PHONES SUB MAIN MIC STEREO DVD CASETTE DECK RECEIVER XV-EV1000 THIS MANUAL IS APPLICABLE TO THE FOLLOWING MODEL(S) AND TYPE(S).

Transcription

1 - TUNING + MS-/RW MS+/ PHONS SU MIN MI MUSI MOVI RONT SURROUN SOUN MO KROK NTR RVRS MO R/STOP SS MI VOL MIN MX TIMR STNY/ON V/ TUNR VOLUM TP LIN PUSH OPN XV-V000 STRO V STT K RIVR XV-V000 XV-V00 ORR NO. RRV9 THIS MNUL IS PPLIL TO TH OLLOWING MOL(S) N TYP(S). Model Type Power Requirement Regional restriction codes (Region No.) The voltage can be converted by the following method. Remarks XV-V000 LXJ/N 0-V/0-0V/0V With the voltage selector XV-V00 LXJ/N 0-V/0-0V/0V With the voltage selector or details, refer to "Important heck Points for good servicing". PIONR ORPORTION -, Meguro -chome, Meguro-ku, Tokyo -, Japan PIONR LTRONIS (US) IN. P.O. ox 0, Long each, 900-0, U.S.. PIONR UROP NV Haven 0, Keetberglaan, 90 Melsele, elgium PIONR LTRONIS SINTR PT. LT. lexandra Road, #0-0, Singapore 99 PIONR ORPORTION 00 T-ZZK UG. 00 printed in Japan

2 STY INORMTION This service manual is intended for qualified service technicians ; it is not meant for the casual doit-yourselfer. Qualified technicians have the necessary test equipment and tools, and have been trained to properly and safely repair complex products such as those covered by this manual.improperly performed repairs can adversely affect the safety and reliability of the product and may void the warranty. If you are not qualified to perform the repair of this product properly and safely, you should not risk trying to do so and refer the repair to a qualified service technician. WRNING! TH L (SSIL MISSION LVL) O TH LSR POWR OUTPUT IS LSS THN LSS UT TH LSR OMPONNT IS PL O MITTING RITION XING TH LIMIT OR LSS. SPILLY INSTRUT PRSON SHOUL O SRVIING OPRTION O TH PPRTUS. LSR IO HRTRISTIS OR V : MXIMUM OUTPUT POWR : mw WVLNGTH : 0 nm OR : MXIMUM OUTPUT POWR : mw WVLNGTH : 0 nm LL HK Printing on Rear Panel VRW dditional Laser aution. Laser Interlock Mechanism Loading switch (S0 on the LO ssy) is used for interlock mechanism of the laser. When this switch turned ON in SW (LOS) side (OPN signal is 0V and LOS signal is.v), a laser becomes the status which can completely oscillation. urthermore, the laser completely oscillates in the disc judgment and disc playback. When player is power ON state and laser diode is not completely oscillating, 0nm laser diode is always oscillating by half power. Laser diode is driving with Q0 (0nm L) and Q0 (0nm L) on the VM ssy. Therefore, when short-circuit between the emitter and collector of these transistors or the base voltage is supplied for transistors turn on, the laser oscillates. (failure mode) In the test mode, there is the mode that the laser oscillates except for the disc judgment and playback. L ON mode in the test mode oscillates with the laser forcibly. The interlock mechanism mentioned above becomes invalid in this mode.. When the cover is open, close viewing through the objective lens with the naked eye will cause exposure to the laser beam. : Refer to page 9. XV-V000

3 [Important heck Points for Good Servicing] In this manual, procedures that must be performed during repairs are marked with the below symbol. Please be sure to confirm and follow these procedures.. Product safety Please conform to product regulations (such as safety and radiation regulations), and maintain a safe servicing environment by following the safety instructions described in this manual. Use specified parts for repair. Use genuine parts. e sure to use important parts for safety. o not perform modifications without proper instructions. Please follow the specified safety methods when modification(addition/change of parts) is required due to interferences such as radio/tv interference and foreign noise. Make sure the soldering of repaired locations is properly performed. When you solder while repairing, please be sure that there are no cold solder and other debris. Soldering should be finished with the proper quantity. (Refer to the example) Make sure the screws are tightly fastened. Please be sure that all screws are fastened, and that there are no loose screws. Make sure each connectors are correctly inserted. Please be sure that all connectors are inserted, and that there are no imperfect insertion. Make sure the wiring cables are set to their original state. Please replace the wiring and cables to the original state after repairs. In addition, be sure that there are no pinched wires, etc. Make sure screws and soldering scraps do not remain inside the product. Please check that neither solder debris nor screws remain inside the product. There should be no semi-broken wires, scratches, melting, etc. on the coating of the power cord. amaged power cords may lead to fire accidents, so please be sure that there are no damages. If you find a damaged power cord, please exchange it with a suitable one. 9 There should be no spark traces or similar marks on the power plug. When spark traces or similar marks are found on the power supply plug, please check the connection and advise on secure connections and suitable usage. Please exchange the power cord if necessary. 0 Safe environment should be secured during servicing. When you perform repairs, please pay attention to static electricity, furniture, household articles, etc. in order to prevent injuries. Please pay attention to your surroundings and repair safely.. djustments To keep the original performance of the products, optimum adjustments and confirmation of characteristics within specification. djustments should be performed in accordance with the procedures/instructions described in this manual.. Lubricants, Glues, and Replacement parts Use grease and adhesives that are equal to the specified substance. Make sure the proper amount is applied.. leaning or parts that require cleaning, such as optical pickups, tape deck heads, lenses and mirrors used in projection monitors, proper cleaning should be performed to restore their performances.. Shipping mode and Shipping screws To protect products from damages or failures during transit, the shipping mode should be set or the shipping screws should be installed before shipment. Please be sure to follow this method especially if it is specified in this manual. XV-V000

4 ONTNTS STY INORMTION.... SPIITIONS.... XPLO VIWS N PRTS LIST.... PKING.... XTRIOR STION.... MP STION RONT PNL STION LOR SSY.... Traverse Mechanism ssy-s.... K MHNISM SSY.... LOK IGRM N SHMTI IGRM.... LOK IGRM.... OVRLL WIRING ONNTION IGRM and LO SSY VM SSY (/).... VM SSY (/).... I SSY (/).... I SSY (/).... I SSY (/) I SSY (/)....9 SP SSY....0 KY, L and ISPLY SSYS.... HP/MI SSY.... MP SSY POWR SSY (/).... POWR (/) and TR SSYS.... POWR SSY (/).... POWR SSY (/).... WVORMS P ONNTION IGRM.... LO SSY.... VM SSY.... I SSY.... KY, L and ISPLY SSYS.... MP SSY POWR SSY.... HP/MI and TR SSYS.... SP SSY.... P PRTS LIST JUSTMNT.... K STION..... JUSTMNT ONITION..... PLYK and RORING STION V STION JUSTMNT ITMS N LOTION JIGS N MSURING INSTRUMNTS NSSRY JUSTMNT POINTS TST MO MHNISM JUSTMNT GNRL INORMTION IGNOSIS TST MO ISPLY SPIITION O TH TST MO UNTIONL SPIITION O TH SHORTUT KY SPIITION O MOL INORMTION ISPLY UNTIONL SPIITION O TH SRVI MO SRVI TST MO MTHO OR IGNOSING GRTION O TH Ls ON TH PIKUP SSY V TROUL SHOOTING I NUMR N I T STTING SP TROUL SHOOTING ISSSMLY.... PRTS..... I.... XPLNTION..... SQUN TR POWR ON..... PROTTION IRUIT.... PNL ILITIS... XV-V000

5 . SPIITIONS mplifier section ontinuous power output: ront W per channel (khz, 0 % T.H.., Ω) enter W (khz, 0 % T.H.., Ω) Surround W per channel (khz, 0 % T.H.., Ω) Subwoofer W (00Hz, 0 % T.H.., Ω) isc section igital audio characteristics V fs: 9 khz, -bit Type. V system, Video /Super V system and ompact isc digital audio system requency response Hz to khz S/N ratio d ynamic range d Total harmonic distortion % Wow and lutter limit of measurement (±0.00 % W.PK) or less (JIT) assette deck section Systems track, -channel stereo Heads Recording/playback head x rasing head x Motor servo motor x Tape types Type I (Normal) M tuner section requency range MHz to 0 MHz ntenna Ω, unbalanced M tuner section requency range With 9kHz step khz to,0 khz With 0kHz step khz to,00 khz ntenna Loop antenna Miscellaneous Power requirements Multi voltage model /0-0/ 0 V (switchable), 0/0 Hz Power consumption W Power consumption in standby mode W imensions: V Tuner eck Receiver.... 0(W). (H) 0. () mm Weight: V Tuner eck Receiver kg ccessories (Stereo V Tuner eck) Remote control Power cord entral and South merican, Taiwan, Philippines, rgentina, Mexico models ll other models Power plug adapter (entral and South merican, US Military and uty ree models only) Video cord M loop antenna M antenna ry cell batteries (/R) Warranty ard (US Military and uty ree models only) Operating instructions Manufactured under license from olby Laboratories. olby, Pro Logic and the double- symbol are trademarks of olby Laboratories. TS and TS igital Surround are registered trademarks of igital Theater Systems, Inc. STNY/ON V/ TP M/M LIN V UIO SUTITL NGL ZOOM RONT SURROUN SP SURROUN VN X.OOM I KYON i KROK HO ISPLY MUT VOLUM ccessories Power cord (G) M ntenna (H00) Video ord (L =.m) (X0) Yellow M Loop ntenna (T0) ry ell atteries Remote ontrol (XX09) TOP MNU SYSTM STUP TUN + V MNU HOM MNU ST + ST NTR RTURN SOUN MO TUN /e / PROGRM RPT RNOM LR ST.MMORY MONO TIMR NTR TST TON H LVL 9 0 TV ONTROL HNNL VOLUM INPUT SHIT XV-V000

6 isc / content format playback compatibility This player is compatible with a wide range of disc types (media) and formats. Playable discs will generally feature one of the following logos on the disc and/or disc packaging. Note however that some disc types, such as recordable and V, may be in an unplayable format. See the isc compatibility table below for more information. V-Video V-R V-RW udio Video -R -RW ujicolor is a trademark of uji Photo ilm o. Ltd. is a trademark of V ormat/logo Licensing orporation lso compatible with KOK Picture This player supports the Iís Super V standard for superior picture quality, dual soundtracks, and widescreen support. VIO Super Video (Super V) XV-V000

7 . XPLO VIWS N PRTS LIST NOTS: Parts marked by "NSP" are generally unavailable because they are not in our Master Spare Parts List. The mark found on some component parts indicates the importance of the safety factor of the part. Therefore, when replacing, be sure to use parts of identical designation. Screws adjacent to mark on product are used for disassembly. or the applying amount of lubricants or glue, follow the instructions in this manual. (In the case of no amount instructions, apply as you think it appropriate.). PKING 0 XV-V000 or XV-V00 Yellow 9 Junction () PKING STION PRTS LIST Mark No. escription Part No. Label VRW NSP Getter Label See ontrast table () > Power ord G M ntenna H00 M Loop ntenna T0 NSP ry ell atteries (/R) VM0 Video ord X0 Operating Instructions (nglish) XR0 9 Operating Instructions (hinese)xr09 0 Remote ontrol XX09 Mark No. escription Part No. NSP Polyethylene ag Z-0 ront Pad XH Rear Pad XH Packing ase See ontrast table () Packing Sheet XHG00 attery over ZN9 () ONTRST TL XV-V00/LXJ/N and XV-V000/LXJ/N are constracted the same except for the following : Mark No. escription XV-V000/LXJ/N XV-V00/LXJ/N NSP Getter Label XX9 XX Packing ase XH XH XV-V000

8 . XTRIOR STION Refer to ". RONT PNL STION". O 0 J Q P Q T S R S R P H O N 9 G I J T G H K M L J 9 9 N Refer to ". 0 LOR SSY". 9 I 9 M L K Refer to ". MP STION". NON-ONTT SI ONTT SI XV-V000

9 () XTRIOR STION PRTS LIST Mark No. escription Part No. Mark No. escription Part No. SP ssy WX arrier X0 M/M TUNR Unit XX able arrier X0 POWR ssy See ontrast table () an arrier X0 I ssy See ontrast table () Tray ap XK0 > use (U) (.0/0V) RK09 onnet ase XZN9 P../0V X9 P../0V X0 P../0V X 9 P../0V X 0 P../0V X NSP V ssy XX0 NSP 0 LOR ssy VWT9 VM ssy WM9 daptor 0 L XNW0 daptor 0 R XNW0 NSP Label VRW9 NSP I Label ssy VXW00 Screw Z0P00NI 9 Screw PZ0P00NI 0 Screw PPZ0P00NI Screw X0 Screw onnector ssy PG0KK-0 Rear Panel See ontrast table () Push Rivet X0 9 Mecha arrier X0 0 Primary arrier X0 () ONTRST TL XV-V00/LXJ/N and XV-V000/LXJ/N are constracted the same except for the following : Mark No. escription XV-V000/LXJ/N XV-V00/LXJ/N POWR ssy XWZ0 XWZ0 I ssy XWZ00 XWZ00 Rear Panel XN99 XN XV-V000 9

10 . MP STION Refer to ". XTRIOR STION. " Refer to ".XTRIOR STION. " Refer to ". XTRIOR STION. " K I leaning paper G Refer to ". XTRIOR STION. H " Refer to ". XTRIOR STION. G " 0 9 Refer to ". RONT PNL STION. U " 9 NON-ONTT SI ONTT SI 0 XV-V000

11 MP STION PRTS LIST Mark No. escription Part No. TR ssy XWZ0 > Power Transformer (T) XTS099 NSP ord With Plug 0V0 P../0V X0 NSP MP Unit XXQ00 MP ssy XWK0 an Motor XXM009 T racket NG 9 an Plate NG NSP 0 Heat Sink XNH0 NSP hassis Hal XN0 MP Support XNG MP Support R XNG NSP Spacer 09 Rubber ushion X0 LG ushion R X00 inder Z-SK90K Screw Z0P00T 9 Screw Z0P00NI 0 Screw Z0P00T Screw Z0P0T Screw Z0P00T XV-V000

12 . RONT PNL STION Refer to ". XTRIOR STION. O " 0 V V W W G XV-V000 Only X 0 X 9 Refer to ". XTRIOR STION. P " Refer to ". MP STION. U " 9 Refer to ". XTRIOR STION. S " NON-ONTT SI ONTT SI Refer to ". XTRIOR STION. Q" H 0 Refer to 9". XTRIOR STION. R" Refer to ". XTRIOR STION. T " XV-V000

13 () RONT PNL STION PRTS LIST Mark No. escription Part No. Mark No. escription Part No. HP/MI ssy XWZ0 L Window XK0 ISPLY ssy See ontrast table () Tray ap XK0 KY ssy XWZ0 Timer Lens XK0 L ssy XWZ0 iffusion Sheet XK0 Vertical L XV0 UN. LT. ond. See ontrast table () NSP ord With Plug 0V0 P../0V X P../0V X 9 able ssy X0 0 K Mechanism Unit XYM09 GN Plate XNG Ratch Spring R H amper ssy X0 oor Spring R XH00 Leg ushion X0 Ratch Mold R XMR00 L Holder XMR09 inder Z-SK90K 9 MI Knob X09 0 L LT ond XK0 VOL. LT. ond. See ontrast table () ront Panel ssy See ontrast table () Pioneer Name Plate VM9 9 Operation utton X 0 Sub utton See ontrast table () Sensor over XK0 K Panel See ontrast table () K oor XN0 Main utton ssy See ontrast table () X.oon utton ssy XXG0 Screw PZ0P00NI () ONTRST TL XV-V00/LXJ/N and XV-V000/LXJ/N are constracted the same except for the following : Mark No. escription XV-V000/LXJ/N XV-V00/LXJ/N ISPLY ssy XWZ0 XWZ00 UN. LT. ond. XK Not used VOL. LT. ond. XK Not used ront Panel ssy XZN XZN0 0 Sub utton X X K Panel XK XK0 Main utton ssy XXG XXG XV-V000

14 . 0 LOR SSY Note : Refer to " pplication of Lubricant". Pickup leneses leaning liquid GM00 leaning paper G-00 Refer to ". Traverse Mechanism ssy-s". To VM N0 (Pickup) aifree GM0 To VM N0 (Stepping Motor) To VM N0 (Spindle Motor) Lubricating Oil GY To VM N0 0 Lubricating Oil GY LOR SSY PRTS LIST Mark No. escription Part No. NSP LO ssy VWG Traverse Mechanism ssy-s XX Loading Motor ssy VXX9 Mark No. escription Part No. rive Gear VNL9 SW Lever VNL9 lamper Plate 0 VN 9 ridge 0 VN 0 lamper 0 VNL99 lexible able (P) V00 onnector ssy P VKP loating Rubber V 9 elt V 0 Stabilizer VN Screw JGZP0T Screw V09 Tray VNL90 lamp Magnet VMG09 Loading ase VNL9 loat ase 0 VNL9 rive am VNL99 Gear Pulley VNL9 Loading Gear VNL9 XV-V000

15 pplication of Lubricant Lubricating Oil GY00 round the shaft No. Loading ase Lubricating Oil GY00 Lubricating Oil GY00 No. rive am Lubricating Oil GY00 Inner side of a ditch Lubricating Oil GY00 Inner side of a ditch Lubricating Oil GY00 Lubricating Oil GY00 No. rive am ront View Rear View No. Tray aifree GM0 oncave of unevenness No. Tray aifree GM0 oncave of unevenness Inner side of a ditch aifree GM0 Top View oncave of unevenness aifree GM0 ottom View Side of the rib aifree GM0 XV-V000

16 . Traverse Mechanism ssy-s Note : Refer to " pplication of Lubricant". Pickup leneses leaning liquid GM00 leaning paper G-00 Note : When part # is replaced, part # also need to be replaced at the same time. 0 To VM N0 (Spindle Motor) 0 9 Silicone dhesive GM0 To VM N0 (Pickup ssy) To VM N0 (Stepping Motor) NON-ONTT SI ONTT SI Note : Spindle screw () of No. is the screw which applied special bond. Therefore the adhesion becomes ineffective when takes it off once. Spindle screw is the part which cannot recycle. When part # is replaced, part # also need to be replaced at the same time. Traverse Mechanism ssy-s PRTS LIST Mark No. escription Part No. > 0S Pickup ssy-s OXX0 Spindle Motor N00 XM9 Guide Shaft VK L90 Sub Guide Shaft VK L9 NSP Joint VK NK Mark No. escription Part No. 0 Skew Screw VK Skew Spring VK H NSP Stepping Screw 0 Spindle Screw VK(for Service) Joint Spring VK K Stepping Motor VK XM0 NSP Mechanism rame VK NK0 9 Precision Screw VK 09 XV-V000

17 . K MHNISM SSY 0 9 ONTT SI NON-ONTT SI K MHNISM SSY PRTS LIST Mark No. escription Part No. Main elt 0- /R elt 9S- Plate H lk -9 Roller Pinch lk R - Roller Pinch lk L - Mark No. escription Part No. 9 able ssy X0 0 P../0V X lutch ssy lk -0 Motor Main lk -9 P ontrol lk - XV-V000

18 . LOK IGRM N SHMTI IGRM. LOK IGRM VRTIL lock iagram SPINL Motor Stepping Motor Load Motor M + - M + - 0S PU PlK UP SSY *SINGL IS MH N0 (P) LO SSY N0 (P) N0 (P) N0 (P) VM SSY TS RlVR I0 99S MHz K N I I0 MT9/-L system control MPG Video ecoder Video ncoder (withpictureontorol) Video (Progressive: MHz) udio ecoder - MPG JPG Viewer WM Playback RW Playback (VRmode with PRM) VIO RIVR 0 MP I0 MN IN-OUT N90 (P) R G V S SY 0 N90 (P) 0 N0 (P) N0 (P) r Y b V Y OMPONNT& OMPOSIT VIO OUT J0 S-VIO OUT N0 N0 (P) I0 M SRM OUT I0 M LSH ROM N0 (9P) TUNR MOUL N0 (P) LIN IN N0 UXL/ UXR TP K MH XYM09 TXL/ TXR YO XO Y UNTION X SLTOR I0 H0T (UH0) Lch Rch N0 (P) PL/ PR KL/ KR N0 (P) Y(Lch) X(Rch) Y X X Y SLO/ SRO UR I H SPINL/ SPINR TTNUTOR - d - 0d N0 (/) (9P) 9 IR I0 K OWNMIX SLO/SRO SP SSY I0 SPPV0 olbyigital ecoder olbyprologicii TS ecoder I0 K9 ch O LO/RO SWO O SLO/SRO N0 (/) (9P) 9 I SSY LP LP I0(/) H PSSIV LP I0 H I0(/) H PSSIV LP I0 H XV-V000

19 L SSY 0,09 - S0 OPN/LOS S0 MS-/RW KY SSY S0 PLY S0 MS+/ S0 STOP L SSY L ISPLY L RIVR J (P) J (P) J (P) IR SNSOR I0 GPUMXK0V S0-S0 S0-S0 J (P) G ISPLY SSY N0 (0P) N0 (P) N0 (P) MIROPROSSOR I0 P N0 (P) MIT MI T KY ONTROL I0 MP VOL R I0 9 RL/ RR J0 (P) H HP/MI SSY I0 H MI HO MI 9 I0 MP U9S MI J0 MI J0 I 0 H0T HPHON MP I90 NJMM N00 (P) J90 (P) HPHON JK J0 0 9 I MP SSY KL/ KR 9 N0 (P) 9 N0 (P) 9 L/R 9 SW SW -VOL I0 V 9 SL/SR L/R 0 SL/SR J NRW IRUIT I0 H I0(/) H I0(/) H I0 H POWR SSY 0 N0 (P) N0 (P) N0 (P) N00 (P) POWR MP MOUL LIN OUT N0 XV-V I0 - STK-0 ch Power mp 9 I0 STK-0 9 ch Power mp - K TR SSY 9 0 N00 (P) N0 (P) 9 0 J0 (P) SR SL J0 (P) N0 (P) N0 (P) J0 (P) L/R OUT SW OUT NTR OUT SL/SR OUT 9

20 9 9. OVRLL WIRING ONNTION IGRM and LO SSY Speaker for L/R Speaker for SL/SR//SW 9 0 J0 XK0 J /- J / J I MP SSY (XWK0) 0 9 P X0 POWR SSY (XV-V000:XWZ0) (XV-V00:XWZ0) H GN SRIN GN SLIN GN SWIN GN IN GN RIN GN SRIN GN SLIN GN SWIN GN IN GN RIN HP/MI SSY (XWZ0) J N00-00 OUT GNS SLOUT GN LIN MUT MUT RYS RYR XPROT HP T GN LIN MUT MUT RYS RYR XPROT N0 N0 HP T HP R HP R 0PYY00 SLOUT GNHP GNHP 0- HP L HP L VPR+ VPR+ VPR+ VPR+ SLOUT VL- VH- MISW GN MI V+V HOVOL J0 N0 N00 XKP0- XKP0 VL VL+ VP+ VP+ V- V- 0PYY00 SRIN SLIN V+ V+ IN 0 0 MI 9 9 MISW GN V+V SRIN SLIN IN SWIN RIN GN GNRG GNRG SWIN 0PYY RIN UN+V N0 J HOVOL N0-00 GN UN+V LIN LIN GN VPR+ VPR+ UN+V UN+V GN V+ -0 V+ VPR+ VPR+ SLOUT VL- VH- LOUT LOUT VL- VL- ROUT ROUT VL+ VL+ SWOUT SWOUT VH+ VH+ OUT OUT GNS SLOUT SLOUT GNP GNP SROUT SROUT VH- LOUT LOUT VL- VL- ROUT ROUT VL+ VL+ SWOUT SWOUT VH+ VH+ OUT GNP GNP SROUT SROUT VH- V+ V+ MUT MUT MUT MUT VP+ VP+ L SSY (XV0) L SSY (XWZ0) N N LT LLK VP+ LN LN GNL N V N VSS VL N J_ 0P P 0PYY N VP+ VP+ GNU LN RMOON TIMRL LN 0- GNL J N VL VSS N V N LLK LT N N PYY0 G KY GNU KY GNU J_ J KY SSY (XWZ0) NOTS: When ordering service parts, be sure to refer to XPLO VIWS and PRTS LIST or P PRTS LIST. The > mark found on some component parts indicates the importance of the safety factor of the part. Therefore, when replacing, be sure to use parts of identical designation. : The power supply is shown with the marked box. ISPLY SSY (XV-V000:XWZ0) (XV-V00:XWZ00) MUSIL MOVIL LLK LT GNL KY KY KY V X N0 SP SSY (WX) XKP00- MUT SPI SPO SPLK XSPRST SPSS USY SPHRQ SPMO IRO IRS IRRST IRRR XKP0- SLO GN SRO GN O GN SWO GN SLO GN SRO RMUT LO VOMG RO GN(IN) LIN GN(IN) RIN V+ N V+ GN GN IN GN IN GNU P XKP N LSH MIRO_P HLMS N N0 0 N0 XKP09- XKP0-0 XKP0- N0 N0 LSH / LSH O LSH LK XRST V+ GNU MUSIL MOVIL LLK LT GNL KY KY KY V+ VP+ GNU RMOON TIMRL MUT SPI SPO SPLK XSPRST SPSS USY SPHRQ SPMO IRO IRS IRRST IRRR SLO GN SRO GN O GN SWO GN SLO GN SRO RMUT LO VOMG RO GN(IN) LIN GN(IN) RIN V+ N V+ GN GN IN GN IN GNU 0 XV-V000

21 RYS RYS 0 0 N0-0 J0 VL+ VP+ V- VL+ VP+ V V+ XPROT V+ XPROT GNRG GNRG UN+V N0 N00 N PYY UN+V GNRG GNRG UN+V UN+V SROUT VL+ VL+ OUT GN RYR GN RYR 0 9 XKP0- XKP0 0PYY VH+ VH+ SWOUT KM00S N0 N0 0- N XXM009 VH- VH- SROUT VL+ VL+ OUT VH+ VH+ SWOUT GNS LOUT GNP GNP ROUT VH- VH- GNS LOUT GNP GNP ROUT VL- VL- L L GNM(V) GNM(T) GNM(V) GNM(T) VPR+M VPR+M VPR+M VPR+M GN GN GN GN VPR+ VPR+ VPR+ VPR+ V- V- GNTX GNTX K (XWZ0) V+TX V+TX V+ V+ TR SSY N0 J GNU V+ N MUT RYR RYS MUT 0 HP 9 SYSPOW VOLLK VOLT XHPMUT HPT SU XPROTT GN R 0 GN L GN SW GN SR GN SL GN GNU 0 9 P X V+ N MUT RYR RYS MUT HP SYSPOW VOLLK VOLT XHPMUT HPT SU XPROTT 0 GN R GN L GN SW GN SR GN SL GN 9 T TT00 S XKX00 N0 0V 0V 0V -PH-K-S IS VR 0V 00V 0V GN L H VR R H -PH-K-S N0 0V V N N N N N N N 0V l k j i h g f L XT00 RY XSR00 U H H XKP0 K e d c b a eck Shield Wire P X0 N N P-VH 0v 0v N N P-VH 0v 0v 0v 0v P-VH H L GN L H SU SU LIV NUTRL H L GN L H SU SU T * XTS N0 K0 I SSY (XV-V000:XWZ00) (XV-V00:XWZ00) /- / J0 N0 GNM SOL N PULS HL MO GNM(T) V+V R MOTOR 0 RR 0- N0 N TRKUP VMUT VT GN GN VK MT ST SLK XRY XVRST VPOWR GN GN OUT() GN GN GNM GNM VPR+M VPR+M VPR+ VPR+ VV VKN N0 N GN N GN GN N GN N GN N GN R GN GN G GN SY GN V GN S SPT VSL VSL SQUZ N 9 9 VK- KP9- VKN- N0 I LK O GN TXL +9V TXR VSM RS GN 0-9 N0 X P X P X P X9 P GNM SOL N PULS HL MO GNM(T) V+V R MOTOR RR N TRKUP VMUT VT GN GN K MT ST SLK XRY XVRST VPOWR GN GN OUT GN GN GNM GNM VPR+M VPR+M VPR+ VPR+ VV+ N GN N GN GN N GN N GN N GN R GN GN G GN SY GN V GN S SPT VSL VSL SQUZ N N90 I LK O TXL +9V TXR VSM RS GN IS TP K MH XYM09 TUNR MOUL VR VM SSY (WM9) /- / R H VR L H OS RTN OS RV TRKG RTN TRKG RV VSH GN L(0) P L(0) GN MP(0) M MP(0) VR(.V) OIG 0/0 V GN INSI V+S GNS H- H+ H- SPINL H+ MOTOR H- H+ INSI V+S GNS H- H+ H- ST+ ST+ 9 KN0 N0 SW V+ SW LO+ 0 S-PH-SM N VKN N0 KN0 N0 XX0 V MOUL P SW VKN- VKN- N90 V+ SW LO+ LO- N0 0 0 OS RTN OS RV TRKG RTN TRKG RV VSH GN L(0) P L(0) GN MP(0) M MP(0) VR(.V) OIG 0/0 V GN PIKUP SSY N0 LO- ST- ST- H+ H- H+ S-PH-K-S N0 LOING MOTOR SSY : VXX9 STPPING MOTOR LO SSY (VWG) LIN IN R LIN OUT R Y b r Video VIO/OMPONNT OUT S-VIO OUT XV-V000

22 . VM SSY (/) STPPING N0 MOTOR SPINL MOTOR PIKUP SSY N0 KN0 S-PH-SM (T) (T) () () (S) (S) (S) (S) (R) () () (T) (T) (S) (S) (S) (S) L river for L river for V TS RIVR () (T) () (T) (R) / (R) : R SIGNL ROUT () : UIO SIGNL ROUT(IGITL) () : OUS SRVO LOOP LIN (T) : TRKING SRVO LOOP LIN (S) : STPPING SRVO LOOP LIN (/V) : VIO SIGNL ROUT (R/r) : VIO SIGNL ROUT(R/r) (G/Y) : VIO SIGNL ROUT(G/Y) (/b) : VIO SIGNL ROUT(/b) (S_Y) : S VIO SIGNL ROUT (S_) : S VIO SIGNL ROUT XV-V000

23 / VM SSY (WM9) / / (R/r) (/b) (/V) () (G/Y) (S_) (S_Y)! / XV-V000 /

24 . VM SSY (/) / VM SSY (WM9) / () / / / XV-V000

25 .V Regulator V Regulator () N0 V Regulator.V.V Regulator /.0V.V.V Video river mp N (S_) (/V) (S_Y) (S_) (/V) (G/Y) (/b) (R/r) (S_Y) (G/Y) (/b) (R/r) G R N0 N / N N N N () (/V) (R/r) (G/Y) (/b) (S_Y) (S_) : UIO SIGNL ROUT : VIO SIGNL ROUT : VIO SIGNL ROUT(R/r) : VIO SIGNL ROUT(G/Y) : VIO SIGNL ROUT(/b) : S VIO SIGNL ROUT : S VIO SIGNL ROUT XV-V000 /

26 . I SSY (/) XV-V000 XV-V00 N9 N90 N0 / /, / N90 XV-V000

27 / I SSY (XV-V000:XWZ00) (XV-V00:XWZ00) G N0 K MH TUNR MOUL / / () : UIO SIGNL ROUT /, / (TXL) : UIO SIGNL ROUT (TXR) : UIO SIGNL ROUT XV-V000 /

28 XV-V000. I SSY (/) SPINR SP SLO SRO TXL TXR SPINL (/) (/) GN (VO) (VO) GN (SL) GN GN (SL) PL PR UXL LIN IN R TT d TT 0d (SL) UNTION SLTOR (UH0) VSS V INH Y X0 X Y Y(Lch) X(Rch) X V X Y Y0 /W UXR L LIN OUT R L /W 0/0 -TS k k V- V- 00k.k H 0.0 RTPM.k RTPM 00k 0k S0(QR) S0(QR) 0k 0 0/0 0k 0k k k 0/0 -TS V+ V+ 0/0 GN 0/0 0p 0 V+ S0(QR).k S0(QR) H.k 0 0/0 H0T GN V- 0.0 / MTZJR() V- MTZJR() TS k 0p 0 0p 0k (/) IMX9 K0-0p 0k (/) IMX9 0/0.k 0.0 / TS k V+.k V+.k.k 0/0 R0 R0 R0 R0 R R R0 I 0 0 Q R R Q R 0 R 9 Q R R R0 R R R9 Q 0 R0 R0 0 R0 R R R0 Q R I R Q R I R R0 R0 R0 R Q0 R N0 R Q R90 R 0 R R R 09 (I/O) SP U-OM V- V+ V+ GN / (UX) (TX) (T) / / / (UX) (TX) (TX) (UX) (T) (T) /,

29 NOTS LL PITORS R IN µ UNLSS OTHRWIS SPII H : SRH (OTHR : KSR TY : TY L : L (OTHR : T) LL RSISTORS R IN R/PU***J RS/S***J LL IO :M :SS MI SW GN H J0 MI V+ HOVOL / I SSY(XV-V000:XWZ00) (XV-V00:XWZ00) V+ N0-00 V+ V00- V- 0 M RTPM Q0 R k HP R0 0 V+ R0 0k Q0 RTNM GN (MIT) S R R M M Q0 SJ0 (GR) G R K (MI) 0./0 HNT U-OM R k R k R k H 00p / V+ L0 Q0 ONT ONT ONT KYOWN KYUP LKO ST SK 9 STRO 0 KY KY R GN Vcc SX(QR) I0 MP KY ON MO MO INT OUT INT IN INT OUT INT IN LPIN LPOUT HPIN 0 HPOUT 9 LPIN LPOUT MIX IN MIX OUT 0 00p R 0. k 0. 00p 0p R0 0k 9 R0 00p.k R0 R0 k.k 0 000p R.k R0 0k H R09.k 0.0 V+ R0 0k R0.k R0 0k R0 0k 0 / R0 0k 0.0./0 MI IN LOUT 0./0 09./0 0 R 0 /./0 LIN I0 SW SW VOL R ROUT RIN R0 k R0 k R0 k 0./ R k /W 0/0 R 0 / MTZJR() 0.0 Gain for I0 input -.d GN (VO) R0.k R0 0 R0 0 R0.k (R) (L) (R) KL RL (L) R L RR KR R0 k R0 () LVLIN I0 H - (/) + L SPTRUM INITOR V+ 0 0K 0/0 R0 0k 0/0 R0 0k 0/0 (L) (R) R I0 (/) H - + V (L) (R) () : UIO SIGNL ROUT (L ch) : UIO SIGNL ROUT (UX) : UIO SIGNL ROUT (ront L ch) : UIO SIGNL ROUT (ront R ch) : UIO SIGNL ROUT (enter ch) : UIO SIGNL ROUT : UIO SIGNL ROUT XV-V000 (TX) (T) / 9

30 . I SSY (/) / / 0 / / XV-V000

31 / N90 / I SSY (XV-V000:XWZ00) (XV-V00:XWZ00) VIO/OMPONT S-VIO / N00 J J / N0 (R) : UIO SIGNL ROUT (ront R ch) (L) : UIO SIGNL ROUT (ront L ch) () : UIO SIGNL ROUT (enter ch) (SR) : UIO SIGNL ROUT (Surround Rch) (SL) : UIO SIGNL ROUT(Surround Lch) (SW) : UIO SIGNL ROUT(Sub Woofer ch) XV-V000 /

32 XV-V000. I SSY (/) RO XTUT IS RMUT P/XR L:L***M##-* (OTHR : T***M##) M:QM*** OTHR:KSRY*** Y:KSRY*** TS:*****M##-TS JQ:JQ***M##-* UNLSS OTHRWIS SPII LL PITORS R IN µ NOTS H:SRH*** 0KHz V00- (/) YKR-N (/) IS OST IS OS. H:QH*** M:QM*** Not onnected R Q MP R LVL dj. R LVL dj. TP P LVL dj. TS Rch Lch P LVL dj. -.dv P MP TS L0 R0 R0 R0 Q L0 R R L0 Q Q 0 0 R0 Q0 Q R09 Q 0 W9 R 0 I0 0 I S G - + S G - + /0 0 R JQ.K S0 Q0 (Y/GR) 0p/00 09 K GNM(T) R JQ 0 /0 R900 S(YGR) Q0 00P/00 H 0 0 JQ /0 0 VR 0 LJ 0.mH RT0 R9 0K R0 L0 0 S(YGR) 00P Q0 M PP0 00K- VR0 0 M 0.0 M 0K R0 PP0 00K- VR0 00P 0 (/W)VM. M 00P 0 S(YGR) Q0 K K R0 / 0 R R09 K Q0 R0 R0 0 Q0 (/W)VM VM+ k R GN R R.K.K RT00 0mH L0 k R /0 0 k GN H I0(/) p 0 H M R 0P 00P V+V / /0 0.mH R K 00P 0.0 k M SK Q 0 R k R 0.k R SK Q R.k k R M k H 0P 00P M 0mH L0 k R 0 R.mH /0 k R 00P /0 K R 0 R99 R RT00 k p GN H I0(/) RTPM RTNM 0 0 SK(YGR) Q0 0 R0 0K V+V N0 -PH-K-S 0P H M R0 0 0 TTK Q0 0p 0 0 /0 V+V R0 0 K R0 RTNM RT0 M.k R R0 R9 R 00K 0P PP0.k- VR0 SK(VW) Q 0K /0 H M 0.0 Q0 R RTPM V+V Q0 M 0.0 R R 00K SK(VW) Q 0K R R9.K RT0 R99 M JQ /0 0 PP0.k- VR0 0 R0 0P K R0 H /0 RTNM K R / H I0(/) 000p 0K R0 R0 0/0 0 R0 K.K- PP0 VR0 0 R900 00P M 0 0 R /0 0 R0 Q0 /0 0 00k R./0.k R 00P / 0.0 H 0/0 0 0 k R GN R R0 H R0 0K M TTK Q0 -PH-K-S N0 0P 0 Q0 SK(YGR) 0p 0 / R 00P 0 M R09 PP0 VR0.K-./0 R 00k.k R0 /0 R0 0K K R0 Q0 0/0 0 H I0(/) R9 0 00P 0 k R09 0/0 0 H / (T) (T) (R) (L) (L) (R)

33 MS /0 L I0(/) R H 00 GN R0 p./0 K R9 R L 9K 00 R 0P H R M 0K R 00K R 0K SS-T M 0K R 0K R900 P TST POINT 0. -.dv TP GN (T) (T) N0 P-SH- R.9K R.9K / I SSY(XV-V000:XWZ00) (XV-V00:XWZ00) R R K K V+V./0 SK Q (VW) SK Q (VW)./0 R.K R R.K R R.K GN V+V Q RTNM (T) (T) -.0dV PL PR 0 R9 0 00/ VR V+V R R R R K - + I0(/) H 0.0 R9 0K p 09 0K M R0 0K M R 00k L R 00 M M /0 R M Q S0() R K R.K R Q K RTNM Q S() GN MTZR() 0/ 9 0 H I0 GN (L) (R) H I0 (/) k (/) - R k 00P 00P R 0 R.k R.k 9./0./0 00P Q S0() 00P Q S0() (L) R.k R K R K R.k (R) R0 R0.k.k R0 0 k 0/0 R0 R0 R0 k 0/0 KL KR 0 L O -.d L ON -9.0d XPMUT K / V+V VM+ V+ GN GNM(T) GN GNM(T) GN(SL) / I/O VM+ GN LL RSISTORS R IN UNLSS OTHRWIS SPII /W /WPU LL OILS R IN µh UNLSS OTHRWIS SPII LU***J LL IOS R SS UNLSS OTHRWIS SPII SS M MTZJ*** (L) (R) (T) : UIO SIGNL ROUT (ront L ch) : UIO SIGNL ROUT (ront R ch) : UIO SIGNL ROUT XV-V000 /

34 .9 SP SSY SP SSY (WX) () N9 / N0 XV-V000

35 (V) () () : UIO SIGNL ROUT(L ch) : UIO SIGNL ROUT(V L ch) : UIO SIGNL ROUT(IGITL) : UIO T SIGNL ROUT (L) (SL) () (SW) : UIO SIGNL ROUT(ront L ch) : UIO SIGNL ROUT(Surround L ch) : UIO SIGNL ROUT(enter ch) : UIO SIGNL ROUT(Sub Woofer ch) N0 () () () () (SL) (sw) () (L) / N0 (V) (V) () () () () () () () N90 / N0 XV-V000

36 .0 KY, L and ISPLY SSYS NOTS LL PITORS R IN µ UNLSS OTHRWIS SPII H : SRH (OTHR : KSRY) TY : TY L : L (OTHR : T) LL RSISTORS R IN LL IO R/PU***J RS/S***J :M :SS R R 0 0 NSPW0S-90 KY SSY (XWZ0) Switches KY SSY S0 : 0 (OPN/LOS) S0 : (PLY) S0 : (STOP) S0 : (MS /RW, TUNING ) S0 : (MS+/, TUNING +) L SSY (XWZ0) R 9 R9 0 /W UZSR() R 0 Q9 R 0 NSPW0S NSPW0S-90 S0() R0 UZSR() UZSR() L SSY (XV0) R0 R0 R0 R0 09 Q0.K.K.K K S0 OPN/LOS S0 PLY S0 STOP S0 MS-/RW S0 MS+/ NSP0S-0 (lue) R 90 R9 90 UZSR() R0 NSP0S-0 (lue) S0() L L HOLR XMR099- UZSR() GNU R J_ 0PYY0 0PYY00 N VL VSS N V N LLK LT 9 N 9 0 N J_ VP+ LN LN GNL GNU KY Switches ISPLY SSY S0 : X.OOM S0 : RONT SURROUN S0 : SOUN MO S0 : KROK S0 : NTR S0 : RVRS MO S0 : R STOP S0 : SS 90 N J J R L0 R GNU V+ MUSI/MOVI RONT SURROUN SOUN MO KROK NTR RVRS MO R STOP SS Q0 S0() R p Y 0 0 / L-TS 0 0. Y S0 S0 S0 S0 S0 S0 S0 S0 0 0p H R p H GNU.k k.k.k.k.k.k R0 R0 R0 R0 R0 R0 R0 R0 0 W9 R R M M.K GNL VP+ G XV-V000

37 N0 0- / N0 TIMRL RMOON GNU VP+ V+ KY KY KY GNL LT LLK MOVIL MUSIL 0 9 G ISPLY SSY (XV-V000:XWZ0) (XV-V00:XWZ00) VP+ V+ 0 R 0 R0 (GRN) SLR-M(NPQ) 0 Q0 RTNM (ORNG) (LU) SLI-W(STU) SLR-T(GHJ) 0 R 0 R.k R.k R Q0 RTNM.k R.k R Q0 RTNM.k R.k R.k.k R9.k R0 W XV-V000 ONLY UZSR() UZSR() R0 0 /W 0 0 NSPW00S- NSPW00S- (WHIT) (WHIT) R0 R0 R0 R0 R0 R0 k.k.k.k.k.k GNL S0 STNY/ON S0 V/ S0 TP S0 TUNR S0 UX S0 VOL- S0 VOL+ Switches ISPLY SSY S0 : STNY/ON S0 : V/ S0 : TP S0 : TUNR S0 : LIN S0 : VOLUM + S0 : VOLUM Q0 S0() R L OVR (X): XMR0- L USHION (X): X /0 L-TS R0 k R09 I0 GPUMXK0V VOUT V GN GNU XV-V000 G

38 . HP/MI SSY NOTS LL PITORS R IN µ UNLSS OTHRWIS SPII LL RSISTORS R IN UNLSS OTHRWIS SPII. H:SRH*** (OTHR:KSRY***) RS/S***J R/PU***J JQ:JQ***M##-TS L:L***M##-TS OTHR : T***M## IOS MTZJ*** MI MI LL INUTORS R IN µh UNLSS OTHRWIS SPII. LU***J J0(SU) XKN0- J0(MIN) XKN0-00p H 00p H R.k R.k R MI MP./0 JQ-TS 000p 9k (MI) - (/) + I0 H 9.d Q0 RTPM MI TT R9 0 9 R 0k H R0 V+V./0 JQ-TS VR0 XS00 R 0. R9 0 / JQ-TS R./0 JQ-TS R k (MI) R.k 0. Y 9 00p R.k 0.0 H 0. GN J 00W HPHON JK J0 KN00- R9 L90 T99 (L) R R90 R90 (L) HP L (R) R9 R90 (L) (R) H L90 R90 T99 R909 GNHP XV-V000

39 H HP/MI SSY (XWZ0) (MI) MI SW GN MI N0 V+V / H I0 + (/) - R R0 k R HOVOL J PYY00 R.k./0 JQ-TS R k 00p GN./0 JQ-TS (MI) /0 JQ-TS R0.k R09 0k R0 k / 09 L-TS (MI) GN HO VR IS INT IN INT OUT LP IN MI HO I0 U9S R MUT Vcc INT IN INT OUT LP OUT LP OUT LP IN 0 MI OUT MI IN 9 JQ-TS Nossign./0 0 R p 9k R0 0k R0 R0.k 0k R0 0k 0. R0 (/W) L0 R / JQ-TS MTZJ. R (R) (L) PYY00 J90 HPT HP R GNHP HP L N00 / J (L) : UIO SIGNL ROUT (ront L ch) (R) : UIO SIGNL ROUT (ront R ch) (MI) : UIO SIGNL ROUT XV-V000 H 9

40 . MP SSY N (SR) (SL) K N0 K N0 N00 N00 (SW) (L) () (SL) (R) (SR) () (SW) (R) (L) 0 I XV-V000

41 I MP SSY (XWK0) : Refer to ".. PROTTION IRUIT. Search :. Normal : 90m (SR) () (SL) (SW) (R) (L) (L) : UIO SIGNL ROUT (ront L ch) () : UIO SIGNL ROUT (enter ch) (R) : UIO SIGNL ROUT (ront R ch) (SW) : UIO SIGNL ROUT (Sub Woofer ch) (SL) : UIO SIGNL ROUT (Surround L ch) (SR) : UIO SIGNL ROUT (Surround R ch) XV-V000 I

42 XV-V000. POWR SSY (/) 0-00 GNMV GNMT UNV GN GNU VL+ VL- VH+ GNRG GNP V+ VH- GNTX GN GNS XHPMUT HPT RYR RYS HP SYSPOW _LK XHPMUT _T ONTROL HPT SU XPROT HP HP _LK _T W I90 90 R9 909 R9 9 R9 R9 90 R9 R9 Q909 R90 R9 9 R R9 R9 R99 R90 R90 R9 Nossign Nossign N R9 R9 J I90 R09 R R9 9 9 R90 R9 R90 R9 R9 9 R9 R9 Q90 Q90 90 R90 0 R 90 R R0 R W W 0 R9 R0 R0 R R I0 R KN00 N0 9 9 I9 W GNMT GNMV V+ V+ NJMM VPR+M VP+ GN H p 9k.k / k 0/0 GN k k V- NP V- S(QR) 0 V+ k / 9k H 0/0 0/0 (/W) 00k (/W).k.k p VPR+ GNTX V- / 9k.k V+ V+TX NJMM H p GNMV GNMT GN UNV VH+ VL- GNU GNU V+ VL+ V+ VH- GNP 0 GNRG 0/0 0/0 0/0 00p 0. H 00p 0/0 9k 0. 00k 0/0 0 (/W).k.k IMX9-T / NP V- P0K IMX9-T (/W) V- V+ UZSR GN /W PM 0 0/ p 0k GN 0 UZSR 0 V+ 0. /W PM 0 0/0 V+ k k H 00p H 00p 00p p k.k W 0 W V 0 GNTX GNS GN 0/0 0- V+ / V+ V+TX GNRG VP V+ V+ GNM(V) GNM(T) VPR+M VP+ HP MP GN VPR+ GN VPR+M TS (/) TS MUT HP TS IMX9-T Q90 (/) HPT HP R GNHP HP L V+TX V+ GNTX VPR+ V- TS TS 0PYY GNU V+ N MUT RYR RYS MUT HP SYSPOW VOLLK VOLT XHPMUT L HPT SU XPROTT GN R GN TS TS TS TS IMX9-T Q90 (/) (/) (/) TS (/) TS TS -VOL V(-V) LIN GN NR TNL TNR RIN GN NR NL IN GN LOUT NL SLIN GN ROUT OUT SRIN GN SWIN SWOUT SROUT SLOUT OUT GN GN GN INN INP T MUT GN OUT GN LK INN INP V(+V) GN GN SW GN SR GN SL GN RS/S***J TS OUT /w R/PU***J /w R/PU***J LL RSISTORS R IN L : L TY : TY H : SRH (OTHR : T) (OTHR : KSRY) :M :SS NOTS UNLSS OTHRWIS SPII LL PITORS R IN µ LL IO IN J / () (SL) (SW) (R) (L) (HPL) (HPR) N0 N0 H J90 / / (SL) (SR) (R) (L) (R) (L) (R) ()

43 (SW) R R 0k 0 9 R.k (L) NRW 0 0 R R 0.0 R 0.0 SW LP 00p R 00p R.k 0. (SL) R.k R9 00k R0 00k (SR) R.k SW fc=00hz R 00k (SW) R0.k R0.k R 0k TY R R9 R0 H I0 (/) (L) +.d R9.k R0.k +.d (/) R I0 H R0 V- 0k d (/) I0 H R 0p Nossign W H I0 (/) R 0k R0.k R09 R0 0.0 R0.k R0 R R V+ V- () R0 9 0/0 TS 9 / / V+ 90 0/0 TS R0 R.k R.k R R R R 0 k 00p (/) R0 I0 0k H R 9 0. R0 R9.k R R 0k k 00p R R9 0.0 R 0.0 R 0k R R 0k V+ R 0 R0 R0 00p + R R - 0k R I0 (/) H R R0 J / POWR SSY NRW 0 R 0k R R.k.k 9 V+ R I0 H (/) 9 9 H (R) R.k + - R 0 R R - + R R R R R.k R9.k.k W 0 W 0 R R SR V J () (SL) SL / J (SR) SIGNL (XV-V000:XWZ0) (XV-V00:XWZ0) /-/ VPR+ R (SW) SL SR SW L ONTROL V+TX XPROT RYR RYS V- V+ N0 N0 V+ UNV V+ GNRG (SL) GN (SR) () VH+ (SW) (L) GNS (R) 0- XPROT RYR RYS MUT MUT LIN GN RIN 9 GN 0 IN GN SWIN GN SLIN GN SRIN GN -0 VPR+ VPR+ VL+ 0 VP+ 9 V- VL- SLOUT VL- N0-0 SROUT VL+ VL+ OUT 0 VH+ 9 SWOUT GNS LOUT V+ GNRG UN+V UN+V GN VH- VH+ GNP GNP ROUT VH- K N0 K J0 K J0 VL- VL+ (SW) W99 TY TY 9 00p R.k I0 (/) H H p R k + - R0 0 9 R 9 0. R0 V- (SW) VH- () I0 K0 GNP (L) (R) (HPL) (HPR) : UIO SIGNL ROUT (ront L ch) : UIO SIGNL ROUT (ront R ch) : UIO SIGNL ROUT : UIO SIGNL ROUT () (SL) (SR) (SW) : UIO SIGNL ROUT (enter ch) : UIO SIGNL ROUT(Surround Lch) : UIO SIGNL ROUT(Surround Rch) : UIO SIGNL ROUT(Sub Woofer ch) UTION : OR ONTINU PROTTION GINST RISK O IR. RPL ONLY WITH SM TYP NO. 900 M, Y LITTLUS INK. OR I0 (K0). XV-V000 J /

44 XV-V000. POWR (/) and TR SSYS ONTROL GNRG RTGN GN VH+ V+ V+ SIGNL HP RY- RY-R XPROT SL SR SW R L TS TS UMN RN90 (/0W) (/0W) (/0W) (/0W) (/0W) SP HSSIS (/0W) (/0W) (/0W) (/0W) SR SL L SW (/0W) (/0W) R (L) ( PINS) R Q Q9 R R R R R Q R Q0 Q R R9 Q Q Q Q Q R9 R Q R R R R R Q R R R Q R R R R Q R R R 0 0 R0 Q0 R0 Q R R Q R R L R R RY L Q R R R R R R R R R R 9 R R L Q R Q R R L R RY R R R R 0 9 R R J0 R0 R0 R0 Q0 0 R0 R0 R0 R L R R L RY MTZJR.k SS SS S0(QR)./00 S0(QR) S(QR) k N0K /W.k k /W.k V+ SS k S0(QR) 0/. 0k 0/0 RTNM GN k RN90 RN90 RTPM VH+ M k 0.0 k M S0(QR) P0K.k N(W) M S0(QR) k 0. k.k k GNRG N(W) M S0(QR) k 0. RTGN.k N(W) M k 0. P0K GN k S0(QR).k N(W) k V+ M M k 0. S0(QR) P0K k (/W)PM 00 TH (/W)PM TH V XG (/W)PM. TH (/W)PM. 00 RTGN 0.0 GNRG TH XG XG GN XK0 VH+ k.k N(W) S0(QR) 0. k V+ N(W).k 0. (/W)PM 00 TH XG00 (/W)PM TH VL XG00 XG00 (L) (R) (SW) () (SR) (SL) J / J / POWR SSY(XV-V000:XWZ0)(XV-V00:XWZ0) (SL) (SL) (SW) (SW) (L) (L) / J / J SPKR for SL/SR//SW (R) () (SR) (SR) : Refer to ".. PROTTION IRUIT"

45 K TR SSY(XWZ0) N0 0- N00 I N00 I N0 XKP0- XKP0- RYR GN UN+V UN+V GNRG GNRG XPROT V+ V- 9 VP+ 0 VL+ RYS MUT MUT VPR+ VPR+ LIN GN RIN 9 SWIN 0 IN SLIN SRIN VH- VH- SROUT SROUT N0 (L) (SW) () (SL) (SR) (R) (SR) XPROT RYR RYS MUT MUT LIN GN RIN 9 GN 0 IN GN SWIN GN SLIN GN SRIN GN UN+V UN+V GNRG 9 VH+ 0 VH+ J PYY GNP GNP (SL) 9 V- SLOUT 0 VP+ SLOUT VL+ GNS 9 () OUT 0 VPR+ OUT VPR+ VH+ VH+ (SW) SWOUT SWOUT VH- VL+ VH- VL+ ROUT (R) ROUT ROUT 9 GNP VL- 0 VL- GNP LOUT (L) LOUT LOUT GNS SWOUT VL- VL- SLOUT GN V+ OUT N0 N0 N0 J / J / J / LL RSISTORS R IN RS/S***J RS/0S***J (/0W) R/PU***J RSLM***J (W) R/PM***J PM(/W) R/PS***J U(/W) NOTS LL PITORS R IN µ UNLSS OTHRWIS SPII H:SRH (OTHR: KSRY) QM M T VL+ VL+ SROUT J PYY (L) (R) () (SL) (SR) (SW) : UIO SIGNL ROUT (ront L ch) : UIO SIGNL ROUT (ront R ch) : UIO SIGNL ROUT (enter ch) : UIO SIGNL ROUT (Surround Lch) : UIO SIGNL ROUT (Surround Rch) : UIO SIGNL ROUT (Sub Woofer ch) K XV-V000

46 . POWR SSY (/) J / POWR SSY (XV-V000:XWZ0) (XV-V00:XWZ0) XTS099- T * J / N H L GN L H SU SU GRY RN LK RN GRY LU LU * N P-VH N P-VH ONTROL.V.V V+ GNU V+ GNU V+ 0.0 R 0k N SU SYSPOW XPROT J / UN+ IN PROTT I0 NJMM RY Q XSR00 S0(QR) /0 0/0 TS SX(QR) R Q k R R R9 k R 9.k UZS0() 0 SN / T TT00 9 0V V N 0V 0V N N 0V GNU V+ V00- R9 R90 k 90 Q RTPM J / XV-V000

47 PRIMRY PRT H-H: U U W W0 W W d c b a S XKX00 H H H H W W W9 W W W W W h g f e l k j i 0V/0V-0V/0V-V W W W0 W0 W0 W 00V N N 0V 0V N N 0V W0 W W0 W09 XSR00 RY W W W W L XT00 RK09 (.0/0V) H,H:KR00 U H R RN00 KN VN0 H HSSIS GN N XKP0 LIV NUTRL OR ONTINU PROTTION GINST RISK O IR, RPL WITH SM TYP N RTINGS ONLY NOTS LL PITORS R IN µ UNLSS OTHRWIS SPII T***M## KSRY LL RSISTORS R IN UNLSS OTHRWIS SPII RS/PU***J RS/S***J IO SS M NOT OR US RPLMNT UTION - OR ONTINU PROTTION GINST RISK O IR. RPL WITH SM TYP N RTINGS O US. MTZJ*** LL VOLTG'S T POWR ON ONITION XV-V000 J /

48 . POWR SSY (/) J / POWR SSY(XV-V000:XWZ0) (XV-V00:XWZ0) T XTS099 V00- I I I P-VH N H L I GN L H SU SU NOTS LL PITORS R IN µ UNLSS OTHRWIS SPII Y : KSRY (OTHR : KSRY) LL RSISTORS R IN /W /WPU M : QM L : L (OTHR : T***M##) IO SS M J / XV-V000

49 SRW:Z0P00T HT SINK:XNH00 S0() 90 QMK R90 90 QM0K 90 R / XH0 90 VL+ - 0V 00/ XH0 00/ XH0 00/ XH0-0V + S0() VH+ VL- VH- SRW: HT SINK: 0.V 0.V GNP / J GN RTGN ONTROL 0 00 GNMT GNMT GNMV GNMV RTGN RTGN GN GN GN GN GNS GNS GNP GNP VL+ GN GNTX GNS UNV VL+ 90 * - + S0() 00/ V VL- VL- VH+ I() K0- TU:N00 VH+ UTION : OR ONTINU PROTTION GINST RISK O IR. RPL ONLY WITH SM TYP NO. 900 M, Y LITTLUS INK. OR I (K0). GN GNMT GNMV VH- VH- UNV UNV GNTX GNTX XV-V000 J / 9

50 . WVORMS Note : The encircled numbers denote measuring point in the schematic diagram. VM SSY Measurement condition ; No. to 0 : reference (V), T-chp 9, olor-bar No. to : reference (V), T I0-pin [G] V: V/div. H: msec/div. GN I0-pin 9 [TROPNPWM] V: V/div. H: µsec/div. [Tray stops] [Tray is opening] [Tray is closing] GN GN GN I0-pin [MSO] V: V/div. H: 0µsec/div. V: V/div. H: 0µsec/div. V: V/div. H: sec/div. [TRY OPN] [V PLY] [MSO] GN GN PLY Pless OPN key Tray : opening Pless PLY key GN raking a turn of disc N0-pin, 0, 9 (I0-pin,, ) [SPINL (WVU)] V: V/div. H: msec/div. I0-pin [SPI UIO IGITL SIGNL] V: V/div. H: 00nsec/div. GN GN I0-pin [ompositevideo Out] V: V/div. H: 0µsec/div. 9 I0-pin [S VIO OUT - Y] V: V/div. H: 0µsec/div. 0 I0-pin [S VIO OUT - ] V: V/div. H: 0µsec/div. 9 GN 0 9 GN 0 GN 0 XV-V000

51 . P ONNTION IGRM NOT OR P IGRMS :. Part numbers in P diagrams match those in the schematic diagrams.. comparison between the main parts of P and schematic diagrams is shown below. Symbol In P iagrams G S Symbol In Schematic iagrams G S G S Part Name Transistor Transistor with resistor ield effect transistor. The parts mounted on this P include all necessary parts for several destinations. or further information for respective destinations, be sure to check with the schematic diagram.. View point of P diagrams. onnector P..oard apacitor hip Part SI SI Resistor array -terminal regulator. LO SSY SI N0 LO SSY LO VNP- S0 VWG9- VWG VWG- N0 (VNP-) LO SSY PN- (VNP-) GN 0 0 SW (V+) V+ N0 LO+ LO- N0 SI N0 N0 N0 N0 N0 M LOING MOTOR SSY XV-V000

52 . VM SSY SI VM SSY N0 OTTOM SI UP SI SI To STPPING MOTOR To SPINL MOTOR OTTOM SI UP SI N N90 N0 Y GN L R R R R R R R R R R 0 R R0 R 9 Q L R R R R9 0 0 R I0 90 R9 R N0 R Q Q R0 V Q0 0 R0 I I.V V V R N90 GN R R0 R9 R R R R / Q0 R0 R R00 00 R.V R0 R L R R R R R90 I R R 9 R R I 0 R R R90 Q R I0 9 R R90 R.V R 0 R R R R R R0 R R GNM R9 R R R Q0 0 R0 0 R R 0 0 R0 R0 R0 R0 0 R R N0 R 0 R R R 0 R R09 0 R R9 R90 R90 R90 R90 R90 0 L_ R.V R9 0 R0 9 R0 R909 0 L R R R0 R R9 R9 R R9 R9 L0.V Q0 Q0 R R R R R Q0 R L_V 0 R I0 R R R R R0 0 R9 0 0 R0 09 R9 R9 R9 X0 R9 0 0 R9 R R R R R N0 R R R0 R0 N0 0 N0 R Q0 R R R R R R R 9 R0 R R R R I9 R 9 Q0 V R R R0 R R R 0 R0 0 GN V R R0 R0 R0 0 R R Q 9 GN R Q Q GN 9 Q R Q0 R I0 R R R9 Q0 Q0 Q R 00 R9 L V N0 R I R Q R R Q 9 R Q 09 R9 R R9 R R R R9 R R 0 R0 R0 R GN R R R R L R9 R R R R9 R R R R09 R0 R0 R Q N90 R UP SI R R Q R I R Q0 R0 Q R R9 R9 R Q0 Q0 N90 UP SI (NP-) To PIKUP SSY N0 N90 N0 0 X N0 XV-V000

53 R0 R0 L R R R R R0 R9 R90 L90 VM SSY WM R R0 0 R9 IT PROUTION O 0 0 R0 R 0 Q N9 Q0 R00 R00 R0 R0 R00 R R R0 R0 0 R R 9 R R R R R R I 0 00 N9 R90 I0 9 9 R0 R R 9 R 0 R9 R R 0 0 R R R R0 0 R R R R R R R0 I0 R9 9 9 I0 0 R R SI VM SSY SI (NP-) 0 Y XV-V000 X

54 XV-V000. I SSY 9 9 X0 0 L0 0 0 N0 N0 9 N0 N N0 0 0 L0 0 I0 W N0 R L R R N0 Q0 0 0 R N0 N0 J0 W9 W W W W W W9 W W W9 W W W W W9 W W W W0 W00 W W0 W W W W W W W W W W9 W W W W W W W W09 W0 W W W9 W9 W9 W W W W9 W0 W9 W N0 W N0 W W W W W W W W Q0 W9 W W9 W0 W W W W W0 W0 W0 W W9 W W9 W W W W W W W W W W0 W W W W W W W9 W W9 W W9 W W W0 W W W0 W W W0 W0 W W W0 W W9 W W W9 W W W W W W W W W90 W90 W W W9 W9 W0 W9 W0 W W W W99 W W9 W W W W9 W W W0 W9 W W0 W W W0 W W W W0 W09 W W W W W W W W W W W W W0 W W0 W W0 W9 W9 W9 W0 W0 W W0 W0 W W W W9 W W00 W W0 W W0 W W W0 W9 W0 W W W W9 W9 W W99 W0 W W9 W0 W0 W W W0 W W W W W9 W ONTT.N...KY.GNU.PULS.VP+.MI.V+.HOVOL.RMOON.TIMRL.KY.MUSIL.MO.HL 9.LT.RR SI.V+.MI SW.GN.MOVIL.LLK 0.SY.KY 9.R.VPR+(M).GN.GN 9.GNM.GN.GN.OUT.VPR+(M) 0.GNM.GNM(T).V+V.GNU.GN.IN.IN.GN.GN.V+.N 9.V+.LIN.GN(IN).RO.VOMG.LO.RMUT 9.SRO 0.GN.SLO.GN.SWO.GN.O.GN.SRO.GN 9.SLO.RIN.GN(IN).IRRR.IRRST.IRS.IRO.SPMO.SPHRQ.USY.SPSS 9.XSPRST 0.SPLK.SPO.SPI.MUT 0.MOTOR.GN.GN.R.GN 0. 9.GN.G.GN.L 9.ST.MT.VK.GN 0.SLK.XVRST.XRY.VPOWR.r/R.GN.GN.b/.GN.Y/G.GN.P/XI.SQUZ.VSL.R.VSL.SPT.S.GN.GN.V 9.GN 0.SY.VT.N.VMUT.TRKUP Printed Side H ONLY.VPR+.VPR+.VV+ ONTT SI SI I SSY (XNP09-) N90 N9 N0 N90 N0 J0 H N0 G N0 N0 N0 N0 N90 N0 N

55 SI Y W GNU IN GN IN GN GN V+ N V+ 0 W9 W9 W9 W90 W W L0 9.RIN.GN(IN).LIN.GN(IN).RO.VOMG.LO.RMUT 9.SRO 0.GN.SLO.GN.SWO.GN.O.GN.SRO.GN 9.SLO W W 0 W W0 W9 W9 W9 W9 W W W Printed Side W 0 W R W W W W W0 W09 W0 W00 W W W W0 W W 0 N0 0 W 0 W9 W9 W W0 W W W W0 W W.GNM.SOL.N...PULS.HL.MO.GNM(T).V+V 9.R 0.MOTOR.RR W W W W9 X0 0 W W W W W9 W9 R0 R0 0 0 W W0 W W W W W W W W W9 R W W W W W 0 09 W W9 W W W0 W 0 W W W W9 90 W W0 W0 W00 W W 0 0 W W W W N0 W W W W W W W N0 W0 W0 W W W W0 W0 W0 W9 W N0 W W0 W0 W0 W09 W0 W9 W W.N 0.RS 9.VSM.TXR.+9V.GNTXL.GN.O.LK.I. P LVL dj. W0 PN- W0 W9 W W W.V+.V+.VP+.GNM(V).GNM(T) 0.VPR+M 9.VPR+M.GN.GN.VPR+.VPR+.V-.GNTX.V+TX.V+..GN.SL.GN.SR.GN.SW.GN 9.L 0.GN.R.GN.XPROTT.SU.HPT.XHPMUT.VOLT.VOLLK 9.SYSPOW 0.HP.MUT.RY_.RY_R.MUT.N.V+.GNU Production ode GNM (V) GN VPR+M W R0 L0 GN W W R0 R0 0 W W W Q0 RR IT Rch 0 KN0 W W 0 Q0 Q0 0 W W0 W W 0 0 W0 VR0 0 GN GN OPN 0 W I0 R 0 0 W 0 GN 0 W9 W Q0 V V V W VR W MS W0 Q0 0 I0 IG Lch W W GN W 0 N0 0 0 VR0 Q0 0 I SSY 09 PRINT SI 0 Rch V 0 L0 0 GN W W W0 0 0 VR0 L0 GN Rch W W W W W XV-V000 W0 W W0 W VR VR W VR VR0 0 VR0 W99 0 LH Q0 09 W0 0 W00 L0 RH W09 W0 W0 W9 W0 GN W0 VR W9 0 0 VR0 9 Lch W0 W V I K TP 0 9 R LVL dj. IS dj. R L IP OPN Lch N0 W0 V 0 L0 W0 L0 0 N0 IG K PRT N0 N0 N0 N0 N0 N X M/M TUNR UNIT J J J00 N0 TP K MH TP K MH TP K MH

56 XV-V NP NP NP L R9 R R R R R R R0 0 0 I0 R9 R 0 R0 R0 9 R0 R R R R R R R R0 R0 R R R R9 R R R0 R0 0 R0 0 R0 9 0 R R I0 R R Q0 Q0 Q0 Q0 Q0 Q0 Q Q0 Q0 R R0 R R R R I0 R9 R R R 9 R R9 R R R 0 R R 0 I0 0 R0 R0 R0 R0 0 R0 R0 0 R0 R 0 R R0 I0 0 R0 0 R0 0 R0 0 R0 R0 R R R R09 R 09 R0 0 R Q R9 R9 R9 R Q I0 R R R R9 R Q Q R R0 R R9 R R R R R 9 0 Q0 R09 I R R R R R R0 R9 9 0 R0 R9 R Q Q Q9 Q 0 0 R R R R R R R Q0 R09 R0 Q Q R R R R R R R0 R9 R0 R R09 R99 R0 R R 0 Q R0 R R0 0 R R0 R0 R R R R R9 R900 R 0 0 R0 R Q 0 Q R 0 R I0 I0 Q R Q Q0 Q0 Q0 Q0 Q Q Q0 Q0 Q0 Q I0 Q Q Q Q Q I0 Q Q R90 R R R0 R R9009 R R99 R0 R0 R0 R R R90 R900 R R0 R0 R900 R900 R9 R 0 R R R99 R R R0 R R 0 R0 R R0 R R R R R R09 R R9 R R 0 0 R9 R0 R R R R R R R R 0 R R R0 R0 R0 R0 R0 R R9 R R R R0 R0 R0 R0 R0 R9 R R R I0 R R R0 9 R R R09 R0 R R R R N0 SR GNM(V) PN- I SSY XWZ0 XWZ0 XWZ009 XWZ00 XWZ00 XWZ00 XWZ00 XWZ00.GN 0.RS 9.VSM.TXR.+9V.GN.TXL.O.LK.I. GNU GNU LO GN GN GN R SW SW SL GNM (T) GNTX V+ V+ GNM (T) V+ GN GN VPR+ V+ V+ GN.RR.V+V 0.MOTOR 9.R.GNM(T).MO.HL.PULS.N...GNM.SOL.GNU.V+.N.MUT.RY_R.RY_.MUT 9.SYSPOW 0.HP.VOLLK.VOLT.XHPMUT.HPT.SU.XPROTT.GN.R 0.GN 9.L.GN.GN.SW.SR.GN.SL.GN..V+.V+.GNM(V).VP+.GNM(T) 0.VPR+M 9.VPR+M.GN.GN.VPR+.VPR+.V-.GNTX.V+TX.V+ 9.V+.N.GN.V+.GN.GN 9.SLO.GN.O.GN.SRO.SWO.GN.SLO 0.GN 9.SRO.RMUT.LO.VOMG.RO.GN(IN).RIN.GN.GN..MUT.SPI 0.SPLK.SPO 9.XSPRST.SPSS.USY.SPHRQ.SPMO.IRO.IRS.IRRST.IRRR.LIN.GN(IN) 0 GN Q0 RR VR Q0 L VR Q0 VPR+M Q0 SWO O SWO SLO SRO RO IG TP TP L0 L0 0 L0 VR0 0 VR0 VR0 L0 L0 N0 N0 V GN VR V GN GN V VR IG R GN dj. R L dj. LVL LVL R L P R dj. R L IS MS GN VR0 Q0 Q0 V L0 VR GN V VR R VR L 0 Q0 VR0 VR0.IN SI I SSY (XNP09-) Y N0 N0 N0 N0 N0 N0 N0 N0

57 XV-V NP R0 R9 R R R0 R R0 R R R R R0 R R R R9 R R R9 R R R R9 R0 R R R R R R R R R R R R9 R0 R0 R R R0 R9 R R R R R R R 0 9 R R9 R0 R0 I0 R9 R90 R R R R9 9 R9 R9 R R9 R9 9 0 Q0 09 R0 0 R0 0 R0 0 Q0 R R0 Q0 R0 0 R0 R9 R9 R R R9 R R R R9 R R R0 R0 R R R R R Q0 R 0 0 R R L0 R R Q0 Q0 0 0 I0 R0 R0 R R R R R R R0 R 0 R0 R R R0 0 0 R0 R0 R 0 R0 R0 R 0 R0 R R R0 R0 R0 R0 9 R R R R0 0 R0 R0 I0 0 R0 R R 0 I0 0 0 R0 R0 R0 R0 I0 0 R0 R 0 R R0 R R R0 R I Q Q 0 R0 R0 Q R9 R Q 0 R0 R0 R R R R0 R R0 R R R R R R R R R 0 R0 R0 R0 R0 R0 R0 I0 R0 R0 R09 R0 R0 R0 R9 R0 R R Q0 Q Q Q0 Q0 Q0 Q R R 0 0 R0 R0 R0 R0 0 R0 R09 09 R0 0 0 R0 R0 R0 R 0 R 0 R09 R R0 R9 Q Q R R R R R R R L L R R R R R L R R R R R R R R L R R R R R R 0 R R R R R R R R Q 0 0 R R R0 R9 U-TST S-TST GN GN V- VV+ VPR+ V+ V+ GN GN V+ V+ V+ GN GN V+ GN GNU GNU V+ GNU V+ VU+ LO GN GN R L.MI SW.GN.MI.HOVOL.V+.MUSIL.MOVIL.LLK 0.SY.KY 9.LT.KY.KY.V+.VP+.GNU.RMOON.TIMRL 9.V+.N.GN.V+.GN.GN 9.SLO.GN.O.GN.SRO.SWO.GN.SLO 0.GN 9.SRO.RMUT.LO.VOMG.RO.GN(IN).RIN.GNU.GN.IN.MUT.SPI 0.SPLK.SPO 9.XSPRST.SPSS.USY.SPHRQ.SPMO.IRO.IRS.IRRST.IRRR.L.GN.R.GN.GN.R.GN 0. 9.GN.G.GN.r/R.GN.b/.GN.Y/G.GN 0.SY 9.GN.V.GN.S.SPT.VSL.VSL.SQUZ.LIN.GN(IN).P/XI.VV+.VPR+.VPR+.VPR+(M).VPR+(M) 0.GNM 9.GNM.GN.GN.OUT.GN.GN.VPOWR SWO O V+ SWO SLO SRO RO.XVRST.XRY 0.SLK 9.ST.MT.VK.GN.GN.VT.VMUT.TRKUP.N.IN SI X N0 N0 N0 N0 N0 N0 N0

58 . KY, L and ISPLY SSYS SI G ISPLY SSY 0 Y MUSI/MOVI S W W W W9 W N N0 N0 0 ONTT ONUPPR SI V/ S0 0 0 S0 STNY/ON 0 X SI L SSY N0 0 S0 S0 SOUN MO S0 RONT SURROUN L0 0 KROK 0 0 N0 R W9 W0 R W W R0 W W W W TUNR S0 LIN S0 TP S0 L SSY S0 S0 S0 S0 SS NTR RVRS MO W R STOP (XNP09-) 0 0 L SSY 09 J J ISPLY SSY 0 XWZ00 XWZ0 S0 VOL- PN- I0 J J VOL+ S0 0 R (XNP09-) LU PN- XWZ0 R W J_ KY SSY XWZ0 KY SSY STOP S0 PN- OPN/LOS S0 << PLY >> S0 S0 S0 J_ (XNP09-) J J Y 0 G X XV-V000 G

59 SI G ISPLY SSY X N0 R R R R R Q0 R0 R0 STNY/ON VOL+ 0 TP LIN 0 R09 R0 R0 R0 R0 R0 9 R0 R PN- VOL- R R0 Q0 ISPLY SSY.TIMRL RMOON GNU VP+.V+ KY KY KY GNL 0.LT LLK MOVI MUSI.GNL.LN.LN.VP+ XWZ00 XWZ0 R R R R R R L SSY.GNL.LN.LN.VP+ Q0 Q Q0 0 0 XWZ0 R0 R 0 0 R9 Q0 0 R9 R R R R0 0 R R0 PN- 0 R09 0 R R0 R0 R0 R0 R0 Q9 R 9 0 R0 R0 RVRS MO SS 0 SOUN MO RONT SURROUN NTR R STOP KROK R9 0 0 Y SI 0 L SSY J L J J L R 0 (XNP09-) (XNP09-) MUSI/MOVI N KY SSY KY SSY 0 0 OPN/LOS L >> PN- PLY XWZ0 << STOP Y 0 0 J 0 0 GNU.KY G 00 R0 XV-V000 R0 R0 90 R X (XNP09-) G 9

60 . MP SSY SI SI X I 0 W 0 SK Word Surface W word surface TS I W0 R W Q R W0 Q W0 R 9 SJ0 9 Q W99 W0 9 I W0 W0 W9 W0 W 9 T90S MP SSY I0 W09 0 W00 W0 -Vcc W VL- W W W W9 VL+ W W +Vcc W VL+ W0 VL R W GNP R GNP W +Vcc W GNP W -Vcc W9 W9 W9 W W0 R W R R R W GNRG W90 W R 9 W9 W W W9 V- V+ VP+ VP+ XPROTT V- W 0 0 Q R W9 R W W W W W W 0 Q 0 W 0 W0 W W W W W W9 W9 W9 W W W W W R W SROUT W VH+ VH- W R R W W 0 R W0 W GNP W0 GNS W W W9 W ROUT W W0 VL- W VH+ SLOUT N00 W0 W R W R SWOUT W Q W W W Q LOUT W W W W Word Surface W Q9 SJ W W VL+ word surface W9 I T0S W W ROUT W SWOUT W W I0 W W N00 W09 V- W W W0 W N W0 UN+ W L W W0 W0 9 W0 Production ode W0 PN- MP SSY N00 N00 N K N0 K N0 To N (XNP0-) I XV-V000 Y I

61 0 X SI SI I MP SSY N00 N00 N (XNP0-) SRIN SLIN IN SWIN RIN GN LIN VPR+ VPR+ MUT MUT RYS VL+ VP+ V- V+ XPRT GNR GNR UN+ UN+ GN RYR R0 R0 R00 PN- R Q0 R Q0 R R0 R9 R R9 9 R R Q0 Q0 SLOUT R0 R R R R R9 R9 SWOUT R9 R9 L UN+ Q0 R VH+ 0 R9 R9 0 R V- R 9 R0 R VL+ R ROUT R0 R VL- VH- R0 R0 R0 Q R 0 9 S I0 R9 Q9 R9 R R R0 R R R0 R R R9 IN 0 0 R Q XWK0 OUT R G R0 R0 R0 R 09 R R R TH XWK0 N SI 0 0 Q R TH R R Q0 I0 XWK R R R0 R0 R0 0 R9 R R9 SROUT R R R 9 R9 Q R R0 R0 0 R09 R R0 R Q R R R VH+ LOUT GNS Q SWOUT R9 R R9 GNRG R0 R 9 R R ROUT GNP Q R R R GNP GNP XPROTT VP+ VP+ V+ V- VL- VL- LOUT LOUT VL- VL- ROUT ROUT VL+ VL+ SWOUT SWOUT VH+ VH+ OUT OUT GNS SLOUT SLOUT GNP GNP SROUT SROUT VH- VH- R R GNP GNP +Vcc GNP V- -Vcc R9 R R I0 VL+ 0 R0 R0 0 NP R09 0 R0 VL+ R0 Q0 R R Q0 R R R R0 R9 0 R0 R0 R -Vcc R0 R0 Q0 Q R Q Q R +Vcc NP R R9 R0 Q0 R R R R09 R0 R9 R9 R9 0 R R9 R0 IN OUT 09 R R09 R9 R90 OUT I0 IN 9 G S Q 0 G S 0 R0 R R R R 0 R R I Y XV-V000 I

62 . POWR SSY SI J X POWR SSY K J0 H J90 N0 K N0 K J0 N0 J N00 N0 N0 N0 J00 N0 Q R W9 W0 0 0 N0 GN SL GN SR GN SW GN L GN R GN XPROT SU HPT XHPMUT T LK S-POW HP MUT RY- RY-R MUT N V+ GNU ONTT ON UPPR SI W W0 W9 W L W W0 W R W9 W W W0 W09 W W R W R W0 90 KN00 W W00 9 R W W W W9 W W0 R 90 R W09 W L R W W R0 W9 W W R W W9 W0 W 9 9 W R W W 90 W0 9 W RY W9 W0 W R R W W W W0 R W W R W W0 W W R0 W W9 L R W 9 W 9 NP W9 W W W W9 W99 W 9 9 W0 W W0 W0 W0 R NP W R W W NP W R9 RY W00 XV-V000 W9 R9 9 R90 L R IT NP W0 W R9 W R90 W0 N00 9 W0 W 0 W R W W W W0 W J00 W W R W (H) (H) W W W L R0 W ON W W RY W W W W W W W W0 W0 R W TTNTION RMPLR L I LINKS OMM INIQU. HZ LITTLUS IN. ON ONTT SI W0 W W0 W ON W W0 W L R0 V+ V+ VP+ GNMV GNMT VPR+M VPR+M GN GN VPR+ VPR+ V- GNTX V+TX V+ W ON W0 W0 W W W9 W9 ON 0 9 W9 UTION W W0 W I9 XPROT RY-R RY- MUT MUT LIN GN RIN GN IN GN SWIN GN SLIN GN SRIN GN W W W RPL I LINKS S MRK.M Y LITTLUS IN. W0 ON I0 N0 N0 W0 W90 W09 KN ONTT SI 9 ch N0 N0 ch W W I 90 Q 900 ONTT SI I 0 N0 W W0 0 I W W W 00 VL- VL- SLOUT GN UN+V UN+V GNRG V+ V- VP+ VL+ VPR+ VPR+ VH- VH- ROUT GNP GNP LOUT GNS SWOUT VH+ VH+ OUT VL+ VL+ SROUT 0 W9 W9 W9 ONTT SI 90 R90 90 ON W 90 P W

63 IN SI 0 ONTT SI 0 0 W W 00 VL- VL- SLOUT GN UN+V UN+V GNRG V+ V- VP+ VL+ VPR+ VPR+ VH- VH- ROUT GNP GNP LOUT GNS SWOUT VH+ VH+ OUT VL+ VL+ SROUT 0 W9 W9 SONRY W W RY W W L LL W0 W H U LL PRIMRY N H W W N W9 S W0 W W W W0 W W0 RISK O IR RPL US S MRK. LL W GN W0 W W W W GN W W0 W W09 L XPT GN N W W YPW TX WINING HK W W LL TX WINING HK N W H H W W W9 W W MY,NV U U W W0 KU H H W N0 W9 ONTT SI PROUTION O R XPT GN W0 W0 W W W 0 0 W LL N N 00 N W N TRNSORMR 90 I I 90 R90 90 I I T POWR SSY XWZ0 0 0 W W 90 ON R90 ON XWZ0 XWZ00 PN W0 W W W W9 PRINT SI I0 W0 W W0 0 0 W0 (XNP09) Y 0 XV-V000 0 J

64 SI 0 J 0 POWR SSY a b c d e f g h i j k l N L KU MY,NV U U LL YPW TX WINING HK N XPT GN N TX WINING HK GN GN RISK O IR RPL US S MRK. LL LL LL U PRIMRY SONRY R90 90 R9 R R R R GNRG V+ XPROT N0 N0 VL+ N 0 XPT GN N LL N POWR SSY XWZ0 XWZ0 XWZ00 PN- L 0 R9 9 SU VH+ VH+ 0 0 UN+ Q GNU 0 R J 0 Y (XNP09-) XV-V000

65 XV-V R0 R R R I0 0 R 9 0 I0 R R R0 R R R9 R R R R R R R R I0 R9 R0 R0 R0 9 0 R0 R0 I0 R09 R0 R0 R0 R0 R0 R0 R0 R R0 R R 9 R R R R I0 R R R R R R R R 9 R9 R R R R R9 R R R R0 R 9 R R R0 R9 R9 90 R9 R9 R9 9 R9 9 R90 R9 R9 R9 9 R9 9 R R9 R9 R9 R9 R R9 R9 R9 Q909 I90 R R R0 R0 R09 R09 R0 9 R R0 R0 R R R R R R9 R0 R0 R90 R9 R9 R R90 R R R R R9 R9 R 90 0 R R Q R R R0 9 R0 R R R9 R R R R 9 R Q R R R R R R Q9 R R R R R0 R0 R R R Q R Q R Q R9 R R R 0 R R R R R R R R R Q Q Q R9 Q Q Q0 Q0 Q Q Q Q R R R R R R R0 R R 0 R R R0 0 R R 90 Q0 0 R R R9 R R R R9 9 R R R R R Q90 Q90 R0 R R90 Q R R R 0 V+TX XPROT RY- MUT MUT LIN GN RIN GN IN GN SWIN GN SLIN GN SRIN GN Q RN90 VH- ROUT VH- GNP GNP LOUT GNS SWOUT VH+ VH+ OUT HP-L(H) HP-R(H) SL SR SW H H VL+ LITTLUS IN. INIQU. HZ LINKS OMM RMPLR L I TTNTION LITTLUS IN. MRK.M Y RPL I LINKS S UTION VL+ SROUT N0 N0 N0 N0 VL- SLOUT VL- GN UN+V UN+V GNRG V+ V- RY-R GN HPT HP-R GNHP HP-L N00 GNRT GNRT GNRT GNRT GNP VL- VL- GNP GNP VL+ VL+ VL+ VH+ VH+ VH+ VH+ VH- VH- VH- GNTX GN GN GN UNV GNMT GNMV GNMT GNMV GN GN GN GN V+ V+ V+TX XPROT V+ GNRG GNRG V+ V- V+ V- GNHP V+ V- UMN Q SL GN SR GN SW GN L GN R GN XPROT SU HPT XHPMUT k T LK S-POW I0 HP MUT RY- GNU V+ N MUT RY-R V+ VH- GN GN GN GN GN L R T LK HP-L(H) HP-R(H) SL SR GNTX V- VPR+ VPR+ GN GN VPR+M VPR+M GNMT GNMV VP+ V+ V+ 900 VP+ VL+ VPR+ VPR+ XPROT V- HP.k 900 I NP NP NP SI J X N N0 N0 N00 J00 N0 N0

66 . HP/MI and TR SSYS SI SI I N00 I N00 K TR SSY N0 N0 X 0 N0 N0. VH+. OUT 0. OUT 9. GNS. SLOUT. SLOUT. GNP. GNP. SROUT. SROUT. VH-. VH- 0 0 TR SSY XWZ0. VL+. SWOUT. SWOUT. VH+ PN- XWZ0. LOUT. LOUT. VL- 0. VL- 9. ROUT. ROUT. VL+ VH- VH- ROUT GNP GNP LOUT GNS SWOUT VH+ W VH+ OUT W0 VL+ W W W9 W W N0 W W W W ONTT SI N0 N0 ch VL+ SROUT J0 VL- SLOUT VL- GN UN+V UN+V GNRG V+ V- VP+. VPR+. VPR+. MUT. MUT. STL. VL+ 0. VP+ 9. V-. V+. XPROT. GNRG. GNRG. UN+V. UN+V. GN. STL VL+ VPR+ VPR+. STL. STL. XPROT W0 ch. SRIN. SLIN. IN 0. SWIN 9. RIN. GN. LIN. GN. SRIN. GN. SLIN. GN. SWIN. GN 0. IN 9. GN. RIN. GN. LIN. MUT. MUT 90 J0 N0 (XNP09-) J0 J0 N0 0 Y J N0 J N0 J N0 H HP/MI SSY X 00 N00 J90 XWZ0 XWZ0 HP/MI SSY J90 0 W W W0 W9 PN- W 09 0 J0 W L0 W R 0 0 R0 J0 N0 J J0 J0 J0 W J0 W VR0 (XNP09-) Y H K XV-V000 H K

67 X X SI SI K TR SSY N0 N0 L PN- TR SSY XWZ0 XWZ HP/MI SSY 0 R0 R R0. VOL V+V.MI.GN R.MISW Q0 XWZ0 XWZ0 I0 R09 R0 0 R0 R0 R0 R0 0 9 L R R0 0 0 R R R R R R R0 I0 9 R R9 R PN- R R R9 R R9 L90 9 L90 R R9 9 R90 R90 90 HPT HP-L GNHP HP-R 90 R90 R90 L90 R9 Y (XNP09-) 90 N0 J0 J Y H HP/MI SSY J0 (XNP09-) J90 H K XV-V000 H K

68 X 0. SP SSY SI SI SP SSY SP SSY X R9 R9 L R0 I0 KN90 0 R I R0 L R 0 R R R0 L Y Y R0 R R9 R R 9 R R R0 I0 R X0 L 0 R R09 R0 I90 I0 0 R R R 0 0 X0 R 0 9 R R R R R09 R9 R N90 R0 R0 L0 R R R R9 N0 R0 R0 R0 R R R90 R9 90 KN 9 9 L9 R9 R I0 IT N9 R N90 N0 N9 N0 N0 N0 N90 N0 N L0 90 R909 R90 0 R9 R Q0 R R L0 R9 R9 R9 R9 L0 R9 R0 R90 L90 L R 90 R0 R0 9 R R9 R R R R R90 L0 R R0 0 9 R0 L9 R R R R R PROUTION O 90 R99 R90 R0 I WX R09 R90 R0 L 0 R L0 R L0 R0 R90 90 I9 R0 R0 0 R0 R R0 9 9 R R0 SP SS'Y R R R R R R R0 R0 R0 R (NP-) XV-V000

69 . P PRTS LIST NOTS: Parts marked by "NSP" are generally unavailable because they are not in our Master Spare Parts List. The mark found on some component parts indicates the importance of the safety factor of the part. Therefore, when replacing, be sure to use parts of identical designation. When ordering resistors, first convert resistance values into code form as shown in the following examples. x. When there are effective digits (any digit apart from 0), such as 0 ohm and k ohm (tolerance is shown by J=%, and K=0%). 0 Ω k Ω 0. Ω Ω x 0 x 0 R0 R0 R/PU J R/PU J RNH R0K RSP R0K x. When there are effective digits (such as in high precision metal film resistors)..k Ω x 0 RN/P Mark No. escription Part No. LIST O SSMLIS NSP..V SSY XX0..VM SSY WM9 NSP..0 LOR SSY VWT9..LO SSY VWG NSP..MI SSY (XV-V000) XWM9 NSP..MI SSY (XV-V00) XWM9..I SSY (XV-V000) XWZ00..I SSY (XV-V00) XWZ00..ISPLY SSY (XV-V000) XWZ0..ISPLY SSY (XV-V00) XWZ00..KY SSY XWZ0..L SSY XWZ0 Mark No. escription Part No. NSP..OMPLX SSY (XV-V000) XWK9 NSP..OMPLX SSY (XV-V00) XWK9..HP/MI SSY XWZ0..POWR SSY (XV-V000) XWZ0..POWR SSY (XV-V00) XWZ0..TR SSY XWZ0..SP SSY WX NSP..MP UNIT H XXQ00..MP SSY XWK0..M/M TUNR UNIT XX ONTRST O P SSMLIS I SSY XWZ00 and XWZ00 are constructed the same except for the following: Mark Symbol and escription XWZ00 XWZ00 R Not used RS/SJ R RS/SJ Not used G ISPLY SSY XWZ00 and XWZ0 are constructed the same except for the following: Mark Symbol and escription XWZ0 XWZ00 Q0 S0 Not used 0, 0 UZSR Not used 0, 0 NSPW00S- Not used R0 R/PUJ Not used R RS/S0J Not used P SPR X09 Not used L HOLR XMR0 Not used J POWR SSY lthough XWZ0 and XWZ0 are different in part number, they consist of the same components. M/M TUNR UNIT This assembly has no service parts. XV-V000 9

70 0 P PRTS LIST OR XV-V000/LXJ/N UNLSS OTHR WIS NOT Mark No. escription Part No. LO SSY MISLLNOUS S 0 N0 ONNTOR N0 ONNTOR VM SSY MISLLNOUS I 0 (,,0 ) H RIVR I I 0 (,0, ) V I I 0 (,, ) I I 0 (,, ) LSH ROM I 0 (,9, ) PROM I 0 (,9, ) V VIO MP I >I (,, ) RGULTOR (.V) >I (,9,9 ) / ONTROLLR I >I (,, ) RGULTOR I (.0V) >I (,,9 ) RGURTOR (J.) VSK0 S-PH-K S-PH-K 99S MT9/-L KSH-T YW09 S-S0J MM MMJH RN0H MM 9P Q 0 (,, ) TRNSISTOR S0 Q 0 (,, ) NMOS T TRNSISTOR UMKN Q 0 (,, ) HIP TRNSISTOR HN0 Q 0 (,, ) HIP TRNSISTOR HN0 Q (,00, ) HIP TRNSISTOR TYU Q 0 (,, ) TRNSISTOR S Q 0 (,,9 ) IGITL TRNSISTOR TU >Q (,,90 ) T RSQ0P0 Q 0 (,0, ) IGITL TRNSISTOR TU Q (,, ) TRNSISTOR S Q (,,9 ) TRNSISTOR Q (,,9 ) TRNSISTOR (,9, ) IO (,,9 ) IO (,,9 ) IO 0 (,0, ) IO (,, ) IO (,,9 ) IO (,, ) IO (,, ) IO S S SS RSX0L-0 SS UZSR() SS SS SS SS (,, ) IO SS (,,9 ) IO SS L (,,09 ) POWR INUTOR(U) TL099 L (,, ) POWR INUTOR TH0 L (,,99 ) HIP S VTL09 L 90 (,,9 ) HIP S X 0 (,, ) RYSTL RSONTOR X 0 (,, ) RYSTL RSONTOR (MHz) N0 (,9, ) P ONNTOR N0 (,0,9 ) 0P ONNTOR N0 (,9,9 ) ONNTOR N90 (,, ) P ONNTOR N90 (,, ) P ONNTOR RSISTORS R (,,9 ) R (,,9 ) R (,,9 ) VTL0 VSS VSS KN0 RKN0 KM9 VKN VKN9 RS/0SRJ RS/0SRJ RS/0SRJ Mark No. escription Part No. R (,,9 ) R (,,9 ) R (,0,9 ) R (,9, ) R (,9, ) R (,, ) R (,, ) R 00 (,, ) R 0 (,9, ) R 0 (,, ) R 0 (,, ) R 0 (,, ) R 0 (,, ) R 0 (,,0 ) R 0 (,, ) R 09 (,, ) R (,0,0 ) R (,,0 ) R (,, ) R (,, ) R (,, ) R (,, ) R 9 (,, ) R (,, ) R (,9, ) R (,9,9 ) R (,0, ) HIP RSISTOR RRY R (,, ) R (,, ) R 9 (,, ) R (,,0 ) R (,,0 ) R (,, ) R (,, ) R (,, ) R (,0, ) R (,, ) R (,, ) R 9 (,9,0 ) R (,0, ) R (,, ) R (,0, ) R (,, ) R (,, ) R (,,9 ) R (,, ) R (,,9 ) R 9 (,,9 ) R 0 (,, ) R (,, ) R (,, ) R 9 (,, ) HIP RSISTOR R (,9, ) R (,, ) R 0 (,9, ) R 0 (,, ) R 0 (,, ) R (,0, ) XV-V000 RS/0SRJ RS/0SRJ RS/0SRJ RS/0SR0J RS/0SRJ RS/0SR0J RS/0SRJ RS/0S0R0J RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/0S0R0J RS/0S0R0J RS/0S0R0J RS/S0J RS/S0J RS/S0R0J RS/S0R0J RS/0S0R0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J R0J RS/S0J RS/S0J RS/S0J RS/S0R0J RS/S0R0J RS/S0J RS/SJ RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0R0J RS/SJ RS/SJ RS/S0J RS/SJ RS/S0R0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0 RS/0S0R0J RS/S0J RS/0S0R0J RS/0S0R0J RS/0S0R0J RS/S0J

71 Mark No. escription Part No. Mark No. escription Part No. R (,, ) RS/S0J R 90 (,, ) RS/SJ R (,0, ) RS/S0J R 90 (,, ) RS/SJ R (,0, ) RS/S0J R 90 (,, ) RS/SJ R (,, ) RS/SRJ R 909 (,, ) RS/SJ R (,, ) R (,, ) R (,, ) R 0 (,,0 ) R 0 (,99, ) RS/SRJ RS/SRJ RS/SRJ RS/S0J RS/S0J R 90 (,, ) R 9 (,0, ) R 9 (,, ) R 9 (,, ) R 9 (,, ) RS/SJ RS/SJ RS/S0R0J RS/SJ RS/SJ R 0 (,99, ) RS/S0R0J R 9 (,0, ) RS/S0R0J R 0 (,, ) RS/S0J R 9 (,0, ) RS/S0R0J R (,9, ) RS/S00 R 9 (,0,0 ) RS/S0R0J R (,0, ) RS/S00 R 9 (,0, ) RS/S0R0J R (,, ) RS/S00 R 00(,0, ) RS/0S0R0J R (,, ) RS/S00 R 00(,, ) RS/0S0R0J R (,, ) RS/S00 R 00(,, ) RS/0S0R0J R (,, ) RS/S00 R (,0, ) RS/S0R0J R (,99,0 ) RS/S0R0J PITORS 0 (,9,0 ) VW0M R (,99, ) RS/S0R0J 0 (,,0 ) KSRY0K0 R (,99, ) RS/S0R0J 0 (,, ) KSRY0K0 R (,99, ) RS/S0R0J 0 (,, ) KSRY0K0 R (,99,9 ) RS/S0R0J (,, ) KSRY0K0 R (,0, ) RS/S0J (,,0 ) KSRY0K R 00 (,9, ) RS/0S0R0J 0 (,0, ) KSRY0K0 R 0 (,9,9 ) RS/0S0R0J (,,99 ) KSRYK0 R 0 (,9, ) RS/0S0R0J (,,9 ) KSRYK0 R 90 (,90, ) RS/0S0R0J (,0,9 ) KSRYK0 R 0 (,, ) RS/SJ (,, ) KSRY0K0 R 0 (,, ) RS/S0J (,, ) KSRY0K0 R (,,9 ) RS/0S00J (,, ) KSRY0K0 R (,,9 ) RS/S0J (,,9 ) KSRY0K0 R (,0,9 ) RS/SJ 0 (,, ) HIP LT.PITOR VWM R (,9, ) RS/SJ 0 (,9, ) HIP LT.PITOR VWM R (,,9 ) RS/S0 0 (,, ) HIP LT.PITOR VW0M R (,, ) RS/S0 0 (,, ) KSRY0K R (,9, ) RS/S0 0 (,,9 ) KSRY0K R 9 (,9, ) RS/S0R0J 0 (,, ) HIP LT.PITOR VW0M R 0 (,9, ) RS/S0R0J 0 (,, ) KSRY0K R 0 (,0,99 ) RS/S0R0J 0 (,,0 ) KSRYK0 R (,,9 ) RS/S0R0J 09 (,0,0 ) KSRY0K R (,, ) RS/S0R0J 0 (,,0 ) KSRYK0 R (,, ) RS/S90 (,,0 ) SRH0J0 R (,, ) RS/SJ (,,0 ) SRH0J0 R (,,0 ) RS/SJ (,, ) KSRY0K R 0 (,, ) RS/SJ (,0, ) KSRY0K R (,, ) RS/S0J (,,9 ) HIP LT.PITOR VW0M R (,9, ) RS/SJ (,, ) KSRY0K R (,, ) RS/SJ (,, ) KSRY0K R (,, ) RS/S0J 9 (,, ) KSRYK0 R (,9,9 ) RS/SJ 0 (,, ) KSRY0K R (,,9 ) RS/S0J (,9, ) KSRY0K R (,,9 ) RS/S0J (,9, ) KSRY0K R (,9,9 ) RS/SJ (,, ) KSRY0K R (,,9 ) RS/S0J (,,9 ) KSRY0K R 90 (,9, ) RS/S0R0J (,0,9 ) KSRY0K0 R 90 (,0, ) RS/S0R0J (,,0 ) SRHJ0 R 90 (,, ) RS/SJ (,9, ) KSRY0K R 90 (,, ) RS/SJ 0 (,, ) KSRY0K0 R 90 (,, ) RS/SJ XV-V000

72 Mark No. escription Part No. Mark No. escription Part No. (,, ) KSRY0K (,, ) KSRY0K0 (,, ) KSRY0K (,, ) KSRY0K0 (,9, ) KSRY0K (,, ) KSRY0K0 (,, ) KSRY0K (,, ) KSRY0K (,, ) (,, ) (,, ) HIP LT.PITOR 9 (,0, ) 0 (,9,9 ) KSRY0K KSRY0K VWM KSRY0K KSRY0K (,,9 ) 0 (,, ) (,, ) (,, ) (,9, ) KSRY0K KSQY0K KSRY0K0 SRHJ0 KSQYK0 (,, ) (,, ) (,0, ) (,, ) (,, ) 0 (,, ) (,, ) (,, ) (,, ) (,, ) KSRY0K KSRY0K0 KSRY0K KSRY0K KSRY0K KSRY0K0 SRHR00 SRH000 KSRY0K SRH9J0 (,, ) HIP RMI. (,0,0 ) HIP RMI. (,,00 ) (,0,9 ) HIP RMI. (,,9 ) (,, ) (,, ) HIP RMI. 9 (,, ) (,,9 ) (,,0 ) H H VW0M H KSRY0K SRHJ0 H VW0M KSRY0K0 SRHJ0 (,, ) (,, ) (,0,9 ) (,9,9 ) 9 (,,0 ) KSRYK0 VW00M KSRY0K KSRYK0 KSRYK0 (,0,0 ) (,,0 ) (,0, ) 0 (,0, ) KSQYK0 VW0M KSRY0K0 KSRY0K 0 (,0,0 ) (,, ) (,0, ) (,0, ) (,, ) 9 (,, ) (,0, ) (,0, ) (,9,0 ) (,, ) HIP LT.PITOR (,, ) (,, ) (,, ) (,, ) (,, ) (,, ) (,, ) 9 (,,0 ) 90 (,0,9 ) 9 (,, ) 09 (,, ) HIP LT.PITOR 0 (,, ) HIP LT.PITOR (,, ) (,0, ) (,, ) (,, ) (,9, ) (,9, ) (,9, ) (,99, ) 0 (,90,9 ) 0 (,9, ) 0 (,9, ) 0 (,, ) 0 (,99, ) (,, ) KSRY0K SRH0J0 KSRY0K KSRY0K0 KSRY0K KSRYK KSRY0K KSRY0K KSRY0K VWM KSRY0K0 KSRY0K KSRY0K KSRY0K KSRY0K KSRY0K KSRY0K KSRY0K0 KSRY0K KSRY0K0 VW0M VW0M KSRY0K0 KSRY0K0 KSRY0K0 KSRY0K0 KSRY0K0 KSRY0K KSRY0K VW0M VW0M KSRY0K VW0M KSRY0K KSRY0K KSRY0K I SSY MISLLNOUS I 0(,, ) OP-MP I I 0(,9, ) OP-MP I I 0(,, ) OP-MP I I 0(,0, ) OP-MP I I 0(,, ) OP-MP I I 0(,, ) PU >I 0(,,9 ) I I 0(,, ) LOGI I I 0(,,0 ) LOGI I I (,, ) OP-MP I XV-V000 H H H H H P T0S T09N H0T H I 0(,,09 ) IGITL KYONTROL MP I 0(,0, ) VOL R I 0(,,0 ) NLOG SWITH H0T I (,,0 ) OP-MP I H I 0(,,0 ) OP-MP I H I 0(,0, ) OP-MP I Q (,0, ) TRNSISTOR(S-9) Q (,0, ) TRNSISTOR(S-9) Q (,, ) TRNSISTOR(S-9) Q (,,9 ) TRNSISTOR(S-9) Q (,, ) TRNSISTOR Q (,09, ) TRNSISTOR Q (,, ) TRNSISTOR Q (,0,9 ) IGITL TR(S-0) Q 0(,, ) N-T Q 0(,, ) N-T Q 0(,, ) TRNSISTOR Q 0(,, ) TRNSISTOR Q (,0, ) IGITL TR(S-0) Q (,, ) TRNSISTOR Q (,, ) TRNSISTOR Q (,9,9 ) TRNSISTOR Q (,9, ) TRNSISTOR H S0 S0 S0 S RTNM SK SK RTNM SK SK TTK TTK RTPM RTNM RTNM SK SK

73 Mark No. escription Part No. Mark No. escription Part No. Q (,9,9 ) TRNSISTOR RTNM 0(,,0 ) IO M Q 0(,9, ) IGITL TR(S-0) RTPM 9(,,0 ) IO M Q 0(,, ) TRNSISTOR Q 0(,, ) TRNSISTOR Q 0(,,9 ) TRNSISTOR Q 0(,0, ) TRNSISTOR Q 0(,0, ) P-T S S S S0 SJ0 9(,09, ) IO 9(,0, ) IO 0(,,9 ) IO 0(,, ) IO 0(,, ) IO M MTZJR() MTZJR() M UZSR() Q 0(,9, ) IGITL TR(S-0) Q 0(,,9 ) IGITL TR(S-0) Q 0(,, ) TRNSISTOR Q 0(,,9 ) TRNSISTOR Q 0(,9,0 ) IGITL TR(S-0) RTNM RTNM S0 S0 RTPM 0(,,99 ) IO 0(,9, ) IO 0(,, ) IO 90(,9, ) IO 90(,9, ) IO UZSR() M M MTZJR() MTZJR() Q 0(,,0 ) IGITL TR(S-0) Q 0(,,0 ) TRNSISTOR Q 0(,, ) IGITL TR(S-0) Q 0(,0, ) TRNSISTOR Q 0(,,90 ) TRNSISTOR RTPM RTNM RTPM S0 S L 0(,, ) OIL L 0(,, ) OIL L 0(,,9 ) OIL(.MH) L 0(,, ) OIL(.MH) L 0(,0, ) OIL RT00 RT00 RT0 RT0 RT0 Q 0(,,0 ) IGITL TR(S-0) Q 0(,,9 ) IGITL TR(S-0) Q 0(,, ) TRNSISTOR Q 0(,,00 ) IGITL TR(S-0) Q 0(,, ) IGITL TR(S-0) RTNM RTPM S RTNM RTNM L 0(,, ) RIL INUTOR L 0(,, ) XIL INUTOR L 0(,0,9 ) HIP S L 0(,, ) RIL INUTOR L (,0,0 ) HIP S LRJ LU0J VTL0 VTL VTL09 Q (,, ) TRNSISTOR Q (,, ) TRNSISTOR Q (,, ) TRNSISTOR Q (,9, ) TRNSISTOR Q (,, ) IGITL TR(S-0) S0 S0 S0 S0 RTPM L (,0,99 ) HIP S J0(,,9 ) JK KN0(,, ) SRW PLT VR0(,09, ) VR VR0(,09, ) VR VTL09 VK VN9 PP0 PP0 Q (,, ) IGITL TR(S-0) Q 0(,0,0 ) TRNSISTOR Q 0(,, ) TRNSISTOR Q 0(,0, ) IGITL TR(S-0) Q (,0, ) TRNSISTOR Q (,,9 ) IGITL TR(S-0) Q (,0, ) TRNSISTOR Q (,,9 ) IGITL TR(S-0) Q (,0,9 ) TRNSISTOR Q 9(,0,0 ) TRNSISTOR Q (,, ) TRNSISTOR Q (,,9 ) IGITL TR(S-0) 0(,9, ) IO (,0, ) IO (,9, ) IO (,9, ) IO (,,9 ) IO (,, ) IO (,0, ) IO (,0,0 ) IO 0(,, ) IO 0(,, ) IO 0(,, ) IO 0(,, ) IO 0(,0, ) IO 0(,0, ) IO 0(,, ) IO 0(,, ) IO 0(,,0 ) IO 0(,,0 ) IO 0(,9,9 ) IO 0(,9, ) IO 0(,0, ) IO RTPM SX IMX9 RTPM IMX9 RTPM RTNM RTPM RTNM IMX9 IMX9 RTPM MTZJR() M M M M SS M M SS SS SS SS SS SS M M P0K P0K M M UZS0() VR0(,0,0 ) VR PP0 VR0(,0,0 ) VR PP0 VR0(,9, ) VR PP0 VR0(,9, ) VR PP0 X 0(,9,9 ) RMI RSONTOR SS0 (0MHz) N0(,, ) ONNTOR -PH N0(,9, ) ONNTOR POST -PH N0(,0,9 ) ONNTOR P-SH- N0(,, ) P ONNTOR VKN N0(,9,0 ) P JUMPR ONNTOR -00 N0(,, ) ONNTOR 0- N0(,,0 ) ONNTOR 0- N0(,0,0 ) 9P PLUG XKP0 N0(,,0 ) 9P PLUG XKP09 N0(,,0 ) P PLUG XKP0 N0(,, ) ONNTOR 0- N0(,, ) P ONNTOR VKN N0(,, ) PJUMPR ONNTOR -0 N0(,, ) P ONNTOR 0- N0(,, ) PIN JK(P) K0 N0(,, ) SOKT KP9 P INR V00 P INR V00 RSISTORS R 0(,,9 ) R 0(,, ) R 0(,, ) R 0(,, ) R 09(,, ) R 0(,,0 ) R (,, ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ XV-V000

74 Mark No. escription Part No. Mark No. escription Part No. R (,, ) RS/SJ R (,, ) RS/SJ R (,,9 ) RS/SJ R (,, ) RS/SJ R (,,9 ) RS/SJ R (,,9 ) RS/SJ R (,, ) RS/SJ R (,, ) RS/S0J R (,, ) RS/SJ R (,, ) RS/S0J R (,,0 ) RS/S0J R (,9, ) RS/SJ R (,9, ) RS/S0J R (,9, ) RS/SJ R (,0, ) RS/S0J R (,9,9 ) RS/SJ R (,0, ) R (,90, ) R (,,9 ) R (,, ) R (,,9 ) RS/S0J RS/S0J RS/SJ RS/SJ RS/S0J R (,9, ) R (,,0 ) R (,, ) R (,,0 ) R (,, ) RS/SJ RS/S0J RS/S0J RS/SJ RS/SJ R (,, ) R (,,0 ) R (,0, ) R (,,9 ) R 9(,9, ) RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J R (,9, ) R (,9, ) R (,, ) R 0(,0,9 ) R 0(,0,0 ) RS/S0J RS/S0J RS/SJ RS/S0J RS/S0J R 0(,9, ) R (,09, ) R (,,9 ) R (,, ) R (,,0 ) RS/S0J RS/S9J RS/S9J RS/SJ RS/SJ R 0(,, ) RON ILM RSISTOR R/VMRJ R 0(,, ) RON ILM RSISTOR R/VMJ R 09(,, ) RS/S0J R 0(,,9 ) RS/SJ R (,, ) RS/S0J R (,, ) R (,9, ) R (,00,0 ) R (,, ) R 9(,9, ) RS/S0J RS/SJ RS/S0J RS/S0J RS/S9J R (,,9 ) R (,, ) R (,, ) R (,, ) R 9(,,0 ) RS/SJ RS/SJ RS/S0J RS/SJ RS/S0R0J R 0(,, ) R (,00, ) R (,9,9 ) R (,,9 ) R (,, ) RS/S0J RS/S0J RS/SJ RS/S0J RS/SJ R 99(,, ) R 0(,, ) R 0(,,0 ) R (,0,0 ) R (,09, ) RS/S0R0J RS/S0J RS/SJ RS/S0J RS/S0J R (,, ) R (,, ) R (,, ) R (,9,9 ) R 9(,9, ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R (,, ) R 0(,,9 ) R 0(,9,99 ) R 0(,9,9 ) R 0(,, ) RS/SJ RS/SJ RS/SJ RS/SJ RS/S0J R 0(,, ) R 0(,,9 ) R 0(,, ) R 0(,, ) R 0(,, ) RS/S0J RS/S0J RS/SJ RS/SJ RS/SJ R 0(,, ) R 0(,,99 ) R 0(,9,9 ) R (,,9 ) R (,,99 ) RS/S0J RS/SJ RS/S0J RS/SJ RS/SJ R 0(,9, ) R 0(,, ) R 0(,, ) R (,,0 ) R (,9,9 ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R (,0, ) R (,, ) R (,9,9 ) R (,9, ) R 9(,,9 ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R 9(,0, ) R 0(,0, ) R (,, ) R (,00, ) R 99(,,9 ) RS/SJ RS/SJ RS/SJ RS/SJ RS/S0R0J R 0(,, ) R (,, ) R (,0,0 ) R (,, ) R (,,9 ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R 0(,0,0 ) R 0(,0,0 ) R 0(,00,9 ) R 0(,00, ) R 09(,, ) RS/SJ RS/SJ RS/S0R0J RS/S0R0J RS/S0J R (,,9 ) R (,, ) R 9(,, ) R 0(,, ) R (,,0 ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R 0(,, ) RS/S0J R (,9, ) RS/SJ R (,, ) RS/SJ R (,,0 ) RS/SJ XV-V000

75 Mark No. escription Part No. Mark No. escription Part No. R (,, ) RS/SJ R (,0, ) RS/SJ R (,, ) RS/SJ R (,, ) RS/SJ R 9(,,0 ) RS/SJ R (,9, ) RS/SJ R 0(,, ) RS/SJ R (,9, ) RS/SJ R (,, ) RS/SJ R (,0,9 ) RS/SJ R (,, ) RS/SJ R 9(,, ) RS/S0J R (,0,9 ) RS/SJ R 0(,9,9 ) RS/SJ R (,9, ) RS/SJ R 0(,0, ) RS/S00J R (,, ) R (,, ) R (,, ) R (,, ) R 9(,, ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R 0(,, ) R 0(,,9 ) R 0(,,0 ) R 0(,, ) R 0(,,0 ) RS/SJ R/PU0J RS/S0J RS/S0J RS/SJ R 0(,, ) R (,9, ) R (,9,0 ) R (,, ) R (,, ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R 0(,, ) R 0(,,9 ) R (,9, ) R (,9, ) R (,, ) RS/SJ R/PU0J RS/SJ RS/SJ RS/SJ R (,, ) R (,, ) R 9(,, ) R 0(,, ) R (,, ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R (,0,0 ) R (,,0 ) R (,, ) R (,, ) R (,, ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R (,, ) R (,, ) R (,,9 ) R (,, ) R 9(,, ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R 9(,, ) R 9(,, ) R 9(,0, ) R 9(,0, ) R 9(,, ) RS/SJ RS/SJ RS/SJ RS/S9J RS/SJ R (,,9 ) R (,,9 ) R (,,9 ) R (,,99 ) R 9(,,9 ) RS/S0J RS/SJ RS/SJ RS/SJ RS/SJ R 9(,, ) R 9(,,00 ) R 0(,, ) R 0(,, ) R 0(,9, ) RS/S0J RS/S0J RS/SJ RS/SJ RS/SJ R 0(,,9 ) R (,, ) R (,,9 ) R (,,0 ) R (,,0 ) RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J R 0(,, ) R 0(,, ) R 0(,, ) R (,, ) R (,, ) RS/SJ RS/S0J RS/S0J RS/SJ RS/SJ R (,, ) R (,,0 ) R (,, ) R 90(,,0 ) R 9(,, ) RS/S0J RS/S0J RS/SJ RS/SJ RS/SJ R (,, ) R (,, ) R (,, ) R (,, ) R (,0, ) RS/SJ RS/SJ RS/S0J RS/S0J RS/S0J R 9(,,9 ) R 9(,,9 ) R 9(,,9 ) R 9(,9, ) R 9(,, ) RS/S0J RS/SJ RS/SJ RS/SJ RS/SJ R (,9, ) R 9(,, ) R 0(,, ) R (,, ) R (,, ) RS/S0J RS/S0J RS/S0J RS/SJ RS/SJ R 0(,,9 ) R 0(,9, ) R 0(,, ) R 0(,,99 ) R 0(,, ) RS/SJ RS/S0J RS/S0J RS/SJ RS/SJ R (,, ) R (,, ) R 0(,,9 ) R 0(,,9 ) R 0(,9,9 ) RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J R 0(,, ) R (,,9 ) R (,9,0 ) R (,,0 ) R (,,0 ) RS/SJ RS/SJ RS/S0J RS/S0J RS/S0J R 0(,,9 ) R 0(,,9 ) R 0(,,9 ) R 0(,,9 ) R 0(,,9 ) RS/SJ RS/S0J RS/S0J RS/SJ RS/SJ R (,,0 ) RS/S0J R 09(,,9 ) RS/SJ R (,,0 ) RS/S9J R 0(,,9 ) RS/SJ XV-V000

76 Mark No. escription Part No. Mark No. escription Part No. R (,,9 ) RS/SJ R (,,0 ) RS/SJ R (,,0 ) RS/S0J R 9(,9,9 ) RS/S0J R (,,0 ) RS/S0J R (,,0 ) RS/SJ R (,,0 ) RS/S0J R 0(,0,0 ) RS/S0J R (,0,9 ) RS/S0J R 0(,0,0 ) RS/S0J R (,,0 ) R/PU0J R 0(,0,0 ) RS/S0J R (,,9 ) RS/SJ R 0(,0,09 ) RS/SJ R 0(,, ) RS/S0J R (,, ) HIP RSISTOR RS/SR0 R 0(,0, ) R 0(,, ) R 0(,, ) R 0(,, ) R 0(,, ) RS/S0J RS/S0J RS/SJ RS/SJ RS/SJ R (,, ) HIP RSISTOR R (,, ) HIP RSISTOR R (,,99 ) HIP RSISTOR R (,, ) HIP RSISTOR R (,,0 ) HIP RSISTOR RS/SR0 RS/SR0 RS/SR0 RS/SR0 RS/SR0 R 0(,, ) R 0(,, ) R 0(,, ) R 0(,, ) R (,, ) RS/SJ RS/S0J RS/SJ RS/SJ RS/SJ R 90(,9,0 ) R 90(,9, ) R 9(,,9 ) R 9(,,9 ) R 9(,,9 ) R/PU0J R/PU0J RS/SJ RS/SJ RS/SJ R (,, ) R (,, ) R (,, ) R (,, ) R (,, ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R 900(,, ) R 900(,, ) R 9009(,, ) R 900(,, ) R 90(,, ) RS/S0R0J RS/S0R0J RS/S0R0J RS/S0R0J RS/S0R0J R (,, ) RS/SJ R 90(,9, ) RS/S0R0J R (,0, ) RS/S0J R (,,9 ) RS/SJ PITORS R (,0, ) RS/SJ 0(,, ) TR0M0 R 9(,,9 ) RS/SJ 0(,, ) TR0M0 0(,, ) T00M0 R 0(,, ) RS/SJ 0(,, ) T00M0 R (,, ) RS/S0J 0(,9,0 ) SRH0J0 R (,,9 ) RS/S0J R (,, ) RS/S0J 0(,, ) SRH0J0 R (,,9 ) RS/S0J (,, ) KSRYK0 (,, ) KSRYK0 R (,9, ) RS/SJ (,,9 ) SRH0J0 R (,, ) RS/SJ (,9, ) SRH0J0 R 9(,, ) RS/SJ R (,, ) RS/S0J (,, ) T0M R (,,9 ) RS/S0J (,, ) TM (,, ) TR0M0 R (,, ) RS/S0J (,, ) TR0M0 R (,,99 ) RS/S0J 0(,9, ) T00M0 R (,, ) RS/S0J R (,,99 ) RS/S0J (,9, ) T00M0 R (,,9 ) R/PU0J (,, ) TRM0 (,, ) TRM0 R (,,9 ) R/PU0J (,, ) TRM0 R (,0, ) RS/SJ (,, ) TRM0 R (,0,0 ) RS/SJ R (,0, ) RS/SJ (,9, ) KSRY0K0 R (,0,0 ) RS/SJ (,, ) KSRY0K0 (,,0 ) T0M R 9(,0,0 ) RS/SJ (,, ) KSRY0K0 R 0(,99,0 ) RS/SJ (,0,9 ) T0M0 R (,,9 ) RS/SJ R (,,9 ) RS/SJ (,,9 ) KSRYK0 R (,9,9 ) RS/S0J (,, ) SRHJ0 (,00, ) TRM0 R (,0,9 ) RS/SJ (,,9 ) TR0M0 R 0(,,9 ) RS/S0J (,9,0 ) SRH0J0 R (,0,09 ) RS/S0J R (,,09 ) RS/S0J (,90,9 ) SRH0J0 R (,9, ) RS/S0J (,0, ) TRM0 (,,9 ) TRM0 R (,,9 ) RS/SJ 0(,, ) SRH000 R (,,0 ) RS/SJ XV-V000

77 Mark No. escription Part No. Mark No. escription Part No. 0(,, ) SRH000 9(,09, ) KSRY0K 0(,, ) 0(,, ) 0(,, ) ILM PITOR 0(,0, ) ILM PITOR 09(,,0 ) LT. PITOR SRHJ0 SRHJ0 QMJ0 QMJ0 T0M0 (,99,9 ) (,0,9 ) (,, ) (,, ) 0(,, ) KSRY0K0 KSRY0K0 SRH0J0 SRH0J0 SRHJ0 0(,, ) LT. PITOR (,9, ) (,9, ) (,, ) (,, ) T0M0 T00M0 T00M0 T0M KSRY0K0 0(,,90 ) 90(,, ) 9(,00, ) 9(,,00 ) 9(,99,0 ) LT. PITOR KSRY0K KSRY0K KSRYK KSRY0K0 XH0 0(,, ) 0(,,9 ) 0(,, ) 0(,, ) 0(,, ) ILM PITOR SRH0J0 SRH0J0 TR0M0 TR0M0 QMJ0 9(,9, ) 9(,9, ) 9(,90, ) 9(,9, ) 9(,9, ) KSRY0K KSRY0K T0M KSRY0K T0M 0(,,9 ) ILM PITOR 0(,, ) LT. PITOR 0(,, ) LT. PITOR 09(,, ) 0(,,0 ) QMJ0 T0M0 T0M0 QMJ0 QMJ0 0(,, ) 0(,, ) 0(,, ) 0(,, ) (,0, ) KSRY0K0 KSRY0K0 KSRY0K0 KSRY0K0 T00M0 9(,, ) 0(,, ) (,, ) (,,9 ) (,9, ) JQR0M0 JQR0M0 QMJ0 QMJ0 SRHJ0 (,, ) (,9, ) (,, ) 0(,0,9 ) 0(,, ) T00M0 T00M0 T00M0 T0M KSRYK (,9,0 ) (,, ) (,,9 ) (,, ) 0(,9, ) SRHJ0 T0M KSRYK0 KSRYK0 QMJ0 0(,,9 ) 0(,0,9 ) 0(,0,9 ) 0(,,9 ) 0(,,0 ) KSRY0K0 KSRY0K0 KSRY0K0 KSRYK0 KSRYK 0(,, ) 0(,9, ) 0(,, ) 0(,, ) 0(,, ) QMJ0 QMJ0 QMJ0 JQ0M0 JQ0M0 0(,,0 ) 09(,,0 ) (,,0 ) (,,0 ) (,,0 ) KSRYK KSRYK SRH0J0 T0M KSRYK 0(,, ) 0(,, ) PPS PITOR 09(,, ) RMI PITOR 0(,, ) (,, ) LT. PITOR T0M QHJ SLKH JQ0M0 JQRM0 (,0,9 ) (,,9 ) (,0,9 ) (,,9 ) 9(,,9 ) KSRYK KSRYK0 KSRYK0 KSRY0K0 KSRYK0 0(,,90 ) 0(,,9 ) 0(,0,90 ) 0(,9, ) 0(,,0 ) H T0M SRH0J0 KSRY0K0 TR0M0 0(,0,9 ) (,,9 ) (,,99 ) (,0,0 ) 0(,, ) KSRY0K0 T00M0 T0M KSRYK KSRY0K 0(,, ) 0(,,9 ) (,,9 ) (,, ) (,9,0 ) KSRY0K KSRY0K0 T00M0 KSRY0K KSRY0K0 0(,, ) 0(,, ) 0(,, ) 0(,, ) 0(,9, ) KSRY0K KSRY0K KSRYK TRM0 KSRYK (,,0 ) KSRY0K0 0(,9, ) T0M (,,0 ) KSRY0K0 0(,, ) TRM0 0(,,0 ) T0M 09(,, ) TRM0 0(,0, ) KSRY0K 0(,, ) TRM0 0(,, ) T0M (,, ) TRM0 9(,0,9 ) KSRY0K (,, ) KSRY0K0 0(,0,0 ) T0M 0(,0, ) SRHJ0 0(,9,9 ) L00M 0(,, ) SRHJ0 0(,0, ) KSRY0K0 09(,0,0 ) T00M0 XV-V000

78 Mark No. escription Part No. 0(,0, ) T00M0 (,0, ) KSRYK0 (,0, ) KSRYK0 (,9,0 ) T00M0 (,, ) T00M0 9(,,90 ) KSRY9K0 0(,, ) KSRY9K0 (,,0 ) T00M0 (,,9 ) T00M0 (,, ) KSRY0K0 (,,0 ) KSRY0K0 (,, ) T0M0 (,9,0 ) T0M0 (,0,0 ) T00M0 (,,9 ) T00M0 (,9,0 ) T00M0 Mark No. escription Part No. L 0 (,,) HIP SOLI INUTOR QTL0 L 0 (,,9) HIP SOLI INUTOR QTL0 L 0 (,,) HIP SOLI INUTOR QTL0 L 0 (,,) HIP SOLI INUTOR QTL0 L 0 (,,) HIP SOLI INUTOR QTL0 L 0 (,9,) HIP SOLI INUTOR TL00 L 0 (,0,0) HIP SOLI INUTOR TL00 L 90 (,9,) HIP SOLI INUTOR TL00 L 90 (,9,) HIP SOLI INUTOR TL00 L 9 (,9,) HIP SOLI INUTOR QTL0 X 0 (,,0) RYSTL RSONTOR XSS00 (.MHz) N0 (,,) 9P SOKT XKP00 N90 (,99,) 9P SOKT XKP0 N9 (,,) P SOKT XKP0 90 (,,) SRW PLT VN9 (,99,0 ) (,0, ) (,0,0 ) (,,0 ) (,0,9 ) (,,9 ) (,,0 ) (,,9 ) (,, ) (,0,0 ) (,,0 ) (,,9 ) (,, ) (,0, ) (,0, ) 0(,0, ) (,,09 ) (,0, ) (,9,09 ) (,, ) LT. PITOR (,,9 ) LT. PITOR (,,9 ) (,0, ) LT. PITOR (,,0 ) (,0, ) LT. PITOR (,,0 ) (,,9 ) LT. PITOR 90(,9, ) 90(,9, ) SP SSY MISLLNOUS I 0 (,,) IR I I 0 (,,) O I I 0 (,,) SP I I 0 (,,) I >I 90 (,9,) RGULTOR I I 9 (,9,) I 0 (,,) IO 0 (,,) IO 90 (,,) IO L 0 (,,9) HIP SOLI INUTOR T00M0 KSRY9K0 KSRY9K0 TRM0 KSRYK0 T00M0 KSRY0K0 KSRY0K0 T00M0 KSRY9K0 T00M0 T00M0 T0M SRH0J0 KSRY0K0 KSRY0K0 T00M0 T00M0 T00M0 T0MR T0MR SRH0J0 TMR SRH0J0 TMR SRH0J0 T0MR T0M T0M KV KVQ SP0 TWU0U 000WHP TVH0TS P0K N0K UZSR() QTL0 RSISTORS R 0 (,,) R 0 (,9,) R 0 (,9,9) R 0 (,,) R 0 (,0,) R 0 (,,) R 0 (,9,) R 0 (,9,) R (,9,) R (,9,) R (,0,) R 0 (,,) R 0 (,0,) R 0 (,,) R 0 (,,) R 0 (,,) R 0 (,9,) R 0 (,,) R 09 (,,) R 0 (,,) R (,9,) R (,,) R (,,) R (,,) R (,,) R (,,) R 0 (,,0) R 0 (,,9) R 0 (,,) R 0 (,,) R 0 (,,) R 0 (,,) R 0 (,0,) R 0 (,,0) R (,,) R (,,) R (,9,) R (,,) R (,,) R (,,) R (,,9) R (,,) RS/SJ RS/SJ RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/SJ RS/S0J RS/S0J RS/SRJ RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J R0J RS/S0J RS/S0J RS/S0J RS/S0J RS/SJ RS/SJ RS/S0J RS/S0J RS/SJ RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J XV-V000

79 Mark No. escription Part No. Mark No. escription Part No. R (,,) RS/SJ 0 (,,) KSRY0K R (,,) RS/S0J 0 (,,) SRHJ0 R (,,) RS/S0J 0 (,9,) KSRY0K R (,,) RS/S0J 09 (,,0) KSRY0KR R (,,) RS/S0R0J 0 (,9,0) KSRY0KR R (,0,9) RS/S0J (,0,) SRHJ0 R 9 (,,) RS/SJ (,0,) KSRY0K R (,,0) RS/S0J (,,) SRHJ0 R (,,) R (,0,) R (,,) R (,0,) R 90 (,00,) R0J RS/SJ RS/S0R0J RS/S0R0J RS/S0 (,,) 9 (,,) 0 (,0,) (,,) (,,) KSRY0K SRHR00 SRHR00 SRHJ0 KSRY0K R 90 (,0,9) R 90 (,9,) R 9 (,,) R 9 (,,) R 9 (,,) RS/S0 RS/S0J RS/S0J RS/S0J RS/S0J (,,) (,,) (,9,) (,,) (,,) KSRY0KR KSRY0KR KSRY0K0 KSRY0KR KSRY0KR R 9 (,,) R 9 (,,) R 9 (,,) R 99 (,,) R 90 (,,) RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J (,0,) 9 (,,) 0 (,,) (,,) (,,) SRHJ0 KSRY0K KSRY0KR KSRY0KR SRHJ0 R 9 (,9,9) R 9 (,9,) R 9 (,00,) PITORS 0 (,0,) 0 (,,) 0 (,9,) (,90,9) (,9,) (,,9) (,,9) (,,) 0 (,,9) 0 (,,9) 0 (,,0) 0 (,,) 0 (,,) 0 (,,) 0 (,,) 0 (,,) 09 (,9,) 0 (,,) (,,) (,,) (,9,) (,,) (,,) (,,) (,0,) RS/S0J RS/S0J R0J KSRY0K0 SRHJ0 KSRY0K KSRY0K KSRY0K0 VW0M KSRY0K SRHJ0 KSRY0K0 SRHJ0 VW0M KSRY0K SRH0J0 KSRY0K SRHJ0 SRHJ0 SRHJ0 SRHJ0 SRHJ0 SRHJ0 SRHJ0 SRHJ0 VW0M KSRY0K SRHJ0 (,,) (,,) (,,) 90 (,00,) 90 (,0,) 90 (,0,) 9 (,,0) 9 (,9,0) 9 (,,) 9 (,,) 9 (,9,) 9 (,90,) KY SSY MISLLNOUS KSRY0K VW0M VW0M KSRY0K VW0M VW0M SRHJ0 KSRY0K0 KSRY0K SRHJ0 SRHJ0 KSRY0K J (,0, ) JUMPR WIR 0PYY0 S 0(,0, ) SWITH VSG009 S 0(,, ) SWITH VSG009 S 0(,, ) SWITH VSG009 S 0(,9, ) SWITH VSG009 S 0(,, ) SWITH VSG009 9 P L HOLR RSISTORS R 0(,9, ) R 0(,9, ) R 0(,9, ) R 0(,, ) R 0(,,0 ) RS/S0J RS/SJ RS/SJ RS/SJ RS/SJ (,0,) 0 (,0,0) 0 (,,) 0 (,,9) 0 (,,) VWRM0 KSRY0K SRHJ0 KSRY0K KSRY0KR R 0(,9,0 ) R 0(,0,9 ) R 0(,, ) R 0(,, ) R 0(,0,9 ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ 0 (,,) 0 (,,) KSRY0KR SRHJ0 R 0(,09, ) R 0(,9, ) RS/SJ RS/SJ XV-V000 9

80 R 0(,, ) R 0(,, ) R 0(,, ) R 0(,,9 ) R 0(,, ) R 0(,, ) R 0(,,9 ) R 0(,0, ) R 0(,, ) R 0(,,9 ) R 0(,, ) R 0(,,0 ) R 0(,, ) R 0(,, ) R 0(,0, ) R 0(,, ) L SSY MISLLNOUS Mark No. escription Part No. Q 9(,09, ) TRNSISTOR(S-9) Q 0(,, ) TRNSISTOR(S-9) 0(,0, ) L(WHIT) 09(,, ) L(WHIT) (,, ) L(WHIT) (,, ) L(LU) (,9, ) L(LU) 9(,09, ) IO (,, ) IO (,, ) IO RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ S0 S0 NSPW0S-90 NSPW0S-90 NSPW0S-90 NSP0S-0 NSP0S-0 UZSR() UZSR() UZSR() (,, ) IO UZSR() (,, ) IO UZSR() J (,, ) JUMPR WIR 0PYY00 L OVR(PLS) XMR099 0 P L HOLR RSISTORS R 9(,, ) R 0(,, ) R (,, ) R (,, ) R (,, ) R (,9, ) R (,90, ) R 9(,9, ) R 0(,9, ) G ISPLY SSY MISLLNOUS Q 0(,99, ) IGITL TR(S-0) Q 0(,99,9 ) IGITL TR(S-0) Q 0(,,0 ) IGITL TR(S-0) Q 0(,0,0 ) TRNSISTOR(S-9) Q 0(,0,09 ) TRNSISTOR(S-9) RS/S0J RS/S0J R/PUJ RS/0SJ RS/0SJ RS/0SJ RS/0S9J RS/0S9J RS/0S9J RTNM RTNM RTNM S0 S0 Mark No. escription Part No. (,,9 ) IO 0(,9,0 ) IO 0(,90, ) L(WHIT) L 0(,0, ) XIL INUTOR S 0(,9, ) SWITH S 0(,, ) SWITH S 0(,, ) SWITH S 0(,, ) SWITH S 0(,, ) SWITH S 0(,,9 ) SWITH S 0(,,0 ) SWITH S 0(,, ) SWITH S 0(,, ) SWITH S 0(,0, ) SWITH S 0(,,9 ) SWITH S 0(,0,0 ) SWITH S 0(,, ) SWITH S 0(,0,0 ) SWITH S 0(,,9 ) SWITH M UZSR() NSPW00S- LU0J VSG009 VSG009 VSG009 VSG009 VSG009 VSG009 VSG009 VSG009 VSG009 VSG009 VSG009 VSG009 VSG009 VSG009 VSG009 N0(,, ) P ONNTOR 0- N0(,00, ) ONNTOR 0P 9-00 P SPR (PLS) X09 P L HOLR P L HOLR L HOLR (PLS) XMR0 L HOLR (PLS) XMR0 0RMOT RIVR UNIT GPUMXK0V RSISTORS R 0(,, ) R 0(,0, ) R 0(,0, ) R 0(,09,0 ) R 0(,09, ) R 0(,09,9 ) R 0(,09,0 ) R 0(,0, ) R 09(,0, ) R 0(,0,0 ) R (,,0 ) R (,, ) R (,09, ) R (,0, ) R (,0, ) R (,09,0 ) R (,,0 ) R (,,0 ) R 9(,0,0 ) R (,0, ) R 0(,, ) R 0(,,9 ) R 0(,,0 ) R 0(,, ) R 0(,, ) RS/S0J RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/S0J RS/SJ RS/SJ RS/SJ RS/SJ 0(,,9 ) L(LU) 0(,, ) L(ORNG) 0(,, ) L(GRN) 0(,,0 ) IO 0(,9, ) L(WHIT) SLR-T(GHJ) SLI-W(STU) SLR-M(NPQ) UZSR() NSPW00S- R 0(,,9 ) R 0(,,0 ) R 09(,,0 ) R 0(,, ) R (,0,9 ) RS/SJ RS/S0J RS/S0J R/PUJ RS/S0J 0 (,,9 ) IO M R (,,0 ) RS/S0J XV-V000

81 Mark No. escription Part No. Mark No. escription Part No. R (,,0 ) RS/SJ 0(,0, ) SRH0J0 0(,0, ) KSRY0K0 PITORS 0(,0, ) KSRYK0 0(,9, ) KSRY0K0 0(,0, ) KSRYK0 0(,90, ) L0M 0(,0,00 ) KSRY0K0 0(,9, ) KSRY0K 0(,09, ) SRH000 0(,09,9 ) KSRYK0 0(,0, ) SRH0J0 09(,0,9 ) L0M 0(,0,9 ) JQRM0 0(,0,09 ) KSRY0K0 (,0,9 ) KSRY0K0 0(,, ) L0M0 (,0, ) KSRY0K H HP/MI SSY MISLLNOUS I 0(,0,9 ) HO I I 0(,0,0 ) OP-MP I Q 0(,,0 ) IGITL TR(S-0) 0(,, ) ZNR IO L 90(,0, ) INUTOR L 90(,0, ) INUTOR L 0(,, ) RRI INUTOR J 90(,, ) JUMPR WIR J 0(,0,0 ) JUMPR WIR J0(,9,0 ) MI JK U9S H RTPM MTZJ. T99 T99 LU00J 0PYY00 0PYY00 XKN0 J0(,9,0 ) MI JK XKN0 J0(,9,0 ) MINITUR JK KN00 VR0(,9,90 ) VRIL( 0K-X) XS00 P L HOLR P L HOLR RSISTORS R 90(,0, ) R 90(,, ) R 90(,09, ) R 90(,, ) R 909(,, ) R 0(,, ) R 0(,99, ) R 0(,, ) R 0(,0, ) R 0(,0, ) R 0(,0, ) R 0(,,9 ) R 0(,0,9 ) R 09(,0,9 ) R (,0,9 ) R (,0, ) R (,0, ) R (,0, ) R (,0, ) R 0(,0, ) R (,99, ) R (,, ) R (,9, ) R 0(,09,0 ) RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J R/PUJ RS/S9J RS/S0J RS/SJ RS/S0J RS/S0J RS/SJ RS/SJ RS/S0J RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/S9J RS/S0J RS/SJ RS/SJ RS/SJ (,0,9 ) (,, ) 9(,0, ) 0(,00, ) (,0, ) (,0, ) (,0, ) (,0,9 ) (,,9 ) (,, ) 9(,, ) 0(,0,9 ) (,09, ) (,, ) (,0, ) KSRYK0 LRM0 SRH0J0 JQ0M JQRM0 JQRM0 SRH0J0 JQRM0 SRH0J0 SRH0J0 KSRY0K KSRY0K0 JQRM0 JQRM0 KSRY0K I MP SSY MISLLNOUS >I (,0,0) RGULTOR I TS >I (,,0) RGULTOR I T90S >I (,,9) I T0S >I 0(,,) UIO I STK-0 I 0(,,) OP-MP I H I 0(,,) OP-MP I H >I 0(,,0) UIO I STK-0 Q (,0,) TRNSISTOR S >Q 9 (,0,9) MOS T SJ0 Q9 (,,) TRNSISTOR S0 Q 0 (,09,0) HIP TR (PNP X ) Q 0 (,,0) TRNSISTOR Q 0 (,9,9) HIP TR (PNP X ) Q 0 (,,9) TRNSISTOR Q (,,) TRNSISTOR UMN UMHN UMN UMHN S0 Q 0(,,) UL HIP TRNSISTOR XP0 Q (,0,99) TRNSISTOR S0 Q (,,99) TRNSISTOR S >Q (,,0) MOS T SJ0 >Q (,,0) MOS T SK Q (,,) TRNSISTOR Q 0(,,9) UL HIP TRNSISTOR Q (,9,0) TRNSISTOR Q 0(,,9) TRNSISTOR Q 0(,,0) TRNSISTOR S0 XP0 S0 SK SK PITORS 90(,, ) 90(,, ) 90(,, ) 0(,0, ) 0(,0, ) KSRYK KSRYK KSRY0K0 JQ0M KSRY0K Q (,0,) HIP TRNSISTOR Q (,9,) TRNSISTOR Q (,0,) HIP IGITL TRNS. Q (,,) TRNSISTOR Q (,,9) N-T Q (,0,9) N-T RN90 TTK TU SS SK SK XV-V000

82 Mark No. escription Part No. Q (,,) N-T SK Q 0(,,) HIP IGITL TRNS. TU (,9,) IO M > (,9,0) IO MTZJ() > (,9,0) IO MTZJ() > (,9,) IO MTZJR() 9 (,,) HIP ZNR IO UZS > 9 (,,) IO MTZJ() 0 (,,0) IO M 0 (,0,9) IO M 0 (,,) IO UZSR() 0 (,9,9) IO UZSR() > 0(,,0) IO M > (,,) IO SR9-00 > (,,) IO SR9-00 > (,,) IO SR9-00 > (,0,) IO SR9-00 > (,,) IO SR9-00 > (,,9) IO SR9-00 (,,) IO SR9-00 (,,) IO SR9-00 > (,,) IO N > (,,) IO N (,,90) IO MTZJ() (,,9) IO (,9,9) IO (,,90) IO 9(,,) IO 90(,,) IO MTZJ() SS SS MTZJ0() MTZJ0() > 9(,0,) IO 0P0- > 9(,,) IO 0P0-9(,,0) IO MTZJ() 9(,0,) IO MTZJ() > 0(,,0) IO M > (,0,9) IO SR9-00 > (,,) IO SR9-00 > (,,9) IO SR9-00 > (,,) IO SR9-00 > (,0,99) IO SR9-00 > (,,) IO SR9-00 (,,0) IO SR9-00 (,,) IO SR9-00 > (,,) IO N > (,,) IO N > (,,) IO N > (,,) IO N 0(,0,) IO SG 0(,9,) IO SG 0(,,) IO SG 0(,,) IO (,9,) IO (,0,) IO (,99,) IO (,0,0) IO >TH (,9,) THRMISTOR N00(,,) P PLUG N00(,,) P PLUG N(,,) PLUG(P) RSISTORS SG SS SS M UZSR9() NPW0J0R XKP0 XKP0 KM00S Mark No. escription Part No. R (,,) RS/SJ R (,,) RS/S0J R (,,) RS/S0 R (,9,) RS/S0 R (,9,) MTL OXI RSISTOR RSLMJ R 9 (,,) RS/S0J R 9 (,0,) RS/S0J R 9 (,,) RS/SJ R 9 (,9,) RS/S0 R 9 (,,) RS/S0 R 9 (,,9) RS/S00 R 9 (,,0) RS/S00 R 0 (,,0) RS/S0J R 0 (,,) RS/S0J R 0 (,,0) RS/S0J R 0 (,9,9) R 0 (,0,9) R 0 (,0,9) R 0 (,0,0) R 09 (,,0) R (,90,) R (,,) R (,9,) R (,0,) R 0(,,0) R 0(,,) R 0(,,) R 0(,,9) R 0(,,) R 0(,,) R 0(,,) R 0(,9,) R 09(,9,) R 0(,,) R (,,0) RS/S0J RS/S0J RS/S0J RS/SJ RS/SJ RS/S0J RS/S0J RS/SJ RS/S0R0J RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R (,0,) RS/SJ R (,,) RS/S9J R (,,) RS/S9J R (,0,9) MTL OXI RSISTOR N R (,,0) MTL OXI RSISTOR N >R (,,0) RS/SR0J >R (,,0) RS/SR0J >R (,9,0) RON ILM RSISTOR R/MU0J >R (,0,9) RON ILM RSISTOR R/MU0J >R (,0,) RS/SR0J R (,,) R (,,) R (,,) R (,,) R (,,) R (,,0) R (,,0) R (,,9) R (,,9) R (,,) R (,,) R 9(,,0) R 90(,,0) R 9(,9,) R 9(,,) RS/S0R0J RS/S0R0J RS/S0R0J RS/S0J RS/S0J RS/S0J RS/S0J RS/SJ RS/SJ R/PU0J R/PU0J RS/S0J RS/S0J RS/S0R0J RS/S0R0J XV-V000

83 Mark No. escription Part No. Mark No. escription Part No. R 9(,,) RS/SJ R (,0,) RS/SJ R 9(,,) RS/S0J R (,,9) RS/SJ R 9(,,) RS/SJ R (,,9) RS/SJ R 9(,,) RS/SJ R 9(,,) RS/SJ R 0(,,) RS/S0J R (,9,) RS/S0J R 0(,,) R 0(,,) R 0(,,) R 0(,,9) R 0(,9,9) RS/S0J RS/SJ RS/SJ RS/SJ RS/SJ R (,,9) R (,,) R (,,0) R (,,) R (,,) RS/S0J RS/SJ RS/SJ RS/S0J RS/S0J R 0(,,9) R 0(,,00) R 09(,,9) R 0(,,00) R (,,0) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R (,9,) R 9(,,0) R 0(,,) R (,,9) R (,,) RS/SJ RS/SJ RS/SJ RS/S9J RS/SJ R (,,) R (,9,) R (,,) R (,,9) MTL OXI RSISTOR R (,9,9) MTL OXI RSISTOR RS/SJ RS/S0J RS/S0J N N >R (,,99) RS/SR0J >R (,,0) RS/SR0J >R (,,) RON ILM RSISTOR R/MU0J >R (,,) RON ILM RSISTOR R/MU0J >R (,,0) RS/SR0J R 9(,,9) R 9(,9,) R 9(,,0) R 9(,,0) R 9(,0,0) R 9(,,0) R 0(,9,) R 0(,,) R 0(,,) R 0(,,) R 0(,9,9) R 0(,9,) R 0(,9,0) R 0(,,) R 09(,,0) R 0(,9,) R (,,) R (,9,) R (,,) R (,,) RS/S0R0J RS/S0R0J RS/SJ RS/S0J RS/SJ RS/SJ RS/S0J RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/S0J RS/SJ R (,,) MTL OXI RSISTOR N R (,,9) MTL OXI RSISTOR N R 9(,,09) RS/S0R0J R 9(,,) RS/S0R0J R (,9,) RS/SJ R (,00,9) R (,,) R (,,) R (,0,) R (,9,) R (,,) R (,,) R (,,9) R (,,9) R (,0,0) RS/SJ RS/SJ RS/SJ R/PU0J RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R (,,) R (,,) RS/S0J RS/SJ PITORS (,9,0) LT. PITOR JQ0M (,,) KSRYK0 (,,0) KSRYK0 (,,0) T00M0 (,,) KSRYK0 (,90,0) LT. PITOR T0M 9 (,,) KSRY0K 9 (,0,) SRHJ0 9 (,,) LTR. PITOR L0M 0 (,09,9) TR0M0 0 (,9,9) (,,) (,,) (,,) 9(,,) LTR. PITOR 0(,,) 0(,,) 0(,,) 0(,,) 0(,,) 0(,9,) 0(,,) 0(,,) 09(,,0) 0(,,) (,,) LT. PITOR (,9,) LT. PITOR (,9,) LT. PITOR (,,) LT. PITOR (,,9) (,0,) 0(,,0) 0(,,0) 0(,0,9) 0(,,0) 0(,0,9) 0(,,0) 0(,,) 0(,,9) 09(,,0) 0(,,) TR0M0 LRM0 LRM0 LRM0 L00M0 LRM0 LRM0 KSRY0K0 KSRY0K0 SRH0J0 SRH0J0 L00M L00M SRHR00 SRHR00 T0M T0M TRM TRM TM0 TM0 LRM0 LRM0 KSRY0K0 KSRY0K0 SRH0J0 SRH0J0 L00M L00M SRHR00 SRHR00 XV-V000

84 Mark No. escription Part No. (,,) LT. PITOR (,,) LT. PITOR (,,) (,,) 0(,,0) 0(,,) 0(,,0) 0(,,) 0(,,0) 0(,,) 0(,,9) 0(,,) 09(,,) 0(,,) (,9,) (,9,0) LT. PITOR (,00,) LT. PITOR (,,) (,,) (,,) (,,9) LT. PITOR (,,9) LT. PITOR (,,) (,9,0) 0(,,9) J POWR SSY MISLLNOUS TRM TRM TM0 TM0 LRM0 LRM0 KSRY0K0 KSRY0K0 SRH0J0 SRH0J0 L0MR L00M SRHR00 SRHR00 T0M T0M T0M LR0M0 LR0M0 LRM0 T0M T0M KSRY0K0 KSRY0K0 TR0M0 >I (,0, ) PROTTOR() K0 I 0(,9,0 ) OP-MP I H I 0(,,0 ) OP-MP I H I 0(,,0 ) OP-MP I H I 0(,, ) OP-MP I H I 0(,,0 ) LTRI VOL I H V >I 0(,, ) PROTTOR() K0 I 90(,, ) UL OP-MP NJMM >I 0(,0, ) RGULTOR I NJMM Q (,0, ) TRNSISTOR SX Q (,, ) TRNSISTOR S0 Q (,9,0 ) IGITL TR(S-0) RTPM Q 0(,9, ) TRNSISTOR S0 Q 0(,,9 ) TRNSISTOR S0 Q (,,0 ) TRNSISTOR S0 Q (,9,0 ) TRNSISTOR Q (,, ) TRNSISTOR Q (,, ) TRNSISTOR Q (,, ) TRNSISTOR Q (,9, ) HIP TR (PNP X ) Q (,, ) HIP TRNSISTOR Q (,0, ) IGITL TR(S-0) Q (,0, ) TRNSISTOR Q (,, ) TRNSISTOR Q 9(,, ) TRNSISTOR S0 S0 S0 S0 UMN RN90 RTPM S0 S0 S Q 0(,, ) TRNSISTOR RTNM Q 90(,, ) TRNSISTOR IMX9 Q 90(,0, ) TRNSISTOR IMX9 Q 909(,, ) TRNSISTOR S > (,, ) IO S0() Mark No. escription Part No. > (,, ) IO S0() > (,, ) IO S0() > 0 (,, ) RIG IO SN0 (,,0 ) IO N (,9, ) IO SS 9 (,, ) IO UZS0() 0(,, ) IO UZSR() 0(,, ) IO UZSR() 0(,0,90 ) IO M 0(,,90 ) IO M 0(,0, ) IO (,,0 ) IO (,,00 ) IO (,,0 ) IO (,,9 ) IO (,, ) IO (,, ) IO (,, ) IO (,, ) IO (,0, ) IO P0K M M P0K M M P0K MTZJR() SS SS (,, ) IO SS (,, ) IO N0K (,, ) IO M 90(,9,0 ) IO P0K >L (,0, ) LIN ILTR XT00 L (,9, ) OIL L (,, ) OIL L (,,0 ) OIL L (,,0 ) OIL L (,9, ) OIL TH-09 TH-09 TH-09 TH-09 TH-09 L (,9, ) OIL TH-09 >N (,,0 ) INLT P XKP0 H (,,0 ) US LIP KR00 H (,0,0 ) US LIP KR00 H (,0,0 ) US LIP KR00 H (,,0 ) US LIP KR00 J 00(,9, ) JUMPR WIR P 0PYY J0(,,0 ) SPKR TRMINL P XK0 >RY (,, ) POWR RLY XSR00 >S (,,0 ) VOLTG SLTOR XKX00 >T (,0, ) STNY TRNSORMR TT00 >N (,0, ) ONNTOR P-VH >N (,0, ) P-VH ONNTOR P-VH N (,, ) ONNTOR P-VH N00(,,9 ) PJUMPR ONNTOR -00 N0(,,0 ) ONNTOR 0- N0(,,0 ) PJUMPR ONNTOR -0 N0(,, ) PJUMPR ONNTOR -0 N0(,, ) P ONNTOR 0- P INR V00 SRW Z0P00T P INR V00 RSISTORS R (,,0 ) RS/S0J R (,,0 ) RS/S0J R (,,0 ) RS/S0J R (,,0 ) RS/S0J R (,, ) RS/SJ R 9 (,, ) RS/SJ R 90 (,, ) RS/SJ XV-V000

85 Mark No. escription Part No. Mark No. escription Part No. R 09(,, ) RS/S0R0J R (,0, ) RS/0S0J R 0(,, ) RS/SJ R (,9,0 ) RS/0S0J R 0(,, ) RS/SJ R (,0, ) RS/0S0J R 0(,9,9 ) RS/SJ R (,,99 ) RON ILM RSISTOR R/PM0J R 0(,, ) RS/SJ R (,,0 ) RON ILM RSISTOR R/PM0J R 0(,, ) RS/SJ R (,, ) RS/SRJ R 0(,, ) RS/SJ R (,,9 ) RS/SRJ R (,,9 ) RS/S0R0J R (,, ) RS/0S0J R (,, ) R (,0,9 ) R (,, ) R (,, ) R 9(,9, ) RS/S0R0J RS/SJ RS/SJ R/PMJ R/PMJ R (,,0 ) RS/0S0J R (,, ) RS/0S0J R (,,0 ) RS/0S0J R (,0, ) RON ILM RSISTOR R/PM0J R (,,9 ) RS/SRJ R (,,9 ) R (,, ) R 0(,,0 ) R (,,0 ) R (,,0 ) RS/S0R0J RS/SJ RS/S0J RS/S0J RS/S0J R (,,0 ) R (,,0 ) R (,0,0 ) R 0(,0, ) R 0(,0, ) RS/SRJ RS/0S0J RS/0S0J RS/SJ RS/SJ R (,9,00 ) R (,,99 ) R (,,99 ) R (,, ) R (,, ) RS/S0J RS/S0J RS/SJ RS/SJ RS/SJ R 0(,0, ) RS/SJ R 0(,, ) RS/SJ R 0(,90, ) RS/SJ R 0(,,9 ) RS/SJ R 0(,9,0 ) RSISTOR (0.OHM,W) N R 9(,, ) R 0(,, ) R (,, ) R (,,0 ) R (,,9 ) RS/SJ RS/SJ R/PU0J R/PU0J RS/S0J R 0(,09,0 ) RSISTOR (0.OHM,W)N R (,0,9 ) RS/SJ R (,0,99 ) RS/SJ R (,,0 ) RS/SJ R (,,99 ) RS/SJ R 0(,, ) R (,,99 ) R (,,0 ) R (,0,99 ) R (,,0 ) RS/S0J RS/SJ RS/SJ RS/SJ RS/SJ R (,,0 ) RS/SJ R (,,0 ) RS/SJ R (,,99 ) RSISTOR (0.OHM,W) N R (,,9 ) RSISTOR (0.OHM,W) N R (,, ) RS/SJ R (,, ) R (,, ) R (,, ) R (,, ) R (,0,0 ) R/PU0J R/PU0J RS/SJ RS/SJ RS/SJ R (,, ) R (,, ) R (,, ) R (,,9 ) R (,, ) RS/SJ RS/SJ RS/SJ RS/SJ RS/SJ R (,, ) R (,, ) R 0(,, ) R 0(,, ) R 0(,, ) RS/SJ RS/SJ RS/S0J R/PU0J RS/S0J R (,0,0 ) RSISTOR (0.OHM,W) N R (,0,0 ) RSISTOR (0.OHM,W) N R (,, ) R/PUJ R (,9, ) R/PUJ R (,0, ) R/PUJ R 0(,,0 ) R (,, ) R (,, ) R (,,9 ) R (,, ) R/PU0J RS/SJ RS/SJ RS/SJ RS/SJ R (,, ) R/PUJ R (,0, ) R/PUJ R (,, ) RS/S0J R 9(,, ) RS/SJ R (,, ) RON ILM RSISTOR R/PM0J R (,, ) R (,9,9 ) R (,,9 ) R (,,9 ) R 0(,,0 ) RS/S0J RS/S0R0J RS/S0R0J RS/S0R0J RS/S0R0J R (,,0 ) R (,0,0 ) R (,,9 ) R 9(,, ) R 90(,, ) RS/0S0J RS/0S0J R/PUJ RS/SJ R/PU0J R (,9, ) RS/S0R0J R (,,0 ) RS/S0R0J R (,90, ) RON ILM RSISTOR R/PM0J R (,09, ) RON ILM RSISTORR/PM0J R (,9,9 ) RS/SRJ R 90(,, ) R 90(,, ) R 90(,, ) R 90(,,9 ) R 9(,, ) R/PU0J RS/SJ RS/SJ RS/SJ R/PU0J R (,,9 ) RS/SRJ R 9(,, ) R/PU0J R (,9,0 ) RS/0S0J R 9(,, ) RS/SJ XV-V000

86 R 9(,, ) R 9(,, ) R 9(,, ) R 9(,, ) R 9(,, ) R 9(,, ) R 9(,, ) R 9(,0, ) R 9(,, ) R 9(,9,9 ) R 99(,,0 ) R 90(,, ) R 9(,, ) R 9(,,9 ) R 9(,, ) R 9(,9,9 ) R 9(,9, ) R 9(,9, ) Mark No. escription Part No. RS/SJ RS/SJ RS/S9J RS/S9J RS/SJ RS/SJ RS/S9J RS/S9J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0J RS/S0R0J RS/S0R0J RS/S0J RS/S0J PITORS > (,,0 ) ILM PITOR 0 > (,0, ) ILM PITOR 0 (,0, ) LT. PITOR XH0 (,, ) LT. PITOR XH0 (,09, ) LT. PITOR XH0 (,09, ) LT. PITOR XH0 (,, ) LT. PITOR TM (,, ) LT. PITOR T0M (,9, ) TR0M0 (,, ) T00M0 (,9,0 ) KSRY0K0 09(,, ) T00M0 09(,, ) T00M0 (,, ) TM0 (,, ) TM0 (,, ) (,, ) (,, ) (,9, ) (,, ) (,, ) (,, ) (,, ) (,, ) (,, ) (,9,00 ) (,, ) (,,9 ) 9(,, ) 0(,9, ) 9(,,0 ) 0(,,99 ) (,,0 ) 9(,, ) 0(,, ) (,, ) (,,09 ) (,, ) (,, ) (,, ) KSRY0K KSRY0K KSRY0K KSRY0K KSRY0K KSRY0K KSRYK0 KSRYK0 SRH0J0 SRH0J0 SRHJ0 KSRY0K0 KSRY0K0 T0M T0M KSRY0K KSRY0K SRH0J0 KSRY0K KSRY0K KSRY0K0 KSRY0K0 T00M0 T00M0 KSRYK0 Mark No. escription Part No. (,9, ) 9(,,0 ) 0(,9,0 ) (,,0 ) HIP PITOR (,,0 ) (,,0 ) 9(,9, ) 90(,9, ) (,,99 ) (,,0 ) (,,9 ) (,, ) (,, ) (,, ) (,,9 ) (,, ) 9(,, ) (,0, ) (,00,9 ) (,,9 ) (,9,9 ) (,,0 ) (,9,09 ) (,0, ) (,9, ) (,09, ) 9(,9, ) HIP PITOR 0(,0, ) HIP PITOR (,, ) (,,9 ) (,, ) (,,9 ) (,, ) (,,0 ) (,0, ) (,,0 ) 9(,, ) HIP PITOR 0(,0, ) HIP PITOR (,0,0 ) (,0,9 ) (,,0 ) (,,9 ) (,,0 ) (,,0 ) 9(,,0 ) HIP PITOR (,, ) LT. PITOR (,,0 ) LT. PITOR (,, ) (,,0 ) (,,0 ) (,0, ) 9(,, ) HIP PITOR 90(,, ) 90(,0, ) 90(,, ) 909(,, ) 90(,, ) 9(,, ) 9(,, ) 9(,9, ) KSRYK KSRYK KSRY0K KSRYK KSRY0K KSRYK T00M0 T00M0 KSRYK0 KSRYK0 KSRYK0 KSRYK0 KSRYK0 KSRYK0 KSRYK0 KSRYK0 KSRY0K KSRYK0 KSRYK KSRYK KSRYK KSRYK KSRYK KSRYK KSRYK KSRYK XG00 XG00 KSRYK KSRYK KSRYK KSRYK KSRYK KSRYK KSRYK KSRYK XG00 XG00 KSRYK KSRYK KSRYK KSRYK KSRYK KSRYK XG00 TRM TMR T00M0 KSRYK KSRYK KSRY0K0 XG00 KSRY0K0 KSRY0K0 T00M0 SRH0J0 SRH0J0 T0M T0M SRH0J0 XV-V000

87 Mark No. escription Part No. 9(,, ) SRH0J0 9(,, ) KSRY0K 9(,,0 ) KSRY0K 9(,, ) T00M0 9(,, ) T00M0 9(,,9 ) 9(,,9 ) 9(,,0 ) LT. PITOR 9(,, ) LT. PITOR 9(,, ) T00M0 T00M0 NP0M NP0M T0M 90(,, ) MYLR ILM PITOR QM0K 90(,, ) MYLR ILM PITOR QMK 90(,,0 ) MYLR ILM PITOR QM0K K TR SSY MISLLNOUS J 0(,90, ) JUMPR WIR P 0PYY J 0(,90, ) JUMPR WIR 0PYY N0(,,9 ) P SOKT XKP0 N0(,, ) P SOKT XKP0 N0(,,00 ) ONNTOR 0- P L HOLR 0-00 XV-V000

88 . JUSTMNT. K STION.. JUSTMNT ONITION djustment ondition () The ground at the time of adjustment shall be W. (Refer to ig. ). () lean the heads and demagnetize them using a head eraser. () Set the measurement level to 0 dv = Vrms. () Use the specified tape for adjustment. Use the labeled () side of the test tape. NT : or Tape Speed adjustment NT- : or Playback adjustment ST : Normal blank tape * s the reference recording level is 0 nwb/m for NT, the recording level will be higher than d for NT (0nwb/m). When adjusting, pay carefully attention to the type of tape used. () Provide yourself with the following measuring devides: millivoltmeter Low-frequency oscillator ttenuator Oscilloscope () djust both right and left channels unless other wise specified. () Turn the OLY NR switch off unless otherwize specified. () Warm up the unit for several minutes before adjustment. In particular, be sure to warm up the unit in the R/PLY mode for to minutes before starting recording/playback frequency characteristics adjustment. (9) lways follow the indicated adjustment order. Otherwise, a complete adjustment may not be achieved. List of djustments Playback Section () Tape Speed onfirmation () Head zimuth djustment () Playback Level djustment Recording Section () Recording ias djustment () Recording Level djustment PLY K 0 d RORING 0 d.k 0k d d.k 0k d d ig. - requency haracteristics olby noise reduction manufactured under license from olby Laboratories Licensing orporation. OLY and the double- symbol are trademarks of olby Laboratories Licensing orporation. 0 d 0s Hz 0 d: Hz, 0 nwb/m 0 s 0 s 0 s 0s 0s... 0s 0 d. khz 0 khz Hz khz khz 0 khz khz khz khz khz khz Hz Hz Hz Hz 0 Hz ig. - Test Tape NT XV-V000

89 .. PLYK and RORING STION Playback Section () Tape Speed onfirmation No. Mode Input Signal/Test Tape djustment Points Measurement Points djustment Value Remarks PLY NT- ( khz) J. VR on SSTT MH (Refer to ig. -) P R (N0) (I SSY) Hz 0 Hz W adjustment RV onfirmation +0 ( 000 Hz 0 Hz ) () Head zimuth djustment This unit is equipped with auto tape selector. o not switch between forward and reverse operation with the screwdriver inserted. No. Mode Input Signal/Test Tape djustment Points Measurement Points djustment Value Remarks PLY NT-0 test tape (Playback: 0 khz, 0 d) Head azimuth adjustment Screw (Refer to ig. -) P L (N0) P R (N0) (I SSY) Max. Playback signal level fter adjustment, apply silicon bond to the head azimuth adjustment screw. () Playback Level djustment Since this adjustment determines playback olbynr level, Perform it carefully. No. Mode Input Signal/Test Tape djustment Points Measurement Points djustment Value Remarks PLY NT- test tape (Playback: Hz, d) L ch R ch VR0 VR0 P L (N0) P R (N0) (I SSY). dv Recording Section () Recording ias djustment fter the adjustment, caution should be exercised so as not to become under bias by checking the distortion rate. No. Mode Input Signal/Test Tape djustment Points Measurement Points djustment Value Remarks R/ PUS R = PLY Input a Hz signal to the LIN - IN terminal. Load the ST test tape and record/playback the Hz and 0kHz signals. (see the Note below) Input signal level L ch VR0 R ch VR0 P L (N0) P R (N0) (I SSY). dv Repeat adjustment until playback level of the 0kHz signal is within 0dV ±0.d from that of the Hz signal. Note: Set the 0kHz input signal level to the same value as the Hz input signal level of step. () Recording Level djustment No. Mode Input Signal/Test Tape djustment Points Measurement Points djustment Value Remarks R/ PUS R = PLY Input a Hz signal to the LIN- IN terminal. ST test tape and record/ playback the Hz signal. Input signal level L ch VR0 R ch VR0 P L (N0) P R (N0) (I SSY). dv Repeat recording, playback and adjustment until playback level of the Hz signal becomes.dv±0.d. XV-V000 9

90 L I SSY 0 W9 GN KN0 I SSY SI N0 (K TP) MHNISM UNIT ront Side W zimuth djustment Screw Tape Speed J. VR RV zimuth djustment Screw assette Mechanism Section (Side View) VR0 (Lch) P LVL VR0 (Rch) W W W + + P+ NM(V) NM(T) PR+M R+M N R+ R+ - TX +TX + OTT T MUT LT LLK POW T R T U GNM (V) VPR+M W R0 L0 GN W W R0 R0 0 W W Q0 RR IT W Rch W 0 W 0 Q0 Q0 0 W0 W W 0 0 W0 VR0 0 W GN GN OPN W I0 R 0 0 W 0 GN 0 W9 W Q0 V V V W VR W MS W0 Q0 0 I0 IG Lch W W GN W 0 N0 0 0 VR0 Q0 09 PRINT SI 0 Rch V 0 L0 0 GN W W W0 0 0 VR0 L0 GN Rch W W W W W W0 W W0 W VR VR W VR VR0 0 VR0 W99 0 LH Q0 09 W0 0 W00 L0 RH W09 W0 W0 W9 W0 GN W0 VR W9 0 0 VR0 9 Lch W0 W V I K TP 0 9 R LVL dj. dj. R IP OPN Lch N0 W0 V 0 L0 W0 L0 0 N0 IG K PRT IS VR0 (Rch) R LVL VR0 (Lch) VR0 (Rch) IS VR0 (Lch) 0 0 ig. - djustment and Measurement Points 90 XV-V000

91 . V STION.. JUSTMNT ITMS N LOTION djustment Items [Mechanism Part] Tangential and Radial Height oarse djustment V rror Rate djustment djustment Points (Mechanism Part) autions: fter adjustment, adjustment screw locks with the Screw tight. [lectrical Part] lectrical adjustments are not required. Tangential adjustment screw Radial adjustment screw.. JIGS N MSURING INSTRUMNTS Screwdriver (large) Screwdriver (medium) TV monitor Test mode remote control unit (GG) Screw tight (GYL00) Precise screwdriver V test disc (GGV0) Soldering iron XV-V000 9

92 .. NSSRY JUSTMNT POINTS When xchange Parts of Mechanism djustment Points xchange the 0S Pickup ssy Mechanical point ~, Ÿ fter adjustment, screw locks with the Screw tight. lectric point xchange the Traverse Mechanism ssy-s Mechanical point lectric point xchange the Spindle Motor Mechanical point Ÿ fter adjustment, screw locks with the Screw tight. lectric point xchange P ssy xchange P oard LO and VM SSYS Mechanical point lectric point 9 XV-V000

93 .. TST MO POWR ON POWR ON IS ST <TRY OPN> OPN/LOS (Player) V disc <TRY LOS> OPN/LOS (Player) TST MO: PLY <PLY> Press the play key ( ) of the normal remote control unit. S TST HK V, n address is displayed GG Test mode remote control unit S - &&& Notes: fter going into test mode, if you play back the disc, "IS-NON" is displayed. The video signal and the audio signal are outputted during the test mode. The SKIP key and the SN key are effective during the test mode. TST MO: O S POWR OR O GG Test mode remote control unit XV-V000 9

94 .. MHNISM JUSTMNT Tangential and Radial Height oarse djustment STRT Remove the 0S Pickup ssy from the Traverse Mechanism ssy-s. 0S Pickup ssy Remove the joint and the joint spring of the 0S Pickup ssy. Note: efore removing the flexible cable for the pickup, soldering of the pickup circuit is necessary. or details, see ".. ISSSMLY". Joint Joint Spring Pass through the guide shaft to a new 0S Pickup ssy. ttach it to the Traverse Mechanism ssy-s. 0S Pickup ssy Guide Shaft Put the joint between the Tangential (or Radial) adjustment screw and the mechanism base and turn each screw to adjust the height. (Refer to ".. JUSTMNT ITMS N LOTION".) Joint.mm Mechanism base ttach the Traverse Mechanism ssy-s to the 0 LOR ssy. Turn it over and attach the joint and the joint spring. rrange the flexible cables. (Refer to ".. ISSSMLY".) 9 XV-V000

95 V rror Rate djustment Notes: Use disc: GGV0 Play the V test disc at inner track (around #0000) STRT Play the V test disc at inner track isplay RROR RT on the monitor S HP/TIM Traverse Mechanism ssy-s djust the radial adjustment screw so that RROR RT becomes around "-". RROR RT : "-" Traverse Mechanism ssy-s asten the radial adjustment screw so that RROR RT becomes around "-". RROR RT : "-" - R - est point Unfasten the radial adjustment screw by 90 degrees step till RROR RT becomes around "-" again. Record the number of rotation (N). (memorizing how much the screw was rotated.) nticlock wise lock wise Rotation of Radial screw and Tangential screw asten the radial adjustment screw till the number of rotation becomes harf of N. est Radial point RROR RT: S Player Service mode end Monitor Play the V test disc at outer track (around #00000) Turn the POWR O in case of NG once, and perform the adjustment once again. \ Service mode S HP/TIM If error rate is OK, locks a root of tangential and radial adjustment screws with the Screw tight. Screw tight: GYL00 NG OK HK In this check, the error rate that is less than "-"is better. Traverse Mechanism ssy-s asten the tangential adjustment screw so that RROR RT becomes around "-". RROR RT : "-" isc playback normally. The measurement of block error rate S HP/TIM S Unfasten the tangential screw by 90 degrees step till RROR RT becomes around "-" again. Record the number of rotation (N). Service mode end asten the tangential adjustment screw till the number of rotation becomes harf of N. est tangential point XV-V000 9

96 . GNRL INORMTION. IGNOSIS.. TST MO Test Mode unctional Specification Test mode entry In the power ON state, press the [S] (-) key and [TST] (-) key in order of the Test mode remote control unit. OS displays test mode. L ON nter the test mode. V : Press the [TST] (-) and [] (-0) keys in order, and turn on the laser diode (0n). : Press the [TST] (-) and [] (-0) keys in order, and turn on the laser diode (0n). Release the Test mode Turn off the power. Press the [S] (-) key of the remote control unit and reset it. 9 XV-V000

97 .. ISPLY SPIITION O TH TST MO haracter in bold : Item name : Information display 9 0 ddress indication The address being traced is displayed in number. (as for the V, indication of decimal number is possible.) V : I indication (hexadecimal number, digits) [ ] : I indication [ ] ode indication of remote control unit [R ] In case of double code, display a nd code. Main unit keycode indication [K ] Tracking status [TRKG ] Tracking on : [ON] Tracking off : [O] Spindle status [SPL ] LV : [LV] Off : [O] Mechanism (loading) position value [M ] Unknown : [0] or [] Open state : [0] lose state : [0] uring opening : [] uring closing : [] Slider position [S ] In Side Switch ON : [0] In Side Switch O : [00] 9 Output video system [V ] NTS system : [NTS] PL system : [PL] utomatic setting : [UTO] Scart terminal output [SK ] (isplay only the WY model which can do the output setting of scart terminal.) VIO : [00] S-VIO : [0] RG : [0] 0 isc sensing [S ] The type of discs loaded is displayed. [V], [ ] - Jitter value [J ] Note: on't use it. = Version of the L controller [L: ] Note: on't use it. ~ Region setting of the player [RG: ] Setting value : [] to []! estination setting of the L controller [ML: / ] our characters in the front represent code 0. Three characters in the back represent the destination code. J: /J, K: /KU, /K, /KU/K, R: /RL/R, RM : /RM, L: /L, WY: Version of the flash ROM [V:. ] lash ROM size [LSH = ] XV-V000 9

98 .. UNTIONL SPIITION O TH SHORTUT KY Only during normal playback, the following shortcut keys can be assigned by pressing a required key after pressing the S key of the remote control unit. To quit, press the S key ommand ontents onditions Remote ontrol Remote Key Name ontrol ode Memory clear and region / revision indication LR ( ) - verage value measurement of V error rate ( ) -0 error rate measurement ( ) -0 Scart terminal output : VIO UIO - Scart terminal output : S-VIO WY, models equipped with Scart terminal SUTITL - Scart terminal output : RG NGL - Progressive O R_SKIP -9 Only for progressive models Progressive ON _SKIP -9 L indication of I number STRO ( ) - ZOOM ON ( ) ZOOM - Service mode indication (error rate indication, etc.) HP/TIM ( ) - Model information indication HP ( ) -0 Title search Input mode IN Title No. input Search execution SI ( ) Numbers ( ) PLY ( ) to Region confimation mode.mon ( ) Numbers ( ) - -0 to -0 : Test mode remote control unit Service mode indication (S + HP/TIM keys) I ddress The error rate is always displayed in exponential notation, e.g.,. e -, for both Vs and s. /I/V error history (I ddress, /I rror, last eight errors) alculation of the average error rate (S + "" [Test mode remote control unit] keys) The average of the last eight error rates is calculated and indicated in exponential notation. fter the calculation is completed, "OK" or "NG" is displayed. If "NG" is displayed, the disc tray will open (for both Vs and s) or Vs: OK with.0e- or less, for s: OK with.e- or less Indication of model information (S + HP keys) The items from to of the TST MO Indications are displayed. However, in the indications, S in the standard test mode is changed to HIP VRSION, and M is changed to R VRSION. or details, see... Region confirmation mode (S +.MON [Test mode remote control unit] + ""-"" [Test mode remote control unit] keys) fter you press the UIO key while holding the S key pressed and then input the region number, if the number is different from that set in the unit, an error message is displayed, and the tray opens. 9 XV-V000

99 .. SPIITION O MOL INORMTION ISPLY To display model information : Press the S key then the HP key. To close the model information display : Press the S key. isplay contents 0 on't care. 9 haracter in bold : Item name : Information display estination indication isplay it according to model information set from the L controller. Region No. Part number ROM version lash size L controller version HIP VRSION 9 Remote control code 0 Key code of Main unit XV-V000 99

100 .. UNTIONL SPIITION O TH SRVI MO isplay during Service Mode To enter Service Mode, press the HP/TIM key while holding the S key pressed. To quit, press the S key. Service mode display I ddress rror rate (always displayed), in exponential notation RROR RT : ( ) Number of error alculation of the average error rate or Vs: OK with.0e- or less, for s: OK with.e- or less ex) or Vs Step %%e -& %%e - : OK %%e - : OK %%e - : Refer to Step %%e - : NG %%e - : NG Step %%e -.0e - : OK.0e - : OK.0e - : OK.0e - : NG.0e - : NG /I error history (I ddress, /I errors, last eight errors) Note: rror of V is not supported in this player. Indication plan contents haracter in bold : Item name : Information display 00 XV-V000

101 .. SRVI TST MO. Specific conditions for Service Test mode VT is neglected. XPROTT is neglected. ven if the unit is urgently shut down in failure in Normal mode, you can turn it on without waiting for one minute.. How to enter Service Test mode While connecting STST port (I0 Pin) to "+V", connect power cord. (See next page.). How to quit Service Test mode, and the conditions for quitting To quit Service Test mode, turn the power off or disconnect the power cord. When quitting Service Test mode, only data on protection in RM are cleared.. Indications when Service Test mode starts Indications on the L display when Service Test mode starts differ depending on whether the unit was turned off normally or if the unit was urgently shut down because the abnormality of the power, as described below. [fter the power is turned off normally] L display W L O M! [fter the power is shut down because of a failure in the MP system] L display P R T R R L display V O L 0 L display V O L 0 L display V S V L display V S V [fter the power is shut down because of an abnormality in the MP system] [fter the power is shut down because of a failure in the V system] L display P R T W N G L display V P R T L display V O L 0 L display V O L 0 L display V S V L display V S V. Operations during Service Test mode asically, operations in Service Test mode are the same as in Normal mode. However, to clarify that it is in Service Test mode, during this mode, when functions are changed, the indications on the L display become as follows: [unctions] V/ [Indications on the L display] V S V TUNR LIN TP T X L T S V S V S V XV-V000 0

102 . SP error message mode [ How to enter SP error message mode] Press "ISPLY" button of the accessory remote control(*) in service test mode, to select the mode that SP error message are displayed. [ How to quit SP error message mode] Press "ISPLY" button of the accessory remote control(*) again to select normal service test mode. or this reason, the usual function of "display" is not effective during Service Test mode. V total running time/remaining time display is inactive. OS changing on TV is also inactive. (*) : The alternative control is "ISPLY" button of the accessory remote control of Pioneer Home Theater System or "SYSTM ISPLY" button of Pioneer mini omponent System. Specification of SP error display The name of the error is displayed in four characters. Space IR UNLOK (This character is displayed while IR is UNLOK.) SP MUT (This character is displayed while SPMUT is active.) 9k (This character is displayed while the source is. or 9kHz PM.) L - U M 9 * * : The "U", "M" and "9" are not displayed synchronizing with the display "RR_0" - "RR_" ("IRRR",etc), but it depends on the state each time. The following example display of "RR_0" - "RR_" is just a sample. xample of SP error display [rror] RR. 0 [Indications on the L display] I R - U M RR. SR - U M RR. H RQ - U M RR. S N G - U M RR. NO RR (Source is./9khz.) M U T - M S O K - 9 NO RR S O K - (Source is not./9khz.) Refer to "..0 SP TROUL SHOOTING". Service Test mode connecting point I SSY SI onnecting point O R9 R9 R0 R9 R0 R R R 9 R R 0 R R R I0 R0 U-TST R9 0 S-TST R9 R R R 0 0 R0 R0 SI R R R0 R R9 R R R90 R R9 R R R R0 R R R R R R R R9 R0 0 R R R 0 Q0 R 0 0 R0 00 R0 R0 R Q Q0 0 R0 R VU+ V+ R R R R R R 0 XV-V000

103 .. MTHO OR IGNOSING GRTION O TH Ls ON TH PIKUP SSY ase when this diagnosis is required : When playback of any disc, including a test disc (V: GGV0, : ST-90), won't play or doesn't play How to diagnose In the case mentioned above, degradation of the laser diodes (Ls) mounted on the 0S Pickup ssy is suspected. Measure the voltage between the two ends of one of the resistors mentioned below. No playback of a V : Measure the voltage between the both ends of R or R on the VM ssy. If the voltage is 0. V or higher, the 0-nm L is degraded. No playback of a : Measure the voltage between the both ends of R or R on the VM ssy. If the voltage is 0. V or higher, the 0-nm L is degraded. If the measurements show degradation of an L, replace the 0S Pickup ssy. 0S PIKUP SSY N0 VM SSY R R R R R R ront side SI XV-V000 0

104 .. V TROUL SHOOTING No. Symptoms iagnosis ontents Possible efective Points The power is not turned on. re wires of output connector (POWR SUPPLY Unit) and N90 (VM ssy) disconnected or damaged? heck that the following voltage is output : + side of 9 :.V onnector / cable VM ssy.v Regulator I (I) n opening screen is not displayed on the monitor (The L display lights. The mechanism does not work.) re the signals output from I0-pin 9 (MT) and pin 99 (SLK) on the VM ssy? (in the range of 0-V) re the signals input into I0-pin 0 (MT) and pin (SLK) on the I ssy? (in the range of 0-V) heck that the following voltage are output : I-pin on the VM ssy : V Is a resonator (X0: MHz) on the VM ssy oscillating? VM ssy V I (I0) I ssy UOM (I0) VM ssy V Regulator I (I) VM ssy rystal resonator (X0) V I (I0) Is a signal input into I0-pin (P#) on the VM ssy? (Is a signal "H" for 0 ms and then "L" after the power is turned on?) ommunication with flash ROM. re the signals input into I0-pin (W#), pin 9 (S#) and pin (SLK) on the VM ssy? (Is a signal fluctuating?) ommunication with SRM VM ssy V I (I0) lash ROM (I0) SRM (I0) Is a signal output from I0-pin (PR#) on the VM ssy? VM ssy (Is a signal fluctuating for several hundred ms after the power is turned lash ROM (I0) on?) Is a signal input into I0-pin (V K) on the ONTROL ssy? (Is a signal fluctuating?) ommunication with L ontrol I VM ssy V I (I0) I ssy UOM (I0) Is a signal output from I0-pin 0 (XRY) on the ONTROL ssy? (Is a signal fluctuating in the range of 0-V?) re the signals output from I0-pin 9 (ST) on the ONTROL ssy? (in the range of 0-V) I ssy UOM (I0) VM ssy V I (I0) I ssy UOM (I0) re the signals of I0-pin (S) and pin (SL) on the VM ssy VM ssy fluctuating for one or two seconds after the power is turned? PROM (I0) n opening screen is not displayed on the monitor (The L display lights. The mechanism works.) heck the video signal path between V I (VM ssy I0) and video-out terminal (see the block diagram) VM ssy Video circuit after V I (I0) 0 XV-V000

105 No. Symptoms iagnosis ontents Possible efective Points tray cannot be opened. (n opening screen is displayed on the monitor) Playback impossible (no focusing) Playback impossible (Spindle does not turn) Playback impossible (Playback stops) Picture disturbance during playback (block noise, freeze, other) 9 No sound (Picture is normal) oes the voltage of N0-pin and pin on the VM ssy change normally? Pin (SW(TRIN)): Tray is fully closed: "L" Pin (SW(TROUT)): Tray is fully opened: "L" Is the signal input into I0-pin (TROPN) on the VM ssy? t open:.v, t close: 0V re the signals output from I0-pin and pin (N0-pin and pin ) on the VM ssy? Pin : pprox. V during opening tray approx. 0V during closing tray. Pin : pprox. 0V during opening tray approx. V during closing tray. re wires of N0 and N0 on the VM ssy disconnected or damaged? oes the voltage of N0-pin on the VM ssy change to 0V by pressing the Inside switch. re the signals output from I0-pin (OS_RV) and pin (OS_RTN) on the VM ssy? oes 0-nm L emit light? oes a pickup lens move up / down? oes an actuator spring bend? re plastic parts damaged? Or is a shaft detached? Is the turntable detached or tilted? Is flexible cable of N0 on the VM ssy disconnected or damaged? LO ssy Tray SW (S0) VM ssy V I (I0) VM ssy TS river I (I0) onnector / cable Inside switch VM ssy TS river I (I0) Pickup Mechanism section (motor) lexible cable / connector Is signal output from I0-pin (OSO) on the VM ssy? VM ssy (evice control of about. V is output usually. It is fluctuated by about V I (I0) ± 0 mv with focus up / down.) re the signals output from I0-pin 0 (W), pin (V) and pin (U) on the VM ssy? Is pin () fixed LOW? (pin is High at playback: V) Is there any part detached from the spindle motor? Or Is there any foreign object lodged in it? re wires of N0 on the VM ssy disconnected or damaged? Is signal output from I0-pin (MSO) on the VM ssy? oes 0-nm L deteriorate? If the voltage at each both ends of R and R on the VM ssy is 0. V or more, the 0-nm L is definitely deteriorated. oes 0-nm L deteriorate? If the voltage at each both ends of R and R on the VM ssy is 0. V or more, the 0-nm L is definitely deteriorated. Is there abnormality in G waveform? (I0-pin ) re there scratches or dirt on the disc? re there scratches or dirt on the disc? Is there a problem with the format of the disc? heck the video signals. omposite video signal (I0-pin ) S video signal (I0-pin, pin ) RG video signal (I0-pin, pin, pin 0) heck the waveform (SPI: N90-pin ). VM ssy TS river I (I0) Mechanism section (Spindle motor) lexible cable / connector VM ssy V I (I0) 0-nm L deteriorated. (When playback of a V is impossible) 0-nm L deteriorated. (When playback of a is impossible) VM ssy G output : TS river I (I0) isc isc VM ssy V I (I0) Video I (I0, I) VM ssy V I (I0) XV-V000 0

106 Symptoms that may occur when any of the following Is is in failure I Symptoms P ROM (VM ssy : I0) lash ROM (VM ssy : I0) V I (VM ssy : I0) M SRM (VM ssy : I0) User's data cannot be stored in memory. The I number is lost. The power cannot be turned on. ownloading of the firmware cannot be performed. ny kind of symptoms (no power, a failure in any of the servo, video and audio systems, etc.) may be generated, because the V processing is performed by a single chip. No power. lock noise is generated during playback. 0 XV-V000

107 ..9 I NUMR N I T STTING aution: or the V players compatible with V-RW, for playback of a V-RW disc (PRM), it is necessary that an individual I number and I data are set for each player. If the I number and I data be not properly set in the manner described below, future operations cannot be guaranteed. The I number is written on the yellow label at the rear panel of the player. If there is no yellow label, before downloading LSH ROM, take note of the I number set following the procedures outlined in "I Number onfirmation Mode" on the next page. Note: nter I numbers while the unit is in Stop mode so that the values set will be immediately written to the flash ROM. Setting an I number or I data is required in the following case: If NoINum! or NOIT is displayed on the L display immediately after the power to the player is turned on or during Stop mode. JIGS N MSURING INSTRUMNTS fter entering all 9 digits, if you press the SRH key, the unit unconditionally sets the input number as the I number. Then the unit automatically enters Player's ata Input Mode. (The SRH key is not accepted after all 9 digits have been entered.) [Player's I Number Setting] I Number? <PLY> ompare Mode <SRH> nter Service Remote ontrol Unit [GG] I Number Input Mode V ata isc [GGV] To enter I Number Input Mode, with no I number set, such as in a case of immediately after upgrading the firmware, press the S key then the STRO key. Input I Number! This display appears when the PLY key is pressed in Step. nter a 9-digit number to compare. The number is also displayed on the L display. y pressing the LR key without having input a number, the unit returns to Step without doing anything else. ach press of this key after a number has been input deletes one digit. Note: If a previous I number and I data, such as a factorypreset I number and I data, are maintained, the unit enters I Number onfirmation Mode when the above keys are pressed. However, if only an I number is maintained, the unit enters I ata Input Mode. nter a 9-digit I number. The I number is also displayed on the L display. [Player's I Number Setting] I Number? ompare y pressing the LR key without having input a number, you can exit this mode. ach press of this key after a number has been input deletes one digit. Input I Number! [Player's I Number Setting] I Number? <LR> xit Input I Number! fter entering all 9 digits, if you press the PLY key, the unit compares the numbers input in Steps and, and only if the numbers match, that number is set as the I. Then the unit automatically enters I T Input Mode. If the numbers do not match, the disc tray is opened, and the unit exits I Number Input Mode. Note: If you press the PLY button before inputting a 9-digit I number, the unit returns to Step without doing anything else. fter entering all 9 digits, if you press the PLY key, the unit enters ompare mode. nter the same I number again. Only if your two input numbers match, the I number is set. ompare mode helps eliminate mistyping of the I number. [Player's I Number Setting] I Number? ompare Note: If you press the PLY button before inputting a 9-digit I number, the unit returns to Step without doing anything else. <PLY> nter Input I Number! XV-V000 0

108 I Number onfirmation Mode To enter I Number onfirmation Mode after the I number and the I data are set, press the S key then the STRO key. The I number already set is displayed. (It is also displayed on the L display.) nter a 9-digit number for comparison. This is not required when you only wish to check the I number visually. (The number is also displayed on the L display.) y pressing the LR key without having input a number, you can exit this mode. ach press of this key after a number has been input deletes one digit. [Player's I Number Setting] I Number? ompare Indication of an I number already set n I number already set is displayed in the following cases: ) When the S key then the LR key are pressed, user settings are cleared, then the I number set is displayed on the screen. In this case, the I number is not displayed on the L display. ) When the unit enters I Number onfirmation Mode by your pressing the S key then the LR key, the I number set is displayed. In this case, the I number is also displayed on the L display. If you only need to confirm the I number, you can exit this mode by pressing the LR key or turning off the power. Indication when no I number is set If no I number is set, the message "No I Num!" flashes on the screen and L display for a few seconds after the power is turned on or during Stop mode. <LR> xit Input I Number! fter entering all 9 digits, if you press the PLY key, the unit compares the number entered in Step with the I number set, and only if the numbers match, the unit automatically exits I Number onfirmation Mode. If an I data has not been entered, the unit enters I T Input Mode. If the numbers do not match, the disc tray is opened, and the unit exits I Number onfirmation Mode. Note: If you press the PLY button before inputting a 9-digit I number, the unit returns to Step without doing anything else. fter entering all 9 digits, if you press the STOP key, the unit compares the number entered in Step with the I number set, and only if the numbers match, the unit automatically deletes the I number and exits this mode. If the numbers do not match, the disc tray is opened, and the unit exits this mode. (The STOP key is not accepted after all 9 digits have been entered.) [Player's I Number Setting] I Number? ompare <PLY> nter <STOP> Memory lear Input I Number! 0 XV-V000

109 To enter I T Input Mode, with the I number set, press the When writing of the data read from the disc to flash ROM is S key then the STRO key. completed, "Rom Write OK!" is displayed. fter seeing this message, you can exit this mode by pressing the LR key. I T Input Mode When the STRO key is pressed, the unit enters I T Input Mode. Note: Whether or not the data have been written to flash ROM can be confirmed by watching for the message "Rom Write OK!" being displayed after the disc is read. [Player's I Number Setting] I Number? [ ] ompare > [Player's ata Input Mode] Rom Write OK! <LR> xit <STRO> I ata Setting Mode Input I Number! <LR> xit If the V T IS is loaded in this mode, the unit automatically starts reading the data. (If the V T IS has already been loaded, the unit does not start reading the data. In this case, open then close the tray.) To exit this mode, press the LR key. While data are being read from the V T IS, you cannot exit this mode. If the data cannot be read from the disc, "isc rror!" is displayed on the screen, and the disc is ejected. [Player's ata Input Mode] [Player's ata Input Mode] isc rror! <LR> xit <LR> xit Insert The I ata isc! Indication when the data have not been set If no I data are set after the I number is changed, the message "NO I T" displays on L display after the power is turned on or during Stop mode. XV-V000 09

110 ..0 SP TROUL SHOOTING etectable SP rrors The following conditions are assumed, in order to eliminate causes other than "SP-assy" and "between SP-assy and microcomputers". lectric power is correctly supplied to SP-assy. The SPI signal is coming to the input port of IR ("OX IN" RX0 & "OPT IN" RX & "V" RX). There is no audio output from SP-assy, or audio output is unusual. heck the signal route by referring the connection diagram between U-com and SP module I (next page). * "U", "M" display below is a sample. RR_0 : annot receive data from IR L I R - U M Those character display ON/O depends on the state. ommunication fault has occurred somewhere between IR (PinNo. TO) µ-com (PinNo.0 IRO). ommunication fault has occurred somewhere between the µ- com-port (*) which has sent the signal and each I. RR_ : annot receive data from SP L SR - U M ommunication fault has occurred somewhere between SP (PinNo. MISO) µ-com (PinNo. SPO). ommunication fault has occurred somewhere between the µ-com-port (*) which has sent the signal and each I. ommunication fault has occurred somewhere between the IR and SP. RR_ : There is no return value of HRQ. L H RQ - U M ommunication fault has occurred somewhere between SP (PinNo. HRQ) µ-com (PinNo. SPHRQ). ommunication fault has occurred somewhere between the µ-com-port (*) which has sent the signal and each I. ommunication fault has occurred somewhere between the IR and SP. RR_ : RR information from SP L S N G - U M ommunication fault has occurred somewhere between the µ-com-port (*) which has sent the signal and each I. (especially the fault inside SP) ommunication fault has occurred somewhere between the IR and SP. RR_ : OMUT continues being LOW(MUT). L M U T - M ommunication fault has occurred somewhere between SP (PinNo. MUT) µ-com (PinNo. MUT). ommunication fault has occurred somewhere between the µ-com-port (*) which has sent the signal and each I. ommunication fault has occurred somewhere between the IR and SP. lthough the following are not errors, they are displayed separately and are helpful in finding a solution. INO_0 : IRRR is HIGH (UNLOK) in digital function. L S O K - U M If IRRR continues being HIGH (UNLOK) without the above-mentioned error display. ommunication fault has occurred in somewhere between IR (PinNo. INT0) µ-com (PinNo. IRRR). heck that the external set and this model is properly connected by the digital cable when selecting LIN (xternal igital) function. INO_ : SPMUT is LOW (MUT). L S O K - M If SPMUT continues being LOW (MUT) without the above-mentioned error display. ommunication fault has occurred somewhere between µ-com (PinNo. XSPMUT) -VOL (I0) (PinNo. MUT). INO_ : Loading.kHz/9kHz PM SP function is limited when this information is displayed. L S O K - 9 Notes : Only the high priority error (near to RR_0) is displayed when the multiple errors have occurred. When the analog audio output of a SP module is unusual but the above error information is not displayed, the fault is probably in the O I (I0) and the peripheral circuits. s the µ-com has not received data from the O I, it cannot detect the fault and display the error information. 0 XV-V000

111 * : µ-com-port which has sent the signal to I I0 µ-com port I0 IR port Pin No. Pin Name Pin No. Pin Name No. SPLK No.9 LK No. SPI No. TI No.9 IRS No.0 SN No. IRRST No. PN I0 O port Pin No. Pin Name No. LK No. TI No. SN No. PN I0 µ-com port I0 SP port Pin No. No. No. No. Pin Name SPLK SPI SPSS Pin No. No. No. No. Pin Name SK MOSI SS No. XSPRST No. RST I0 µ-com port I0 SP port I0 µ-com port Pin No. Pin Name No.0 IRO No. IRRR I0 IR port Pin No. Pin Name No. TO No. INT0 Pin No. No. No. Pin Name SPO SPHRQ Pin No. No. No. Pin Name MISO HRQ ONNTION IGRM I SSY SP SSY I0 U-com SPLK SPI N0 0 SPK SPI N9 SK 0 MOSI I0 SP 9 IRS IRS SS IRRST SPSS IRRST SPSS RST MO XSPRST 9 SPRST 9 MISO SPMO HRQ 0 IRO SPO IRO SPO MUT USY 0 SPHRQ MUT IRRR SPHRQ MUT IRRRR USY LK TI SN PN 9 0 I0 IR TO * This connection diagram displays the connection between the U-com, SP, IR and O. The pin order is different from the true assignment. I9 LVL SHITR, 9,0,, INT0 LK TI SN PN I0 O XV-V000

112 .. ISSSMLY Note : o NOT look directly into the pickup lens. The laser beam may cause eye injury. Note : ven if the unit shown in the photos and illustrations in this manual may differ from your product, the procedures described here are common. Note : or performing the diagnosis shown below, the following jigs for service is required: lexible cable for service (GG09) able for service (GG) iagnosis of P's Remove screws from onnet L and R (PZ0P00NI). Remove screws from onnet L and R (Z0P00NI). onnet and Tray panel Remove the onnet by removing the screws (Z0P00NI). Press the 0 OPN/LOS button to close the Tray. (Test disc is clamped.) 9 Press the STNY/ON button to turn off the power. 0 Pull out the Power cord. How to open the tray when the power cannot be on Insert a Tweezer(as shown in the photo) into the slit located at the bottom of the unit and slide the projection of the rive am in the Loader ssy in the direction of the arrow, as indicated in the photo. If the tray pops out a little, fully pull it out by hand. Tweezer Slit Rear View Press the 0 OPN/LOS button to open the Tray. Remove the Tray ap ssy. Set the Test isc. Press the STNY/ON button to turn on the power. 9 ottom View Tray ap ssy Test isc XV-V000

113 ront Panel, mplifier ssy and SP oard diagnosis Remove screws at bottom side of the unit. o not remove this cable, once removed, there is no amplify output signal, you need to use the headphone to hear the output signal. ottom View Remove the grounding screw. Unhook the cable hooks. Released the hook at the right and left side of the ront Panel ssy. o not remove this cable, once removed, the display will indicate "Mic in" and you cannot select. channel output signal, only channel signals will be output. Not affected for model with channel output. (ut display will also indicate "Mic in") In the event that Power mplifier ssy was removed and repaired(i ssy had been removed) If you want to power on the set with I ssy removed from the Rear Panel, make sure both the SP and R grounds are connected to the Rear Panel as shown in the attached photo. SP Ground R Ground ront Panel ssy I ssy Rear View XV-V000

114 isassembly of Power mplifier Module Remove screws at the Rear Panel of the unit. Remove the cable hook. Remove screw on the I ssy racket. Remove the binder. isconnect the ables at N0 and N0. Remove the cables on N0, N0 and N0 I MP ssy Rear View Remove screws on the Power mplifier Module. Tuner ssy I MP ssy Lift up the I ssy as shown in the photo above to remove the Power mplifier Module. Power mplifier ssy Power mplifier Module XV-V000

115 V Main oard diagnosis Remove the Top onnet. Power on the unit, open the Tray and remove the Tray ap. Load in a V test disc and power off the unit. Remove the I ssy as in section steps to. ollow the procedure in section (Steps to ) and remove the ront Panel ssy as shown in the photo. Remove screws from the V Module. arefully remove the V Module by lifting the ront Panel ssy upward. I ssy J POWR ssy aution : e careful not to damaged the V able XV-V000

116 Remove the V Plastic Holder as shown in the photo below. 9 Remove the able and replaced it with GG09. 0 Remove the able from the hooks. Remove screws. Remove Plastic Holder and unhook the cable. Remove cables and replaced it with GG. 0 9 lip the V P and unhook the flexible as shown in the photo. onnect both ables onto I ssy N0 (use GG09) and N0(use back original cable) lip the V Main oard as shown in the photo. lso ensure that both the SP and R ground are connected to the Rear Panel. J POWR ssy I ssy R Ground SP Ground VM ssy GG GG09 XV-V000

117 Removing the Traverse Mechanism ssy-s and 0S Pickup ssy-s 0 LOR ssy Short-circuit point by soldering. Note: fter replacement, connect the flexible cable for pickup, then remove the soldered joint (open). isconnect the three flexible cables. VM ssy 0S Pickup ssy-s Rear view ottom view 0 LOR ssy ridge 0, Tray Remove the one screw. Remove the bridge 0. Pull out the tray, then remove it by pressing the hook. - Hook ridge 0 Note when reinserting the tray When reinserting the tray, first align the triangle printed on the loading base and the pin of the drive cam, then insert the tray. rive cam Pin - ront side Tray Loading base Triangle XV-V000

118 Traverse Mechanism ssy-s islodge the two flexible cables from their factory placement. lexible cable for the spindle motor ront Side lexible cable for the pickup ottom view Unhook the four hooks. Remove the Traverse Mechanism ssy-s Traverse Mechanism ssy-s XV-V000

119 0S Pickup ssy-s Note: The 0S Pickup ssy can be removed without removing the TTraverse Mechanism ssy-s.(shown as Step π.) 0S Pickup ssy-s isconnect the flexible cable for the pickup. ront Side lexible cable for the pickup ottom view Remove the two adjustment screws. Remove the 0S Pickup ssy. djustment screw (skew screw VK) djustment screw (skew screw VK) 0S Pickup ssy-s Note: e careful not to lose the adjustment spring (skew spring VK). djustment screw (skew screw VK) djustment spring (skew spring VK) XV-V000 9

120 Remove the one screw. Note: The screw is secured with the silicone adhesive. Make sure to apply the silicone adhesive after reattaching the screw. 0S Pickup ssy Joint VK Joint spring VK Silicone dhesive GM0 rrangement of the flexible cable for the spindle motor : onductive surface ront Side Hook Hook ottom view 0 XV-V000

121 rrangement of the flexible cable for the pickup : onductive surface Note: e sure to move the 0S Pickup ssy to the innermost perimeter. old the flexible cable for the pickup with the backing outward in the illustration below. Hook the part folded in Step to the hook. Pass the flexible cable through the hook. acking mm Reference line Reference line Hook Hook ttach the flexible cable for the pickup to the connector. old the flexible cable along the hook. Pass the flexible cable through the hook. Hook acking ront Side ottom View Hook Pass the flexible cable through the hook. Hook Hook Make sure that the cable is loose XV-V000