DSP/AV AMPLIFIER | DSP-A1 SERVICE MANUAL DORIA wave samen on ( IMPORTANT NOTICE ‘This mans! as ben prove forthe arf aahvaed YAMAHA Reis ad ther sevice prone [ha bon esumod hbase service predts inbred. ae ore pccally YAMAHA Product, ae WARNING: Failure o flow appre serve and safey procedures when eviing thi roduc ay resi personal injury, Gesction af eaparive components and fale of the product to perfor 31 Specie Far hese ears, we aie ll YAMATA prot owes that rr ru shold Be proomed by an aunorned YAMAHA etal ote appoints sis preventive IMPORTANT: ‘Te preention ors of i mano any Indl fim dos ot consi athorzaton, ‘erifieton or retopion of ty sppieable technical caps, oreaabishepacpleageN ‘laonhipof ny fra The dua provided is Weleved to Be secatte and applicable to the uni) Incas on the cover, The eesench snginecring, apd service departs af YAMAHA are continilly ving to improve YAMAHA products Motions ae, teeters, eval nd specifcaos ae subet o change witout nce oebliaton feat | ‘Shou ty dserepaey appar oe pase coma the rior Serve Dis. WARNING: Sti iachares cn ateoy expensive compovents Discharge ay snc elericy you body may Inve seca by proundig yout oth poand Durem ae unt hey ge lack ee Cones he be), IMPORTANT: Turn ihe unit OFF dg dusemiy ad ya epee Recs al wrk ore you apply powcr] @ CONTENTS Ic DATA... BLOCK DIAGRAM TO SERVICE PERSONNEL REAR PANELS ee SPECIFICATIONS. INTERNAL VIEW .. DISASSEMBLY PROCEDURES ... ADJUSTMENTS SELF DIAGNOSIS FUNCTIOI DISPLAY DATA 100617 PRINTED CIRCUIT BOARD .. PIN CONNECTION DIAGRAM .. ‘SCHEMATIC DIAGRAM PARTS LIST REMOTE CONTROL TRANSMITTER YAMAHA CORPORATION Box! Namamatsu,apan 3-626] © Printed in Japan '98.2DsP.at @ TO SERVICE PERSONNEL 1. Gfitcal Components Information, ‘Components having special characteristics are marked and ACLEAKAGE ‘must be repiaced with parts having specifestions equal fo EQUIPMENT. Teste on those aigialy insted. UNDER TEST EQUIVALENT 2, Leakaze Current Measurement (For 120V Models Only) \Wmnen service has been completed, itis imperative to verity that al exposed conducive surfaces are property insulated => from supply circuits INSULATING '¢- Meter impedance should be equivalent to 1600 ohm shunted TABLE by O.15uF. © Leakage current must not exceed OA, ‘© Bo sure 10 test for leakage with the AC plug in both polartes. WARNING: CHEMICAL CONTENT NOTICE! ‘The solder used in the production of this product contains LEAD. In addition, other elecirical/electronic and/or plastic (where applicable) components may also contain traces of chemicals found by the California Health and Welfare Agency (and possibly other entities) to cause cancer and/or birth detects or other reproductive harm. DO NOT PLACE SOLDER, ELECTRICAL/ELECTRONIC OR PLASTIC COMPONENTS IN YOUR MOUTH FOR ANY REASON WHATSOEVER! Avoid prolonged, unprotected contact between solder and your skin! When soldering, do not inhale solder fumes or expose ayes to solderiflux vapor! I you come in contact with solder or components located inside the enclosure of this product, wash your hands before handling food. @ REAR PANELS VR, Tmodels 9DSP-A1 ae ‘YB model WARNING Do not change the IMPEDANCE SELECTOR switch setting while the power to this unit is on, otherwise this unit may be damaged. IMPEDANOE SELECTOR esPS DsP-At @ SPECIFICATIONS ‘Minimum RMS Output Power Per Channel Main 20H2—20kHz, 0.015% THD, 80) T10W + 1101 ‘Grema Equalizer High Shelving Fiter Conte: (20H2—20ktHz, 0.015% THD, 82) now Frequency tk to 12.7KHe Rear 20H2—20kHz, 0.015% THD, 8) 110W = 11017 BoostiCut ~910 +608 Front ‘kHz, 0.05% THD, 80) 51 + 36 Paramettic Equalizer axmur Power Por Channel (Fi, Tmadals only) Frequency tk to 12.7KHz Main (1kHz, 10% THD, 80) 15OW + 1500 Boost!Cut 910 4608 Gente: (1kHHz, 10% THD, 89) 150W a 1.85 Rear (kHz, 10% THD, 62) 150W + 1507 Low Pass Filter Characteristics (Sib Wooter) Front /IkHz, 10% THD, 80) 450 + 450 High ot Fitter 6-90H2, 24dBloct Dyriamie Power Per Channel (U, C, F, T medals oniy) BASS EXTENSION (iain UF "+648 (7OH2) (by IH= Dynamic Headroom Measurng Method) ‘AUDIO MUTING dB eciga14n20) “+s0W/iBOWi240W/340W Video ~ BIN Standard Output Power Por Ghannel (8, G models only) \Video Signal Type Main (kHz, 0.7% THO, 40) 60W (U, © models) Ntsc Dynamic Headroom (U, C, R, T modek only) (8,8, G models) PAL. gin 80) 1.308 (8, T models) NTSCIPAL TEC Power (8, G modsis ony Viceo Signal Level Wpp750 Main (IkHz, 0.015% THD, 82) x20 ‘S-Video Signal Level Damping Factor y Wppirsa Main, Center (20H2—20KHz, 82) 200 c o286Vvppi750 Input Sensitivifyimpedance Maximum Input Level 15Vpp Phono MM 25mViaTKa Video SN 508 cD ete 1S0mVie7kO. Monitor Out Frequency response __SH2-—10MHz, ~9c8 MAIN IN 1.0Vie79 Power Supply Maximum input Signal (1KHz, 0.05% THO) U, C models ‘AG 120V, 60H Phone MM 130nv Almodal ‘AG 240V, S0Hz cD ete 2a B, G models ‘AG 230V, 50H ‘Satput LeveVimpedanes FR, T models AC 11o/120/a20/240V BOV50H2 REC OUT t50mvitka Power Consurpi PRE OUT (MAIN, CENTER, REAR,FRONT) —1V/i.2k9. U modal 00W ‘SW OJT (SPLIT UR) 2ovit 2k C model 500W, B50VA ‘SW OJT (MONO) 4.0/1 2k. A,B,G, R, T models ‘Maximum Voltage Output (20Hz—208+2, 196 THD) AE Outlets PRE OUT (MAIN UR) av 2 Switched Outlets eadphene Jack Rated Ouipulimpe (U madel) ‘120W max. total Ingut CD etc, SOmV RL=80 ov (CR, T models) ‘OOW max. total Impedance 4002 1 Switched Outlets Frequensy Response COFE=20F=] (A,B, G models) 100W max. total CD ete 010.508 1 Unswitchod Outlets IAA Equalization Deviation (20H2—2O«r2) (U, C models) {480W max. total Phono MM 020508 (RT models) 200W max. total ‘Total Harmonie Distortion (2OH=—2OFZ] Diensions (WxHxD) Phono MM to REC OUT, 3V vr ‘lack Hanel model 495 x 181 x 473mm CD ete to PRE OUT (MAIN LR), 1V 0.005% (17-118 7-116" x 18-518") MAIN IN to SP out (MAIN LIR, CENTER) Titanium & Gold Panel models 473 x 191.5 x 473mm S5W8 0.005% (13-618 x 7-9/16" x 18-618") ‘Sighal-to Noise Ratio (HFA Network) Phone MM (input Shorted), SmV (CO ele (Input Shorted), 150mV Residual Noise (IHF-A Network) ‘More than 8648, ‘More than 9638, MAIN UR SP out 150 ‘Ghannel Separation (Vol=B0dB) Phono MM Input shorted setts TOKH2 More tian 708/600 C0 ete Input §.1K0 Terminates ‘kbar 10k More than 7046/6008 ‘Tone Control Character Bass Boow/cut +1008 (5042) Turnover frequency 350H2 Treble Boost/Cut 81048 (20K¢H2) Turnover frequency ‘B.ske ‘Graphic Equi Frequency 10018001134! 10k Boosti2ut 608 Q o7 Waight Black Panel mode! Titaniuea & Gold Panel modols 28.049 (60 bs. 11 02) 26.04 (65 Ibs. 102), ‘SpsGiTCaTOns SuBjse TO change witout Howe. U me U. 8. A model G nu European model ¢ =. Canadian model Fo General model B 1. British model Tom ehina moder A noe Australian model Manufactured under Scene rom DTS teemology LLC. Addionally eangod undo th folowing U.S patent 5,851,942 and natonal patent ‘appcaions derived trom PCTIUS95I00050 Adctionl U.S. and foreign pats ponding "DTS" logos are rademaris of DTS techinciogy LLC. All igs resorved, ‘Marulaturodundor Soon rom Doty Laboratories Ucosing (Cerporaton, “Dalby, "AC, “PRO LOGIC, andthe double-D eymba ‘are radewaiks of Dolby Laboratori Liensing Corporation. CCepyght 1992 Doty Laboratori, ne. Aights rose,Pew ¢ ‘0k ANE 138 19 AN O3GIA GAaIEYON Gun Ka PEERS S ELNOR UEHM | GoEG AMG) C - x 8 g BEYOON! — |"[oBIF OEY = o 7 a on: x x = x | is sa: 0 [emaanaie = xe rrubpoopsnseduea® > o | s peasoomng: § ¥ = xe usa0u0)¢ ° o | s [ear 2 ae aon —|g— aST suns m0 "ae ata ‘SNISOgWIEaaNS © TT wa a) sun woai] aro] maepiiogmay =r ‘asi oj vessiouenum| so semi] sole ung | saya 3408 oor] ae) ar Er scot] — a es] see 5 sore] se use) ey] swozi| w]e. sure suiz|__ el Seon] ya] oe suse) ee sso] we] ome sesi] seozi| | sre use| el i esi] | sexe] sone: | Sao] Se fore] | suzzi| soe] ove se0r| ol 3) 01] soos] er) 5] e1| Sexe] ee ser aa a z aT om Toose] sor] os [a] or Suerte! oul et suet are ei su9| sa] sor} —o [0 | 0 sasi|—sumt] ol vo] sui] — eo] om gia pov asec aps ina Rau Ta AST ‘SRM ‘us aa ane] TN RAL] —— vaLarvae) FSV. USLANVVd ©DSP-At @ SET NENU TABLE No. | _SeTMENU PRESET VALUE SETTING RANGES: 1. | SPEAKER SET wa| CENTER SPEAKER — | LARGE LARGE/SMALUNONE. 18 | REAR SPEAKER Lange LARGESNALL 1c | WAIN sPeaKeR Lange LARGEISMALL 10 | \Fereiss our SUBWOOFER SUBWOOFERMAINBOTH te | FRONT mx OFF-reh ‘OFF-7eNON-5cn| 4e | wan ever NORUAL, MORIMAL AO 3 | lowenea. TEST "TONE: OFF - eg OUTPUT MAN LUCIRRSILS'SWIFRONT FREQUENCY: eaha ss— 25042 | 3. | DOLBY DISTAL SET - ga | Ure LEVEL oss 20a — 028 } a8 | cynic RANGE wax wwousTona | STD HIGHLEVEL OUT SCALE 19 00~10 | LOW LEVEL BOOST SCALE 10 00-10 | vos DIGITAL Ser aa | we Lever oss 100 — +038 _ [CENTER DELAY Ons (ns — 5. | CENTER GRAPHIC EG. | EACHLGh 1608 ‘DoHie— 10, 8 — 7 [ONEMAEG ~~ ALLDFF) | _______1 ©, REQIFRONT EQIREAR EGONOFF | LGREO. HIGH 1.79, ~808 PEO 12 7H, 448 | HIGH, PEG: Thee — 12. 7 | FRONTED. HIGH 27a 946 PEO See, 248 | GAIN: 848 — v6, 7¢ | wearea. HIGH 1272, 048 PEO Bie, 948 &_| PARAWETERINITALIZE [OFF PROGRAM T— 12 7 9| WEWORY GUARD OFF OWOFF 10. | Vora video out | Rec ouT REC OUTHVONITOR #1.__[ NPUTMODE AUTO TViOBS BVDIVCRS AUTOLAST. 52 [omer 0 —_ 0 © Black mode! © Titanium model & Gold modat BA o Mad B aie) e787 wes war, 18787 78-7 aaare ~ at ik 496(17—1/8 473000-5/0") Units : mm (inch)@ INTERNAL VIEW @ DISASSEMBLY PROCEDURES 1. Removal of Top Cover a. Remove 8 screws (D), 2 serews (@) and 2 screws (@) and then remove the Top Covar in Fig. 1 . Removal of Bottom Cover a. Remove 12 screws (@) and then remove the Bottom Cover in Fig. 1. 3. Removal of Front Panel Remove 2 knobs in Fig. 1 Remove 4 screws (@)) anc then remove the Front Panel in Fig. 1 Black model DsP-A1 rer © P08. vi0EO (6) @Pc8. MAING) © P.c.B. VIDEO (1) @P.ce. osP 6) Pca. 0sP (1) Pca. osP 0) OPCB.MAING) OFAN © PCB. VIDEO (6) P08. VIDEO (3) 6.8. MAIN (1) ® PCB, FUNCTION (Remove parts in the order as numbered.) Oe Top Cover Side Pane Batiom Cover Fig. 4 Titanium model (R, G only) & Gold mode! (R, T only)DsP.a1 4, Removal of DSP P.C.B. (1) & (2) fa, Remove 14 screws (®) and remove the right upper frame in Fig. 2 ‘5. Removal of Main P.C.B. (3) ‘a, Remove 6 screws (@) and 1 screw (@) and then remove the left side frame in Fic. 3 ‘ie Frame (L) man (3) 6, Removal of VIDEO P.C.B. (3) fa, Remove 7 screws (@) and 2 screws () and then remove the sub chassis in Fig. 4 vine @)DsP-A1 @ ADJUSTMENTS @ IDLING CURRENT ADJUSTMENT Boforo this adjustment, wait ‘or 10 minutes with no signal applied after the power is turned ON. tem Test Point ‘Adjustment point Rating (OO) MAINL | Beiween terminals of R333, or R984, at Both ends VR904 (MAINP.CB) To omy MAIN R | Between terminals of R334, or R393, at both ends 'VA303 (MAIN P.C.B,) CENTEA | Between terminals of RASS, atthe center and one end | VR305(MAINP.C.B) | 25n\-6mV REAR L | Between terminals of RSS, atthe centerand one end | VRGO1(MAINP.C.B) | os REAR R__| Between terminals of B17, at the center and one end_| _VR302 (MAIN P.C.B) FRONTL | Between terminals of P99, at the center and one end | VARGO (VIDEOP.CB) | ys giy FRONT A | Between terminals of R50, atthe center and one end | _VR902 (VIDEO P.0.8.) @ Test Point ore A Rass, S11 B17 R330 F350DSP-A1 DsP-A1 @ SELF DIAGNOSIS FUNCTION This procuct has a built-in self diagnosis function (DIAG) to facilitate inspection, measurement and determination of a faulty tem. @ Starting DIAG Press the "POWER" (STANDBYION) key of the main unt while pressing the "SET MENU +* key ard the *NEXT" key located in the sealing panel ofthe main unit, and DIAG wil start to function. © Display at the start of DIAG “The diagnostic menu appears on the monitor display. (t remains on display unt i's canceled.) On the FL display of the main unit, an opening message (or the history ofthe protection} appears for 2 seconds before the diagnostic menu Ne.1 MAIN BYPASS. paring mosoge — — DIAGHOSTIC HENL \ oor poe TRIB TST “ en eae . Benge & DSP-AL SUMIFLaB eae DIAGNOSTIC FODE FI \ihen there Is no history af protection tuncion "EBRERS EP OER/DISP * If the protection function works after DIAG has been started and the power turns OFF ‘When the pratection function (°t) werk, the history of the protection appears on display and the power turns OFF. Repair the faully parts according to the displayed history. *1) When an excess current or any other faulty condition is found with the power source, DC, etc, the pawer is forced to turn OFF as a protection function. PROTECTION aisplay {Te pve ns OFF ty ety pov eyo shot oy) ‘There is an abnormal current flow to the power amplifier Supplementary Information: As he ourent ofthe power tanaleto Is ‘checked in aach channel, it's possible to determine the abnormal channel by checking the transistor where a current Is detected, PSPRT display (The power tus OFF after 2 seconds. Display may not be provided, it ‘there isan abnormakyy withthe power Supply forthe splay) Gause: Thare is an abnormality in the power supply section (voltage). Supplementary information: As the power from following sources is otocted, ts possible to datermine wire an ebnormalty exist, Translormer secondary winding VEX 2(@8104), YE x 2(CB202) Stasiizing power source 1215, 25V, +501, +502, VP THE PRT, 1DC PRT display (The power turns OFF ater abou 3 seconds) ‘Cause: The DC output ofthe power ampiier is detected in each channel. ‘TMP PRT display ‘Cause: The temperature ofthe heat sink (J, U, 3: D101 ofthe main P.C.B. || (@) in the doce briage or ofthe heatsink (RT, A, B, G) in the power ampli Is detected, When the temperature rises and an abnormality is | estes tne above possible causes, the cause may enstin the connector | eee ro yen than has come oor aeund GPP PHT and PAT dpa edo a E ‘the abnormal A/D value in %. For this value, reler to the DIAG menu No.9 AD DATA (on page 12)@ Operation procedure of DIAG menu and SUB-MENU ‘There are No.1 to 11 MENU items and some SUB-MENU items as wel DIAG menu selection Mah Unit: PROGRAM #/- (forward/reverse) key Remote Controller: Cursor key /¥ (forwardireverse) or PROGRAM key (direct selection) ‘SUB-MENU selection Main Unit: SET MENU +/- (forward/reverse) key Remote Controller: Cursor key +/-(lorwardireverse) or PROGRAM key (Press the same No.) DSP-A1 Its possible to switch the input, select the external decoder, tape monitor or REC OUT, agjust the front, center and rear levels, control the master volume, muting and tu the power ON and OFF while DIAG is executed. However, the EFFECTINPUT MODE keyis not useable. 5. SPEAKERS SET No DIAG menu ‘SUB-MENO Wo, DIAG menu ‘SUB-MENT 1. ANALOG THA” ‘MAIN BYPASS. T.MANUALTEST | ALL DsP 048 MAINE DSP FULL BIT ‘CENTER 2. 05P RAM THR, ‘AC3=CDSP-SRAM MAIN R ‘AC3PLav~CDSP REAR osP DIRECT REAR |. .VOLFULL FRONT L 3.40-3 THR. ‘STATUS (Binary) FRONT R 4. PRO LOGIC (CENTER LARGE Lee EFFECT OFF PRESET INHIBIT (Vemory initialization Inhibited) RESERVED (Memory intalzed) @ AD DATA CHK Inal soreen REC KEY THM PRO PRY ‘C:NONE & AMT:ON 19. STATUS “STATUS ((): information communicated | REARL & FANT: ‘between microprocessors REARS & FRNTS ‘STATUS 2): Channel status information MAINGLARGE 038 STATUS (): BS information 1 MAIN:SMALL 048 STATUS (0): BS Information 2 MAIN:LARGE -10 STATUS (2): BS information 3 LFE/BASS:SWFR STATUS (@): BS information 4 LFE/BASSMAIN _ STATUS @): BS Information 5 6. DISPLAY CHK inital green (EFFECT OFF) STATUS (€): Decoder information DISPLAY CHEGK 11, VERIEXT MAIN & SUB CPU VERSION EXIT (O1AG ena) © Canceling DIAG There are two ways to cancel DIAG. 1) Turn OFF the power by pressing the "POWER" key of the main unit or the "STANDBY" key of the remote controler. 2) Cancel the DIAG function by using the DIAG menu No.1, "VERJEXIT®. Then DIAG will end and the normal Sate will be rostored. CAUTION: When canceling this function, check the DIAG menu No.8 PRESET (for memory intialization inhibit/ reserve). (To keep the user memory, be sure to select “INHIBIT” from the No.8 PRESET menu to inhibit initialization before canceling the diagnosis function.) 10 raPa " DSP-At @ Trouble causes that can be checked by DIAG [Trouble symptom Digital souna is nat Produced Possible cause and check mothod by using DIAG Maitunction 01 CDSP (¥SS214): As ts uncetectale by Failure of DAC (AK432s): As tis undetectable by sing DIAG, check he signals before and ater DAC. The test tone ofthis products utput rom the noe generator whic is bin the COSP (YSS214) through DAC (AKAGD4). Ifthe test board, an abnormality exists in either COSP or DAC. AC-3 sound is not produced “The source lenot usable fr AC-3: The source is usable for AC-Si1"1is detected abit ofthe second bye in Manu No. 10 STATUS (1) and also at bit 0 ofthe second byte in STATUS (8). ‘The AO-S decace source without he cial data bt (CD-ROM, DAT, eto) Is reprodueble only in Menu No. PRO LOGIC sound, Is not produced EFFECT sound is not produced Malfunction cf SRAM: Check the signal in both paths usinginot using SRAM in Menu No2. Malfunction of ACAPLav(YSS249}: Check the signa n ath paths using/not using ADSPLay in Menu No.2 Follure of electronic volume: Asis ektety srg DAG tek seals bere analog, hector tom CPt. Power tums OFF after] being turned ON (The protection {unciion works.) (Check forthe ‘auity part according to the history el protection function (4 types) wher starting DIAG. Failure of tection crt, connectors (1, #3, #4, ete): Check forthe constant, soldering condtion, flat connecting cable ‘coming of, pater, ote. I¥.antallure in he chal system is ancipated, check whether there is an analog outpur atthe connector #7 ofthe DSP ciruit board in addton to tho above chock tame. ther is @ correct output, fare exists after DSP. Chock ‘whether a signal exists oF notin the analog section before the volume (connector #7 ol the function cult board) land after it (connector ofthe function citcuit board), preout, ee. Also, such malfurction does not necessarily ‘mean a malfunction of the IC itsel. Check for poor soldering condtion, peripieral pattem, comrat signal rom CPU, ‘connector, power supply, et. atthe same te,DSP-At Cee Details of DIAG menu In each menu, "SPEAKERS" is always set to "LARGE" and the electronic volume to "OdB" unless otherwise specified. Also, CENTER GEQ and CINEMA EQ are set to "fll", D-RANGE to "MAX", LFE LEVEL to OB (-10dB at AC-3) and CENTER DELAY to Oms. 1. ANALOG THR, (Analog through) ‘The input is fixed to use the analog (AVD} system and has 3 sub-menu items. MAIN BYPASS The main UR signal is output through the analog bypass without passing the DSP section. The main UR signal passing through the DSP is output through C/LFE, FLIFR and RRR. 1. ANALOG THR MAIN BYPAS! wo | gericos =f “eH CD ANALOGIN. : th, 208Y, vouwe wax’ PREOUT MaINUR — — 136q8v CENTER: ~t3.80av REARUR “13900 BEARUR ~ 10908 ‘The shaded square moans thatthe lament itcluded i does not operate. DsPodB The main UR, CILFE, FLFR, RURR signals pass through the DSP section. ANALOG THR. DSP _BdB = ari Set CD ANALOG N+ nme, ~ 9008 7a | YouMe max PREOUT MANUR -135aev CENTER REARUR FRONTUR, [ill 1 state square means thatthe eam nde int des not epee DSPFULL BIT The same applies as "DSP OCB" axcept thal the digital data is output in full bit at D/A. 5 Full bit: Tho digital data is normaly output with a head margin of 6dBor each of C, FLIFR ANALOG THR ‘and RUAR channels. n this menu, the head margin snot used and the cial cata i output P FULL BIT in full bit so as to obtainthe A/D and DIA characteristic fly. Note that this means the Analog gain after DIA is +848 for IR channels. Also, the LFE channel which is normally controlled by LFE MIX LEVEL ofthe set manu is also output ful bit 2Pau DSP-A1 2. DSP RAM THR. ‘There are 4 sub-menu items. Using this menu, it is possible to diagnose a trouble in YSS249(IC5), DSPISG009(IC301}, YSS214(IC2) and SRAW(IC3, 4, 37) by switching the sub-menu and checking each output signal. The input data is automatically ieniied and switched in the priorty order of ACS -> DTS -> PCM AUDIO -> Analog (A/D) according to the signal detection. ‘ACa-» CDSP-> SRAM ‘The main IR signal is input through ACSPLav to CDSP and after passing SRAM, itis output through all channels. ‘The C/LFE and LSIRS signals are vot output even at AC3/DTS. 2. DSP RAN THR. ACS-CDSPSSRAM cercon ty a, oo. COANALOG IN = the -s007 fone 28a aout Sas AC3PLav > CDSP All loments are working The main L/R signal is input through ACSPLav to CDSP and then output through all channels. SRAM is bypassed. ‘The CILFE and LS/RS signals are not output even at AC3/DTS. 2. DSP RAM THR. ACSPLaveCDSP wren “Tela ee & Poon rs00 pop comoan a sea eM seu 23ey wee, TREY cern, ose 13 The shaded square means ‘that tho elomont included in Ht does not operate.DsP-a1 cose piRecT ‘The main UR signal is input directly to CDSP by DIR2 and then output through all channels. ACSPLav, DTS DEC ard SRAM are bypassed. 2. DSP_RAN THR. aoa eee ae ‘DEC at e _byassn, oo CDSP_DIRECT reason, when the | TO | Ao sural or ths DTS salle tuted Wi 9S Sse ereeonn| oreo [nee sf HT COANALOGIN: : tie, -2048V VouuMe Nox PREOUT MANE — ~19.406V MAINR — =13808V cenTen "13 7ra5v RERRUR ~13846V FRONTUE ~138d6V J] Te shacod square means thatthe elon nlded int does not oper. E.VOL FULL Set the electronic volume to +10d8 for CENTER, to +1508 for REAR, +15dB for FRONT and 0d8 for SWFR. The signal pathis the same as AC3 > CDSP > SRAM. However, as the signal is output in the diitl ful bit, the volume finally becomes +16dB for CENTER, +2148 for REAR, +2148 for FRONT and +1008 for SWER. DSF RAN THR. CDANALOGIN. : ths, -9088V Vouume MAX PRE OUT MAING =196a9 MAINE =158050 CENTER 2adav REARUR 7208 FRONTUR 72060 Al elemenss are working. 14 rerDSP-A1 3. AC3/DTS THR. Only the signal of the digital system is input. The AC3 or DTS signal is decoded and reproduced azcording to the | Input source, STATUS The AC-3 signal in each channel is decoded and output through AC@PLav > CDSP. The status information of the ‘AC-3 signal is indicated in binary notation on the lower level of the FL display. 3 _ACS/DTS THR. STATUS: 66009001 | [eee = | | “fH L em ‘Status information of AC3 signal bit 765 000 432 oo0 1 : > Lo ~ Wen AC-3 encoded signals input: 1 When AC3PLaw CRC error has occured: 1 When ACHPLaw MUTE error has ocewred: When AC-3 KARAOKE signal is input 1 ‘Wet PAO LOGIC encoded AC-3 2/0 signal is input 1 —___ —— When AC- signal of aemod=2/0 is input 1 $$ norma: 1 As sigral identification is executed in normal AC-S reproduction, the source (DAT, CD-ROM, etc.) without digital data bit of IEC958 cannot be reprocuced even when itis AC-3 enceded. On the other hand, as this menu does not execute such digital data bit identifcation, these sources can be AC-S reproduced. (To measure characteristics during 8C-3 reproduction, use the AC-3 decoded sine wave.) Honever, note that with the sources that have not been AC-3 or DTS encoded, a decade error occurs and muting is applied. In addition, by displaying the status information indicating the operaticn of the AC- signal on the lower level of the FL display in binary notation, malfunction ofthe decoder can be detected. 18 7] The shaded square means thatthe element included in R does aot operateDsP-A1 4, PRO LOGIC ‘The input data is automatically identified in the priority order of AC-3 > PCM > Analog. DTS is inhibited. The sub- menu items include selection of Pro-logie (The auto input balance is OFF) and EFFECT OFF. CENTER LARGE When the center mode uses the analog, PCM audio or AC-3 2/0 mode, L, R, C, S signals are pro-logic decoded ‘and autput. When the AC-3 moce other than 2/0 is used, the pro logic function does not work and the signals are ‘AC-3 reproduced 4. PRO LOGIC CENTER LARGE mee Jaan | THs oreo fer] Sef ee... nh | Co vasa [=] “eH ied a. }-L.]-“"= | + connatoain ‘= seciwee™ | ie iat Precur [lm nacao sare means that the elament cluded nf does not operate EFFECT OFF ‘The UR signal is output through MAIN BYPASS when in the analog mode and through CDSP when in the digital mode. PRO LOGIC EFFECT. CDANALOG IN. + te, 9018 Youve Max PRE OUT MAING 19.438 MAINE ~18.4080 CentER DTS > PCM > Analog. The input UR signal is output through the specified channels according to the sub-menu. FERRERS SET] There are 12 submenu tens. CENTER? LARGE The analog switch settings ‘or each sub-menu are as shown in the table below. ‘Submenu CENTER [REAR | MAIN SP [WAWLVE [LFEVGASS|FRONT UK] A. MUTE | OSPOUF ier CENTER LARGE LARGE | LARGE | LARGE | 0B | swe | 7en | CFF | CENTER [cswit a swer MAUL] LARGE | LARGE | — 096 Ten_[ CFF _| CENTER CSMLL&BMAIN | SMALL | LARGE | LARGE | O36 Ten_|_oFF | CENTER C:NONE & AMT:OFF_ NOME | Lance | Lance Ode | 7ch OFF CENTER C:NONE &AMT:ON | NONE | LARGE | LARGE | _0d8 Teh | ONT] CENTER iL FANT: LARGE | LARGE oa | SWER | Teh | OFF | REAR, FRONT REARS AFANTS | LARGE | /SMALL™| LARGE | og8 | SWER //USeNITT| OFF | "REAR, FRONT. MAINLARGE 0d3 | LARGE | LARGE | LARGE | 0B | SWFA | Ten | OFF | MAINUR MAIN:SMALL 008. Lance | LaRGe |SMALTT] ous | SWFA Teh OFF MAINUR | MAINLARGE-10 | LARGE | LARGE | LARGE Teh_| OFF | MAIN UR LFEBASS'SWFR LARGE | LARGE [LARGE | oss | SWFA | Ten | OFF LFE LFE/BASS:MAIN LARGE | LARGE | LARGE | 008 [WAIN] 7ch OFF MAIN UA, LARGE: Signals are output inall bandwith. SMALL: Only signals lower than 90H.z are mixed in the channel specified by LFEIBASS. NCNE The center contents ae cstrtuted tothe MAIN UR channels after -2dB. © CENTER 8 BASS. WFR: SUBWOOFER ANT: AUDIO MUTE FRNT FRONT ‘Signal outputimuting is executed i the DSP-section and switching ofeach filter ONIOFF or o ga is executed inthe function secon. 76. DISPLAY CHK DsP-a1 Thisis a program to check lighting of the FL display section. It is started and stopped by operating the sub-menu. When the program is started, the FL display operates as shown below. The input signal is automaticaly identified in the priority order of AC-3 -> PCM => Analog. The signals are processed in the same way as EFFECT OFF of No.4. The UR signal is output through DSP BYPASS when in the analog mode and through CDSP when in the digital mode. As forinternal/external synchronizatioy selection of the image signals, forced external synchronization is selected by the microprocessor control. All sogmeonts turn ON for 4 seconds {Ginmer 100%) Nota The uppor lool consists of 15 Initia spay ‘A sogmonts OFF After2 seconds. digits and al segments ight up. %. DISPLAY CHK EFFECT OFF. Upning ina tice le mpet Normal ‘All segments tur ON for 2 seconds (Bimmer 80%), ‘Segment conditions ofthe FL driver (IC901, 1C902) and the FL tube are checked by turning ON and OFF all segments. Next, the operation of the FL driver is checked by using the dimmer control. Then a short between segirents next to each other is checced by turning ON and OFF all segments alternately (in a latice). (Inthe above example, the center segment in the second row from the top is shorted.) 7. MANUAL TEST The test noise is output by the ncise generator with a bu > MANUEL TEST ALL DSP through the channels specified by the sub-menu, ALL ‘Noise is output through all channels. MAINL Noise is output through the MAIN L channe. CENTER Noise is output through the CENTER channel. MAIN R Noise is output through the MAIN R channel. REAR R Noise is output through the REAR R channel. REAR L Noise is output through the REAR L channel FRONTL Noise is output through the FRONT L crannel. FRONTR Noise is output through the FRONT R channel. LFE Noise is output through the LFE (sub-waoter) channel. err)Psu 19 DSP-A1 8. PRESET This menu reserves and inhibits intalization of the back-up RAM (parameter, set menu contents, ete. for the sound field program). The input signals are automatically identitied in the priority order of AC-3 -> PCM > Analog. The signals are processed in the same way as EFFECT OFF of No.4 INHIBIT (Initialization inhibited) RAM initialization Is not executed. Select INHIBIT to protect the values set by the user. 8. PRESET INHIBIT, RESERVED: Initialization of the back-up RAM is reserved and itis executed when the power is turned ON after canceling DIAG. RESERVED should be selected wren shipping out of the factory o” resetting RAM. RESERVED 9. AD DATA CHK ‘The A/D conversion value (Sch) cf the main CPU (IC1 of the function circuit board) detecting the REC OUT selector, the main unit key, protection, etc. is divided into 2 pages and displayed in 9 by using the sub-menu. (5V ‘as 100%). While pages 1 and 2 are on display, its possible to use [unctions of DIAG menu selection, power OFF land DIAG cancellation only. The signal process remains in the state before execution of this menu, 3. AD DATA CHK | 9, REC KEY THM 9. PRD PRU > => D 56 160 28 77 Standard value of RECOUT Standard value of KEY (main Page position ‘ontpane! key) REC: Value at REC OUT position (10% step) RECOUT [Sanda] [Wairuntpanel key | Standard KEY: Detection of main unit panel key operation (10% step) vale va ‘THM: Cetection of heat sink temperature (Normal value 6~ 40) [TAPEVOD |" oo | | TPEAWONTOR |" 0 ‘SOURCE s__] [INEUT MODE a Page 2 wo. ao] [errr 7 PRD: DC detect protection value (Normal value 1 ~ 13) Taps 2 ee # RV: Power supply voltage protection value (Normal value 3~ 20) | ¥CRE =} | OS 4 VIO AUX. ° SET MENU: = 0 100 Note: The SET MENU + Koy is onal the DIAG menu switches ftom 80010. ‘This menu checks the A/D input pot of the main CPU and the resistance value for voltage division, @ REC and KEY A/Ds fail to operete property if they are 4% off from the standard value. In this case, check the constant of the partial pressure resistor, poor soldering, etc. ‘© When THM becomes less than 5%, the protection function works to turn off the power. When it xceeds 40%, itis possible that there is an abnormality in the temperature detection system. ‘© When the PRO/PRV value becomes abnormal, the protection function works to turn off the power.10. STATUS (1) ~ (8) ‘There are 8 SUB-MENU items. DSP-A1 Lv-dsa Acoerding to the sub-menu operation, the following status information fs indicated in hexadecimal notation. The signel process remains in the state before execution ofthis menu, STATUS (1): Indicates the information communicated between microprocessors. 8. STATUSCIY LF 86 38 7 Lana oe sstoye ‘1st byte (Port information & request) Dit7: Normally "0° Dit6: Normally "0° DitS: MUTE REQ (Mute request for te main signa) bit: ALL REQ (Al data transmission request forthe main signal) ‘ita: STA (Data transmitted from sub CPU to main GPU) bit2: MTS (Data transmitted from min CPU to sub GPU) bitf: SRQ (Transmission request fron sub CPU to main CPU) bbiO: MRO (Transmission request rem main CPU to sub CPU) 2nd byte (Digital data) bit?: DEM MUTO ('0" when AC-S RF signal is input) bit 6: OPTICAL ("1" when selected signal is input othe optical terminal) bitS: DIGITAL DATA (0" when PCM AUDIO signals input) bit: DIGITAL FORMAT ("1" when ir the undefined channel status) bis: AC3PLav MUTE (°1" when a Y88249 error has occurred) bi2: GOSP/IRO (0" when a YSS214 ertor has occurred) bitt: DTS UNDECODE ("1 when DTS DECODE NG has occurred) bitO: DIR2 UNLOCK & ERR ('1" when the lock has come of or an error nas occurred) STATUS (2): Incicates the channel status data of IECO5S in orcer starting from the 1st byte. 18. STATUS<2> STATUS (8): Indicates AC-3 and DTS DECODER information, iB, STATUSCE? DEC OG 60 OG one aa byte 2nd byte (ACS STATUS) D7: Normally "0" Dit6: Normally" BitS: 20 MODE ("1 when AC-8 210 signals input) bitd: SURENC(‘1" when AC-3 210 + 2RO LOGIC signals input) Dita: KARAOKE ("t" when AC-S KARAOKE signals input) Dita: NUTE (" when YSS249 error has ocurred) Dit: CRC ("1 when AC-3 decade enor has o¢curred, undefined at POU) DitO: AC3DATA (1" at AC3 DECODE OK) Indicate GO 1 bi 7654 3210 iraicate] bt EIFAEI 7[6[6 @fo}ofo i {eo} Zz popola 3_popor 4_[o[t]o S_[e[tfo éo}afi F_o[ ta 3 [tele 31] elo A [tpola B[apoya cape opto ei F_Dte lt STATUS (8) ~ (7) Indicates he bit stream information included in the AG-S signal in order starting from the 1st byte. [ig. STATUSCS? S180 86 OG 60 ‘1st byte (AC-8 DATA STREAM) Infomation to incite in hat nunber of the mult-bt stream the ‘AGS signals included ‘34d byte (OTS STATUS) bit7: "1" when FL ted DTS lights wo. bite: Normally "0" Dit: Normally "0" bit: Normally 0" bits: Normally bit: Normally bitt: DIS DECODE ("when DTS Is decoded) Did: DTS BOARD ¢1" when DTS cicult board exists) 20Pea 24 DSP-A1 Trouble symptom Possible cause and chock method Digital sound is not produced | Malfunction of digital input, DIR(YM3436}: Check the 2nd byte GAD of STATUS (1) fora ch (oVerTAt SOURCE indicator remains OFF) | lock ar an error. (btOs "1, possibilty is fare of DIR and anothe" possibilty is malfunction of the digital input selector) CCheok he channel status data STATUS (2) 411, VERVEXT Indicated in the lower level is the CPU (main/sub) version. The self-diagnosis function is completed by using the sub-menu and the normal operation is restored. When replacing CPU, make sure to check the CPU version. Depending on compatibility of the communication format, CPU may not be suitable. Use of a CPU whose ‘communication format is not compatible will result in failure in communication between CPUs. The signals are processed in the same way as EFFECT OFF of No. M: Indicates the version of main CPU (IC! of the function circuit board) Indicates the version of sub CPU (ICt of the DSP circult board). The alphabet at the end of the version indication represents compatibility of the communication format between the main/stb-CPUs. The ‘conmunication format of CPU 's interchangeable with the one whose alphabet at this end is the same. Ifthe tend alphabets differ, CPUs willnot operate properly. ii. UER.7EXIT 16108 SG. 08 ll DISPLAY DATA (VZ524400) © Vo01 : 32-BT-04G PATTERN AREA GRID ASSIGMENT acme SEGMENT DESIGNATION SHH mOaee j * : ESEGG BEBEB L_ — BEEBB B8SEB “ BBBBB G88EB BREGG SRSER BHEGB GESee BEEBB Boue GHA) (7081956PIN CONNECTION DsP.A1 Pin No, |Connecion| in Wo. convection Pin No, [Connection] Pin No. [Connection [Pin No [Connocton]Pin No. [Connection] Pin No, [onnecton| Fi | | ese | a1 | 100s | or | pes | or | poon | vor] pia | ri | 7GA [Ft [22 [ress [ 42 [tos [62 | pas 62 [pron | 102 | pasa | 122 | aa [rr 2s [ewe [as | v2as [es | pas | es | np | wos | para | 123 | sca NP 24 | pass [ae | 133 | 64 | pis | 4 | Pian | 104 | 26a | 124 NP 25 | p28 | 48 | tas | 65 | Np | e5 | Piva | 105 | p29 | 125 25 | pis | a | 153 | 65 | NP | 06 | prea | 105 | P30 | 126 z | pas | a7 | secs | 67 | e2 | or | Pisa | 107 | Poa _| 27 z= | Pi98 | 4s | pros | 68 | r2 | 68 | prea | 106 | paca | 125 “zo | Pies | 4a [pis | ee | Fo | 09 | Pisa | 100 | P3sa_| 120 30 | Pie) 60 | piss [70 | F2 | 90 | Pr2A_| 110 | Poa | 130 st | Pie | st | prize | 7 | r2 | ot | pia ait) P3sa_| 191 | 2] 103 | s2 | ene | 72 | F2 | 02 | pion | 412 | 10Ga | 192 33] 288 pioa_[73 [| _NP_| 93 | Poa 443] 15GA_| 199. 34) 968 Pos 74 | NP | 94 | Pea | 114 | 140A | 196 “08 pea | 75 | P25a_| 95 | PVA | 195 | 13GA | 195 | 16 | pa08 [35 | 568 | 66 | we | 70 | paca | 06 | Poa | 116] 120A | 126 w7_| pas [37 | 668 | 87 | pve | 77 | pasa | 97 | P6A_| 17 11GA | 197 18 | pos [38 | 708 | 68 | pos | 78 | Poa | 9a | Pea | 110) 10GA | 136 (He [rsss [30 [eas [so [up| 7 [ pora_[ o9 | P9a | 110 | 9Ga 20 | ps4s | 40 | acs | 60 | ps6 _| 0 | Ne | 100 | P2a_| 120 | aaa Note: Ft, F2:Filamont- NF:No Pin NC: No Comnection IG: Inemal Connection PIA-P95A, PIB~P95B : Dat ANODE CONNECTION tum Line AGAW16GA, 1GE~16G8 : Grid TGA-16GA] 766A GA=T5GA] 160A GA-1SGA] 166A iGaxieGA] 106A PIA | _1-1A —__[Piaa — [pra] 15a |Scwons [Para] 1-7a _[odipro.de] pa | 2-14 = |rs2a = [pean | 254 [aon [paza| 27a | SP _ pan | 3-14 = _|P#3a ——[resa| 354 |= wena | Pa3a | _3-7A [ota oun Pan | 4-14 = [Pian as fet) |P24A| 4-50 |< ovawora| Pa) 47A_| ACS PsA | 61A_| _— | PI6A ais (ight) [P25A | 55A [acum [PO5A| 67A | PCM POA | 12h — [Pia = prow) | P26A| 1-68 | St PTA | 228 = [eral = | Pa7A| 2-60 | TAPE2MON [Pex | 324 | — | Ptea = mune [P20A| 36a | SLEEP POA | 428 PIA) 4-4A [© woraren| PuOA| oA | OTS Poa | 6-24 P20] 54A =u |PIOA| 5A |OODIGITAL [as-i8a8]| —[ies-908| 108-1608] ——_ [168-1668] Pe) me [pne| se [poe] tse pie] 178 p25 | ose |pi2e| 208 [ree 255 po28| 278 poe | sip [piss] sae [p28 | ose Pos) 78 Pap | 41s [pias] 436 [P2ee| 458 | poas)4-78 | Pep | 516 [piss] 538 |p25e| 550 | PasB| 578 Pes | 1-28 | Pie8| 1-28 | p268 | 1-68 pve | 228 |pi78| 228 |p27e| 269 | Pep | 926 |pi9B| sap |p20p| 9-08 [pos | 425 [pie] «4s [p26 | 465, | Pre | 528 |p20a| sao |Paop) 569 22Pu DSP-At IC DATA IC1 : HD64F9337¥F16 (P.C.B. FUNCTION) 8 bit u-COM (Main CPU) Brows B hice Bs B reroxver No.| Terminal Port Name | Function PowerOn Power Off Backup 7 [RES Reset Reset = = 2 xa Osciator scion BUHZ = 3 | XTAL Oselator Oscllaor: BMH = == 4 | Wor a Normal : 5V _= = = | DO GPU mode | Normal V = 6 LWA ‘Nil Intrrupt | Not used (V) = = [7 | STEviEVpe ‘Standby Not used V) &_| vee $8BU Power supply = | PS2ISCKO CLK [cow cLooK o ao 10 | BSTIFKOO ‘STW ‘COV: XO i T OL 1 | P50THDO MTS COW: TXD o Ca 12 | is Ground ov == 73 | Pa7ISDA Pa7__| MAG ‘COW: OSTROBE a) a 14 | P36 P96 Not used (OV) i i 75 | P35. Pes__| SR ‘Sub OPU reset __o oo 16 | Pe Pog FR FL diver reset 0 OL 7 | Ps Poa] FSW. Power SW detect T i 18 | PATO ROO POT Power detect Tt 78] PHI Rot [REM Femocon in T 7 20 | PROIRGZIADTAG. iRa2__| SAG ‘Strobe from Sub CPU T 7 21 PSOIFTCUREYINO P60 | PA. TESEL, eneodar in A T t 22 | PSIFTOAKEVING Pei | PS T t 28_|_PS2IFTIAIKEVIND PB Not used (OV) = 24 | PSSIFTIBREYINS 6s___| VUP(voume) | Stop: Hi, Up LO, Down AO. a 25 | PSAIFTICIREYING Pes VON(volume) ° o 26. | PSGIFTIOIREYING Pes | VND Volune LED eo oo 27 | PSGIFTOBIKEVINGINGS [IRQS Not ised (OV) 28 | PST/IRGTIKEYINT Tf net ts0a 0) 29 | Anos 75M Power supply for AD — =HD64F9997YF16 (P.C.B. FUNCTION) DsP-a1 u-COM (Main CPU) No. | Terminal Port | PortName | Function Power On Power Off Backup 30_| PPOTANO NO —[ PAV Powor supply eror detec 7 7 Hz 31 PPAN “fant [Pao Power amplitier ouput OG teat 1 1 32 | PRRIANE ‘ana | KEY Keysan "| PPOIANG [ANS | REC Rec out selecor postion detect 1 i 34_| PPAIANA [ana [re Radiator temperature detect | 1 35. | PPBIANS ‘AN Not used (OV) — 36 | PFEIANGIDAD [ANS Not used (OV) st | P7TIANTIDAT Oat FAN TAC output for Fan dive oor 36) Aves hiss Groune fr AD = 30" | PaO hpi Ar Head phonos muro oo ae ~20_| axrrMo0 Pat__[ Rr Head phones datos T 1 ot 21 Barro Paz} | Wot used 0) ot PAGITMICT Pas Not used (0V) o PaarTMOt Pas Tt used (0¥) OL PaerTM Pas “Ret used (0¥) ot Pa: Tt used (Ov) OL [Par at used (0¥) o Vee | 3580~ Fower supply a ~ Par ot used (OV) P26: etused OV) P25: Fret sea (ov) [Pea Tot used (OV) Pas, Not used (OV) P22 otused OV) - - Pat Tot used (OV) P20) [Rot used t0¥) © - Ves] Ground oF = er [Pir Pi7 Not used OV) o 6 P16 Fi6 Not used OV) ot BPS ~ PS Notused (OV) ‘OL | Pia Pia Not used (Ov) OL | PIS, Ps et se DV) OL @ | Pe re ‘$1: FIXEDIAUTO (A) i 7 ot [Pit Pit ‘SPL: PALNITSC (Uy 7 1 OL | PIO, P10 ‘model PAUNNTSC SW detec 1 1 OL {es_[ Poo P20 Power ampli oross cunt dla i OL [eLpst = Pat Fal mute oat or | Ps Pee, Nain evel: O@B-TOGBHL) OL ee | P38 [Psa Speaker lay oot @ | Pat Pat | Power teay oot OL 70 P35 P35: (CE: TOS2TSNITOBTS2AN oOo 7] Pee P36, CE LCTSRALCTSTHONEILGTSIE_O OL OL Par PST, CE LCTETIONELOTERIS.. OL. 75 | es Ves a = 7a_| Pa P20. ‘xia coe oor | Pa ar Esteral data - oot 76 | Pa Pa2__| Ges CE: NS0%S oo. ot 77 [P88 — Pas En ‘Video Syne Exteralintemalft) OL OL 76_| PBaRRGRTWO! "TROT Pregrambock | Data ansfor ool 79_| POSIRGAIFXDT FRDT | Programboot | Data reoeive i T oO | PABISCKRGSTSCL iOS | VS¥ Vayne detect ee OL 24 es)Pea 28 DsP-A1 1: HD6473257P10 (P.C.B. DSP) 8 bit COM (Sub CPU) Postal [7] [53 Pave Pou TOA [2 3) Poe sarro8 [5 Pads Pawn [| Poo ate [5 Pao: reef] poe Pout (7| Pads Fes [3] P05 xa [3] [5] Prone ex [0] Fs) Proms wo: [Be Prine Mos [5] Pawns mi Prune voc fia] BB] Pras Tey 5] [a] Prune vss [1] [a] Pinar Patho [7] [a] ves, 440» [1 Paste Peete [19] [a] ravine Pastict 20] ashes autos Bi] fs) pavass aatir 22] [zs Povae au 23 fe) pauns Pare Bal fe) Pours rT40e | [2] Panne Ke [3] veo Puscre [7 Pri Psa x0) 28) PraRD sar 2] Pra sax0s 5} Pras Pri PrsOS Pnids [| PrsBST No | Pon | Name] 10 Function 1 PO KM1 | 0 | DiAforcible node (L: ANALOG) - 2 | Pe up| o | DIRCE 3 | Pee cok | o | DIRGLC 4) P63 coo |i [DIR cata —s_| PeenRGo_|7OIRER | 1RG_| DIR ERR detect intervot | Pesnrar_|~ ots | 1ma_| OTS decoder _ 7_| Paainraz | na |" na|~ ODO interns request 3 | mes | /ReS. RESET ~ 7 | oral |_xTaL 20M 10 | exal_|exTAL 20M [Mor Mot av “Hoo MOO BV. ~ NMI | NMI +5v vec [vec +8 isYsY_|_/STBY +5V vss. vss. GND Pad 1A |_O | DIRIACSPLaviG Pat mo | 0 | AD Péa__|_ADSEL_| © | SOURGEAWG Normal: "1 (SOURCE) ps | NC NotusedIt : HD6479257P10 (P.C.B. DSP) 8 bit u-COM (Sub CPU) No. Port Name | VO Function 21] Pad) ACSMT AGSPLMUTE zo | pss | /RSEL_| © _| RECIEVE SEL (L:DTS) 23 | pas | mREO. DIS HOST REQUEST 2a | pare | ice ACSPLaviDTS i 26 | Psamreoo_| 1x00. ACSPlaviDTS 26 | Psurwpo | Rx00) ‘ACSPLaviOTS UF_ _ ~[ACSPLaviOTS UF 28_| esata | 1x01 _| (CPU IE (STM) 29 | psumxo1 | Axor (CPU (MTS) = 30__| pssiscxi | Sckr _|-ceu rca P70 1S (CPULE (MRO) Prt Jos (CPU IF (SRO) Hi ° L ° _o 1 27_| psaiscxa | _scKo | 0 oO. n fi L ° ° PZ OMT DAC MUTE (H: MUTE) prams |" NC. Not used Pras | Muto [|_| “DEM MUTO. pra | pvort | 1 | DVvoVCRS OPTICAL [_erero | tvopt | 1_| TwoBs oPricaL. ema |~cpoet | 1 | cD OFTICAL voc | veo |_| +5v paria's | Toss | 1 _| DTSBOARD (Low active) 41 | Pasa | MoDo | oO | DTSMODE 42_| P2sics_| MODB | _O_| OTSMODE [aa] pewae | wopa | o | DTS MODE — Powe [pat | o_| DTS PLLINTIALZE [as |" p2om'0 | rotsrst [0 | DTS RESET. eau [es [1 | ODSPIC ‘@7_| pawns | amu o | CSPINPUT MUTE 43_| vss vss ‘GND. 49 | pizay_|_rwarr_|1_| DSP wat 50_| Praas_| MOE | 0 | CDSPOE (Ouiput enable) St] Pisias_|_mwe | © |CDSPWE (White enable) se_| prams | imice | 0 | COSP-OE (Chip enable) 63_|piaa3_| was | o sa piame | Maz [0 | lon gp address s6_[ Piva | _wat_| s6_[Prowy | “mao | 0 sz e009 | woo [10 17) s8_[ psi | Mor | vo 53 | psgoe | M2 | V0 0 | ~psaps | 03 | v0] ong data bus er | psuos_| mds | v0 2_|psss_ | wd5 | v0 63_| Peeps! WD6 | vO e4 | Ps | MO7_| vO DsP-a1 eeDSP-A1 Ic2 : ¥SS214 (P.C.B. DSP) epsP 2p NSCS RR bg Blower ange bEBSS Sasa see2 Se SES SSS SSS @EERRALUESPRERE TENT EESSE gaeassesserss, SeSBREOSSOSE [Name [10 Fungion MCE | Iss | Chip enable Input fron CPU IwarT_| OD | Wait signal output to CPU bo ‘GPUUF paral cata Ot (CPULUF paral ata ‘Moz | iO | CPU UF paral cate MOS: ‘CPU-UF paral ata 7 [wba (CPULUE paral! ate | MOS: (CPUUF paral data MDG | It0_| CPU UF parallel cata Mor (OPUIF poral dt MAOIs | OPU UF address inpit ‘MAL Is_| CPU UF address input - Maa [Is | GPU UF adoress input Mas [Is | OU UF adress input nc} — | Uneonnectes voo | “=| 8V power supa woo [=| #8V power suppiy wc. [= | Unconnecied vss_| = = vss - 7 Nc | = Nc NG._| = | Unconnected I nc. [= | UneonneciesIc2 : YSs2t4 (P.C.B. DSP) cosP No. | Name [V0 Funcion 25 | Nc. | — | Unconnested 26 | 1ur_| ise | Serial data input gate 27 | MUO | 0 | Seria! data output mute 25_| MOS _|"is+_| Micro-processor communication mode select 29 | tha | “op Interrupt request '30_| TEST [lee | LSI test (normaly unconnected) 31_[_XxcUx | 1810 | Serial control deta shit ciock - 32 | 18S | les/0 | Reset signal for serial Control data synchronizaton 33 | co1_| tev | Serial control deta input 34 | DO _| 0 | Serial contol data output 35 | S0_| ise | Serial data input - 36_| 51 | Ise | Serial data input 37_| 82 | Ise | Serial data inout ~ 38_| 83 | tse | Serial data pat '39_| soo | 0 | Serial data oviput 40_|so1_|~o | Seria! deta output ‘41_| 802 | 0 | Serial data output 42| 803 | 0 | Serial data output = 43_|_1syW_| Ie | Signal input for system synchronizaiion ‘44_| MOLK | Is | Master clock input 2561s) [-45_|_ No. | — | Unconnected 46) No. | — | Unconnected a7_[_No. || Uncomnected 43_| vss = | Ground @2_| vss] = | Ground 50 =| Unconnested ~ ‘s1_[ yoo | = | +5V power supaly s2_| veD_| — | +5V power supely 53_|_nc._| - | Unconnected 34_| SC.K | 0 | Olock output (6s) — Dro | 0 | Digital aucio intrtace data output 1 | 0 | Digital audio interface data output 02 _| 0 _| Digital aucio interface data output - 58 | OBOE | ise | memory data bus output enable 9_| Nc. | — | Unconnected 60_| we | 0 | External RAM write enable 61_|_10& | 0 _| External RAM output enable 62_| ice | 0 | External RAM chip enable 63 | p28 | fealO | External RAM det 64022 | tsxi0 | External RAM ota @5_| Det | we0 | External RAM data @6_| D20_| sO | External RAM data = 77 | 019 | igo | External RAM date @8_| 018 | gio | External RAM data ~ 69 | Di7_| Isw0 | External RAM dita - 70_| 016 | tsv/O.| Exiemal RAM data T1_| 015 | tev/0 | External RAM data = 72_| ou tswo | External RAM data — 73_|_D13_[ige/0.| Extemal RAM data ta_[_nc._[ — | Unconnected - 7 | vss |= | Ground 76_|_vss_| = | Ground ~ DSP-A1 28 eeDSP-A1 29 DsP-a1 Ic2 YSS214 (P.C.B, DSP) cpsP. NAME v0 FONCTION NG. Unsoanested VDD= | ¥8V power supaly ‘voD__= | ¥5V power supply NC. = ‘Unconnected - NC. = | Unconnected NC. =| Uneonnected NS. = Unconnected _ Diz evO)| Evtemal RAM dala Dit Exteral RAM data - 10 Iss/0_| Extornal RAM data 9 External RAM data Ds External RAM data, ~ o7 External RAM eata 06. External RAM data 05 Exiernal RAM ata Ds External RAM ata $3) 03 External RAM ata os | 02 External RAM ata 95| 01 External RAM ata 6 | 00 External RAM data s7[ a0 | 0 | External RAM address 98_|_At_| 0 | External RAM adsress 99 Az ‘0 _| External RAM address 400 A3__|_O_| Extera RAM address 401_[_Aa 0 | External RAW address ~ 102 [AsO | External RAM add 10 | Ag || External RAM address 404 |_a7_|_0 | External RAM address 105_[ a8 | _O | External RAM address “106 [a9 |_| External RAM adress 407 AIO oO — 108 | N.C. |= | Unconnecied “108 | yoo +5V power supply ~ 110 oD = +5V power supply - 44 nec. | = ‘Unconnected_ 112 | vss = | Ground 419_| ves | — | Ground 414 ne | = ‘Unconnected 115 | Nc. | — | Unconneciod = 116 NC._| =| Unconnectes 17 [No Unconnected 416 [ant | External RAM adarete 119 |_Ar2 External RAM aderess 120 | AI3 External RAM adores v1 | ats External RAM address - 122, AIS. External RAM address _ 123 [Ate External RAM address 126 A | External RAM address 125_| ars External RAM aderessi/H word clock 26 [tc | “hitialelear 427 | IMWE | Write enable input from CPU _ 128| MOE | ‘Output enable input ror CPU te Input O: Output +: Buln pull-up resisir —_e: Schmiat input (00: Open dain N.G.: Non-connect (unconnected)DSP-A1 ee Ics : YSS249 (P.C.B. DSP) ACSPLav 1 Tt contrat snus | spear. b> connor stans spiscx | »——+ sooack sone e0owek coset sont FN ‘8000 ‘SERA XA ese PNM sour >| PUT | od Teomien foo 28 S001 soe [L+! woe rscesson : S002 Y yooe J orergwa .acx Sure *IGTE eae 103 SAR xQbEe sé STREAMO-7 30PS a DSP-At ICs : Y8S249 (P.C.B. DSP) ACaPLav Ne] Name [WO Funetion — + [vba “50 power Supa 2 [TESTCKO | © | Test teminl (noma unconnected) 3 TESTION | Tap | Test terminal (normally unconnected) 4 TesTior est temninal (normally unconnected) 5_| Testioa est temninal (normally uncomnectes) 6 | TesT03 Test teminal (normally unconnected) — 7_[Testioa Test temninal (normally unconnected) ~ [xt ‘Crystal osclator connecting terminal SOMF2~ 40 OF) @ [xo iystaloseilator connecting termina 10 | vss Groundtermint 11 [cra "AO | PLL ouput terminal (connected o VIN trough enteral analog iter Grou 12_[ TESTIOS | tp | Test teminal (nrmaly unconnected) 13_[ TESTAI | tp | Test temina (nermaty unconnected) 14 TestR2 | tp | Test termina (normaly unconnected) 15_[ TesTi06 | 1p | Test tinal normaly unconnected) - 16 TESTIO? [tp | Test tominal (normaly unconnected) (ir [restos itp | Test terminal (normally unconnected) TESTION [ip | Test eminal normaly unconnecies) viN [PLL ingutteminal (connect CPO troogh enteral analog er Grout [wae PL input terminal connected to VOD through extaral analog ter eeu yoo +5 power supp TESTIIG | Ws | Test eminal normaly unconnetec) TESTIIt [tip | Test terninal normaly unconnected) - TESTII2 | tp | Test erinal normaly unconnected) TESTING | tp | Test terminal normaly unconnected) TESTII4 | tip | Testteminal normaly unconnected) TESTIIS | tp | Test erinal normaly unconneces) - TTESTII6 | Wp | Testerinal (normaly unconnected) - Test itp | Test terminal (normally unconnected) - vss. ‘Groundierminal voo “5 power supp ‘OPORTO | O | Genera purpose output terminal 33_[ OPGAT! | O | Genera pupose output terminal 34_| OPGRT2 —~|-0 | Genera purpose output terminal - 35__| OPORTS | 0 | Genera purpose output terminal 36_[ OFGAT4 | 0 | Genera pupose output terminal 37_[ OPOATS | O | Genera purpose output terminal 38_[ OPOATS | 0 | Genera purpose outut terminal 32 | OPGAT? | 0 | Genera pupose output terminal 7 40_| vss Groundierminal a1] vod ~ [50 power supe a2 | Teste | We 43 TESTI¥9 | ip | Test ternal (normaly unconnected) 44 TESTI20 | np | Test terina (normaly unconnected) —— a5 | S0ce ‘© | POM ouput tenia! (CFE ouput a ACE, OS ouput at Pro Loge) 48_| S0Gt ‘© PCM ouput terminal (SIRS output at ACS, LU euiut at Pro Log). a7_| 8000 ‘0 POM ouput terminal (UR output oth at AC-3 ad at Pro Logie) 48_| SDOBCK ‘tp | Bit clock input terminal for SDO output signal 49_| SDQWCK |p | Word ebk input terminal or SDO ouput sal [so vss" Groundtermina Si_| VOD “50 power supp 62_| ACADATA | 0 [ACS dla detectirminalDsP-A1 re Ics | YSS249 (P.C.B. DSP) AC3PLav Name [00 Function Gao. (© | CRO err deoct terminal MUTE, “O | Au mute detect terminal KARAOKE | O | AC-3 KARAQKE data detect terminal 'SURENC ~~ |_© | A320 mode Dolby suround encodeinput detect terminal ZIOMODE | © | AC-3.2/0 mode input detect terminal 7 TESTI21 | Rp | Tes terminal (normaly unconnected) TESTI22 | fp | Tes’ terminal (normaly unconnected) — Ground terminal itp | "Tes! terminal (normally unconnected) ies | Initial lear termina “TESTBRK | tp | Test terminal formal unconneciech _ IesTI24 tp | Test terminal (normally unconnected) — — see Ties ns | Misoorooessorintedace chip etc erin $0 ‘0 | Misoprocesor interlace data output teminal SI TS | Mieprooessoritiaoe dai input ternal SOK ie | Mieprooessoriteriace dock input ternal TESTIZ6 | to | Tet terminal normaly unconnected) _ VOD 5V power suppy STREAMO | O_| STREAMO detect terminal _ ‘STREAM |_| STREAMI detectterminal ‘STREAM | © | STFEAM2 detoct terminal ‘STREAMS [0 | STREAMS detect terminal _ ‘STREAMA |__| STREAMA detoct torminal ‘STREAMS | _O | STREAMS detect terminal ‘STREAM6 |__| STREAM6 detect terminal ‘STREAM? |_| STREAMT detect terminal _ vss ‘Ground terminal - VoD) -+5V power suppiy ‘SDIWGK |__| Word lock input terminal or SOL input signal — ‘SDIBOK. it Bit dock input terminal for SD input signal S010 it AG bitstream (or PCM) dat input terminal - soit it [ AG bit sream (or PCM) data input tenninal TESTI27 | itp | Testterminal (normally unconnected) TESTI2e itp | Testterminal (normally unconnected) = TESTI29 | itp | Testterminal (normally unconnected) _ - [Tresris0 [itp | Testierminat (normally unconnected) vss _ Ground terminal VoD +45V power supply TPORT? | to | Gensral pupese input terminal - 93| IPORTE | to | General purpose input terminal “94_| PORTS ito | General purpese input terminal [95_[IPORTs | Ito | General purpese input terminal {96 | IPORTS | to | General pupose input terminal 87_| IPORT2 | Ito | General purpose input terminal 7 98_| IPORT! Ro | General purpose inout terminal 7 — {99 | PORTO | to | Genoral purpase input terminal — 700 | VSS Ground trmigal Note) Listed below are symbols Inthe 1/0 column and thelr meanings tc: GMOS level input terminal It: TTL tevel input terminal ts: Schmit trigger input terminal Ip: Input terminal with pull-up resistor ©: Dighal output terminal 0": Tristate cigtal output terminal Al: Analog input terminal AO: Analog output terminal 32DSP-A1 33 DsP-a1 Ics : PM4007A AC-3 RF Demodulator auceeagessentesassy boo Bose Bose Bios Boos: Boon Boor Boa Bot pote Bao — bos Bie Boe Boe Boas 5 too i. waatenens | Saucbeadd Tid eEEgeegg? Ne | Name _[ WO Function + | 6ND Ground (00), - 2 | yoo. +5V power supp _ S| RESET [| System reseing terminal eset at U) “| OSGON | 1 | Oseietion contol terminal Osilaton ON at, sto "FF nonmally andto "when in standby Sale [~s_[oara [1 [iG testernna,nomnaly connected o ground (or unconnected) [MOK | ~1| 1Cresteminal, nowaty connected to ground (or unconnected) 7 [MLTS | 1 | ICtesteminal, normaly connects to ground (or unconnected) [1st [0 Output torninal for test [ck [0 | Output ternal fori test — 10 [100 | ©] Ouputterninal orc test 11 [tMo| “1 | 1G test ermine, nownaly connected to ground (or unconnected) 12 | £06k [0 | Output terina for test _ 13 [DEN [0 | Ouputtenina toriC test 14_[onY [0 | Ouputternina for iC est _— 78 [Ws¥E_| 0 | Ouputternina tric test 6 [tm 1 1 tet ternal normally connected to ground [or uneenneded) a7 a0 (| Ertemal FAM accress output. Access 0 (58) 18 [At | 0 | External FAM address ouput Adress 1 so [ae (0 Exel ess ouput. Adsress 2 20_ [8 (| Eternal PAM acoress output. Adress 3 21 | Mt] 0 | Extemal FAM aderess output. Address 4 22_[as (O-| Eternal PAM aceress ouput. Aderess 5 - 23[ TMB | 1 | 1Gest terminal, nosmally connected to ground (or unconnected) “26 [twa [1 normaly connected o ground (or unconnected) 25_[ KOUT |_| OuiputtertinalioriC test _ 26 [XIN |__| ICtestemminal normally connected to ground (or uncomedied) 27_| KEXT | | IG esterminal norrally connected to ground (or unconnected) 28_| SND. Ground teminal(0¥) 29_| voo __| +5V powe supplyIe : PM4007A DsP-A1 AC: RF Demodulator No -Name [vo Funeion = 30 | a6 © _| Extemal RAM address output. Address 6 _ 31 | AT | 0 | Exteel RAM address ouput. Adress 7 | 32_| GND ‘Ground terminal (OV) —_ yoo “50 power supp _— a2 Extrral RAM access up, Adare 72 aid Extrral RAW acess ouput. Adress 14 (SB) - WES terra RAW write enable signal eciveat"L" x Erferral RAM adcress output. Address 13 AS Exterral RAM address output. Address 8 Z ag terra AM adress output. Aderess 9 7 — 7 40_| GND Ground terminal (OV) a1_[ Atl |_0_| Eweral RAM adoress ootout, Address 1 22_[ 0&8 [0 | Exeral RAM ouput enabe signal, acive ar a | aio (© Extarral RAM address output. Adoress 10 44_[.087 | VO_| Ewer RAM data terminal. Osta bus 7 45 | BG [Wo | External RAM data terminal. Data bus 6 46 [085 | 1O_| Ewerral RAM data terminal. Daia bus 5 [088 | VO | externa RAM cata erinal. Data bus 4 —_ a ['083 | v0 | Enteral RAM data terminal: Data bus 3 49 | 052 | _1O_| Eemal RAM data terminal. Data bus 2 ~ [50_[ DB1 | VO | Exterral RAM data terinal- Data bus 1 ‘s_| 080 WO _| External RAM data terminal. Data bus 0 _ s_[ voo 150 power sippy ‘53 | GND Ground terminal (OV) stm iC tes termina, normaly connec to VED — 55_ [VIN ‘VCXO input - — s6_| VOUT VoXO output si | Te IC test terminal, normally connected to GND (or unconnected) se [Ts IC testerminal, normaly connected to GND (or unconnecte) [Toa IC testerminal, normaly connected to GND (o unconnected) - eo | TcK IC test terminal, normally connected to GND (or unconnected) 61 TAP |_| Out terminal or Outout terminal or IO test Ouipul terminal for phase comparator (tate) IC testierminal nomally connected to GNO (or unconnected) Input trminal ta conto! PDO output, Output ON atL™ Mating op Mung evalable a FF. Sotingbecgres VF whan WUT & ACS Tp anjnehon0us. Digital external Input, through to DAOUT when DASEL is Digtalout select IC test terminal, normally connected GND (or uneonnectod) TTermiral used o indicate error Condition ater C2 correction, whether completely Corrected oF nok “Termiral used to incicate error condition ater C2 correction, number of erorsat C2 TTermiral used to indicate error condion ater C1 correction, whether any eror exists @t G1 OF nt Termiral used to indicate ert condition ater C1 correction, number of erorsat C1. ‘Muting input. Muting availabe at "=" +5V power supply {Ground terminal (OV) arrPS DsP.At Ice : PM4007A AC-3 RF Demodulator [Ne T Name [U0 Function [at +5V power supply for analog comparator Z ee [Analog comparator input, postive sid (Nonveversa side: OPSK now (ces | [Analog comparator input, negative side (reverse side) [84 | Ground teminal for analog comparator (OV) (Tas [1c tet terinal narmaly connected to GND (or unconnected 26 =5V power supply - - a7 TC tet ternal, normaly connected to GND (or unconnected) - 38 (| Anaog comparator eeu ouput — @ {| Analog comparator result verse opt 20 (0 B2i6viriz vou, odout evided ino 2 a VININOSS Dn) a1 ‘Ground teminal OV) — = v2 “O_| Output fori test 8 © | Output for iC test, _ 34 (0 Outpt forictest : 35 Of Ouipit toric test _ 36 | Ouiputtoricrest 7 | 16 test terninal, normally connected to GND (er unconnected) 38 TiC test tinal, normaly connected te GND (or unconnected) : [se ‘Ground teminal (OV) for 46.08MHez oscillator - 700 SV power upelyfor48.08MFi osclatorcg : YM3436DK (P.C.B. DSP) DIR ( Digital Format Interface Receiver ) DSP-A1 g Wsbiesda. 8 ant EEEEEEEEEES RQSZsersEss ° eo ¥ 2 PRgsPRRRR2 ee ye Wee =a] Fm om Pal Pe lio Function wane [YO] Funotion GaU[- [Rai ores a — Pee o | Rass cpa ai 2 [ Hout to | asmamanes beorssente i a) : + [bout to ae camctne Gur | wba a [wpe eee Tat vest [veo soso oner an © [opr [ox Steno capa agar orond [ar Lica Tt teatental ere neal + [evi [o | a teecwmoas onan coer Tarte | cosets see ia + [hee To [crs reser ceneae “eC ee ee + Lwe_ [fo [es wodecscasgs sl cer te) Sue sus npg enon dey hires [fo amor sea oa comet tren [oC essamastios ose wel coo Lo te aa ain ey Sey TLS Lr |e emassnntae oiainpa amet wel ne | erst ecco conection somal [35 [65H [1 | Cen na aap mahal sascon || soca ” sl caw |) oral son auton net wo 2 | Satta ec oS * i [paseo | veo sn sink secon ——[ ar [pom |e ES it thus to [Peston tas = Fwccencoa See [agente poy 3 tag scnnpove TEL o Laas neon oop —— [8 Catt anorfagaugat teow -1[cbstnes cour tan eee ana sacs eta Se cos srt en-Lt 1 pas toate sen Bh * ae [ou LC [ as ete oon Sa pe sacar aos 21_| DOtMo_[1 | data output mode selection 2 | 000 | OT uiput eran tt] Gakneasonin Se ope carp Wataos Gok 23 | RSTN | 1 | System reset input | OOK |! input _ a vei [Lees een eb caw a] Sate msec woos od See eo secre oeDSP-At DSP-A1 Ic12 : M35019-076SP (P.C.B. VIDEO) ‘Super Impose one(Z| =o sola] sat] mG voor | oven (a| soul] om} kavoer [aver [non [050m Fjoscow te SS ee S| I ovo [ EAs Siew Bib To: Pia Na| Symbol "Terminal name Function + | oscr 2 | osce Exlamal terminal for oscillation ecu Extamal terminal of escilation ecut for cisplay. ‘The standard oscllaion frequency is about 7MH2. ‘Tho display postion in the norzontal croction and width of ctaracters on the TV seroon are determined according to this asclation frequency. 3 hip select input ‘Chip seleot terminal “Lig bet when the serial data ig transferred, Hysteresis input._A pullup resistor Is bull in _ 4) SEK | Serial efook input When G5 terminal i °L, the SIN soral data is taken i at he SOK rise | | Hysteresis input. A pultup resistor is built in & | SIN | Serial data input "Tho cata ana aderesces fr the display contol riser and dsplay dala memory are Input In sonal form. Hystorosis nput._A pullup rosistor Is ult in @ ‘Auto clear input “The IC internal circuit is reset when in"L” state Hysteresis input. A pullap resistor fs built in 7_|_voo2 | Power supply terminal | Analog type power supply terminal hat should be connected 10 +8V. 8 | VIDEO | Composite video signal | Output terminal for composite video signal output 2Vprp composie video sinal Is output ‘When making a superimpasiion, the character output and oher features are superim- | _ d.on the composite video signals input through the CVIN terminal | © | LEGHA | Character Tevel Irput | Input terminal to determire the output level for the characters in the composite video signals. The oolor of charactors Is white | 0 | Ovi | Video input input terminal for extemal composite video signals ‘Ground terminal ‘When making a superimaosiion, the character output and o*her features are superim= [posed on these composite video signals. ‘Connection to GND is made by using this terminal ort 0 output Port terminal output of charactor backaround signals (BLAKT?) aro output. 1 ‘The polarly can bo selocied when determining the font ROU. | PI) Pan F output ort terminal output or character background signals (COT) are output “The polarity can be selacied when determining the font ROW. | Pan € output Port terminal output or character background signals (BLNKO") are culput | ‘The polarity can be selecied when determining the font ROM. we | Pa | Paw Fouiput Port terminal output or character background signals (CO2") are oviput “The polariy can be selected when determining the font ROM. ¥6 | OSGOUT] Oscillation circu for | External tarminal of the osolation circuit for generation of synchronous signals. 47 | oSeIN | generation of ‘Tho oscillation frequency ¢ 14,82MH2 when the NTSC system Ig used and 17.73MH2 Synchronous signals _| when the PAL system [s used. | 18 | HOR? | Horizontal synchronous | Horizontal synchronous signals are input, signal input Hystoresis input ‘Tne polarty can be selected when dotermining the font ROW. 79 | VERT | Verlcal synchronous | Vertical synchronous signals are Inpul signal input | Hysteresis input _ __| The polarty can be selecied when determining the font ROM. 20__|Voo1_| Power supply terminal_| Digtal type power supply terminal that should be connecied io +8V. | 7DSP-A1 OO DIGITAL iit, as RE edie le —— to +H ‘Boe DIGITAL COAXIAL ovowers [> 3 /' S oe a J & Ls: Cm fm TL eg 4 vere nec; as ewecrs nae mae re s Le EXT, DECODERIN cones So] own [RT uann@-afSo— sunnouno r@—afS>0— sus wooren @—af>0— £-39/-37| A B c D E F G DsP-a1 | MBLOCK DIAGRAM/ FO y 7247 95L 1 i i eo our [~orane L o—fSof on SL o—farsrsatesa| wen a sane | was wan oa ae | or [ered | on e, One Rene 8 2 ° center [Trycrne — OO ost, Lane 1% Ye Sacco \ 8 | center ° e i aa gpg Pot ie eat * Bix 5 ow. on | enue = g Bil | er 1 . “ie ' sw o—e om |} ono Bren z © =] ' ar ? § ' owe —‘m|—oseura | & po ! & | P ! nl! } rows | ae ' i wo Ou a * a 3 i . 2 8 ma, es re 2, =| 5 oe . FRONT azar — et i z Ei —a f'n om ron FRONT were | oe 6 4 Par a H AL . + ae @u ves REAR eausse cee | ag o] is sean 8 4 ra — — aoe On rein te |] om ge prea Lo | = t ~ 1 | i ! | wx @——— 4 area ! wo @——_} + tt ' w@——__+ ; u Sree | ' w een one i 5 vert (04 _— ae ove E-40/5-38E F G H DsP-at HEPRINTED CIRCUIT BOARD (Foil side)// 7 — KV 2 — >All) P.C.B.DSP (3) rosmawe|| ou wo FROM : FUNCTION FROM : DSP om SS r S H ——— 2, peer = Ps, = PONG GG Ayes 18: Sunes oe BUCEEN euoeun im Wezwow ron wea (ero P.C.B.DSP (4) @ C model only To: ose @ [ E P.C.B.DSP (6) TO: MAIN (3) {fe fy nour erecr conan vex sevens IF cal MEeCANoe MAIN, MAIN 4Q 8Q FH FROM : POWER TRANSFORMER E-43/J-41DSP-A1 HPRINTED CIRCUIT BOARD (Foil side) / 7 — KEIN — >fill) P.C.B. DSP (5) : P.C.B.DSP (2) FROM : FUNCTION | P.C.B.DSP (5) FROM : TONE CON (6) AUDIO. SIGNAL PHONO = 5 ° 2 2 = [| Rec MAIN woken c=sten SURROUND ® o FROM : TONE CON (6) Point (Paz? of 16301) Pout (Po or) Point (no of 68) Polat (P56 of 18) Polot ® (Pint of 18) Ve02view 08 asec Ve02Vidw Hs 50 esol V02viav 60 ness V:02vidv—-H: 50 neecol V:02vidv—H.60 nesoate DCrange 1:1 probe ocrange 1: probe OG range 1:1 probe Dcrange 11 probe DG range 41 probe aa EA B AAT TA momar Re ovfod dd a - jo - t +t r i a SafPucy a 1 a Seyret, soe a ae ae E-44/s-42 6DsP-A1 MEPRINTED CIRCUIT BOARD (Foil side) / — KBI(/* 2 — fil) P.C.B.DSP (1) P.C.B.DSP (1) (© FROM : FUNCTION ° g 3 5 3 2 £ Zz 5 8 2 5 2 8 £ FROM : DSP (2) E-47/s-45A | 8 | c | o E F 6 DSP-A1 MPRINTED CIRCUIT BOARD (Foil side) / — KEA(/¥ 2 — >fill) FUNCTION | FROM : VIDEO (9) FROM : VIDEO (1) FROM : TONE CON (1) FROM : DSP (1) FROM : TONE CON (4): 7 (IT FROM : VIDEO (6) FROM : DSP (3) sex $8 Bob ae _o= Fe! FROM : MAIN (1) FROM : DSP (6) FROM : DSP (1) E-48/J-46 VOLUMEB | c | D E F G i DSP-A1 ® C P.C.B. FUNCTION Poi \ (erecmae “] vow (ont) Point (ne ot 101) Jone : Cotecr of a8} v: evi (He) | Vr0zviev 1:80 nsedlaN 1:05 soolal DC range 1:1 probe DC range 1: 1 probe (his waretnm snot avaiate by psstng the power eich ON and OFF) Terme wit stat E-61/-49A | B | c | D E F 6 H -52/5-50 6 DsP-a1 PRINTED CIRCUIT BOARD (Foil side)// / — KEA(/¥2 — >4fll) P.C.B. TONE CON (6) P.C.B. TONE CON (1) ss) | TO: DSP (5) ws FROM: TONE CON (2) > =F] TO : VIDEO (2) TO : VIDEO (3) { | 70: vinFo i1) ‘ONE CON (7) FROM : TONE CON (1) ag Row AUDIO VIDEO S VIDEO : T 4 VIDEO AUX FROM : FUNCTION pe CON (7) {-eY PHONES | P.C.B. TONE CON P.C.B. TONE CON (4) P.C.B. TONE CON (5) P.C.B.TONE CON (3) TREBLE co (2! | [= FROM : FUNCTION BASS EXTENSION Ea! QUULUINE FROM : TONE CON (1) | A FROM : VIDEO (3) FROM : VIDEO (4) INPUT SELECTORmPRI FHONIV -HSLNIO4 INTED CIRCUIT BOARD (Foil side) / — KEV — > fill) FROM : FUNCTION ss —> TO:MAIN (8) TO : MAIN (2) @e zg stage 3 IDLING CURRENT 3 nove g TO : MAIN (3) § TO : MAIN (2) be eG —_ 28 L& 8 2 § se Ze 2 3 g3 ee (| “=| r x! 2) gi =| u obs FROM : MAIN (4) DUNG CURRENT ‘ADU. (Reh) ‘TO : VIDEO (5) © IDUNG CURRENT ‘ADJ. (CENTER) FROM : MAIN (4) IDUNG CURRENT ‘ADA. (REAR Leh) IDUNS CURRENT ‘ADJ.(REAR Reh) (2) NIVW OL {e) NIVV? OL DSP-A1 E-55/J-53DSP-A1 MEPRINTED CIRCUIT BOARD (Foil side)// / — KEI(¥ 2 — fill) P.C.B.MAIN (3) P.C.B.MAIN (3) @ U,R,T, A, B models FROM : DSP (8) > @ J model FROM : DSP (3) i 1 f — _ | | | ls E IMPEDANCE 2 fi & & SELECTOR | = 2 — | = = MAIN MAIN | 3 2 2 I 2 oD g | & g 2 i i : © © I 3 3 FROM : POWER TRANSFORMER | : g z = a TO: DSP (6) 2 | ee eee | BRS cee a 3 © C model only e = = z z 3 3 e 2 P.C.B. MAIN (4) on FROM : MAIN (1) FROM : MAIN (1) Tm ne 56/54MEIPRINTED CIRCUIT BOARD (Foil side) / 7 — KES 2 — >fill) P.C.B. MAIN (2) FRONT REAR AORB AtB TO: MAIN (1) MAIN CENTER P.C.B, VIDEO (2) FROM : TONE CON (6) FROM : VIDEO (1) Low pour vere Lon pour vort Lin Tvipes lo our DvDIVOR3 : i TO : FUNCTION FROM : VIDEO (2) FROM : TONE GON (6) FROM : VIDEO (8) Point (Pint8 of 1012) V:02vidv —-H: 50 needy OC range 1:1 probe DSP-At MONITOR OUT our pvowers. w— our vere w— out> vert IN TwioBs E-59/J-57A | 8 | c D | E G DsP-At MEIPRINTED CIRCUIT BOARD (Foil side) // 7 — BE (78 — >A) 1 P.C.B. VIDEO (3) P.C.B.VIDEO (4) P.C.B. VIDEO (5) FROM : POWER TRANSFORMER OUT OVDIVCR3: N |? our e [vere 38 w g Z I our 4 CRT w t | gq 3 S Tv/0BS 3 g 38 8 ge y ° 38 8 = g f to: vive 14) | E-60/-58 a {| TO : TONE CON (4) Le From: TONE CON (1) ule FROM : VIDEO (4) FROM : MAIN (1)E FE GS H DsP-at MEPRINTED CIRCUIT BOARD (Foil side)/ — KEV 2 — > fl) @ J, U,C models @ R,T model P.C.B. VIDEO (6) VIDEO (6) FROM : POWER CORD TO : VIDEO (7) @ G model To :FuncTiON [ }=* P.C.B. VIDEO (6) FROM : POWER CORD TO : FUNCTION \<— FROM : POWER TRANSFORMER: FROM : AC OUTLET \<— FROM : POWER TRANSFORMER FROM : POWER CORD ' TO: VIDEO (7) TO : VIDEO (8) <= TO: FUNCTION | |= —~*— FROM : VOLTAGE SELECTOR TO : POWER TRANSFORMER @A,Bmodels P.C.B. VIDEO (6) FROM : AC OUTLET to: Function | } \<— FROM : POWER TRANSFORMER E-63/J-61A DsP-a1 MPR INTED CIRCUIT BOARD (Foil side) / — KEY (/¥ 4 — >-fill) @ J, U, C, RT models only © RT models only P.C.B.VIDEO(7) | P. . VIDEO (8) ro TO : VIDEO (6) TO : VIDEO (6) E-64/J-62 6) ‘AC OUTLETS P.C.B. VIDEO (9) lJ aw Fi TO : FUNCTION IEPIN CONNECTION DIAGRAM #38 (HE elcs AWIMSES q fle Gor iW igre ‘aor F6-150 @ Transistors TT aa ee maa ar Bes | meee eas ean” Drc1aaKs | 28cau0 (ah, Ly seas ; Bans _ 1 1 ~ meg [emo ween | meses Re [asgigey | auses 4 TyA | B | c D E F H ' | J Z MESCHEMATIC DIAGRAM (DSP-5)/ #82142 C Le) TONECONI6] re sven TA] portant a | wear aoe Bileae ex ze alae aos INPUT & REC OUT oo | at ~ coe SELECTOR wn | ewe soor/son | teerca | seo sue ae eee ] uma miro. 0630 | vs SUFFER = ae [of C4 a sik gl te ee ee ait ae [ee mete laa ela | : 4A : | Sines: a a pa col an pe fe : ieee | ee ‘Sh [NETAL PLATE RESISTOR a feree GF M_Icoi hesiston 16409, 408 : Tesa73N-008 oso : ToMTBRAN PR gi TO [No MAR uh ! + = ‘ ® Foe CAPACITOR s 2 NOTICE tne) (Pi}es GENERAL Co aea BUFFER : DsPIs} | ' TONECON(5) TONECON(5] (es) Ce] {Lio SINGAPORE * All voltages are measured with a 10MO/DC electric vol meter * Components having special characteristics are marked A\ and must be replaced with paris having specications equal to those originally install. * Schematic diagram is subject to change without noice. OREU. WBMRUMOOREHTMELEEOTT. OAM s SHS, RAMMAMSERL TST, SROTAYOBORA, OY IR MORME RT VSBBERALT CEE. OADERERMORETT, MRORDTEECRETSEENTEUET. 663-64A | B | c D E F G | 4 1 J K DSP-A1 MESCHEMATIC DIAGRAM (DSP-2)/ #8 ERE vg ROM ue | a 8 dda 8g ae ms ; dd gla rf ole aad tg 2 st ec | Pre crnige ri 8 co eens seal towne | ms foas|” Suc 191,072-word x Bbit One Time PROM Hex Inveriers ge bape asl” Sawa sel, Bee pallies try att [ease as) A wa Ble 18] | | 16 boas |e tag 2 a0 wah yt a BT (| i peu |” Yager | St, —9 a | 5 a esut (ure ai] ae “AY yi lel lel -lefelel lelale) x 1g bea 78 7p a i “a ale)s|ela/al*hele}a|e|ag) ta feeue SRA uoe a0 : ok yy Baa clsaaee sag de abd ay (2B cess poms S a 51821251 5] 4 oa 21121 Bee 10 poun [g8Moras 07 = Sosesis0 dle 476 540 a3 2 41] vets a [se 0 16 re = Shreocruns totes] ane | oe - = 6 3 [ovec205 won| A ce kena le Soeas pe — ae ms 2 hncs/ieoi voor |) aamgte Saal? Smee ‘ ra 2 eset ost] pacepe oe gee ms) HUUE co) Baer wa] [ery Ee t 03 a6 wale DIS DECODER Selo PA fo. ares 2 Fm 04 3 02 26 102 %[vcors fo erso | eacrgie 03 | a é OL ag wien securos| Teo 2a Rem 02 aq Aes eas henaeNe 60, . = lent 2 eel gq 1 hgh Spee State Rat E sea} Tees eaFije OL lala 3 taal versenors asa soit | Pace ae e oe a3 seu 73 a 500 5 ae A *, a voce 51 a0 xo ® 53 z nee alist ie oe Dr cal i win] Dcals Tog pe oS MOTTE | [oe fener guna a | sues 0. ial Slaose | Wace ap we | pufenale Sacer : fg. 069 Stuur i arbre | ‘ 2 sa elz2s 22 z 4g a8 a6 | Sig] aner a rss eas maze - real CEP CTT ee SE ea ae peed | mesa Yass 7e we " Serta atte Sa as te psa Sai fe: ii ae Gases asqqaayiiy =| asians} | ,| a8 of* 15] 212/e|ofa|>) ae S)al-/aia/ 214) 4 786 oF i rrr : wg & ra z oe D ele @le & 2 A @ Soo al S a al “| Aen C3, 4, 37 : MSM51008BFP-65 ‘treword x Ot Bae RaM cf la x ot xxx 2c] xxx |x [oto] x [broeoty 3 ‘ wom [oars [wwe [woe | |X |X| Sina cumenran. front ney WEREO/5I * cet HE i ale Me ee ane rerancu aloo | x | Xx | X [ww |X | xX TX ia sree cei ne cee ee se clan ee oe law xox LX vine 012] : a XXX fawan |X| XTX J a XX Konto |XX ree VIDEO'3) ry oe z TONECON(6) a s r me fw [me | mae [noe | ae [ase | a el | Ct i ! ‘SUB ca Lv [wom | vom [wn | wns | vance | vanes ae POWERS) 83 !SUPPLY S-VIDEO || SELECTOR ™ ee 2 3 he fase as ; $64 semen wo | eosin lele faommen | i 2 1h] Sao r i ae fees [sm on pioeot7) | + WipeOTS nie} I ci am J ne ue gl live TORECON(S! TONECON(5) Sek Point ® (Pnt6 of 12) es Lk L a Loy V:02Vidv —H: 50 nsecidv - Aggapgag : Fe - — OC range 1: 1 probe - cl Fi | a5 it a | : vA ke IMPOSE | eek | | || | en 3 - Ls * Gaara having spc characters ae mare a mit ee ving specications equal fo those origina - gn = be replaced win pats hav 78 equal 0 thase erik soe 2 * Schematic dlagram is subject o change witout notice. = = Sn ; ! ORE, MBM MOORE HEL LOTT. Sauter area SVIDEORME Vioeott] r : jaineora] | OAS SBAL, REAREMBERL CORT. BAORAEROMS. fo SVIDROAMP JO ee NO YUR MOREE A TOSMAEALT CEE, OADADGGRDHATT. MALO FEE CRETSCLOCEUET, E.72/4-70A | B | c D E E G H 1 J K L M N DSP-At MESCHEMATIC DIAGRAM (MAIN) /# E142) sed MAIN/CENTER/REAR POWER AMP CIRCUMT CHANGES BY MARKET. Ae | (eam | x x x [ool | somo) dee fo a al eal ole si sf [mm wee [me ar [ ne MUTING afrase oy nese ‘nasi | nesore waar = | De SPEAKER RELAY el ile eee] tae ES i a | a von [alist x x x | eel el b. cz 1 sa[esn.sre Roe ek x sep unc] ar TEST ye | ‘uressiol ‘yrassi0}] Iyressi0]] Tureaiiai] ToressieT) arom 7 4 we osm |p Laslemsn | mal ee eS" sate =| unre | snes 3 o % x X | [Seen See Ta) | | eo a | eo ol ' | ves0110 200120, 80130 yea010 80150 | Doe (oe ee eee me NOTICE (moge1) oe Min uapanese = Shon Ue & i 3 sl MUTING (ihe aA can | {6h Barrage rT {CONTROL : iB) Eieopeau Vee | oe iii LESS GON nH | my Pap (esl Tes! Peer | Le + aesiston casi : 3 aa Sete | —— pants uae Mite [moro nesses [psa] —| fae anne ececTmOOYTne uP < te eb Fc arsriron aT coPue TOE a ING CURRENT HOU. FEAR Ach » A hera a rot auate apie iaa — ~ a mip Sea Fae atts eeaunte-Weucan aPieivoR—| a — | | tar Wer ATE sion {pOLveSTER FiLa-Caraciton | 1 qa ine oor Connon Pw RESISTOR POnSTiane rion caciToa——| ee HJdddatsden = + ee eae eestor Sa - peg ee ee ee eer ‘east FI EaPAETTOR ete eerste Sraeouoeornie ceoswte saci | | CSET voi Al votages are measured with a YOMDC electric vot meter. REL, AMEMIONOORENEMELRLOTT. * Components having special characteristics are marked \ and must be replaced with parts having spectications equal to thase orginaly installed, * Schematic lagram is subject to change without notice. SBR, REWABSERL TST, MAOTANLEOMS. YA MME A THSBREBAL TC ESL, RECT. RAOLNFRS REPEL LMC LORY. E-73/0-71PARTS LIST @ ELECTRICAL PARTS m= WARNING DsP-A1 ‘Components having special characteristics are maked A and must be replaced with pats having specications equal to hose orginally installed (© Carbon resistors (1/6W or 1/4¥) are not included inthe ELECTRICAL PARTS List, For the pat Nos. ofthe carbon resistors refer tothe last page. 1 Chip resistors ard chip metal fm resistors are listed on page 91 ABBREVIATIONS IN THIS LIST ARE AS FOLLOWS : C.AELCHP cE C.CE.ARRAY CoECHP. CCEML CCE M.CHP. C.GE.SAFTY Cce TLR C.cE si cet mica CMLFM CMP MYLAR. CMYLARLML, C.PAPER crus G-POL CpOLy CPP INTL G.INTLOHP cTAM cn CN.88.2IN GN.CARINON CN.OIN CNFLAT cN.PosT CCOIL.MK.AM, COILAT.-FM COILoT.EM COILIMK.FA COILouTeT DIOD.ARRAY DIODE.SRG DIODE. CHE DIODEVAR DI0D.2 CHP. DIODE ZENA DSCR.CE FER.BEAD ren-conc FET.CHP FL.DSPLY FLTR.CE FLTR.COMB, FLTALLG.AF GND.MTL GND.TERM HOLDER.FUS : loPRTOT JUMPER.CN JUMPER.TST Lorer Note) Those parts marked with CHIP ALUMI, ELECTROLYTIC CAP ‘CERAMIC CAP ‘CERAMIC CAP ARRAY CHIP CERAMIC CAP MULTILAYER CERAMIC CAP CHIP MULTILAYER CERAMIC CAP RECOGNIZED CERAMIC CAP CERAMIC TUBULAR CAP ‘SEMI CONDUCTIVE CERAMIC CAP ELECTROLYTIC CAP MICA CAP, MULTILAYER FILM CAP METALLIZED PAPER CAP MYLAR FILM CAP : MULTILAYER MYLAR FILM CAP : PAPER CAPACITOR POLYSTYRENE FILM CAP : POLYESTER FILM CAP : POLYETHYLENE FILM CAP ! POLYPROPYLENE FILM CAP TANTALUM CAP CHIP TANTALUM CAP TRIMMER CAP CONNECTOR : CONNECTOR, BASE PIN : CONNECTOR, CANNON, CONNECTOR, DIN CONNECTOR; FLAT CABLE : CONNECTOR, BASE POST COIL, AM MIX OIL, FM ANTENNA, GOL, FM DETECT OIL, FRA MAX OUTPUT COIL DIODE ARAAY DIODE BRIDGE CHIP DIODE \VARACTOR DIODE CHIP ZENER DICDE ZENER DIODE CERAMIC DISCRMINATOR : FERRITE BEADS rennite cone : CHIP FET ! FLUORESCENT DISPLAY ! CERAMIC FILTER : COMB FILTER MODULE Uc FILTER EMI GROUND PLATE GROUND TERMINAL FUSE HOLDER Ic PROTECTOR : JUMPER CONNECTOR JUMPER, TEST FOINT LIGHT DETECTING MODULE Lemir LED.DSPLY LEDINFRD MODUL.AF PHOT.CPL PHOT.INTR. PHOT.RFLCT PIN.TEST. PLST.RIVET RAARRAY RCAR R.CAR.CHP R.CARFP RFUS. RMTL.GHP. RMTLALM RIMTLOXD AMTLPLAT BSNR.CE ASNA.CRYS. 3.TW.CEM WW 30R.BND.HO SCA'BWLHD SCR.CUP. SOR.TERM SORTA SUPRT.PCB SURG.PRTCT SW.TACT SW.LEAF SW.LEVER SWaMICRO SW.PUSH SW.RT.ENC SWATMTR swat 8W.SLIDE TERM.SP TERM.WRAP, THRMST.CHP TR.CHP TROGT TROGT.CHP TRANS TRANS.PULS. TRANS.PWR TUNER AN TUNEREM TUNER PK mR YRMTR yaw YRSLUIDE YR.TRIM Fare not included in the P.0.B. ass'y. LIGHT EMITTING MODULE LED DISPLAY LED, INFRARED : MODULATOR, RF ! PHOTO COUPLER PHOTO INTERRUPTER, PHOTO REFLECTOR : PIN, TEST POINT. PLASTIC RIVET RESISTOR ARRAY CARBON RESTOR : CHIP RESISTOR FLAME PROOF CARBON RESISTOR FUSABLE RESISTOR, CHIP METAL FILM RESISTOR : METAL FILM FESISTOR. METAL OXIDE FILM RESISTOR } METAL PLATE RESISTOR, ! CERAMIC RESONATGR CRYSTAL RESONATOR ‘TWIN CEMENT FIXED RESISTOR WIRE WOUND RESISTOR BIND HEAD B-TITE SCREW BW HEAD TAFPING SCREW ‘CUP TITE SCREW SCREW TERM NAL ‘SCREW, TRANSISTOR ‘SUPPORT, P.C.B. ‘SURGE PROTECTOR : TACT SWITCH 2 LEAF SWITCH : LEVER SWITCH : MICRO SWITC4 PUSH SWITCH : ROTARY ENCODER ROTARY SWITCH WITH MOTOR ROTARY SWITCH : SLIDE SWITCR : SPEAKER TERMINAL + WRAPPING TERMINAL, CHIP THERMISTOR CHIP TRANSISTOR DIGITAL TRANSISTOR CHIP DIGITAL TRANSISTOR ! TRANSFORME3, : PULSE TRANSFORMER : POWER TRANSFORMER ASS TUNER PACK, AM TUNER PACK, FM FRONT-END TUNER PACK ROTARY POTENTIOMETER, } POTENTIOMETER WITH MOTOR POTENTIOMETER WITH ROTARY SW SLIDE POTENTIOMETER, TRIMMER POTENTIOMETER, ™PE 78 DsP-At ‘Scha Ref. Ref. Description 8. cz CB 470k 50 PAG... cie2 CCE. O.luF = 25V CBI CN. BS. PIN 123 CEL 10uF «63. cB, JON. BS. PIN C124 CBU 10uF 63 3, JCN. BS. PIN. 125 CEL 10uF 63 CBA ICN. BS. PIN 126 CEL 10uF «63. Bs, JCN.BS. PIN cir CL 10uF 63 cB6 CN. BS. PIN 128 C.BL louF 63 cer CN. BS. C19 C.EL 2.2uF —50V | cBB cn. 130 C. POL 100pF 100 } cR9 cn. cisi C.POL 100pF 100 | cB10 cv C132 CEL 2.2uF — 50V jou CN. 133 CEL 2.2uF SOV Biz CN. cise CAL 10uF_ 63. CBI3 CN.BS. 135 C.POL 100pF 100. cl C.CE.M, 136 CAL 100uF_—«10 ca c. cis? C.POL 100pF 100 cs CCE. C138 CEL 100uF—10V C4 CCE. cu4o CEL 2.2uF — 50V 5 C.CE. cul C.EL 2.2uF — 50V 6 CCE. cu2 C.MICA —|22pF 500 cr C.CE. cus CEL 100uF —10V. 8 CCE. cud C.MICA —|22pF 500 9 CCE. cus CEL 100uF 10. clo. CEL cus CEL 2.20F SOV cn CB. cua? CEL 2.2uF BOY ca. oe cus C.MICA —|22pF 500 cas. C8 cig c. 100uF = 10V ca CCE. c1s0 c. 22pF 500 cas. CEL. cist CE 100uF 10. cis: CCB. C152 c. 2.20F SOV cir CEL C158 c.. lo0uF = 10 cis. CCB. C154 CEL ]47uF 50 cig CCB. C155 CEL 1000F 107 (20 CEL C156 CEL 100uF 10 cai cB, c1s7 Ic. 470F —50V 22, CEL. C158 EL 1000? §=—10V (23, Cob. C159 CEL 10uF 63 cm C.CB. C160 CL 10uF «63 (25, EL. | C161 CEL 47uF OV (26 aL. | ciez CEL 47ue OV car c.Ce 0, 1uF €163 CEL l0uF 63 28, c.. 2. 2uP C164 (C.POL 100F 100 cio? CEL Tuk C165 CAL ]47uF SOV cuz C.BL 10uF C166 CEL ]47uF 50V cu3 CEL 10uF *| C167 C.POL 100pF 100 cu c. 10uF *| ces, C.POL o.0z7uF —100V cus c. 10ue +) c169 C.POL o.027uF —100V C116 CEL 10uF 170 CEL 10uF 63 cuz CEL 10uF ci7 CL lOuF 63 cus CEL 1OuF 63 alcrre C.POL 0.027uF —100V cug CEL uF 63. crs C.POL 0.027uF —100V c1e0 CL Tuk 50 ajcima C.POL 0.027uF —100V Now Pes "Now PanP.C.B. FUNCTION DsP-A1 Sch Description Ref. PART NO. Description POL 0.027 1007 (€230 [UPG52100 [C. POL 100pF ‘1007 EL. O.tuF — 50V 231 |Vi845600 |C. EL [47uF —50V. CEL 10uF 63 C232 |UA653560 |C.MYLAR | 5600pF SOV CoE Hour = 63v C233, | VRI68300 |C.MYLAR.ML. | EOQ-VIHIO4L3 C.BL 10uF 63 C234 |UAGS3560 |C.NVLAR | 5600pF SOV CEL O.1uF — 50V C235. | VRI68300 |C.MYLAR.ML. | EOQ-VIHIOAJL3 CEL O.luF — 50V C236 | VR168300 |C.MVLAR.ML | ECQ-VIHIO4JL3 CEL 10uF = 63. 237 |UAG53560 |C.MVLAR — | 5600pF —S0V CEL 10uF_ 63 C238 |Vi845600 |C. EL. 47 = S0V CEL O.1uF SOV 239 | Vi845600 |. EL 470F 50. CEL O.tuF 50 24a |Vi845600 |C. EL. 47uF SOV CB 10uF 63 C2M1. |Vi845600 |C.EL. ]47uF BO CEL 10uF 63 242 |Vi844900 |C. EL. WE 50V CAL 10uF 63 (243 |Vi845900 |C. EL. 10uF 63, CEL 10uF_ 63 Cede |Vi845900 |C. BL. 10uF 63 C190 | Vi844500 |C. HL. O.1uF SOV C245 |Vi845600 |C. EL. 470F 50. C191 | Vi844500 |C. BL. f0.1uF —50V C246 | Vi845600 |C. EL. Ci 192 |UB245100 |C.CE.M.CHP |0.1uF 25 C247 ]Vi845900 |C. BL. 10uF_ 63, C193 |Vi844500 |C. EL O.uF —50V C248 |UA652100 |C.MYLAR | 100pF_—50V C194 |UAB52100 |C.MYLAR —|1000F 50 C249 |UAG52100 |C.MYLAR —]100pF OV C195 |Vi844500 |C. EL O.1uF SOV 252 |Vi845600 |C. BL. ]470F SOV C196 |UB245100 |C.CE.N.CHP OUP 25 253 |Vi845600 |C. BL 470F_ 50 C197 |¥i844500 |C.E o.tuF —50V 254 |¥i844500 |C.EL (O.tuF —50V C198 | Vi844500 |C. EL otuF —S0V C255 |Vi845900 |C. EL 10uF = 63V C199 |UB245100 |C.CE.M.CHP |0.1uF 25 256: |¥i845900 |C. EL louF 63 C200 | Vi844500 |C.EL otuF —50V 257 |Vi844500 50V C201 |Vi845600 |C. EL a7uF OV 260 | FU451100 5007 C202, | Vi845600 |. EL 47uF 50 261. | FU451100 203 | Vi845600 |. EL ]47uF OV 262 | ¥i844500 C204 |Vi845600 |C. EL 47uF OV 263: | UB245100 205 |Vi845900 |C. EL 10uF 63. 264. |vi844500 */ c206 |UP654100 |. POL. 0.0lu® 100 270 |us652100 */ C207 |UP654100 |C. POL. 0.0luF —100V 271. |uA652100 C208 | Vi845900 |. EL. 10uF 63. Di |vT332900 209 |UA6S2100 |C. MYLAR |100pF OV *!p2_|vui72200 C210 JUAG52100 |C. MYLAR |100pF 50 D3 |vu171800 i C211 JUA652100 |C.MYLAR —|100pF 50 D4 | vr332900 DIODE C212 |FU451100 |C.MICA—|10pF 500 D5 |Vv7332900 DIODE */ C213 ]UPG54100 |C. POL. (0.01uF 100. D5 |vr332900 DIODE *| C214 |UP654100 |. POL, o.o1u® 100. 7 |vr332900 |rone | C215 | UP654100 |. POL 0.01uF 1007 Dg |¥1332900 |DIODE */ C216 ]UP654100 |. POL. 0.01uF 100 bg |¥vr332900 |DIODE C217 |RUI51100 |C.MICA.—10pF——S00V. Dio |¥1332900 |DIODE 188355 C218 |UAG54390 |C.MYLAR —[0.039uF 50V. Dit |VU171800 |DIODE. ZENR | UDZ 4, 7BIE-17 4.744 C219 |UAG54330 |C.MYLAR 0.03350 biz |vr332900 DIODE 158355 220 |UA654390 |C.MYLAR 0.039uF 50 Dis | vr332900 {DIODE 188355 C221 |UAG54330 |C.MYLAR [0.033 50V DAOL | VUI71900 |DIODE. ZENR | UDZ 5. 1BTE-17 5.19 222 | A654330 |C.MYLAR —(0.033uF50V IC }xXu39uB00 |1C cpu C223 |UNG54390 |C.MYLAR —0,039uF SOV 1c2_ }xas07400 | 1c AN7BNOS €226 |Vi845600 |C. EL 470F 50 13} xP894Ao0 |1C LC7B211 C227 |Vi845600 |C. EL 47uF SOV Ich | xP896ao0 |1¢ LC78213 c228 |Vi845600 |C. EL 47uF SOV ICs} XP896N00 |1C LC7B213, 229 |Vi845600 |C. EL ATF 50 1c6 | xB536001 |1C C7535 "Now Pare "Now Pane 76PE ” DsP-at P.C.B. FUNCTION & MAIN Scho Scho Ref, PART NO. Description Ref. PART NO. Description 1C7_] 536001 fic 07535 a 1¢8_ | 8536001 |1C /L07535 ea . 19 | «#536001 JIC 1.07535 4 - ICL | sF2g1A00 JIC uPC4570G2 Lo ma | rez | se2g1a00 |IC uPC45 7062 ©8101) 14002400 | TERM. NRAP 1C13. | xeagia00 JIC 1uhC457062 (8102 | VP206500 |HOLDER.FUS 1e14 | 4553400 | 1c NuZO6END 8103 | VP206500 | HOLDER. FUS 1c1s | 7553400 | IC NuZo6eD (104) 14002390 | TERM WRAP | rete |rsssa00 |Ic Nyueo6eND 8105] VP206500 | HOLDER. FUS | Terr )xJ553800 | IC KJMZ068ND CB106 | VP206500 | HOLDER. FUS 1cus | x2aia00 |¢ uPC457062 8107 | 14002390 | TERM WRAP cig | 291400 | TC C45 7062 8108] vo005400 |CN.BS. PIN 1C20 | x2a1A00 |1C uPC457062 (3109 | VB858500 |N. BS. PIN 3e21_|xF291A00 |IC P45 7062 | cago5 | n924200 |CN.BS. PIN | FE 21 TE] 3¢22. |xF2a1A00 JIC C45 7062 '¢B306 | vo961600 |cN 132 3¢23 |xF291400 JIC uPC457062 ‘¢8307 V0963400 |CN.BS. PIN. |18P Te24 |xFz91A00 |IC uPC457062 ‘¢B308 | VQ963400 |CN.BS. PIN. |13P 1¢25 |xR291800 |IC C45 7062 ‘ca3i2 |vq961600 |cN 13P 126 |xE518A00 |IC CAS 7462 C101 |Vi862200 |C.POLY 0. 1uF 100 Tea7 | xF291A00 |IC uPC457062 c1oz |vi862200 |c.pory —|0.1uk 100 328 |xB518A00 JIC uPCAS7AG2 c1o3 |vi862200 |c.pory —|o.1uF 100 3c29 |xB518A00 |IC PCABTAGE Jc1os |vige2an0 Jc.roLy — o.tuF —_100¥ 1¢30 |xB518A00 | IC PAB TAG [c1os |visez200 |c.rocy —o.1uF ~—100v—} 1¢31 | X8518A00 JIC uPCAS7AG2 cos |vi8ez200 |c.rory —o.4uF_ —100v | Qi | iaoog3z0 [mk 249338 Q,R c1o7 |VvKi81600 |. EL 10000 35 @ | :c174020 IR 2SC1740S RS 108 |Vi844900 |. EL WF SY 8 |verzzo00 |me.ver | c144es 10g | vi84s900 |. EL 10uF «63 4 | ia098320 | R 2549338 Q,R 110 | vis46200 |. EL 4 —63V 5 | :A098320 JR 2549335 Q,R +/cui1 |Vvz726000 |C.EL 27000u0F 71V 6 | 4098320 [mR 2549335 Q,R */c1i2 |VvZ726000 |C. EL 27000uF —71V Q7 | :a098320 | 2549338 QR 113 |V6875500 |. BL 47000 45V 105. |¥K432900 [TR 2901915F $,T ci |¥v6875500 |. EL 47000F 45 106. |vk432900 [TR ST 115 | Vi845200 |. EL 4.7uF SOV Quo7 | vK432900 [TR ST 16 | Vi845700 |. EL 100uF SOV 108. |¥K432900 | TR FST cu7 |vieusgo0 [cet ious 109 |¥K432900 | mR ST 118 | vi845700 |c:EL 100uF = 50V RS |v456180 |R.CAR.FP van 301 | vi8d6000 |. EL 22uF BV ROA |HV456150 |R.CAR. FP van 302 | vi846000 |c. EL 22uF 6a R125 |V456150 |R. CAR. FP vai €305 | vt4szi00 |c.PP 100pF 100 ize |v458470 |. CAR. FP van 306 ur452100 |¢. PP 100pF 100 R129 |HV453470 |RLCAR.EP van 307 | vi845900 |C.EL 1ouF «63 R. CAR. EP van 308 | vi845900 |C.EL iouF_ «63 R. CAR, FP van 309 | ur4sz47o |c. PP }470pE 100 CARED /3, van 310 | ur452470 |c. PP 4700F 100 R287 /HV453390 |R.CAR.EP [3.30 L/dt Cait | vi845900 |¢. EL 10uF 63 viol |¥2621400 VR | RELY1aMCL C312 | vi84s900 |¢.EL lor 63 XLi_ |¥2222400 JRSNR.CE fat ca13 | r452470 |C. PP }470nF 100 77828000 |PIN INSA-6024-03E cid | r4s2470 |c. PP }470pF 1000 18071360 |SCR.TERM |8,3x13 315 | Vi845900 |. EL 10uF 63 316 |T452470 |C. PP }4700F 100 C317 | Vi845900 |C.EL Ou «63 cais | ur452470 |C. PP }4700F 100 319 | vi84s900 |C. EL louF ev "iow Pare Haw PansDsP-A1 P.C.B. MAIN Scha Scha Ref. PART NO. Description. Ref. PART NO, Description C320 |UT452470 |C. PP 470pF 100v C380} VH622200 |C. EL | 22uF 50V 322 |vm622100 |C. EL lou? -50V asi |Fusszi00 |C.mick | 1009F ~——500v C324 | UT452100 |C. PP 100pF 100V C382} FU45Z100 |C.MICA 100pF 500V C325 | UT452100 |C. PP 100pF 10 389. | VR325300 |C. MYLAR 0.047uF — 100V (326 | UT452100 |C. PP 100pF 100V C384 | Vi845100 |C. EL 3. 3uF 50V C327 | VH622100 |C. EL 10uF ‘50V (385 | Vi841800 |C. EL 100uF 10V (328 | VH622100 |C. EL 10uP 5ov C387 | FUS51150 |C.MICA 15pF 500V (329 |UT452100 |C. PP 100pF 100V C388 | Vi841800 |C. EL 100uF 10V, 330 |UT452100 |C. PP 100pF 100V C389. | VH622200 |C. EL 22uF 50V 331 |VH622100 |. EL, 10uF~—50V C390 | FU451150 15pF —500V. | (332 | VH622100 |C. EL 10uF 50 C391 | Vi841800 100uF 10v C333. | VH574800 |C. EL 47uF 100V (392 | VH622200 22uF 50V C334 | VH574800 |C. EL 47uF 100V (393 | FU452100 100pF 500V } C335 |UT452100 |C. PP 100pF 100V 394 | FU452100 100pF 500 336 | UT452100 |C. PP 100pF 100V C398. | FU452100 100pF 5000 339 | Vi841800 |C. EL 100uF 10V (396. | FU452100 100pF 000 (340 | Vi841800 |C. EL 100uF 10V 397 |Vi845000 2. 2uF 50V C341 | FU451150 |C. MICA 15pF 500V C398 | VKI79200 2200uF «6. 3V (342 | FU451150 |C. MICA 15pF ‘500¥ C399 | UT454100 0.0luF = 100V 343 | VH622200 |C. EL 22uF 50V C400 |Vi846900 10uF 100V C344 | VH622200 |C. EL |22uP 50V C401 | VR325300 0.047uF — 100V 5 | FU452100 |C. MICA 100pF ‘500V C404 | Vi846900 l0uF 100V C346 | FU452100 |C.MICA 100pF 500V C405 | UT454100 0.01uF — 100V 347 |FO452100 |C.MICA —|100pF ——500¥ 406 | ¥R325300 0.047uF 1000 C348 | FU452100 |C. MICA 100pF 500V C409 | UA654470 |C. 0.047uF —50V. C349 | VR325300 |C. MYLAR 0.0470" — 100V C410 | UA654470 |C. MYLAR 0.047uF —50V C350 | VR325300 |C. MYLAR 0.047" = 100V (425. | Vi845600 |C. EL A7uF 50V C351 | Vi846900 |C.EL 10uF 100V C462 | UT452470 |C.PP |470pF 100v 6352. |Vi846900 |C. EL 1ouF 1009 463 |Vi845900 |C.EL 10uF_ 63 C353. | Vi846900 |C. EL ‘10uF ‘100V C495. | VE324800 |C.MYLAR.ML |0.0luF — 50V C354 | Vi846900 |C.EL 10uF 100V C496 | VE326200 |C.MYLAR.ML |0,15uF — 50V. 355 | UT#54100 |C. PP 0.01ue — 100¥ C97 |¥E324800 |C.MTARME |0.01uF —50V. C356 | UT454100 |C. PP 0.0luF — 100V CA9@_ | VE326200 |C.MYLAR.ML |0.15uF — 50V. C357 | UT454100 |C. PP 0.0luF — 100 C499. | VE324800 |C.MYLAR.ML |0.0luF — 50V. 358. | UTA54100 |C. PP 0.01ue —100¥ 500 |vE326200 |C.WMLARME Jo. 15uF Sov 359 | Ro214100 |C. ce 0.0luF Sov C351 |urssa00 |C. PP (0.01uF —100¥(4BG) C360 | VH622100 |C. EL 10uF 50V C952 | UT454100 |C. PP 0. 0fuF —100¥(ABG) C362 | UT452100 |C. PP 100pF 100V (953 | PG244220 |C.CE }0.022uF SOV(RTABG) 363 | vH622100 |C. EL lor 50V 353 |uaes4220 JC. MAR — |. o22uF —50Vv(UC) C364. | UT452100 |C. PP. }100pF 100V C554 | PG244220 |C.CE 10, 022ur" SOV (RTABG) 365 | UF4S2100 |C. PP 100pF 100 Cost |uagsaga0 |C.mwtar |. 022uF Sov(vc) (C366 | VH574800 |C. EL |A7uF 100V (555. | UP454100 |C. PP 0.01uF —100V(ABG) C368. | VH622100 |C. EL | 10uF SOV 556 | FG244220 |C.CE (0, 022uF SOV(RTABG) 369 | UT452100 |C. PP 100pF 100V C556 | UA654220 |C. MYLAR 0.022uF — S0V(UC) C370 |UT452100 |C. PP 100pF 100V C557 | UT454100 |C. PP 0.01uF — 100V(ABG) C371 |UT452100 |C. PP 100pF 100V (558 | UT454100 |C.PP }0.01uF —_100V(ABG) 372, | v¥622100 |. EL louF —50V e559 |oz44220 |. ce 0. 022u S0V(RTABG) 373 |UT452100 |C. PP 100pF ‘100V C559. | UA654220 |C. MYLAR 0.022uF — S0V(UC) cara | vi622100 |C.EL lor 50v e560 |Ro244220 Jc ce 0, 022u 50V(RTABG) C375 | VH574800 |C. EL 47uF 100V C560. | UA654220 |C. MYLAR 0.022uF — 50V(UC) C376 |UP452100 |C. PP 100pF 100V C561 |UT454100 |C. PP 0.01uF —100V(ABG) C378 | Vi841800 |C. EL 100uF 10 0562 |UT454100 |C. PP 0.01uF _100V(ABG) 379 |Fuasiis0 |c.urca | 15pF —_s00v 563 |Ro244220 |. ce 0.022u 50V(RTABS) “New ans rePaw 79 Dsp-A1 P.C.B. MAIN ‘Schm PART NO. Description Ref, PART NO. Description [ua651220 [C.MWLAR —[0,022uF — S0V(UC) 330 [VC398400 [DIODE MALgs Rc244220 |C. CB 0.022uF S0V(RTARG) 333 | VC398400 | DIODE A185 1us654220 |C.MVLAR — |0.022uF 50V(UC) 334 |VC398400 {DIODE MAL8S 'y0339900 |C. PP 220pF —1L00V(ABG) 335 | VC398400 | DIODE A185 1urssz220 |c. PP 220pF —100¥(ABG) 336 |VG435100 |DIODE. ZENR |MTZJ2.0B 2.0V y0339900 |C. PP. 220pF —100¥(ABG) 10337 | VG435100 |DIODE. ZENR |\17J2.0B 2.0 1ur4sz220 |C. PP 220pF —_100V(ABG) 338 | VG435100 |DIODE. ZENR |\TZJ2.0B 2. 0V urasz2z0 |c. PP 220pF —_100V(ABG) 339 | VG435100 |DIODE. ZENR |\1ZJ2.0B 2..0V 1UA652470 |C.MYLAR —|470pF ——SOV(ABG) 340 |VG435100 |DIODE. ZENR |\TZJ2.0B 2..0V UA652470 |C.MMLAR —|470pF_——SOV(ABG)} ‘| PLOL |VT943100 [FUSE 250V (RTABG) }UT453100 |C. PP 1000pF 100V(UCRT)} ‘F101 ]VU079100 | FUSE 125A(UC) |uT453120 |C. PP 1200pF —100V(ABG)} a | Flg2 |VT943100 |FUSE 250V (RTABG) 1453100 CPP 1000pF 1oov(uoRT)| | Flo2. | U079100 | FUSE 125A(UC) [ur4s3120 |. PP 1200pF —_100V(ARG) /G301_ | VR«63400 | TERM. GND ‘TP00385, |ur453100 |. PP 1000pF 100¥(UoRT) L301 |VO664100 | COIL. {ur453120 |C. PP 1200pF —_100V(ABG) 11302 |Vc664100 | COIL [UT453100 |C.PP 1000pF 100V(UCRT) 11303 |V0664100 | COLL [UE453120 |C.PP 1200pF —_100V(ABG). *|£304 |VU751000 | COLL {ur453100 |. PP 1000pF 100V(UcRT) =|£305 |¥U751000 | COLL 'Ur453120 |C.PP 1200pF —100¥(ABG) *|1306 |VU751000 | cOTL. |VF467300 |C.CE.TUBLR |0.0luF —_16V(ABG) *|1307 |¥U751000 | COLL }v2261600 DIODE. BRG. | RBV1306(UC) /PJ551 | VJ715400 | JACK. PIN 12756200 DIODE. BRG | D15XB20(RTABG) 'PY552 | VN930600 | JACK. PIN 'VNO11300 DIODE. BRG |D3SBA20 44 200¥ 'PT554 | ¥N930700 | JACK. PIN !vG442900 DIODE. ZENR |MZJ278 27 PJ555 | VJ133600 | JACK. PIN 'yG443500 |DIODE. ZENR |MTZJ30D 30V 'PJ556 | VJ133600 | JACK. PIN iF004600 |DIODE 188133 4*}Quo1 | ¥8548300 |TR 2SBM iF004600 |DTODE 138133 (Quo2 | iC181500 |TR 2scisis ¥ iF004600 |DIODE 188133 4*}Q103. | ¥S548300 IR 258M iF004600 |DIODE 188133 301 | vk432900 |TR 2SD1915F §,T iF004600 | DIODE 188133 B02 | vK432900 [TR 2819158 $,T iF004600 | DIODE 188133 803 | Vk43z2900 |TR 2SD1915F $,T iF004600 | DIODE 188133 (B04 | vK432900 |TR 2SD1915F $,T iF004600 |DIODE 188133 305. | vk432900 |TR 2919158 $,T iF004600 |DIODE 188133 806. VK432900 |TR 2SDIGISF S,T iF004600 |DIODE 158133 307 | vk4azg00 [TR 2SD1915F S,T D312 |iF004600 |DIODE 188133 308. vk432900 |TR 2SD1915F $,T 314 | iF004600 DIODE 158133 809 vk432900 |TR 2S1915F $,T 815 | iF004600 | DIODE 158133, QL | iAo97000 |TR 2SA970 GR, BL 316 | iF00s600 |proDE 189133 312 | iAo97000 |TR /2SA970 GR, OL. 317 | iF004600 | DIODE 158133, 313 | iA097000 |TR }23A970 GR, BL 318 | iF00S600 | DIODE 158133, Qld | 14097000 |TR }2SA970 GR, BL 319 | iF004600 | DIODE 185133 15 | ic1815co |1R fascial Y 320. |VG440800 |DIODE. ZENR |MIZ]15B15¥ 816 | ic1815C0 |TR 2scisis Y 321 |iF004600 | DIODE 188133 Iz | ic18i5co | TR escisi5 Y 322 |iF00%600 | DIODE 188133, 18 | iC1815C0 |TR 2sciais Y 323. |VU647200 |DIODE. SHOT | RE441Q-40 T-7 @ig | iCi8isco |TR 2scl815 Y 324 |VC398400-| DIODE me185 820 | iC1815C0 |TR 2scisis Y 325 |Vc398400 |DIODE M85 Q@ai_| vE198800 | TR /25C2705 0, ¥ 326 |VC398400 | DIODE Me85 322. |VE198800 | TR }25C2705 0,¥ 327 |VC398400 |DIODE Me85, 23. |VEI98700 | TR 2SALMS 0,Y 328 |VC398400 | DIODE M85 324 vE198700 |7R 2SALMS 0,Y 329 |VC398400 |DIODE M85 #} 0325 |Vc398100 |7R 25C1846 S “New Pats ‘New Parso> At at Ad] at at At] DsP-A1 P.C.B. MAIN ‘Scho ‘Scha Ref. PART NO. Description Ref. PART NO. Description 826 | vC398100 JR jascis4é $ 875 | i¢224030 [IR 2sce240 GR, BL 827 | VE198700 }TR 2SA1145 0,Y 876 | iC224030 }1R 28C2240 GR, BL 9328 | VE198700 |1R 2SAL45 0,Y 4. | 08774) ix632610 [TR 2881837 0,Y 329 | vE198800 |TR 12802705 0, 4, | Q877C} ix632620 | TR 2904793 0,Y 830 | VE198800 |TR }2SC2708 0, at] 08784) ix637430 |TR 2881943 0,R 831 | iA097000 |TR 2S8970 GR, BL st] Q878C] ix637440 [TR 2805200 0,R 832 | iA097000 |TR 284970 GR, BL 4, | Q879A} ix632610 |TR 2SA1837 0, 833 | ic1815C0 |TR 281815 Y a | Q879C| ix632620 [TR 2SC4793 0, 334 | iC1815C0 |TR 28C1815 Y Ag] Q380A X637430 [TR 2SA1943 0,R 335 | iA097000 [TR '2SA970 GR, BL 4.#] Q380C| iN637440 [TR 2805200 0,R (0336 | 1093320 |1R 2SA9335 Q,R | Q38iA] iX632610 [IR 2SA1837 0, 837 | iA097000 |TR '2SA970 GR, BL A. | Q381C} iX632620 JTR 2SCA793 0,¥ 338 | ic1815C0 |TR 2SC1815 Y act] Q382] ix637430 [TR 2SA1943 0,R 339 | i¢224030 |TR 28C2240 GR, BL 4] 03820} iX637440 |TR 2805200 0,R 340 | i¢224030 |TR 2SC2240 GR, BL. #] q390 | ¥vc398100 |1R 2SC1846 § 41 | 14097000 |TR 2SA970 GR, BL. §].Q391_ | vc398100 |7R 2sc846 S 342 | iA097000 [TR '2SA970 GR, BL 4 |RIOS |#V456470 |R.CAR.FP [4.7K 1/48 Q843 | i¢181500 |TR 2SC1815 Y 4 [R109 |HL314100 JRMIL.OM ]10Q IW QB44 | iC181500 |TR 2SC1815 Y RL10 |1V456820 |R.CARFP [8.2KQ 1/4 45 | iC181500 |TR 2SC1815 ¥ & |RIIL |HV455100 |R.CARFP J100n 1/4 9346 | VE198800 |TR 2SC2705 0, ¥ & | RUL2_}HV453220 |RCAR.EP [2.20 1/4¥ 847 |VE198700 |TR 2SA1145 0,¥ 4 [R13 |H1314330/RMTL.OM@ ]33Q 348 | vK432900 |TR 2SD19158 $,T 4 |RU4 | HV456330 |R.CAR-EP [3.30 1/4¥ 349 | VE198700 }7R 2SA1145 0, ¥ 4 | R333. | 12003050 |R. 0.220 SH @50 |VE198800 }TR 2802705 0, ¥ & | R334. | HZ003050 |R. WV 0.20 WH 351 | iC1815¢0 |IR 2sC1815 ¥ 4 | R359 |1HV455220 |R.CAR.FP [2200/4 852 |VE198700 JR 2881145 0,¥ 4 | R360 }HV455220 |RCAR.FP [2200 1/4 853 | VE198800 |TR 2SC2705 0, ¥ 4. | R361 | HV455220 |R.CAR.EP [2200 1/4W 354 | ic181sco |TR 2SC1815 ¥ 4, | R862. | HV455220 JR.CAR.EP ]2200 1/4 355 | iC224080 |TR 2802240 GR, BL. 4 | R363. | VK188000 JR. FUS ison /a 356 | iA097000 |1R 284970 GR, BL 4. | R364. |VK188000 |. FUS 1500/4 857 | VE198700 [TR 2SA1145 0,Y R365 |HV457150 |R.CARFP |15KQ—1/aif 358 | VE198800 |TR 2SC2705 0, ¥ 366 |HV457150 |R.CARFP |15KQ 1/47 358 | iC1815C0 |TR 2801815 Y R367 |HV457150 |RCARFP | 1KQ 1/4? 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