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CD-BA1500H

SERVICE MANUAL
No. S3018CDBA1500

CD-BA1500H

CD-BA1500H Mini Component System consisting of CD-BA1500H (mani unit) and CP-BA1500H (speaker system).
· In the interests of user-safety the set should be restored to its original condition and only parts identical to those specified be used.

CONTENTS
Page
SAFETY PRECAUTION FOR SERVICE MANUAL ............................................................................................................ 2 IMPORTANT SERVICE NOTES (FOR U.K. ONLY) .......................................................................................................... 2 SPECIFICATIONS ............................................................................................................................................................. 3 NAMES OF PARTS ........................................................................................................................................................... 4 OPERATION MANUAL ...................................................................................................................................................... 6 QUICK GUIDE (FOR U.K. ONLY) ....................................................................................................................................... 7 DISASSEMBLY .................................................................................................................................................................. 9 REMOVING AND REINSTALLING THE MAIN PARTS ................................................................................................... 12 ADJUSTMENT ................................................................................................................................................................. 13 NOTES ON SCHEMATIC DIAGRAM .............................................................................................................................. 20 TYPES OF TRANSISTOR AND LED ................................................................................................................................ 20 BLOCK DIAGRAM ........................................................................................................................................................... 21 SCHEMATIC DIAGRAM / WIRING SIDE OF P.W.BOARD .............................................................................................. 24 VOLTAGE ........................................................................................................................................................................ 41 WAVEFORMS OF CD CIRCUIT ...................................................................................................................................... 42 TROUBLESHOOTING ..................................................................................................................................................... 43 FUNCTION TABLE OF IC ................................................................................................................................................ 47 FL DISPLAY ...................................................................................................................................................................... 53 REPLACEMENT PARTS LIST/EXPLODED VIEW PACKING METHOD (FOR U.K. ONLY)

SHARP CORPORATION 1

This document has been published to be used for after sales service only. The contents are subject to change without notice.

CD-BA1500H
FOR A COMPLETE DESCRIPTION OF THE OPERATION OF THIS UNIT, PLEASE REFER TO THE OPERATION MANUAL.

SPECIFICATIONS
CD-BA1500H General Power source: Power consumption: Dimensions: AC 230 V, 50 Hz 95 W Width; 270 mm (10-5/8") Height; 330 mm (13") Depth; 375 mm (14-6/8") 6.4 kg (14.0 lbs.) Cassette deck section Type: Compact cassette tape Frequency response: 50 - 14,000 Hz (Normal tape) Motor: DC motor with electronic governor x 1 Signal/noise ratio: 55 dB (TAPE 1, playback) 50 dB (TAPE 2, recording/ playback) Bias and erasure system: AC Tape speed: 4.76 cm/sec. (1-7/8 ips.) Wow and flutter: 0.35 % (DIN 45 511) (Except for U.K.) Wow and flutter: 0.3 % (WRMS) (For U.K.) Heads: TAPE-1: Playback x 1 TAPE-2: Record/playback x 1 Erase x 1 CP-BA1500H Speaker section Type:

Weight: Amplifier section Output power: (Except for U.K.)

Output power: (For U.K.)

Output terminals:

Input terminal:

PMPO; 320 W (total) MPO; 160 W (80 W + 80 W) (DIN 45 324) RMS; 100 W (50 W + 50 W) (DIN 45 324) RMS; 74 W (37 W + 37 W) (DIN 45 500) RMS; 100 W (50 W + 50 W) (10 % T.H.D.) RMS; 74 W (37 W + 37 W) (0.9 % T.H.D.) Speakers; 6 ohms Headphones; 16-50 ohms (recommended; 32 ohms) CD digital output (optical) Video/Auxiliary (audio signal); 500 mV/47 kohms

Compact disc player section Type: 3-disc multi-play compact disc player Signal readout: Non-contact, 3-beam semiconductor laser pickup D/A Converter: 1-bit D/A converter Frequency response: 20 - 20,000 Hz Dynamic range: 90 dB (1 kHz) Tuner section Frequency range:

Maximum input power: Rated input power: Impedance: Dimensions:

Weight:

3-way type [10 cm (4") woofer x 2 and 5 cm (2") tweeter] 100 W 50 W 6 ohms Width; 231.5 mm (9-1/8") Height; 330 mm (13") Depth; 210 mm (8-1/4") 3.1 kg (6.8 lbs.)/each

Specifications for this model are subject to change without prior notice.

FM; 87.5 - 108 MHz AM; 522 - 1,620 kHz

3

CD-BA1500H

DISASSEMBLY
Caution on Disassembly Follow the below-mentioned notes when disassembling the unit and reassembling it, to keep it safe and ensure excellent performance: 1. Take cassette tape and compact disc out of the unit. 2. Be sure to remove the power supply plug from the wall outlet before starting to disassemble the unit. 3. Take off nylon bands or wire holders where they need to be removed when disassembling the unit. After servicing the unit, be sure to rearrange the leads where they were before disassembling. 4. Take sufficient care on static electricity of integrated circuits and other circuits when servicing. CD-BA1500H
STEP 1 2 3 REMOVAL Top Cabinet Side Panel (Left/right) CD Player Unit/ CD Tray Cover PROCEDURE 1. Screw ..................... (A1) x4 1. Screw ..................... (B1) x8 1. Turn on the power supply, open the disc tray, take out the CD cover, and close. (Note 1) 2. Screw ..................... (C1) x1 3. Hook ....................... (C2) x3 4. Hook ....................... (C3) x2 5. Socket .................... (C4) x3 1. Screw ..................... (D1) x6 1. Screw ..................... 2. Socket .................... 3. Flat Cable ............... 4. Lug Wire ................. 5. Flat Wire ................. (E1) x5 (E2) x6 (E3) x1 (E4) x1 (E5) x1 FIGURE 9-1 9-1 9-2
CD Servo PWB (C4)x3 1 CD Tray Cover (C2) x3
(B1)x4 ø3x12mm

CD-BA1500H
Front Panel (A1)x2 ø3x12mm Top Cabinet

Side Panel (Right) (B1)x2 ø3x10mm (A1)x2 ø3x12mm Side Panel (Left) (B1)x2 ø3x10mm

Rear Panel

Figure 9-1

4 5

Rear Panel Main PWB

9-2 9-2 10-2

(C3) x1 Pull 1 2 CD Player Unit

6 7

RDS PWB Power PWB

1. Socket .................... (F2) x1 1. Socket .................... (G1) x1 2. Flat Wire ................. (G2) x1 3. Screw ..................... (G3) x2 1. Screw ..................... (H1) x2 1. Screw ..................... (J1) x15 2. Flat Cable ............... (J2) x1

10-2 10-2

Rear Panel

(C3)x1

(C1)x1 ø3x12mm

8 9 10 11 12 13

Front Panel Display PWB

10-2 10-3 10-3 10-3 10-4 9-3 10-1
(D1)x6 ø3x12mm Main PWB (E1)x3 ø3x10mm

Tape Mechanism 1. Open the cassette holder. 2. Screw...................... (K1) x6 Headphones PWB 1. Screw ..................... (L1) x1 Turntable Disc Tray 1. Hook ....................... (M1) x2 2. Cover ..................... (M2) x1 1. Turn fully the lock lever in the arrow direction. 2. While holding the lock lever,rotate the cam gear until the cam gear rib engages with the clamp lever. 3. Push the slide holder backward to engage the claw with the groove and remove it in the direction of the arrow. .............. (N1) x6 1. Screw ..................... (P1) x1 2. Hook ....................... (P2) x3 3. Socket .................... (P3) x4 1. Hook ....................... (R1) x2 2. Hook ....................... (R2) x3

Figure 9-2

Lock Lever

10-5

14

CD Servo PWB (Note 2) CD Mechanism

10-6

15

11-1

Note 1: How to open the changer manually. (Fig. 9-3) 1. In this state, turn fully the lock lever in the arrow direction through the hole on the loading chassis bottom. 2. While holding the lock lever, rotate the cam gear anticlockwise until the cam gear rib engages with the clamp lever. (Fig. 10-1) 3. After that, push forward the CD slide holder. 9

Figure 9-3 Note 2: 1. After removing the connector for the optical pickup from the connector, wrap the conductive aluminium foil around the front end of the connector to protect the optical pickup from electrostatic damage. Note 3: 1. Be careful not to break the claw of the CD mechanism. 2. When fining back the cam gear assembly, let it lock by front movement.

CD-BA1500H
Clamp Lever
(M2) x1

Turntable

Cam Gear Rib

(M1) x2

Disc Tray

Figure 10-1

CD Player Unit
(E1)x2 ø3x10mm Front Panel (E5)x1

Figure 10-4

(E2)x1 (E3)x1 (E2)x1 (E4)x1 (G3)x1 ø3x10mm Power PWB (G3)x1 ø3x10mm

(E2)x2 Headphones PWB RDS PWB Main PWB

(N1) x3 2 Disc Tray

(F2)x1 (H1)x2 ø3x10mm (J5)x1 (J2)x1

1 (N1) x3 CD Player Unit

Figure 10-2

Figure 10-5
(J2)x1

Front Panel Display PWB

(J1)x15 ø3x10mm

(P1)x1 ø3x8mm (P3)x2 CD Servo PWB Disc Tray

Tape Mechanism Open (K1)x6 ø3x10mm Cassette Holder(Lift/Right) Headphones PWB

(P2)x3

(L1)x1 ø3x10mm

(P3) x2

Figure 10-3 10

Figure 10-6

CD-BA1500H

CD Mechanism

(R2) x3

(R1) x1

(R1) x1 Disc Tray

Figure 11-1 CP-BA1500H
STEP 1 2 2 REMOVAL Woofer Tweeter PROCEDURE 1. Front Panel ............ (A1) x1 2. Screw ..................... (A2) x8 1. Screw ..................... (B1) x2 FIGURE 11-2 11-3 11-3

Speaker Box (A1) x1

Speaker Box Woofer

(A2)x4 ø4x16mm

(A2)x4 ø4x16mm

Woofer
Screw Driver

Tweeter (B1)x2 ø3x10mm

Driver should be pried away from Speaker Box.

Figure 11-3

Figure 11-2 11

CD-BA1500H

REMOVING AND REINSTALLING THE MAIN PARTS
TAPE MECHANISM SECTION
Perform steps 1 to 5, 8 and 10 of the disassembly method to remove the tape mechanism.
TAPE2 Record/Playback Head

How to remove the record/playback and erase heads (Tape 2) (See Fig. 12-1)
1. Carefully remove the record/playback head and erase head screws (A1) x 2 pcs.
Erase Head

How to remove the playback head (Tape 1) (See Fig. 12-2)
1. Carefully remove the playback head screws (B1) x 2 pcs.

(A1)x2 Ø2 x 9mm

Figure 12-1

How to remove the pinch roller (Tape 1/2) (See Fig. 12-3)
1. Carefully bend the pinch roller pawl in the direction of the arrow , and remove the pinch roller (C1) x 1 pc., upwards. Note: When installing the pinch roller, pay attention to the spring mounting position.

TAPE1 Playback Head

How to remove the belt (Tape 1) (See Fig. 12-4)
1. Remove the main belt (D1) x 1 pc., from the motor side. 2. Remove the FF/REW belt (D2) x 1 pc.
(B1)x2 Ø2 x 9mm

How to remove the belt (Tape 2) (See Fig. 12-4)
1. Remove the main belt (E1) x 1 pc., from the motor side. 2. Remove the FF/REW belt (E2) x 1 pc.

Figure 12-2

How to remove the motor (See Fig. 12-5)
1. Remove the screws (F1) x 2 pcs., to remove the motor.

Pinch Roller (C1)x1

Figure 12-3
Motor
Motor TAPE2 FF/REW Belt (E2)x1 Motor TAPE2 Main Belt (E1)x1 TAPE1 Main Belt (D1)x1

(F1) x2

Ø 2.6 x 5mm
TAPE1 Main Belt (E1)x1 Main Belt (D1)x1 FF/REW Belt (D2)x1

Figure 12-5 12

Figure 12-4

CD-BA1500H CD MECHANISM SECTION
Perform steps 1, 2, 3, 12, 13, 14 and 15 of the disassembly method to remove the CD mechanism.

How to remove the T/T Up/Down motor (See Fig. 13-1)
1. Bend the hooks (A1) x 5 pcs., to remove the T/T Up/Down motor. 2. Remove the Drive belt (A2) x 1 pc.

T/T Up/Down Motor Disc Tray (A1)x2 (A1)x3

Pulley Motor Drive Belt (A2) x1
Figure 13-1

How to remove the pickup (See Fig. 13-2)
1. Remove the screws (B1) x 2 pcs., to remove the shaft (B2). 2. Remove the stop washer (B3) x 1 pc., to remove the gear (B4). 3. Remove the pickup. Note After removing the connector for the optical pickup from the connector, wrap the conductive aluminium foil around the front end of connector to protect the optical pickup from electrostatic damage.

Stop Washer (B1) x2 (B3) x1 ø2.6 x6mm

Pickup Shaft (B2) x1 CD Mechanism Gear (B4) x1
Figure 13-2

ADJUSTMENT
MECHANISM SECTION
· Driving Force Check
Torque Meter Play: TW-2111 Specified Value Tape 1: Over 80 g Tape 2: Over 80 g Normal speed MTT-111

· Tape Speed
Test Tape Adjusting Point Variable Resistor in motor. Specified Value 3,000 ± 30 Hz Instrument Connection Speaker terminal (Load resistance: 6 ohms)

· Torque Check
Torque Meter Specified Value Tape 1 Play: TW-2111 Fast forward: TW-2231 Rewind: TW-2231 30 to 80 g. cm -- -- Tape 2 30 to 80 g.cm 70 to 180 g.cm 70 to 180 g.cm

TAPE MECHANISM

Motor

Variable Resistor in motor
Figure 13-3 13

CD-BA1500H TUNER SECTION
fL: Low-range frequency fH: High-renge frequency · AM IF/RF Signal generator: 400 Hz, 30%, AM modulated
Test Stage Frequency Frequency Display 1,620 kHz 522 kHz 990 kHz Setting/ Instrument Adjusting Connection Parts T351 *1 (fL): T306 *2 1.1 ± 0.1 V (fL): T303 *1

AM IF AM Band Coverage

450 kHz --

· FM Notes: 1: Description of the "FM IF Adjustment" is not carried on this Manual. It is because the IF coil in the FM front end section has been best adjusted in the factory so that its further adjustment is not needed at the field. When replacing the FM front end assembly, no adjustment is needed either. 2: The parts in the FM front end section are prepared in a complete unit, so you can't obtain each part individually

AM Tracking 990 kHz

*1. Input: Antenna, *2. Input: Antenna,

Output: TP302 Output: TP301
CNP302 AM LOOP SO301 ANTENNA

MAIN PWB

1
FE301

T303

AM TRACKING fL

R381 T306 TP301 AM BAND COVERAGE fL T351 AM IF TP302 R357

Figure 14-1 ADJUSTMENT POINT

CD SECTION
· Adjustment Since this CD system incorporates the following automatic adjustment functions, readjustment is not needed when replacing the pickup. Therefore, different PWBs and pickups can be combined freely. Each time a disc is changed, these adjustments are performed automatically. Therefore, playback of each disc can be performed under optimum conditions. Items adjusted automatically (1) Offset adjustment (The offset voltage between the head amplifier output and the VREF reference voltage is compensated inside the IC.) * Focus offset adjustment * Tracking offset adjustment (2) Tracking balance adjustment (waveform drawing 12-2 EFBL) (3) Gain adjustment (The gain is compensated inside the IC so that the loop gain at the gain crossover frequency will be 0dB.) * Focus gain adjustment * Tracking gain adjustment

CD ERROR CODE DESCRIPTION
Error 0001 0002 0101 0103 0201 0203 0302 0306 0307 0308 State Code [Servo System Error] Cannot detect Pickup-in SW DSP access error [Error during close operation] Open/Close SW Low High not functioning Open/Close SW High Low not functioning [Error during open operation] Open/Close SW Low High not functioning Open/Close SW High Low not functioning [Error during skip operation] Pickup-in SW is not detected During Disc 1 search, Open/Close SW or Clamp SW or Disc SW do not change to low. Clamp SW Low High not functioning Clamp SW High Low not functioning
T Stopped CH1=500mV DC 10:1

CH2=200mV DC 10:1

CH3=1V DC 10:1

1999/04/05 20:26:47 500ms/div (500ms/div) NORM:20kS/s

T 1

FDO

TE
3

EFBL
2

CH2 v/DIV 200mV =Filter= Smoothing : ON BW : FULL =Offset= CH1 : 0.000V CH2 : 0.000V CH3 : 0.00V CH4 : 0.00V =Record Length= Main : 100K Zoom : 2k =Trigger= Mode : SINGLE Type : EDGE CH1 Delay : 0.0ns Hold off : 0.2us

Figure 14-2 14

CD-BA1500H TEST MODE
·Setting the test mode Any one of test mode can be set by pressing several keys as fallows. + + TEST:CD operation test Function:-CD test mode. -Enter test mode.

C D

T E S T
IL isn't done OPEN/CLOSE operation is using manual.

<<

>>, <<

>> buttons make pick's slide possible.

<> key input.

<> key input.

Do TOC IL. Do normal play When these following key is input into PLAY key, track number can be appoint directly

Laser ON.

<> key input.

<< << <<

1>> key: Track 4 2>> key: Track 9 3>> key: Track 15

Tracking OFF play at that specific point.

<> key input. <> key input.

Tracking ON play at that specific point.

STOP <> key input.

STOP

VOL -- Last memory BAL -- CENTER P.GEQ -- FLAT X-BASS -- OFF To cancel : Power OFF

Sliding the PICKUP with << >>, << >> button must only be in STOP mode.

15

ASPM, summary operation

Hold down the ASPM button for 3 more second.

CD-BA1500H

"ASPM" blinks in the display.

Displayed the TTL quantity of memorized stations by ASPM operation on this time. And return to the previous receiving freq. automatically. Yes
Preset CH memory become full over?

Preset CH memory full over?

Yes

No operate. After displayed "END". Return to previous station.

No No

Begin to scan start 87.50 108.00 MHz

SD (TUNE) DET out OK?

No Pass No effect

Begin to ASPM SCAN from the next CH-SPAN again.

Yes

If count 1st OK?

No Pass No effect

Yes

Repeat and continue with same format ASPM operation untill 108 MHz. After reached 108 MHz, displayed the TTL quantity of memorized stations. And return to the previous receiving freq. automatically.

If count 2nd OK?

No Pass No effect

16
Pass No effect
Comparing freg. same or not? between current receiving frequency and (already) previouslymemorized frequency.

Yes

RDS signal or not?

PI--identify

No

Yes

Comparing PI cord same or not? between current receiving PI and before PI which is already memorized by ASPM on this time. No

No

Memorized to the lowest vacant preset channel.

Effect

Yes No effect No effect

Compare the field strength of current receiving signal. Is receiving signal stronger than signal which has same PI cord and is already memorized to preset memory ahead of this receiving time?

No

Memorized to the lowest vacant preset channel.

Yes

Comparing freg. same or not? Between current receiving frequency and (already) previously memorized frequency.

Yes

No effect

CD-BA1500H
· ASPM SCAN: 87.50MHz 108.00 MHz. · Only RDS signal is memorized by ASPM because RDS signal has PI code and is suitable and convenient for ASPM operation. ASPM Comparing field strength, only one strongest RDS station is memorized of all stations (repeater relay stations) that have same PI code. Each PI has AF'S list by individually. Exa: P1 has f1, f2, f3 (same PTY). Same PI code -- freq: different P2 has f4, f5 (same PTY). (AF'S) PS: same PTY: same [For example] Pickup and memorized to preset CH. --f1 f2 ---

f3

f5 P2 PS 2

f4 f7

f6 f8 P3 PS 3

P 1 (PI code) PS 1 (Station Name)

f9 f 10 f 11 f 12 f13 P4 PS 4

Select signals (f1, f5, f7, f10) are memorized in the preset memory by ASPM. · If tentative - ASPM operation is repeated intentionally, never memorized (over write) at the same frequecy. 1st time ASPM strongest stations of each PI are memorized. ASPM is not only very usefull for PTY search, but also EON operation. 2nd time ASPM 2nd strong stations of each PI are memorized and so on. PTY search function is equal to FM band search function as a result. 1. Introduction of RDS for CD-BA1500H. CD-BA1500H RDS function is equal to adding EON feature to the current CD-C75H RDS. EON feature is EON--PTY and EON--TI. Although PTY and TI indicators are separated, PTY contains TI in the PTY items (software) like current PTY search items. NEWS, AFFAIRS, INFO, ALARM, TI (TTL 17 kinds) EON--PTY EON--TI Can select and stand-by Can select and stand-by EON--PTY and EON--TI are basically stand-by receive the desired program of ON station. 2. The difference point from current CD-C75H RDS. (CD-C75H -- CD-BA1500H) 1. PTY item: added TA. (TTL 18 kind.) 2. Each "TP", "TA" ind. light up or go out individually. "TA" ind. doesn't light up on current model, CD-C75H due to none EON--TI. 3. Added 3 indicators(in FL) due to adding EON feature. EON: Lights up only during receiving EON data (14A). TI: During EON-TI stand-by Light up During receiving ON station. blink. PTY: During EON-PTY stand-by Light up During receiving ON station. blink. 4. No adjust type (None adjusting circuit.) 5. Added EON button. 6. Need to change RDS logo due to the addition of EON feature. 7. Added EON--TI, EON--PTY function. 3. Summary of CD-BA1500H RDS--EON operation EON--PTY: Select and set the desired "PTY" stand-by switch to ON (other network) Station at the start of desired PTY automatically stay and listen to PTY of ON station switch back to TN (This net) station automatically at the end of PTY (ON) i.e. after changing to another PTY (except AFFAIRS) or cancelling to receive PTY of ON station midway. EON--TI: Select and set the "TI" stand-by switch to ON station at the start of traffic announcement automatically stay and listen to TA of ON station switch back to TN station automatically at the end of TA (ON). ie after TA (ON) is over or cancelled to receive TA of ON station midway. When switching TN ON station. In case of exist 2 more stations having the desired (specified) "PTY" or "TI", the receiver will select and switch to ON station comparing field strength at the same time. But when the frequency of ON station exists in the preset-memory, then receiver switches straight to that ON station (CH), without comparing field strength so can make a quick switching from TN--ON station. Preset memory takes priority of switching TN--ON station. Therefore ASPM is usefull not only for PTY search but also for rapid EON switching. Anyway CD-BA1500H EON is basically stand-by and receiving method, along with the Guidelines for EON implementation.

17

CD-BA1500H
EON summary notice for reference 1. EON-TI/PTY EON stand-by can be set, only when EON ind. lights up. While EON ind. goes out (NO EON STATION), EON stand-by can't be set. If the EON button is pressed, then "NO EON" is indication the display. Even if switch back ON TN station continue to keep EON stand-by. Don't switch TN ON during TN broadcast TA. (same item) EON can be cancelled during receiving ON station by pressing EON button if necessary and switch back ONTN. EON stand-by is perfectly cancelled (cleared) by pressing EON button 2 times during stand-by or power OFF or Tun Up/Down or change band or recall pre-set CH. After setting EON stand-by, stand-by items can be confirmed by pressing EON button one time. EON button function: · EON setting · Confirm stand-by items · Cancel (ONTN) · EON clear cancel (2 times) After setting EON-TI and EON-PTY stand-by, if when EON data is not transmitted, EON ind goes out and EON stand-by is automatically cancelled display "NO EON". EON-TI stand-by can't be set. When TP=0,TA=0 (TN) even if EON ind. lights up and the EON button is pressed then "NO TI" is indication the display. Don't switch TN ON during TN broadcast same specified PTY. (same item of PTY) Switch TNON TN station one cycle. Never switch TN ON1 ON2 Other net to other net station. After switch TN ON station. When ON station is NO RDS, NO signal, TA=OFF or different PTY items. The receiver switch back ON TN displaying "NO READY". During receive ON station. when ON station become to be NO RDS, NO signal, TA=ON to OFF or different PTY item, The receiver switch back ON TN. Switch TN ON in case of 2 more stations exist, comparing field strength and switch to the strongest station, if these signals are same strength, switch to the first previous station. If same frequency as AF'Sexists in the preset memory, then switch TN ON (preset memory station) straight. In case of exist 2 more preset memories of AF'S,then switch to the preset CH which taken in EON DATA first, also in this case no concern to field strength. Even if switch TN ON preset memory straight, that ON station is very weak signal, then search another AF'S (ON) station comparing field strength and switch to the strongest station as a result. Of all atations of AF'S are very weak or no good condition, then, switch back ON TN automatically display "NO READY". No linkage volume, power ON/OFF, and switch function. Applications This programme does not carry traffic announcements nor does it refer, via EON, to a programme that does. This programmecarries EON information about another programme which gives traffic information. This programme carries traffic announcements but none are being broadcast at present and may also carry EON information about other traffic announcements. A traffic announcement is being broadcast on this programme at present.

2. EON-TI/PTY 3. EON-TI 4. EON-TI/PTY 5. EON-TI/PTY 6. EON-TI/PTY 7. EON-TI/PTY

8. EON-TI/PTY 9. EON-TI 10. EON-PTY 11. EON-TI/PTY 12. EON-TI/PTY 13. 14. EON-TI/PTY

15.

16. EON-TI/PTY

Traffic Programme code Traffic Announcement code (TP) (TA) OFF OFF ON OFF ON OFF

ON

ON

18

RDS (Radio Data System) OPERATION
Descriptions of the PTY (Programme Type) codes, TP (Traffic Programme) and TA (Traffic Announcement) With the CD-BA1500H, you can search for and receive the following PTY, TP and TA signals.

(Continued)

s Information Provided by RDS
NEWS: CHILDREN:
Short accounts of facts, events and publicly expressed views, reportage and actuality. For programmes targeted at a young audience, primarily for entertainment and interest, rather than where the objective is to educate.

With the CD-BA1500H, you can display three types of RDS service. To show them in the display, press the DISPLAY MODE button. Each time you press the DISPLAY MODE button, the display will change to show the following information.

FINANCE:

Stock Market reports, commerce, trading etc.

AFFAIRS: SOCIAL:

PS (Programme Service): Station names commonly known will be displayed. "NO PS" appears if no signal is being received.

Topical programme expanding or enlarging upon the news, generally in different presentation style or concept, including debate, or analysis. Programmes whose purpose is to impart advice in the widest sense.

INFO: RELIGION: SPORT: PHONE IN: TRAVEL: EDUCATE:
Programme intended primarily to educate, of which the formal element is fundamental. All radio plays and serials. Programmes concerned with any aspect of national or regional culture, including language, theatre, etc. Programme concerned with any aspect of sport.

Programmes about people and things that influence them individually or in groups. Includes: sociology, history, geography, psychology and society. Any aspect of beliefs and faiths, involving a God or Gods, the nature of existence and ethics. Involving members of the public expressing their views either by phone or at a public forum.

RDS is a broadcasting service which a growing number of FM stations are now providing. It allows these FM stations to send additional signals along with their regular programme signals. For example, the stations send their station names, and information about what type of programme they broadcast, such as sports or music, etc. When tuned to an FM station which provide the RDS service, the RDS will appear, the station frequency (and then the station name if sent) is displayed. The TP (Traffic Programme) will appear on the display when the received broadcast carries traffic announcements, and the TA (Traffic Announcement) will appear whilst a traffic announcement is being received. EON will appear whilst the EON (Enhanced Other Networks information) data is being broadcast. The PTYI (Dynamic PTY Indicator) will appear whilst the Dynamic PTY station is being received. Programme type will be displayed. "NO PTY" appears if no signal is being received. Radio text will be displayed. "NO RT" appears if no signal is being received. Station frequencies.

PTY (Programme Type):

RT (Radio Text):

Note: When the TP and TA appear at the same time, an announcement is being made. When only the TA appears, an announcement is not being made.

Station Frequency:

DRAMA: CULTURE: LEISURE:

Features and programmes concerned with travel to near and far destinations, package tours and travel ideas and opportunities. Not for use for Announcements about problems, delays, or roadworks affecting immediate travel where TP/TA should be used.

SCIENCE: VARIED:

Programmes about the natural sciences and technology.

Programmes concerned with recreational activities in which the listener might participate. Examples include, Gardening, Fishing. Antique collecting, Cooking, Food & Wine etc.

JAZZ: COUNTRY:

DISPLAY MODE
POP M:

Used for mainly speech-based programmes usually of light-entertainment nature, not cov ered by other categories. Examples include: quizzes. panel games, personality interviews.

Polyphonic, syncopated music characterised by improvisation. Songs which originate from, or continue the musical tradition of the American Southern States. Characterised by a straightforward melody and narrative story line.

19
ROCK M: EASY M: LIGHT M: CLASSICS: OTHER M: WEATHER:

Commercial music, which would generally be considered to be of current popular appeal, often featuring in current or recent record sales charts.

NATION M:

Current Popular Music of the Nation or Region in that country's language, as opposed to International `Pop' which is usually US or UK inspired and in English.

Contemporary modern music, usually written and performed by young musicians.

OLDIES: FOLK M:

Music from the so-called "golden age" of popular music. Music which has its roots in the musical culture of a particular nation, usually played on acoustic instruments. The narrative or story may be based on historical events or people.

Current contemporary music considered to be "easy-listening", as opposed to Pop, Rock or Classical, or one of the specialized music styles, Jazz, Folk or Country. Music in this category is often but not always, vocal, and usually of short duration. Classical Musical for general, rather than specialist appreciation. Examples of music in this category are instrumental music, and vocal or choral works.

DOCUMENT: Programme concerned with factual matters,
presented in an investigative style.

TEST: ALARM !:

Broadcast when testing emergency broadcast equipment or receivers. Emergency announcement made under exceptional circumstances to give warning of events causing danger of a general nature. Performances of major orchestral works, symphonies, chamber music etc., and including Grand Opera.

NONE: TP: TA:
Weather reports and forecasts and Meteorological information. Musical styles not fitting into any of the other categories. Particularly used for specialist music of which Rhythm & Blues and Reggae are examples.

No programme type (receive only). Broadcasts which carry traffic announcements. Traffic announcements are being broadcast at present. Note: q When the unit is in the EON stand-by mode and a programme is selected, the unit will display "TI" instead of "TA".

CD-BA1500H

CD-BA1500H

NOTES ON SCHEMATIC DIAGRAM
· Resistor: To differentiate the units of resistors, such symbol as K and M are used: the symbol K means 1000 ohm and the symbol M means 1000 kohm and the resistor without any symbol is ohm-type resistor. Besides, the one with "Fusible" is a fuse type. · Capacitor: To indicate the unit of capacitor, a symbol P is used: this symbol P means micro-micro-farad and the unit of the capacitor without such a symbol is microfarad. As to electrolytic capacitor, the expression "capacitance/withstand voltage" is used. (CH), (TH), (RH), (UJ): Temperature compensation (ML): Mylar type (P.P.): Polypropylene type · Schematic diagram and Wiring Side of P.W.Board for this model are subject to change for improvement without prior notice.
REF. NO SW1 SW2 SW3 SW4 SW601 SW602 SW603 SW604 SW605 SW606 SW607 SW608 SW609 SW610 SW611 SW612 DESCRIPTION OPEN/CLOSE CLAMP DISC NUMBER PICKUP IN POWER CLOCK TIMER/SLEEP PTY TI/SEARCH EON ASPM DISPLAY MODE STATION DISC SKIP OPEN/CLOSE DIMMER X-BASS/DEMO POSITION ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF

· The indicated voltage in each section is the one measured by Digital Multimeter between such a section and the chassis with no signal given. 1. In the tuner section, ( ) indicates AM < > indicates FM stereo 2. In the main section, a tape is being played back. 3. In the deck section, a tape is being played back. ( ) indicates the record state. 4. In the power section, a tape is being played back. 5. In the CD section, the CD is stopped. · Parts marked with " "( ) are important for maintaining the safety of the set. Be sure to replace these parts with specified ones for maintaining the safety and performance of the set.

REF. NO SW613 SW614 SW615 SW616 SW617 SW618 SW619 SW620 SW621 SW622 SW623 SW625 SW626 SW627 SW628

DESCRIPTION EQUALIZER VOLUME UP VOLUME DOWN CD TAPE TUNING /TIME DOWN MEMORY/SET REWIND FORWARD PLAY/REPEAT STOP REC/PAUSE TUNING/TIME UP VIDEO/AUX TUNER (BAND)

POSITION ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF ON--OFF

FRONT VIEW

FRONT VIEW
E C B (S) (G) (D) (1) (2) (3) KTA1266 GR KRC102 M KRC104 M KTA1271 Y KTA1274 Y 2SC1845 F KTA1273 Y KTC3203 Y KTC3199 GR KRC107 M 2SC380 O

FRONT VIEW

B C E
KTC2026 4204SRT7

Figure 20 TYPES OF TRANSISTOR AND LED

20

CD-BA1500H
SW1 OPEN/ CLOSE IC99 TOTX178A OPTICAL FIBER DATA LINK SW3 SW2 DISC CLAMP NUMBER M3 T/T UP/DOWN MOTOR

M
1
CLAMP SW CD RES

1 1 1 1

2 2 2 2

3
CNS99 BI99
CDINT

2

3

4

5

6

DGND

AGND

3 3 3

+5V(+B3)

WRQ

R-CH

CNP11

CLK

GND

1
CNP12

2 2

L-CH

3 3

DRF

4 4

5 5

6 6

DO

CE

DI

1

2

3

4

5

1

2

3

4

5

6

7

8

9 10

1

CNP5

Q2

75
CONT6

76
CONT7

45 46 47 48
RCHO LCHO LVSS RVSS

37
DOUT

32 31
CONT4 CONT3

30
CONT2

65 CE 66 CL 67 DI 68 DO 69 INT 70 WRQ 71 RES 72 DEF 52 XOUT

74 64 40 19

IC2 LC78641E SERVO/SIGNAL CONTROL

13 3
CONT5

33 26 25 24 23

SLD0 SPD0

ADAVDD

RVDD

VVDD

XVDD

LVDD

VDD

HFL

51 XIN
VDD5V

RFEV

XL1 16.9344MHz

FD0 TD0

FE

73

5 18 36 44 49 50

7

14

15 16

+5V

+3.3V

TE

CONSTANT VOLTAGR

1 17 18
HFL TE

2

17 25

41 42

38 39 35

Q1

19
TE-

20 21 22
FERFEV FE

18 VCC1 40 VCC4

29

+3.3V

30

23 11
FIN1 FIN2

IC1 LA9235M SERVO AMP.
TIN1 TIN2 LDD PD

24 VCC2

+5V

23 28 VCC3 4

IC3 M63001FP FOCUS/TRACKING/ SPIN/SLED DRIVER

22 21 14 8

LASER DRIVER

9

Q3

+3.3V

5

6

7

15

16 26 27

1

2

3 4

7 8

+5V

TRACKING COIL

FOCUS COIL

M1 SPINDLE MOTOR

M M
SW4 PICKUP IN

PICKUP UNIT

M2 SLED MOTOR

Figure 21 BLOCK DIAGRAM (1/3) 21

CNP4

CNS4

BI4

TO MAIN SECTION (TO IC401)

-

TO DISPLAY SECTION

+

CD-BA1500H

SO301 ANTENNA TERMINAL

+B2

8

VCC

1

CF352

1 FE301 FM FRONT END 5 3 4 2 6 7

1

CF301 3

Q301

T351

1 CF302 3 1 2

+5.1V

CF351

3 4 5 9 8
FM

X351 456KHz 17 13
MO/ST

AM IF
AM LOOP ANT AM MIX

CNP302 1 2 1 2 L341 BALUN
FM OSC AM TRACKING

VCC DET VCO L 14 IC303 LA1832S R 15 FM/AM FM/AM IF MPX. OUT MPXIN FM/AM 12 23 21 24 7 18 16 AM OSC IN AM RF IN STEREO

AM IF GND

L354 @ LOW PASS FILTER

T303

T306

AM BAND COVERAGE

VT

X352 4.5MHZ 20 14
OSC

22 15 16 11 IC302 LC72131 PLL(TUNER) 7 9 10

3 4 5 6
VDD

DO

CE

CL

DI

17

XT21 4.332MHz

+B2 FM +B

FM/AM MO/ST

21

23 22 21 20
VDDA CL DO MPX CE IN VSSA DI

15
VSSD

14
VDDD

13
XOUT XIN

ICT21 LC72720 RDS DECORDER

Q360

FM

SWITCHING

+B2

2 4 3

12
SO401 VIDEO/AUX
L R AUX TAPE

23 9 R 16 L 10 R 15 L 11 R 14 L 12 R 13
L DI CE

CNS402 1 R
FROM CD SECTION CNP11

TUNER CD

CL IC401 LC75341 21 R AUDIO PROCESSOR 4 L

1 2 24

SYSTEM MUTE

Q401 Q402

2 L 3 4 5 13
P.B +B2

7 8 17 18

3

L-CH R-CH PLAYBACK HEAD

TAPE 1

L(T1) 1 R(T1) 24 SWITCHING L(T2) 2 R(T2) 23 L NF R NF POP REDUCE L REC R

Q110 Q111
L R PB MUTING

REC/PLAY

REC P.B.
L-CH TAPE 2 R-CH REC PLAYBACK HEAD AC BIAS

4 21 5 20
T1/T2 REC H/N

Q104~ Q107

3 22 6

9 REC 16
REF 14

7 18 8 17

L REC R L NF R NF ALC

12

NOR/ HIGH

T1/T2

10

15
SWITCHING SWITCHING

19

IC101 AN7345K PLAYBACK AND RECORD /PLAYBACK AMP.

T1/T2

Q108 Q109 Q101
BIAS OSC

Q103

Q102 SWITCHING Q112 L103
BIAS

ERASE HEAD

Q114 L104

SWITCHING

Q113

BIAS

Figure 22 BLOCK DIAGRAM (2/3) 22

CD-BA1500H

R. PLAY +B2

FL701 FL DISPLAY 1 2 3
Q601~ Q603
+B4 LED722
Q605

F. PLAY T2 PLAY T1 PLAY
Q604 Q608

.1V

4 ~11 12 ~14 15 ~20 21 ~36 313839

SOLENOID

MOTOR TAPE DRIVER MOTOR
Q607 Q606

M

56 55 54 53 52 51 50 49 63 78 79 VLOAD 80 ~ 85 90 ~ 92 93 ~
VDD

47 46 45 44 43 42 44 40
VDD

39

1 RX701 3 +B4 2

RESET

VDD

100

DI DO

CE

CL

1 4 5 6
+B4

7

9 10 11 12

+B4

XL701
Q609
SP. DET.

Q901 Q902 Q903 Q904
L

RESET IC 3 IC704 1 +B4 2 RL951 RELAY

SYSTEM MUTE

Q401 Q402

IC901 STK40204 POWER AMP.

R 15

+Vcc -Vcc

1

7
13

R-OUT

10 L-OUT

8

9

+B1

B1

F801 T4A L 250V

PT801 MAIN POWER TRANSFORMER

D801

REC/PLAY

F802 T4A L 250V
KIA7810AP VOLTAGE REGULATOR
+B2 A10V

D802~D805
L801 F803 T2A L 250V

IC841

+B3

+5V

IC851

KIA7805P VOLTAGE REGULATOR
T1/T2

UNSWITCH +B4

IC852 AN78L05 CONSTANT VOLTAGE REGULATOR
Q873

5V

BIAS

D872~D875

Figure 23 BLOCK DIAGRAM (3/3) 23

~

~

~

IC701 IX0329AW SYSTEM MICROCOMPUTER

SYS STOP AVDD

36 35 34 +B4 33 31 ~
+B2

KEY SW601~SW623 SW625~SW628

15 16 17 20 21 22 23 24

JK951 HEADPHONES TO CD SECTION +B3

Q971

M

M901 FAN MOTOR

SO901
MAIN (FRONT) SPEAKER TERMINAL

RL801
AC POWER SUPPLY CORD AC 230V 50Hz

SO801 AC INPUT SOCKET

TF 130 C

PT871 SUB POWER TRANSFORMER

CD-BA1500H

CD SIGNAL

CD SERVO PWB-B

A

CNS1B

CNS1A

+B

Vcc Vref E

7 6 5 4 3 2 1

7 6 5 4 3 2 1

7 6 5 4 3 2 1

7 6 5 4 3 2 1
CNP1
R51 R52 R53 R54 68K 68K 68K 68K R56 68K R55 68K TIN1 FIN1 FIN2 TIN2

R50 47

B

A B F

C23 0.047

C

IC1 LA9235M SERVO AMP.
FIN1

C11 47/6.3

C24 2.2/50

1
REF ODRV REF REF

30

VCC C12 0.1 R7 6.8K R5 39K C18 3P (CH) R6 27K

C25 0.1
R10 27K C20 0.1 R8 330 C17 0.0047

C22 100P

FIN2

2

29

RFSW R42 120K RF-

TIN1 C54 47/10 C55 0.01

AGCON

R80 1M

3
REF REF PH

28

C

C7 10/37 C8 0.1 +B

VREF

REF

DH

6 7
ODRV APC PH/BH REF LPF REF ODRV AGCON REF REF LPF REF REF REF LPF REF

24 23 22 21 20 19 18 17

BH C14 0.33 RFEV FEFE TETE HFL R3 100K R4 10K

C42 68P

LDD GND LDON

8 9 10 11

C53 0.001

C51 47/6.3

+B R25 10K

AGON EFBL

12 13

C82 0.022 C41 100/10

D
Q3 KTA1266GR

R47 3.3

TEST0 14 TES1

16 TEST

15

4

LASER DRIVER

13
E

C52 0.01

+B

IC3 M63001FP FOCUS/TRACKING/ SPIN/SLED DRIVER
FD FO FO+ FOTR+ TR+ + +

+B

TRTR+ FO+ TR+ FO+ FOGND FOPD VR ACTUATOR LD

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8
CNS2B

1 2 3 4 5 6 7 8
CNS2A

1 2 3 4 5 6 7 8

TRTR+ FO+ FOGND PD VR LD CNP2

FDO C46 0.022

2 3 4 5 6 7 8 9 10

+

F

TR-

GND

PICKUP UNIT

11 12 13 14

SLSL+ SLDO +B VCC1 STANDBY Vref MUTE

15
+ + -

16 17 18 19 20 21

+ + + + + -

G
CNS3B CNS3A

R48 6.8K

C50 100/16 SPSP+ SL+ SLPUIN GND(D) CNP3 +B

CNP3A M1 SPINDLE MOTOR M2 SLED MOTOR SW4 PICKUP IN
+

M
+

6 5 4 3 2 1

6 5 4 3 2 1

6 5 4 3 2 1

6 5 4 3 2 1

C49 100/16

CD MOTOR PWB-C

M

-

H

· NOTES ON SCHEMATIC DIAGRAM can be found on page 20.
1 2 3 4 5 6

Figure 24 SCHEMATIC DIAGRAM (1/10) 24

+

-

-

-

+

+

-

-

TDO

TO

1

LD_M+
-

42
-

LD_MVCC4 LOADING M+ LOADING M+B

41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23

+

C47 100/16

GND

VCC3 SPSP+ SPO SPDO VCC2(SPN)

-

22

+B

C26 0.047
C28 47/1

TIN2 4 C6 100/10 REF REF1

27 26 25

RF NC PH C13 0.01

5

R15 10K

5

CD-BA1500H

3
DISC_NO
C71 C72 100P 0.01 100P 100P 100P 100P 100P 100P +B R71 R72 R73 R74 R75 R76 R77 R78 1K 1K 1K 1K 1K 1K 1K 1K DRF RES WRQ INT DO DI CL CE +B

O/C

C73 C74 C75

R68

R67

8

IC2 LC78641E ERVO/SIGNAL CONTROL +B

R94 10K

R95 10K

1K

1K

C76 C77 C78

V/vP CONT7

CONT6

FSEQ

INT

DO

C23 0.047

R12 680 R79 1.5M

7
PD01 R13 680 PD02 VVSS

EFMO

VDD5V

CE

CL

DI

C80 0.022

WRQ

RES

VSS

DEF

L62 2.2µH

80 79 78 77 76 75 74 1
GENERAL

73 72 71 70 69 68 67 66 65
COMMAND INTERFACE

C44 0.1 C45 100/10

C24 2.2/50

2 3 4 5 6 7 8
SLICE LEVEL CONTROL PLL VCEC

IC2
FRAME SYNC DEFECT,PROTECT EFM DECODE SUBCODE DECODE CRC

64

SBCK

C25 0.1

63 PW 62 SBSY 61 SFSY 60 16M 59 DATA

C22 100P

C21 0.1 R11 12K

C81 0.022 PCKIST VVDD R14 FR

1.2K HFL SLCIST

SERIAL OUT

R10 27K C20 0.1 R8 330 C17 0.0047

R80 1M

CLV CONTROL

58 DATACK 57 LRSY
ASDFIN ASDACK ASLRCK XVSS XOUT XIN XVDD RVDD RCHO +B +B R20 220 XL1 C35

12 11 10

R15 10K

EFMIN C27 0.1

10
JITER DEFECT CONTROL

EXTERNAL AUDIO IN

SLCO

9

56 55 54 53
CLOCK GENERATOR

INTERPOLATION MUTE ATTENUATION DEEMPHASIS

C42 68P

C26 0.047

JITTV 11 JITTC

12

SW

BH PH(RFENV) FE TE VREF ADAVDD C82 0.022 C41 100/10 C28 47/10 C29 0.1 ADAVSS

13 14 15 16
SW A/D AUTO ADJUST SERVO PROCESSEROR

52

8.2P

51 50

C36 C34 0.022

8.2P

DIGITAL FILTER

17 18
+ -

49 48
LPF

R-CH

C43 C40 0.0015 0.0015

C38 10/16

1BIT DAC

47 46 45

RVSS LVSS LCHO

R82 2.2K

R84 10K

1 2 3 4 5
CNP11

AGND L-CH DGND +5V +B

PHREF 20

2
EFBL
R44 1K

BHREF 21 TBLO

GENERAL S/H D/A ERROR CORRECT AUDIO OUT

44

LVDD C39 10/16 +B

R81 2.2K C56 330/6.3

22

43 MUTER 42 MUTEL
EFLG R19 47

TDO

CONT1

CONT2

CONT3

CONT4

FDO 24

CONT5

LASER

23

FSX

41 EMPH
+B

R83 10K

19

P26 1 - B CNS402 TO MAIN PWB

C83 0.022 +B

SPDO

SLDO

1.2K

R38 270

1.2K

1K

1K

13
TDO FDO

1 6

DOUT

C2F VDD

PCK

R35 1K

25 26

FG(D_Vref)

27 28 29 30 31 32 33 34 35 36 37 38 39 40 TEST

1 2

R39 470

C30 0.1 C31 100/10

SPDO

SLDO

9
L61 0.82µH

R87 120 CONSTANT VOLTAGE +B

3

CNS99 TO DIGITAL OUT PWB CNP5 P27 11-A

R40

R45

+B

R46

+B

R17

R58

Q1 KTC3203Y +B ZD61 DZ3.9BSB

220

R16 10K

+B INT WRQ

1 2 3 4 5 6 7 8 9 10
CNP12

CDINT WRQ DRF CE DO DI CLK CD RES CLAMP SW GND

C64 47/6.3

+B _M+ _MC4 ADING M+ ADING MR21 470 D21 DS1SS133 R22 470 D22 DS1SS133 2 Q2 1 KRC102M 3 +B

DRF CE +B DO DI CL RES

P33 12 - B CNS701 TO DISPLAY PWB

C47 100/16

D

C3 + O SPDO C2(SPN) GND(D) DISC_NO M+ MO/C CNS4 SW1 OPEN/ CLOSE SW2 CLAMP SW3 DISC NUMBER M3 T/T UP/DOWN MOTOR

1 2 3 4 5 6

1 2 3 4 5 6
CNP4

1 2 3 4 5 6
BI4 + -

M

+B +B

CD T/T UP/ DOWN MOTOR PWB-E

· The numbers 1 to 13 are waveform numbers shown in page 42.
7 8 9 10 11 12

Figure 25 SCHEMATIC DIAGRAM (2/10) 25

CD-BA1500H

A

+B

+B

CNS402 P25 12-D CNP11 TO CD SERVO PWB

BI402

C405 0.022 R-CH A_GND L-CH CD_GND +5v
+B

B

3 4

VSS LOUT LBASS LTRE LIN LSEL0

R415 3.9K R401 330 R409 10K Q401 KTC3199 GR R403 2.7K R407 2.2K

C409 0.1(ML)

CCB INTERFACE
+ -

+ -

C411 C413

0.1(ML) 0.0027 1/50 4.7/50 1/50 1/50 1/50 1/50

5

+ -

6 7 8 9

+ -

C439 0.001

C417 C419

+ -

C401 0.001

C421 C423

L4 L3 L2 L1

AUX DECK TUN CD

10 11 12

Q402 KTC3199 GR

C
TO POWER SECTION P28 1 - F

q t r
j

L GND (A_GND) R +5V +B GND (CD_GND)

R404 2.7K R402 330

C402 0.001 R408 2.2K R410 10K C403 22/25

R417 3.3K

C425 C427

C441 0.0033

Q401,Q402 : SYSTEM MUTE

s

R425 22K

IC401 LC75341 AUDIO PROCESSOR

+B

D

R157 150 C101 0.047 R101 10K R102 10K R103 4.7K
0V 2

Q102 KRC104 M
0V 2 3 3.4V

1 1

C108 100/16

0V

E
TAPE1 PLAYBACK HEAD R-CH C102 0.001

9.3V 8.6V 9.3V

3.4V

0V

3

Q101 KTA1266 GR

Q103 KRC104 M R137 15K R104 1K R116 56 C116 100/25

C144 0.0022 R124 C118 33K 0.033 C120 560P

R120 3.9K C122 47/25

R118 100K

6.8K

L-CH

C126 270P

CNP101

R128

C103 0.001 C104 180P
0V

Q104 2SC1845 F
0.7V

R105 1K R110 47K
0V 0V

F

TAPE2 RECORD/ PLAYBACK HEAD ERASE HEAD R-CH L-CH

C106 0.001

R114 1K C112 330P 24
R L

C114 330P

L102 2.2µH

R126

C128 22/25 17 16 15
Nor/CrO2

0V

R111 4.7K

CNP102

R119 100K R121 3.9K

0.7V

0V 0V 0V

FM SIGNAL PLAYBACK SIGNAL RECORD SIGNAL CD SIGNAL VIDEO SIGNAL

C119 0.033 C121 560P

C143 0.0022

R113 47K

0V

R107 2.2K

Q105 2SC1845 F

R117 56 R138 15K

R125 33K

H

· NOTES ON SCHEMATIC DIAGRAM can be found on page 20.
1 2 3 4 5 6

Figure 26 SCHEMATIC DIAGRAM (3/10) 26

R131 1.5K

C117 100/25

C133 0.0033

R129 3.9K

0.7V

Q109 KTC3199 GR

G

0V

C131 0.022

C105 180P

R109 3.3K

C107 0.001

R127 6.8K

0V

C127 270P

R133 100

4 5 6

R108 Q106 3.3K 2SC1845 F

R112 4.7K

TAPE2_L1 TAPE2_L2

Q107 2SC1845 F

C113 330P

1

2
C115 330P

3
L101 2.2µH

4

5

6
C139 3.3/50

7

8
C129 22/25

9

ALC

10

R115 1K

C137 0.022 C123 R123 47/25 5.6K

C135 47/25

R135 10K

ALC

1 2 3

1 2 3 4 5 6 7

M_GND ERASE TAPE2_R2 A_GND TAPE2_R1

Q108 KTC3199 GR

0V

0.7V 0V

- 112K + Hich=T1 + - 112K

IC101 AN7345K

56K + Hich=CHROME + 56K

1

RIPPLE

R106 2.2K

23

22

21

20

19

18

C136
14

R122 5.6K

C130 0.022 C132 0.0033 C134 47/25

3 2 1

3 A_GND 2 TAPE1_L 1

R130 3.9K

68K

R132 1.5K

TAPE1_R

R134 100

R136 10K

CHASIS

+ -

1 2 3 4 5

1 2 3 4 5

C404 100/16 C407 10/50

1 2

DI CE

CLK 24 VDD 23 VREF +B

C406 22/50 22 C408 10/50 ROUT C410 21 0.1(ML) C412 0.1(ML) RBASS 20
RTRE RIN RSEL0

R 3

19 18 17 16 15 14 13

C414 C418 C420 C422 C424 C426 C428

0.0027 1/50 4.7/50 1/50 1/50 1/50 1/50 C44 0.003 R418 3.3K C44 0.00

+ + -

R4 R3 R2 R1

R142 220K MUTING Q110 R141 10K 0 Q11 KTC319

0V KTC3199 GR 0.7V 0V

R140 10K

CD-BA1500H

MAIN PWB-A1(1/3)
3 2 1
+B

DIGITAL OUT PWB-A4
C99 100/10 C98 0.022 L99 2.2mH +5V GND IC99 TOTX178A OPTICAL FIBER DATA LINK BI99

3 2 1

3 2 1
CNS99 SO401 VIDEO/AUX CNP5 TO CD SERVO PWB P25 12-E

22/50 10/50 R416 3.9K 0.1(ML) 0.0027 1/50 4.7/50 1/50 1/50 1/50 1/50 C442 0.0033 R424 R423
+B

R419 5.6K R420 5.6K

C429 390P C430 390P

R421 27K R422 27K

L-ch

C440 0.001

R-ch

CE DI CLK R418 3.3K TUN_R TUN_L DO TUN_SM 470K 470K

B A C E F D G TO TUNER SECTION P31 10-H

23
TUN_SM CE DO DI CLK T_BIAS T_T1/T2 23 22 21 20 19 18 17 16 15 14 13 12 11 10 P33 12-D CNP702 TO DISPLAY PWB

+B

REC_R

REC_L

C150 22/25

REC/PLAY SPA_SIG SMUTE VF1 -VP VF2 SP_RLY M_10V -15V D_GND SW_5V A_GND UN_SW 5V AC_RLY CONT SP_DET M_GND CNP401

2 K 10 99 GR
V

R143 220K R141 10K 0.7V Q111 KTC3199 GR
C138 220/10
0V +B B 0V +B +B

R140 10K
100

+B

0.022 C132 0.0033 C134 47/25

9 8 7 6 5 4 3 2 1 1 FC701

R136 10K

+B

C136 22/25

28 25 16
56K

R139 220

C145 0.001

+B

IC101 PLAYBACK AND RECORD/ PLAY BACK AMP.

15
Nor/CrO2

13
Vcc

Q112 KTA1266 GR

14
RIPPLE

11.7V 11.6V 0V

R144 47K R145 4.7K
0V 1 0V 3 +B +B 11.6V 2

56K

ALC

GND

ALC

CHROME

9
29 /25
100

10

11

12

BIAS

R146 82(1/2W)

0.022

C133 0.0033

C148 0.047(ML)

C140 0.0082(PP) C141 0.039 (ML)

L104 330µH

C142 47/25

A_12V

R149 4.7

g

VF1 -VP VF2 SP_RLY M_10V

R135 10K

R148 22K

+B

0V

B

a b c p h f K i
TO POWER SECTION P28 1-G

7

8

9

10

SW_5V GND (A_GND)

-15V GND (D_GND)

0V

l e M n m

UN_SW_5V AC _RLY CONT SP_DET GND (M_GND)

R147 47K

0V

Q114 KTC3203 Y

C135 47/25

Q113 KRC104 M

11

12

Figure 27 SCHEMATIC DIAGRAM (4/10) 27

CD-BA1500H

A
IC901 STK40204 POWER AMP.
1 2
C901 470P C903 15P R901 56K

+Vcc

-Vcc

Ch1 Out

Ch1 Out

Ch2 Out

3

4

5

6

7

8
+B

9
B

Ch2 Out

+ Ch1 -

+ Ch2 -

10

11

12

13

14 C902 220P

15

C911 10/50

R920 22K

R905 1K

R903 820 C905 47/50

C910 100/50 C906 47/50
B

C904 15P

B

R904 820 R902 56K

R919 100

R918 100

C909 100/50

+B

B

C912 10/50

R931 1K

R906 1K

R932 1K

R916 4.7 C916 0.1 (ML)

R913 56K

C935 10/50

R933 68K R907 0.1(1W) C907 0.022 R909 1K
4.1V

C936 10/50

R934 68K

R917 4.7

C
+B

Q904 KTC3199 GR

D902 DS1SS133

R912 10K

0V

Q902 KTC3199 GR

Q903 KTC3199 GR

+B

D
+B B +B B +B

DZ130BSB

Q831 KTC2026

R831 3.3(1/2W)

R833 22K

C834 0.047(ML)

R832 33(1/2W)

10V

0.022

220/25

10V

19.41V

R803 680(2W) R801 22K R802 22K C803 2200/5 C804 2200/ D803 1N4004S

C833 22/25

C832

C831

E

+B

+B 10V +B

R841 22K

IC841 KIA7810AP VOLTAGE REGULATOR

2

20V

C807 3300/25

3

1
C841 0.1(ML)

ZD803

R915 56K

R911 0V 0V 10K Q901 KTC3199 GR

C908 0.022

R910 4.1V 1K
0V

D903 DS1SS133

R914 56K

R908 D901 0.1(1W) DS1SS133

C915 0.1(ML)

C917 47/50

C914 0.1 (ML)

C913 0.1(ML)

D805 1N4004S 1

i

SW-5V +B

+B

C813 100/35

20V

47/25

0.022

+B

s
TO MAIN SECTION P26 1-C P27 10-H

GND A_12V -VP VF2 VF1

(CD_GND)
+B

g b c a p h f k
j

G

SP_RLY M_10V -15V GND (D_GND) SW_5V +B GND A_GND UN_SW_5V +B SP_DET GND (M_GND) AC_RLY_CONT

+B

l e n m
M

H

· NOTES ON SCHEMATIC DIAGRAM can be found on page 20.
1 2 3 4 5 6

Figure 28 SCHEMATIC DIAGRAM (5/10) 28

C851 0.1(ML)

C854

r

R
+B

R851

10K

t

C853

C852

ZD802 DZ6.2BSA

C855 0.047(ML)

GND

(A_GND)

D851 DS1SS133

47/25

F

q

L

+B

5.7V

3 2

1

D831 DS1SS133
+B

3 2

IC851 KIA7805P VOLTAGE REGULATOR

1

R807 12K

C812

IC852 AN78L05 CONSTANT VOLTAGE REGULATOR

C842 0.1(ML)

C843 47/25

CD-BA1500H

+B

R975 4.7(1/2W) D971 DS1SS133 R973 15K C972 10/50

CNP971 C971 47/50 R971 1K R972 68K
4.9V

CNS971

2 1
Q971 KTC3203 Y

2 1

M
M901 FAN MOTOR

FM SIGNAL

RL951 RELAY

R953 4.7K

R954 4.7K 1

FW951 1 2 3 4 L951 2.2mH R951 330(1/2W) C951 JK951 220P HEADPHONES R952 330(1/2W) C952 220P

R1_OUT

L1_OUT

2 0.2V 1 3

Q951 KRC107 M
0V

CNP951

D951 DS1SS133

5

5

HEADPHONES PWB-A3 + +
C929 0.001 C928 0.001 SP_L Ch SP_R Ch SO901 SPEAKER TERMINALS

L921 0.29µH
+B

4.4V

L)

C923 0.022 C921 0.022 R921 6.8

C926 L920 0.022 0.29µH C920 0.022 R922 6.8

C922 0.022 C924 0.022 R923 6.8

R924 6.8 C925 0.022 C927 0.022

C933 0.001 R926 68 C934 0.001 R927 68

SP_L Ch_GND SP_R Ch_GND

+B

R925 68 C932 0.001

D801 TS6B04GM
+B

F801 T4A L 250V C801 0.1(ML) C802 0.1(ML)
B

When Servising, pay attention as the area enclosed by this line( ) is directly connection with AC main voltage.

POWER PWB-F
F802 T4A L 250V

C803 00/50 C804 200/50 S D802 1N4004S

D806 1N4004S

2

S

C809 100/50

D871 1N4004S

D804 1N4004S

C806 0.1 (ML)

F803 T2A L 250V

ZD801 DZ300BSB

C812 100/50 R805 47K

C808 100/50

3 4 5 6 7 8
TF 130 °C PT801 MAIN POWER TRANSFORMER

CNP801

RL871

C871 0.0047

C805 0.1 (ML)

1 1 2 3 4 5 6 7 8
CNP802

1
2

1

2

C810 220/50

C811 47/50

L801

SO801 AC INPUT SOCKET AC 230V/50Hz

-33V

-28V R806 D808 10 Q801 1N4004S KTA1274 Y

D807 1N4004S

R804 2.2K

-28V

D876 DS1SS133

SW-5V

1

FW871

2 UN_SW_5V GND AC_RLY_CONT 5

3 4 5
CNS871
R876 1K

Q873 KTC3199 GR

D875 1N4004S C875 0.022 C873 470/35

D874 1N4004S

MAIN PWB-A1(2/3)

C877 R875 0.001 47K

7

8

9

10

11

C872 0.047(ML)

1

R874 220

D873 1N4004S

D872 1N4004S

PT871 SUB POWER TRANSFORMER

C876 0.001 C874 1000/6.3

12

Figure 29 SCHEMATIC DIAGRAM (6/10) 29

CD-BA1500H

MAIN PWB-A1 (3/3)
A
C302 0.001

FM SIGNAL

AM SIGNAL

+B T303

C363 0.022

C338 0.001

C323 0.022

C330 15P (UJ)

C362 3.3/50

C361 0.022

B

C364 10/16 C365 0.022

C332 0.022 +B D301 DS1SS133

R358 3.9K

C366

0.001

AM TRACKING fL

C331 0.047

LOW FIL L354

C342 0.022

R365 10K

R350 2.7K C367 1/50

AM RF IN

FM AFC

5.6K

VD301 SUC348S

AM OSC OUT AM OSC IN

AM IF IN

R351

FM IF IN

AM MIX OUT

R323 68K

R336 10K

AM OSC
AM LOOP ANTENNA L341

C334 27P(UJ)

1

2

3
R352 1K

4
3

5

6

SD 0.022 C353 R377 47K ST IND SD IF IN

BALUN
0.022 10/16 0.022
CF302 1 1 2 1 2 CNP302 2 3 T351

CF352

C351

C352

C350

D

AM IF

C326 0.001

+B

R39 1K

C397 0.022

C394 C392 47/16 0.001 R381 10K C380 10/16

E

R382 150

C387 0.022

L351 100µH

X IN X OUT VSS AOUT CE

R399 33

C345 0.022

C346 0.022

X352

FM/AM IF CONT

FM/AM

C347 0.022

F

C321 100/16

R345 4.7K

1K

1K

1K

R344 470

C348 0.01

R374

R373

R372

SO301A

R369 15

L342 2.2µH C341 0.022

FM ANTENNA TERMINAL

G

8 7 6 5
GND GND VCC ANT

4 3
VT F OUT

2
GND

1
IF OUT

FE301 FM FRONTEND

H

· NOTES ON SCHEMATIC DIAGRAM can be found on page 20.
1 2 3 4 5 6

Figure 30 SCHEMATIC DIAGRAM (7/10) 30

R386 22K

R346 330

Q301 2SC380 O

R378

C375 0.001

R347 6.8K

C382 15P(CH)

1K

D304 DS1SS133 C301 0.01

R348 680

1 2

3

4

5

DO

CL

2

6

7

8

9 10 11 R376
1K

1

3

MO/ST

CF301

R349 33

IC302 LC72131 PLL(TUNER)
DI

VDD FM IN AM IN

D303 DS1SS133

AIN PD

C381 12P (CH)

22 21 20

19 18 17 16 15 14 13 12 C386 330P

R379 2.2K

TP301

C393 R380 1/50 1.5K

C385 0.01

C354
+B

2

0.022

1

STEREO

C

D302 DS1SS133

C335 560P

REG

GND

VSM AM LOW CUT FM/AM OUT

AM BAND COVERAGE fL T306

24

23

22

21

20 19 18

IC LA1 FM IF DET./F

7

CD-BA1500H

CNP303

8

7 6

5

4 3 2 1

RDS PWB-G

ZDT21 DZ5.1BSB

R357 470K

TP302

C373 0.015
C374 0.015

RT26 1K

1K

1K

17
MPX VCO

16
MPX IN

15 14 13
MO/ST R-CH OUT L-CH OUT

1K

C367 1/50
OU

X351

R350 2.7K

C369 R356 27P(UJ) 1K

C368 1/50

R364 47K C371 R361 1/50 1.2K R362 1.2K

C372 1/50

CT28 47/10 TP CT29 0.022

IC303 LA1832S IF DET./FM MPX./AM IF
FM DET STEREO VCC SD

RT30

RT29

RT28

TP

TP

IF OUT PHASE

PHASE (FM/AM)

24 23 22 21
DI CL SYR CE

20
DO

19
RDS-ID

18 17 16 15 14 13
T7 T6 VDDD XIN XOUT SYNC VSSD

FLOUT

MPXIN

VREF

VDDA

VSSA

CF351

0.022

0.022

C357 2.2/50
C355 C356 22P 0.001

R355 3.3K

CIN

R353 270

C358 1/50

LC72722

T3

T1

1 2 3
C370 1/50

4

5 6
RT21 100K

7 8

T2

9 10 11 12
CT26 22P (CH) QT22 KTA1266 GR
CT36 0.022

CT23 10/16

CT24 0.022

CT25 560P QT21 KTC3199 GR
RT34 56K

C353

C354

R393 1K

C398 100/10

C399 0.022

+B
R388 3.9K

L352 100µH ZD351 DZ5.1BSB C396 100/10 C395 0.022 R392 270 R391 Q360 270 KTA1266 GR R383 5.6K
CT22 0.022

CT37 0.022

RT33 56K

R387 5.6K

CT21 47/10

+B +B

H

SD IF IN

R395 47K

R359 1.8K

3 12

C386 330P

+B

R385 5.6K C391 47/16
R384 5.6K

MO/ST

1K

R360 4.7K +B

R386 22K

C388 0.001 +B

GND A GND

TUN_SM TUN_R

R370 1K

0 11 R376

ST IND

TUN_L

A_12V

LT21 2.2µH

R377 47K

GND D GND

CE

DO CLK

1 2 3 4 5 6 7
CNS303

RT32 10K

g

I GE

F

TO MAIN SECTION P27 11-C,10-H

7

8

9

DI

A B D C K

10

11

T4 T5

RT51 10K

8

XT21 4.332MHz

6

7

8

9

10 11

12

ICT21 RDS DECORDER

RT36 220K RT35 220K

R363 47K

RT49 390

RT37 220K

LOW PASS FILTER L354

CT43 10/16

RT48 390

LT22 2.2µH

CT27 22P (CH)

12

Figure 31 SCHEMATIC DIAGRAM (8/10) 31

CD-BA1500H

A

DISPLAY PWB-A2
FL701 FL DISPLAY
39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

Q601 KTC3199 GR
-25.7V

Q602 KTC3199 GR
-25.7V

Q603 KTC3199 GR
-25.7V -25.7V

R606 1K R611 100K

R601 1K R602 100K

R616 1K

R622 100K

B
3.3V

-25.7V 3.3V

-25.7V

3.3V

G11

G10

G9

G8

G7

G6

G5

G4

G3

G2

P22 F P21 F P20 F P19 P18 P17 P16 P15 P14 P13 P12 P11 P10 P09 P08 P07 P06 P05 P04 P03 P02 P01 G11 G10 G09 G08 G07 G06 G05 G04 G03 G02 G01 F F F
P5 P4 P3 P2

C609 47/50

C616 1/50

81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 80 P6 79 VLOAD 78 P7 77 P8 76 P9 75 P10 74 P11 73 P12 72 P13 71 P14

P1

G1
100

VDD S-BUSY T-BIAS T_T1/T2 REC/PLAY RES OUT DRF WRQ RESET

C
R621 33

R R R R R6 R6 R 10 XL

1 2 3 4 5 6 7 8 9

+

70 P15/DIST0 69 P16/DIST1 68 P17/DIST2 67 P18/DIST3 66 P19 65 P20 64 P21 63 P22 62

+B

IC701 IX0329AW SYSTEM MICROCOMPUTER

X2 11 X1 12 VPP/IC 13 XT2 14 CD INT 15 VDD 16 CD CLK 17 CD DI 18 CD DO CD CE CE CLK DI DO

R

D610 DS1SS133

R640

1K

R725 10K

D

TIMER LED

REMOCON NO USE SP_RLY SYS STOP

T_MOTOR

T_SOL_A

T_SOL_B

SMUTE

VDD

R654 SPK_DET 1K

AC RLY_CONT

+B

R624 270

E

R653 1K

R613 R603 820K 10K R617 2 R607 C605 220K 3 270P 33K R618 220K C606 5 0.0027 6 R604 C602 12K 0.0027 D601 DS1SS133 R608 68K R614 390K R605 56K C603 0.0068 R612 1M

C601 270P

IC702 KIA4558P OPE AMP.
R623 270 4 1 8 7

+B +B

R659 1K

+B

R661 R663 R664 R665

LED722

+B

D602 DS1SS133 R625 100K

B

R656 10K

C612 2.2/50 D603 DS1SS133

R670 10K R671 10K R672 10K

C613 2.2/50

R626 100K

+B

R636 68K

8 7 C610 0.022

R627 100K C611 0.022

R649 10K

ZD601 DZ6.2BSC

D611 DS1SS133

IC703 KIA4558P OPE AMP.

C617 R637 10/16 1K R638 47K

R650 68K

F

2 C607 R609 C604 0.022 3 0.0068 R619 470K 2.2M R615 5 150K 6 R610 C608 R620 15K 0.022 180K

4 1

D604
DS1SS133

C614 2.2/50

+B

R660 10K
4.2V

C618 R655 10/16 1K
D615

DS1SS133 Q608 Q604 KTC3199 GR KTC3199 GR
9.3V 8.6V

TAPE MECHANISM PWB-D
1
TAPE MOTOR

+B

CNP703 FC702 1 T2 PLAY 1 +5V 2 T2 RUN 3 MTR + 4 T2 SOL 5 6 T1 SOL R_REC 7 T1 RUN 8
9 10 11 12 13

Q607 9.3V KTA1273 Y
0V 9.3V

R662 10K
+B

M

+ 1 2 3 4 5 6 7 8 9 10 11 12 13

G

SOLENOIDE

Q605 9.3V KTA1271 Y
0V

R651 10K
+B

9.3V

T1 RUN COM F-REC

C620 47/25 D613 DS1SS133

Q606 KTA1271 Y

9.3V

R652 10K

SOLENOIDE

D614 DS1SS133

13

13

H

· NOTES ON SCHEMATIC DIAGRAM can be found on page 20.
1 2 3 4 5 6

Figure 32 SCHEMATIC DIAGRAM (9/10) 32

R658 47K

+B

M10V

R673 1K KEY 0 R674 KEY 1 1K KEY 2 R675 1K

T1

R667 1K R668 R669

R632 R629 R633 R634 R635

10K 10K 10K 10K 10K

T2 RUN

50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 RUN

VSS

2.2K 2.2K 2.2K 2.2K

1K 10K

AVDD

AVref

R642 22K R643 1K R644 1K R645 22K R646 1K R647 1K R648 1K

61 60 SPN 59 DISTOUT/SW OUT 58 KARAOKE LATCH 57 MIC IN 56 FPB 55 FPA 54 PLAY SW_B 53 PLAY SW_A 52 CD CLAMP SW 51

R R R 19 R 20 R 21 R 22 R 23 R 24 R

AVSS 25

M-BUSY/TUN SM 26 N 27 S 28 SP 29 SP 30

4.2V

CD-BA1500H

P02 P01 G11 G10 G09 G08 G07 G06 G05 G04 G03 G02 G01 F F F
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

BI701 CD INT WRQ(DSP) DRF CD CE CD DO CD DI CD CLK RES OUT CLAMP SW 1 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 10 CNS701
C621 1/50

P25 12-F TO CD SERVO PWB CNP12

G11

G10

G9

G8

G7

G6

G5

G4

G3

G2

P2

P1

G1

84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99

100

VDD S-BUSY T-BIAS T_T1/T2 REC/PLAY RES OUT DRF WRQ RESET 0 1 2 3

R678 R679 R680 R681 R682 R683 R684 10

1 2 3 4 5 6 7 8 9

+B

1K 1K 1K 1K 1K 1K 1K
C622 15P(CH)

C625 220/10

C624 0.022

C633 10/16

FC701 23 CE DO DI CLK T_BIAS T_T1/T2 REC/PLAY SPA_SIG SMUTE VF1 -VP VF2 SP_RLY +B M_10V B -15V D_GND +B +5V A_GND UN_SW 5V AC_RLY CONT SP_DET M_GND

IC701 IX0329AW SYSTEM MICROCOMPUTER

X2 11 XL701 X1 12 VPP/IC 13 XT2 14 CD INT 15 VDD 16 CD CLK 17 CD DI 18 CD DO 19 CD CE 20 CE 21

R685

C623 18P(CH) 1K 1K 1K 1K 1K 1K 1K 1K 1K 1K

+B

/SW OUT E LATCH

R686 R687 R688 R689 R690 CLK 22 R691 DI 23 R692 DO 24 R693 R694

AVSS 25 TIMER LED W_B W_A P VDD

REMOCON NO USE SP_RLY SYS STOP

T_MOTOR

T_SOL_A

T_SOL_B

SMUTE

VSS

AVDD

AVref

M-BUSY/TUN SM 26 NO USE 27 SPEANA2 28 SPEANA1 29 SPEANA0 30

47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 AC RLY_CONT

R673 1K KEY 0 R674 KEY 1 1K KEY 2 R675 1K

2.2K 2.2K 2.2K 2.2K

1K 10K

R676 4.7K R666 1K

+B

+B

23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
CNP702 1

P27 12-E

CNP401 TO MAIN PWB

R661 R663 R664 R665

R667 1K R668 R669

R708 10K

+B

59 K

+B +B

LED722

+B

+B B B

+B

R716 4.7K R670 10K R671 10K R672 10K
+B +B

10K

L601 100µH

D617 DS1SS133
D616 DS1SS133

5V BACK UP

Q609 R704 KRC102 M C628 3 47K 3.3/50 5.9V
4.8V 0V

IC704 KIA7042AP RESET
5.9V

D620 DS1SS133

+B

1 2
0V

D621 DS1SS133 RX701 REMOTO SENSOR 1 2 3 C631 0.022

R723 100

2
0V

3 1

C626 0.1/50

C627 0.01

R660 10K
4.2V

+B

R711 100K

C629 0.022

C630 10/50

C632 47/25 R724 100K SW628 TUNER (BAND)

Q608 C3199 GR

M10V

R697 680 SW616 CD

R699 820

R703 1K

R706 1.5K

D618 DS1SS133 R709 R712 2.2K 2.7K

R714 3.9K

R718 R719 R721 5.6K 10K 18K

R722 33K

SW621 SW617 SW618 SW619 SW620 FAST SW622 SW623 PLAY/ TAPE TUNING MEMORY/ REWIND FORWARD REPEAT STOP DOWN SET R701 R707 R695 R698 820 1K 1.5K 680

SW626 SW627 SW625 TUNING VIDEO/ REC/ PAUSE /TIME UP AUX

+B

+B

SW615 SW611 SW612 SW613 SW614 DIMMER X-BASS/ EQUALIZER VOLUME VOLUME UP DOWN DEMO R696 680 R700 820 R702 1K R705 1.5K R710 2.2K R713 2.7K R715 3.9K R717 68K R720 100K SW610 OPEN/ CLOSE

SW604 SW601 SW602 SW603 PTY.TI SW605 SW606 SW607 SW608 SW609 POWER CLOCK TIMER/ SEARCH EON ASPM DISPLAY STATION DISC SKIP SLEEP MODE

7

8

9

10

11

12

Figure 33 SCHEMATIC DIAGRAM (10/10) 33

CD-BA1500H

TAPE MECHANISM ASSEMBLY
FC702

P36 4-G TO DISPLAY PWB CNP702

1

13

TAPE MECHANISM PWB-D

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

1

4

TAPE MOTOR
B A + -

SOLENOIDE TAPE 1 PLAYBACK HEAD

SOLENOIDE TAPE 2 RECORD/PLAYBACK HEAD
BK YL WH

ERASE HEAD
WH

TO MAIN PWB P35 12-F CNS802

WH BK

PK

GR

1 2 3 4 5 6 7 8
BR BK BR YL YL RD BL RD

PT801 MAIN POWER TRANSFORMER

GR

WH BK PK

3 2 1

CNS101
RD BL

P35 12-E TO MAIN PWB

1

2

CNP801
TO POWER PWB P40 1-C

6 5 4 3 2 1
WH BK WH BK WH RD

CNS4

M3 T/T UP/DOWN MOTOR

CD T/T UP/DOWN MOTOR PWB-E

BL YL WH BK RD WH BK

1 2 34 5 67

CNS102 P35 12-D TO MAIN PWB

COLOR TABLE BR RD(R) OR YL GR BROWN RED ORANGE YELLOW GREEN BLUE VIOLET GRAY WHITE BLACK PINK

6 BI4

1

+

SW1 OPEN/ CLOSE

BL VL GY WH(W) BK PK

SW3 DISC NUMBER

SW2 CLAMP

7

8

9

10

11

RD

BL

Figure 39 WIRING SIDE OF P.W.BOARD (6/7) 39

GR

12

CD-BA1500H

A

POWER PWB-F

PT871 SUB POWER TRANSFORMER

B

D875

D873
1 2 3 4 5

D874 D872
P39 8-F

C

FROM POWER TRANSFORMER

1 CNP801

2

C877

C871

C873

CNS871

D871

B C E Q873

R875

C872

C875

SO801 AC INPUT SOCKET AC 230V,50 Hz

L801

FW871
TO MAIN PWB P35 12-E

R876

R874 C874

D

RL871

C876

RDS PWB-G
E
LT21 QT22 CT21 CT24 CT22 B C E RT48 RT49 RT32 CT36 QT21 RT34 CT23 RT21 RT33 CT25

When Servicing, pay attention as the area enclosed by this line ( ) is directly connected with AC main voltage.

ZDT21 CT26

CT37

F

ICT21
24 23 22 21 2019 18 17 16 15 14 13

CT27 CT29

G
RT37 RT30 RT29 RT36 RT28 RT35 RT26

CT28

H

1

2

3

XT21

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

8 7 6 5 4 3 2 1

LT22

RT55

CNP303

CT42

CNS303
TO MAIN PWB P34 5-B

4

5

D876

B C E

6

Figure 40 WIRING SIDE OF P.W.BOARD (7/7) 40

CD-BA1500H

VOLTAGE
IC1 PIN NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 VOLTAGE
1.6V 1.6V 1.6V 1.6V 1.6V 1.6V 0V 2.6V 0V 0V 0V 3.3V 1.6V 1.6V 1.6V 0V 0V 1.6V 1.6V 1.6V 1.6V 1.6V 0V 1.6V 0V 0V 0V 1.6V 1.6V 3.3V

IC2 PIN NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 VOLTAGE
0.7V 0V 0V 0V 3.3V 2.4V 0V 0V 1.6V 0V 4.7V 1.7V 0V 1.6V 1.6V 1.6V 1.6V 3.3V 0V 1.6V 1.6V 1.6V 1.6V 1.6V 1.6V 1.6V 1.6V 0V 0V 2.1V 2.1V 0V 3.3V 3.5V 3.3V 3.3V 3.3V 1.6V 1.6V 0V 0V 3.3V 3.3V 3.0V 1.5V 0V 0V 1.5V 3.0V 3.3V 1.8V 3.0V 0V 0V 0V 0V 1.7V 3.3V 0V 3.0V 1.6V 0V 2.4V 0V 0V 0V 0V 4.8V 4.9V 4.9V 4.6V 0V 4.9V 0V 0V 0V 3.2V 0V 0V 3.4V

IC101 PIN NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 VOLTAGE
0V (0V) 0V (0V) 0.5V (0.5V) 1.9V (1.9V) 0V (0V) 0V (0V) 0V (0V) 0.6V (0.6V) 3.3V (3.3V) 3.3V (3.3V) 0V (0V) 0V (0V) 6.7V (6.7V) 4.0V (4.0V) 0V (0V) 3.3V (3.3V) 0.6V (0.6V) 0V (0V) 0V (0V) 0V (0V) 1.9V (1.9V) 0.5V (0.5V) 0V (0V) 0V (0V)

IC901 PIN NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 VOLTAGE
0V 0V 0V 34.4V 32.9V 0V 0V 35.4V 35.4V 0V 0V 34.0V 0V 0V 0V

IC852 PIN NO. 1 2 3 VOLTAGE
19.4V 0V 5.76V

IC302 PIN NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 VOLTAGE
2.4V (2.4V) 0V (0V) 0V (0V) 0V (0V) 4.6V (4.7V) 4.8V (4.9V) 0.1V (9.9V) 4.2V (0V) 3.3V (0V) 3.4V (0V) 4.6V (4.9V) 2.2V (0V) 4.6V (4.9V) 0V (0V) 0V (2.4V) 2.3V (0V) 4.6V (4.9V) 0.8V (4.9V) 0.8V (4.9V) 1.1V (0V) 0V (0V) 2.5V (3.0V)

IC851 PIN NO. 1 2 3 VOLTAGE
19.4V 0V 5V

IC3 PIN NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 VOLTAGE
1.6V 1.6V 1.8V 2.1V 2.1V 2.1V 2.1V 0V 0V 0V 0V 0V 0V 0V 2.1V 2.1V 1.6V 4.9V 3.5V 1.6V 0V 0V 4.9V 4.9V 1.6V 2.1V 2.1V 1.9V 0V 0V 0V 0V 0V 0V 0V 4.2V 0V 2.1V 2.1V 4.9V 2.1V 2.1V

IC841 PIN NO. 1 2 3 VOLTAGE
19.41V 0V 10V

IC704 PIN NO. 1 2 3 VOLTAGE
5.0V 0V 5.0V

IC702 PIN NO. 1 2 3 4 5 6 7 8 VOLTAGE
0V 0V 0V 11.0V 0V 0V 0V 5.58V

PIN NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50

VOLTAGE
5.0V 0V 5.0V 0V 5.0V 5.0V 5.0V 1.2V 0.87V 4.84V 2.38V 2.06V 0V 0V 1.4V 4.89V 4.8V 0V 2.3V 0V 0V 0V 0V 4.44V 0V 0.3V 0V 0V 0V 0V 5.1V 5.1V 5.1V 4.9V 5.0V 4.9V 4.9V 0V 5.0V 0V 1.7V 8.0V 7.9V 8.0V 3.8V 4.89V 4.89V 4.89V 4.29V 4.29V

IC701 PIN NO. 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100

IC303 VOLTAGE
4.29V 4.29V 4.29V 4.29V 4.29V 4.29V 0V 0V 27.8V 27.8V 0V 0V 27.7V 27.7V 27.7V 27.7V 27.7V 27.7V 20.4V 22.1V 25.9V 27.7V 24.1V 24.4V 25.9V 22.2V 22.2V 22.3V 27.8V 27.7V 27.7V 27.7V 20.3V 24.0V 20.3V 2.38V 2.58V 25.8V 25.8V 25.7V 25.7V 25.7V 25.7V 25.7V 25.7V 25.7V 25.7V 25.7V 25.7V 25.7V

PIN NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

VOLTAGE
2.1V (2.1V) 4.5V (4.8V) 2.1V (2.1V) 2.1V (2.1V) 0V (0V) 4.6V (4.9V) 4.6V (4.9V) 2.4V (3.2V) 4.5V (4.8V) 3.9V (0V) 3.3V (1.8V) 3.3V (1.1V) 3.5V (2.0V) 1.2V (1.2V) 1.2V (1.2V) 2.0V (2.0V) 2.7V (0V) 2.1V (0.9V) 0V (1.9V) 0.3V (0.9V) 2.6V (2.0V) 2.6V (2.0V) 4.5V (4.8V) 3.0V (3.3V)

ICT21 PIN NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 VOLTAGE
2.6V 2.59V 5.2V 0V 2.72V 2.55V 0V 0V 0V 0V 0V 2.66V 2.56V 5.21V 0V 0V 0V 1.4V 1.7V 4.6V 4.3V 0V 0V 0V

IC401 PIN NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 VOLTAGE
0V 0V 0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 5.0V 10.0V 0V

FE301 PIN NO. 1 2 3 4 5 6 7 8 VOLTAGE
0V(0V) 0V(0V) 2.6V(0V) 2.0V(1.1V) 8.5V(0V) 0V(0V) 0V(0V) 0V(0V)

IC703 PIN NO. 1 2 3 4 5 6 7 8 VOLTAGE
0V 0V 0V 11.0V 0V 0V 0V 5.58V

41

CD-BA1500H

WAVEFORMS OF CD CIRCUIT
Stopped CH1=500mV DC 10:1
T

CH3=500mV DC 10:1

500ms/div (500ms/div) NORM:20kS/s

Stopped CH1=500mV DC 10:1
PDO1

CH3=1V DC 10:1

1999/04/05 17:33:17 CH4=1V 500ms/div (500ms/div) DC 10:1 NORM:20kS/s

1

IC2 24

FDO
1

7

IC2 1

3

4

8
TDO

IC2 2
T

PDO2

2

IC2 23

3

CH1 v/DIV 500mV =Filter= Smoothing : ON BW : FULL =Offset= CH1 : 0.000V CH2 : 0.0V CH3 : 0.000V CH4 : 0.00V =Record Length= Main : 100K Zoom : 2K =Trigger= Mode : AUTO Type : EDGE CH1 Delay : 0.0ns Hold off : 0.2us

1

IC2 24

FDO
1

CH1 v/DIV 500mV =Filter= Smoothing : ON BW : FULL =Offset= CH1 : 0.000V CH2 : 0.0V CH3 : 0.00V CH4 : 0.00V =Record Length= Main : 100K Zoom : 2K =Trigger= Mode : AUTO Type : EDGE CH2 Delay : 0.