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MDS-JE330
SERVICE MANUAL
US Model Canadian Model AEP Model UK Model E Model Australian Model

Model Name Using Similar Mechanism MD Mechanism Type Optical Pick-up Type

MDS-JE520 MDM-5A KMS-260A/J1N

SPECIFICATIONS

-- Continued on next page --

MINIDISC DECK
MICROFILM

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SELF-DIAGNOSIS FUNCTION
The self-diagnosis function consists of error codes for customers which are displayed automatically when errors occur, and error codes which show the error history in the test mode during servicing. For details on how to view error codes for the customer, refer to the following box in the instruction manual. For details on how to check error codes during servicing, refer to the following "Procedure for using the SelfDiagnosis Function (Error History Display Mode)".

Procedure for using the Self-Diagnosis Function (Error History Display Mode). Note: Perform the self-diagnosis function in the "error history display mode" in the test mode. The following describes the least required procedure. Be careful not to enter other modes by mistake. If you set other modes accidentally, press the MENU/NO button to exit the mode. 1. 2. 3. 4. 5. 6. 7. 8. 9. While pressing the AMS knob and p button, connect the power plug to the outlet, and release the AMS knob and p button. Rotate the AMS knob and when "[Service]" is displayed, press the YES button. Rotate the AMS knob and display "ERR DP MODE". Pressing the YES button sets the error history mode and displays "total rec". Select the contents to be displayed or executed using the AMS knob. Pressing the AMS knob will display or execute the contents selected. Pressing the AMS knob another time returns to step 4. Pressing the MENU/NO button displays "ERROR DP MODE" and exits the error history mode. To exit the test mode, press the REPEAT button. The unit sets into the STANDBY state, the disc is ejected, and the test mode ends.

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ITEMS OF ERROR HISTORY MODE ITEMS AND CONTENTS
Selecting the Test Mode Display total rec Details of History Displays the recording time. Displayed as "rh". The displayed time is the total time the laser is set to the high power state. This is about 1/4 of the actual recording time. The time is displayed in decimal digits from 0h to 65535h. Displays the play time. Displayed as "ph". The time displayed is the total actual play time. Pauses are not counted. The time is displayed in decimal digits from 0h to 65535h. Displays the total number of retries during recording and number of retry errors during play. Displayed as "r p". "r" indicates the retries during recording while "p" indicates the retry errors during play. The number of retries and retry errors are displayed in hexadecimal digits from 00 to FF. Displays the total number of errors. Displayed as "total ". The number of errors is displayed in hexadecimal digits from 00 to FF. Displays the 10 latest errors. Displayed as "0 E@@". indicates the history number. The smaller the number, the more recent is the error. (00 is the latest). @@ indicates the error code. Refer to the following table for the details. The error history can be switched by rotating the AMS knob. Mode which erases the "retry err", "total err", and "err history" histories. When returning the unit to the customer after completing repairs, perform this to erase the past error history, After pressing the AMS button and "er refresh?" is displayed, press the YES button to erase the history. "Complete!" will be displayed momentarily. Be sure to check the following when this mode has been executed. · The data has been erased. · The mechanism operates normally when recording and play are performed. Mode which erases the "total rec" and "total play" histories. These histories serve as approximate indications of when to replace the optical pickup. If the optical pickup has been replaced, perform this operation and erase the history. After pressing the AMS button and "tm refresh?" is displayed, press the YES button to erase the history. "Complete!" will be displayed momentarily. Be sure to check the following when this mode has been executed. · The data has been erased. · The mechanism operates normally when recording and play are performed.

total play

retry err

total err

err history

er refresh

tm refresh

Table of Error Codes Error Code E00 E01 E02 E03 E04 No error Read error. PTOC cannot be read (DISC ejected) TOC error. UTOC error (DISC not ejected) Loading error Address cannot be read (Servo has deviated) E0A Details of Error Error Code E05 E06 E07 E08 E09 Details of Error FOK has deviated Cannot focus (Servo has deviated) Recording retry Recording retry error Playback retry error (Access error) Play retry error (C2 error)

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CAUTION Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the equipment manufacturer. Discard used batteries according to manufacture's instructions. ADVARSEL! Lithiumbatteri - Eksplosionsfare ved fejlagtig håndtering. Udskiftning må kun ske med batteri af samme fabrikat og type. Levér det brugte batteri tilbage til leverandøren. ADVARSEL Eksplosjonsfare ved feilakting skifte av batteri. Benytt samme batteritype eller en tilsvarende type anbefalt av apparatfabrikanten. Brukte batterier katterier kasseres i henhold til fabrikantens VARNIG Explosionsfara vid felaktigt batteribyte. Använd samma batterityp eller en likvärdig typ som rekommenderas av apparattillverkaren. Kassera använt batteri enligt gällande föreakrifter. VAROITUS Parist voi räjähtää, jos se on virheellisesti asennettu. Vaihda paristo ainoastaan laitevalmistajan suosittelemaan tyyppiin. Hävitä käytetty paristo valmistajan ohjeiden mukaisesti.

Laser component in this product is capable of emitting radiation exceeding the limit for Class 1. This appliance is classified as a CLASS 1 LASER product. The CLASS 1 LASER PRODUCT MARKING is located on the rear exterior. This caution label is located inside the unit.

CAUTION

Use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure. 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. Flexible Circuit Board Repairing · Keep the temperature of 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.

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.

ATTENTION AU COMPOSANT AYANT RAPPORT À LA SÉCURITÉ!! LES COMPOSANTS IDENTIFIÉS PAR UNE MARQUE ! SUR LES DIAGRAMMES SCHÉMATIQUES ET LA LISTE DES PIÈCES SONT CRITIQUES POUR LA SÉCURITÉ DE FONCTIONNEMENT. NE REMPLACER CES COMPOSANTS QUE PAR DES PIÈCES SONY DONT LES NUMÉROS SONT DONNÉS DANS CE MANUEL OU DANS LES SUPPLÉMENTS PUBLIÉS PAR SONY.

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SAFETY CHECK-OUT After correcting the original service problem, perform the following safety checks before releasing the set to the customer: Check the antenna terminals, metal trim, "metallized" knobs, screws, and all other exposed metal parts for AC leakage. Check leakage as described below. LEAKAGE The AC leakage from any exposed metal part to earth Ground and from all exposed metal parts to any exposed metal part having a return to chassis, must not exceed 0.5 mA (500 microampers). Leakage current can be measured by any one of three methods. 1. A commercial leakage tester, such as the Simpson 229 or RCA WT-540A. Follow the manufacturers' instructions to use these instruments. 2. A battery-operated AC milliammeter. The Data Precision 245 digital multimeter is suitable for this job. 3. Measuring the voltage drop across a resistor by means of a VOM or battery-operated AC voltmeter. The "limit" indication is 0.75 V, so analog meters must have an accurate low-voltage scale. The Simpson 250 and Sanwa SH-63Trd are examples of a passive VOM that is suitable. Nearly all battery operated digital multimeters that have a 2V AC range are suitable. (See Fig. A)

TABLE OF CONTENTS 1. SERVICING NOTE .......................................................... 6 2. GENERAL ........................................................................ 11 3. DISASSEMBLY
3-1. 3-2. 3-3. 3-4. Case and Front Panel .......................................................... 12 Slider (Cam) ........................................................................ 12 Base Unit (MBU-5A) and BD Board .................................. 13 SW Board and Loading Motor (M103) .............................. 13

4. TEST MODE ..................................................................... 14 5. ELECTRICAL ADJUSTMENTS ............................... 19 6. DIAGRAMS
6-1. Circuit Boards Location ...................................................... 28 6-2. Block Diagrams · BD Section ....................................................................... 29 · Main Section .................................................................... 31 6-3. Printed Wiring Board ­ BD Section ­ ................................. 35 6-4. Schematic Diagram ­ BD Section ­ (1/2) ........................... 37 Schematic Diagram ­ BD Section ­ (2/2) ........................... 39 6-5. Schematic Diagram ­ Main Section ­ (1/2) ........................ 41 Schematic Diagram ­ Main Section ­ (2/2) ........................ 43 6-6. Printed Wiring Board ­ Main Section ­ .............................. 45 6-7. Printed Wiring Board ­ Panel Section ­ ............................. 47 6-8. Schematic Diagram ­ Panel Section ­ ................................ 49 6-9. Schematic Diagram ­ BD Switch Section ­ ....................... 51 6-10. Printed Wiring Board ­ BD Switch Section ­ .................. 51 6-11. IC Block Diagrams ........................................................... 52 6-12. IC Pin Functions ............................................................... 55

To Exposed Metal Parts on Set

0.15µF

1.5k

AC voltmeter (0.75V)

7. EXPLODED VIEWS
Earth Ground

Fig. A. Using an AC voltmeter to check AC leakage.

7-1. 7-2. 7-3. 7-4.

Case and Back Panel Section .............................................. 61 Front Panel Section ............................................................. 62 Mechanism Section (MDM-5A) ......................................... 63 Base Unit Section (MBU-5A) ............................................. 64

8. ELECTRICAL PARTS LIST ........................................ 65
MODEL IDENTIFICATION -- BACK PANEL --
Parts No.

4-216-349-0 4-216-349-1 4-216-349-2 4-216-349-3 4-216-349-4 4-216-349-5

US model Canadian model AEP, UK model Australian model Singapore model Hong Kong model

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SECTION 1 SERVICING NOTE
JIG FOR CHECKING BD BOARD WAVEFORM
The special jig (J-2501-149-A) is useful for checking the waveform of the BD board. The names of terminals and the checking items to be performed are shown as follows. GND I+3V IOP TEO VC RF : : : : : : Ground For measuring IOP (Check the deterioration of the optical pick-up laser) For measuring IOP (Check the deterioration of the optical pick-up laser) TRK error signal (Traverse adjustment) Reference level for checking the signal RF signal (Check jitter)

Mechanism deck

CN110 6P connector

5P Connector

VC RF TEO IOP I+3V GND

RF VC TEO IOP I+3V GND

1 RF VC For TEO MDM-3 IOP 5 I-3V 1 VC RF TEO For IOP MDM-5 I+3V 6 GND

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IOP DATA RECORDING AND DISPLAY WHEN OPTICAL PICK-UP AND NON-VOLATILE MEMORY (IC171 OF BD BOARD) ARE REPLACED
The IOP value labeled on the optical pick-up can be recorded in the non-volatile memory. By recording the value, it will eliminate the need to look at the value on the label of the optical pick-up. When replacing the optical pick-up or non-volatile memory (IC171 of BD board), record the IOP value on the optical pick-up according to the following procedure. Record Precedure: 1. While pressing the AMS knob and p button, connect the power plug to the outlet, and release the AMS knob and p button. 2. Rotate the AMS knob to display "[Service]", and press the YES button. 3. Rotate the AMS knob to display "lop.Write", and press the YES button. 4. The display becomes "Ref=@@@.@" (@ is an arbitrary number) and the numbers which can be changed will blink. 5. Input the IOP value written on the optical pick-up. To select the number : Rotate the AMS knob. To select the digit : Press the AMS knob. 6. When the YES button is pressed, the display becomes "Measu=@@@.@" (@ is an arbitrary number). 7. As the adjustment results are recorded for the 6 value. Leave it as it is and press the YES button. 8. "Complete!" will be displayed momentarily. The value will be recorded in the non-volatile memory and the display will become "Iop Write". 9. Press the REPEAT button to complete. Display Precedure: 1. While pressing the AMS knob and p button, connect the power plug to the outlet, and release the AMS knob and p button. 2. Rotate the AMS knob to display "[Service]", and press the YES button. 3. Rotate the AMS knob to display "lop.Read". 4. "@@.@/##.#" is displayed and the recorded contents are displayed. @@.@ : indicates the Iop value labeled on the pick-up. ##.# : indicates the Iop value after adjustment 5. To end, press the AMS button or MENU/NO button to display "Iop Read". Then press the REPEAT button.

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CHECKS PRIOR TO PARTS REPLACEMENT AND ADJUSTMENTS
Before performing repairs, perform the following checks to determine the faulty locations up to a certain extent. Details of the procedures are described in "5 Electrical Adjustments". Criteria for Determination (Unsatisfactory if specified value is not satisfied) · 0.9 mW power Specified value : 0.84 to 0.92 mW · 7.0 mW power Specified value : 6.8 to 7.2 mW lop (at 7mW) · Labeled on the optical pickup Iop value ± 10mA · Traverse waveform Specified value : Below 10% offset · Error rate check Specified value : For points a, b, and c C1 error : Below 220 AD error : Below 2 · Error rate check Specified value: a.When using test disc (MDW-74/AU-1) C1 error : Below 80 AD error : Below 2 b.When using check disc (TDYS-1) C1 error : Below 50 · CPLAY error rate check Specified value: C1 error : Below 80 AD error : Below 2 Measure if unsatisfactory: · Clean the optical pick-up · Adjust again · Replace the optical pick-up · Replace the optical pick-up

Laser power check (5-6-2 : See page 21)

Traverse check (5-6-3 : See page 21) Focus bias check (5-6-4 : See page 22)

· Replace the optical pick-up · Replace the optical pick-up

C PLAY check (5-6-5 : See page 22)

· Replace the optical pick-up

Self-recording/playback check (REC/PLAY) (5-6-6 : See page 22)

TEMP check (Temperature compensation offset check) (5-6-1 : See page 21)

· Unsatisfactory if displayed as T=@@ (##) [NG]" NG (@@, ## are both arbitrary numbers)

If always unsatisfactory: · Replace the overwrite head · Check for disconnection of the circuits around the overwrite head If occasionally unsatisfactory: · Check if the overwrite head is distorted · Check the mechanism around the sled · Check for disconnection of the circuits around D101 (BD board) · Check the signals around IC101, IC121, CN102, CN103 (BD board)

Note: The criteria for determination above is intended merely to determine if satisfactory or not, and does not serve as the specified value for adjustments. When performing adjustments, use the specified values for adjustments.

FORCED RESET
The system microprocessor can be reset in the following procedure. Use these procedure when the unit cannot be operated normally due to the overrunning of the microprocessor, etc. Procedure : Remove the short-pin attached to CN406, and then attach it again. [MAIN BOARD] (Component Side)

CN406

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RETRY CAUSE DISPLAY MODE
· In this test mode, the causes for retry of the unit during recording can be displayed on the fluorescent indicator tube. During playback, the "track mode" for obtaining track information will be set. This is useful for locating the faulty part of the unit. · The following will be displayed : During recording and stop : Retry cause, number of retries, and number of retry errors. During playback : Information such as type of disc played, part played, copyright. These are displayed in hexadecimal. Procedure: 1. Procedure 1: Press the p button continuously for about 10 seconds. Procedure 2: Press the LEVEL/DISPLAY/CHAR button while pressing the p button and MENU/NO button. 2. When the mode is set, "RTs 00c 00e 00" is displayed. 3. Press the r REC button to start recording. Then press the P button and start recording. 4. To check the "track mode", press the · button to start play. 5. To exit the test mode, press the 1/u button, and turn OFF the power. When "TOC" disappears, disconnect the power plug from the outlet. If the test mode cannot be exited, refer to "Forced Reset" on page 8.

Fig. 1 Reading the Test Mode Display (During recording and stop)
RTs@@c##c** Fluorescent display tube display @@ : Cause of retry ## : Number of retries ** : Number of retry errors

Fig. 2 Reading the Test Mode Display (During playback)
@@####**$$ Fluorescent display tube display @@ ## ** $$ : : : : Parts No. (name of area named on TOC) Cluster } Address (Physical address on disc) Sector Track mode (Track information such as copyright information of each part)

Reading the Retry Cause Display Higher Bits Hexadecimal 8 Bit Binary 0 0 0 0 0 0 0 1 4 0 0 0 0 0 0 1 0 2 0 0 0 0 0 1 0 0 1 0 0 0 0 1 0 0 0 Lower Bits 8 0 0 0 1 0 0 0 0 4 0 0 1 0 0 0 0 0 2 0 1 0 0 0 0 0 0 1 1 0 0 0 0 0 0 0

Hexadecimal 01 02 04 08 10 20 40 80

Cause of Retry shock ader5

Occurring conditions When track jump (shock) is detected When ADER was counted more than five times continuously When DIN unlock is detected When not in focus When ABCD signal level exceeds the specified range When CLV is unlocked When access operation is not performed normally

b7 b6 b5 b4 b3 b2 b1 b0

Discontinuous address When ADIP address is not continuous DIN unlock FCS incorrect IVR rec error CLV unlock Access fault

Reading the Display: Convert the hexadecimal display into binary display. If more than two causes, they will be added. Example When 42 is displayed: Higher bit : 4 = 0100 n b6 Lower bit : 2 = 0010 n b1 In this case, the retry cause is combined of "CLV unlock" and "ader5". When A2 is displayed: Higher bit : A = 1010 n b7+b5 Lower bit : 2 = 0010 n b2 The retry cause in this case is combined of "access fault", "IVR rec error", and "ader5".

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Reading the Track Mode Display Higher Bits Hexadecimal 8 Bit Binary 0 0 0 0 0 0 0 1 4 0 0 0 0 0 0 1 0 2 0 0 0 0 0 1 0 0 1 0 0 0 0 1 0 0 0 Lower Bits 8 0 0 0 1 0 0 0 0 4 0 0 1 0 0 0 0 0 2 0 1 0 0 0 0 0 0 1 1 0 0 0 0 0 0 0 Hexadecimal 01 02 04 08 10 20 40 80 When 0 Emphasis OFF Monaural This is 2-bit display. Normally 01. 01:Normal audio. Others:Invalid Audio (Normal) Original Copyright Write prohibited Invalid Digital copy No copyright Write allowed Emphasis ON Stereo Details When 1

b7 b6 b5 b4 b3 b2 b1 b0

Reading the Display: Convert the hexadecimal display into binary display. If more than two causes, they will be added. Example When 84 is displayed: Higher bit : 8 = 1000 n b7 Lower bit : 4 = 0100 n b2 In this case, as b2 and b7 are 1 and others are 0, it can be determined that the retry cause is combined of "emphasis OFF", "monaural", "original", "copyright exists", and "write allowed". Example When 07 is displayed: Higher bit : 0 = 1000 n All 0 Lower bit : 7 = 0111 n b0+b1+b2 In this case, as b0, b1, and b2 are 1 and others are 0, it can be determined that the retry cause is combined of "emphasis ON", "stereo", "original", "copyright exists", and "write prohibited".

Hexadecimal n Binary Conversion Table
Hexadecimal 0 1 2 3 4 5 6 7 Binary 0000 0001 0010 0011 0100 0101 0110 0111 Hexadecimal 8 9 A B C D E F Binary 1000 1001 1010 1011 1100 1101 1110 1111

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SECTION 2 GENERAL
Front Panel

1

2

3

4

5

6

7

8

9

10

11

12

19

18

17 16

15

14

13

LOCATION OF PARTS AND CONTROLS
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 STANDBY indicator 1/u (Power) button PLAY MODE button REPEAT button LEVEL/DISPLAY/CHAR button DISK compartment MENU/NO button YES button 0 button ) button r REC (Recording) button INPUT DIGITAL/ANALOG switch p (stop) button P (Pause) button · (Play) button AMS ± PUSH ENTOR knob CLEAR button § (Eject) button DISPLAY window

· AMS is the abbreviation for Automatic Music Sensor.

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SECTION 3 DISASSEMBLY
Note: Follow the disassembly procedure in the numerical order given.

3-1. CASE AND FRONT PANEL
3 Case 2 Two screws (Case)

1 Two screws (Case)

4 Flat type wire (CN421)

6 Front panel assembly

5 Five screws (BVTP3x8)

3-2. SLIDER (CAM)
6 Slider (Cam)

· Note for Installation of Slider (Cam)

Set the shaft of Cam gear to be at the position in the figure.

2 Bracket (Guide L) 1 Two screws (BTP2.6x6)

3 Leaf spring

Set the shaft of Lever (O/C) to be at the position in the figure.

4 Two screws (BTP2.6x6)

5 Bracket (Guide R)

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3-3. BASE UNIT (MBU-5A) AND BD BOARD

2 Base unit (MBU-5A) 5 Flexible board (CN104)

6 Flexible board (CN101) 1 Three screws (BTP2.6x6)

3 Remove the solder (Five portion) 7 BD board 4 Screw (M1.7x4)

3-4. SW BOARD AND LOADING MOTOR (M103)
1 Screw (PTPWH M2.6x6) 2 Gear B 3 Two screws (PWH1.7x3)

4 Loading motor (M103) 6 SW board

5 Two screws (BTP2.6x6)

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SECTION 4 TEST MODE
4-1. PRECAUTIONS FOR USE OF TEST MODE
· As loading related operations will be performed regardless of the test mode operations being performed, be sure to check that the disc is stopped before setting and removing it. Even if the §EJECT button is pressed while the disc is rotating during continuous playback, continuous recording, etc., the disc will not stop rotating. Therefore, it will be ejected while rotating. Be sure to press the §EJECT button after pressing the MENU/NO button and the rotation of disc is stopped. 4-1-1. Recording laser emission mode and operating buttons · · · · · · Continuous recording mode (CREC MODE) Laser power check mode (LDPWR CHECK) Laser power adjustment mode (LDPWR ADJUST) Traverse (MO) check (EF MO CHECK) Traverse (MO) adjustment (EF MO ADJUST) When pressing the rREC button.

4-2. SETTING THE TEST MODE
The following are two methods of entering the test mode. Procedure 1: While pressing the AMS knob and p button, connect the power plug to an outlet, and release the AMS knob and p button. When the test mode is set, "[Check]" will be displayed. Rotating the AMS knob switches between the following four groups; ···Nn Check Nn Adjust Nn Service Nn Develop Nn ···. Procedure 2: While pressing the AMS knob, connect the power plug to the outlet and release the AMS knob. When the test mode is set, "TEMP CHECK" will be displayed. By setting the test mode using this method, only the "Check" group of method 1 can be executed.

4-3. EXITING THE TEST MODE
Press the REPEAT button. The disc is ejected when loaded, and "Standby" display blinks, and the STANDBY state is set.

4-4. BASIC OPERATIONS OF THE TEST MODE
All operations are performed using the AMS knob, YES button, and MENU/NO button. The functions of these buttons are as follows.
Function name AMS knob YES button MENU/NO button Function Changes parameters and modes Proceeds onto the next step. Finalizes input. Returns to previous step. Stops operations.

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4-5. SELECTING THE TEST MODE
There are 24 types of test modes as shown below. The groups can be switched by rotating the AMS knob. After selecting the group to be used, press the YES button. After setting a certain group, rotating the AMS knob switches between these modes. Refer to "Group" in the table for details selected. All items used for servicing can be treated using group S. So be carefully not to enter other groups by mistake.
Display TEMP CHECK LDPWR CHECK EF MO CHECK EF CD CHECK FBIAS CHECK S curve CHECK VERIFY MODE DETRK CHECK TEMP ADJUST LDPWR ADJUST EF MO ADJUST EF CD ADJUST FBIAS ADJUST EEP MODE Impossible ERR DP MODE ADJ CLEAR AG Set (MO) AG Set (CD) Iop Read Iop Write S40 @@.@@ CPLAY MODE CREC MODE Contents Temperature compensation offset check Laser power check Traverse (MO) check Traverse (CD) check Focus bias check S letter check Non-volatile memory check Detrack check Temperature compensation offset adjustment Laser power adjustment Traverse (MO) adjustment Traverse (CD) adjustment Focus bias adjustment Non-volatile memory control No function Error history display, clear Initialization of non-volatile memory of adjustment value Auto gain output level adjustment (MO) Auto gain output level adjustment (CD) IOP data display IOP data write Microprocessing version display Continuous play mode Continuous recording mode C C C A A C A A A A (X) (!) (X) S S S S S S S S S D D (X) (X) (X) Mark C C C C C C C C A A A A A S S S S S D D Group (*) S
S

S S S

Group (*) C: Check S: Service

A: Adjust D: Develop

· For details of each adjustment mode, refer to "5. Electrical Adjustments". For details of "ERR DP MODE", refer to "Self-Diagnosis Function" on page 2. · If a different mode has been selected by mistake, press the MENU/NO button to exit that mode. · Modes with (X) in the Mark column are not used for servicing and therefore are not described in detail. If these modes are set accidentally, press the MENU/NO button to exit the mode immediately. Be especially careful not to set the modes with (!) as they will overwrite the non-volatile memory and reset it, and as a result, the unit will not operate normally.

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4-5-1. Operating the Continuous Playback Mode 1. Entering the continuous playback mode 1 Set the disc in the unit. (Whichever recordable discs or discs for playback only are available.) 2 Rotate the AMS knob and display "CPLAY MODE". 3 Press the YES button to change the display to "CPLAY MID". 4 When access completes, the display changes to "C = AD = ". Note : The numbers " " displayed show you error rates and ADER. 2. Changing the parts to be played back 1 Press the YES button during continuous playback to change the display as below. "CPLAY MID" n "CPLAY OUT" n "CPLAY IN" When pressed another time, the parts to be played back can be moved. 2 When access completes, the display changes to "C = AD = ". Note : The numbers " " displayed show you error rates and ADER. 3. Ending the continuous playback mode 1 Press the MENU/NO button. The display will change to "CPLAY MODE". 2 Press the §EJECT button to remove the disc. Note : The playback start addresses for IN, MID, and OUT are as follows. IN 40h cluster MID 300h cluster OUT 700h cluster 4-5-2. Operating the Continuous Recording Mode (Use only when performing self-recording/palyback check.) 1. Entering the continuous recording mode 1 Set a recordable disc in the unit. 2 Rotate the AMS knob and display "CREC MODE". 3 Press the YES button to change the display to "CREC MID". 4 When access completes, the display changes to "CREC ( )" and REC lights up. Note : The numbers " " displayed shows you the recording position addresses. 2. Changing the parts to be recorded 1 When the YES button is pressed during continuous recording, the display changes as below. "CPLAY MID" n "CPLAY OUT" n "CPLAY IN" When pressed another time, the parts to be recorded can be changed. REC goes off. 2 When access completes, the display changes to "CREC ( )" and REC lights up. Note : The numbers " " displayed shows you the recording position addresses. 3. Ending the continuous recording mode 1 Press the MENU/NO button. The display changes to "CREC MODE" and REC goes off. 2 Press the § button to remove the disc. Note 1 : The recording start addresses for IN, MID, and OUT are as follows. IN 40h cluster MID 300h cluster OUT 700h cluster Note 2 : The MENU/NO button can be used to stop recording anytime. Note 3 : Do not perform continuous recording for long periods of time above 5 minutes. Note 4 : During continuous recording, be careful not to apply vibration. 4-5-3. Non-Volatile Memory Mode (EEP MODE) This mode reads and writes the contents of the non-volatile memory. It is not used in servicing. If set accidentally, press the MENU/NO button immediately to exit it.

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4-6. FUNCTIONS OF OTHER BUTTONS
Function ¢ p ) 0 PLAY MODE n LEVEL/DISPLAY/CHAR (*) PLAY MODE n PLAY MODE (*) LEVEL/DISPLAY/CHAR § REPEAT Contents Sets continuous playback when pressed in the STOP state. When pressed during continuous playback, the tracking servo turns ON/OFF. Stops continuous playback and continuous recording. The sled moves to the outer circumference only when this is pressed. The sled moves to the inner circumference only when this is pressed. Switches between the pit and groove modes when pressed. Switches the spindle servo mode (CLV S ~ CLV A). Switches the displayed contents each time the button is pressed Ejects the disc Exits the test mode

(*)When displayed as "PLAY MODEnPLAY MODE", it means to press the PLAY MODE button, and then press it again. When pressed the first time, the fluorescent display tube displays "PROGRAM".

4-7. TEST MODE DISPLAYS
Each time the LEVEL/DISPLAY/CHAR button is pressed, the display changes in the following order. 1. Mode display Displays "TEMP ADJUST", "CPLAYMODE", etc. 2. Error rate display Displays the error rate in the following way. C1 = AD = C1 = Indicates the C1 error. AD = Indicates ADER. 3. Address display The address is displayed as follows. (MO:recordable disc, CD:playback only disc) If the LEVEL/DISPLAY/CHAR button is pressed after pressing the PROGRAM button, the display switches from groove to pit or vice versa. h= s= (MO pit and CD) a= (MO groove) h= h = Indicates the header address. s = Indicates the SUBQ address. a = Indicates the ADIP address. Note: "­" is displayed when servo is not imposed. 4. Auto gain display (Not used in servicing) The auto gain is displayed as follows. AG = / [ ] 5. Detrack check display (Not used in servicing) The detrack is displayed as follows. ADR = 6. IVR display (Not used in servicing) The IVR is displayed as follows. [ ][ ][

Mode display Error rate display Address display Auto gain display (Not used in servicing) Detrack check display (Not used in servicing) IVR display (Not used in servicing)

­ 17 ­

MEANINGS OF OTHER DISPLAYS
Display ¢ P REC SYNC L.SYNC OVER B ATRACK DISC SLEEP MONO PROGRAM Contents When Lit During continuous playback (CLV: ON) Tracking servo OFF Recording mode ON CLV low speed mode ABCD adjustment completed Tracking offset cancel ON Tracking auto gain OK Focus auto gain OK Pit High reflection CLV S CLV LOCK When the PLAY MODE button is pressed Groove Low reflection CLV A CLV UNLOCK Tracking offset cancel OFF STOP (CLV: OFF) Tracking servo ON Recording mode OFF CLV normal mode When Off

­ 18 ­

SECTION 5 ELECTRICAL ADJUSTMENTS
5-1. PARTS REPLACEMENT AND ADJUSTMENT
· Check and adjust the MDM and MBU as follows. The procedure changes according to the part replaced · Abbreviation OP : Optical pick-up OWH: Overwrite head

· Temperature compensation offset check · Laser power check · Traverse check · Focus bias check · C PLAY check · Self-recording/playback check OK

NG Parts Replacement and Repair

Check the sleding and spindle mechanisms. Other causes can be suspected.

Has the OWH been replaced?

YES

NO

Has OP, IC171, IC101, or IC121 been replaced?

YES Initial setting of the adjustment value NO

Has OP or IC171 been replaced?

NO

YES IOP information recording (IOP value labeled on OP)

Has IC171 or D101 been replaced?

YES Temperature compensation offset adjustment

NO

· Laser power adjustment · Traverse adjustment · Focus bias adjustment · Error rate adjustment · Focus bias check · Auto gain adjustment

­ 19 ­

5-2. PRECAUTIONS FOR CHECKING LASER DIODE EMISSINON
To check the emission of the laser diode during adjustments, never view directly from the top as this may lose your eye-sight.

5-3. PRECAUTIONS FOR USE OF OPTICAL PICKUP (KMS-260A)
As the laser diode in the optical pick-up is easily damaged by static electricity, solder the laser tap of the flexible board when using it. Before disconnecting the connector, desolder first. Before connecting the connector, be careful not to remove the solder. Also take adequate measures to prevent damage by static electricity. Handle the flexible board with care as it breaks easily.
pick-up flexible board

4) Use the following tools and measuring devices. · Check Disc (MD) TDYS-1 (Parts No. 4-963-646-01) · Test Disk (MDW-74/AU-1) (Parts No. 8-892-341-41) · Laser power meter LPM-8001 (Parts No. J-2501-046-A) or MD Laser power meter 8010S (Parts No. J-2501-145-A) · Oscilloscope (Measure after performing CAL of prove.) · Digital voltmeter · Thermometer · Jig for checking BD board waveform (Parts No. : J-2501-149-A) 5) When observing several signals on the oscilloscope, etc., make sure that VC and ground do not connect inside the oscilloscope. (VC and ground will become short-circuited.) 6) Using the above jig enables the waveform to be checked without the need to solder. (Refer to Servicing Note on page 6.) 7) As the disc used will affect the adjustment results, make sure that no dusts nor fingerprints are attached to it.

5-5. CREATING CONTINUOUSLY RECORDED DISC
laser tap

Optical pick-up flexible board

5-4. PRECAUTIONS FOR ADJUSTMENTS
1) When replacing the following parts, perform the adjustments and checks with ¬ in the order shown in the following table.
Optical Pick-up IC171 1. Initial setting of adjustment value 2. Recording of IOP information (Value written in the pick-up) 3. Temperature compensation offset adjustment 4. Laser power adjustment 5. Traverse adjustment 6. Focus bias adjustment 7. Error rate check 8. Auto gain output level adjustment ¬ ¬ BD Board D101 G IC101, IC121 IC192 ¬ G

* This disc is used in focus bias adjustment and error rate check. The following describes how to create a continuous recording disc. 1. Insert a disc (blank disc) commercially available. 2. Rotate the AMS knob and display "CREC MODE". 3. Press the YES button again to display "CREC MID". Display "CREC (0300)" and start to recording. 4. Complete recording within 5 minutes. 5. Press the MENU/NO button and stop recording . 6. Press the §EJECT button and remove the disc. The above has been how to create a continuous recorded data for the focus bias adjustment and error rate check. Note : · Be careful not to apply vibration during continuous recording.

¬

¬

G

G

G

G

¬

¬

G

G

¬

¬

G

¬

¬

¬

¬

G

¬

G

¬ ¬ ¬

¬ ¬ ¬

G G G

¬ ¬ ¬

G G G

2) Set the test mode when performing adjustments. After completing the adjustments, exit the test mode. Perform the adjustments and checks in "group S" of the test mode. 3) Perform the adjustments to be needed in the order shown.

­ 20 ­

5-6. CHECKS PRIOR TO REPAIRS
These checks are performed before replacing parts according to "approximate specifications" to determine the faulty locations. For details, refer to "Checks Prior to Parts Replacement and Adjustments" (See page 8). 5-6-1. Temperature Compensation Offset Check When performing adjustments, set the internal temperature and room temperature to 22 to 28ºC. Checking Procedure: 1. Rotate the AMS knob to display "TEMP CHECK". 2. Press the YES button. 3. "T=@@(##) [OK]" should be displayed. If "T=@@ (##) [NG]" is displayed, it means that the results are bad. (@@ indicates the current value set, and ## indicates the value written in the non-volatile memory.) 5-6-2. Laser Power Check Before checking, check the IOP value of the optical pick-up. (Refer to 5-8. Recording and Displaying IOP Information.) Connection :
Laser power meter

Note 1: After step 4, each time the YES button is pressed, the display will be switched between " 0.7 mW *** $ ", " 6.2 mW *** $ ", and " Wp *** $ ". Nothing needs to be performed here. 5-6-3. Traverse Check Connection :
Oscilloscope

BD board CN110 pin 3 (TE) CN110 pin 1 (VC) V : 0.5 V/div H : 10 ms/div Input : DC mode

Optical pick-up objective lens Digital volt meter

Checking Procedure: 1. Connect an oscilloscope to CN110 pin 3 (TE) and CN110 pin 1 (VC) of the BD board. 2. Load a disc (any available on the market). (Refer to Note 1.) 3. Press the ) button and move the optical pick-up outside the pit. 4. Rotate the AMS knob and display "EF MO CHECK". 5. Press the YES button and display "EFB = MO-R". (Laser power READ power/Focus servo ON/tracking servo OFF/ spindle (S) servo ON) 6. Observe the waveform of the oscilloscope, and check that the specified value is satisfied. Do not rotate the AMS knob. (Read power traverse checking) (Traverse Waveform)
A VC B

BD board CN110 pin 5 (I+3V) CN110 pin 4 (IOP)

Checking Procedure: 1. Set the laser power meter on the objective lens of the optical pick-up. (When it cannot be set properly, press the 0 button or ) button to move the optical pick-up.) Connect the digital volt meter to CN110 pin 5 (I+3V) and CN110 pin 4 (IOP). 2. Then, rotate the AMS knob and display "LDPWR CHECK". 3. Press the YES button once and display " 0.9 mW *** $ ". Check that the reading of the laser power meter become 0.84 to 0.92 mW. (*** means IOP value) 4. Press the YES button once more and display " 7.0 mW *** $ ". Check that the reading the laser power meter and digital volt meter satisfy the specified value. Specified Value : Laser power meter reading : 7.0 ± 0.2 mW Digital voltmeter reading : Optical pick-up displayed value ± 10% (Optical pick-up label)
KMS

Specified value : Below 10% offset value Offset value (%) = IA ­ BI X 100 2 (A + B)

7. Press the YES button and display "EFB = MO-W". 8. Observe the waveform of the oscilloscope, and check that the specified value is satisfied. Do not rotate the AMS knob. (Write power traverse checking) (Traverse Waveform)

A VC B

260A 27X40 B0825

(For details of the method for checking this value, refer to "5-8. Recording and Displaying IOP Information".)

Specified value : Below 10% offset value Offset value (%) = IA ­ BI X 100 2 (A + B)

Iop = 82.5 mA in this case Iop (mA) = Digital voltmeter reading (mV)/1 ()

5. Press the MENU/NO button and display "LDPWR CHECK" and stop the laser emission. (The MENU/NO button is effective at all times to stop the laser emission.)

N

9. Press the YES button display "EFB = MO-P". Then, the optical pick-up moves to the pit area automatically and servo is imposed.

­ 21 ­

10. Observe the waveform of the oscilloscope, and check that the specified value is satisfied. Do not rotate the AMS knob. (Traverse Waveform)
A VC B

Specified value : Below 10% offset value Offset value (%) = IA ­ BI X 100 2 (A + B)

11. Press the YES button display "EF MO CHECK" The disc stops rotating automatically. 12. Press the § button and remove the disc. 13. Load the check disc (MD) TDYS-1. 14. Roteto the AMS knob and display "EF CD CHECK" (C04). CD". Servo is 15. Press the YES button and display "EFB = imposed automatically. 16. Observe the waveform of the oscilloscope, and check that the specified value is satisfied. Do not rotate the AMS knob. (Traverse Waveform)
A VC B

5-6-4. Focus Bias Check Change the focus bias and check the focus tolerance amount. Checking Procedure : 1. Load a test disk (MDW-74/AU-1). 2. Rotate the AMS knob and display "CPLAY MODE". 3. Press the YES button twice and display "CPLAY MID". 4. Press the MENU/NO button when "C = AD = " is displayed. 5. Rotate the AMS knob and display "FBIAS CHECK". 6. Press the YES button and display " / c = ". The first four digits indicate the C1 error rate, the two digits after [/] indicate ADER, and the 2 digits after [c =] indicate the focus bias value. Check that the C1 error is below 220 and ADER is below 2. 7. Press the YES button and display " / b = ". Check that the C1 error is below 220 and ADER is below 2. 8. Press the YES button and display " / a = ". Check that the C1 error is below 220 and ADER is below 2. 9. Press the MENU/NO button, next press the § button, and remove the test disc. 5-6-5. C PLAY Checking MO Error Rate Check Checking Procedure : 1. Load a test disk (MDW-74/AU-1). 2. Rotate the AMS knob and display "CPLAY MODE". 3. Press the YES button and display "CPLAY MID". AD = ". 4. The display changes to "C1 = 5. If the C1 error rate is below 80, check that ADER is below 2. 6. Press the MENU/NO button, stop playback, press the § button, and test disc. CD Error Rate Check Checking Procedure : 1. Load a check disc (MD) TDYS-1. 2. Rotate the AMS knob and display "CPLAY MODE". 3. Press the YES button twice and display "CPLAY MID". 4. The display changes to "C1 = AD = ". 5. Check that the C1 error rate is below 50. 6. Press the MENU/NO button, stop playback, press the § button, and the test disc. 5-6-6. Self-Recording/playback Check Prepare a continuous recording disc using the unit to be repaired and check the error rate. Checking Procedure : 1. Insert a recordable disc (blank disc) into the unit. 2. Rotate the AMS knob to display "CREC MODE". 3. Press the YES button to display the "CREC MID". 4. When recording starts, " REC " is displayed, this becomes "CREC (@@@@)" (@@@@ is the address), and recording starts. 5. About 1 minute later, press the MENU/NO button to stop continuous recording. 6. Rotate the AMS knob to display "C PLAY MODE". 7. Press the YES button to display "C PLAY MID". 8. "C1 = AD = " will be displayed. 9. Check that the C1 error becomes below 80 and the AD error below 2. 10. Press the MENU/NO button to stop playback, and press the § button and remove the disc.

Specified value : Below 10% offset value Offset value (%) = IA ­ BI X 100 2 (A + B)

17. Press the YES button and display "EF CD CHECK". 18. Press the § button and remove the check disc (MD) TDYS-1. Note 1 : MO reading data will be erased during if a recorded disc is used in this adjustment. Note 2 : If the traverse waveform is not clear, connect the oscilloscope as shown in the following figure so that it can be seen more clearly.
Oscilloscope

BD board CN110 pin 3 (TE) CN110 pin 1 (VC)

330 k 10pF

­ 22 ­

5-7. INITIAL SETTING OF ADJUSTMENT VALUE
Note: Mode which sets the adjustment results recorded in the non-volatile memory to the initial setting value. However the results of the temperature compensation offset adjustment will not change to the initial setting value. If initial setting is performed, perform all adjustments again excluding the temperature compensation offset adjustment. For details of the initial setting, refer to "5-4. Precautions on Adjustments" and execute the initial setting before the adjustment as required. Setting Procedure : 1. Rotate the AMS knob to display "ADJ CLEAR". 2. Press the YES button. "Complete!" will be displayed momentarily and initial setting will be executed, after which "ADJ CLEAR" will be displayed.

5-9. TEMPERATURE COMPENSATION OFFSET ADJUTMENT
Save the temperature data at that time in the non-volatile memory as 25 °C reference data. Note : 1. Usually, do not perform this adjustment. 2. Perform this adjustment in an ambient temperature of 22 °C to 28 °C. Perform it immediately after the power is turned on when the internal temperature of the unit is the same as the ambient temperature of 22 °C to 28 °C. 3. When D101 has been replaced, perform this adjustment after the temperature of this part has become the ambient temperature. Adjusting Procedure : 1. Rotate the AMS knob and display "TEMP ADJUST". 2. Press the YES button and select the "TEMP ADJUST" mode. 3. "TEMP = [OK]" and the current temperature data will be displayed. 4. To save the data, press the YES button. When not saving the data, press the MENU/NO button. 5. When the YES button is pressed, "TEMP = SAVE" will be displayed and turned back to "TEMP ADJUST" display then. When the MENU/NO button is pressed, "TEMP ADJUST" will be displayed immediatelly. Specified Value : " should be within "E0 - EF", "F0 - FF", "00 The "TEMP = 0F", "10 - 1F" and "20 - 2F".

5-8. RECORDING AND DISPLAYING THE IOP INFORMATION
The IOP data can be recorded in the non-volatile memory. The IOP value on the label of the optical pickup and the IOP value after the adjustment will be recorded. Recording these data eliminates the need to read the label on the optical pick-up. Recording Procedure : 1. While pressing the AMS knob and p button, connect the power plug to the outlet, and release the AMS knob and p button. 2. Rotate the AMS knob to display "[Service]", and press the YES button. 3. Rotate the AMS knob to display "Iop.Write", and press the YES button. 4. The display becomes Ref=@@@.@ (@ is an arbitrary number) and the numbers which can be changed will blink. 5. Input the IOP value written on the optical pick-up. To select the number : Rotate the AMS knob. To select the digit : Press the AMS knob 6. When the YES button is pressed, the display becomes "Measu=@@@.@" (@ is an arbitrary number). 7. As the adjustment results are recorded for the 6 value. Leave it as it is and press the YES button. 8. "Complete!" will be displayed momentarily. The value will be recorded in the non-volatile memory and the display will become "Iop Write". Display Procedure : 1. Rotate the AMS knob to display "Iop.Read". 2. "@@.@/##.#" is displayed and the recorded contents are displayed. @@.@ indicates the Iop value labeled on the pick-up. ##.# indicates the Iop value after adjustment 3. To end, press the AMS button or MENU/NO button to display "Iop Read".

5-10. LASER POWER ADJUSTMENT
Check the IOP value of the optical pick-up before adjustments. (Refer to 5-8. Recording and Displaying IOP Information.) Connection :
Laser power meter

Optical pick-up objective lens

Digital volt meter

BD board CN110 pin 5 (I+3V) CN110 pin 4 (IOP)

Adjusting Procedure : 1. Set the laser power meter on the objective lens of the optical pick-up. (When it cannot be set properly, press the 0 button or ) button to move the optical pick-up.) Connect the digital volt meter to CN110 pin 5 (I+3V) and CN110 pin 4 (IOP). 2. Rotate the AMS knob and display "LDPWR ADJUST". (Laser power : For adjustment) 3. Press the YES button once and display "LD 0.9 mW $ ". 4. Rotate the AMS knob so that the reading of the laser power meter becomes 0.85 to 0.91 mW. Press the YES button after setting the range knob of the laser power meter, and save the adjustment results. ("LD SAVE $ " will be displayed for a moment.) 5. Then "LD 7.0 mW $ " will be displayed. 6. Rotate the AMS knob so that the reading of the laser power meter becomes 6.9 to 7.1 mW, press the YES button and save it. Note : Do not perform the emission with 7.0 mW more than 15 seconds continuously.

­ 23 ­

7. Then, rotate the AMS knob and display "LDPWR CHECK". 8. Press the YES button once and display "0.9 mW *** $ ". Check that the reading of the laser power meter become 0.85 to 0.91 mW. (*** means IOP value) 9. Press the YES button once more and display "7.0 mW *** $ ". Check that the reading the laser power meter and digital volt meter satisfy the specified value. Note down the digital voltmeter reading value. Specified Value : Laser power meter reading : 7.0 ± 0.1 mW Digital voltmeter reading : Optical pick-up displayed value ± 10% (Optical pick-up label)
KMS

5-11. TRAVERSE ADJUSTMENT
Connection :
Oscilloscope

BD board CN110 pin 3 (TE) CN110 pin 1 (VC) V : 0.5 V/div H : 10 ms/div Input : DC mode

260A 27X40 B0825

(For details of the method for checking this value, refer to "5-8. Recording and Displaying IOP Information".)

Iop = 82.5 mA in this case Iop (mA) = Digital voltmeter reading (mV)/1 ()

10. Press the MENU/NO button and display "LDPWR CHECK" and stop the laser emission. (The MENU/NO button is effective at all times to stop the laser emission.) 11. Rotate the AMS knob to display "Iop.Write". 12. Press the YES button. When the display becomes Ref=@@@.@ (@ is an arbitrary number), press the YES button to display "Measu=@@@.@" (@ is an arbitrary number). 13. The numbers which can be changed will blink. Input the Iop value noted down at step 9. To select the number : Rotate the AMS knob. To select the digit : Press the AMS knob 14. When the YES button is pressed, "Complete!" will be displayed momentarily. The value will be recorded in the non-volatile memory and the display will become "Iop Write". Note 1: After step 4, each time the YES button is pressed, the display will be switched between "0.7 mW *** $ ", "6.2 *** $ ". Nothing mW *** $ ", and "Wp needs to be performed here.

Adjusting Procedure : 1. Connect an oscilloscope to CN110 pin 3 (TE) and CN110 pin 1 (VC) of the BD board. 2. Load a disc (any available on the market). (Refer to Note 1.) 3. Press the ) button and move the optical pick-up outside the pit. 4. Rotate the AMS knob and display "EF MO ADJUST". MO-R". 5. Press the YES button and display "EFB = (Laser power READ power/Focus servo ON/tracking servo OFF/ spindle (S) servo ON) 6. Rotate the AMS knob so that the waveform of the oscilloscope becomes the specified value. (When the AMS knob is rotated, the of "EFB= " changes and the waveform changes.) In this adjustment, waveform varies at intervals of approx. 2%. Adjust the waveform so that the specified value is satisfied as much as possible. (Read power traverse adjustment) (Traverse Waveform)
A VC B

N

Specification A = B

7. Press the YES button and save the result of adjustment to the non-volatile memory ("EFB = SAVE" will be displayed for a moment. Then "EFB = MO-W" will be displayed). 8. Rotate the AMS knob so that the waveform of the oscilloscope becomes the specified value. (When the AMS knob is rotated, the of "EFB- " changes and the waveform changes.) In this adjustment, waveform varies at intervals of approx. 2%. Adjust the waveform so that the specified value is satisfied as much as possible. (Write power traverse adjustment) (Traverse Waveform)
A VC B

Specification A = B

9. Press the YES button, and save the adjustment results in the SAVE" will be displayed for non-volatile memory. ("EFB = a moment.) 10. "EFB = MO-P". will be displayed. The optical pick-up moves to the pit area automatically and servo is imposed.

­ 24 ­

11. Rotate the AMS knob until the waveform of the oscilloscope moves closer to the specified value. In this adjustment, waveform varies at intervals of approx. 2%. Adjust the waveform so that the specified value is satisfied as much as possible. (Traverse Waveform)

5-12. FOCUS BIAS ADJUSTMENT
Adjusting Procedure : 1. Load a test disk (MDW-74/AU-1). 2. Rotate the AMS knob and display "CPLAY MODE". 3. Press the YES button and display "CPLAY MID". AD = " is 4. Press the MENU/NO button when "C1 = displayed. 5. Rotate the AMS knob and display "FBIAS ADJUST". 6. Press the YES button and display " / a = ". The first four digits indicate the C1 error rate, the two digits after [/] indicate ADER, and the 2 digits after [a =] indicate the focus bias value. 7. Rotate the AMS knob in the clockwise direction and find the focus bias value at which the C1 error rate becomes 220 (Refer to Note 2). 8. Press the YES button and display " / b = ". 9. Rotate the AMS knob in the counterclockwise direction and find the focus bias value at which the C1 error rate becomes 220. 10. Press the YES button and display " / c = ". 11. Check that the C1 error rate is below 50 and ADER is 00. Then press the YES button. 12. If the "( " in " ( " is above 20, press the YES button. If below 20, press the MENU/NO button and repeat the adjustment from step 2. 13. Press the § button to remove the test disc. Note 1 : The relation between the C1 error and focus bias is as shown in the following figure. Find points a and b in the following figure using the above adjustment. The focal point position C is automatically calculated from points a and b. Note 2 : As the C1 error rate changes, perform the adjustment using the average vale.
C1 error 220

A VC B

Specification A = B

12. Press the YES button, and save the adjustment results in the non-volatile memory. ("EFB = SAVE" will be displayed for a moment.) Next "EF MO ADJUST" is displayed. The disc stops rotating automatically. 13. Press the § button and remove the disc. 14. Load the check disc (MD) TDYS-1. 15. Roteto AMS knob and display "EF CD ADJUST". CD". Servo is 16. Press the YES button and display "EFB = imposed automatically. 17. Rotate the AMS knob so that the waveform of the oscilloscope moves closer to the specified value. In this adjustment, waveform varies at intervals of approx. 2%. Adjust the waveform so that the specified value is satisfied as much as possible. (Traverse Waveform)

A VC B

Specification A = B

18. Press the YES button, display "EFB = SAVE" for a moment and save the adjustment results in the non-volatile memory. Next "EF CD ADJUST" will be displayed. 19. Press the § button and remove the check disc (MD) TDYS-1. Note 1 : MO reading data will be erased during if a recorded disc is used in this adjustment. Note 2 : If the traverse waveform is not clear, connect the oscilloscope as shown in the following figure so that it can be seen more clearly.
Oscilloscope

b

c

a

Focus bias value (F. BIAS)

BD board CN110 pin 3 (TE) CN110 pin 1 (VC)

330 k 10pF

­ 25 ­

5-13. ERROR RATE CHECK
5-13-1. CD Error Rate Check Checking Procedure : 1. Load a check disc (MD) TDYS-1. 2. Rotate the AMS knob and display "CPLAY MODE". 3. Press the YES button twice and display "CPLAY MID". 4. The display changes to "C1 = AD = ". 5. Check that the C1 error rate is below 20. 6. Press the MENU/NO button, stop playback, press the § button, and remove the test disc. 5-13-2. MO Error Rate Check Checking Procedure : 1. Load a test disc (MDW-74/AU-1). 2. Rotate the AMS knob and display "CPLAY MODE". 3. Press the YES button and display "CPLAY MID". 4. The display changes to "C1 = AD = ". 5. If the C1 error rate is below 50, check that ADER is 00. 6. Press the MENU/NO button, stop playback, press the § button, and remove the test disc.

5-15. AUTO GAIN CONTROL OUTPUT LEVEL ADJUSTMENT
Be sure to perform this adjustment when the pickup is replaced. If the adjustment results becomes "Adjust NG!", the pickup may be faulty or the servo system circuits may be abnormal. 5-15-1. CD Auto Gain Control Output Level Adjustment Adjusting Procedure : 1. Insert the check disc (MD) TDYS-1. 2. Rotate the AMS knob to display "AG Set (CD)". 3. When the YES button is pressed, the adjustment will be performed automatically. "Complete!!" will then be displayed momentarily when the value is recorded in the non-volatile memory, after which the display changes to "AG Set (CD)". 4. Press the § button to remove the disc. 5-15-2. MO Auto Gain Control Output Level Adjustment Adjusting Procedure : 1. Insert the reference disc (MDW-74/AU-1) for recording. 2. Rotate the AMS knob to display "AG Set (MO)". 3. When the YES button is pressed, the adjustment will be performed automatically. "Complete!!" will then be displayed momentarily when the value is recorded in the non-volatile memory, after which the display changes to "AG Set (MO)". 4. Press the § button to remove the disc.

5-14. FOCUS BIAS CHECK
Change the focus bias and check the focus tolerance amount. Checking Procedure : 1. Load a test disc (MDW-74/AU-1). 2. Rotate the AMS knob and display "CPLAY MODE". 3. Press the YES button twice and display "CPLAY MID". 4. Press the MENU/NO button when "C1 = AD = " is displayed. 5. Rotate the AMS knob and display "FBIAS CHECK". 6. Press the YES button and display " / c = ". The first four digits indicate the C1 error rate, the two digits after [/] indicate ADER, and the 2 digits after [c =] indicate the focus bias value. Check that the C1 error is below 50 and ADER is below 2. 7. Press the YES button and display " / b = ". Check that the C1 error is below 220 and ADER is below 2. 8. Press the YES button and display " / a = ". Check that the C1 error is below 220 and ADER is below 2 9. Press the MENU/NO button, next press the § button, and remove the continuously recorded disc. Note 1 : If the C1 error and ADER are above other than the specified value at points a (step 8. in the above) or b (step 7. in the above), the focus bias adjustment may not have been carried out properly. Adjust perform the beginning again.

­ 26 ­

5-15. ADJUSTING POINTS AND CONNECTING POINTS
[BD BOARD] (SIDE A)
CN101 D101

CN110

GND I+3V IOP TE RF VC

NOTE

IC171

[BD BOARD] (SIDE B)

IC101

IC121

IC192

NOTE:It is useful to use the jig. for checking the waveform. (Refer to Servicing Note on page 6.)

­ 27 ­

SECTION 6 DIAGRAMS
6-1. CIRCUIT BOARDS LOCATION

SW board VOL SEL board (SP)

BD board

MAIN board

DISPLAY board

KEY SW board

­ 28 ­

MDS-JE330

6-2. BLOCK DIAGRAMS ­ BD SECTION ­

OVER WRITE HEAD DRIVE IC181

DIGITAL SERVO SIGNAL PROCESSOR, DIGITAL SIGNAL PROCESSOR EFM/ACIRC ENCODER/DECODER, SHOCK-PROOF MEMORY CONTROLLER, ATRAC ENCODER/DECODER IC121 SCTX XINIT

XINIT

FILTER

· R-ch is omitted. · Signal path : PB : REC : PB (Digital out) : REC (Digital in)

HEAD DRIVE Q181,182

8 · 11

TX

HR901 OVER WRITE HEAD

9 · 12 10 · 13 4 5

15

14 DIN0 DIN1 ADDT 19 20 25 DIN0 DIN1 ADDT

3

1 2

100

EFMO

6

48 47 46 40

RF AMP IC101

59 60 61 62

PCO FILI FILO CLTV

PLL

EFM, ACIRC, ENCODER/ DECODER

SHOCK RESISTANT MEMORY CONTROLLER

ATRAC ENCODER/ DECODER

DIGITAL AUDIO I/F

MORFO MORFI RFO AGCI

OPTICAL PICK-UP BLOCK (KMS-260A/J1N)
I 1 J 2

DADT RFI DOUT XBCK LRCK OSCI

26 21 28 27 16 7 BUFFER IC123 3

DADT DOUT BCK LRCK 512FS

RF AGC & EQ

RF

38

57

RF AMP

BPF

P-P PEAK & BOTTOM

AUX

DETECTOR F I C B D A E J

33

67

AUX1

SAMPLING RATE CONVERTER

CLOCK GENERATOR

BOTM 36 PEAK 37 ABCD

BOTM 64 PEAK 63 ABCD ANALOG MUX

4 5 6 7 8 9

A B C D E F

ABCD AMP IV AMP FOCUS ERROR AMP AT AMP

35

65

SUBCODE PROCESSOR

SQSY DQSY MNT3 MNT2 MNT1 MNT0 SENS SRDT SCLK SWDT XLAT

11 12 4 3 2 1 9 8 6 5 7 DRAM IC124

SQSY DQSY MNT3 MNT2 MNT1 MNT0 SENS SRDT SCLK SWDT XLAT CH

FE ADAGC

34 VC 31 VC

IV AMP

FE 66 VC 68 TE 75 SE 74 A/D CONVERTER

MONITOR CONTROL

E-F BALANCE VC VC 3 15 D101 14 LASER ON SW Q101 TEMPI TEMP AMP VC TEMPR CVB VCC

29 BPF ADFM ADIN ADFG 30 32

78

ADFG

ADIP DEMODULATOR/ DECODER

APC

SERVO DSP

CPU I/F

MAIN SECTION

TRACKING ERROR AMP

TE SE CSLED

26 28 27 VC 82 81 80 DTRF CKRF XLRF

(Page 31)

SPINDLE SERVO

PWM GENERATOR

3 20

AUTO SEQUENCER XWE 47 XRAS 46 XCAS 44 XOE 43 3 4 17 16 1 · 2 · 18 · 19 6 9 · 11 15 · 5

PD

10

PD VICONV

SERIAL PARALLEL DECODER

SWDT

16 SCLK 17 XLAT 18

APCREF

EQADJ 3TADJ

WBLADJ

XWE XRAS XCAS XOE DQ1

APC

SPRD

FG IN

SPFD

XRST

20

79

RECP

FOCNT

FOCNT

APCREF FFDR FRDR TFDR TRDR SFDR SRDR

11 ILCC APC Q162,163

12

22 23 25

93

94

95

10

13

83 88 89 86 85 92 91

D0 D3 49 · 48 · 50 · 51

A00

A09

34 31 · 36 40 · 45

DQ4 A0

LD

A9 LDON

HF MODULE TRACKING COIL

HF MODULE SW IC103,Q102-104 SLED/SPINDLE MOTOR DRIVE FOCUS/TRACKING COIL DRIVE IC152 TRK­ TRK+ FSC+ FSC­ TFDR TRDR FRDR FFDR SFDR SRDR SPFD SPRD DETECT SW S101, S102, S601-604

WRPWR MOD SDA SCL 5 6 SDA SCL LIMIT-IN REFLECT PROTECT CHACK IN SW PACK OUT SW PLAY-P SW REC P SW

EEP ROM IC171

FOCUS COIL

10 12 21 23 27 25 6 8

DRIVER

14 15 18 19 29 30 3 4

DRIVER

M102 SLED MOTOR M101 SPINDLE MOTOR

M

SLED+ SLED­ SPDL+ SPDL­

DRIVER

M

DRIVER

M103 LOADING MOTOR

M

LOAD-IN LOAD-OUT

PSB 09

16

XRST

DIG-RST

­ 29 ­

­ 30 ­

MDS-JE330

­ MAIN SECTION ­
8

IC601 11 3

OPT IN 1 IC611 OPT IN 2 3 3 IC621 OPT OUT 1 IC661 VOUTL 26 VOUTR 24 R-CH 16 BCK 17 WS 19 DATAI IC351 1 12 IC351 3 4 12 SYSCLK DIGITAL OPTICAL 18 DATAO VINL1 2 VINR1 4 R-CH LINE AMP IC381, 386 + ­ MUTE Q191 R-CH R-CH A/D,D/A CONVERTER IC301

J101 L IN R J101 LINE (ANALOG)

IC601 DIN0 DIN1 DOUT ADDT BCK LRCK DADT 6

L OUT R

L3MODE 13 L3CLK 14 L3DATA 15

MUTE DRIVE Q390

X351 22.5792MHz 512FS TXDI SYSTEM CONTROL IC501 SCTX XINT SQSY DQSY MNT3 MNT2 MNT1 MNT0 SENS SRDT SCLK SWDT XLATCH LIMIT-IN REFLECT PROTECT CHACKIN SW PACK-OUT SW PB P SW REC-P SW LD ON WRPWR MOD LOAD-IN LOAD OUT LOADING 10 5 MOTER DRIVE 2 6 IC441 4 LOADING SW SDA SCL DIG-RST 80 23 5 18 66 74 72 78 71 32 33 31 75 77 69 68 51 53 60 59 70 67 76 54 55 SCTX XINT SQSY DQSY MNT3(S-LOCK) MNT2(X-BUSY) MNT1(SHOCK) MNT0(F-OK) SENS SRDT SCLK SWDT XLATCH LIMIT-IN REFLECT PROTECT CHACKIN PACK-OUT PB-P REC-P LDON WR PWR MOD LD-IN LD OUT SYS 3.3V D409 KEY0 97 56 65 79 73 LD-LOVO SDA SCL DIG-RST KEY1 95 KEY2 4 DISPLAY DRIVER IC761 P1 1 FLDATA 35 FLCLK 37 FLCS 34 63 DAT 62 CLK 61 CS -32V 90 OFF ANALOG 92 DIGITAL SOURCE S.RST 12 BEEP SW P.DOWN 19 STB 50 56 VFL LED SW Q751 BACK 3.3V TO LOADING MOTOR DRIVE (IC441) 3 +5V REG 1 RECTIFIER D411,412 MATRIX SWITCH 3 RESET IC406 5 D408 LITHIUM BATTERY TR911 POWER TRANSFORMER RELAY DRIVE Q911 3 +3.3V REG IC401 1 RECT D401-404 L3-CLOCK L3-DATA L3-MODE MUTE 28 30 47 49 RTSI CLKI D390 D391 RXDI 5 4 2 1

RXDI CLKI TXDI

XOUT 13 XIN 15

X701 10MHz

BD SECTION

(Page 30)

JOG0 43 JOG1 42

3 1 IC601 13 2 TR901 POWER TRANSFORMER 1 PRE P DOWN RECTIFIER D431,432

12

D751 STANDBY H5V D5V

SIRCS RECEIVER IC781 S851 BEEP SW

RM

1

6

RMC

RTSI

G13 52 S1 5 S35 I G1 51 G12

GRID DRIVE Q921

AC

M5V AC IN

ON

FL771 FLUORESCENT INDICATOR TUBE

­32V

3

­32V REG IC421 AC

1 VOLTAGE SELECTOR SP ONLY

S731 INPUT

RST 60

FL771 AC

09

· R-ch is omitted. · Signal path : PB : REC : PB (Digital out) : REC (Digital in)

­ 31 ­

­ 32 ­

MDS-JE330

THIS NOTE IS COMMON FOR PRINTED WIRING BOARDS AND SCHEMATIC DIAGRAMS. (In addition to this, the necessary note is printed in each block.) For schematic diagrams.
Note: · All capacitors are in µF unless otherwise noted. pF: µµF 50 WV or less are not indicated except for electrolytics and tantalums. · All resistors are in and 1/4 W or less unless otherwise specified. ¢ · : internal component. · C : panel designation. Note: The components identified by mark ! or dotted line with mark ! are critical for safety. Replace only with part number specified. · · · · Note: Les composants identifiés par une marque ! sont critiques pour la sécurité. Ne les remplacer que par une piéce por tant le numéro spécifié.

WAVEFORMS ­ BD (1/2) SECTION ­

­ MAIN SECTION ­

1
0.46Vp-p

1
3.2Vp-p

10MHz

IC101 1, 2 (I, J) (PLAY mode)

IC501 !£ (XOUT)

2
0.1Vp-p

2
3.8Vp-p

44.1kHz

IC101 4 (A) (PLAY mode)

IC301 !¢ (L3CLK)

3
0.06Vp-p

3
3.4Vp-p 2.822MHz

·

·

· ·

·

U : B+ Line. V : B­ Line. H : adjustment for repair. no mark : STOP ( ) : Play the test disc (TDYS-1) < > : REC : Can not be measured. Voltages are taken with a VOM (Input impedance 10 M). Voltage variations may be noted due to normal production tolerances. Waveforms are taken with a oscilloscope. Voltage variations may be noted due to normal production tolerances. Circled numbers refer to waveforms. Signal path. E : PB j : REC a : PB (DIGITAL OUT) l : REC (DIGITAL IN) Abbreviation CND : Canadian model. SP : Singapore model.

IC101 8, 9 (E, F) (PLAY mode)

IC301 !§ (BCK)

4
3.0Vp-p

­ BD (2/2) SECTION ­

4
3.1Vp-p 22.581MHz

22.581MHz

IC301 !TM (SYSCLK)

IC121 !§ (OSCI)

5
3.2Vp-p

44.1kHz

IC121 @¶ (LRCK)

6
3.8Vp-p 2.822MHz

For printed wiring boards.
Note: · X : parts extracted from the component side. · Y : parts extracted from the conductor side. ® · : Through hole. · b : Pattern from the side which enables seeing. (The other layers' patterns are not indicated.) Caution: Pattern face side: (Side B) Parts face side: (Side A) Parts on the pattern face side seen from the pattern face are indicated. Parts on the parts face side seen from the parts face are indicated.

IC121 @· (XBCK)

7
3.8Vp-p 11.29MHz

IC121 @ª (FS256)

­ DISPLAY SECTION ­

8
· Indication of transistor
3.2Vp-p

1
3.9Vp-p 2.4MHz

C Q B E These are omitted
176.4kHz

IC121 (º (FS4)

IC761 %· (OSCO)

BC E These are omitted

­ 33 ­

­ 34 ­

MDS-JE330

6-3. PRINTED WIRING BOARD ­ BD SECTION ­ · See page 28 for Circuit Boards Location.

(Page 45)

(Page 45)

· Semiconductor Location
Ref. No. D101 D181 D183 IC103 IC123 IC171 Q102 Q103 Q104 Location A-1 D-3 D-3 B-1 D-2 D-1 B-1 B-1 B-1

· Semiconductor Location
Ref. No. IC101 IC121 IC124 IC152 IC181 IC192 Q101 Q162 Q163 Q181 Q182 Location A-3 C-3 C-3 B-1 C-1 D-1 B-3 B-3 B-3 C-1 C-2

­ 35 ­

­ 36 ­

MDS-JE330
6-4. SCHEMATIC DIAGRAM ­ BD (1/2) SECTION ­ · See page 34 for Waveforms. · See page 52 for IC Block Diagrams. · See page 55 for IC Pin Functions.

(Page 39)

(Page 39)

(Page 39)

(Page 40)

(Page 40)

(Page 40)

(Page 40)

­ 37 ­

­ 38 ­

MDS-JE330

6-5. SCHEMATIC DIAGRAM ­ BD (2/2) SECTION ­ · See page 34 for Waveforms. · See page 35 for Printed Wiring Board.

(Page 37)

(Page 37)

(Page 37)

(Page 38)

(Page 38)

(Page 38)

(Page 38)

(Page 41)

(Page 41)

BA033FP-E2

­ 39 ­

­ 40 ­

MDS-JE330
6-6. SCHEMATIC DIAGRAM ­ MAIN (1/2) SECTION ­ · See page 34 for Waveforms. · See page 45 for Printed Wiring Board. · See page 59 for IC Pin Functions.

(Page 51)

(Page 39)

(Page 39)

(Page 43)

(Page 43)

(Page 43)

(Page 43, 44)

(Page 42)

(Page 42)

­ 41 ­

­ 42 ­

MDS-JE330

6-7. SCHEMATIC DIAGRAM ­ MAIN (2/2) SECTION ­ · See page 34 for Waveforms. · See page 54 for IC Block Dia