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– 32 –

< DECK  SECTION >

12. Tape Speed Adjustment (DECK 2)

Settings : • Test tape : TTA–100

• Test point : TP8(Lch), TP9(Rch)
• Adjustment location : SFR1

Method : Play back the test tape and adjust SFR1 so that the

frequency counter reads 3000Hz 

±

 5Hz and 

±

45Hz

(REV) with respect to forward speed.

13. Head Azimuth Adjustment (DECK 1, DECK 2)

Settings : • Test tape : TTA–330

• Test point : TP8(Lch), TP9(Rch)
• Adjustment location : Head azimuth

adjustment screw

Method : Play back (FWD) the 8kHz signal of the test tape and

adjust screw so that the output becomes maximum.
Next, perform on REV PLAY mode.

14. PB Frequency Response Check (DECK 1, DECK 2)

Settings : • Test tape : TTA–330

• Test point :TP8(Lch), TP9(Rch)

Method : Play back the 315Hz and 8kHz signals of the test tape

and check that the output ratio of the 8kHz signal with
respect to that of the 315Hz signal is within 5dB.

15. PB Sensitivity Check (DECK 1, DECK 2)

Settings : • Test tape : TTA–200

• Test point : TP8(Lch), TP9(Rch)

Method : Play back the test tape and check that the output level of

the test point is 100mV 

±

 3dB.

16. REC/PB Frequency Response Adjustment (DECK 2)

Settings : • Test tape : TTA–602

• Test point : TP8(Lch), TP9(Rch)
• Input signal : 1kHz / 8kHz (LINE IN)
• Adjustment location : SFR451 (Lch)

SFR452 (Rch)

Method : Apply a 1kHz signal and REC mode. Then adjust

OSC attenuator so that the output level at the TP8,
TP9 becomes -20VU. Record and play back the 1kHz
and 8kHz signals and adjust SFRs so that the output of
the 8kHz signals becomes 0dB 

±

 0.5dB with respect to

that of the 1kHz signal.

17. REC/PB Sensitivity Check (DECK 2)

Settings : • Test tape : TTA–602

• Test point : TP8(Lch), TP9(Rch)
• Input signal : 1kHz (LINE IN)

Method : Apply a 1kHz signal and REC mode. Then adjust

OSC attenuator so that the output level at TP8, TP9
becomes 0VU. Record and play back the 1kHz signals
and check that the output is 0dB 

±

 3.0dB.

< FRONT  SECTION >

18.

µ

-CON OSC Adjustment

Settings : • Test point : TP11 (CLK)

• Adjustment location : L151

Method : Insert AC plug while pressing TUNER function key.

Adjust L151 so that the frequency at the test point is
209.55Hz 

±

 0.05Hz.

Summary of Contents for XR-HG5MD

Page 1: ...vice Manual is the Revision Publishing and replaces Simple Manual XR HG5MD K EZ S M Code No 09 002 423 9T2 If requiring information about the CD mechanism see Service Manual of AZG 1 ZD8RMDM S M Code No 09 001 335 3NA If requiring information about the MD mechanism see Service Manual of AZG 7 DM S M Code No 09 001 338 4N2 XR HG5MD SPEAKER SYSTEM CD CASSEIVER SX WNHG5 CX NHG5MD RC ZAS16 REMOTE CONT...

Page 2: ...deck section Track format 4 tracks 2 channels stereo Frequency response 50 Hz 15000 Hz Recording system AC bias Heads Deck 1 Playback head x 1 Deck 2 Recording Playback head x 1 erase head x 1 Compact disc player section Laser Semiconductor laser λ 780 nm D A converter 1 bit dual Signal to noise ratio 85 dB 1 kHz 0 dB Harmonic distortion 0 05 1 kHz 0 dB Wow and flutter Unmeasurable MD recorder sec...

Page 3: ...ificeras i denna bruksanvising kan användaren utsättas för osynling laserstrålning som överskrider gränsen för laserklass 1 PROTECTION OF EYES FROM LASER BEAM DURING SERVICING CAUTION Use of controls or adjustments or performance of proce dures other than those specified herin may result in hazardous radiation exposure ATTENTION L utillisation de commandes réglages ou procédures autres que ceux sp...

Page 4: ...in power 2 2 2 2 2 Confirm that the main power is turned on and the HOLD terminal of the MICROCOMPUTER keeps the H level or not 3 3 3 3 3 When the HOLD terminal is L level the abnormality detection circuit is judged to be working correctly and the MICROCOMPUTER is judged to be good 1 Forced discharge of electrolytic capacitor of power supply block When repair is going to be attempted in the set th...

Page 5: ... ends of the electrolytic capacitor C113 that is connected to VDD of the MICROCOMPUTER with tweezers 3 3 3 3 3 Connect the AC power cord again If the MICROCOMPUTER returns to the normal operation the MICROCOMPUTER is good Note The reference number or MICROCOMPUTER pin number of transistor Q110 and electrolytic capacitor C113 can change depending on the models Be sure to check the reference numbers...

Page 6: ...ts positioning hole is moved as close as possible to the shaft of the LEVER SW H Attach the CAM LOAD so that it engages with the teeth of the GEAR IDLER2 2 Assembling the PLATE ASSY SLIDE L Align the shaft of the PLATE ASSY SLIDE L with the arrow marked position of the CAM LOAD CAM LOAD positioning hole Shaft of LEVER SW H CAM LOAD LEVER ASSY CAM CAM LOAD ...

Page 7: ...PLATE ASSY SLIDE L BOSS ZZG D b a c CAM LOAD 3 Remove the two screws S SCREW MD TF of C Remove the two screws S SCREW MD T of D Remove the four FFCs and remove the MD MECHANISM 4 Remove the screw VW 1 7 5 of A Remove the HEAD OWH Remove the two screws VTT 2 3 of B Remove the PLATE ASSY SLIDE L and the PLATE SLIDE R in the direction of the arrow 5 Move the ZZG D in the direction of arrow a While pu...

Page 8: ... 080 C CAP S 0 1 50 F C9 87 016 658 000 CAP E 4700 35 M SMG C10 87 A10 520 000 CAP E 3300 35 M SMG C11 87 012 368 080 C CAP S 0 1 50 F C12 87 012 368 080 C CAP S 0 1 50 F C13 87 012 368 080 C CAP S 0 1 50 F C21 87 010 385 080 CAP ELECT 220 25V C22 87 010 385 080 CAP ELECT 220 25V C23 87 010 247 080 CAP ELECT 100 50V C24 87 010 247 080 CAP ELECT 100 50V C25 87 010 430 080 CAP ELECT 100 63 C26 87 01...

Page 9: ...80 CAP 560P C461 87 012 158 080 C CAP S 390P 50 CH C462 87 012 158 080 C CAP S 390P 50 CH C501 87 010 401 080 CAP ELECT 1 50V C502 87 010 401 080 CAP ELECT 1 50V C503 87 010 545 080 CAP E 0 22 50 M 11L SME C504 87 010 545 080 CAP E 0 22 50 M 11L SME C505 87 010 545 080 CAP E 0 22 50 M 11L SME C506 87 010 545 080 CAP E 0 22 50 M 11L SME C507 87 010 196 080 CHIP CAPACITOR 0 1 25 C508 87 010 196 080 ...

Page 10: ... FF CABLE 12P 1 25 FFE801 A8 6ZA 191 130 6ZA 1 FEENM J201 87 A60 483 010 JACK DIA6 3 BLK ST W S KM J203 87 A60 238 010 TERMINAL SP 4P MSC J204 87 A60 886 010 JACK PIN 4P R W BLUE J602 87 A60 881 010 JACK PIN 2P MSP 242V05 PBSN J802 87 A60 403 010 TERMINAL ANT PAL 2P HSP 312V05 JW811 87 008 372 080 FILTER EMI BL OIRNI L101 87 003 383 010 COIL 1UH S L102 87 003 383 010 COIL 1UH S L201 87 003 383 010...

Page 11: ...D SEL6210S RED S301 87 A91 024 180 SW TACT KSHG611BT S302 87 A91 024 180 SW TACT KSHG611BT S303 87 A91 024 180 SW TACT KSHG611BT S304 87 A91 024 180 SW TACT KSHG611BT S305 87 A91 024 180 SW TACT KSHG611BT S306 87 A91 024 180 SW TACT KSHG611BT S307 87 A91 024 180 SW TACT KSHG611BT S308 87 A91 024 180 SW TACT KSHG611BT S309 87 A91 024 180 SW TACT KSHG611BT S310 87 A91 024 180 SW TACT KSHG611BT S311 ...

Page 12: ...PART CODE 0 55 Resistor Code Dimensions mm Symbol 1 16W 1005 5 CJ 1 0 0 5 0 35 104 L t W TRANSISTOR ILLUSTRATION DTC114ES KTC3199 2SA933 CSC4115 KTA1266 KTC3198 CSA952 CD1585 E C B E C B 2SB1370 B C E B 2SA1235 2SC2714 2SC3052 DTC144EK RT1N144C RT1P141C RT1P144C G D S 2SK2158 B C E C E RT1N141C RT1N441C CMBT5551 CMBT5401 CSA1362 CSD1306E 2SD2494 2SB1625 2SD1933 2SB1342 G D S 2SK3053 E C B CC5551 S...

Page 13: ...WIRING 1 MAIN 13 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 A B C D E F G H I J K L M N O P Q R S T U 1 2 3 4 5 6 7 8 9 25 26 27 28 29 30 31 32 ...

Page 14: ...SCHEMATIC DIAGRAM 1 MAIN 1 2 AMP SECTION 14 ...

Page 15: ...SCHEMATIC DIAGRAM 2 MAIN 2 2 TUNER SECTION 15 ...

Page 16: ... 16 WIRING 2 FRONT 1 2 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 A B C D E F G H I J K L M N O P Q R S T U 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 ...

Page 17: ... 17 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 A B C D E F G H I J K L M N O P Q R S T U 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 WIRING 2 FRONT 2 2 ...

Page 18: ...SCHEMATIC DIAGRAM 3 FRONT 18 ...

Page 19: ...WIRING 3 PT 19 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 A B C D E F G H I J K L M N O P Q R S T U 1 2 3 4 5 6 7 8 9 25 26 27 28 29 30 31 32 ...

Page 20: ...SCHEMATIC DIAGRAM 4 PT 20 ...

Page 21: ...WIRING 4 DECK 21 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 A B C D E F G H I J K L M N O P Q R S T U 1 2 3 4 5 6 7 8 9 25 26 27 28 29 30 31 32 ...

Page 22: ...er input 26 I SPEANA I Spectrum analyzer level AD input 27 I WRQ I RDS CLK I O CD WRQ input RDS CLK input 28 I TM BASE I Standard time input 8Hz 29 I RMC I System remote controller input 30 42 G13 G1 O FL grid output G13 G1 43 45 P36 P34 O FL segment output P36 P34 46 VDD3 VDD for FL 47 SPEANA A P33 O Spectrum analyzer band change output A FL segment output P33 48 SPEANA B P32 O Spectrum analyzer ...

Page 23: ... SW input FL segment output P12 70 REB P11 I O DECK side B record permission SW input FL segment output P11 71 CST2 P10 I O DECK 2 cassette detect SW input FL segment output P10 72 VDD4 VDD for FL 73 81 P9 P1 O FL segment output P9 P1 82 O KSCAN CLKADJ O Key scan timing output 83 O CD CLK O CD CLK ouput 84 O LED STB O Strobe output for LED driver 85 O DISH FWD O CD turnable forward revolution outp...

Page 24: ... 24 IC BLOCK DIAGRAM IC LC72131D IC M61500FP ...

Page 25: ... 25 IC BU2092F IC BA3835F ...

Page 26: ... 26 IC LA1837NL IC BU2099FV ...

Page 27: ... 27 IC BU1920FS ...

Page 28: ... 28 FL HNA 13MM14T GRID ASSIGNMENT ANODE CONNECTION GRIDASSIGNMENT ...

Page 29: ... 29 ANODECONNECTION ...

Page 30: ...DC TP1 VT TP2 CLK TP8 LCH TP9 RCH 2 L772 TP3 DC 3 3 1 3 6 1 GND 13 14 4 6 3 3 5 9 10 11 A MAIN C B 8 15 SFR451 SFR452 16 SFR1 DECK 1 P HEAD DECK 2 R P E HEAD DECK C B D 12 13 13 FWD REV FL101 CN101 IC101 TP11 CLK TP12 GND L151 B FRONT C B 16 17 L942 L941 TC942 4 5 7 ...

Page 31: ...e level at 290kHz is adjusted to MAX by TC942 6 AM IF Adjustment Settings Test point TP8 Lch TP9 Rch Adjustment location L772 450kHz 7 FM VT Check Settings Test point TP1 VT Method Set to FM 108 0MHz and check that the test point is less than 8 0V Then set to FM 87 5MHz and check that the test point is more than 0 5V 8 FM Tracking Check Settings Test point TP8 Lch TP9 Rch Method Set to FM 98 0MHz ...

Page 32: ...TP8 Lch TP9 Rch Method Play back the test tape and check that the output level of the test point is 100mV 3dB 16 REC PB Frequency Response Adjustment DECK 2 Settings Test tape TTA 602 Test point TP8 Lch TP9 Rch Input signal 1kHz 8kHz LINE IN Adjustment location SFR451 Lch SFR452 Rch Method Apply a 1kHz signal and REC mode Then adjust OSC attenuator so that the output level at the TP8 TP9 becomes 2...

Page 33: ...LAT EARTH MECHA 27 29 28 30 9 24 25 31 32 34 35 28 29 36 23 26 37 38 39 40 41 42 44 61 43 56 57 45 62 46 48 47 49 50 51 52 44 53 55 54 P C B P C B P C B HT SINK S HT SINK TRS HT SINK SUB HT SINK FIN HT SINK FIN HT SINK FIN 58 37 39 H A A A A A A A A A J I G G E A A A A A E D C C B F A A A A A A H A a a b b c c B 33 60 60 60 A 59 ...

Page 34: ...0 PLATE LOCK 29 86 NF9 224 010 SPR C LOCK 30 82 NF5 219 010 SPR T EJECT 2 SIN 31 88 915 121 110 FF CABLE 15P 1 25 32 8A DB8 023 010 KEY T BASS 33 8A DB8 025 010 KEY RDS 34 8A DB8 020 010 KEY ECO 35 8A DB8 024 010 KEY REC 36 87 NF4 217 110 HLDR LOCK 2 37 88 907 301 110 FF CABLE 7P 1 25 38 88 913 271 110 FF CABLE 13P 1 25 39 87 NB7 615 010 CONN ASSY 2P SHIELDPH PH 40 8A NF8 007 010 PANEL LEFT V 2 41...

Page 35: ... 2 C B DECK 2 PH DECK 1 RPH DECK 2 DECK 2 DECK 2 36 DECK 1 B B A 2ZM3MK2 PR4N YPR4N B B 31 38 39 40 34 33 35 43 45 41 41 44 49 47 48 46 C C 30 8 DECK 1 D 18 52 51 D D CAPSTAN N 2 2 41 5 DECK C B 50 50 A CUSH G DIA3 7 8 3 2 A 37 32 C E CUSH G DIA3 7 8 3 2 CAPSTAN N 2 2 41 7 SH 1 63 3 2 0 5 SLT SH BELT D2 2ZM3MK2 PR4N BOTTOM SIDE 2000 3 6 YPR4N ...

Page 36: ...243 010 LVR STOP 28 82 ZM1 259 210 SPR T PINCH R 29 82 ZM1 240 110 LVR REC 30 80 ZM6 243 010 SH 1 75 3 6 0 5 SLT 31 82 ZM1 255 310 SPR E LVR DIR 32 82 ZM3 305 210 GEAR CAM M2 33 82 ZM1 227 310 LVR TRIG 34 82 ZM3 306 110 LVR FR M2 35 82 ZM1 265 310 SPR E TRIG 36 82 ZM3 339 110 SHAFT COUPLER N3 37 86 ZM1 206 010 BELT MAIN L 38 82 ZM1 322 010 SPR T FR 60 39 82 ZM1 220 210 GEAR IDLER 40 82 ZM3 616 010...

Page 37: ... R 82 ZM1 265 119 SPR E TRIG 82 ZM1 255 319 SPR E LER DIR 82 ZM1 258 110 SPR T PINCH L 82 ZM1 213 019 SPR T HEAD 82 ZM1 269 219 SPR T BRG 82 ZM1 214 010 SPR T DIR 82 ZM1 285 310 SPR C BT L 82 ZM1 219 119 SPR T LINK 82 ZM1 257 019 SPR T CAS 82 ZM1 218 019 SPR E HB 82 ZM1 244 410 SPR C BT ...

Page 38: ...rning to clockwise direction until click sound comes out Remove the grill frame and four pieces of rubber caps by pulling out with a flat bladed screwdriver Remove the screws from hole where installed rubber caps Insert a flat bladed screwdriver into the position indicated by the arrows and remove the panel Re move the screws of each speaker unit and then remove the speaker units TOOLS 1 Plastic h...

Page 39: ...OTECTOR 4 88 NS5 610 010 CORD SPKR 5 88 NS5 611 010 CORD SPKR B L 6 8Z NSY 003 010 CORD BUSH 7 88 NS3 029 010 CORD BUSH L 8 8Z NS7 602 010 SPKR W 160 9 8Z NSY 604 010 SPKR M 100 10 8Z NSY 608 010 SPKR CERAMIC ASSY 11 8A DS8 005 010 GRILLE FRAME ASSY 1 8A DB8 905 010 IB K E M K 1 8A DB8 906 010 IB EZ 9L M EZ 2 8Z NB8 704 010 RC UNIT RC ZAS16 3 87 043 106 010 ANT FM 1007AWG 4 87 006 225 010 ANT LOOP...

Page 40: ...2 11 IKENOHATA 1 CHOME TAITO KU TOKYO 110 JAPAN TEL 03 3827 3111 Printed in Singapore 9420208 0251431 ...

Page 41: ...OM be sure to identify a CD mechanism with reference to the table below µ Determine a type of CD mechanism by a pick up that is mounted 1 AZG 1 ZD3 ZD4 KSS 213F is mounted 2 AZG 1 ZD8 KSM 880 is mounted KSS 213F KSM 880 Servo IC Digital Servo 8A DB8 616 110 8A DB8 616 010 LA9235M LC78641E LC876580W 5R43 LC876580W 5N90 Ref Parts Code Description Remarks IC101 8A DB8 616 010 C IC LC876580W 5N90 AZG ...

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