼦㻌㼀㼤㻌㻴㼕㻌㻼㼛㼣㼑㼞㻌㻌㻌㻌㻌㻌

㻔㻤㻚㻠㼂㻕

㻔㻝㻟㻚㻞㼂㻕

㻨㻨㻹㻦㻌㻗㻝㻝㼐㻮㼡㼂㻌㻪㻪㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻠㻣㻚㻞㻡㻹㻴㼦㻌㻺㻲㻹㻌㻦㻌㻨㻨㻹㻦㻌㻗㻝㻥㼐㻮㼡㼂㻌㻪㻪

㻌㻌㻌㻌㻌㻌㻌㻨㻨㻹㻦㻌㻙㻝㼐㻮㼡㼂㻌㻪㻪㻌㻌㻌㻌㻌㻌㻨㻨㻹㻦㻌㻗㻝㻞㻚㻡㼐㻮㼡㼂㻌㻪㻪

㻔㻔㻌㻹㻌㻦㻌㻖㻌㻖㻌㼐㻮㼡㼂㻌㻕㻕㻌㻌㻦㻌㻹㻭㻵㻺㻌㻝㻠㻢㻹㻴㼦㻌㻾㼤㻌㻸㼑㼢㼑㼘㻌㻌㻌㻌㻌㻌㻌㻔㻔㻌㻿㻌㻦㻌㻖㻌㻖㻌㼐㻮㼡㼂㻌㻕㻕㻌㻌㻦㻌㻿㼁㻮㻌㻝㻠㻢㻹㻴㼦㻌㻾㼤㻌㻸㼑㼢㼑㼘
㻨㻨㻹㻌㻦㻌㻖㻌㻖㻌㼐㻮㼡㼂㻪㻪㻌㻌㻦㻌㻹㻭㻵㻺㻌㻠㻠㻜㻹㻴㼦㻌㻾㼤㻌㻸㼑㼢㼑㼘㻌㻌㻌㻌㻌㻌㻨㻨㻿㻌㻦㻌㻖㻌㻖㻌㼐㻮㼡㼂㻪㻪㻌㻌㻦㻌㻿㼁㻮㻌㻠㻠㻜㻹㻴㼦㻌㻾㼤㻌㻸㼑㼢㼑㼘㻌㻌㻌

㻔㻔㻌㻙㻤㼐㻮㼡㼂㻌㻕㻕
㻨㻨㻙㻥㼐㻮㼡㼂㻪㻪

㻠㻣㻚㻞㻡㻹㻴㼦㻌㻺㻲㻹㻌㻦㻌㻌㻔㻔㻹㻦㻌㻗㻝㻝㻚㻡㼐㻮㼡㼂㻌㻕㻕㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻔㻔㻹㻦㻌㻗㻟㻜㼐㻮㼡㼂㻕㻕
㻠㻣㻚㻞㻡㻹㻴㼦㻌㻺㻲㻹㻌㻦㻌㻨㻨㻹㻦㻌㻗㻥㻚㻡㼐㻮㼡㼂㻪㻪㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻨㻨㻹㻦㻌㻗㻞㻤㼐㻮㼡㼂㻪㻪

㻨㻨㻿㻦㻌㻗㻝㻞㼐㻮㼡㼂㻌㻪㻪

㻨㻨㻿㻦㻌㻙㻝㼐㻮㼡㼂㻌㻪㻪

㻠㻡㻚㻤㻹㻴㼦㻌㻺㻲㻹㻌㻦㻌㻨㻨㻿㻦㻌㻗㻝㻥㻚㻡㼐㻮㼡㼂㻌㻪㻪

㻨㻨㻿㻦㻌㻗㻝㻞㻚㻡㼐㻮㼡㼂㻌㻪㻪

㻠㻡㻚㻤㻹㻴㼦㻌㻺㻲㻹㻌㻦㻌㻌㻔㻔㻿㻦㻌㻗㻝㻠㼐㻮㼡㼂㻌㻕㻕㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻔㻔㻿㻦㻌㻗㻟㻞㻚㻡㼐㻮㼡㼂㻕㻕
㻠㻡㻚㻤㻹㻴㼦㻌㻺㻲㻹㻌㻦㻌㻨㻨㻿㻦㻌㻗㻣㻚㻡㼐㻮㼡㼂㻪㻪㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻌㻨㻨㻿㻦㻌㻗㻞㻢㼐㻮㼡㼂㻪㻪

㻔㻔㻹㻦㻌㻗㻞㻞㼐㻮㼡㼂㻌㻕㻕㻌㻌

㻔㻔㻹㻦㻌㻗㻡㼐㻮㼡㼂㻌㻕㻕㻌㻌

㻠㻣㻚㻞㻡㻹㻴㼦㻌㻺㻲㻹㻌㻦㻌㻔㻔㻹㻦㻌㻗㻞㻝㼐㻮㼡㼂㻌㻕㻕㻌

㻔㻔㻹㻦㻌㻗㻞㻝㻚㻡㼐㻮㼡㼂㻌㻕㻕㻌

㻠㻡㻚㻤㻹㻴㼦㻌㻺㻲㻹㻌㻦㻌㻔㻔㻿㻦㻌㻗㻞㻢㼐㻮㼡㼂㻌㻕㻕
㻔㻔㻿㻦㻌㻗㻞㻝㻚㻡㼐㻮㼡㼂㻌㻕㻕㻌㻌㻌

㻔㻔㻿㻦㻌㻗㻞㻞㼐㻮㼡㼂㻌㻕㻕㻌㻌

㻔㻔㻿㻦㻌㻗㻡㼐㻮㼡㼂㻌㻕㻕㻌

㻌

㻝㻚㻜㼂

㻾㼤㻹㼛㼐

㼃㼕㼐㼑
㻺㼛㼞㼙㼍㼘
㻺㼍㼞㼞㼛㼣

㻭㻹㻌

㻌䐟㻌㻌㻌㻌㻌㻌䐠㻌㻌㻌㻌㻌䐡㻌㻌㻌㻌㻌㻌䐢
㻜㻚㻡㼂㻌㻌㻌㻠㻚㻥㼂㻌㻌㻌㻌㻌㻜㼂㻌㻌㻌㻌㻌㻜㼂
㻠㻚㻥㼂㻌㻌㻌㻜㻚㻠㼂㻌㻌㻌㻌㻌㻜㼂㻌㻌㻌㻌㻌㻜㼂
㻠㻚㻥㼂㻌㻌㻌㻜㻚㻠㼂㻌㻌㻌㻠㻚㻥㼂㻌㻌㻌㻌㻌㻜㼂
㻠㻚㻥㼂㻌㻌㻌㻜㻚㻠㼂㻌㻌㻌㻌㻌㻜㼂㻌㻌㻌㻠㻚㻣㼂

䐟

䐠䐡

䐢

㻾㼤㻹㼛㼐㼑

㼃㼕㼐㼑
㻺㼛㼞㼙㼍㼘
㻺㼍㼞㼞㼛㼣

㻭㻹㻌

㻌䐣㻌㻌㻌㻌㻌㻌䐤㻌㻌㻌㻌㻌䐥㻌㻌㻌㻌㻌㻌䐦
㻜㻚㻝㼂㻌㻌㻌㻡㻚㻜㼂㻌㻌㻌㻌㻌㻜㼂㻌㻌㻌㻌㻌㻜㼂
㻡㻚㻜㼂㻌㻌㻌㻜㻚㻝㼂㻌㻌㻌㻌㻌㻜㼂㻌㻌㻌㻌㻌㻜㼂
㻡㻚㻜㼂㻌㻌㻌㻜㻚㻝㼂㻌㻌㻌㻡㻚㻜㼂㻌㻌㻌㻌㻌㻜㼂
㻡㻚㻜㼂㻌㻌㻌㻜㻚㻝㼂㻌㻌㻌㻌㻌㻜㼂㻌㻌㻌㻡㻚㻜㼂

㽷㽸㽶

㽹

㻥㻚㻜㼂

㻥㻚㻜㼂

㻥㻚㻜㼂㻥㻚㻜㼂

㻥㻚㻜㼂

㻥㻚㻜㼂

㻥㻚㻜㼂

㻥㻚㻜㼂

㻥㻚㻜㼂

㻥㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻥㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻡㻚㻜㼂

㻥㻚㻜㼂

Circuit Diagram

17

MAIN Unit (Lot. 1~4)

Note

18

BA DCE

MAIN Unit (Lot. 1~4)

Parts Layout (Side A)

HD64F2268TF20

(Q1880)

CMX589AD5

(Q1864)

M61529FP

(Q1469)

NJM2552V

(Q1609)

1

MB15A01PFV1

(Q1313, 1324)

M24512-RDW6TP

(Q1775)

M62429FP

(Q1621)

LM2902PWR

(Q1473, 1622, 1881)

2

CD4053BPWR

(Q1472, 1620,

1865)

BU2090FS

(Q1862, 1877)

CD4066BPWR

(Q1471, 1892)

LM2904PWR

(Q1777)

2SK296ZQ (ZQ)

(Q1002, 1007, 1008,

1009, 1010, 1011,

1013, 1301)

3

UMG8N (G8)

(Q1309)

2SC4617 (BR)

(Q1302, 1315, 1326,

1602, 1883, 1893)

4

5

2SC5006 (24)

(Q1012, 1014, 1016,

1018, 1019, 1209,
1212, 1304, 1305,
1308, 1316, 1317,
1320, 1450, 1600)

2SC5277 (D2)

(Q1015)

2SC3356 (R24)

(Q1202)

2SC4915O (QO)

(Q1885)

UMX1N (X1)

(Q1214)

TC7W53FU

(Q1898)

DTA144EE (16)

(Q1458, 1463, 1612,

1614)

DTA114EE (14)

(Q1460, 1462, 1608,

1860)

DTC144EE (26)

(Q1323, 1327, 1464,

1603, 1607, 1615,
1801, 1866, 1888)

2SB1132R (BA)

(Q1213)

IMT17 (T17)

(Q1879)

DTC114TE (04)

(Q1312)

UMD5N

(Q1216, 1872)

DA221 (26)

(D1309, 1321, 1325)

LV24100LP

(Q1303)

UMA8N (A8)

(Q1861, 1873, 1874,

1875, 1876, 1878)

UMG2N (G2)

(Q1617)

DAN222 (N)

(D1028, 1466, 1616,

1860, 1861, 1862)

19

MAIN Unit (Lot. 1~4)

Parts Layout (Side B)

ba dce

RA60H4047M1

(Q1201)

RA60H1317M1

(Q1208)

NJM2552V

(Q1457)

ADM101EARMZ

(Q1761)

CD4094BPWR

(Q1870)

BU9253FS

(Q1619)

1

CD4053BPWR

(Q1773, 1774)

M62353AGP

(Q1871)

CMX865AE4

(Q1887)

2

LM2904PWR

(Q1215, 1470,

1882, 1896)

TDA2822D

(Q1760)

2SA1774 (FR)
(Q1314, 1325)

TDA1519CTH

(Q1755)

NJM78M05DL1A

(Q1767)

DTA144EE (16)

(Q1459, 1613, 1762)

DTA114EE (14)

(Q1611, 1869)

S-35190A

(Q1765)

BA09CC0FP

(Q1766)

DTC143EE (23)

(Q1205)

LM2902PWR

(Q1474, 1623)

XC6201P332MR (FR)

(Q1764, 1894)

2SK296ZQ (ZQ)

(Q1001, 1004, 1005)

3

4

5

20

2SB1301 (ZQ)

(Q1769)

UMA8N (A8)

(Q1868)

UMX1N (X1)

(Q1758)

UMG2N (G2)

(Q1466)

2SK397300L (5V)

(Q1750, 1751, 1752,

1889, 1899)

S-80835CNMC

(Q1767)

DA221 (26)

(D1310, 1322, 1467, 1617)

MC2850 (A7)

(D1464, 1465, 1614, 1615)

UMD5N

(Q1203, 1206, 1884)

RQA0004PXDQS (PX)

(Q1211)

DTC144EE (26)

(Q1207, 1455,

1467,1618, 1753, 1763,

1768, 1891, 1897,

1900, 1901, 1902 )

2SB1132R (BA)

(Q1759)

2SC4617 (BR)

(Q1454, 1465, 1468,

1475, 1616, 1754,
1756, 1757, 1770,
1776, 1863, 1867,

1890, 1895)

2SC5006 (24)

(Q1003, 1006, 1017,

1306, 1307, 1310,
1311, 1318, 1319,

1321, 1322)

2SC4915O (QO)

(Q1451, 1452, 1453,

1456, 1601, 1604,

1605, 1606,)

MAIN Unit (Lot. 5~)

Circuit Diagram

21

MAIN Unit (Lot. 5~)

Note

22

BA DCE

MAIN Unit (Lot. 5~)

Parts Layout (Side A)

HD64F2268TF20

(Q1880)

CMX589AD5

(Q1864)

M61529FP

(Q1469)

NJM2552V

(Q1609)

1

MB15A01PFV1

(Q1313, 1324)

M24512-RDW6TP

(Q1775)

M62429FP

(Q1621)

LM2902PWR

(Q1473, 1622, 1881)

2

CD4053BPWR

(Q1472, 1620,

1865)

BU2090FS

(Q1862, 1877)

CD4066BPWR

(Q1471, 1892)

LM2904PWR

(Q1777)

2SK296ZQ (ZQ)

(Q1002, 1007, 1008,

1009, 1010, 1011,

1013, 1301)

3

UMG8N (G8)

(Q1309)

2SC4617 (BR)

(Q1302, 1315, 1326,

1602, 1883, 1893)

4

5

2SC5006 (24)

(Q1012, 1014, 1016,

1018, 1019, 1209,
1212, 1304, 1305,
1308, 1316, 1317,
1320, 1450, 1600)

2SC5277 (D2)

(Q1015)

2SC3356 (R24)

(Q1202)

2SC4915O (QO)

(Q1885)

UMX1N (X1)

(Q1214)

TC7W53FU

(Q1898)

DTA144EE (16)

(Q1458, 1463, 1612,

1614)

DTA114EE (14)

(Q1460, 1462, 1608,

1860)

DTC144EE (26)

(Q1323, 1327, 1464,

1603, 1607, 1615,
1801, 1866, 1888)

2SB1132R (BA)

(Q1213)

IMT17 (T17)

(Q1879)

DTC114TE (04)

(Q1312)

UMD5N

(Q1216, 1872)

DA221 (26)

(D1309, 1321, 1325)

LV24100LP

(Q1303)

UMA8N (A8)

(Q1861, 1873, 1874,

1875, 1876, 1878)

UMG2N (G2)

(Q1617)

DAN222 (N)

(D1028, 1466, 1616,

1860, 1861, 1862)

23

MAIN Unit (Lot. 5~)

Parts Layout (Side B)

ba dce

RA60H4047M1

(Q1201)

RA60H1317M1

(Q1208)

NJM2552V

(Q1457)

ADM101EARMZ

(Q1761)

CD4094BPWR

(Q1870)

BU9253FS

(Q1619)

1

CD4053BPWR

(Q1773, 1774)

M62353AGP

(Q1871)

CMX865AE4

(Q1887)

2

LM2904PWR

(Q1215, 1470,

1882, 1896)

TDA2822D

(Q1760)

2SA1774 (FR)
(Q1314, 1325)

TDA1519CTH

(Q1755)

NJM78M05DL1A

(Q1767)

DTA144EE (16)

(Q1459, 1613, 1762)

DTA114EE (14)

(Q1611, 1869)

S-35190A

(Q1765)

BA09CC0FP

(Q1766)

DTC143EE (23)

(Q1205)

LM2902PWR

(Q1474, 1623)

XC6201P332MR (FR)

(Q1764, 1894)

2SK296ZQ (ZQ)

(Q1001, 1004, 1005)

3

4

5

24

2SB1301 (ZQ)

(Q1769)

UMA8N (A8)

(Q1868)

UMX1N (X1)

(Q1758)

UMG2N (G2)

(Q1466)

2SK397300L (5V)

(Q1750, 1751, 1752,

1889, 1899)

S-80835CNMC

(Q1767)

DA221 (26)

(D1310, 1322, 1467, 1617)

MC2850 (A7)

(D1464, 1465, 1614, 1615)

UMD5N

(Q1203, 1206, 1884)

RQA0004PXDQS (PX)

(Q1211)

DTC144EE (26)

(Q1207, 1455,

1467,1618, 1753, 1763,

1768, 1891, 1897,

1900, 1901, 1902 )

2SB1132R (BA)

(Q1759)

2SC4617 (BR)

(Q1454, 1465, 1468,

1475, 1616, 1754,
1756, 1757, 1770,
1776, 1863, 1867,

1890, 1895)

2SC5006 (24)

(Q1003, 1006, 1017,

1306, 1307, 1310,
1311, 1318, 1319,

1321, 1322)

2SC4915O (QO)

(Q1451, 1452, 1453,

1456, 1601, 1604,

1605, 1606,)