Sony ZS-M50 Service Manual

ZS-M50

SERVICE MANUAL

Ver 1.0 1999.04

Dolby noise reduction manufactured under license from
Dolby Laboratories Licensing Corporation.
“DOLBY” and the double-D symbol a are trademarks of
Dolby Laboratories Licensing Corporation.

MD
Section

CD
Section

AEP Model

UK Model

Model Name Using Similar Mechanism NEW
MD Mechanism Type MDM-3Z
Optical Pick-up Type KMS-260A
Model Name Using Similar Mechanism CFD-S27
CD Mechanism Type KSM-213CDM
Optical Pick-up Type KSS-213C

SPECIFICATIONS

– Continued on page 2 –

MICROFILM

PERSONAL MINIDISC SYSTEM

TABLE OF CONTENTS

Specifications ........................................................................... 1

1. SERVICE NOTE ........................................................... 3

2. GENERAL...................................................................... 5

3. DISASSEMBLY

3-1. Cabinet (Front) Sub ASSY,

Cabinet (Rear) Sub ASSY......................................... 7

3-2. Control (L) Board...................................................... 8

3-3. Control (R) Board ..................................................... 8

3-4. Control (F) Board, JOG Board.................................. 8

3-5. BATT Board .............................................................. 9

3-6. Power Board.............................................................. 9

3-7. Tuner Board, Antenna SW Board ............................. 9

3-8. Center Block Section .............................................. 10

3-9. Cabinet (Upper), Chassis (Main) ............................ 10

3-10.Optical Pick-up ASSY, CD Motor Board.................11

3-11.Control SW Board ....................................................11

3-12.Motor Board, Belt, Motor (M703) ...........................11

3-13.LCD Board, BL Board ............................................ 12

3-14.Audio Board ............................................................ 12

3-15.Line Board............................................................... 13

3-16.Main Board ............................................................. 13

3-17.MD Block ASSY..................................................... 14

3-18.DG Board ................................................................ 14

3-19.Chassis (MD) .......................................................... 15

3-20.BD Board ................................................................ 15

3-21.Sub Chassis ASSY, MD Mechanism Deck ............. 16

3-22.Shutter ASSY .......................................................... 16

3-23.SW Board ................................................................ 17

3-24.“Head, Over Write”, Slider ASSY .......................... 17

3-25.MD Optical Pick-up Block ..................................... 18

5. ADJUSTMENTS

MD Section ...................................................................... 21

CD Section ....................................................................... 24

Display Section ................................................................ 25

Tuner Section ................................................................... 26

6. DIAGRAMS

6-1. Explanation of IC Terminals ................................... 28

6-2. Block Diagram (Main Section) ............................... 35

6-3. Block Diagram (MD Section) ................................. 39

6-4. Printed Wiring Boards –Main Section – ................. 43

6-5. Schematic Diagram –Main Section (1/3) – ............. 47

6-6. Schematic Diagram –Main Section (2/3) – ............. 51

6-7. Schematic Diagram –Main Section (3/3) – ............. 55

6-8. Printed Wiring Boards –Audio Section –................ 58

6-9. Schematic Diagram –Audio Section – .................... 61

6-10.Schematic Diagram –DG Section – ........................ 66

6-11.Printed Wiring Boards –DG Section – .................... 71

6-12.Printed Wiring Boards –Tuner Section – ................ 73

6-13.Schematic Diagram –Tuner Section –..................... 75

6-14.Schematic Diagram –Control Section – .................. 78

6-15.Printed Wiring Boards –Control Section – ............. 81

6-16.Printed Wiring Boards –BD Section – .................... 83

6-17.Schematic Diagram –BD Section – ........................ 85

7. EXPLODED VIEWS

7-1. Rear Cabinet Section ................................................ 95

7-2. Front Cabinet Section ............................................... 96

7-3. Center Block Section ................................................ 97

7-4. Upper Cabinet Section.............................................. 98

7-5. MD Section (1) ......................................................... 99

7-6. MD Section (2) ....................................................... 100

7-7. CD Optical Pick-up Section ................................... 101

4. TEST MODE

4-1. Caution When Using the Test Mode......................... 19

4-2. Test Mode Settings ................................................... 19

4-3. Releasing the Test Mode........................................... 19

4-4. Basic Operations of the Test Mode........................... 19

4-5. Selecting the Test Mode............................................ 19

4-6. Functions of Other Buttons ...................................... 20

4-7. Test Mode Display .................................................... 20

8. ELECTRICAL PARTS LIST ................................. 102

– 2 –

SECTION 1

SER VICE NOTE

Flexible Circuit Board Repairing

• Keep the temperature of the soldering iron around 270°C during
repairing.

• Do not touch the soldering iron on the same conductor of the
circuit board (within 3 times).

• Be careful not to apply force on the conductor when soldering or
unsoldering.

Notes on chip component replacement

• Never reuse a disconnected chip component.

• Notice that the minus side of a tantalum capacitor may be dam­aged by heat.

SAFETY-RELATED COMPONENT WARNING!!

COMPONENTS IDENTIFIED BY MARK ! OR DOTTED LINE WITH
MARK !ON THE SCHEMATIC DIAGRAMS AND IN THE PARTS
LIST ARE CRITICAL TO SAFE OPERATION.
REPLACE THESE COMPONENTS WITH SONY PARTS WHOSE
PART NUMBERS APPEAR AS SHOWN IN THIS MANUAL OR IN
SUPPLEMENTS PUBLISHED BY SONY.

NOTES ON HANDLING THE OPTICAL PICK-UP BLOCK
OR BASE UNIT

The laser diode in the optical pick-up block may suffer electrostatic
breakdown because of the potential difference generated by the
charged electrostatic load, etc. on clothing and the human body.
During repair, pay attention to electrostatic breakdown and also use
the procedure in the printed matter which is included in the repair
parts.
The flexible board is easily damaged and should be handled with
care.

NOTES ON LASER DIODE EMISSION CHECK

The laser beam on this model is concentrated so as to be focused on
the disc reflective surface by the objective lens in the optical pick­up block. Therefore, when checking the laser diode emission, ob­serve more than 30 cm away from the objective lens.

LASER DIODE AND FOCUS SEARCH OPERATION
CHECK

1. Close the lid for CD.

2. Press CD fl button.

3. Confirm the laser diode emission while observing the objecting
lens. When there is no emission, Auto Power Control circuit or
Optical Pick-up is broken.
Objective lens moves up and down once for the focus search.

CAUTION DURING WHEN MOUNTING THE PULLEY
FOR THE CD DOOR MOTOR (M703)

Make the following adjustment when mounting the CD door motor
(part number : 1-763-224-11) and motor pulley (part number : 2­627-174-01) of the CD section.

Specification : A = 0.9 to 1.1mm

CHUCK PLATE JIG ON REPAIRING

On repairing CD section, playing a disc without the CD lid, use
Chuck Plate Jig.

• Code number of Chuck Plate Jig : X-4918-255-1

– 3 –

ABOUT THE BD BOARD WAVEFORM CHECKING JIG

The special jig (J-2501-124-A) is highly convenient when check­ing the waveform of the BD board of the MD section. Pin names
and items to check are as follows:

I+3V : for IOP measurement (check for depleted optical pickup

laser)

IOP : for IOP measurement (check for depleted optical pickup

laser)
TEO : TRK error signal (traverse adjustment)
VC : Standard level for checking signals
RF : RF signal (jitter check)

MD block section

DG board

RF

VC

TEO

IOP

I + 3V

Jig

(J-2501-124-A)

ABOUT THE HARDWARE RESET

It is possible to reset the system microcomputer by pressing the
RESET button located on the bottom with a pointed object. Use
this button when the unit cannot be operated properly due to such
problems as microcomputer errors, etc.

CN110

BD board

RESET button

(Located on the bottom)

– 4 –

LOCATION AND FUNCTION OF CONTROLS

FRONT PANEL: MD/CD/RADIO Section

SECTION 2

GENERAL

1 MD operation buttons

fl (play/pause)
π (stop)

2 BAND button
3 CD operation buttons

fl (play/pause)
π (stop)

4 CD lid
5 6 CD OPEN/CLOSE button
6 6 MD EJECT button
7 MONO/ST, REPEAT button
8 AUTO PRESET/RDS/SHUF/PGM button
9 TUNE +, ÷, ) button

FRONT PANEL: TIMER, COM Section

!º YES, ENTER button
!¡ Jog dial

=/+ AMS
PRESET

!™ NO, CANCEL button
!£ TUNE –, ¿, 0 button
!¢ EDIT button
!∞ REC button
!§ REC IT button

TO TOP, TO END

!¶ SYNCHRO REC

CD ” MD button

!• MD insert section

!ª LINE/LINE LEVEL button
@º Display window
@¡ VOLUME +, – buttons
@™ BASS/TREBLE button
@£ MEGA BASS button
@¢ Jog dial Function indicator

AMS/PRESET SELECT

@∞ LINE IN terminal

@§ DISPLAY button
@¶ INSERT/TIMER button
@• DELETE/CLOCK button
@ª 2 (Headphones) Jack (stereo mini jack)
#º STANDBY button
#¡ SLEEP button
#™ Remote control receiver section
#£ OPERATE button

– 5 –

REAR PANEL Section

#¢ MW/LW ANTENNA terminal
#∞ FM EXT ANTENNA terminal
#§ FM rod antenna
#¶ ⁄ AC IN jack
#• Battery compartment (for memory back-up)
#ª RESET button (bottom)
$º FM ANTENNA SELECTOR switch

REMOTE CONTROL Section

TA

SEARCH

OPERATE

1 TA SERCH button
2 CD OPEN/CLOSE button
3 Numeric buttons
4 MODE button
5 BASS/TREBLE +, – buttons
6 MEGA BASS button
7 MD operation buttons

” (play)
P (pause)
p (stop)
r (rec)
8 CD operation buttons
” (play)
P (pause)
p (stop)
9 RADIO operation buttons
BAND
TUNE –, +

!º OPERATE button
!¡ VOL +, – buttons
!™ =, + AMS, select, search buttons

– 6 –

DISASSEMBLY

)

r

The equipment can be removed using the following procedure.

< MAIN BLOCK SECTION >

Cabinet (Front)
sub ASSY

Set

Cabinet (Rear)
sub ASSY

< MD BLOCK ASSY SECTION >

MD Block ASSY

DG board Chassis (MD)

Control (L) board
Control (R) board

Control (F) board, JOG board
BATT board

Power board
Tuner board, Anetenna SW board

Cabinet (Upper)

Center block
section

Chassis (Main)

SECTION 3

Optical pick-up ASSY, CD motor board
Control SW board

Motor board, Belt, Motor (M703)

LCD board, BL board
Audio board
Line board

Main board

MD block ASSY

BD board

Sub chassis ASSY Shutter ASSY

MD mechanism deck

SW board
“Head, Over write”

Slider ASSY

Note : Follow the disassembly procedure in the numerical order given.

<MAIN BLOCK SECTION>

3-1. CABINET (FRONT) SUB ASSY, CABINET (REAR) SUB ASSY

Cabinet (Front) sub ASSY

5

1

2

MD Optical pick-up block

Cabinet (Rear) sub ASSY

7

Wire , parallel (11 core)

(Main board : CN407)

6

CN313 (5 Pin)

(Main board )

8

Lead wire

(Lug, speaker section)

4

Screws (+BVTT 3x6)

– 7 –

3

Screws (+BV 3x14)

3

(+BV 3x14

Screws

3-2. CONTROL (L) BOARD

)

)

)

Cabinet (Front) sub ASSY

3-3. CONTROL (R) BOARD

Control (L) board

2

1

Screws (+B 2.6x8

1

Screws (+B 2.6x8

Cabinet (Front) sub ASSY

3-4. CONTROL (F) BOARD, JOG BOARD

Cabinet (Front) sub ASSY

2

2

3

Control (R) board

4

JOG board

Remove solder

1

Control (F) board

Screws (+B 2.6x8

Plate (JOG) , retainer

– 8 –

3-5. BATT BOARD

)

)

1

Screws (+BV 3x10)

3-6. POWER BOARD

Chassis, Transformer

2

Cabinet (Rear) sub ASSY

BATT board

Cabinet (Rear) sub ASSY

1

Screws (+BV 3x20

Power transformer

4

Screws (+BV 4x12)

2

Screws (+BV 3x10)

3-7. TUNER BOARD, ANTENNA SW BOARD

6

Screws (+BV 3x10)

Antenna SW board

2

Screws (+BV 3x10)

Chassis (TU)

Power board

5

3

5

3

Chassis, Transformer

1

Screws (+BV 3x14

Cabinet (Rear) sub ASSY

2

Screw (+BV 3x10)

Tuner board

– 9 –

4

Screws (+BV 3x10)

3-8. CENTER BLOCK SECTION

Y

Center Block Section

3

1

Screws (+BV 3x14)

Cabinet (Rear) sub ASS

2

Screws (+BV 3x12)

3-9. CABINET (UPPER), CHASSIS (MAIN)

Cabinet (Upper)

1

Wire , parallel (8 core)

(Control sw board : CN550)

3

Claws

4

2

Wire , parallel (16 core)

(CD optical pick-up)

Chassis (Main)

– 10 –

3

3

Claw

Claw

3-10. OPTICAL PICK-UP ASSY, CD MOTOR BOARD

d

Cabinet (Upper)

1

3-11. CONTROL SW BOARD

Cabinet (Upper)

Screws (+PWH 2.6x8)

CD Motor board

2

4

CD Optical pick-up ASSY

1

Screws (+PWH 2.6x8)

3

Remove solder

3-12. MOTOR BOARD, BELT, MOTOR (M703)

Cabinet (Upper)

2

1

Screws (+B 2.6x8)

Control SW board

5

Chassis, Motor

4

Screws

(+B 3x10)

6

3

Belt

Screws

(+B 2.6x4)

Motor (M703)
(Door open/close)

2

Motor boar

Screws

1

(+B 3x10)

– 11 –

3-13. LCD BOARD, BL BOARD

)

6

Screw (+BV 3x10)

3

LCD Flexible board

1

Screws (+B 2.6x8)

4

Screws (+B 2.6x4)

5

7

Holder LCD

2

BL board

LCD board

Chassis (Main

3-14. AUDIO BOARD

Audio board

2

1

Screws (+BV 3x10)

Chassis (Main)

– 12 –

3-15. LINE BOARD

)

Chassis (Main)

3

Screw (+BVTT 2.6x6)

3-16. MAIN BOARD

2

Screw (+BVTT 2.6x6)

Main board

2

Screws (+BV 3x10)

1

Bracket (Line)

Line board

4

Bottom Plate

Screws (+PTPWH 2.6x5)

1

Bracket (HP)

3

– 13 –

4

1

Screw (+BVTT 2.6x6

Main board

Bottom Plate

3-17. MD BLOCK ASSY

Screws (+BVTP 2.6x8)

1

2

Screws (+BVTP 2.6x8)

3

1

Screws (+BVTP 2.6x8)

Chassis (Main)

MD Block ASSY

2

Screws (+BVTP 2.6x8)

<MD BLOCK ASSY SECTION>

3-18. DG BOARD

3

Wire , parallel (26 core)

DG board

4

Screws (+BVTP 2.6x8)

3

Wire , parallel (19 core)

5

2

MD Block ASSY

4

Screw (+BVTP 2.6x8)

3

Wire , parallel (29 core)

1

Screws (+BVTP 2.6x8)

– 14 –

Case (Rear) , MD shield

1

Screws (+BVTP 2.6x8)

3-19. CHASSIS (MD)

d

3

Screws (+BVTP 2.6x8)

3

Screws (+BVTP 2.6x8)

5

Screws (+BVTT 2x3)

6

6

4

3

Screws (+BVTP 2.6x8)

Case (Upper) , MD shiel

Chassis (MD)

MD Mechanism Block

3-20. BD BOARD

7

2

1

Screws (+BVTP 2.6x8)

5

Screw (+BVTT 2x3)

MD Mechanism Block

1

Case (Lower) , MD shield

1

Screws (+BVTP 2.6x8)

Wire , parallel (15 core)

5

OP Relay flexible board

4

– 15 –

2

BD board

3

Screw (+B 2x3)

Head flexible Board

3-21. SUB CHASSIS ASSY, MD MECHANISM DECK

1

Step screws

Insulators

1

Step screws

Insulators

MD mechanism deck

SUB Chassis ASSY

3-22. SHUTTER ASSY

2

A

A

A

When mounting, make sure
that

A

sets in the correct

position.

OK

NG

2

Shaft (shutter)

1

Washer

3

Shutter ASSY

Sub chassis ASSY

Shutter ASSY

Shaft (lid)

Hole B

Shaft (shutter)

Hole A

First mount the shaft (shutter) to hole
A sets in the diagram, then mount the
shaft (lid) to hole B

– 16 –

3-23. SW BOARD

k

1

Claws

1

Claws

2

SW board

MD mechanism dec

1

Claws

3-24. “ HEAD, OVER WRITE ”, SLIDER ASSY

Head, Over write

7

Claw

Slider ASSY

7

While removing the claw(2 locations),
remove the slider assembly in direction
of the arrow.

3

2

Screw (M1.7x6)

4

Screw

(M1.7x2)

1

Screw (M1.7x2)

Retainer

7

Claw

6

Position the gear shaft

(L) as ahown in the diagram

5

Retainer (Gear)

MD mechanism deck

– 17 –

r

CAUTION DURING SLIDER ASSY ASSEMBLY

Slider ASSY

Mount the A of the lever (head up) so that it
passes above the slider ASSY.

OK

NG

Take caution as to not damage
the detection switch

3-25. MD OPTICAL PICK-UP BLOCK

A

MD mechanism deck

MD Optical pick-up block

MD mechanism deck

– 18 –

3

2

1

Remove the lever

Shaft (Main shaft)

SECTION 4

TEST MODE

4-1. CAUTIONS WHEN USING THE TEST MODE

1 Check to make sure the inserted disk is completed stopped be-

fore removing since loading related operations will operate re­gardless of the Test mode operation.
The rotation of the inserted disk will not stop even when press­ing the MD EJECT button during continuous playback and con­tinuous recording.
In this case, the disk will be ejected while still in motion.
Always press the NO/CANSEL button and check to see that
the disk has stopped turning before pressing the MD EJECT
button.

2 In the Test mode, detection of the write-protect tab is not ex-

ecuted. For this reason, pressing the REC button in modes where
the recording laser is emitted (see 4-1-1) will delete the recorded
contents regardless of the tab position. When using a disk in the
T est mode which its contents must not be deleted, avoid enter­ing the Continuous Recording mode and Traverse Adjustment
mode.

4-1-1. Modes which the record laser is emitted and

button operations

• Continuous Recording mode (CREC MODE)

• Traverse Adjustment mode (EFBAL ADJUST)

• Laser Power Adjustment mode (LDPWR ADJUST)

• Laser Power Check mode (LDPWR CHECK)

• Traverse (MO) check (EF MO CHECK)

• Traverse (MO) adjustment (EF MO ADJUST)

• When pressing the REC button

4-5. SELECTING THE TEST MODE

There are 9 types of test modes (see table below). Turning the AMS
dial clockwise switches modes shown in the table in the order from
top to bottom. Turning the AMS dial counterclockwise switches
modes shown in the table in the reverse order.

Display Description

TEMP ADJUST Temperature compensation offset adjustment
LDPWR ADJUST Laser power adjustment
LDPWR CHECK Laser power check
EF BAL ADJUST Traverse adjustment
FBIAS ADJUST Focus bias adjustment
FBIAS CHECK Focus bias check
CPLAY MODE Continuous playback mode
CREC MODE Continuous recording mode
EEP MODE Non-volatile storage memory control

• For details on each adjustment mode, see respective items of SEC­TION 5. ADJUSTMENT

• If you have accidently entered another mode, press the NO/
CANSEL button to exit.

• The EEP MODE is not used during servicing. Thus, details on
this mode are not given. If this mode is accidently entered, exit
immediately by pressing the NO/CANSEL button as the unit may
not operate correctly if the non-volatile storage memory being
overwritten.

4-2. TEST MODE SETTINGS

MD Test mode :

Press and hold the EDIT button and BASS/TREBLE button,
then press MD ^ n MD p n MD ^ n MD p.

CD Test mode :

Press and hold the EDIT button and BASS/TREBLE button,
then press CD ^ n CD p n CD ^ n CD p.

Display Test mode :

Press and hold the EDIT button and BASS/TREBLE button,
then press BAND n LINE n BAND n LINE (FUNCTION
is LINE).

Note 1 : Each test mode can be entered regardless of whether the

power is on or off. However, it is not possible to enter the
test mode of the particular function being operated. For
example, it its not possible to enter the CD T est mode when
the CD is in function.

4-3. RELEASING THE TEST MODE

Press the RESET button located on the bottom.

4-4. BASIC OPERATIONS OF THE TEST MODE

All operations are made using the AMS dial, YES/ENTER button
and NO/CANSEL button.
The functions of each button are as follows:

Function Name Functions

AMS dial Used to change parameters and modes
YES/ENTER button Used to advance and confirm
NO/CANSEL button Used to return and cancel

4-5-1. Operating in the Continuous Playback mode

1. Entering the Continuous Playback mode

1 Insert a disk into the unit (either recordable or playback disk)
2 Turn the AMS dial until “CPLAY MODE” is displayed.
3 Press the YES/ENTER button. The display will change to

“CPLAY IN”.

4 When accessing is completed, the display will change to “C1=

AD = ”.

Note : The numbers of “ ” displayed indicate the error rate and

“ADER”.

2. Changing the playback location

1 Pressing the YES/ENTER button during continuous playback

will change the display in the following manner, enabling
change in the playback location.
“CPLAY MID” n “CPLAY OUT” n “CPLAY IN”

↑

2 When accessing is completed, the display will change to “C1=

AD = ”.

Note :The numbers of “ ” displayed indicate the error rate and

“ADER”.

3. Exiting the Continuous Playback mode

1 Press the NO/CANSEL button. The display will change to

“CPLAY MODE”.

2 To remove the disk, press the MD EJECT button.

Note : The playback initiate addresses of IN, MID and OUT are indi-

cated below. To display the playback position, press the DIS-

PLAY button and “CPLAY( )”.
IN 40h cluster
MID 300h cluster
OUT 700h cluster

– 19 –

4-5-2. Operating in the Continuous Recording mode

1. Entering the Continuous Recording mode

1 Insert a disk that may be recorded into the unit (see Note 3)
2 Turn the AMS dial until “CREC MODE” is displayed.
3 Press the YES/ENTER button. The display will change to

“CREC MID”.

4 When accessing is completed, the display will change to

“CREC (

Note : The numbers of “ ” displayed indicate the record posi-

)”.

tion address.

2. Changing the recording location
1 Pressing the YES button during continuous recording will

change the display in the following manner, enabling change
in the recording location. During location change, the REC
indicator will be off.
“CPLAY MID” n “CPLAY OUT” n “CPLAY IN”

↑

2 When accessing is completed, the display will change to

“CREC (

Note : The numbers of “ ” displayed indicate the record posi-

)” and the REC indicator will light.

tion address.

3. Exiting the Continuous Recording mode
1 Press the NO/CANSEL button. The display will change to

“CREC MODE” and the REC indicator will turn off.

2 To remove the disk, press the MD EJECT button.

Note 1 : The record initiate addresses of IN, MID and OUT are

indicated below. To display the record position, press
the DISPLAY button and “CREC (

)” .
IN 40h cluster
MID 300h cluster
OUT 700h cluster

Note 2 : The NO/CANSEL button can be used at anytime to stop

recording.

Note 3 : Detection for the write-protect tab is not executed when

in the test mode. Do not enter the Continuous Recording
mode with a disk you do not wish to have deleted.

Note 4 : Do not continuously record for more than 5 minutes.
Note 5 : Make sure no vibration is applied to the unit during con-

tinuous recording.

4-5-3. Non-volatile storage memory mode (EEP mode)

This is the mode to read and write the contents of the non-volatile
storage memory.
This mode is not used for servicing.
If you accidently enter this mode, exit immediately by pressing the
NO/CANSEL button.

4-6. FUNCTIONS OF OTHER BUTTONS

Function Name Main Description

Continuous playback when pressed during

EDIT + ^ disk is stopped. Tracking servo ON/OFF

when pressed during continuous playback

EDIT + p Stopping of continuous recording/playback

)

0

EDIT + REC Record ON/OFF during continuous playback
EDIT + Switched between pit and groove every time
SYNCHRO REC the button is pressed

EDIT + SHUF/PGM

DISPLAY

MD EJECT Eject disk
RESET Exit the test mode

The thread moves outward while the button is
pressed
The thread moves inward while the button is
pressed

Spindle servo mode switch
(CLV S N n CLV A)
Display contents are switched every time the
button is pressed

4-7. TEST MODE DISPLAY

The display will switch in the following sequence every time the
DISPLAY button is pressed.

Mode display

Error rate display

Address display

Auto-gain display (not used for servicing)

[00] [69] [3A] display (not used for servicing)

1. Mode display
Displays such information as “TEMP ADJUST” and “CPLAY
MODE”.

2. Error rate display
The error rate is displayed using the following format.

C1=C1ER AD=ADER

3. Address display
The address is displayed using the following format (MO : record­able disk, CD : playback disk)
Switched between pit and groove every time the EDIT and SYN-

CHRO REC button is pressed
h = ππππS = ππππ(MO pit and CD)
h = ππππa = ππππ(MO groove)
h = : header adress
S = : SUBQ adress
a = : ATIP adress

Note : “–” is displayed when servo is off.

4. Auto-gain display (not used for servicing)
The auto-gain is displayed using the following format.
AGF = @@ T = ## [&&]
@@ : focus servo gain coefficient
## : tracking servo gain coefficient
&& : displays [OK], [NG] or [– –].
[– –] indicates that convergence is incomplete

Definitions of other displays

Display

SHUF
P Tracking servo OFF T racking servo ON

REC, SHUF Recording mode ON Recording mode OFF
TOC EDIT

DIGITAL Focus auto-gain OK

TRACK Pit Groove
DISC mark High reflection Low reflection
DATE CLV-S CLV-A

Indicator ON Indicator OFF

Continuous playback in Disk stopped (CLV : OFF)
operation (CLV : ON)

ABCD adjustment
completed

Description

(Flashing) Focus OK
Tracking auto-gain NG

– 20 –

SECTION 5

ADJUSTMENTS

MD SECTION
5-1. CAUTION WHEN CHECKING LASER DIODE

EMISSION

Never look from directly above when checking the laser diode emis­sion during adjustment as failure to do so may result in loss of eye­sight.

5-2. CAUTIONS WHEN HANDLING THE OPTICAL

PICK-UP (KMS-260A)

The laser diode within the optical pick-up is extremely vulnerable
to static electricity. When handling, bridge the laser tap of the flex­ible board on the optical pick-up with solder.
When removing the connector, first bridge the laser tap with solder .
Furthermore, do not remove the soldered bridge before reconnect­ing. In addition, take sufficient measures when working to prevent
electrostatic damage. T ake caution when handling the flexible board
since it is easily torn.

Pick-up

Flexible board

Laser tap

5-3. CAUTIONS DURING ADJUSTMENT

1) After replacing the following parts, make adjustments and checks

for the table items where indicated with a O in the order given.

Optical BD board
pickup

IC171 D101 IC101,IC121,IC192

1. Temperature compen­sation offset adjustment

2. Laser power adjustment

3. Traverse adjustment

4. Focus bias adjustment

5. Error rate check

X

O

O

O

O

X

O

O

X

O

O

X

O

O

X

2) Perform adjustments in the test mode.
Exit the test mode when completed with adjustment.

2) Perform adjustments in the order given.

3) Use the following jig and measuring equipment:

• Check disk (MD) TDYS-I (Part no : 4-963-646-01)

• Laser power meter LPM-8001 (Part no : J-2501-046-A)

• Oscilloscope (perform measurement after calibrating the
probe)

• Digital voltmeter

• Thermometer

• BD board waveform checking jig (part no : J-2501-124-A)

O
O

O
O
O

5-4. CREATING A CONTINUOUS RECORDING

DISK

• This disk is used during focus bias adjustment and error rate
check. The procedure for creating a continuous recording disk
is as follows.

1. Insert a disk (any commercially available blank disk).

2. Turn the AMS dial until “CREC MODE” is displayed.

3. Press the YES/ENTER button to display “CREC MID”.
“CREC(0300)” will be displayed for an instant and recording
will begin.

4. Complete recording within 5 minutes.

5. Press the NO/CANCEL button to stop recording.

6. Press the MD EJECT button to remove the disk.

A continuously recorded disk can be created by following the pro­cedure above for focus bias adjustment and error rate check.

Note: Take caution as to not apply vibration to the unit during con-

tinuous recording.

5-5. TEMPERATURE COMPENSA TION OFFSET

ADJUSTMENT

The temperature data at the time is saved in the non-volatile storage
memory as the standard data of 25°C.

Notes:

1. Do not make this adjustment under normal conditions.

2. Perform this adjustment in an environment with ambient tem­perature between 22 to 28°C. Furthermore, make the adjust­ment immediately after turning on the power when the internal
temperature and ambient temperature are between 22 to 28°C.

3. After D101 replacement, perform the adjustment after the part
has ample time to adjust to the ambient temperature.

Procedure:

1. Turn the AMS dial until “ TEMP ADJUST ” is displayed.

2. Press the YES/ENTER button and select the TEMP ADJUST
mode.

3. “ TEMP=

4. To save the data: press the YES/ENTER button
To not save the data: press the NO/CANCEL button

5. After pressing the YES/ENTER button, “ TEMP=
will be displayed momentarily and the display will then return
to “ TEMP ADJUST ”.
The display will immediately return to “ TEMP ADJUST ” when
pressing the NO/CANCEL button.

Specified values:

The value of TEMP=
FF, 00-0F, 10-1F or 20-2F.

” and the current temperature data will be displayed.

SAVE ”

must be within the range of E0-EF, F0-

5) When looking at multiple signals using oscilloscope, etc., make
sure VC and GND are not connected within the oscilloscope.
Failure to do so will short circuit VC and GND.

6) Using the special jig enables checking of the waveform without
soldering (see page 4 of Service Notes).

– 21 –

5-6. LASER POWER ADJUSTMENT

A

Connections:

Laser power meter

Optical pick-up

objective lens

Specified values:

Laser power meter reading : 6.9–7.1mW
Digital voltmeter reading : ±10% the value on the label of the opti­cal pickup.

(Optical pick-up label)

KMS

260A

27X40

B0825

Digital voltmeter

CN110 5 pin (I+3V)
CN110

4

pin (IOP)

[BD BOARD] (SIDE A)

Procedure:

1. Insert the laser power meter into the disk loading port and set
atop the objective lens of the optical pickup (if this cannot be
done successfully, shift the optical pickup using the 0 and
) buttons).
Connect the digital voltmeter to the CN110 5 pin (I+3V) and
CN110 4 pin (IOP).

2. Turn the AMS dial until “ LDPWR ADJUST ” is displayed.
(Laser power: adjustment purposes)

3. Press the YES/ENTER button once to display “ LD 0.9mW $

”.

4. Turn the AMS dial so that the laser power meter reading is be­tween 0.86 – 0.92mW. After setting the range dial of the laser
power meter to 10mW, press the YES/ENTER button to save
the adjustment result to the non-volatile storage memory (at this

time, “ LD SAVE $ ” will be displayed for an instant).

5. Next, “ LD 7.0mW $

” will be displayed.

6. Turn the AMS dial so that the laser power meter reading is be­tween 6.9 – 7.1mW, then press the YES/ENTER button to save

the adjustment result (at this time, “ LD SAVE $

” will be

displayed for an instant).

Note: Do not emit the 7.0mW emission more than 15 seconds con-

tinuously.

7. Next, turn the AMS dial until “ LDPWR CHECK ” is displayed.

8. Press the YES/ENTER button once to display “ LD 0.9mW $

”.

At this time, check to see that the laser power meter reading is
between 0.85 – 0.91mW.

9. Next, press the YES/ENTER button once more to display “ LD

7.0mW $ ”.
At this time check to see that the laser power meter and digital
voltmeter reading comply with the specified values.

In this case, Iop = 82.5mA
Iop(mA) = digital voltmeter reading (mV)/1(Ω)

10.Press the NO/CANSEL button to display “ LDPWR CHECK ”
and stop laser emission. (The NO/CANSEL button can be used
at anytime to stop laser emission)

5-7. TRA VERSE ADJUSTMENT

Connection:

Oscilloscope

CN110 3 pin (TEO)

CN110 2 pin (VC)
VOLT/DIV : 0.5V
TIME/DIV : 10msec
Input: DC mode

[BD BOARD] (SIDE A)

Procedure:

1. Connect the oscilloscope to the CN110 3 pin (TEO) and CN110
2 pin (VC) of the BD board.

2. Insert a disk (any commercially available disk) that may be re­corded on (see Note 1).

3. Press the 0 or ) button to shift the optical pick-up to the
outer edge of the pit.

4. Turn the AMS dial until “ EFBAL ADJUST ” is displayed.

5. Press the YES/ENTER button to display “ EFB=
(The unit will be in the condition of: laser power READ power,
focus servo ON, tracking servo OFF and spindle (S) servo ON.)

6. Turn the AMS dial so that the waveform on the oscilloscope is
that of the specified value (turning the AMS dial will change

the numbers of “ EFB=

” as well as the waveform). During
this adjustment, the waveform changes for approximately ev­ery 2%. Adjust the waveform closest to the specified value.
(read power traverse adjustment)

(Traverse waveform)

VC

MO-R ”.

B

– 22 –

Specification: A=B

7. Press the YES/ENTER button to save the adjustment result to

A

A

A

the non-volatile storage memory (at this time “ EFB=
” will be displayed for an instant, then “ EFB=

SAVE

MO-W ” will

be displayed).

8. Turn the AMS dial so that the waveform on the oscilloscope is
that of the specified value (turning the AMS dial will change the
numbers of “ EFB=

” as well as the waveform). During this
adjustment, the waveform changes for approximately every 2%.
Adjust the waveform closest to the specified value.
(write power traverse adjustment)

(Traverse waveform)

18.Press the MD EJECT button to remove the check disk (MD)
TDYS-1.

Note 1: When using a pre-recorded disk for adjustment, data will

be deleted during MO write.

Note 2: If the traverse waveform is hard to see, reconnect the

oscilloscope as shown below for easier view.

Oscilloscope

Ω

330k

CN110 3 pin (TEO)

VC

B

Specification: A=B

9. Press the YES/ENTER button to save the adjustment result to
the non-volatile storage memory (at this time “ EFB=

SA VE

” will be displayed for an instant).

10 “ EFB=

MO-P ” will then be displayed and the servo will be
activated after the optical pickup is automatically shifted to the
inner edge of the pit.

11. At this time, turn the AMS dial so that the waveform on the
oscilloscope is that of the specified value. During this adjust­ment, the waveform changes for approximately every 2%. Ad­just the waveform closest to the specified value.

(Traverse waveform)

VC

B

Specification: A=B

12.Press the YES/ENTER button to save the adjustment result to
the non-volatile storage memory (at this time “ EFB= SAVE

” will be displayed for an instant). “EFBAL CD” will then be
displayed and the rotation of the disk will automatically stop.

13.Press the MD EJECT button to remove the disk.

14.Insert the check disk (MD) TDYS-1.

15.Press the YES/ENTER button to display “ EFB=

CD ”. The

servo will automatically be activated.

16.Turn the AMS dial so that the waveform on the oscilloscope is
that of the specified value. During this adjustment, the wave­form changes for approximately every 2%. Adjust the wave­form closest to the specified value.

(Traverse waveform)

10pF

[BD BOARD] (SIDE A)

CN110

2

pin (VC)

5-8. FOCUS BIAS ADJUSTMENT

Procedure:

1. Insert a continuously recorded disk (see 5-4. Creating a con­tinuous recording disk).

2. Turn the AMS dial until “CPLAY MODE” is displayed.

3. Press the YES/ENTER button to display “CPLAY MID”.

4. When “C1=
CEL button.

5. Turn the AMS dial until “FBIAS ADJUST” is displayed.

6. Press the YES/ENTER button to display “
The first 4 digits indicate the C1 error rate, the 2 digits follow­ing “/” indicate ADER and the 2 digits following “a=” indicate
the focus bias volume.

7. Turn the AMS dial clockwise and search the focus bias volume
closest to the C1 error rate of 220 (see Note 2).

8. Press the YES/ENTER button to display “

9. Turn the AMS dial counterclockwise and search the focus bias
volume which is the C1 error rate of 220.

10.Press the YES/ENTER button to display “

11.Press the YES/ENTER button after making sure that the C1 er ­ror rate is below 50 and ADER is 00.

12.Press the YES/ENTER button if the value indicated in the
“

- - ( )” display is more than 20.
Otherwise, press the NO/CANCEL button and repeat procedure
from step 2.

13.Press the MD EJECT button to remove the continuously recorded
disk.

AD= ” is displayed, press the NO/CAN-

/ a= ”.

/ b= ”.

/ c= ”.

VC

B

Specification: A=B

17.Press the YES/ENTER button to save the adjustment result to
the non-volatile storage memory (at this time “EFB=
will be displayed for an instant). “EFBAL ADJUST” will then

SA VE”

be displayed.

Note 1: The relationship of the C1 error and focus bias volume is

shown in the diagram below. Find points a and b shown
in the diagram by following the procedure above. The
met focal point C is found by automatic calculation.

Note 2: The C1 error rate fluctuates. Thus, make the adjustment

using the average value.

– 23 –

220

C1 error

CD SECTION

1. Enter the CD Test mode
(see page 19)

Focus bias volume

b

c

(F, BIAS)

a

5-9. ERROR RATE CHECK

5-9-1. Pit disk error rate check

Procedure:

1. Insert the check disk (MD) TDYS-1

2. Turn the AMS dial until “ CPLAY MODE ” is displayed.

3. Press the YES/ENTER button to display “ CPLAY MID ”.

4. The display will change to “ C1=

5. Check to see that the C1 error rate is less than 20.

6. Press the NO/CANCEL button to stop playback, then press the
MD EJECT button to remove the check disk (MD).

5-9-2. MO error rate check

Procedure:

1. Insert a continuously recorded disk (see 5-4. Creating a con­tinuous recording disk).

2. Turn the AMS dial until “ CPLAY MODE ” is displayed.

3. Press the YES/ENTER button to display “ CPLAY MID ”.

4. The display will change to “ C1=

5. Check to see that the C1 error rate is less than 50 and ADER is
constantly not above 00.

6. Press the NO/CANCEL button to stop playback, then press the
button to remove the continuously recorded disk.

AD= ”.

AD= ”.

88 07 00 3A0

The above is the default display.
Pressing the ^ button will rotate the CD and pressing the YES/
ENTER button once more will output sounds.
Pressing the YES/ENTER button will execute automatic adjust­ment and values will change; however, this value is quite nor­mal.

2. RF LEVEL and jitter check
Test mode PLAY status (“21” and “ALL” display ON)

21 07 00 3A0

ALL

ALL display ON : LPC (laser power control ON)
ALL display OFF : LPC (laser power control OFF)
(^ button : ALL display ON/OFF)

Connection Point:

[MAIN BOARD] (SIDE A)

5-10. FOCUS BIAS CHECK

The focus tolerance volume is checked by changing the focus bias
volume.

Procedure:

1. Insert a continuously recorded disk (see 5-4. Creating a con­tinuous recording disk).

2. Turn the AMS dial until “CPLAY MODE” is displayed.

3. Press the YES/ENTER button to display “CPLAY MID”.

4. When “C1=
CEL button.

5. Turn the AMS dial until “FBIAS CHECK” is displayed.

6. Press the YES/ENTER button to display “
The first 4 digits indicate the C1 error, the 2 digits following “ /
” indicate ADER and the 2 digits following “c=” indicate the
focus bias volume.
At this time, check to see that the C1 error is less than 50 and
ADER is 00.

7. Press the YES/ENTER button to change the display to “ /

b= ”

At this time check to see that the C1 error is not less than 220
and ADER is constantly not above 00.

8. Press the YES/ENTER button to change the display to “ /

a= ”

At this time check to see that the C1 error is not less than 220
and ADER is constantly not above 00.

9. Press the NO/CANCEL button, then press the MD EJECT but­ton to remove the continuously recorded disk.

AD= ” is displayed, press the NO/CAN-

/ c= ”.

Oscilloscope

TP (RFO)

TP(VC)

Check to see that the jitter is less than 9.0 nsec.
and RF level is between 1.0 – 1.5Vp-p.

VOLT/DIV : 200mV (using 10:1 probe)
TIME/DIV : 500ns

RF level:

1.0 - 1.5Vp-p

Note 1: If the C1 error or ADER is more than 00 for only one of

points a (8. above) and b (7. above), there is the possibility
of a gap in the focus bias adjustment. In such case, repeat
adjustment.

– 24 –

3. Traverse signal check

+

–

Digital
voltmeter

RV550 :
Dimmer adjustment

CN553 8 pin

DISPLAY SECTION

Connection Point:

[MAIN BOARD] (SIDE A)

Oscilloscope

TP (TEO)

TP(VC)

Press the FF or FR from step2.
Check to see that the traverse signal level is between 280 ­480mVp-p.

Note:

Extend the sweep time
for easier view.

DIMMER ADJUSTMENT

1. Connect the LCD1 to the CN533 of the LCD board.

2. Connect the digital voltmeter to the CN533 8 pin of the LCD
board.

3. Adjust the RV550 of the LCD board for 2.83V reading on digi­tal voltmeter.
Standard value : 2.83 – 2.93V

Connection Point:

[LCD BOARD]

(Conductor Side)

A

0V

280 – 480mVp-p

B

A = B

0V

4. After completed with adjustment, press the RESET button to
release the test mode.

A

B

– 25 –

TUNER SECTION

B

A

r

0dB=1µV

AM Section

Function switch : MW or LW
Volume : MIN

loop antenna A

AM RF signal
generator

30% amplitude modulation by 400Hz
signal
Output level : as low as possible

FM Section

Function switch : FM
Volume : MIN
FM ANTENNA SELECTOR switch : EXT

FM RF signal
generator

22.5kHz frequency deviation by
400Hz signal.
Output level : as low as possible

32

Ω

60cm

0.01

level mete

loop antenna

µ

F

set

FM EXT
ANTENN
terminal

LW FREQUENCY COVERAGE ADJUSTMENT

Adjust part Frequency display

Confirmation 153kHz Standard value : 0.5 – 0.9V

CT3 297kHz

LW TRA CKING ADJUSTMENT

Adjust for a maximum reading on level meter.

L3 162kHz

CT1 261kHz

reading on digital

voltmeter

Adjustment value :5.5V

Standard value : 5.1 – 5.9V

set

+
–

J301 (phones)

• Repeat the procedures in each adjustment several times, and the
frequency coverage and tracking adjustments should be finally
done by the trimmer capacitors.

MW/LW IF ADJUSTMENT

Adjust for a maximum reading on level meter.
CFT1 450kHz

MW FREQUENCY COVERAGE ADJUSTMENT

Adjust part Frequency display

L5 531kHz

CT4 1,611kHz

MW TRACKING ADJUSTMENT

Adjust for a maximum reading on level meter.

L4 621kHz

CT2 1,404kHz

reading on digital

voltmeter.

Adjustment value :1.0V

Standard value : 0.8 – 1.2V

Adjustment value :5.4V

Standard value : 5.0 – 5.8V

– 26 –

Connect and Adjustment Location :

[TUNER BOARD] (SIDE B)

CFT1 : MW/LW IF Adjustment

Q14

R53

R52

(VT)

IC1

L9

MW/LW frequency coverage
FM frequency coverage

R51

TP

TP (VT)

Digital voltmeter

100 k

Ω

+

–

Be sure not to move L9

CT4 L5

CT1

CT2

CT3

CT2 : MW Tracking Adjustment

CT1 : LW Tracking Adjustment

CT3 : LW Frequency coverage Adjustment

L5 : MW Frequency coverage Adjustment

CT4 : MW Frequency coverage Adjustment

L3

L3 : LW Tracking Adjustment

L4

L4 : MW Tracking Adjustment

– 27 –

SECTION 6

DIAGRAMS

6-1. EXPLANATION OF IC TERMINALS

BD BOARD IC101 MD SECTION RF AMPLIFIER (CXA2523R)

Pin No. Pin name I/O Description

1 I I Input of RF signal l converted from I to V
2 J I Input of RF signal J converted from I to V.
3 VC O Midpoint voltage (+1.5V) generation output.

4 - 9 A–F I Signal inputs from optical pickup detector.

10 PD I Light volume monitor input.
11 APC O Laser APC output.
12 APCREF I Reference voltage input for laser power setting.
13 GND – Ground.
14 TEMPI I Temperature sensor connection terminal.
15 TEMPR O Reference voltage output for temperature sensor.
16 SWDT I Serial data input from CXD2652AR.
17 SCLK I Serial clock input from CXD2652AR.
18 XLAT I Latch signal input from CXD2652AR. “L”: Latch
19 XSTBY I Standby signal input. “L”: Standby

20 FOCNT I

21 VREF O Reference voltage output (not used).
22 EQADJ I/O Pin for center frequency setting of internal circuit EQ.
23 3TADJ I/O Pin for center frequency setting of internal circuit BPF3T.
24 VCC – Power supply (+3V).
25 WBLADJ I/O Pin for center frequency setting of internal circuit BPF22.
26 TE O Tracking error signal output to CXD2652AR.
27 CSLED – External condenser connector pin for thread error signal LPF.
28 SE O Thread error signal output to CXD2652AR.
29 ADFM O ADIP FM signal output.
30 ADIN I ADIP signal comparator input ADFM connection by coupling with AC.
31 ADAGC – External condenser connector pin for AGC of ADIP.
32 ADFG O ADIP duplex signal output to CXD2652AR.
33 AUX O I3 signal/temperature signal output (switched by serial command) to CXD2652AR.
34 FE O Focus error signal output to CXD2652AR.
35 ABCD O Light volume signal output to CXD2652AR.
36 BOTM O RF/ABCD bottom hold signal output to CXD2652AR.
37 PEAK O RF/ABCD peak hold signal output to CXD2652AR.
38 RF O RF equalizer output to CXD2652AR.
39 RFAGC – RF AGC circuit external condenser connector pin.
40 AGCI I Input RF amplifier output is input to RF AGC circuit by coupling with AC.
41 COMPO O User comparator output (not used).
42 COMPP I User comparator input (Fixed at “L”).
43 ADDC I/O Low-pass cutoff external capacitor terminal of ADIP amplifier.
44 OPO O User op amplifier output (not used).
45 OPN I User op amplefier inverted input (Fixed at “L”).
46 RFO O RF amplifier output.
47 MORFI I Group RF signal input by coupling with AC.
48 MORFO O Group RF signal output.

Center frequency control voltage input of internal circuits BFF22, BPF3T and EQ from
CXD2652AR.

APC : Auto Power Control
AGC : Auto Gain Control

– 28 –

MAIN BOARD (2/2) IC405 SYSTEM CONTROL (CXP740096-019Q)

Pin No. Pin name I/O Description

1 MD O MD function output.
2 RADIO/LINE O Radio/LINE function output.
3 ACCHK I AC power supply detection input. L : Supplied H : Not supplied
4 NC – Not used (OPEN).
5 NC – Not used (OPEN).
6 NC – Not used (OPEN).
7 RDS - DATA I RDS serial data input.
8 NC – Not used (OPEN).

9 RDS - CLK I RDS serial clock input.
10 CD - TURN I CD ON/OFF detection input.
11 NC – Not used (OPEN).
12 CD - OPEN O CD tray control output. H : OPEN
13 CD - CLOSE O CD tray control output. H : CLOSE
14 NC – Not used (OPEN).
15 NC – Not used (OPEN).
16 NC – Not used (OPEN).
17 MD - H O D/A converter down signal output (MD play).
18 REC - H O D/A converter down signal output (MD recording).
19 MD - RST O Reset signal output for MD system control.
20 MD - SCTS O UART send request output to MD.
21 MD - SRTS I UART send request input from MD.
22 MD - PDOWN O Notification of power cutoff to MD.
23 D/LCON O Back light ON/OFF control output.
24 LCD - RST O Reset signal output to LCD.
25 LCD - CE O Chip enable output to LCD.
26 LCD - A0 O Address output to LCD.
27 LED - MD O MD LED drive output.
28 LED - RADIO O BAND LED drive output.
29 LED - CD O CD LED drive output.
30 NC – Not used (OPEN).
31 RADIO POWER O Radio power supply ON/OFF control output.
32 CD POWER O CD power supply ON/OFF control output.
33 NC – Not used (OPEN).
34 NC – Not used (OPEN).
35 NC – Not used (OPEN).
36 NC – Not used (OPEN).
37 NC – Not used (OPEN).
38 NC – Not used (OPEN).
39 TU - SFT O System clock shift output.
40 RST I System reset terminal.
41 VSS – Ground.
42 XTAL I System clock (8MHz) oscillation input.
43 EXTAL O System clock (8MHz) oscillation output.
44 SELECT - GND O Destination select terminal.
45 HP - SW I Headphone detection input.
46 LCD - DATA O Serial data output to LCD.
47 LCD - CLK O Serial clock output to LCD.
48 CD - DOOR I CD tray Open/Close detection input.
49 JOG - A I Jog dial rotation detection input (A).
50 JOG - B I Jog dial rotation detection input (B).

– 29 –

Pin No. Pin name I/O Description

51 SELECT I Destination select detection input.
52 AVSS – A/D converter ground terminal.
53 AVREF – A/D converter reference voltage input.
54 AVDD – A/D converter power supply terminal.
55 LED - PRESET/AMS O AMS/PRESET LED drive output.
56 LED - SELECT O SELECT LED drive output.
57 LINE O Function LINE output.
58 LINE - LEVEL O LINE level control signal output.
59 KEY4 I Key input (4).
60 KEY3 I Key input (3).
61 KEY2 I Key input (2).
62 KEY1 I Key input (1).
63 TU - MUTE O Radio mute drive signal output.
64 TU - COUNT I Radio PLL data input.
65 TU - CLK O Radio PLL clock output.
66 TU - DATA O Radio PLL data output.
67 TU - CE O Radio PLL chip enable output.
68 NC – Not used (OPEN).
69 MD - SRXD I Communicate with MD and UART receive input.
70 MD - STXD O Communicate with MD and UART send output.
71 NC – Not used (OPEN).
72 NC – Not used (OPEN).
73 CD - XRST O CD system reset signal output.
74 CD - CLK O CD serial clock output.
75 CD - XLAT O CD system lack output.
76 CD - DATA O CD serial data output.
77 CD - SENSE1 I CD SENSE 1 input.
78 CD - SCOR I CD SCOR input.
79 CD - SQSO I CD SUB Q data input.
80 CD - SHORT I CD POWER circuit short detection input.
81 CD - SQCK O CD SUB Q clock output.
82 CD - MUTE O CD system mute output.
83 CD - FOK I CD FOK input.
84 CD - SENSE2 I CD SENSE 2 input.
85 RMC I Remote control signal input.
86 TEX I Real clock oscillation input (32.768kHz).
87 TX O Real clock oscillation output (32.768kHz).
88 VSS – Ground.
89 VDD – Power supply terminal.
90 NC – Not used (OPEN).
91 NC – Not used (OPEN).
92 NC – Not used (OPEN).
93 SPEED - L O Open/Close motor drive output.
94 AU - DATA O AUDIO data output.
95 AU - CLK O AUDIO clock output.
96 B/L - CONT O Back light ON/OFF control output.
97 PA - STANDBY O Power amplifier ON/Standby control output.
98 AMUTE O Audio mute signal output.
99 CD O CD function output.

100 P - CON O POWER ON/OFF control.

– 30 –