Home

"user manual"

1.
2. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 18 21 AUXPW TOSTOCEN MRN HIGHPOWER RX2 OSC_IN PORN FO STEP COS STEP SIN FO SL RA FTC S1_MIRN D1_TILTN D2_TLN D3_REN D4_FEN OSTR CALF A2 A1 S2 XDN TEMP_WARNING EFM DATAN EFM DATAP EFM CLKN EFM CLKP PPNO RFREF RFP3 RFN3 T1 MOTO1 AUDIOL AUDIOR HRESET HDASPN CS1 CS0 HA2 HA0 HA1 HPDIAGN HIRQ HDACKN IORDY HRDN HRWN HDRQ SDA SCL SILD SICL
3. 2802 A9 3833 E11 F842 16 2803 A9 3834 E10 F843 C14 PCI AD 31 0 PCI CON VDD PNX PAD 2804 A9 3835 E11 F844 C14 SACO uc 2805 B12 3836 F10 F845 C14 MX D 7 0 uco N 1 F800 ENSE C 4 Vs 2806 12 3837 F11 F846 D14 8 sss 278 ici s 8 ri 18029 58753 3 MAN 2807 J10 3838 F11 F847 D14 5 20855 8 Z Te N B PCLREQA 1803 38732 2 NAN 7 280816 3839 F10 F848 D14 Ed ooo oo lt 3 2801 100p B PCI REQ 1806 3873 1 1 AAN 8 A 2809 J11 3840 G2 F850 A12 9 8 A m 3874 3 AAA 2810 5 3841 G2 F851 12 2802 100 3874 2 A PoI GNT 38742 2 MA 2811 J7 3842 G2 1800 A14 803 40g 4 PCLSERR lere 35754 1A 2812 G13 3843 H2 1801 A14 PCLPERR 18724 3876 1 1 AAA 2813 G13 3844 H1 1802 A14 2804 100p PCLIRDY 18136 38753 3 AAA 2814 614 384
4. TO CENTAURUS DEBUG AND FLASH OPU CENTAURUS POWER CONN AUDIO DEBUG CONN AUXPW SERVO COMM SERVO MEAS TR TR FO FO SL RA DRIVER ON FOC FOC RAD TRAY SW TRAY INOUT VFOO VFOO VRAOO SL SL STEP SIN STEP COS OUTSLD1 OUTSLD1 OUTSLD2 OUTSLD2 TOSTOCEN TRAYSW MOTOR ON T1 VMOTO10 MOTO1 RAD_MUTE ACT_EMF TEMP_WARNING sv E E EI El 2421 1400 e 2401 Lua NE 7 i 305 1403 16 s we 8 OUTSLD2 Ne wes 1404 10K 10k 1405 EN S1V65 srw 1 82n Top Contact DS Y 81 m SERVO COMM 8 32 1441 3440 M42 1407 3406 1406 B AED i TBAY SW bis 7405 1 264 3444 i TT LM358D 2 NK qos 3 1444 3447 1451 1 ANTA SERVO MEAS TBAYSW av 30k 1 Fry sivas gle 12K 1 gis gig 3454 181 E E 451 1446 spe me 1447 5 VN 7 mE 3461 17
5. 1913 1 1914 ES i 2114 I3 12 9199 5 SMS o HODHE 9157 2 2000 0803 I A 7 120 ONS 9154 8 E 4 10 82 59221 Oy Sao monos D gt 2 ERO 0 we uin ogo 9052 9170 1951 1101 80 57976 Be zd 9 9066 Hz 4 Ecc 286 ponas 206 20 BB 2 9155 D EU 9035 o 9087 co oU be De e T er ZZ aN SS rasa n amp 0 Dova S 5 B 8 474 2 ou 5 bo __ m 55 B 9B ac y Bot elie dan 5551 0 9 D 7 99958 S o eo 900 201 9 8 B D 2 D 8 9115 Hr N TIER 30503030 we t3 DE OD c3 57 D D B 250305090 5181 AT AN 2004 n ogo 2 H8 TNS 3039 B 3E 50 p n aya 9189 D 55 9165 MU e s 089 o000 2 A o000 orn 2 05998 D amp e a neg H
6. 1 2 3 4 7 8 9 10 11 12 13 1300 12 3370F2 F357 H11 1301A13 430010 F35818 1302B3 4302E1 F35916 A 130381 4303 1 F361G1 1304B9 4304 2 362 61 sev 7 51 F300 190 Fag 130581 5300 6 _ 1300 I SVSTOY c 1306 013 5301B8 1301 A11 25 5 to IOV IOA FY 1308 5303 1302 12VSTBY sg sce gt 1310H13 5304A9 1303 A10 z ES 829 522828 528 1931 1 530508 1304 B8 ONS 2900180 25 1301 ej e ej ej 1932E1 530606 1305 B10 5 EE t 2300 A10 530869 130889 maT 5 s lt x TRAFO STP8NC 3309 3310 ase 825 l 2301 6 6300 7 1309 50 gt E 20V 9 HI corp 800 S AA 55 TS x GND _ not used 2302B8 630187 1310 B4 5Vreg 470R 470R 1908 1 i s GC AR dE 2303B9 630284 1311 10 230V 68u X 47 x 330k 09659820 820R 820R ies A 2304 10 630385 1312 4 Z F304 7 18 2307 6300 5304 56V 54V GND GND GND F305 F306 1301 2305B4 6304B7 1313 B5 js s M t gt sv 2306B9 6305 5 1314 4 F308 58340 22 12V a PONE T 2000mA to FV DIGIO MSP 2307 6 6306C7 1315 C11 mm 8
7. IDE_DD 0 15 8 HD 0 15 33 OPTION 71 4605 A 1629 5602 lt WN LD1117DT33 BV gt AA 1633 5603 3605 4708 D3V3 4 OUT MASTER CABLE T I 1657 1K SELECT a 1 Cl ele f Ls 1 els 1663 1607 Pus 1475 8 rS 818 wor sv N 470R L OPTION_ Lj DEBUG 11 is 1 45V 45V 5 3608 1609 uh 4608 MASTER Y Y a a m co c DEN ESSE XS x lt S x N lt x S x 4854 52 2859 BSS 859 uc os Y 3689 1610 5 _ 1683 7607 HDASPN O LD1117DT 1694 Nes 828 IDE_DASP 525 OUT IN Koso 4 3615 D 5 s IDE_CS1n J gt COM gt 85 g 5 Haz SAC 6 828 Ud IDE CS0n A a e N 8 gt 828 2 ee 7 d IDE DA2 J _ 1 3615 g 82R 1614 IDE A VV 29565 858 BOL 3620 3690 82R 1615 IDE DIAGN 8 929 e 5V A N d 10K 22R 3619 Neat IDE DAL 3621 82R 1658 5V Y 10K 3622 1617 HIR 5 IDE OPTION uiRa AAA A 1 E 3624 22R 1879 10K 3623 1618 IDE DMACKn A 5V25 NA HN HDACKN 1691 82R 1662 COMP L L_
8. 10 11 12 13 0005 114 2100 A7 2108 B9 2116 11 2124 E11 3094B14 3103 9 3111B13 3119C7 3127D12 3137E12 3145E3 3153 F1 3161 G6 3169 12 3178 H9 6102B13 6110H10 7105 1 7113 H8 F100 A10 F111 C1 F119 G1 1054 E8 1062 F8 1070 F8 1078 G7 1548 A1 1564 C10 1572 D10 1582 D8 1590 E10 1100B14 2101 A9 2109 B9 2117 D11 2125 E6 3095 B14 3104 A11 3112 B10 3120 C7 3128 D1 3138 E8 3146 F5 3154 F7 3162 G7 3170 H8 3179 19 6103 F12 6111 H10 7106 C2 7114 H2 F101 A15 F112 C1 F120 H1 1055 E10 1063 F10 1071 F10 1079 H8 1549 A7 1557 B14 1565 C10 1574 D10 1583 D10 1591 E8 1101 B7 2102 A10 2110810 2118011 2126 E2 3096 B14 3105 A2 3113 B12 3121 C2 3129 012 3139E12 3147 F5 3155 G5 3163 G7 3171 H2 3187 F4 6104 612 6112H10 7107 B9 711518 F102 A15 F113 D8 F121 H1 1056 E10 1064 F10 1072 F11 1541 A1 1550 A11 1566 C8 1575 D10 1584 D8 1592 E10 1102 E7 2103 A10 2111 B12 2119011 2127 3097 H14 3106 A7 3114 B13 3122 3130 D1 3140 1 3148 1 3156 611 3164 H2 317217 3188 F4 6105 610 7100 7108 E2 7116 H5 F103 A15 F114G1 F122 H1 1057 F10 1065 F8 1073 G8 1542 A1 1551 A11 1567 C8 1576 D8 1585 D8 1594 E3 1911 A15 2104 12 2112B13 2120011 2128 F2 3098 H
9. VLAVN dV OI orpny Figure 9 1 MOBO Audio IO AP NAFTA htt p WAN duxzl w cona f ronuser Circuit IC descriptions and list of abbreviations The sound processing is always done stereo that means separate left and right channel a Record path The complete selection of audio signal for recording is done by a HEF4052 7501 which is a dual four to one multiplexer The input lines for the selector 7501 are coming either from MSP 7600 AFEL AFER or cinch rear in Ext 1 AIN1L AINTR or cinch rear in Ext 2 AIN2L AIN2R or the cinch front in AINFL AINFR The 7501 is controlled via RSA1 and RSA2 signals coming from the MSP 7600 The MSP acts as a port expander ofthe slave uP The Op Amp on the output 7500 is necessary for performance reasons and acts also as a driver The selected signals ALADC and ARADC are directly fed to the Audio ADC As there is also a fifth input DV in the corresponding audio signals ALDAC ARDAC from the FEBE board are routed via the MSP 7600 and output as AFEL AFER to selector 7501 b Line out path See chapter 9 1 12 c Digital audio out path In addition to the analog output the set is al
10. 2000 A5 3048 E12 2001 B8 3049 E12 2002 B6 3050 F12 8 2003 B2 3051 E12 2004 D1 3052 F12 2005 1 3053 F12 2006 E1 3054 F12 Mx D cn 029 2007 E2 3055 F12 TESTA 2008 E2 3056 F11 313 IEEE A 313 IEEE D 3V3 IEEE 313 IEEE D 3V3 IEEE D 3V3 IEEE D 3V3 LINK r 8 EJ 2909 92 2057 612 Y Y Y Y A 2011H2 3059 G12 P 2012 H2 3060 H8 2013 H3 4000 A4 201411 4001 6 8 201512 4002 E6 i ace xZx 201612 4003 612 828 32 82 858 201714 4004 H12 cca m 62 epp 26 25 dm PD11394P25 1 T 201815 4009 D1 I 3018 2019 15 5000 G1 AA AVDD TESTM PENNOR 3038 2020 15 5001 G1 10K ET 1 e 2021 16 5002 H1 3019 F001 F002 kak has B 202216 7000 5 40 LPs 15 box sls LINK 2023 16 7001 C11 m os 4 RECEIVED i 1 1 822 858 RTS 2024 16 F000 B8 VOLTAGE DATA lt 50 23 Q4 3 3 IEEE D alle ge 202517 F001 B3 d ox Dp ge AES E 2 J CURRENT 2 3039 ANN 2028 18 F004 B3 8 lt 55 g GENERATOR i L L RO 2029 18 F005 B5 age pi OPTION i 2030 18 F006 C1 L 2 wo ar unk cpio 4 3023 8882225232233 a ef S ool m EE 1 m 3 INTERFACE 5 108 vod x
11. TEMP ONLYFORSETS HE EN I SENSOR WITH DV IN 1000000000000000000000000000000000000000000000009000090009000090009000090000900 1 SAT TIMER TV PRO VPS PDC SAP LANG 10 laser 650nm FS diode laser 780nm i 2 1 1 E gt lt Front ards PD 9 eybo RE 5 i Digital CONTROL UNIT SLAVE AUDIO R Ai TUNES ANALOG AUDIO VIDEO L Input Geen 15 amp CONTROL LINES 1 IEEE IEEE 8 T i 3839 E I 1394 2 10 5 E 889 9 2 39 1 5 S VIDEO vei 1 4 8 5 a I 5 en 5 3 2 gt 5 l PK X EN iNPUT oUTPUT Di sied B 6 Input UART3 GATEWAY PROCESSING amp Y isc Sledge 1 E SOURCE 1 1 1 a r 1914 u _ E B SELECTION i DRIVER LACONIC i I 1907 ii 8 i l 1 1 Bi i 2 E 1 7 SO LR 5 amp 1 PHY LINK 1 FLASH pier KO i 5 ES om oy DISS I MOTOR 1 ne EO ue CIUS EY CC RIBUS en EE D 1 1 1901 5 ho ny LO mop BEI Tray switch 8 W PCI BUS
12. Symbol Pin Description GND2 30 Supply ground RFP 31 RF output voltage positive RFN 32 RF output voltage negative RFREF 33 Reference voltage for differential RF output common mode level PPN 34 Output PP voltage CFTC 35 FTC high pass Plter capacitor FTC 36 FTC output GND1 37 Supply ground CA1 38 Beta circuit external capacitor CA2 39 Beta circuit external capacitor CCALF 40 Beta circuit external capacitor RREF 41 Reference resistor to ground GND1 42 Supply ground CMPP 43 MPP external capacitor VDD1 44 Positive supply 45 Monitor output voltage MON2 46 Monitor output voltage S2 XDN 47 Servo output current S1 MIRN 48 Servo output current D4 FEN 49 Servo output current D3 REN 50 Servo output current D2 TLN 51 Servo output current D1 52 Servo output current IDDQTST 53 Select zero dissipation mode tie to GND for normal operation CALF 54 RF average level signal A2 55 RF bottom level signal A1 56 RF top level signal SROUT 57 shift register output for register test mode ALFA 58 alfa output current LASP 59 laser power setpoint signal TEST 60 Test output RRF 61 Single ended RF read input voltage Figure 9 24 Table 1 Pin description Continued Sym bol Pin Description W RF 62 Single ended RF write input vo Ita g e VREF 63 PDIC reference voltage output V IF 64 Satellite segment F input 1 Only in EFM bypass mode 2 EFM clock and data wh
13. BCK WS DATAI EMPHASIS SYSCLK SFOR1 MUTE INTERPOLATION FILTER SFORO DEEM PCS NOISE SHAPER VOUTL VOUTR MGL964 VDDA VSSA Vref DAC Figure 9 8 SYMBOL PIN PAD TYPE DESCRIPTION BCK 1 5 V tolerant digital input pad note 1 bit clock input WS 2 5 V tolerant digital input pad note 1 word select input DATAI 3 5 V tolerant digital input pad note 1 serial data input Vppp 4 digital supply pad digital supply voltage Vssp 5 digital ground pad digital ground SYSCLK 6 5 V tolerant digital input pad note 1 system clock input SFOR1 7 5 V tolerant digital input pad note 1 serial format select 1 MUTE 8 5 V tolerant digital input pad note 1 mute control DEEM 9 5 V tolerant digital input pad note 1 de emphasis control PCS 10 3 level input pad note 2 power control and sampling frequency select SFORO 11 digital input pad note 2 serial format select 0 Vref DAC 12 analog pad DAC reference voltage VpDA 13 analog supply pad DAC analog supply voltage VOUTL 14 analog output pad DAC output left Vssa 15 analog ground pad DAC analog ground VOUTR 16 analog output pad DAC output right Figure 9 9 htt p ww dwxzl w com 21 ronuser Circuit IC descriptions and list of abbreviations DVDR615 69 9 GLE 7006 UDA1361TS MOBO Board Analoque to Digital Converter
14. JE The next Hardware Settings can be safely programmed Board name FRILSRFE Hardware ID Codec IC PNH7100 Video Input Processor IC S887118 Progressive Scan Deinterlacer IC None Progressive Scan Denc IC ADV7196 I Link physical layer circuit IC PDI1394P25 I Link link layer circuit IC PDT1394P40 fludio clock Clock scheme 1 Bit engine connector available IDE connector 1 available IDE connector 2 not available PCI connector not available RAM size 32MByte ROM size NOR FLASH bank 1 ROM size NOR FLASH bank 2 monas ROM size NAND FLASH lable Settings ID GELS CS LU6L521030500010101020101000020080000 Program these settings Y N Programming the settings values Factory Diagnostics and Service Software DVD Video Recorder Version 8 May 1 2003 18 38 27 0 gt _ Figure 5 6c Enter Y to program a safe string With this automatically generated string the board will work in principle but it has to be checked if all board settings were detected correctly Diversity String Input 4 Execute nucleus 1226 to enter the string Please see chapter 8 4 for details Nucleus 1226 execution with string g D amp S HyperTerminal a Edit View Cal Transfer is ala olal e Connected 0 01 41 autodetect 92084 5701 caes Figure 5
15. error error meaning code Ox18 timeout error Atip information could not be read 0 19 notfound error Requested atip item could not be found Ox1A window error Atip address was not within ex pected window Ox1B atip sync error No atip sync was detected Ox1C tray error Tray could not be closed or opened within the timeout Ox1D seek error The requested seek couldn t be performed within the timeout Ox1E hf present error Attempt to read from a blank area Ox1lF error An error occurred during the re cording Ox20 stopaddress error The requested stopaddress with modify stop address is not valid Ox21 disc error No disc is detected Ox22 initialised error The system is not initialised e g seek on unknown disctype Ox23 medium error BE detected an unsupported me dium during disc recognition Ox24 cd frequency error Measured HF frequency is not within CD frequency range 0x25 dvd frequency error Measured HF frequency is not within DVD frequency range 0 26 Attempt to read non existing bca served non existing bca information error Ox27 reserved bca read error error occurred during reading of bca information 0x28 selftest error An error occurred during the self test of the BE 0x29 2 error The 2 interface does not oper ate Ox2A error Laser control pll did not lock or lo
16. htt p ww j dwxzl w con f ronuser O 0 LINES Diagnostic Software 5 2 Player Script Interface 5 2 1 Trade Mode TRADE MODE When the recorder is in Trade Mode the recorder cannot be controlled by means of the front key buttons but only by means of the remote control IF TRADE MODE OFF IF TRADE MODE ON v v UNPLUG THE RECORDER UNPLUG THE RECORDER v PRESS 2 KEYS SIMULTANEOUSLY STOP lt OPEN CLOSE gt PLUG THE RECORDER PRESS 2 KEYS SIMULTANEOUSLY lt STOP gt lt OPEN CLOSE gt PLUG THE RECORDER RECORDER IS IN NORMAL WHEN PRESSING FRONT KEYS THE RECORDER WILL RESPOND RECORDER IS IN TRADE MODE WHEN PRESSING FRONT KEYS THE RECORDER DOESN T RESPOND CL 16532095 071 eps 150801 Figure 5 2 5 2 2 Virgin mode If you want that the recorder starts up in Virgin mode follow this procedure Unplug the recorder e the recorder again while you keep the STAND BY ON key pressed set starts up in Virgin mode 5 3 Menu and Command Mode Interface 5 3 1 Nuclei Numeration Each nucleus has a unique number of four digits This number is the input of the command mode XXYY Nucleus number Nucleus group numbei CL 06532152 012 ep 05120 Figure 5 3 Group number Group name 0 Scripts 1 Codec e
17. htt p ww j dwxzl w cor f ronaser Circuit Diagrams and PWB Layouts EN 124 Layout FEBE Bottom View Part 2 4 S 2861 5936 2843 4919 2842 5930 2847 1908 4 4010 2097 2932 2933 3068 2082 4005 3065 ony 295 3942 2968 7917 wo x gt a TR 20048b 001 01072004 htt p ww j dwxzl w conA fronuser Circuit Diagrams and PWB Layouts 125 Layout FEBE Bottom View Part 3 a a 4 r fre val ES gt bod IS S i exl les 3204 I ES gt i r INI IE i gt CI Cw ol rt dro eo 12706240 ii n tol ule koj vw i i ie PSI l F2 r i r i B had lt Isi E TT I JC jeu Cn IN N S 2 2 24 e lt 7500 8 5 8 5 8 9 7401 1 1 4 41 4 RI 5 R 1 4 Pol INI 3405 TR20048c_001 15062004 7 E htt p ww j dwxzl w conA fronuser Circuit Diagrams and PWB Layouts 126 Layout FEBE Bottom View Part 4 8 5
18. Symbol Pin Description VIH 1 Satellite segment H input GND1 2 Ground VIC 3 Central segment C input VIB 4 Central segment B input GND1 5 Ground RFNIN 6 Inverse differential RF input Single ended RF read input RFPIN 7 Differential RF input Single ended RF write input VDD1 8 Positive supply VID 9 Central segment D input VIA 10 Central segment A input VDD1 11 Positive supply VIE 12 Satellite segment E input VIG 13 Satellite segment G input RWOUT 14 R W signal output SDA 15 Data input output 22 SCL 16 Clock input I2C SILD 17 Strobe line of serial bus interface SIDA 18 Data line of serial bus interface SICL 19 Clock line of serial bus interface TIMOUT 20 EFMTIM test output R W 21 External Read Write signal input VDDD 22 Positive supply digital part VSSD 23 digital ground REF ECN 24 Reference input for timing signals in EFMTIM bypass mode Inverse EFM clock input RS ECP 25 RF sampling signall EFM clock input TH1 EDN 26 Segment sampling timing signall Inverse EFM data inputl TH2 EDP 27 Segment sampling timing signall EFM data input SERTST 28 Enable test mode Tie to GND or leave open for normal operation VDD2 29 Positive supply voltage Figure 9 23 htt p WAN duxzl w comh f ronuser Circuit IC descriptions and list of abbreviations 9 EE Table 1 Pin description Continued
19. htt p ww dwxzl w conf 21 ronuser Safety Information General Notes DVDR615 69 Em 5 Safety Information General Notes Safety Instructions General Safety Safety regulations require that during a repair Connect the unit to the mains via an isolation transformer Replace safety components indicated by the symbol A only by components identical to the original ones Any other component substitution other than original type may increase risk of fire or electrical shock hazard Safety regulations require that after a repair you must return the unit in its original condition Pay in particular attention to the following points Route the wires cables correctly and fix them with the mounted cable clamps Check the insulation of the mains lead for external damage Check the electrical DC resistance between the mains plug and the secondary side 1 Unplug the mains cord and connect a wire between the two pins of the mains plug 2 Setthe mains switch to the on position keep the mains cord unplugged 3 Measure the resistance value between the mains plug and the front panel controls and chassis bottom 4 Repair or correct unit when the resistance measurement is less than 1 MO 5 Verify this before you return the unit to the customer user ref UL standard no 1492 6 Switch the unit off and remove the wire between the two pins of the
20. 3103 SERVO MEAS 7 SERVO COMM TR20034 001 eps 14062004 htt p WAN j dwxzl w conf f ronuser Circuit Diagrams and PWB Layouts 7 FEBE FE Cheetah 2 Pre processing TIMOUT RFP RFN VIA VIB VIC VID VIE VIF VIG VIH EFM CLKP EFM CLKN EFM DATAP EFM DATAN LASP PPNO RFP3 RFN3 RFREF CALF A1 A2 S2 XDN D1_TILTN D2_TLN D3_REN D4_FEN S1_MIRN MON1 MON2 SIDA SICL SILD SDA SCL ALFA FTC RW Del EFM_RWN RFP5 RFN5 1 El El za s e A gt Sia a E TO OPU EPLD LADIC CON LACONIC IC CENTAURUS I a 5 sce 518 528 1257 1259 lt 1C7201 pin 31 32 B o 3 5202 1201 9 5VA gt T T 5Vd NAVA ela B 8 5215515515215 4747 T N ENJ ENJ KN 1 825 ase _ sev LEER 1 ALS S 5 Si Su S C SET dupli i M a 1216 _ 8385858584845 2 E
21. htt p ww dwxzl w coni f ronaser GIJ EM DVDR615 69 Mechanical Instructions 4 1 3 MOBO Board Remove the Front Panel assembly as given in 4 1 1 Remove 6 screws 246 and 254 Remove 4 screws 270 Service position is achieved by flipping the MOBO board above the Basic Engine Live Area cover this Figure 4 5 4 2 Dismantling and assembly of the VAU8041 Module 4 2 1 General Follow the dismantling instructions in described order Do not place the unit with its PCB on a hard surface e g table as it could damage the components on it Always place something soft a towel or foam cushion under it Never touch the lens of the OPU Take sufficient ESD measures during handling Figure 4 6 VAU8041 Module dismantling 4 2 2 Dismantling the FEBE Board Remove 4 screws to remove the metal case 150 180 Remove 2 screws to separate the FEBE board 179 from the main Loader Drive assembly Note After exchange of the PCB or the Drive mechanism the complete VAU8041 has to be adjusted Refer to chapter 8 for adjustment instructions Figure 4 7 Remove FEBE board htt p ww dwxzl w com f Mechanical Instructions LEN 4 2 3 Dismantling the Tray Remove the encasing as described in 4 2 2 Disengage the two holders that fix the tray 1 and pull out the t
22. Wa m J m d a hil Mi Heer 27 ich ich ES Tare SHIT A 5007 MES T Tsemy ar v kupas cn TEC Nm chi 7 244 uu A Chi 7 1257 1259 F906 D WCLK F907 D DATAO F908 D PCMCLK 1C7929 5 1 7929 6 7201 31 32 1308 XTAL 1302 1320 CLKOUT 7300 pin 4 1502 XTAL 1500 Tek Stop L i 1 Tek prev 9 4 Tek stop iy Tak stop L i Tek stop um Tek Prev d Tek stop Tek stop ik stop 44 4 19 Ll ILL A Chi 7 172 Wide ARDT 2007 Sav A Chi T 439V 87 777 60V 501465 Chi 7 ich me kc vy ATCT FRAY 971777 ACH TROY 100102000005 7 manaa se 710900078 100002000005 100102000005 7 0200005 7 kura Tek Stop 1 CONN 1400 1 2 3 4 1401 4 5 6 8 9 10 CONN 1401 1 2 3 msm F029 1 7000 pin 60 XTAL 1002 802 PNX7100 8 2840 7100 N EB42 PNX7100 XTAL OUT ms 801_PNX7100_HS OU 5 E E A A A A A TA D WwWwwwWwwwwww i oe 2
23. XTAL 1002 I 1021 ERROR 40K A 40K 10K MPIOS_VIP_ERROR 4007 _ NA INN OPTION 5 T 18088 A AA 68R 072 3073 3074 VDDE 7118 3V3dig pe OPTION 29008 3075 AAA 4K7 L 1394 CLK 7008 LD1117D33 3077 WA 10K 8 1023 2 1025 26 27 IN VOUT INC VOUT INC VOUT GND VOUT p 3V3_VIP VIP INTA 2098 2095 18p 2096 18p 1 2 3 4 5 6 7 8 9 10 11 12 13 14 M Ves Y IN B 1927 2937 3923 22n Wsot2_our 5914 47R 3935 D_WCLK F906 htt p ww j dwxzl w con f ronuser Circuit Diagrams and PWB Layouts EM 115 FEBE BE Audio 4 Video In Out 1 2 3 4 5 6 7 8 9 10 11 12 13 mom 1902 E13 F909 F11 2919 5 F910G11 2920 A5 F911G13 IN WSE IN SDE IN FSCLKE IN SCK012 OUT WS012 OUT SDO OUT FSCLK012 OUT 2929 F912F13 CVBS Y IN A CVBS Y IN B CVBS Y IN C C IN VIP Y IN VIP G IN VIP U IN VIP B VIP V VIP R IN VIP 2932 5 1910 AS 1910 2919 2933 5 1911 A5 2934 B5 1912 A11 2935 85 1913 A4 2936B4 1914 A11 2937 C4 1915 A5 2938 C4 1916 A3 2942 C5 1917 A11 294304 1918 5 2946 2 1919811 2947 E3 1920 B13 2951E7 1921 B5 2953
24. ELE 7 7 2004 12039 AAA V V V M arn N ES A CIT 7 sep 2004 i C8 18 24 47 from DAC ADC E BZX384 C12 z m U 6 5 i 331520 10 10 1944 2 GND gt AROUT to IOV gt to IOV E 14220 008 290904 1941 2 A1 1944 2 E9 2500 A3 2501 A2 2502 A5 2503 A5 2504 B9 2505 B3 2507 B2 2508 B9 2509 B2 2510 C9 2511 C2 2512 C9 2513 D2 2514 D2 2515 D2 2516 E4 2517 E8 2518 E8 2519 E2 2520 E4 3500 A3 3501 B3 3502 B8 3503 C2 3504 C8 3505 C5 3506 C5 3507 C6 3508 C3 3509 C6 3510 D3 3511 D7 3512 E3 3513 E6 3514 E3 3515 E7 3516 E3 3517 E6 6500 A2 6501 B2 6502 E7 6503 E7 7500 1 C9 7500 2 B9 7501 B7 7503 E5 7504 F5 F500 A2 F501 A1 1500 A6 1501 A7 1502 B8 1503 B8 1505 B3 1506 B7 1507 C7 1508 C8 1509 C7 1510 C8 1511 C7 1512 C3 1513 C8 1515 D2 1516 D2 1517 D8 1518 D2 1519 D2 1520 E6 1522 E2 1523 E6 1533 D2 MOBO Power Supply PS Circuit Diagrams and PWB Layouts DVDR615 69 7 EEJ htt p ww j dwxzl w conf f ronuser
25. TR20038 001 eps 14062004 U2A9 1500A13 2500 83 250183 2502 B4 2503 C2 2504D2 2505F2 2506F2 2507 G2 2509 H1 251112 251213 2513 17 25140 25150 2516 7 2517 7 2518 7 2519 A7 2520 A8 2521 A9 2522 A9 2523 A9 2524 A9 2525 A10 2526 A10 2527 A10 2528 A10 2529 A10 2530A11 2531 2533 14 2534 15 2536G4 2538 15 2540G4 2550D3 2551 M13 2552N13 2561D4 2562H3 2563 A13 2564 A13 2565 A17 2566 17 2567 A17 2568 18 2569 18 2570 18 2571 A18 257217 257317 257417 257517 2576 18 257712 2578 4 257912 2580 A17 2581 A14 258212 2583 J2 2584619 2585 620 2586 620 3108F19 3500 C3 3501H2 3502H2 3503D2 3504D2 3507 F2 3508F2 3509 G2 3510G4 3511G3 351264 3513 63 3514H3 3515H3 3516H4 3517 3518M11 351912 352014 3521 F3 3522 3523 F4 3524 3527 M10 3528 11 3529113 3530113 3531 M12 3532 12 3534 A13 353512 353612 3541 5 3541 885 3541 CBS 3541 0 BS 3542 A B6 3542 8 B6 3542 B6 3542 D 86 3543 A B6 3543 8 B6 3543 C B5 3543 DB5 3545 7 3546 B6 3547 3548 M17 3551 12 3560 C2 3561 F20 3562 1 E20 3562 2 E20 3562 3 E20 3562 4020 3574H2 357714 357812 3579 H3 3580 618 3581 A13 3582120 3583 1 D20 3583 2020 3583 3 C20 3583 4 C20 3584 1 C20 3584 2 C20 3584 3020 3584 4020 3585 1 020 3585 2 D20 3585 3 E20 3585 4 E20 3586N3 3587 1 E16 3587 2816 3587 3 C16 3587 4 C16 3588 1 C16 3588 2 C16 3588 3 C16 3588
26. Description Programs the digital board settings into the boot EEPROM on the digital board Technical Evaluate user input Set up Write data to boot EEPROM Update checksum Execution Time 1 second User Input A large hexadecimal value that represents the digital board settings obtained from the XDIVTOOL exe program or from a reference set Error Number Description 122600 The settings were successfully programmed 122601 User input is invalid 122602 access failed Example DS gt 1226 646961677473746201010200010101010101000020080000 122600 Test OK 9 Nucleus Name DS SYS SettingsDisplay Nucleus Number 1228 Description Show the settings that are programmed in the BROM on the digital board Technical Set up IIC bus Read Digital Board Settings from boot EEPROM Display the settings htt p ww dwxzl w conf 21 ronuser LEM EM DVDR615 69 Diagnostic Software Execution Time 1 second User Input None Error Number Description 122800 The settings were successfully displayed 122801 access failed 122802 Invalid settings Example DS 1228 Settings ID 444248491D9420014E46332B0000000029040303000101020001010040080800 Board name NF3 Hardware ID 29 Codec IC PNX7100_C2 C3 Video Input Processor IC SAA7118 Progressive Scan Deinterlacer IC 52301 Progressive Scan Denc IC None I
27. htt p ww j dwxzl w cond 21 ronuser E DVDR615 69 Circuit IC descriptions and list of abbreviations 9 2 3 Frontend part OPU66 30AV mn SLEDGE LASER DRIVER ELANTEC 3 3 3 LASER DVD PAEDIC 5 EEPROM BA5995FM 4 CH BTL DRIVER SA56202 MOTOR 2MB SYNC FLASH DRAM ROM LACONIC CENTAURUS 2 DRIVER Figure 9 3 Servo Block This section describes briefly the functional behavior of the engine It performs all basic servo and data processing function e it reads data from the disc it writes data to the disc it controls all other functions like tray control start stop the disc tracking jumping and communication to the host encodes and multiplexes analogue video and digital uncompressed audio into a MPEG2 stream decodes the MPEG2 stream into analogue and digital audio and into analogue video Centaurus 1 5 PNX7850E Centaurus Basic Functions Block Diagram o 2 1 gt Channel MEME g Codec Manager 4 Servo Control ils Controller Processor ae Figure 9 4 Centaurus The Centaurus 7500 is a highly integrated IC that controls all the functions of the drive It interfaces via the IDE bus to th
28. User Input None Error Number Description 123000 AudioLoopthroughStart succeeded 123001 Resetting the audio decoder failed 123002 Resetting the audio encoder failed 1230038 Encoding the audio failed 123004 Decoding the audio failed Example DS 1230 123000 Test OK htt p WAN duxzl w cona f ronuser Diagnostic Software 5 LI Nucleus Name DS_SYS_AudioLoopThroughStop Nucleus Number 1231 Description Stop routing the audio input to all the outputs Technical Send the Mute command to the audio decoder and reset the audio decoder Execution Time Less than 1 second User Input Error Number Description 123100 AudioLoopthroughStop succeeded 123101 Resetting the audio decoder failed 123102 Resetting the audio encoder failed Example DS gt 1231 123100 Test OK Nucleus Name DS_SYS_SettingsHwidSet Nucleus Number 1232 Description This nucleus sets the HW ld in the HW diversity string Technical Read out the HW diversity string Modify the HW ID in that string as requested Write the modified HW diversity string to the EEPROM Execution Time Less than 1 second User Input The hardware ID to set No input The user will be asked for the ID Error Number Description 123200 Setting the hardware ID succeeded 123201 Setting the hardware ID failed 123202
29. RE 3E gt Em 5 2025 2705 F2 3328 F7 6105 ems 3009 DULCI D i EB a 2027 2706 F2 3329 6106 aa B BEIBIE EI 92 55 7181 Bm 2028 A3 2707 F2 3333 07 6107 QU 3o Com cem 2031 A3 3002 A3 3334 07 6108 70015 wi 8 B e 2032 3003 3335 6109 Sue 2 328 003181 A 2034 3004 A3 3336 06 6110 Spe IH 7008 nn 2 x 5 9 2035 3005 A2 3337 D6 6111 Ba EZ uL 5 ene 2036 A2 3009 3338 06 6112 8 E 7 she 42 2100 A7 3010 A3 3339 06 6181 age mw e Eg 2101 A7 3013 3340 D6 6182 S up 25 2104 C7 3015 A1 3341 06 6183 ES x 2106 3016 A1 3346 6184 lt 2108 B7 3017 A2 3347 F5 6312 Part 1 2110 C7 3018 3349 C6 6313 T 7 Z 2112 C8 3019 A3 3350 D5 6314 a em art 2113 A8 3020 3351 05 6317 i 5 I 2115 7 3021 A3 3352 F6 6320 2116 B7 3026 A3 3354 D6 6322 TE E gt fm 2117 B8 3027 3356 6400 5403 Ex E 2118 B8 3028 A4 3358 F6 6401 E q E 14220 016b rimi am 1 5 2119 B8 3031 A4 3359 F6 6402 Na f 5 5 asm I m 2122 A5 3035 A3 3363 F6 6405 EN B B mF FIR cuu 2124 BB 3036 A3 3364 F6 6406 mano 184 Bl ce 3 m B 2125 A7 3037 A3 3365 A3 6407 6502 BE B 2126 A4 3038 A4 3367 C7 6408 8 2127 3040 A1 3368 C 6409 ae T a B E 5 x lio 7 7 0 68 C7 ESL Tall B 2
30. DEVICE MPIO19 SERVICE El IDE DD 0 18 CHRY BOOT _00 0 15 5 IDE_DMARQ IDE_DIOWn IDE_DIORn IDE_IORDY IDE_DMACKpn IDE_IRQ IDE_DA1 IDE_DA0 IDE_DA2 IDE_CS0n IDE_CS n IDE_DASP RESET_IDEn IDE_DIAGN EDGE CONNECTOR is TOP BOTTOM 5Vdig t att At 2918 1904 5904 005 B2 a2 A2 RESETn 3 nis MEMORY TABLE ooa IDE DD 10 A pp P d T 3104 128 0927 _ B5 A5 o IDEn gt B5 p 5Vdig 8Kx8 ITEM amp 3104 128 0929 IDE_DD 7 wc IDE_DD 8 B6 66 6 EEPROM 3104 128 0928 8919 AA 6 scr fa 1 NG Aj A7 ___ DD 6 4008 1 2 i E RJ 4900 OPTION PRESENT N ie pue e m A8 DE DD A 100R DEVICE 7900 AM29DL324 AM29DL640 Nope pp ag 9__ IDE 002 A APPLICATION 7902 MT48LC8M16 MT48LC16M16 I B10 610 410 ____ IDE DA1 B11 11 IDE DIOWn 7903 B11 AM IDE DD 1 812 512 A12 12 IDE DIORn B13 gis Aia A18 IDE IRQ T IDE IORDY 814 514 A _ IDE DD 15 IDE CSOn 815 45 A15 215 1DE 014 A IDE CSin B16 516 A 416 ___ IDE DD O IDE DAO B17 847 17 AT IDE DMACKn 5vs a At8 A18 pe avadig 12Vdig lt 819 Bio __psavadig 12vs a 820 po 20 849 TR2004
31. D e 5Vdig i 8 2844 ES 1975 3081 See 74 100n AAA B4B PH SMS TBT p 12VS 1K5 1 2860 1 sZ m 82 3 L 2860 mE 100n s je t 5VS OPTION i 1C7929 pin 5 1C7929 6 0010 Hole 4 0 mm with Cu 8 0 mm 20046 002 eps 30062004 13 0010 113 1903 11 1904 G9 1905 G7 1906 G8 1907 H4 1908 H8 1909 I7 2838 H12 2839 110 2840 G8 2841 H8 2842 H8 2843 18 2844 18 2845 110 2846 I9 2847 H10 2860 17 2861 I7 2990 B10 2991 A2 2992 A4 2993 B3 2995 B4 2996 B4 2998 D9 2999 G11 3078 I3 3079 12 3080 111 3081 111 3082 4 3086 3087 G3 3969 A9 3970 B9 3971 A8 3972 A3 3973 A10 3974 B8 3975 C9 3976 B3 3977 B8 3978 C9 3979 C8 3980 C3 3981 C3 3984 C3 3987 D2 3988 D3 3989 E8 3990 E3 3991 F3 3992 G11 3993 G3 3994 G2 3995 G3 3996 H3 3997 H3 3998 H3 3999 H3 4905 A4 4906 C3 4909 F10 4915 G4 4917 H3 4919 H8 4922 H8 4923 H8 5927 B5 5928 D9 5929 G11 5930 G10 5931 H12 5932 G9 5933 H9 5934 H9 5935 I9 5936 H9 6900 A3 6901 A3 7923 1 C3 7923 2 E3 7923 3 E3 7923 4 D3 7924 1 F9 7924 2 E10 7924 3 E9 7924 4 F10 7926 A2 7927 1 G11 7928 2 H11 7929 H10 7950 1 A9 7950 2 C8 F935 C11 F950 B10 F951 B10 F952 B10 F954 B10 F956 E4 F957 G10 F958 G10 F959 G4 F9
32. BLOCK DIAGRAM VSSA VRP VRN Vref SYSCLK VDDD UDA1361TS v SSD VINL DECIMATION CLOCK MSSEL FILTER CONTROL PWON VINR DATAO DIGITAL DC CANCELLATION BOR INTERFACE FILTER SFOR ws MGT451 Fig 1 Block diagram PINNING SYMBOL PIN DESCRIPTION VINL 1 left channel input Viet 2 reference voltage ViNR 3 right channel input VINL VDDA Van 4 negative reference voltage Vref VSSA 5 positive reference voltage VINR MSSEL SFOR 6 data format selection input VER PWON 7 control input UDA1361TS SYSCLK 8 system clock 256 384 512 or 768f Vppp 9 digital supply voltage SFOR BGK Vssp 10 digital ground PWON Vssp BCK 11 bit clock input output SYSCLK VDDD WS 12 word select input output MGT452 DATAO 13 data output MSSEL 14 master slave select VSSA 15 analog ground Fig 2 Pin configuration VppA 16 analog supply voltage Figure 9 10 htt p ww dwxzl w conf 21 ronuser EM DVDR615 69 Circuit IC descriptions and list of abbreviations 1 7100 NCP301LSNxx MOBO Board Reset Circuit NCP301xSNxxT1 Open Drain Output Configuration T Reset Output Y The representative block diagrams depict active low reset output L suffix devices The comparator inputs are interchanged for the active high output H suffix devices
33. a ms ms Ew m 2703 3 me 3j ie w PA n IAF iG m Un ms 55 zE zm 8 ag mo mA 8 ma E 8 mj PAR 3 x PAR 4 2659 3 ER 1 B B B m 25 4 11 3589 3588 d 2675 3650 5 5 22878 8 C C 2 2674 B 2614 4 388i mime E Bl 8 2651 a l 1 5 85 8 5 8 3920 309 L4 1 13019 3919 0 7805p AR 3801 3805 4 1 EE 5 BH 9 B m M de eM i SETS Aigle cal 258 m E 2 5809 5 8 5 8 B B MEET 580 Va 3915 5 3808 3811 44 NP A 3917 2677 2813 le S 8 619 3804 3807 mu 2672 Lo I 5 8 55 8 me g n 3863 E 2669 z a fook 2612 55 8 ll 5 Tur 2589 2515 2609 if 0010 3532 3104 123 4397 4 L2 dd wk422 TR20047 001 eps 15062004 1000 1001 1002 1100 1901 1902 1903 1905 1907 1909 2003 2013 2014 2036 2062 2064 2065 2071 2073 2074 2081 2083 2084 2085 2088 2090 2091 2092 2093 2098 2099 2100 2102 2103 2104 2105 2106 2107 2108 2211 2212 2217 2218 2219 2223 2229 2230 2231 2232 2233 2234 2300 2301 2306 2307 2309 2310 2405 2407 2412 2413 2416 2417 2418 2419 2420 2426 2427 2431 2439 2440 2442 2443 2445 2446 2447 2448 2500 2501 2502 2503 2509 2511 25
34. pue uedo Ajquiessy 11014 SJequinu JO ees SNOILONYLSNI 9NITLNVIASIG Figure 4 11 5 5 1 5 1 1 htt p WAN duxzl w cona f ronuser Diagnostic Software Diagnostic Software Due to the complexity of the DVD recorder the time to find a defect in the recorder can become long To reduce this time the recorder has been equipped with Diagnostic and Service software DS The DS offers functionality to diagnose the DVDR hardware and tests the following Interconnections between components e Accessibility of components Functionality of the audio and video paths This functionality can be accessed via several interfaces 1 user Dealer script interface 2 Command Interface End User Dealer Script Interface Description The End user Dealer script interface gives a diagnosis on a stand alone DVD recorder During this mode a number of hardware tests nuclei are automatically executed to check if the recorder is faulty The diagnosis is simply a fail or pass message If the message FAIL appears on the display there is apparently a failure in the recorder If the message PASS appears the nuclei in this mode have been executed successfully There can be still a failure in the recorder because the nuclei in this mode don t cover the complete functionality of the recor
35. 1941 3 11 F409 A10 1942 F1 F410 11 P 1944 1114 F411A11 5 5 from Digital Board 1944 3 A5 F412 A11 cs REAR OUT g iae REAR IN TMGATQ F413A2 lt lt gt 5 2 1947 19 F414 A2 A gt 5NSTBY 5VSTBY RE 4 gt gt gt 1948 14 F415 B1 F400 3400 vB 58 1949 F14 F416 C13 REAR IN 2 i MES B 2400 A7 F417 C13 150 5 2401 F418 F1 T 815 8 8 gla j 2402 B3 F419 F2 AR F402 aye aye T il A 2403 B8 F420 F1 e t 1 4 51 GND 2404 B8 F421 F2 V slele s F413 m 8 E 5NSTBY 5VSTBY 5V T 2405 pei ee d gl AL 3 STE 48 Lui 729 eo 2407 D4 F424 F2 2 8 e 2408 D7 F425 F14 i 5 _ 9 ele Le 2409 07 F426 F2 CVBS 5VSTBY 5VSTBY 358 828 325 2410 D9 F427 G2 pd ano SNESD Y 7 2411D13 428 62 4 8 2412 D4 F429 G1 T 331520 10 10 all 1 1 2413 D4 F430 G1 1941 1 ale ele GND GND GND 2414 D5 F431 G1 GND 5 73 A 2415 E13 F432 G1 1 1 8 5NESD i usss F433 H14 hi x E a 2417 1 F434 I9 5 i 815 o o o 2418 E13 F435 19 icc 219 Scr ST 28 8 8 ano SNESD 28 28 825 2419 14 F436 I9 2 8 lt 8 8 8 2420 E7 F437 10 a REAR IN SNESD 1 eo S CONN 2423 F7 F440 110 WSRI lt 3 AN 5NESD 409 E me 2424 F2 441 110 d 1508 TCS79
36. htt p www dwxzl w cona f ronaser EN Diagnostic Software Byte 1 9 cumulative errors of previous error occurences Every individual error has its own bit in the 9 byte structure as Format of the BE error bytes described in the drawing below byte 1 b7 b6 b5 b4 FOCUS FOCUS TIMEOUT ERROR reserved RETRIES ERROR RADIAL AGC ERROR b2 RADIAL RETRIES ERROR b1 RADIAL TIMEOUT ERROR byte 2 JITTER OPTIMIZATION ERROR SLEDGE HOME ERROR reserved SLEDGE UNSTABLE ERROR SLEDGE CALIBRATION ERROR TILT SENSOR OFFSET CALIBRATION ERROR TILT CALIBRATION ERROR NOT INITIALISED ERROR RECORD ERROR NO DISC ERROR ILLEGAL STOPADDRESS ERROR ILLEGAL PARAMETER ERROR ILLEGAL COMMAND ERROR COMMAND TIMEOUT ERROR byte 4 reserved reserved NO HF PRESENT ERROR HEADER TIMEOUT ERROR SUBCODE NOTFOUND ERROR SUBCODE TIMEOUT ERROR WOBBLE PLL ERROR ATIP NOTFOUND ERROR byte6 ILLEGAL RECORDING SPEED ERROR WSG CALCULATION ERROR DVD CD FREQUENCY FREQUENCY ERROR ERROR NON EXISTING BCA ERROR byte7 NVRAM CHECKSUM UPDATE ERROR FRONTEND OFFSET CALIBRATION ERROR LASER PLL ERROR ILLEGAL READING SPEED ERROR ILLEGAL MEDIUM ERROR SELFTEST ERROR OPC READ SAMPLES ERROR OPC BAD JITTER MEASUREMENT ERROR OPC TEST ZONE FULL ERROR OPC POWER
37. lt 1 b NAL NISBAD S on 9 SAD INO HS8AO 8199 15 Y 4 20 Sod T Yd OM 6 H lt Js 9 rano 9 5 T 4 Lej S8AOA V 07 Sod LNOSEAD A C 1X3 NI HV3H adn VLAVN dV OI 98PIA Figure 9 2 MOBO Video IO AP NAFTA 9 2 9 2 1 9 2 2 htt p WAN duxzl w cona f ronuser Circuit IC descriptions and list of abbreviations 9 A matrix switch STV6618 7402 controlled by the slave via I2C bus is used for Video I O switching All used outputs excluding pin 21 Y CVBS REC have a 6dB amplification and a 75 ohms driver stage inside This IC also includes several digital outputs which are used for switching purposes on the MOBO analog board The record selector inside the switch selects between the inputs from Tuner Frontend VFV CVBS Rear Ext 2 CVBSR or S Video Rear Ext 2 YR IN Afterwards the signal passes another switch 7401 in which a selection between signals CVBSFIN or YFIN from the front or the pre selected one is done Likewise another switch selects between Rear Ext 2 CRIN or Front in CFIN The output signals of 7401 are fed as A YCVBS and A C line to the FEBE board for further processing To reduce the number of external presets there is only one station for CVBS or Y C front and rear
38. Circuit Diagrams and PWB Layouts Layout MOBO Main Part Bottom View Part 4 e CN 88 E 14220 016d 300904 6 htt p ww j dwxzl w con f ronuser Circuit Diagrams and PWB Layouts LEN MOBO Digital In Out 2 DIGIO 2 Layout MOBO Digital In Out 2 Part 1952 A1 2581 A2 3581 A2 3583 C3 6269 C4 F5201 A1 F5203 A1 F5602 25604 2 E 4 5 1956 A4 2582 C3 3582 A3 3584 C2 6581 A2 F5202 A1 F5204 A1 F5603 A3 1952 B4 1 2 3 4 4 1 1956 3581 4 6269 1 1956 F5603 3 21 3416 e DIGITAL 2 N R From DIGIO BZX384 C6V8 not used AA 75R E 14220_018 00904 OPTICAL Lo p 2 d D JFJ2000 2581 B3 2582 B5 3582 B3 3583 A4 3584 A3 6581 B3 40 ONLY E 14220 017 300904 8 5 ex B E_14220_019 300904 htt p ww j dwxzl w con f ronuser Circuit Diagrams and PWB Layouts LIN Front Keyboard KEY 1 2 3 4 5 6 7 8 9 1202 F3 F2304 F1 1203 F3 1200 B9 1205 F6 1201 B9 1207 F6 1204 D6 1208 F7 1205 D7 4d 5vsTeY 1209 F7 1211 F3 1210 F5 1212 F3 1920 A1 1215 F6 1921 C1 1216 F6 1922 C9 1217 F7 1923 E1 1218 F8 7 10u 25V p BZX364 C12 E BZX364 C12 E BZX384
39. 1700 OPU CHEETAH QD DRIVERS CENTAURUS POWER CONN RAD SERVO COMM MOTO1 MRN RX1 MASTER TX1 A1 A2 CALF VRIN D1 TILTN D2 TLN D3 REN D4 FEN S1 MIRN S2 FTC MON1 MON2 RX2 TX2 PPNO IRQN PORN T1 SCL SDA S2 XDN DRIVER ON FO FO VFOO VFOO RA VRAOO SL SL FOC FOC AUDIO FRONT L AUDIO FRONT R TR TR TRAYSW EJECTKEY SL VSLOO VMOTO10 TR20040 001 eps 14062004 oo UA Ej D3V3 4 1 1 4701 1 8 CALEA 552 55 2 2470127 a2 3 3 4701 3 6 DP AV glo x 85 4 558 558 Ee 1706 5 a 41014 5 2 XDN OPTION pava JTAG_TRST_CENT i 5 1720 6 34702 36 3717 mY 2 2 A y JTAG_TDO_CENT gt YN LI 7 2 4702 2 7 D1_TILTN J TDI CENT 4 O 1712 8 1 10218 D2_TLN A 2855 85 JTAG TMS lt E 9 4 47034 5 03 REN 4 P wa F3 JTAG ay pou z E SSE Sx 1703 quid 1731 10 3 4703 3 6 D4_FEN 7 528 5 lt 8 5 lt 8 DV JTAG WE O 1700 1732 11 DEBUG 4 L 1 Tice BY 12 2 4703 2 7 S
40. 4 1 3534 VR gpfST 7502 8 NCC3 vCC5 amp concu 2 7 B 2118 E in in 52 gt 4 1 7506 3588 Z Lue gU 587 Bi 32310 El GM 308 6501 6502 6503 2588 a oS 5623 3639 3635 363 3651 3653 3652 4 362 o iN N K 6605 A iE BI 2571 2570 ko T ko ke el m l IS e s TR20047d_001 eps 3104 123 4397p4_L2 dd wk422 15062004 4 B Layout FEBE Bottom View htt p ww j dwxzl w conf f ronaser O Circuit Diagrams and PWB Layouts EM EN 122 2 20 g 703 18 5 k BBB BBB 3 i E us 8 3 n3 o En ells x IN GND a g sj 3 HX 8 8 eS COT N HX m OUT S28 BEE T Blea ma EH oH 8 5 A Part 1 2 8 TR 20048a_001 s g 8 8
41. K CVBS Y IN A 1924 2936 1925 100n 14 100n pcves 1926 VN V P 1928 EC 100n 180R 1 DY CVBS Y IN C 1929 2938 3924 t AAA L goes 1 5608 1 DC 1930 PTION 2942 100n AMAA DVR 1931 1932 ANALOG BOARD INTERFACE VIDEO IN OUT pup 1933 45V Buffer Y os scke IN 3825 A F900 k 68R 3926 A WCLK 100 IN vs X s 5V 68R 5905 1935 2 3927 DATA F902 gt SDE 1910 VA 105 L 7913 3V3 128 mn am 0 1V 74LVC1G04GW 5 e FSCLKE_IN 2 25800 A PCMCLK Vv 45V Buffer 1902 Y FMN BMT 2951 F904 CVBS OUT B VIP 1936 2953 100 sckot2 our 5909 3934 D BCLK F905 5V MOPY WW e 3930 75R 1 2946 270p 2947 270p 3931 22 21 20 19 18 17 16 15 14 13 12 11 10 Adde B 1937 5915 1938 aaa 105 AN e 7914 5916 3937 47R F907 BC847B EUN y D DATAO A 47R 0 3V 1 7915 3V3 l2S 74LVC1G04GW 5917 3943 D PCMCLK F908 FSCLK012 OUP EU x 1 A 5V Buffer 3940 3936 VVV 560R m o c IV 1 4 68R 75R 2954 270p 2955 270p
42. 1011 100R P8 N7 2 2 1 1 C10 F12 J12 M5 9 9 KEXT N6 ADPO 8 ADP1 ADP2 M7 ADP3 L ADP4 ADP5 ADP6 ADP7 gt ADP8 CE 4 7 P7 L6 M6 P6 P5 IEST4 B12 ESTS A12 m B13 B14 613 Nr N2 NIS N14 P2 B3 E J L M3 K4 H4 F4 D4 c5 c9 D12 H12 M M8 M11 VDDA VODE ESON P13 lt 8 SDA P10 SCL INT A P9 1 013 2 C14 IEST3 A13 VDDA4A VDDA3A VDDA2A VDDA1A CVBS OUT B E j ir gt U a a CONTROL REGISTER MAP 1ST TASK IIC REG MAP SCALER 2ST TASK IIC REG MAP SCALER Y t SCALER EVENT CONTROLLER t Y IN A 42 1012 CVBS Y IN B AH3 N C IN 64 G IN VIP H2 23 YN VIP J3 IGP1 IGPO 114 VIP FID IGPV 14 100 VS IN K12 PNX7100 HS IN IDP0 G14 30842 2 AT 0 IDP1 612 3084 1 1 AAA 8 TOUR ITU IN 1 IDP2 H11 3084 3 3 6 TOR ITU IN IDP3 H14 30844 4 A A 5 TOR TUNG 3085 1 1 A STOOR ITU IN 4 gt 10 5 214 3085 2 2 AA ITU INS IDP6 J13 3085 3 3 6 ITU IN 6 IDP7 K11 3085 4 4 7 75 100R ITU IN 7 ps 3069A A R PNX7100 ITU IN
43. 203319 F009 C12 006 3 ume CE imd gn e mo WE s F010 81 PHYD1 AV1DO 108 3000 4 4 5 33R L D 0 e 1 38 Tego 7 NE 30062 2 80 2 4 m 109 30003 3 L D 3000 2C12 F012 C12 2 F014 gs 79 PHYD3 Bi AV1D2 110 3000 2 2 AA 7 33R L D 3000 3 C12 F013 C12 L uH4a ___ 017 34 ARBITR N p2 8 6 30253 4 F015 76 PHYD4 gt AVID3 111 3000 1 1 8 338 L D 3 3000 4 C12 014 1 1 e gt AND 75 PHYOS gt 1 114 30014 4 YY 5 LDA 3001 1 D12 F015 C7 Lt k 9 5 boe 4 Foie 74 PHYbo 1 gt 12KB BUFFER Q Qo p 5 115 30013 3 6 33R L D 5 I 3001 2D12 016 12 tg CONTROL ee 73 PHvo7 4 gt MEMORY r G y AViDe 116 30012 2 AA 7 39R L D 6 828 828 STATE k 10 8 30291 1 222 86 0 gt Sava TI7 30014 AAA 8 33R LDM 3001 3D12 F017 C1 MACHINE 85 1 gt LINK V avicik 99 3002 33R L CLK 3001 412 F018 C12 F047 59 x ps 11 1952922 co ISOCH amp ASYNC lt AVIFSYNC 100 3026 AAA 33R L FSYNC 3002 D12 F019 C7 XTAL OSC rapie NN 88 CORE E CUTE AVIVAUD 102 3o27 AAA 338 LVAL 3003 1 E12 020 D12 52 9 Pu k pel 72 91 LPS PACKETS E 101 NNN SM AA _ 3003 2E12 F021D12 S E 40R 56 CYCLEIN z 15 103 3028 AA 338 L SYNC D 8 5 5 lt 5 16 CL
44. E E E E 2 gt 2 gt o o 5 o c 6 vas AL Lnogs e E 19 xnw gt lt lt lt lt xnv L1HVOS 3503525225999 I 3 282289202202999 AL 1nodd 8 amu F Oi E i ONE Nd 5 P E Nlad 8 e ou s ON3 NiO d H T _Huvos AL LNOA DS ol anw 1 8 9 lt S ona Sue ON3 NIA S LIuvOS zin Xnv Ni8d 8 m gp 9 9 ONS NIJ des ous due 1102 ol anu gp 9 g REET AL P ZLYVOS LNOSaAd A _ oL nu AL NID ES ONS NIA d 1 gp 9 SNS NISMS lt NAL AL NISSAS A NOL 5 _ EENS og NIA AL LNOSSAD A ej 9nu m 9 e NIA NISSAO 5 ELEN NISSAO A 9 amp AL NISSAD A e 9 NIA 1nOS8A2 gp o NISHAO XNW_NISSAD A AL 9 NOL NISSAD g593 9299 52555 gasgas lt lt lt 82822 22888 3995 8L99ALS 9 gt z Figure 9 18
45. Remark 1 normal repair NO VDM related LVP 12 01 7104 099 91731 track 28 gt 31 1 min process DVD R record 1 min stop open close playback recorded track 4 min 1CD RW low refl 7104 099 96581 check readability of TOC 1 min short term test procedure see REMARK1 gt LVP12 01 DVD R CD RW low reflection long term test procedure DVD RW burn in recording 1h 2h No M1 HQ M2 SP DVDM Fails exchange DVDM Exchanged DVDM Yes finalize repair general functional test of 4 complete set v NFF process exchange DVDM Remark 2 NFF process 1st step contact the customer directly by phone or e mail to discuss the problem of the set 2nd step if contact with the customer is not possible then add a paper with the returned set informing the customer about the possibility to contact the technician directly Following information should be mentioned on the paper name of the technician company telephone number extension of the technician for direct contact jobsheet number information that the set was tested and found to be within the specs and no failure occured during the quality and functional check Figure 8 3 9 9 1
46. 4 33VSTBY OPTION use 47p 47p d d use not not D CVBS from IOV 4u7 50V 10n 50V nol used 2705 z 0 z 1715 2 1716 2 10 BARCODE 7700 BC857BW VERSION TABLE TAIWAN S KOREA ALL OTHERS X X X x not used not used not used 150K 150K not used 150K 150K 150K not used 150K E 14220 006 280904 htt p ww j dwxzl w cor f ronaser Circuit Diagrams and PWB Layouts EM LEN MOBO Video In Out IOV 1 2 3 4 5 6 7 8 9 10 11 12 13 14 1941 1B1 F408A10
47. WM RAM me eee V V V V I Toa one Ht ch stv A F_izsv ar 509m Wi ms A 7 NET Wi oms Chi 7 2007 2 7 1927 tv A 7 1 2507 Mivoms chi 7 2 007 tov Min chi 7 Mins A 7 iiv 2007 A chi 7 2327 us 9550050 1 17 0000005 37 8900003 1027102000005 7 16300005 i 0000005 gt 6000605 0 0006 7 0 00000 5 Test points overview MOBO Board 2 htt p ww j dwxzl w conf f ronuser Block Diagrams Waveforms Wiring Diagram DVDR615 69 6 LEN 1532 F505 2401 1534 x F420 x 1529 1530 F509 1528 F510 1 F512 1409 X i406 x F405 1403 FADE x 1535 1520 F445 x 1522 1523 F446 x F422 1425 1412 F425 1413 x Faiz F435 F411 F410 1511 X F500 F413 1512 F447 4 F414 F402 1505 x F415 F416 F400 FA17 x F303 1706 1708 x x x F301705 1707 22 FII F132 F130 1527 x x F506 1531 X 525 1525005 F4331432 431 1009 1004 1005 10 4 1427 1017 x LX x x 1702 F110 1535 FOOR x Foog 010 F015 4 FQ07
48. anp 7 HAON KETC 3502 2562 _ 88 e 0 ae 2K7 2 TE ma mia PR CUN OPTION C 8574 3574 ok PIN HIRQ T728 HDACKN ve o wack 0 IORDY F sw B10 HRDNN I K InErsiN PCSC Diog 811 HRWN NTRAY INOUT pcsp 3520 m GPlos2 DMARQ_GACK N 5 MK BR P5 7 HD 15 ETIN L v GPIO34 TOSTOCEN DD15 STEP COS la gl ws Dava 2583 10K BOR DA 0 HD 13 N s so m 91 R14 50 iss lee f s I A ooi RTERTERTER No P14 fmu pr moe d TOSTOCEN 152 por ore FP DA 15 DA 3 li HD 10 i 118 y ps op s Y pa E oo x 5885 TAB 555 8 25 8 BRB HD 8 5 5 gt pig WASIN 232 26 2 2545888 33 HO 9 faz g ep z s E gg zaspe 5 g 2 ee p 1555 2514 3522 25255 5 555 88 5 55555 855 Ss esse see ES EEE EB HD 10 ADO i D S s z s s sz 566 5 s Sg sz 6 5 G G 6 5 6 6 6 6 6 6 6 6 6 6 85888 106 a 2515 aye a al 3 z s s gl x x x a 2 5 7505 a 2 3 zzz el e s s el 8
49. CVBS YUV Y C LO CHEETAH 2 n Av LO AUDIO L R IN EXT2 a AU 8 ANALOG VIDEO lt AY E AC if 1 9 lt a Apa L lt 5 S VIDEO z amp 5 in 21 4 dis Fl 8 VIDEO INPUT lt z s 5 a s CHRYSALIS PNX7100 PROCESSING i 1200 Y MPEG 2 AC3 CODEC 1 AUDIO ENCODER 125 LO 1 DIGITAL AUDIO D IDE BUS DIGITAL AUDIO CENTAURUS 1 5 OUT 5 2 2 1 FO RDATA 222 spRAM BOOT ue FLASH EEPROM 1 i lt AUDIO L R ule 5258 p cim 1103 582582525858 1905 E pO S VIDEO F438 A_YCVBS F439 D_CVBS F440 D_Y F441 D C F442 D VR F443 D F444 D UB SERVICE uc POM E Ke ANTENNA INPUT in d dis ES o Eu x ww ed iub PSU 1 2 TV OUT peu E PR 95s29z2bz2221992 5299895222 m D_BCLK D WELK DATAS D PCMCLK FAN i gt auno OPTICAL momm om Pod AE gt O DIGITAL CC c JUL ULL AL 1913 DVDR615 Block diagram AP dd 2004 09 10 POWER SUPPLY E 14220 001 140904 htt p WAN duxzl w conf f ronuser Block Diagrams Waveforms Wiring Diagram 6 Control Block Diagram
50. LANGUAGE AND COUNTRY Select Language and Country Menu Language English Spanish c oniy French Done TV FORMAT Select your TV format e TV format 43Panscan 4 3 Letterbox 16 9 Done pae CHANNEL SEARCH Automatic channel search will find and store all channels Make sure to connect the Antenna Channel Search Start mint a Skip Search TIME AND DATE Check time and date and correct if necessary Time 09 00 Date 30 06 2004 Done Start first installation Press STANDBY ON D on the DVD recorder to switch it on o Switch on the TV set and select the correct video in channel the First Installation menu appears on the TV NO PICTURE Press the TV AV button or CHANNEL A button on the TV to select the correct video in channel for example EXT 0 or Press A to select an item in the menu Press gt to access the selected item s options Press to confirm your selection When you complete select Done in the menu and press OK to continue Language and Country menu appears Language select on screen display language Country select country of your residence 9 Format menu appears TV Format select TV screen display Channel Search menu appears Press OK to start automatic TV channel search Once the TV channel search complete
51. User Input None Error Number Description 50100 The FLASH write read test succeeded 50101 The test segment could not be found 50102 All bits is the TEST region are filled with O region exhausted htt p ww dwxzl w conf 21 ronuser Diagnostic Software DVDR615 69 50103 The WriteRead test failed 50104 The Write Failed Example DS gt 501 050100 Test OK Nucleus Name DS_FLASH_Read Nucleus Number 502 Description Read from a specific memory address in FLASH Technical Decode the user input and check the ranges and whether the address is aligned on 4 bytes Read the data and return this to the user Execution Time Less than 1 seconds User Input The location from which data must be read FLASH starts at address 0xB8000000 Error Number Description 50200 Reading the FLASH succeeded 50201 Reading the FLASH failed Wrong user input 50202 Address is not dividable by 4 Example DS gt 502 0xb8000000 050200 Value read 0 3 08 000 Test OK Nucleus Name DS_FLASH_ChecksumProgram Nucleus Number 503 Description Check the checksum of the application partitions by recalculating and comparing partition checksums Technical Determine the number of segments Find the application in each segment and determine its checksum Check whether the checksums
52. from CU IPFAIL BAS316 6003 from PS BAS316 F002 2 htt p ww dwxzl w comh f ronuser Circuit Diagrams and PWB Layouts MOBO Audio Converter DAC ADC 4 3 35 47u 6 3V 100n 7001 UDA1334BTS VDDA VDDD GND GND 1 1003 2 DIGITAL 3 INTERFACE DE EMPHASIS SYSCLK GND GND DAINCOAX from DIGIO DAINOPT 2 3 from DIGIO GND DAOUT GND DAINOPT 5V DAINCOAX D IKILL 7 GND D PCMCLK GND D DATAO D WCLK GND D BCLK GND A PCMCLK GND 17 A DAT 18 GND 19 WCLK 20 A BCLK 21 GND 22 o e 8 a o 2 7 o 5VSTBY 6002 5VSTBY Y 3V3SW x PDTA124EU BAS316 VY Y Y VV 7002 7007 PDTC124EU INTERPOLATION MUTE FILTER NOISE SHAPER GND GND 47u 6 3V GND GND 2018 j 33p 2014 GND GND 7006 UDA1361TS from IOA 7 47u 6 3V 2030 ALADC from 7 47u 6 3V OPTION 3V3SW 47K gt 1026 3028 7 47u 6 3V GND GND GND BY 10u 25V 3V3SW y VDDA d VRPVDDD 24
53. htt p ww j dwxzl w conf 21 ronuser Circuit IC descriptions and list of abbreviations DVDR615 69 9 ELJ 1 7401 NJM2285M MOBO Board 2 Input 3 Channel Video Switch INIA GNDI IN2B V CTL2 IN2A GND3 IN3B OUT GND2 OUT2 OUT3 CTL3 IN3A NJM2285D NJM2285M NJM2285V Figure 9 19 7600 MSP34x5G MOBO Board Multi Sound Processor 23 28 32 19 1141 i d MSP34x5G 9993 2 203 gt gt gt a lt lt lt 2 ANA_IN DACM L 27 Loud De Pre speaker ADC m i DAC Modulator processing sound 36 i g proeessing 17 125 DA IN1 Loud Pre speaker 125 DA OUT 16 21 DS DA IN2 sound gt proeessing Source 39 ASG select 40 SCLINL 41 SCLIN R SCAR DSP 501 OUTL 31 n gt II 37 SC2_IN_L input t gt select ADC Prescale DAC SCAR T 5 1 OUT R 30 38 SC2 IN R Output select 43 MONO IN gt gt gt gt 10 ADR SEL DCIRIOO 9 ADR BUS FE Xtal D_CTR_I O 1 8 Contr ol Contr ol Oscillator rN 13 DC DA a E 71 a EB gt o B Eg B
54. 155874 8 MHIGHPOWER brad 150R 7504 z 1909 XDD 15 eo XbA13 815 4393945 MT48LC4M16A2TG 7E 150R 150R SEMPWARNING E 3597 SDRAM COSPHI_PcsB XDA 11 AN XDA11 3596 KAUXPW eee pis XDA 10 PREPARED FOR 256MBit MAX M TEMP SENSE 4525 548 a an ES MRN XDA 9 TNSZ XDN BI s XDAO S2 XDN 4 aor ewe Mus pavs 3507 1514 3521 3523 E D3V3 AN ACT EMEN 1K 2505 2K21 47 1 IN aoar 814 7 loss xojo At 85 BSE he a CENTAURUS 1 5 4 d V 2 XDA 5 1K 2506 xpas 813 e MAX6352SVUK T 4503 524PORN ils 4503 _ PORN 3509 jon 518 2536 1520 Boe 6503 2 5 els m a2 oes 85 1 55 RTE 8 1K 2507 1009 250 ES 215 _ D3V3 e 4 BASIC 1 uor pu XDA 100 xpo p DiV8 x i 84 p pro STEPAD XDA A 8 KD1_TILTN 3510 1522 02 3511 6K8 isi xpao E14 PONN AA K Joz Re E tt HRESET Y 6K8 3512 HRESET AA 11 los m HDASPNN pase 04 FEN E 6KB i mes C81 S1 MIRN 3579 3514 6KB esi AS 51 080 22K 100K 3515 D3V3 4 HAZ 1506
55. 2N7002E pias 3105 F3 vic 47 3106 F3 3107 F3 3110 08 SERVO MEAS VREF Vdel Vthr ENA RW Del HIGH GAIN CD MODE VIG VIE VIA VID RFP RFN VIB VIC VIH VIF SERVO COMM FOC FOC RAD Othr EFM DATAP EFM DATAN EFM CLKP EFM CLKN EFM_RWN SCLK SDIO SEN BUSY loDel WSB SCL SDA HIGHPOWER TEMP_SENSE El gt HIGHPOWER 3111 E8 OPTION 3112 D7 5V 525 3113 07 3114 06 VIA A Y v 3115 C6 3116 C5 OPTION 3117 D5 REN A 3118 05 3119 BS RFP A 3120 A5 4100 D5 4105 G2 vic J 4106 C6 4107 C6 VIB 4 4108 C6 4109 D3 4110 E3 4111 F2 4112 F2 A 5101 C2 5102 F2 5103 F2 CD MODE 7 o 5104 G2 6100 G3 7101 D7 HIGH GAIN 71 5 7102 D7 7103 D6 SDA 7104 C5 7105 F5 4109 OPTION 96 7107 B6 mn 1100 A2 veerd 1101 A4 1102 OPTION _ 302 03 62 AN M04 G2 l T 1106 G2 107 H2 SENA 1108 G2 1110 3101 1110 E2 SDIO it 1111 E2 82R 15 D2 1116 F2 EFM_RWN 77 1117 22 18 F2 EFM DATAP 1119 F2 1K 3105 1120 C2 eu 1121 C5 EFM CLKN 1122 C5 1K 3107 1123 C6 EFM CLKP 124 05 1125 07 1126 06 OPTION 1127 D8 1128 F2 wsB 1129 F1 IOthr E 1130 D2 1131 E2 1132 1133 5 135 F1 Foc L100 G2 Foc 4 TEMP SENSE 7
56. E z 2 a gt z ui a z 5 9 E v 2 6 lt c lt c E 2 lt lt lt 8 5 gt a 5 a a v lt t t p m fis 5 yo la ps s 20 m F Figure 9 20 htt p ww j dwxzl w cona fronuser EXE E Circuit IC descriptions and list of abbreviations 9 3 2 FEBE Board 1 7008 7603 7607 7608 LD1117 FEBE Board Voltage Regulator BLOCK DIAGRAM VOLTAGE GENERATOR CURRENT GENERATOR THERMAL THERMAL COMPENSATION PROTECTION SC08251 Figure 9 21 htt p ww dwxzl w cond 21 ronuser Circuit IC descriptions and list of abbreviations DVDR615 69 9 1 7201 TZA1047 FEBE Baord Analoque Processor Block diagram DD1 VDD2 ND1 ND2 DDD NDD RREF Bandgap reference Fig 1 TZA1047 Block Diagram Figure 9 22 A1 A2 CALF CA1 CA2 CCALF ALFA D1 D2 TLN D3 REN D4 FEN S1 MIN S2 XDN CMPP MON2 PPN FTC LJ LU Pu Wb 07 DDQTST htt p ww dwxzl w conf 21 ronuser EMI DVDR615 69 Circuit IC descriptions and list of abbreviations Pin description Table 1 Pin description
57. In case of an AV3 Transfer the test data to the disc location using PIO mode ATAPI WRITE_10 In case of an AV2 Read back the data from disc using DMA In case of an AV3 Transfer the test data to the disc location using PIO mode ATAPI READ 10 Compare the two data areas and check whether the areas are equal Execution Time Approximately 20 seconds User Input None Error Number Description 90700 The command executed successfully 90701 This nucleus cannot be executed because the Self Test failed 90702 The BE cannot enter normal operating mode 90703 Unable to send the tray in 90704 Unable to read TOC from disc 90705 Invalid disc is loaded please insert a DVD RW disc 90706 Unable to write the DVD R disc is full 90707 No writable DVD R sector found 90708 Writing the test pattern to DVD failed 90709 Reading back the test pattern from DVD failed 90710 Compare check failed Example DS gt 907 090700 Testing on sector 0x36210 OK Test OK Nucleus Name DS_BE_StatisticallnformationGet Nucleus Number 908 Description Retrieve the statistical information from the basic engine Technical Check if an AV2 or AV3 is connected In case of an AV2 Send the 528 GET STATISTICAL INFO command In case of an AV3 Send the transparent BIT engine GET STATISTICAL INFO command Display the info returned from the BE Execution Time Less than 1 second on AV2 2 s
58. None htt p ww dwxzl w conf 21 ronuser Diagnostic Software DVDR615 69 ESI Error Number Description 91000 The command executed successfully 91001 There was a time out while communicating 91002 The Basic Engine returned an unexpected result 91003 The BE returned an error code 91004 No acknowledge received from BE 91005 Communicating with the Basic Engine failed 91006 The BE returned no info Example AV2 DS 910 Momentary errors Byte 1 Byte 7 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Cumulative errors Byte 1 Byte 7 0 00 0x00 0x00 0x20 0x00 0x00 0x00 Fatal errors Oldest Youngest 0x00 0x00 0x00 0x00 0x00 091000 Test OK Example AV3 DS gt 910 Momentary errors 0 9 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Cumulative errors 1 9 0 00 0x80 0x20 0x00 0x00 0x00 0x00 0x00 0x00 Software fatal assert 799 engineproxy cpp 091000 Test OK Nucleus Name DS_BE_ErrorLogReset Nucleus Number 911 Description Reset the error log in the basic engine Technical Check if an AV2 or AV3 is connected In case of an AV2 SendtheS2B RESET STATISTICAL INFO command Sendthe S2B POWER DOWN command Toggle the reset pin of the 125 interface In case of an Send the transparent BIT engine RESET STATISTICAL INFO command Execution Ti
59. 3560 1 2503 05 3166 3561 A1 2505 01 3167 B7 3562 1 2507 01 3168 88 3563 A1 B 2508 D3 2169 B7 3564 1 2509 E1 3170 B7 3565 1 2510 02 3171 3602 Eje eum 5 MES Ki 3 D 7306 65 T E 218 s Bas E 2511 D1 3172 A7 3604 Bl Sm 2513 02 3173 F2 3605 02 JE g B F 2514 02 3174 F2 3606 02 AK E sh sn x 2516 B1 3175 A7 3607 02 ia BEL s 2517 B1 3177 B7 3608 02 m B 8 5 ma 262 5 2518 B1 3178 B7 3700 F3 gt 555 6317 2520 B1 3179 7 3701 inis zs 2551 A1 3181 3702 E A SA uH 55 5 7 Se E_1 4220_01 6 2554 1 3184 A5 3705 F1 4 2555 1 3185 A6 4000 B1 30090 2556 1 3187 B7 4001 A6 I 2 3 4 5 6 7 8 SC 2 i s and PWB Layouts Layout MOBO Main Part Bottom View Part 1 300904 E 14220 016a htt p WAN dwxzl w conh f ronuser Circuit Diagrams and PWB Layouts EN 95 Layout MOBO Main Part Bottom View Part 2 3139 243 3092 3 8239 210 9692 3 E 14220 016b 300904 Circuit Diagrams and PWB Layouts DVDR615 69 EEJ Layout MOBO Main Part Bottom View Part 3 4 E 14220 016c 300904 htt p ww dwxzl w comh f ronuser
60. 9 1 10 Tuner Frontend The MOBO board supports 3 possible Tuner Frontend unit namely 1700 PAL BG DK and Broadcast System 1701 NTSC M Broadcast System 1702 not in used It has a RF IN for antenna connection and RF OUT which provides a RF loop through during Standby mode for connection to the TV The Frontend 1701 Tuner amp IF demodulator is controlled by the 2 SCL 5V and SDA 5 lines coming from the slave Complete video processing is done this unit and the video output CVBS is taken out from the VID OUT pin via transistor 7700 as VFV line to the Video circuitry The audio IF component SIF1 is taken out from the SIF OUT pin for demodulation in the sound processor 7600 A modulator is also included in this unit The audio and video signal to the modulator are the ones from the selected input or the playback path of the set AMCO and D CVBS line the MSW signal and 7701 the modulator is switched on and off In opposite to this the antenna loop through is opened or closed The CSW line switches the modulator between CH3 or CH4 To achieve optimal tuning the AFC line is detected by the slave uP an analog input Audio demodulator The sound demodulation is done by the MSP3425 7600 which is also fully controlled I C bus by the slave determination of bandwidth amplitude standard The audio signals are available at pin 30 and pin 31 of 7600 and f
61. Description This nucleus checks the interface to the remote control by having the user confirm the key code displayed At least one key must be tested If the user presses a or A the test is aborted If the user presses o or O the test is indicated as OK If the user holds down PLAY for more than a second the test is indicated as OK if the user holds down RECORD the test is indicated as failed Technical Initialise the display Display the key pressed by the user on the display Monitor the service port for an abort and get the next key pressed Update the display and repeat previous steps until user stops confirms Display the number of keys that were pressed Execution Time Depends on the user User Input None Error Number Description 161300 The test succeeded 161301 IIC bus communication failed 161302 The user signals a failure of the remote control 161303 The user aborted the test Example DS gt 1613 161300 Test OK Nucleus Name DS_ASP_LEDsOn Nucleus Number 1614 Description This nucleus switches on the RECORD TRAY and EPG LED when available Technical Check if the analogue board is a MOBO board if so Read the ASP pio port Set the RECORD LED bit on in this port Write the ASP pio port Read the ASP pio port Set the TRAY LED bit on in this port Write the ASP pio port Read the ASP pio port Set the EPG LED bit o
62. allt AS 10 sim 91 01 22 1111111 8 S 38 e we zn 2 2 2 9 g lt m od d d gaa T _ A LE 00 m o i na VE 2 ra m 1 084 1 AS 6 0 lt 5 lassus A rona a 6 72 des outs 4 S 1non Y duoa J J ur 4 xa 5 I a 62 oufsjog AV 100 A AL E 429 4 xnv Nd p ES 5 S os m 00 ENS m sug t D ov amp AL 1nOO 1d H lt gt ese 8 HG VLHVN 203 o XnV NA 4 o J Sano e awon 00 2 gt ON3 NIO 1 1noo 3 uio I AJA lt 4eun g ZSA ISA NAL M US 1 l Y Y quwoog Z D SM lt EU r 1H 2 Y p 4 ino uo E Ib Y AL 1nOS8A9 A c HS8SA9 l lt s duejyog 61 00 lt i NIJA B Y Xfiv NISSAO A NI HA ud 3s 0 59187 19 3 AL NISSAS A NI YSSAD d 1n0S8AO A mE gt L 00 FE o vL
63. ww j dwxzl w com f ronuser 1 0 HIEMS Diagnostic Software 123303 DS gt 1233 123300 Test OK Writing the modified HW diversity settings failed Example DS 1233 manual 123300 Test OK DS gt 1233 123301 Hardware ID mismatch in HW Diversity string 99 actual in FLASH 0 Error DS gt 1233 manual Hardware ID mismatch in HW Diversity string 99 actual in FLASH 0 Enter the correct HW ID of the digital board gt 0 The HW diversity string has been modified by you Settings Board name DIAG Hardware ID 0 Codec IC PNX7100_MF3 Video Input Processor IC SAA7118 Progressive Scan Deinterlacer IC None Progressive Scan Denc IC ADV7196 I Link physical layer circuit IC PDI1394P25 I Link link layer circuit IC PDI1394P40 Audio clock Clock scheme 1 Bit engine connector available IDE connector 1 available IDE connector 2 not available PCI connector not available RAM size 32MByte ROM size NOR FLASH bank 1 8MByte ROM size NOR FLASH bank 2 Not available ROM size NAND FLASH Not available Is it OK to program this inthe new HW diversity string y es n o y Diversity HW string programmed successfully 123300 Test OK DS gt Nucleus Name DS SYS SettingsDITableFilenameSet Nucleus Number 1234 Description This nucleus sets the Download table filename in the HW diversity string Technical Retrieve the new filename from the user Ask the user
64. 1 6 1 1 7 1 7 1 Audio Video Front Input Connectors Audio Cinch Input voltage Input impedance Video Cinch Input voltage Input impedance Video YC Hosiden According to IEC 933 5 2 2 Vrms gt 10kQ 1 Vpp 3dB 750 Superimposed DC level pin 4 load gt 100kQ 2 4V is detected as 4 3 aspect ratio gt 3 5V is detected as 16 9 aspect ratio Input voltage Y Input impedance Y Input voltage C Input impedance C Out 1 Component Video Cinch Y Pb Pr according EIO 770 1 A EIA 770 2 A Audio Cinch Output voltage Output impedance Out 2 Audio Cinch Output voltage Output impedance Video Cinch Output voltage Output impedance Video YC Hosiden According to IEC 933 5 dB 750 1Vpp 3dB 750 burst 300 mVpp 3 2Vrms max gt 10kQ 2Vrms max gt 10kQ 1 Vpp 3dB 750 Superimposed DC level pin 4 load gt 100kohm lt 2 4V is detected as 4 3 aspect ratio gt 3 5V is detected as 16 9 aspect ratio Output voltage Y Output voltage C Video Performance All outputs loaded with 75 Ohm 1Vpp 10 15 300mVpp 1 4dB SNR measurements over full bandwidth without weighting SCART RGB SNR Bandwidth Audio Performance CD Cinch Output Rear Output voltage 2 channel mode Channel unbalance 1kHz Crosstalk 1kHz Crosstalk 16Hz 20kHz Frequency response Signal to noise ratio Dynamic range 1kHz Distortion and noise 1k
65. 2308 8 6307 4 1316 C10 gt m 88 85 2309C9 630805 1317 C10 gt re S S TS Gaio 805 3313 230495 9 2310C2 630907 1318 C6 eu NYA AV 1 85 4 ops 2311 C10 6310 5 131906 2305 8 1KO 2208 o 12 2312 C6 6311 E7 1320 D12 Slaw gon 22y 2313 C10 6312E7 1321 1n0 ack 5 A not Used GNDreg GND GND ITA iE le 82 828 231464 6313F11 1322 E5 1902 1809 saje 1310 6302 mE 2315 5 6314 7 1323 Bg 1 A 1311 4 1313 A 231608 6315011 1324 F3 100V 220R 1N5062 7 1N5062 a 2317 08 6316 613 1325 F10 Fao pud F312 163 6304 5301 Ft 1304 F316 GND 56V GND GND GND 2318 04 6317 G4 1326 F7 GNDHOT 12 231904 6318 09 1327 F11 A e fov 22 F318 to DAC_ADC CU 2320E3 6319 4 1328 F12 5303 4F319 6306 2321 F10 6320112 1329 F12 we LA ino 8 85 m 2322E8 632119 1330 F7 MAINS s 2 1 pud used STPS5L40 3320 3321 O 21 05 25V 115 2323 9 632219 1331 F6 CONN HF2022R mum 1 1 ORE MN 1 4 e z 2324 3 7300 10 1332 612 GND L 59 n c 9 2325 611 7301 11 1333011 B2P3 VH F321 A 8 82 858 acs GND 55 8 328 859 2 2326 612 7302810 1334 64 e dh cda o o C UU 16 2 P 2327 G5 17303 11 1335 67 5 578 8 90 Lid 2328G8 7304 10 1336 G4 14 2329 69 7305 11 1337112
66. 3025 es IDE IORDY E gis 2 8 1678 8 8 8 8 3627 22R GND SU DS rt 1692 W 3626 5d IDE DIORn iy 3629 82R 1670 gt A gt 40K 3628 1621 I TNHRWN IDE DIOWn A 3684 82R 1689 VA 10K dd bs IDE_DMARQ l 2605 3647 HRESET He 1646 3648 10K RESET_IDEn 1677 82R HD 15 4 3631 4 5 IDE_DD 15 8 88796 Tm d IDE 1697 2 HD 14 33R 363125 1625 0004 DIVE 2 OUT AN s ge 215 HD 1 1 AAA 8 Uu 1DE_DD 1 4 33R 1627 HD 13 4 36354 5 IDE DD 13 WN HD 2 336353 Sm 8 IDE_DD 2 4 XY n HD 12 2 3635 2 7 IDE_DD 12 HD 3 1 3635 1 g SIR oe IDE_DD 3 4 OPTION 36394 1636 HD 11 4 5 IDE DD 11 7 71 AAA va 3639 3 n HD 4 IDE_DD 4 68K 3 VS its 3661 HD 10 3639 1 IDE DD 10 10 156304 DD 10 150K HD 5 295092 338 A IDE_DD 5 v 1648 1647 1687 5614 33R 1642 DIVE 4 4 HD 9 3 AA 6 IDE_DD 9 4 u 33R 1643 HD 6 4 3643 4 5 IDE_DD 6 47 6603 pe 5 NR E _ lols HD 8 2 35452 7 IDE DD 8 ski4 a 1818 v a HD 7 1 RAN 8 vd IDE DD 7 1672 N ee 2615 1698 16 22u 8 G t 18 8888 8 1651
67. 4 ex 0 K 5 TY 5 no 8 8 5 Fills pon sl B 366 HH HE B 5 J 5 z EB 5 1 8 22 s Y 88 ae O 7405 mu T B 2200 336 1 at Xi 1 4 ss i 3502 T s T e Ho mam l 2 8512182888 8 BG RB BB mS a 5 2 g 88 o 7403 Lie 9 32 B 4 5 us xus B 5 Nu m 25 E 3 ES A as ui nx 1 Part 3 e 2 TR 20048c 001 E 8 E R 7500 i E 5 B 5 6 15 9 E 5 3 3585 3552 D 7401 SN G 7604 8 SR 2 EBE rer 8 57 8 E mu z 5 5 R 8 55 B 3 z 2 A 25 4B 5 pe 2851 4 4919 2842 5 8 3080 533 Dra E 7929 L 5 aee E E 8 x 4 2012 2011 l 4009 E rr mL 7927 D 7928 Pale m Xm 2000 2008 T n n l 85 8 5 lil 2016 3035 Q o 7008 ry ENE 2954 2929 BS Des wr Jest st Ole E 2001 rS ETE 4010 7097 ET P m
68. 7200 SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B LED VS LTL 1MHHR 9322 185 95667IR RECEIVER TSOP4836 MOBO ANALOG BOARD Various 1100 2722 171 00042 1101 4822242 82114 1102 4822 242 70938 1300 4822 071 51002 1301 9965 000 07788 1302 4822252 11215 1303 4822 265 11253 1304 2422 086 10786 1305 4822 253 30383 1306 4822 071 55001 1308 4822 071 51002 1310 2422 086 10769 1600 4822 242 10434 1700 2422 542 90125 1900 4822 265 11154 1914 4822 267 11031 1931 4822 265 20723 1941 2422 026 05291 1942 2422 025 17797 1944 2422 026 05291 1947 4822265 11154 1948 4822 267 10994 1949 4822 267 10994 1955 4822 267 31729 2102 4822 124 11968 2301 2020 554 90173 2302 2020 021 91506 2305 482212231175 2307 482212231175 2308 2020 021 91506 2310 4822 121 10512 2312 4822 121 70386 2314 2022 020 00742 2316 2020 021 91506 VFD DISPLAY BJ928GN CERAM RESONATOR 8MHZ RES XTAL 32 768KHZ FUSE RAD LT 1A 250V IEC FUSE RAD T2A IEC UL250V SURGE PROTECT DSP 301N A21FA SOC FUSE V 1P F PTF 65 B FUSE RAD LT 4A 250V IEC A FUSE 5X20 HT 2A5 250V IEC B FUSE RAD LT 500MA 250V IECA FUSE RAD LT 1A 250V IEC FUSE RAD LT 125MA 250V 1 RES XTL 18MHZ432 12P HC49 U A TUN V U PLL IEC BGIDK B CON V 22P F 1 00 FFC 0 3 B CON V 10 F 1 00 FFC 0 3 B CON BM V 2P M 7 92 VH B SOC CINCH H 8P F YEWHRDBU B CON V 15P 1 00 FFC 0 3 B SOC CINCH H 8P F YEWHRDBU B CON V 22P F 1 00 FFC 0 3 B SOC MDIN H 4P F TCS7927 B SOC H 4P F TCS
69. 7923 4 Reset 1394n gt amp 7923 2 Analog Reset amp 7923 3 VIP Resetn amp 11 Y CHRYSALIS PNX7100 IResetDig EJTAG Resetn e Jl Y PNX7100 SYS Resetn CL 36532004 005 eps 140208 Figure 9 7 Chrysalis reset htt p WAN duxzl w cona f ronuser Circuit IC descriptions and list of abbreviations The voltage detector NCP303LSN290 7926 provides the reset signal PNX7100_RESETn active low with the correct timing behavior This circuitry functions as a Power On Reset POR module which detects the minimum functional voltage that is needed by the device It also detects any voltages drop When the power voltage is outside the nominal range a reset signal is generated by the POR module and fed to the reset module which controls the individual reset of the different peripherals and processing units There are two control lines which can overrule this reset signal RESET DIG controlled by the slave uP on the MOBO Analog board e EJTAG RESETn only for production They can pull the output of the NCP303LSN29 7926 down via a shottky diode So when the output signal 7100 RESETnis low the board will reset When this signal is high the board is up and running The PNX7100_SYS_RESETn is a general enabling signal for the different res
70. Device type of the link layer IC 00301 Busy executing NUC701 18 28 Device type of the phy layer IC O Busy executing NUC702 19 28 Busy executing NUC703 20 28 Busy executing NUC801 21 28 Busy executing NUC808 22 28 The acknowledge was not received which is correct Busy executing NUC900 23 28 Busy executing NUC1101 24 28 Busy executing NUC1102 25 28 Busy executing NUC1104 26 28 Busy executing NUC1105 27 28 Busy executing NUC1111 28 28 BootCode checksum is OXBABE6240 which is correct Diagnostics checksum is which is correct Download checksum is OxBABEA6B7 which is correct Application checksum is OxBABE5968 which is correct PASS DS gt 5 4 htt p ww duxzl w conf f ronuser O EM Diagnostic Software DVD Module Error code With DSW command 910 the set software can retrieve an overview of all occurred engine errors D amp S HyperTerminal Eile Edit View Call Transfer Help mig 58 alal 8 DS gt 910 Momentary errors Cumulative errors 1 9 Software fatal assert 091000 Test 0 8 DS gt _ 5 4 1 Momentary Errors Byte 0 latest error 0 9 0x21 0x00 0x00 0x20 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x80 0x20 0x00 0x00 0x00 0x00 0x00 0x00 256 cpowermanager cpp Overview of the BE error codes
71. Error Number Description 90100 Resetting the Basic Engine succeeded 90101 Resetting the Basic Engine failed Example DS gt 901 090100 Test OK Nucleus Name DS BE GetSelftestResult Nucleus Number 902 Description Return the self test results through the service port Technical Check if an AV2 or AV3 is connected In case of an AV2 Send the S2B SELF TEST RESULT command In case of an AV3 Send the ATAPI REPORT DRIVE DIAGNOSTICS command On error display the specific error codes received from the BE Execution Time Less than 1 second User Input None Error Number Description 90200 Self test succeeded no errors 90201 There was a time out while communicating 90202 The Basic Engine returned an unexpected result 90203 The BE returned an error code 90204 No acknowledge received from BE 90205 Communicating with the Basic Engine failed 90206 Basic Engine returned no info 90207 Self test failed errors are echoed Example DS gt 902 090200 Self test result byte 00000000 Self test result byte 00000000 Self test result byte 00000000 Test OK Nucleus Name DS BE VersionGet Nucleus Number 903 Description Get the version of the basic engine and that of the optical unit Technical Check if an AV2 or AV3 is connected In case of an AV2 send the S2B GET VERSION NUMBER command In case of
72. UART3 I 3829 D1 F838 112 RE 2 8 g RTSO lt UART3 GATEWAY ANALOG BOARD tom 3830 D1 F839 J12 E 2 IDE_DMARQ IDE_DIOWn IDE_DIORn IDE_IORDY IDE_DMACKn IDE_IRQ IDE_DA1 IDE_DA0 IDE_DA2 IDE_CS0n IDE_CS1n IDE_DASP RESET_IDEn IDE_DIAGN 3831 E1 F840 J5 i I F801 PNX7100_HS OUT F802 PNX7100_VS OUT F840 PNX7100 XTAL IN 2842 PNX7100 XTAL OUT THR20041 001 eps El ip 14062004 ee 1 SDRAM_DATA 31 0 SDRAM_ADDR 14 0 2 3 htt p ww j dwxzl w com 21 ronuser Circuit Diagrams and PWB Layouts EN 112 FEBE BE Flash EEPROM amp SDRAM 10 11 12 13 14 PCI_AD 31 0 PCI_AD 31 0 0 009000 10 18 11 11 SCLO SDAO SCL1 SDA1 CAS 0 DQM 0
73. gt AA26 3V3dig gt 3807 4 11 3901 C14 _ X25 pu 3808 1 D11 480515 savada 35 procc ouro 9 BEFLAG ere gt 3808 2 11 480712 E 4 Y23 ig gig zisels 3808 3011 5003 G1 24 3808 4D10 5800 A13 IE x x a EROGO QUIS 8 3809 1 10 5801 H2 3399 8 8 E PROGC OUT4 5806 1840 VDD PNX PAD 00 2 D10 5802 J11 a PROGC oUTS 6550 24 3815 1 33R IDE DD 0 WW Br go ge H1 PRocc ouTe DDO 24 IDE DD 1 3809 3 E10 5803 J7 82 82 31 PROGC OUT7 IDE DD1 i 518881813 8 5804 13 OPTION T 14 LK IDE pp2 4023 3814 1 acce Sa G 2800 4010 3061 PROC OULD IDE DD3 AF23 38144 4 3810 1 10 5805 E13 3842 A A A 10K IDE pp4 22 3813 2 8 8 5 3810 2 10 5806 G13 a LI wt ooo IDE DDs 021 38158 33R F808 g 3810 3D10 5807 213 MPIO1_INTA W2 i IDE DD6 2 3812 2 ER 3810 4 E11 5808 H12 MPIO2 1394 pio2 a IDE DD7 28124 8 33 010 SDRAM ADDR 14 0 3811 1 D11 6800 J11 E a W4 IDE Dps AE20 3812 3 33R F811 E 3843 A A 10K 4 IDE pp9 21 3812 1 33R F812 e SDRAM DATA 31 0 3811 2 11 7800 Ax Ya IDE DD10 22 3813 1 33R F813 3
74. htt p ww dwzl w conf f ronuser Diagnostic Software ScRIPT Nucleus Name DS IH ScriptHandler Nucleus Number Script Description The test requires no user interaction A number of nuclei will be run before a message is returned indicating if there is a failure in the DVD Recorder When a nucleus failed the script stops and displays the message FAIL Otherwise it displays PASS at the end when all nuclei are executed During the execution of a script a progress indicator is displayed on the display of the DVD Recorder Technical Execute the included nuclei one by one If a nucleus fails quit and display the failed nucleus on the local display and service port Execution Time 16 seconds DS COMMUNICATIONECHO NUC DS DCB COMMUNICATIONECHO NUC DS BROM COMMUNICATION NUC DS SYS SETTINGSDISPLAY NUC DS CHR DEVTYPEGET NUC DS CHR INT PIC NUC DS CHR DMA NUC DS BROM WRITEREAD NUC 9 DS NVRAM COMMUNICATION 10 DS NVRAM WRITEREAD NUC 11 DS SDRAM WRITEREADFAST NUC 12 DS FLASH WRITEREAD 13 DS FLASH CHECKSUMPROGRAM NUC 14 DS SYS HARDWAREVERSIONGET 15 DS DEVTYPEGET NUC 16 DS VIP COMMUNICATION NUC 17 DS DVIO LINKDEVTYPEGET NUC 18 DS DVIO PHYDEVTYPEGET NUC 19 DS DVIO LINKCOMMUNICATION 20 DS DVIO PHYCOMMUNICATION NUC 21 DS PSCAN COMMUNICATIONDENC NUC 22 DS PSCAN COMMUNICATIONDEINTERLACER NUC 23 DS BE COMMUNICATIONECHO NUC 24 DS ANA
75. htt p ww j dwxzl w conf f ronuser Circuit Diagrams and PWB Layouts DVDR615 69 LIEN MOBO Audio In Out IOA AL 5 T 331520 10 10 1941 2 AIN2R BZX384 C12 a z m 02 BZX384 C12 From IOV AIN2L From IOV lt q 5NESD 5NESD 5VSTBY from PS 5VSTBY 5NSTBY lt q 5NSTBY from PS RSA1 From MSP lt RSA2 From MSP 1500 1501 5VSTBY 7501 HEF4052B 10 onao onao From IOV AFER From MSP AFELI From MSP ARDAC VEE VSS N o 5NSTBY 1502 3502 5VSTBY 2504 47u 6 3V 2508 100n 7500 2 MC33078D ov ARADC to DAC ADC 2510 100 2512 n A 47u 6 3V 5NSTBY 7500 1 MC33078D 1 to DAC ADC from DAC ALDAC gt from DAC 2519 7503 BC817 25W REAR OUT 1 7 AR BZX384 C12 m 10u 16V OPTION 1505 1512 AIN2R AIN2L Tok stop Woo A Chi 7 7 sep 2 1515 1518 AFER AFEL Tok Stop 3 2005 F016 ARDAC ALDAC Tok Stop i Tok Stop 1502 4 1510 7504 BC817 25W 5 ARADC ALADC 1C7500 pin 7 1 Tok Stop arn WO AC FAY 000000 2352233 arn N ES A CHT 7 7 2004 u 6090985 17 57 22 A l
76. 1 7929 NCP1570D FEBE Board DC DC Converter Control Fault Latch Set Dominant PWM Latch Reset Dominant Art Ramp 80 200 kHz 2 0 89 V 0 69 V Set Dominant Figure 9 34 PACKAGE PIN DESCRIPTION PACKAGE PIN SO 8 PIN SYMBOL FUNCTION 1 Vcc Power supply input 2 PWRGD Open collector output goes low when V pp is out of regulation User must externally limit current into this pin to less than 20 mA 3 PGDELAY External capacitor programs PWRGD low to high transition delay 4 COMP Error amp output PWM comparator reference i A capacitor to provides error amp compensation and S Start Pulling pin 0 45 locks gate outputs to a zero percent duty cycle state 5 GATE H High side switch FET driver pin Capable of delivering peak currents of 1 5 A 6 GATE L Low side synchronous FET driver pin Capable of delivering peak currents of 1 5 A 7 VFB Error amplifier and PWM comparatori 8 GND Power supply retum Figure 9 35 9 4 DVDR615 69 List of Abbreviations MOBO Analog Board 5VSTBY 8SC2 A_DATA A_RDY A18 A19 A8 A17 ADO AD7 AFC AFEL AFER AGC WSRI AINFL AINFR AKILL ALADC ALDAC ALE AMO AM1 ARADC ARDAC ASCC1 AVCC AVSS CFIN CS0_ CS2_ CVBSFIN D_DATA D_RDY DAC_MUTE DAOUT DVAL DVAR DVCC1 DVCC2 DVCC3 DVSS1 DVSS2 DVSS3 FAN_OFF FBIN FOME G1 1
77. 148 150 158 160 162 164 168 196 274 276 288 292 333 336 340 341 345 1001 1004 1005 8003 8007 8008 8010 8011 3139 247 51831 3139 244 04761 3139 244 04561 3139 244 04531 3139 244 04521 3139 244 04491 3139 244 04511 3139 244 04501 3139 244 04551 3103 604 00811 3103 604 01141 3103 603 20122 3139 244 04541 3139 244 04481 3139 244 04471 3103 604 00441 3103 601 20231 3103 601 20212 3139 241 21871 3103 604 00622 3103 603 20041 4822 532 60948 2822 031 01441 3139 248 72121 2422 070 98231 3103 308 92610 4822 321 61579 4822 320 50377 3139 248 82902 9305 025 84121 3139 248 83071 3139 111 04001 3139 111 03991 3139 110 34891 3139 111 03981 2422 076 00578 BADGE PHILIPS ASSY SILVER CAB FRONT DVDR615 AP BUTTON STANDBY DVDR615 BUTTON EJECT DVDR615 BUTTON SET DVDR615 BUTTON CAP REC DVDR615 RING REC DVDR615 LIGHT GUIDE REC DVDR615 COVER TRAY DVDR615 HOLDER COVER TRAY COVER DUST FOAM RUBBER SEALING WINDOW DVDR615 WINDOW LEFT DVDR615 DOOR FLAP DVDR615 HINGE DOOR FRONT AV SPRING GROUND SPRING I LINK COVER TOP DVDR615 FOOT CUSHION FOOT BUSH 450H259010 FAN 12VDC 0 7W 3000RPM REMOTE CONTROL DVDR615 MAIN CORD IEC 2A5 1M8 VH BKB CABLE AUDIO 2X2RCA MALE 1 5MTR VIDEO CABLE CONNECT CABLE PAL PCBAS MOBO 04 AP2 VAU8041 21 MODULE PCBAS FRONT DVDR615 FFC FOIL 15P 180 15P BD 1MMP FFC FOIL 22P 280 22P BD 1MMP FFC FOIL 22P 120 22P AD 1MMP FFC FOIL 10P 280 10P BD 1MMP CBLE
78. 16 3862 338 _ F837 3815 1G10 F812 H11 1 gt 5 z5 5 dg 11 11805 8 15 3861 v 33R 3815 2H10 F813 H11 1 v EE 2 Zw 899055858 2882 2 zw 208 2059258 5 5 22 34 3856 SiS SIG EN 5 9 48 Aesoos RSET 2 13 3860 AA A 33R l 2 885 822888388 223 55 855 12 3855 V 22R 3815 4 610 F815H11 6 a ERERERERERE 8 9 11 3859 AAA 33R 3816 E1 F816 H11 21 35666686 x x 3817 E1 F817 H11 OPTION 8 E 8 s 5808 OPTION a e 2 3818 F1 F818 H11 8325 E a IDE IORDY 3819 F1 F820 J12 BR a eat m 2 2 3857 82R F832 38 2 2 9 5 dp 2 lt 3854 82R F821 X 3820 F1 F821 J12 E Fea DEGRA 3864 828 F839 3821 F1 F830 112 A VV VV AVY VV LN 5 m lc 3822 F1 F831 112 gt UARTO gt 5 3823 F1 F832 112 g bh uy 8 b ule e 1 e 82 858 WA agg 0F 820 3824 D1 F833112 2 66008 1 3865 E 3825 D1 F834 112 a 1 1 cw 10 6800 F841 55 25 v 2810 3847 3 EE en VV agg N J 3826 D1 F835 2 8 5 lt pX5o L i _ 3867 TLMH3100 OPTION gr 555 Zi AAA 1836 802 3827 D1 F836 112 y 5u 92 2 5 zo 2807 OPTION a 3828D gy ES 2487 88 UARTO je PTO Sog 100n 53
79. 30202 Clearing the NVRAM failed Example DS gt 302 030200 Test OK Nucleus Name DS_NVRAM_Modify Nucleus Number 303 Description Modifies one or more locations in NVRAM and updates the checksum of the section modified Technical Initialise IIC Decode user input Modify the NVRAM as indicated Validate the NVRAM by calculating the checksum and storing it Less than 1 second Execution Time User Input 1 The location that must be modified i e ALL BOOT DIAGNOSTICS DOWNLOAD CONFIG RECORDER or no string if an offset from the base address of the NVRAM is required 2 The offset and data which to put on the selected location offset length data Error Number Description 30300 Modifying the NVRAM contents succeeded 30301 Unable to initialise NVM 30302 Modifying the NVRAM contents failed 30303 length out of range 30304 unable to decode length 30305 offset out of range 30306 unable to decode offset 30307 unknown location specified 30308 no location is specified 30309 number of values incorrect 30310 There was an IIC error htt p ww dwxzl w conf 21 ronuser Diagnostic Software DVDR615 69 LI Example DS 303 DIAGNOSTICS 5 1 0x5a 030300 Section is modified successfully Test OK Nucleus Name DS_NVRAM_Read Nucleus Number 304 Description Read ou
80. 34 2 7 SDRAM DATA 19 SDRAM_ADDR 34 5 277 SDRAM 3 16 SDRAM_ADDR 10 22 4 8 SDRAM DATA 20 SDRAM ADDR O 22 44 8 SDRAM 4e 15 E SDRAM ADDR 11 Em s 10 SDRAM 21 SDRAM ADDR M _ 35 14 s SDRAM 5 10 E J SDRAM_ADDR 12 36 12 GL 11 SDRAM DATAQ2 SDRAM ADDR Z 36 5 6 13 4900 PCI_AD 22 22 4 7 13 SDRAM_DATA 23 7 _13 SDRAM DATA 7 82 a 42 SDRAM DATA 24 Oy aL 42 SDRAM DATA 8 TUR SDRAM ADDR 14 20 344 SDRAM_DATA 25 SDRAM_ADDR 14 20 91 44 SDRAM DATAS 14 SDRAM ADDR 13 BA 10 45 SDRAM 26 SDRAM ADDR 13 10 45 SDRAM DATA 10 47 SDRAM DATA 27 as d 14 47 SDRAM DATA 11 26 48 SDRAM DATA 28 291 38 48 SDRAM DATA 12 28 1XIO SELO rr 50 SDRAM_DATA 29 s 12 50 _ DATA 13 zn 1903 5903 47 _ PCLCBE 2 A DATA 30 oPrioN 7 19 51 _ SDRAM DATA 14 A SDRAM DATA 31 SDRAM DATA 15 a 3V3dig 4 199 24 PCLCBE 55 g L 31 s 18 MNRAS 15 _ 53 05 1000 F901 lt YE cas 7504 eer 39 DOM 3 m H 39 Dami 7 M24C64 WMN6G 15 DQM 2 CAS 0 yess 15 DOM 0 WE WS 1905 EC a 3915 6 EEPROM 1 52 8 VN SCL fo 100R ADR 1 2 SDA1 3916 5 3 4902 e AA im lt gt SDA 2 lt PNX7100_RESETn 3917
81. 5 4408 48 53 SIDE 2667 2413 iad 2838 3222 322 3007 3225 5931 8l 2 49 32 mz 3 5 m TERES Em m 5 xm SEIS ES mo 3502 5 IL En m 322 3228 m 3223 3228 Aur AE 5 2 7000 T 2098 18 Em 17 m The LIA Em sz as E E 8 885 m 2 8 7171 3025 15029 m 5 Cia WA If 1774111 473 PAR 2 H M 72 ms eps E 20047b 001 20047 eps 7007 how 3618 3x 4615 3067 3048 3065 3049 6607 K 3070 pl 5 t 7050 8 n is El iat Fi IE a ERES m B 5 JT gg CS 2538 S 37 4 1 3004 7 38 4706 Hm esa a U ms NC SP EN c 5 221 3008 3009 3010 8181518 SE ur ur f PE z 22 1 jus ale 5 81 41 4 55 4702 g 4406 4400 gla 1 22 350 2 41 4403 3927 SIT x xn 4703 M To 1901 m azor 55 2 4704 BB Ls Ex 5 8 5 8 6100 A 3842 5 xm o LL 2121s s Sl 8 B xn zA ler E r 3880 3 8 B au AF1 355 S AF2 A2 soos 3005 8 39m 5858 C la m m B of B D 3908 vj B B IA js 4901 1 B B B 336 aT mn 3217 TO 3 8 323 27 B N E n m o mm 388 m B l SL m s BB m m BA BB 7800 A aci X
82. 5304 5305 5306 5307 5308 5400 5401 5402 5551 5600 5601 5700 5701 5702 6255 6300 6301 6302 6303 6304 6305 6306 6307 6308 6309 6310 6311 6315 6316 6318 6319 6321 7102 7104 7105 7301 7302 7303 7305 7308 7310 7311 7316 7318 7319 9001 9002 9003 9004 9005 9006 9007 9008 9009 9010 9011 9012 9013 9015 9016 9017 9018 9019 9020 9021 9022 9023 9024 9025 9026 9027 9028 9029 9030 9031 9032 9033 9034 9035 9036 9037 9038 9039 9040 9041 9042 9043 9044 9045 9046 9047 9048 9049 9050 9051 9052 9053 9054 9055 9056 9057 9058 9059 9060 9061 9062 9063 9064 9065 9066 9067 9068 9069 9070 9072 9074 9075 9076 9077 9078 9079 9080 9081 9082 9083 9084 9085 9086 9087 9088 9089 9090 9091 9092 9093 9094 9095 9096 9097 9098 9099 9100 9101 9102 9103 9104 9105 9106 9107 9108 9109 9110 9111 9112 9113 9114 9115 9116 9117 9118 9119 9120 9121 9122 9123 9124 9125 9126 9127 9128 9129 9130 9131 9132 9133 9134 9135 9136 9137 9138 9139 9140 9141 9142 9143 9144 9145 9146 9147 9148 9149 9150 9151 9152 9153 9154 9155 9156 9157 9158 9159 9160 9161 9162 9163 9164 9165 9166 9167 9168 9169 9170 9171 9172 9173 9174 9175 9176 9177 9178 9179 9180 9181 9182 9184 9185 9186 E6 A2 A2 C1 A2 A3 B2 A4 C8 B4 C4 D4 D4 D4 05 05 C5 C5 C4 E8 A4 A4 A3 C5 B4 E6 E7 E7
83. 8478 SDRAM DATAGT E 3804 1 C11 3876 4 B14 ue caso ias 9992 gm caso 3804 3011 3877 2 B14 our o A 9 GNp7 P14 cast 125 1823 3804 4 C10 V P15 2 23 3833 A A 22R QM Q 3877 3 B14 S817 47 4 5 NDS VDD PNX PAD NDS H24 385 2 228 5805 1839 VDD PNX PLL 3805 1D11 3877 4 A14 MP IDUMPO GND10 L GND30 dame RE ZR 3835 A AA 22R ww 4 3805 2C10 388014 3818 A IDUMP1 GND11 VDD PNX PLL VDD_PNX_CORE GND29 825 VVV 7 5 lis 3805 3 C11 3881 H10 AKT 9 VREF GND12 GND28 RASO 556 er 818 3805 4 10 3893 F2 AK GND13 GND27 RAS 1824 3838 WE 9 81 7 3806 1 C10 3894 F2 3820 4K7 iTu_ouT 4 A lt J24 4 1825 N 5807 1841 VDD PNX CORE 3806 2D10 3895 F2 m 2 ict EROR Wap o M Pina P 3806 3 C11 3896 H10 1 3821 A A AIKTTTU QUT S 3 K2 PRoGY OUT2 CKE Hoe aaa 338 HSCKB 1818188888818 3806 011 36974 ITU OUT 6 4 PROGY OUTS Wok at HSONB VVV eT 3T9TETS 212191875 3807 1 C10 3897 2 13 3822 A A4K7 ITU_ QUT S s eRoGv oura 288888 85 8588588 1826 S 8 3 8 8 8 SL 3807 2010 3897 3 C13 _ ig ROG ours 555555 990 99 5555555 BE BCLK AA23 3807 3010 3897 4 C14 L 12 PRooy ours 5 ga
84. D7 D8 08 08 08 07 D6 BS D6 C6 D7 C7 B5 A4 B3 C8 C7 C6 B4 B4 D7 C7 C7 C7 C7 C7 C6 B6 B6 C7 B7 B7 B7 B7 B7 7 B7 C7 C7 B6 B7 A8 AT A8 A4 A7 C5 D7 E8 A8 A8 B6 B6 B3 C2 E2 A6 A6 A6 B6 B5 E6 B6 9187 9188 9189 9190 9191 9192 9193 9194 9195 9196 9197 9198 9199 htt p ww j dwxzl w con f ronaser Circuit Diagrams and PWB Layouts LIEN Layout MOBO Main Part Bottom View 2 4 5 6 8 2002 A2 2557 A1 3188 B6 4002 2003 A2 2558 A1 3302 C6 4003 2004 A2 2601 E2 3303 C6 4004 2007 A3 2603 D2 3304 C6 4300 2008 A3 2606 E3 3305 C6 4302 2009 A3 2608 E2 3306 C6 4303 2010 A3 2609 E2 3307 D6 4304 T E lt 2011 2610 3308 06 5100 he E 2012 A2 2612 D2 3309 C7 5703 Wal D amp 7102 2014 2613 D2 3310 C7 5704 8 Lu nou mus Eum m m B El 2019 A3 2616 E2 3314 E7 6003 3553 C 2100 L Ara B 5099 2020 2617 2 3315 7 6100 SUB 2m 3098 2021 A3 2618 E2 3317 D7 6101 15 vh su 2 s w 2022 A3 2619 E2 3321 07 6102 Cede m zone 2023 2701 F3 3325 D7 6103 4888 3003 3008 41 TE Eli ee B Gs 2024 2703 Fi 3326 07 6104 ISH SI Ste
85. Dynamic Noise Reduction Dynamic RAM Direct Stream Digital Digital Signal Processing Digital Versatile Disc Electrical Erasable Programmable ROM Eight to Fourteen bit Modulation Full Diagnostic Software High Frequency Integrated Ic bus signals at 5V level Integrated Ic Sound bus signals at 3 3V level Integrated Circuit Intermediate Frequency Interrupt ReQuest LAser Driver IC Loss Less Decoder Linear Pulse Code Modulation Left Right CLocK Mini All Cd Engine Motion Pictures Experts Group Not Connected Non Volatile Memory IC containing DVD related data e g alignments Optimum Power Calibration Optical Pickup Unit Printed Circuit Board see PWB Position Control Sledge Phase Locked Loop Pulse Code Modulation Audio system clock for DAC Audio serial output data Power Supply Unit Printed Wiring Board see PCB Random Access Memory Red Green and Blue colour space Read Only Memory Radio Frequency Serial to Basic engine communication bus between host and servo processor Serial Clock I C Audio serial bit clock Serial Data Synchronous DRAM Surface Mounted Components Sony Philips Digital InterFace Signal Processing Ic for Dvd REwritable Static Random Access Memory STandBY Super Video CD SoftWare Total Harmonic Distortion Transistor Transistor Logic 5V logic Microprocessor Video CD Luminance Y and Chrominance C signal Component video htt p www dwxzl w c
86. Fb eFb s rhisrb erbda 162 PROFS TR 20005 001 070704 y b 5 U1 B3 U2 D4 U3 B7 F001 A4 F0010 A4 F002 A4 F003 A5 F004 A5 F005 A4 F006 A5 F007 A4 F008 A5 F009 A5 F010 A5 F011 A4 F012 A5 F013 A5 F014 A5 F015 A4 F016 A5 F017 A5 F018 A5 F019 A4 F020 B5 F021 B5 F022 A4 F023 B5 F024 A5 F025 A4 F026 A5 F027 A5 F028 A4 F029 A5 F030 A5 F031 A5 F032 A4 F033 B4 F034 A5 F035 A5 F036 A5 F037 A5 F038 A5 F039 B4 F040 B5 F041 B5 F042 B4 F043 A4 F044 B4 F045 A5 F046 A5 F047 A4 F800 D5 F801 C6 F802 C6 F804 E5 F805 E5 F806 E5 F807 E5 F808 E5 F809 E5 F810 E5 F811 E5 F812 E5 F813 E5 F814 E5 F815 5 F816 E5 F817 D5 F818 D5 F820 D5 F821 E5 F830 E5 F831 D5 F832 D5 F833 D5 F834 E5 F835 E5 F836 D5 F837 D5 F838 D5 F839 A5 F840 C7 F841 A5 F842 C7 F843 C7 F844 C7 F845 C7 F846 C7 F847 C7 F848 D7 F849 D7 F850 D5 F851 D5 F900 B7 F901 C5 F902 B7 F903 B7 F904 B6 F905 B7 F906 B6 F907 B6 F908 B6 F909 B6 F910 B7 F911 C7 F912 C7 F935 C7 F950 D7 F951 C7 F952 C7 F954 D6 F956 C5 F957 A7 F958 A6 F959 D6 F960 A7 F961 A7 F962 D7 F963 D6 F964 A6 F965 D7 F966 A6 F967 D7 F968 A6 F969 D7 F970 D7 F971 A6 F972 B7 F973 D7 F974 A6 F975 A6 F976 A7 001 A6 0010 A7 002 A6 003 B7 004 B6 005 A6 006 B6 007 B7 008 A6 009 B6 010 A6 011 A7 012 B7 013 A7 014 A7 015 A7 01
87. Ger Part 2 zc 8 Bau zs RII xx je alls 2d it c r4 Bis 5 200486_001 mos 2024 2595 2077 Bow apa a E 7025 lap 2070 2 2033 8 2057 295 2567 2979 3 me l mdi Ld 5011 Ble seat s s S 888 Iul 2 mom zl PBH 08 1 LE EHE HEB 7914 7917 EY LI ee c 8 57 l gt 2988 ms 7923 Eu ry ge dl Ts MET eue 3990 3822 2987 41817 d 21522 08 i s 24 S ms os FBG GND INP QUTP 781 5 WS 8 3972 WOO OU 2672 SERO zs fF IE E 79oo 4918 gm 1 Sl m dell P3 51812133 8 zm Mur BEREE 3 H 4 1 m E HEI E 3999 lt A SU 2 fld 36 33 3815 5 8 3903 3904 3 3 Wa e SS 3838 m TH Ve 58 291 Es H lt I E 5 E ES 5 Part 4 T TR 20048d 001 cm 2916 2915 gt 2905 lel 5 S 2912 ie 295 3857 5 2906 z 6 2904 2902 mi u 4 3104 12
88. Nucleus Number 602 Description Switch the clock output on Technical Initialise Set the clock output through IIC Execution Time Less than 1 second User Input None Error Number Description 60200 Switching the clock output on succeeded 60201 Switching the clock output on failed Example DS gt 602 060200 Test OK Nucleus Name DS VIP ClockOutputOff Nucleus Number 603 Description Switch the clock output off Technical Initialise Reset the clock output through IIC Execution Time Less than 1 second User Input None Error Number Description 60300 Switching the clock output off succeeded 60301 Switching the clock output off failed htt p ww dwxzl w com f ronuser Diagnostic Software DVDR615 69 ES LIE Example DS gt 603 060300 Test OK Nucleus Name DS VIP Selectlnput Nucleus Number 604 Description Select an input video path to be switched to the analogue output pin AOUT of the VIP Technical Check the user input Initialise Read out the VIP id Write the set of registers required for the input specified Execution Time Less than 1 second User Input The input to select see table below Error Number Description 60400 Selecting the input of the VIP succeeded 60
89. SNSTBY 3317 11 F305 A12 4 5 9V to IOV 10 3318 C2 F306 A12 3370 2 m 3319 C2 F307 7 A e OVE Ss 21 8 GND GND 8 12V 33209 F308 B5 10K s 58 3321 C10 F309 B1 2 8 2 5 e 8 LO i z 3322C5 2310 1 82 AV gt 5 332365 11 2 a 9 B3 2 H 1 0 3324C5 F312 v gt of 3325 11 F313 B7 Ro E 8 1327 3336 9 3337 na F346 3326C12 F314 B8 T AA 4 AAA SSVSTEY 3327 012 F315B9 2 2g c 1328 1329 327V to FV 5 8 328 825 525 3328 012 F316 B9 RELA 825 858 2 82 3329 12 F317 C8 z s e e e 859 Set 3330E4 F318 C8 5 gt gt d 6315 e 132 33 3V 3331E4 F319 C7 3346 1334 6317 2327 gt MWA 3332 E3 F320 C1 N E F349 3 10 F350 5308 6318 1N4935 1333 10K 10K o e 4412VE 1Mo BATS4GOL mo cold 3333F9 F321 C1 uj 92 IGNDHOT ES 14935 9 5 8 82 8 Ag 3334F10 2322 012 GND GND 9 3347 GNDHOT 8 ads 2 8 3335F3 2323 013 SvE 4 _ 45VE 8 GNDHOT 5VSTBY 8 4 8 amp 8 3336F12 F324 D12 2 BAB EH A ale 3337 F12 F325 013 m GND GND GND 3338G11 F326 D7 3339F7 F327 08 ols 5Vreg GND 3340G12 F328D13 Y gt 3341 612 F329 E1 3342 64 F330 E1 1338 3352 3343 64 F331 F351 F353 1310 F352 F354 3344 G5 F332 E1 3 gt VGNSTBY 334567 F333 E1 58 E
90. Technical Test whether anything can be read from the ADC DAC Execution Time Less than 1 second User Input None Error Number Description 190600 Communicating with the ADC DAC succeeded 190601 The IIC bus was not accessible 190602 There was a timeout reading the device 190603 The IIC acknowledge was not received 190604 An IIC bus error occurred 190605 Got unknown IIC bus error 190606 The IIC bus initialisation failed Example DS gt 1906 190600 Test OK Nucleus Name DS_AMIX_Mute Nucleus Number 1907 Description Set or unset the master mute of the ADC DAC chip UDA 1380 on the analogue board htt p ww j dwxzl w con f ronuser 1 0 Diagnostic Software Technical Send the master mute command Execution Time Less than 1 second User Input or OFF Error Number Description 190700 Muting the sound processor succeeded 190701 Muting sound processor failed Example DS gt 1907 190700 Test OK 9 FRONTEND TUNER FRE Nucleus Name DS FRE Communication Nucleus Number 2000 Description This nucleus checks the communication between the IIC controller of the Codec and the Front End Tuner on the analogue board Technical Determine whether anything be read from the FRE through IIC Execution Time Less than 1 second User Input None Er
91. Test OK Nucleus Name DS SYS EepromDownload Nucleus Number 1206 Description Download a file with the contents of the NVRAM for the analogue board or the digital board from the service PC to the recorder by using the X modem protocol Technical Decode the user input and determine what EEPROM to fill digital analogue Store the downloaded using XMODEM bytes in SDRAM first Then copy these contents into the EEPROM after verification Execution Time Depends on the chosen NVRAM and the User User Input Choose one of the following parameters for the nucleus 1 Download the contents of the NVRAM of the digital board 2 Download the contents of the NVRAM of the analogue board Choose in the terminal of the control PC gt transfer gt send file Select X modem protocol Then choose a file with the Browse button in the dialogue and click on send Error Number Description 120600 Download succeeded 120601 The write to NVRAM failed 120602 Timeout Too many retries 120603 A file was sent with a wrong header 120604 User cancelled the download 120605 User input is not valid 120606 Unknown Error Example DS gt 1206 1 120600 Test OK Nucleus Name DS SYS DvlidNumberSet Nucleus Number 1207 Description Set the IEEE 1394 unique ID Technical Decode the user input Store the id into NVRAM Validate the segment of storage by updating the che
92. Test OK Nucleus Name DS_SYS_VirginModeOff Nucleus Number 1221 Description Turn off the virgin mode functionality e g the auto channel search upon start up Technical Issue the command to reset the bit for the virgin mode to the analogue board Execution Time Less than 1 second User Input None Error Number Description 122100 Turning off the virgin mode succeeded 122101 Turning off VirginMode on the Analogue Board failed 122102 The returned error code from the analogue board is unknown 122103 No DS error code known for analogue board error 122104 There was no response from the analogue board 122105 Section validation or write failed in NVRAM 122106 Reading the CONFIG section from NVRAM failed 122107 Initialisation of IIC or reaching NVRAM failed Example DS gt 1221 122100 Test OK Nucleus Name DS SYS VirginModeGet Nucleus Number 1222 Description Get the virgin mode functionality status e g the auto channel search upon start up Technical Issue the command to reset the bit for the virgin mode to the analogue board Execution Time Less than 1 second User Input None Error Number Description 122200 Getting the virgin mode succeeded 122201 Reading the Virgin Mode flag from NVRAM failed 122202 Initialisation of or reaching the NVRAM failed 122203 Reading an unexpected version of the section in NVRAM Example DS gt 1222 122200 The Virgin Mode functionality is ON Test OK Nucleus Name DS SYS DisplayFatalOn Nucleus Number 1223
93. This device contains 25 active transistors Figure 1 Representative Block Diagrams Figure 9 11 IC7107 TMP87CM74AF MOBO Board Microprocessor Block Diagram Ports VDD Power Supply VSS VFT Power VKK Supply Data Memory Register banks Reset I O RESET Memory ROM spere Controller li Interrupt Controller tandby Controller SET Test Pin TEST 8 bit Serial Timer Counters Interfaces Resonator XIN 51007 bus Connectiong Clock Pins Generator peu VAREF P53 AIN13 2 P32 to VASS to to to to P20 P40 AINO P50 AIN10 P10 P30 y o Ports Ports Figure 9 12 htt p WAN duxzl w cona f ronuser Circuit IC descriptions and list of abbreviations Pin Function ee P07 to yo Two 8 bit programmable input output ports tri state P02 501 VO Output Each bit of these ports can be individually configured as an input or 1 511 Input an output under software control 00 5 VO 1 0 When used as a SIO input output an External interrupt input a P17 INTA TC3 timer counter input the latch must be setto 0 When used as a PPG VO Input output or divider output the latch must be set to 1 External interrupt input 3 or Timer Counter 1 input External interrupt input 4 or Timer Counter 3 input P15 INT3
94. e GND QNB 233011 7306011 1838 H5 2 8 p gt 12VSTBY 2331H4 7307 013 1339111 GNDHOT GNDHOT BANE e 15 F326 6309 F327 5305 500mA T to IOV CU 2332 H4 730803 1340 H6 x 2 d i 12V MRT 2334 6 7309 10 1341H8 z 9 A 233514 7310F13 1343 H3 o 88 1 233618 731102 1344 H5 SLE RS 233719 7312 12 1345 H10 5 rE 578 12VE 4 RS woe CE o nee 3300 7313 8 134618 33VSTBY Y 1 7822 828 amp 3301A6 7314 7 134716 ele u a 3302A11 7316 H5 134819 gl 21 3 RIS A GND GND AA e 3303 12 731810 134917 1932 STPENCSOFP 3304A13 731916 135219 F329 F330 3 8 gex STBY 3305 A13 7321B13 1353110 4 3 35 i e 828 from CU 3306 A13 7322 010 4303 5 1 4 3307 A11 7323 E10 PDTC124EU 29194 d 12 2 218 3308 12 7324 E11 __F882 GND F333 F334 gt 828 578 L I 3309 8 7325 E2 12 ase 8 8 i TRO 925 epz A 45 GND GND 3310A10 9194 E2 GND ase amp lt DD ON 3311B11 C300 B8 GND F337 F341 bi 11 F338 6311 F339 1308 F340 5307 from CU 3312 B9 F300 A11 e V T 9 L 1 PWP c 3313B10 F301 A12 F342 T 1000mA F343 7505 os GNDHOT GNDHOT SBYV27 200 3314B11 F302A11 L L 4802_ as 9 al yle sla GND GND 3315B12 F303 A12 BV 2 8 8 7835 331683 F304 A5 did EN id gt
95. 004 F008 F507 x x 1002 x X i003 1024 x 1008 F006 1006 1011 1010 x 1012 Xx 1013 x F016 x 14291430 x x 1401 x 1418 x DIEN gt 421 1418 x 9 x 1428 TAON gj t04 x 423 x x x 1407 x F 1410 408 F408 4 x x 457 x F443 F441 F439 142 14 1422 F403 x x F438 x 1426 1405 Us F434 1510 ry x F436 1502 x 505 x 1507 x 1516 1519 1618 162 P Me x Xsis x 619 1622 isis x 1614 X 600 Sz 1623 161 m 1609 x 1607 X 1624 1606 x x 1608 1625 x 00 x 1501 x F701 1704 1701 x x 1709 700 1700 1713 x F362 1019 F005 1313 F320 x F121 F120 4 1415 1220 F321 x 0221020 1018 1510 F309 F310 12 013 x X 10211025 F421 1314 x x 1015 1309 F312 F311 F116 x F508 1016 1026 1348 1352 F308 F349 1312 1324 1322 1324 1323 fi F112 1596 1353 1345 1509 Bs x F424 eis 1300 F304 1518 1319 2331 1338 1534 rus Fig x x 1594 1567 1544 1718716 1541 pr 4 1195 8 x5 X 1192 2 193 1190 x 1191 F133 x F423 x F430 x F427 F428 x x 5x x F302 8 ne x 1301 p amp lia 5500 7218 sx x x F419 x 327 F347 x 1333 x x 1332 335 Xs 1328 x x x F353 X F3
96. 10101 Invalid input was provided 10102 The Codec SYNC module cannot be initialised 10103 The Codec MIXER module cannot be initialised 10104 The Codec VPP module cannot be initialised 10105 The Codec DENC module cannot be initialised 10106 The digital board hardware information is corrupt Example DS gt 101 010100 Test OK DS 101 0 pal cvbs 010100 Test OK DS gt 101 4 ntsc yc 010100 Test OK Nucleus Name Nucleus Number DS CHR TestlmageOff 102 Description Switches the test image off Technical Stop the DENC module Execution Time Less than 1 second User Input None Error Number Description 10200 Stopping the test image generation succeeded 10201 The Codec DENC module failed Example DS gt 102 010200 Test OK Nucleus Name DS CHR SineOn Nucleus Number 103 Description Generate an audio sine signal on the audio output of the digital board Note Left channel 6kHz right channel 12 kHz sine Make sure to route the signal first htt p ww dwzl w con f ronuser 0 EE Diagnostic Software Technical De mute the analogue board Set fifo parameters for audio Set the volume Set the 125 outputs and configuration paths Set the decoder mode Configure the audio decoder Put the AC3 audio in
97. 1566 1567 1567 1568 1568 1569 1569 1570 1570 1571 1571 1572 1572 1574 1574 1575 1575 1576 1576 1577 1577 1578 1578 1579 1579 1581 1581 1582 1582 1583 1583 1584 1584 1585 1585 1586 1586 1587 1587 1588 1588 1589 1589 1590 1590 1591 1591 1592 1592 1594 1594 1595 1595 1596 1596 1597 1597 1598 1598 1599 1599 1600 1600 1603 1603 1605 1605 1606 1606 1607 1607 1608 1608 1609 1609 1610 1610 1611 1611 1613 1613 1614 1614 1616 1616 1618 1618 1619 1619 1621 1621 1622 1622 1623 1623 1624 1624 1625 1625 1700 1700 1701 1701 1702 1702 1703 1703 1704 1704 1705 1705 1706 1706 1707 1707 1708 1708 1709 1709 1710 1710 1711 1711 1712 1712 1713 1713 1715 1715 1716 1716 2 htt p WAN dwxzl w cor f ronaser Block Diagrams Waveforms Wiring Diagram 6 EN 82 Test points overview FEBE Board C2 la ae 15 96 167 6 Dm 166 PR ie be 1 n b o 1942 07 m x 17 x 077 X LI Je 6 o l3 DOG 96 5e NS XX 06 o6 6 ede D 6 x oo 192 0 06 160 41 9 1367 Ex RA 5 5 a 25 o z X 4 X 5 E M 5 Udo X X e s 0 ys x 1 X 0 E VM eel et Xe X x x x x i S Soe _
98. 1922 11 2954 F5 1923 B5 2955 F5 1924 B4 2956F10 192584 2959F10 1926 11 2962F10 192784 2963F11 1928 11 2965F11 1929 C4 2967 G4 1930 C11 2968 G7 1931 C11 2974G2 1932 C11 2975 G3 1933D11 2976 G5 1934 D2 2977 G5 1935 D3 2978H12 1936 E3 2979 H4 1937 F5 2980 H7 1938 F6 2981112 193919 2982113 194062 298312 1941 G3 298413 1942 65 298515 1943 G6 298615 1944 H12 298710 1945 H2 2988111 1946 H3 2989112 1947 H5 3921 A4 1948 H6 3922 A4 1949112 3923 C5 3924 3925 D9 3926 010 3927 E9 3930 E2 3931 3932 E3 3933 E9 3934 3935F10 3936 3937 F9 3940 F5 3941 F6 3942 F6 3943 F9 3944G10 3946 G8 3948 G9 3949 G9 3951G2 3952 G3 3953 G3 3954 G5 3956 G6 3958 G6 3959 H8 396112 396313 396413 396515 396616 396716 3968110 4920612 4921F12 5905 E2 5906 E9 5909 E9 5914F9 5915F5 5916F9 5917 F9 591819 5919G2 5920 G5 5921H12 5922 12 5923 H2 5924 5 5925110 5926112 7910E3 7913E8 7914 F7 7915F8 7916 G3 7917 G7 7918G10 7919 H9 7920 7921H7 792219 F900D11 F902 E11 V IN VIP 100n 1911 1912 RUN vie 2920 ANR cinvip 2929 1913 3921 AA AUB 194 180R 1 N VIP 2932 1916 100n 196 3922 5608 i Ava 1917 1901 BIN vo a FMN BMT 199 1921 IN YIN vie 2881 100n 922 18 1923 G IN VIP
99. 2425 F4 2442 110 to CU 47K 2426 F2 F443 110 g lt lt gle 2427 F9 444 11 8298 aye 558 28 225 F445 14 5 29 85 859 m E F417 2429 G9 F446 114 1 218 seg e 2430 G9 447 111 3 3 8 506 LF 2431 G10 1400 B8 GND GND 5 1 a 225 2432 G10 1401 C7 SET gt 5402 401 9 92 2433 G11 1402 D4 3 B t 2434 G10 1403 D7 i 9 100 z SNESD 2435 G10 1404 09 gis gls L BRD d ls SHOSND GND 2436 G11 1405 E4 872 RT 8 Y 2437 A7 1406 E7 243817 07 9 gt D 23947 1408 E3 7402 N L T 8 B 8 8 srvesia 950 e 5NESD lt 3400 A8 1409 E7 amp TS 9 sae 52 ND 3401 A11 1410 E9 goa 5 5 89898 3402 A11 1411 E9 A ape 8 2 8 8 3403 A12 1412 E13 GND GND 1403 5 VIDEO SWITCH 9 3404 B2 1413 E13 7401 1405 IRIPRICOUT TV MATRIX RIPRICIN ENC 3405 B6 1414 E9 1406 1407 2415 NJM2285M 29 laivour Tv 1 g 3407 ES 3417 2416 1408 1409 1410 Se 100 WSFI Tinie mia 16 27 _ pippour TV BIPBIN ENC 11 gs 8 3408 C2 1417 E13 to CU doi 2 15 5 m 4 M 8 lt 3409 12 1418 E7 ilz CTL1 GND1 hz FBOUT TV CVBSIN ENC 4 412 ane 1413 3420 WSRO E 3410 C1 1419 E9 5284 55 3 14 33 e M14 0 1 t Vi 3411 C11 1420 E5 gt 5 2 OUT IN2B wal YICVBSOUT TV CIN ENC n v Bossr w 100 4K7 3412 C11 1421 F9 amp I GND2 v 4 gt YIN ENC 150R 8 3413 C11 1422 F9 1 E
100. 3 e a a 84 8 b a 8 amp 5 17 AD Wow uPD4416016 DA N 18 As DA N B E 3 20 D J 919131 8151 V los m tf hoe 87815 21 9 AD 6 25 FLASH o 5 al al ea m m 3428 Bing sd 2 BAR SHIIS 5 oso 8 g m AD 22 25 DA 6 5582885 zi swim 8 ER 40 DAC lt g s 2 2 e e 858 y Ja 98 arp o a ice 22 2 2 2 2 222882228282 E 8 8 8 81 arla 3 maA AD 9 e eje I At ME DAs A pap p 2 2 2 146148 E x E fo am 4 SS a k E28 A14 ace 10 oy 8 Y 828 k Shop ui ttt k as or pa H o 32 DAUDA IBI 55 A16 AD 12 5 46 H AD 13 18 5 o __ 12 Bog V 3 16 DA 13 4 B 854 47 HS we pem zs p DA 14 LP g BSE T J 8 8 3 m DACs 58828 BE noj als ae 222220080 d gt 6558582 ARP 2551 TT 1 rise 7 of FREE zc 2552 Yapa Lej vss ul I t r EN z 5 e don AD 18 gt E gt alala SRAM 16MB 2 9 5 EEL 20 98 JTAG 29596 PREPARED FOR 16MBit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 18 21
101. 32 3422 2420 118 T 2421 2 a 3414 C12 M23 F5 GND GND OUT CTL2 Vv YICVBSIN TV 5 9 82 3415 C13 M24 F9 6 11 bd il tuo DEOV 828 1000 AR 3416 D12 1425 F13 OUT3 IN2A Na aLe 5NSTBY 3417 E2 M26 G7 1 amp TS 3418 E13 M27 G7 CTL3 GND3 TP YICVBSIN TUN 1421 8 9 a 2423 i YicvBsouT REC gt 21 REAR OUT 3419 E1 1428 G9 _ 1942 IN3A IN3B v gt CIN TUN GND 5V 28 S CON N 3420 E14 1429 G7 5 F418 2424 GND g 100n ane 2 GND x 3421 E12 1430 G7 YFN 15 gt 9 5 8 not used COUT AUX gt 3422 1431 H12 2 GND 14 10u 2425 Rex 28 25 M24 7403 16579 t3 529 YICVBSOUT AUX 3426 BC847BW 3423 E12 1432 H13 12 2 2 522 2 p 2426 10 2 di 3424 F13 CVBSFIN 11 gt 00 1 1508 3428 F422 3425 F5 o 10 e F423 10u 82 csw 2427 VVV 3426 F12 9 2 L gr 44 lo RIPRICIN AUX 17 68H 1 F425 3427 F5 8 2 44 5VSTBY 1 2428 58 1425 a 7 eivin aux 15 0 77 3428 F13 2 6 2 Fan jd DIGOUT BiPBIN AUX 15 2429 10 16V 8 8 3429 F12 lt Rc 5 24 e alL 3430 G13 F429 RM End F430 vs2 E 149 GND sA 34 E 3431 G10 LED TRAY 2 H me F431 18 19 M28 2430 3431 8 TM 8182 REC 27 6 YICVBSIN AUX A A GND GND GND 2 1
102. 3219 D4 SENE wi 3220 A3 O Wi que E SS DN A 2 12 4200 pg E d G G B SoS S O am K A Em H H KA H 1209 2 j 6203 3207 SN E 0 2 2 3 T T n _ B E 2 43 CN o 3208 e T ENS J J 0 52 2 T 9305 Iz 3214 m 3205 3 A N B ugs K K 9209 pS saj I ___ E 14 3544 1922 82 29 7200 gt 3715 14220 021 011004 E 14220 022 21351415 htt p ww j dwxzl w conf f ronaser Circuit Diagrams and PWB Layouts 101 Front Stand by STBY Layout Front Standby Part 1120 B2 1926 A1 F2601A1 F2603 A2 J 2 4A ES 1121 B2 3235 A2 F2602A1 1221 2 1120 2 1121 A2 aJ 1926 A5 A RSS A 1 1926 GND B3B PH K 1926 Tray Led F2601 B 1120 KEY1 8259 210 96955 01 F2602 from KEYBOARD 1221 3235 Cl Ol 3235 A2 EVQ11L05R POWER for DVDR615 only EVQ11L05R POWER gt c 14 S E gt lt JJ 4121314 011004 14220 024 011004 htt p ww j dwxzl w conA fronuser Circuit Diagrams and
103. 3941 758 3942 WIN 22 22p 22p 22p 22p 5V Buffer D KL F909 e 2959 2965 e F912 SPDIF COAX 45V Buffer Buffer 5Vdig We SPDIF IN 2962 2963 e 91 1 8 8 E 1 1 1 1 1 E ANALOG BOARD INTERFACE AUDIO IN OUT e DAOUT 2 5920 1943 nO a S Y 105 3946 1940 5919 oo 1u5 z o E 4920 4921 only needed for 3104 128 0929 0 3V 1 1 1 DAIO 758 3958 AAA ud os 3954 758 2976 270 2977 270p 3956 3V3dig 5921 MPIO7 MUTE LVn 3951 758 2974 270p 2975 3V3 125 5Vdig 1 5922 1944 5V Buffer 4u7 5923 1947 5924 1948 1u5 C OUT B OUT 196 2981 2982 100n 5 3 5918 1939 2987 45Vdig pe F 3961 3964 3965 758 1 2985 270p 2986 270p 3966 105 2 7922 1000 74HCT1G125GW z 2 gt 45Vdig 1 spor E 5925 3968 l y AN 5926 1949 5V Buffer 5V Buffer En 56R OO 5V_Buffer 1 4u7 75R 2983 270p 2984 270p 3963 IM 5 5 3 8 amp F903 E11 F904 E13 TR200
104. 4 E16 3589 1 C16 3589 2 E16 3589 3 E16 3589 4 E16 3591817 3592 B16 3593 17 3594817 3595 B16 3596 16 3597 E16 3598 B19 3599 B19 4502 B3 4503 F21 4504 G18 45191 4520 616 45253 5501 7 5502 9 5504 A16 6500 F19 6501 619 6502 619 6503 618 750084 7502 F17 7503 K2 7504 E18 7505 8 7506 F20 1500 G17 1501 A12 1502 814 1503 C3 1504 A7 1505 K2 1506 H2 1507 1508 D3 1509 A17 1510814 1511 F19 151283 1514 F2 1515 D4 1516 2 1517 FA 1518 62 1519 FA 152064 1521 64 152264 1523 620 1524 F21 1527 H3 153013 1531 H4 1532 3 15353 1536 K12 1537 2 1539 M12 1540 12 1541 F17 1542K12 1543 K12 1544K12 1545 E4 1546 M10 1547111 1548 F3 1549111 1550 4 1551 E4 1555 K2 1501813 1502814 150314 1504 11 FEBE FE Supply BE Interface node htt p WAN j dwxzl w com f ronuser Circuit Diagrams and PWB Layouts 7 9 10 12 13 CENTAURUS DRAM FLASHROM H AUDIOLAUDIOR RX1 MASTER DEBUG 11 TX1 TX2 HDASPN CSO CS11 HAO HA1 HA2 HPDIAGN HIRQ HDACKN IORDY HRDN HRWN HDRQ HRESET IEC958 AUDIO FRONT LAUDIO FRONT IDE_DMARQ IDE_DIOWn DE_DIORn DE_IORDY IDE_DMACKn DE_IRQ IDE_DA1 IDE_DA0 IDE_DA2 IDE_CS0n IDE_CS1n IDE_DASP RESET_IDEn DE_DIAGN
105. 8 8 58 5 3585 3562 1 4 1 4 X B mt inl es TR20048d 001 eps 15062004 3104 123 4397p4 L2 dd wk422 4 D 7 00000000000000000 8 1 8 2 8 2 1 8 2 2 8 2 3 8 2 4 htt p www dwxzl w conh f ronuser Alignments and Test Procedures EM Alignments and Test Procedures Reprogramming Procedure of NVM on the FEBE board The NVM item 7905 on the FEBE board contains the slash information of the set The slash version is stored at the end of the production line of the set In case of failure the NVM must be replaced by an empty device By way of commands via the Diagnostic Software or via ComPair the factory settings must be restored in the NVM Slash Version The slash version is stored with command 1217 followed by the slash version as parameter The slash versions used in DVDR615 are as follows DVDR615 69 13010 Example DD gt 1217 13010 Rework Procedure IEEE Unique Number Scope The procedure describes how to upgrade sets with a unique number after repair This unique number is stored in the NVRAM item 7001 of the FEBE board at the end of the production line This procedure is only valid or necessary when The FEBE board is replaced e NVRAM on the FEBE board is replaced e NVRAM is cleared In all other cases the repaired set retains its unique number The procedure defines several means to re assure the unique number d
106. AU FAISCEAU Figure 2 2 2 2 3 Notes surRounD Dolby Manufactered under licence from Dolby Laboratories Dolby Pro Logic and the double D symbol are trademarks of Dolby Laboratories Confidential Unpublished Works 1992 1997 Dolby Laboratories Inc All rights reserved LOGIC Figure 2 3 Trusurround TRUSURROUND SRS and symbol fig 2 4 are trademarks of SRS Labs Inc TRUSURROUND technology is manufactured under licence frm SRS labs Inc Figure 2 4 htt p ww dwxzl w conf f ronuser ENG EM Safety Information General Notes Video Plus Video Plus and PlusCode are registered trademarks of the Gemstar Development Corporation The Video Plus system is manufactored under licence from the Gemstar Development Corporation 4 Figure 2 5 Macrovision This product incorporates copyright protection technology that is protected by method claims of certain U S patents and other intellectual property rights owned by Macrovision Corporation and other rights owners Use of this copyright protection technology must be autorized by Macrovision Corporation and is intended for home and other limited viewing uses only unless otherwise authorized by Macrovision Corporation Reverse engineering or disassembly is prohibited htt p ww j dwx
107. B1 F446 B1 F446 B1 F447 D1 F447 D1 F500 D1 F500 D1 F501 D1 F501 D1 F505 A1 F505 A1 F506 A1 F506 A1 F507 A1 F507 A1 F508 A4 F508 A4 F509 A1 F509 A1 F510 A1 F510 A1 F511 A1 F511 A1 F512 A1 F512 A1 F700 F2 F700 F2 F701 F701 1001 1001 1002 1002 1003 1003 1004 1004 1005 1005 1006 1006 1007 1007 1008 1008 1009 1009 1010 1010 1011 1011 1012 1012 1013 1013 1014 1014 1015 1015 1016 1016 1017 1017 1018 1018 1019 1019 1020 1020 1021 1021 1022 1022 1023 1023 1024 1024 1025 1025 1026 1026 1050 1050 1051 1051 1052 1052 1053 1053 1054 1054 1055 1055 1056 1056 1057 1057 1058 F2 F2 A2 A2 A3 A3 A3 A3 A3 A3 A3 A3 A2 A2 A2 A2 A3 A3 A3 A3 A2 A2 A3 A3 A3 A3 A3 A3 A3 A3 B4 B4 A4 4 B4 B4 A3 A3 B4 B4 A4 4 B4 B4 2 2 A4 4 4 4 B8 B8 A7 A7 B8 B8 A8 A8 A7 A8 A8 A8 A8 A8 A8 A7 1058 1059 1059 1060 1060 1061 1061 1062 1062 1063 1063 1064 1064 1065 1065 1066 1066 1067 1067 1068 1068 1069 1069 1070 1070 1071 1071 1072 1072 1073 1073 1074 1074 1075 1075 1076 1076 1077 1077 1078 1078 1079 1079 1174 1174 1190 1190 1191 1191 1192 1192 1193 1193 1194 1194 1195 1195 1300 1300 1301 1301 1302 1302 1303 1303 1304 1304 1305 1305 1306 1306 1308 1308 1309 1309 1310 1310 1311 1311 1312 1312 1313 1313 1314 1314 1315 131
108. C12 to STBY BOARD JPJ1127 S CONN 1921 4 F2204 gt BZX384 C12 gt BZX384 C12 7200 TSOP4836ZC1 YFIN GND CFIN e 3 72203 e 2 F2202 YKF51 1923 F2301 e RECORD For DVDR740 only 6209 6210 1222 1223 6211 GND CVBSFIN KEY1 AFCLI 5VSTBY AFCRI 3209 LTL 1MHHR LTL 1MHHR 3228 4200 _ 330R For DVDR615 only LTL TMHHR 270R te 2322640 Tray_Led 1 1 F2303 2 3 With Dipmate 0003 F2304 GND 47K 15FMN BTRK A 1924 F1 2200 A8 2201 A8 2202 B3 2203 B9 2204 B3 2205 D2 2206 F8 2207 F4 2208 A7 2209 A8 3200 A8 3201 A3 3202 A3 3203 B9 3204 B2 3205 B8 3206 B3 3207 D2 3208 D3 3209 D6 3210 D7 3211 D8 3214 E2 3215 E4 3216 E9 3219 F3 3220 F3 3223 F6 3224 F6 3225 F7 3226 F8 3227 F5 3228 D4 4200 E4 6200 A2 6201 A2 6202 A2 6203 C2 6204 C3 6209 D4 6210 D4 6211 D5 7200 B9 F2001 B1 F2004 A2 F2005 A2 F2006 A2 F2101 C9 F2102 C9 F2105 C9 F2106 C9 F2107 C9 F2108 D9 F2109 D9 F2110 D9 1222 D4 1223 D4 1227 F5 1228 D2 1216 3224 gt 1217 3225 bd 1215 F2111 D9 F2112 D9 F F2113 D9 F2114 D9 F2115 D9 F2202 C1 F2203 C1 1924 1 GND2 STOP For DVDR615 only 1207
109. CALCULATION ERROR OPC START POWER HIGH ERROR OPC START POWER LOW ERROR OPC MEDIA PARAMETER ERROR byte9 RETURN VALUE INVALID ERROR BETA OVER UNDER FLOW ERROR BUFFER NOT ENOUGH CALIB POINTS ERROR OVERRUN ERROR NOT ENOUGH POWER ERROR ROPC ALPHA REF CURRENT ERROR ROPC ALPHA OVERFLOW ERROR These errors are kept in memory until a power down of the drive e g when recorder goes to standby or reset of the drive htt p WAN dwxzl w cona f ronuser Diagnostic Software E 5 4 22 Cumulative errors These errors are stored in EEPROM and are thus non volatile showing the complete error history of the drive Byte 1 9 cumulative errors of previous player inquiry error occurences These bytes are the same as the nine bytes 1 9 of the Momentary errors 5 4 3 Software fatal assert Gives row number and file name in the source code of the firmware of the data path of the AV3 htt p www duxzl w com f ronuser O EN Diagnostic Software htt p WAN 2 w conf f ronuser Block Diagrams Waveforms Wiring Diagram DVDR615 69 6 77 6 Block Diagrams Waveforms Wiring Diagram Overall Block Diagram of the Set
110. DQM 1 DQM 2 DQM 3 RAS 0 WE 0 CKE HSCKB 3V3dig 3V3di Y Y u 3V3dig VDD_NOR 8 5902 e Y pem 1901 t e 1902 2801 1 2902 100n 100n 2903 100 2904 100n z 7900 AM29DL640G 70EI jp 2808 1001 2906 wn 1 asl n n PCI AD 24 29 ROM 25 AD 1 2909 100 2910 100 1 PCLAD 25 Sl 8Mx8 A PCLAD am 2911 i 100n 2912 100n PCI_AD 26 33 4 16 23 PCI_AD 27 35 22 AD 4 T 2914 100n PCI_AD 28 38 vD 21 PCI AD PCI AD 29 40 20 P DE 7902 E Tai elm 7903 o o PCI AD 30 42 19 PCI AD 6 6 2 Z e 209 MT4BLCieMi6A2 N e of S PCI AD 31 44 18 8 SDRAM ADDR 0 2 VDD SDRAM ADDR 0 23 kani 3903 1 1 8 10K 30 7 SDRAM_ADDR 1 24 DRAM 40 SDRAM ADDR _ 24 DRAM 40 39022 2 V T 10K 32 6 SDRAM ADDR 2 25 NG SDRAM_ADDR 2 25 NC 3903 3 3 6 10K 34 5 SDRAM ADDR 3 2 5 SDRAM ADDRG 26 3903 4 4 AAA 5 10K 36 4 SDRAM ADDR 39 4M X16X4 SDRAM ADDR 4 29 4 4MX16X4 3904 2 2 7 10K 39 3 SDRAM ADDR 5 30 SDRAM ADDR 5 30 3904 3 3 A AA 6 10K 41 2 SDRAM_ADDR 6 31 eat o 2 SDRAM_DATA 16 SDRAM ADDR 31 o 2 SDRAM DATA 39044 4 AAA 5 10K 43 1 slau SDRAM ADDR 7 32 4 SDRAM DATA 17 SDRAM ADDR 32 dL 4 SDRAM DATA 1 PCL AD 0 45 48 9 SDRAM ADDR 8 7 2 5 SDRAM DATA 18 SDRAM ADDR 8 __33 3 5 SDRAM DATA 17 Y SDRAM ADDR 9
111. Example DS gt 111 011100 Test OK Nucleus Name DS CHR Peek Nucleus Number 112 Description Technical Peek a value on a specified address Check the user input Read out the address specified Check whether the address to be read is aligned on 4 bytes Less than 1 second Execution Time User Input The address to peek on Error Number Description 11200 Peeking on the specified address succeeded 11201 Peeking on the specified address failed wrong user input 11202 Peeking on the specified address failed due to misalignment Example DS gt 112 0xa0700000 011200 Value read 0x000001BD Test OK Nucleus Number 113 Description Poke a value on a specified address Technical Check the user input Change the value on the address specified Check whether the address to be modified is aligned on 4 bytes Less than 1 second Execution Time User Input The address to poke and the value address value Error Number Description 11300 Poking the specified address succeeded 11301 Poking the specified address failed wrong user input 11302 Poking the specified address failed due to misalignment Example DS gt 113 0xa0700000 Oxaabbccdd 011300 Test OK Nucleus Name Nucleus Number Description Technical DS CHR INT PlCInterrupts 114 Test all interrupts of the priority interrupt controller Install interrupt handlers Generate interrupt
112. H 2 5 5 2083 2014 64 is SIS S 5000 ON ES 2071 E 3076 r5 302515029 E 1 4 Er 3026 5451 08 mul 75 3066 3028 72 1002 307 o 3049 7001 are mu 0 MWE SS id ETE 5118 5 1 4 1 4 8 00 N w co 2812 amp 3820 co co 1 5 ral 57 oo ola s lt bs e TR20047a_001 eps 15062004 Circuit Diagrams and PWB Layouts DVDR615 69 EN 119 Layout FEBE Top View Part 2 e TR20047b 001 eps 15062004 Circuit Diagrams and PWB Layouts DVDR615 69 EN 120 Layout FEBE Top View Part 3 Ke am GAZ lt 7 Ai PP 0707070 J 0 etre P 1 RUE O 1 s 45554 12 5 2 D es NARA RSRAARC LJ 2 2 4 TR20047c 001 eps 30062004 htt p ww j dwxzl w con f ronaser Circuit Diagrams and PWB Layouts EN 121 Layout FEBE Top View Part 4 im Ax zB RI 4502 e o levi 5 e leat IN in kol aN Ames 4 ag IND i h Sl 3581 e LE Ne Ni
113. IEEE1394 F 480 SHR MISCELLANEOUS VAU8041 MODULE EXPLODED VIEW Various 5 12 90 94 100 101 105 120 121 125 147 150 179 179 190 193 3139 194 01581 3104 148 01950 3104 144 10730 3139 190 40231 3139 197 50301 3139 197 60291 3139 198 80010 3139 198 00620 3104 144 04980 3104 144 10121 3104 144 04272 3139 197 60301 3104 128 09271 3104 128 09281 3139 194 01541 3139 194 01551 3139 194 01561 SEALING STRIP SLEDGE MOTOR SUSPENSION T6 PAN HEAD 2 8 5 SEMS FW AV3 5 MECHANISM ASSY DVD M AV3 5 LOADER ASSY SEALING STRIP TRAY MOTOR MOTOR PULLEY TRAY TRAY MOTOR BELT TRAY TOP PLATE ASSY FEBE PCBA 4MB 32MB NO DV IN DVDR610 FEBE PCBA 4MB 32MB W DV IN DVDR615 616 HEAT SINK PAD CENTAURUS HEAT SINK PAD CHEETAH HEAT SINK PAD DRIVER FRONT BOARD KEY STBY OPCL SWITCH TACT PUSH SWITCH TACT PUSH SWITCH TACT PUSH SWITCH TACT PUSH SWITCH TACT PUSH SWITCH TACT PUSH SWITCH TACT PUSH SOC CINCH V 3P FJPJ1127 B CON MDIN H 4P F YKF51 B CON V 15P F 1 00 FFC 0 3 B 4822 117 12063 DC 5W 10K 5 amp 5WSW Various 1120 4822 276 13732 1122 4822 276 13732 1202 4822 276 13732 1203 4822 276 13732 1205 4822 276 13732 1209 4822 276 13732 1210 4822 276 13732 1920 2422 026 05301 1921 2422 026 05307 1922 2422 025 17797 X 3211 6200 9340 548 61115 6201 9340 548 61115 6202 9340 548 61115 6203 9340 548 61115 6204 9340 548 61115 6211 9322 190 44676 B EA
114. Input None Error Number Description 92000 The command executed successfully 92001 There was a time out while communicating 92002 The Basic Engine returned an unexpected result 92003 The Basic Engine returned an error code 92004 No acknowledge received from BE 92005 Unable to send tray in 92006 Unable to read the disc 92007 No disc is loaded 92008 Unknown disc is loaded 92009 Unable to enter service mode 92010 This nucleus is not supported by the engine htt p ww j dwxzl w con f ronuser 1 0 El Diagnostic Software Example AV2 DS gt 920 092000 Tilt sensor bathtub 71 12 145 68 12 135 62 10 120 56 92 97 50 75 86 44 59 80 41 52 80 35 37 86 29 22 86 23 7 92 17 8 111 11 23 135 8 31 138 5 39 158 Test OK Example AV3 DS gt 920 092010 Tilt function is not supported by the engine Error Nucleus Name DS BE CheckDisc Nucleus Number 921 Description Check whether there is a disc inside the BE Technical Send the TRAY command Send the READ TOC command Display the Disc type info If Disc type is a DVD R W then read ADIP info Display manufacturer and media type Execution Time Approximately 10 seconds User Input None Error Number Description 92100 There was a disc inside the set 92101 Unable to load the tray 92102 Error received fr
115. Input None Error Number Description 121900 Virginization succeeded 121901 Virginization on the Analogue Board failed 121902 The returned error code from the analogue board is unknown 121903 No DS error code known for analogue board error 121904 There was no response from the analogue board Example DS gt 1219 121900 Test OK Nucleus Name DS SYS VirginModeOn Nucleus Number 1220 Description Turn on the virgin mode functionality e g the auto channel search upon start up Technical Issue the command to set the bit for the virgin mode to the analogue board Execution Time Less than 1 second User Input None Error Number Description 122000 Turning on the virgin mode succeeded 122001 Turning on VirginMode on the Analogue Board failed 122002 The returned error code from the analogue board is unknown 122003 No DS error code known for analogue board error htt p ww dwzl w con f ronuser 0 BEA El Diagnostic Software 122004 There was no response from the analogue board 122005 Section validation or write failed in NVRAM 122006 Reading the CONFIG section from NVRAM failed 122007 Initialisation of IIC or reaching NVRAM failed Example DS gt 1220 122000
116. Link physical layer circuit IC PDI1394P25 I Link link layer circuit IC PDI1394P40 Audio clock Clock scheme 1 Bit engine connector not available IDE connector 1 available IDE connector 2 available PCI connector not available RAM size 64MByte ROM size NOR FLASH bank 1 8MByte ROM size NOR FLASH bank 2 8MByte ROM size NAND FLASH Not available Bit Engine AV 3 1 122800 Test OK 9 Nucleus Name DS SYS SettingsGet Nucleus Number 1229 Description Get the digital board diversity settings string that is programmed in the BROM on the digital board Technical Set up IIC bus Read Digital Board Settings from boot EEPROM Read System Settings from boot EEPROM Display the settings Execution Time 1 second User Input None Error Number Description 122900 The settings were successfully displayed 122901 access failed 122902 The settings are invalid Example DS 1229 122900 607920626 61726400020300010101020101000020080000 Test OK Nucleus Name DS SYS AudioLoopThroughStart Nucleus Number 1230 Description Description The audio input is routed from the input to all outputs The input is set routing the signal with the proper nucleus All outputs are enabled Technical Encode the audio to AC3 in memory Decode the AC3 in memory to audio on the outputs Execution Time 1second buffer time and 30 seconds playing
117. MOBO Board 12 Bus Repeater ASP Analog Slave Processor TMP87CH74F Serial IR Blaster TMP86CK74A 5VSTBY o 5V VFT 5 Display 5 Frontend Tuner MN S CSW 6 ami MSW 5 Sound 1 2 Audio Switches iL Processor gt 40528 ul MSP34x5 m LLI LL Video Matrix VS1 VS2 Video Switches STBY STV6618 NJM2285M IMUTE DD_ON D KILL N IPFAIL gt 1 KILL Power 12 ADC DAC we n Supply E 14220 002 28092004 htt p WAN j dwxzl w conf f ronuser Block Diagrams Waveforms Wiring Diagram 6 Wiring Diagram FAN 1005 GND A BCLK A WCLK GND A DAT GND A PCMCLK GND D BCLK GND D WCLK D DATAO GND D PCMCLK DAINOPT DAINCOAX DAOUT GND 1900 1942 YFIN GND a D 8010 GND 4 CVBSIN KEY1 AINFL 4 5VSTBY 7 8 KEY2 RC 4 TEMP 3 LED_EPG 2 LED_TRAY MOBO AP 1932 1001 aie GND 5VE 5V GND GND 12V GND 3V3SW 3V3SW 3V3SW FEBE MODULE 1004 REC LED TRAY E GND 3O 2 GND LED_EPG KEY1 2O OJkevi 8011 TEMP TRAY
118. NETT A EVQ11L05R PLAY 1208 EVQ11L05R NEXT STOP For DVDR615 only For DVDR740 only PREV EVQ11L05R EVQ11L05R EVQ11L05R to OPCL BOARD EVQ11L05R PLAY With Dipmate 0004 GND OPTION 14220 020 011004 2204 1 2301 1 2303 1 htt p ww j dwxzl w con f ronaser Circuit Diagrams and PWB Layouts 100 Layout Front Keyboard part 121414121 B E 2200 F1 2202 G2 1205 G3 A 1207 ce A rem 2204 FA 1208 C4 E 5220 2205 12 q i 1209 H4 2206 L2 1210 C3 2507 L4 1920 4 S st a 1921 J4 s lt a es 3225 gn 3200 2 lt EH 5 1923 E P mcr C 8 o Q 2201 L4 3202 F2 2203 E 8208 E B 3204 G2 2 3211 L1 ae E D E L 3207 H2 Ric 2 T 6210 F3 2i E We 7 a mE D v e 7200 L2 216202 L 9200 F4 3210 K5 C 9201 G2 C 3214 9203 F4 _ 8215 14 3216 L5 Q c ow cen a E B SI m
119. NTE are NTS 5275 NTE RTS RTE NTE BTS 3040 B8 3041 B7 3042 B7 TR20043 001 eps 3043 B8 14062004 3044 E5 OPTIONAL FOR 3104 128 0927 3045 D12 1 2 3 4 5 6 7 8 9 10 11 12 13 14 htt p ww j dwxzl w con f ronaser Circuit Diagrams and PWB Layouts EM 114 FEBE BE Video In Processing VIP 1 2 3 4 5 6 7 8 9 10 11 12 13 14 ir ia 2045 B8 1024 H7 2046 B8 1025 H7 2051 B8 1026 H7 2055 B9 1027 H7 2062 B9 1028 H8 2063 C4 1029 H3 2064 C5 1030 D4 2065 C6 2066 C8 2067 C8 2068 C8 2069 C9 2070 E9 2071 E10 2073 C9 2074 05 2075 08 2076 08 2077 09 2081 09 2082 03 2083 06 2084 06 2085 05 2086 4 2087 4 2088 F4 2089 F3 2090 F4 2091 F4 2092 F3 2093 F4 2094 G3 2095 15 2096 15 2097 12 2098 2099 D6 3062 4 3063 D3 3064 04 3065 D9 3066 04 3067 09 3068 D3 3069 10 3070 10 3071 6 3072 H8 3073 H8 3074 H8 3075 H5 3076 15 3077 H7 3083 H5 3084 1 F10 3084 2 F10 3084 3 F10 3084 4 F10 3085 1 F10 3085 2 F10 3085 3 F10 3085 4 F10 4005 D3 4006 D5 4007 H4 4008 H4 4010 H3 4011 D7 5011 B6 5012 B9 5013 B4 5014 B5 5015 C6 5016 C9 5017 C5 5018 D9 5019 D6 5020 C9 5021 D6 5022 D10 5023 C6 6001 C3 7005 C4 7006 C3 7007 E4 7008 H3 1000 B6 1001 B9 1002 B6 1003 B3 1004 B4 1005 C6 1006 C9 1007 C3 1008 C5 1009 C9 1010 D6 1011 E9 1012 E9 1013 G9 1014 G9 1015 G9 1016 G4 1017 G9 101
120. No acknowledge received from BE 91205 Unable to send tray in 91206 Unable to read the disc 91207 No disc is loaded 91208 Unknown disc is loaded 91209 Unable to enter service mode Example AV2 DS gt 912 091200 Jitter bathtub 42 135 40 127 38 106 36 106 34 101 32 97 30 92 28 92 26 92 24 92 22 86 20 80 18 86 16 86 14 80 12 80 10 80 8 80 6 80 4 86 2 86 0 86 2 86 4 92 6 92 8 101 10 106 12 111 14 120 16 123 18 127 20 142 Test OK Example AV3 DS gt 912 091200 Average Jitter Bler C1 Bler C2 92 4 254 Test OK 9 Nucleus Name DS BE FocusOn Nucleus Number 913 Description Put the laser of the BE into focus Technical Check if an AV2 or AV3 is connected In case of an AV2 Send the FOCUS command with parameter 0x01 In case of an AV3 Send the transparent BIT engine FOCUS command Execution Time 3 seconds User Input None Error Number Description 91300 Focus on succeeded 91301 There was a time out while communicating 91302 The Basic Engine returned an unexpected result 91303 The BE returned an error code 91304 No acknowledge received from BE 91305 Communicating with the Basic Engine failed 91306 Unable to enter service mode Example DS gt 913 091300 Test OK Nucleus Name DS BE FocusOff Nucleus Number 914 Description Turn off putting the laser of the BE into foc
121. Nucleus Name DS_ASP_BlinkDisplay Nucleus Number 1609 Description This nucleus lights the entire display and lets it blink Technical Set all segments on in the blink buffer Set the grids correct in the blink buffer Send the blink buffer to the ASP Execution Time Less than 1 second User Input None or on to start the blinking of the display off To stop the blinking of the display Error Number Description 160900 The test succeeded 160901 IIC bus communication failed 160902 The user provided wrong input Example DS gt 1609 160900 Test OK 9 DS 1609 off 160900 Test OK Nucleus Name DS ASP DimmingDisplay Nucleus Number 1610 Description This nucleus lights the entire display and dims it Technical Change in a loop the display brightness from maximum to minimum Execution Time Less than 1 second User Input ON or OFF Error Number Description 161000 The test succeeded 161001 communication failed 161002 The user provided wrong input Example DS 1610 ON 161000 Test OK Nucleus Name DS ASP ClearDisplay Nucleus Number 1611 Description This nucleus clears the display and deactivates dimming blinking functionality Technical Make the display buffer empty Make the blink buffer empty Send the display buffer to the ASP Send the blink buffer to the ASP Executi
122. Oscillator Pin Low Frequency Oscillator Pin Low Frequency Oscillator Pin Luminance Front In FEBE Board Backend part ADC DAC DENC DV EF OSD VIP 2Fh 2V5 3V3 3V3_A 3V3_D 3V3_DLY 3V3_LINK 3V3_F 3V3_RAM 3V3_uP 3V3_32kHz 3V3_AC 5V 5V_PLL A 1 17 Analog to Digital Converter Digital to Analog Converter Digital Video Encoder Video DAC Digital Video Camcorder Emitter Follower On Screen Display Video Input Processor Video ADC Progressive scan video 2V5 Power supply for Link Codec 7431 3V3 Power supply 3V3 Analog power supply for PHY 1C7400 3V3 Digital power supply for PHY 1C7400 3V3 Power supply for 7500 3V3 Power supply for Link Codec 107431 3V3 Power supply for optional Flash memory 7432 3V3 Power supply for SDRAM 107430 3V3 Power supply for Micro controller 7802 3V3 Power supply for audio format adaptation circuitry 7507 and 1 7508 3V3 Power supply for audio system clock generator 7605 and 7606 5V Power supply 5V Power supply for VCO of audio PLL 7604 Flash address lines of uPD72893 htt p ww dwxzl w conf 21 ronuser MUTE ABCK AD 1 10 AEMP1 AFS1 ALRCLK AMCLK44 AMCLK48 APWM ASIC BUFENn_AUD BUFENn_VID CLK27M_CON cs CTL 0 1 CTSN D 0 15 DCDi DV_STATUS HS_CLK INT IOR ISPN LKON MA 0 10 MCAS MCLK MD 0 15 MRAS MWE
123. PCM1 PCM1_NEW PD 0 15 PHY_D 0 7 RESETn RESET_FM RESTB RTSN RWZ RXD SCLK TXD VPP YUV 0 7 Audio Mute Audio Bit Clock Address bus lines for Host I F of Link Codec IC7431 PCM1 emphasis ON OFF for PCM1 output Audio sampling frequency indication signal Audio Word Select 11 2896MHz 256 44 1 kHz audio master clock signal for 44 1 kHz audio 12 288MHz 256 48 kHz audio master clock signal for 32 kHz and 48 kHz audio PWM signal for audio PLL Application Specific Integrated Circuit Buffer Enable Audio Buffer Enable Video 27MHz Clock to Digital Board Parallel interface chip select input of Link Codec IC7431 Link interface control lines Clear to Send Flash data lines of Link Codec 7431 Directional Correlational Deinterlacing Circuitry that reduces jaggies on diagonal edges when deinterlacing video sourced material Interrupt pin for reading DV status Video clock input of Link Codec 7431 Interrupt request output of Link Codec 7431 input to Micro Controller Parallel interface IO read control input of Link Codec 7431 In System Programming signal used for programming IC7802 Link on signal outputLPSLink power status request input SDRAM address lines of Link Codec 7431 SDRAM column address strobe signal SDRAM clock signal SDRAM data lines of Link Codec 7431 SDRAM row address strobe signal SDRAM write enable signal Audio Serial Data Outpu
124. PWB Layouts EN 102 Front Open Close OPCL Layout Front Open Close part 1122 A2 1990 A1 3251 A1 1222 2 l 7 u 1122 1990 5 MOBO 77030 23 210 96983 0 HN GND B2B PH K to KEYBOARD EVQ11L05R OPEN CLOSE NO CN ae 3251 E 14220 025 3251 011004 A A E 14220 026 011004 htt p ww j dwxzl w con f ronuser Circuit Diagrams and PWB Layouts EN 103 Front 5 Way Switch BWSW Layout Front 5 Way Switch part E 4 1617 A1 2630 2 3620 2 3622A2 3624B2 1632 A1 1620 A3 2631B1 3621 A2 3623A2 1621 A1 1633 A1 1617 A1 1620 A3 2004 boards 8259 210 99045 01 1620 CHUP JXS0000 _ RIGHT 5 4 b EPG LEFT c ce o gt 140 ONLY E 14220 027 011004 2 io 4 E 14220 028 011004 htt p ww j dwxzl w con f ronaser Circuit Diagrams and PWB Layouts 104 FEBE FE OPU Interface 1 2 3 4 5 6 7 8 9 10 11 12 13 2101 2 QD DRIVERS CENTAURUS DRAM FLASHROM DEBUG AND FLASH 2103 2104 H1 2105 H2 2106 D7 2107 C5 2108 E5 2109 C5 2110 B5 3100 E3 3101 E2 3102 E4 T 3103 F3 RW Del NRW Del
125. Press TUNER on the remote control then press A V to select the programme number To play a DVD R on other DVD players you must finalise it first Press EDIT on the remote control Press A V to select Finalise in the menu then press OK Once a DVDHR is finalised no further recording or editing is possible Unfinalising a DVD R is not possible Detailed playback features and additional functions are described in the accompanying user manual htt p ww dwxzl w com f ronaser Mechanical Instructions 4 4 Mechanical Instructions 41 Dismantling and Assembly of the Set 4 1 2 Basic Engine VAU8041 For item numbers please see the exploded views in chapter 10 Remove the Front Panel Assembly as given in 4 1 1 Remove the 6 screws 260 269 to free the Basic Engine Remove the dust cover assembly 147 and 148 Loosen 2 screws to remove bracket 256 Loosen 4 screws to remove the Basic Engine metal casing Place the Basic Engine in the service position 411 Front Panel Assembly After removing the top cover remove tray front 1344 138 see picture 4 1 Remove the three screws 188 Release the two snap hooks on the sides and remove the front assembly Remove the 4 screws 186 to remove the front plate 184 See picture 4 2 Figure 4 1 Figure 4 2 Figure 4 4
126. SESE ET EEE ET gpg FRPR So 8 g 222 9 Sides Wa lt 8 86888 68868 86 s au fee UU ee cus um oe Im 8288829895 Hm 239872 7 9 150R 2503 1513 20 3500 7 ds Xppis 017 MANN ANA cw XDD 14 a 2 a 5 b 35842 XDD 0 5 XDD 13 1508 A DRAM i ag o RENS m xona WU 1 16 4 ases a 80 27 XDD 2 335863 6 Ton 150 8 455 XDD 3560 1507 xppyi 6 XODI AS 3 15 ei E 4421508 V XDD 10 150 1 AA oP 2550 17 X20004 2 29892 S E VV 10 a xppo 16 2 4 13583 1 g 150 xpp s XDD8 A H 509 iu 508 xb M 3388 6 XDD 6 1 0 2561 1615 xpo 916 __ XDD 2 H L weno 9 V EFM DATAN T o ooo 17 0009 z fjes 43524 51909 T xpps 7 19961 a 150R 4 AA kw _ XDD 4 A 19 0 TSOR A a 295852 71508 xpD 10 4 F xona 7 XDD 9A T dcus 35953 1597 11 ical NO PE mn 182548 NEEM CLKN iio omo AY 488854 5 1909 XDD 12 NEFM CLKP xo p PANN 135824 150R XDD 13 A xppo te P VA 5 150R Mu 335923 777 XDD 14 J
127. Se y uedo nof peuedo jouueo pue SI Jopeo eseo ul SEL VEL 1004 jo pue jo jenueyy Woy 271 A quiesse 18400 1snp 952 19xoe4q 140ddns lt A qwesse y junouep 292 SM 10S _ lt Ajquiesse 0 2 SM 19S lt 692 pue 092 9 eyejdxoeq lt 9 suonoeuuoo y e BY JUOJ4 quiesse 40014 OY 7001 3NION3 DISV8 1001 19 00 Ove 8 Occ lt 4 Dismantling Instructions 961 13409 4 300504 TR 06003_003 ey e qeo indui 2411 lt 9 1 lt 1014 PRL ay 0 98 919 lt pue uo sdeus g Aq owed y xoojun pzz Asse 981 lt BEL PEL 1004
128. The 1394 link chip could not be initialised properly 70602 No stream detected Example DS 706 070600 Test OK Progressive Scan PSCAN Nucleus Name DS PSCAN DencDevTypeGet Nucleus Number 800 Description Retrieve the device type information from the progressive scan DENC IC Technical Execution Time Less than 1 second User Input None Error Number Description 80000 Retrieving the device type information succeeded 80001 The bus was not accessible 80002 There was a timeout reading the device 80003 The IIC acknowledge was not received 80004 Communicating with the progressive scan DENC IC failed 80005 The initialisation of the IIC bus failed Example DS gt 800 080000 Device Type xxxx t b d Test OK htt p ww dawzl w con f ronuser 0 BE Diagnostic Software Nucleus Name DS_PSCAN_CommunicationDenc Nucleus Number 801 Description Check the communication between the IIC controller of the chrysalis and the progressive scan DENC IC Technical Initialise Write data to a register of the DENC through IIC Execution Time Less than 1 second User Input None Error Number Description 80100 Communicating with the progressive scan DENC IC succeed ed 80101 The IIC bus was not accessible 80102 There was a timeout reading the de
129. The digital board hardware information is corrupt Example DS gt 1215 cvbs ntsc 121500 Test OK DS gt 1215 cvbs pal 121508 The VideolnputProcessor cannot detect a sync signal Error DS gt 1215 yuv ntsc 121511 Error in luminance signal Y Error in chrominance signal U Error in chrominance signal V Error Nucleus Name DS SYS AudioLoop Nucleus Number 1216 Description The user first needs to select how the audio path must be routed on the analogue board and or digital board before calling this nucleus The user also has to route the audio outputs back to the inputs by means of cables In this nucleus the Codec generates an audio sine signal with a specific signature and sends it to the output of the digital board The Codec encodes the audio signal to MPEG I layer II and after this the signature of the signal will be checked Technical The user needs to route the signal to the audio inputs so the test can encode the audio to MPEG layer An audio signal is generated resulting a sine of 6kHz on the left and 12kHz on the right channel Then the signal is decoded in memory When both signals are detected correctly in the MPEG the test succeeded Execution Time Approximately 9 seconds User Input None Error Number Description 121600 Testing the components on the audio signal path succeede
130. The set automatically detects between the two inputs depending on the presence of a video signal where Y C has higher priority The signals D C and D Y are fed through 7402 amplification and via 7400 and 7403 as driver to the S Video output connector The D CVBS signal is fed directly to the modulator of the Tuner Frontend and 7402 6dB amplification and via 7404 as driver to the CVBS output connector The Y UN signals from the FEBE board are also passing 7402 for 6dB amplification and driving purposes The detection of the picture ratio information on the Y C inputs Rear or Front is done by measuring the DC level on the Chroma signal via an analog input of the slave uP WSRI and WSFl line In case the level is higher than 3 5V the input signal is a 16 9 source if the level is lower than 2 4V the picture ratio is 4 3 For generation of the appropriate DC voltage on the Y C output the WSRO line is controlled via pin 18 of 7402 by the slave uP pin 18 set to low means 4 3 pin 18 set to high determines 16 9 During Standby there is no loop through of any input to any output performed VAU8041 FEBE AV3 5 Module General The Video Recorder Drive VAU8041 module known as FEBE 1 0 with AV3 5 drive is actually the Video Recorder Drive VAD8041 module with and extended board The new FEBE board contains both the frontend Servo and backend Digital portion Being physically on the same board the IDE connector is
131. There was an IIC error upon the stop condition 190006 The IIC bus was chosen wrong 190007 The IIC functionality is not running htt p ww dwzl w con f ronuser 0 ECJ Diagnostic Software 190008 An unknown error was returned Example DS gt 1900 190000 Test OK 9 Nucleus Name DS AMIX Routing Nucleus Number 1901 Description This nucleus performs the routing of the audio signals in the set It sets the audio path according to the user input Technical Determine whether the set is of type NAFTA APAC or EUROPE Parse the user input to determine the routing According to parameters set the sound processor and multiplexers Execution Time Less than 1 second User Input The user inputs the path ID of his her choice as specified in tables below for Europe NAFTA Error Number Description 190100 Routing the audio path succeeded 190101 Routing the audio path failed 190102 There was an error resetting the sound processor 190103 The user provided wrong input 190104 There was no response from the ASP Example DS 1901 00 190100 Test OK 9 Table 5 5 Available AUDIO path Ids for EUROPE routing EURO Path ID Description DbOut Digital Board Output DbIn Digital Board Input 00 DbOut to All Outs 01 DbOut to RearOut for CVBS YC and RearOut for YUV Frontin to Dbin 02 D
132. bus initialisation failed 160102 The IIC bus failed 160103 The CRC checksum of the message is wrong Example DS gt 1601 160100 Software version 0 9 Display driver version 0 1 Hardware version 0x02 Hardware layout 0x03 Hardware revision 0x00 Test OK 9 Nucleus Name DS ASP RealTimeClockSetValues Nucleus Number 1602 Description This nucleus is used to set the real time clock to the correct values Technical Decode the user input Write RTC value to ASP Execution Time Less than 1 second User Input User must give time and date like this hh mm ss dd mm yy Error Number Description 160200 Setting the real time clock succeeded 160201 The ASP initialisation failed 160202 The IIC bus failed 160203 Wrong user input Example DS gt 1602 03 20 01 22 06 03 160200 Test OK Nucleus Name DS_ASP_RealTimeClockGetValues Nucleus Number 1603 Description This nucleus is used to retrieve the actual real time from the ASP Technical Read RTC value from ASP Decode the RTC value Execution Time Less than 1 second User Input None Error Number Description 160300 Retrieving the real time succeeded 160301 The ASP initialisation failed 160302 The IIC bus failed 160303 The CRC checksum of the message is wrong 160304 The Real Time Clock has been found invalid and thus set to default val
133. error No adip sync was detected htt p WAN duxzl w cona f ronuser Diagnostic Software E error error meaning code 0x39 power calculation er Error during OPC power calcula ror tion samples are wrong Ox3A test zone full error OPC can t be performed because test zone is full Ox3B opc bad jitter measurem The jitter measurement during ent error OPC samples readback failed Ox3C opc read samples error An error occurred during OPC readback sampling Ox3D alpha overflow error The determined value for the op timum power is too high ropc alpha ref current er The alpha measurement refer ror ence current is wrong IAN Ox3F alpha gain error The alpha measurement alpha gain is wrong Ox40 over under flow err During the walking OPC a beta or over under flow was detected 0x41 enough calib points Not enough valid calibration error points available for re calibration 0x42 enough power error The calculated power during re calibration exceeds max power Ox43 reading speed err The selected speed is not al or lowed for the requested com mand Ox44 fatal error The actuator dissipation became too high during a servo recovery This error is overwritten by the next player inquiry command
134. followed by the bytes to write lt gt Where the bus id is either O normally used or 1 Error Number Description 120900 Writing the data over IIC succeeded 120901 The bus was not accessible 120902 There was a timeout writing to the device 120903 The acknowledge was not received 120904 The communication with the device failed 120905 Got unknown IIC bus error 120906 Unable to initialise IIC bus 120907 Decoding bus ID unsigned value failed 120908 Decoding slaveAddr unsigned value failed 120909 Decoding nrBytes unsigned value failed 120910 Bus ID out of range 120911 nrBytes out of range 120912 Unable to decode parameters Example DS gt 1209 0 0 1 0x6 120900 1 Bytes written Test OK 9 Nucleus Name DS SYS licRead Nucleus Number 1210 Description Perform an IIC read action on the digital board Technical Determine the bus ID slave address and number of bytes to read from the user input Initialise Read the data form the slave specified Execution Time Less than 1 second htt p ww duxzl w com f ronuser Diagnostic Software EN User Input The user inputs the bus number the address to read them from and the number of bytes to read lt BusID gt lt Slave address to read from Number of bytes to read Where the bus id is either 0 normally used or 1 Error Number Description 121000 Reading the dat
135. of an AV3 Transfer the test data to the disc location using PIO mode ATAPI READ 10 Compare the two data areas and check whether the areas are equal Execution Time Approximately 20 seconds User Input None htt p ww dwxzl w conf 21 ronuser Diagnostic Software DVDR615 69 ES LEE Error Number Description 90600 The command executed successfully 90601 This nucleus cannot be executed because the Self Test failed 90602 The BE cannot enter normal operating mode 90603 Unable to send the tray in 90604 Unable to read TOC from disc 90605 Invalid disc is loaded please insert a DVD RW disc 90606 Writing the test pattern to DVD RW failed 90607 Reading back the test pattern from DVD RW failed 90608 Compare check failed 90609 Calibrating DVD RW failed Example DS gt 906 090600 Testing on sector Ox5dbe0 OK Test OK Nucleus Name DS BE WriteReadDvdR Nucleus Number 907 Description Write data to and read data from a DVD R disc through the basic engine for verification of the writing Technical Check if an AV2 or AV3 is connected Execute DS BE GetSelftestResults Send the TRAY command Send the READ TOC command Use the OPC area to test if the DVD R is still writable Generate test data to write to the DVD R In case of an AV2 Transfer the test data to the disc location using DMA
136. on the connector to ground i e activate test pin Code number of PC interface cable 3122 785 90017 Activation of Diagnostic Software 1 Pull the mains cord from the recorder and reconnect it again reboot 2 The next welcome message will appear on the PC Welcome screen D amp S program gD amp S HyperTerminal b View Call Transfer Dia 215 ala Factory Diagnostics and Service Software DVD Video Recorder Version 6 Jan 9 2003 11 11 15 0 gt Connected 0 01 10 detect 19200 8 N 1 NUM Figure 5 5 Now the prompt DS gt will appear The diagnostic software is now ready to receive commands The commands that can be given are the numbers of the nuclei If you see above shown screen continue with paragraph Nuclei Codes htt p ww 2 w ronuser Diagnostic Software 3 Itis possible that the next messages will appear when starting the DVD RW for the first time Error messages D amp S program g D amp S HyperTerminal 52 19 View Cal Transfer D 518 MIS DIV URRNING Digital Board Hardware Information is corrupt Factory Diagnostics and Service Software DVD Video Recorder Version 6 Jan 9 2003 11 11 15 J PARNING Digi tal Board Hardware Information is corrupt gt Connected 0 01 10 detect 1920081 SC
137. stored match the newly calculated Execution Time 6 seconds User Input None Error Number Description 50300 The checksum is valid the test succeeded 50301 The checksum is invalid Example DS gt 503 050300 BootCode checksum is which is correct Diagnostics checksum is OXBABEBAFF which is correct Download checksum is OXBABEEDBF which is correct Application checksum is OxBABE8EEC which is correct Test OK Nucleus Name DS FLASH CalculateChecksum Nucleus Number 504 Description Calculate the checksum over all memory addresses Used to check entire FLASH contents Technical Run the checksum calculation algorithm all flash memory addresses Execution Time 6 seconds User Input None Error Number Description 50400 Calculating the checksum over all addresses succeeded Example DS gt 504 050400 The Checksum 4 Test OK Nucleus Name DS FLASH CalculateChecksumFast Nucleus Number 505 Description Calculate a checksum over a selected number of address locations Technical Run the checksum calculation algorithm on a selected number of flash memory addresses Execution Time 6 seconds User Input None Error Number Description 50500 Calculating the checksum over selected addresses succeed htt p ww dawzl w con f ronus
138. the analogue board 130004 No DS error code known for analogue board error Example DS gt 1300 130000 Version 6 1 9 Test OK ANALOGUE SLAVE PROCESSOR ASP Nucleus Name DS_ASP_Communication Nucleus Number 1600 Description This nucleus checks the communication between the IIC controller of the Codec and the ASP Technical Initialise IIC bus Read something from ASP Handle the errorcode Execution Time Less than 1 second User Input None Error Number Description 160000 Communicating with the ASP succeeded 160001 The IIC bus was not accessible 160002 There was a timeout reading the device 160003 The IIC acknowledge was not received 160004 An IIC bus error occurred 160005 Got unknown IIC bus error htt p WAN dwxzl w cona f ronuser Diagnostic Software 5 LI 160006 The bus initialisation failed Example DS gt 1600 160000 Test OK Nucleus Name DS_ASP_Version Nucleus Number 1601 Description This nucleus returns the version number of the software running on the ASP and if available that of the display driver Technical Read versions from ASP and display it Execution Time Less than 1 second User Input None Error Number Description 160100 Retrieving the software versions succeeded 160101 The IIC
139. the digital board 1 to 9 LECO Premier specific see table below User input Video input Data path to VIP 1 RGB SCART aux RGB in 2 YC SCART aux Y C in 3 CVBS SCART aux CVBS 4 CVBS Tuner 5 YC Front Y C 6 CVBS Front CVBS 7 CVBS SCART TV CVBS 8 YC CE mode Y C in 9 CVBS CE mode CVBS in 10 XPORT XPORT Video standard PAL NTSC When no input is given the nucleus will take TEST for video input and PAL for video standard Error Number Description 121500 Videoloop test succeeded 121501 Wrong user input 121502 The Codec SYNC module cannot be initialised 121503 The Codec MIXER module cannot be initialised 121504 The Codec VideoPostProcessor module cannot be initialised 121505 The Codec DENC module cannot be initialised 121506 The VideolnputProcessor cannot be initialised 121507 The VideolnputProcessor cannot detect a sync signal 121508 The Codec VideoFrontEnd module cannot be initialised 121509 The Codec VideoFrontEnd module cannot capture a video field 121510 When selected the RGB video input Error in colour red signal and or Error in colour green signal and or Error in colour blue signal When selected one of the other video inputs Error in luminance signal Y and or Error in chrominance signal U and or Error in chrominance signal V htt p ww j dwxzl w con f ronuser 1 0 EEJ EE Diagnostic Software 121511
140. the fifo Send prepare command to the audio decoder Send play command to the audio decoder Execution Time Less than 1 second User Input None Error Number Description 10300 The sine signal was successfully generated 10301 The analogue board could not be de muted 10302 The audio decoder did not initialise 10303 The dsp2 of the audio decoder did not configure 10304 The dsp1 of the audio decoder did not configure 10305 There was a delay error before starting 10306 Wrong input was given to the decoder function 10307 Wrong input was given to the decoder function 9 9 9 10308 The audio decoder did not get into the prepared state Example DS gt 103 010300 Test OK Nucleus Name DS CHR SineOff Nucleus Number 104 Description Stop generating the audio sine signal Technical Reset the audio block of the Codec Execution Time Less than 1 second User Input None Error Number Description 10400 Switching off the audio sine signal succeeded 10401 Failed to reset the audio decoder Example DS gt 104 010400 Test OK Nucleus Name DS_CHR_SineBurst Nucleus Number 105 Description Generate an audio sine signal on the audio output of the digital board for 4 seconds Note Left channel 6 2 right channel 12 kHz sine with some known hick ups Technical Call the DS CHR SineOn nucleus Delay for 4 seconds Call the DS CH
141. vor isi 2 SERVO COMM J Top Contact _ i ourres 46 A ah gt 1440 3496 RA 4422 sud x Lose gt IS LEVEL e 1487 mou tet ourrcs 45 2406 75478 HET SHIFT n Y WcOIL GN Tn SERVO COMM vor 14 VoDseNi d GNDACT 44 108 SIVE AN noue 3400 2 1 i 5 woc e F moe weve 88 o lue ME MS 27 3 540 __ 1s onos T ourm 1426 3497 2436 en voz n ig 7 FT le mo Yon Jela 18 92 2 z pe 84 is 3 8 S4ogcoeRco Poolen gt 48 1 LB 89 1 acy Gb LE Ir WW TS vopsewz 4o ate 5498 2408 5 lt 5 5165 gt gt vozs 12 328 eR M 1 n 1 a A P 109 7_ sreve_ STBY D 2 171 E CH2 L H 19_ GNDDIG cumsipi Bex 35V i VMOTO10 z 20 wseN ADC n OUTSLD1 528 r 8 1 e amp 8 MOTO Divas 21 ovrsipr OUTSLDI 5 1469 1493 1492 zo vopaNA 8 ss SA IDE gts s zl CEPS v NEIN ACT X z 2414 o OUTSLD2 34 OUTSLD2 1v me 1 Y C 1432 lez CHARGE LEG OUTSLD2 OUTSLD2 Heec E jen s f MUTE 2 1498 tv MOTOR ON us aum mum om STEP COS DRIVER ON r
142. whether the filename is correct before setting it Update the diversity settings to use the newly entered filename Execution Time Dependent on the user confirmation User Input The filename to be set No input No new filename will be set Error Number Description 123400 Setting the new filename succeeded 123401 Unsupported setting of the current HW diversity settings htt p WAN duxzl w cona f ronuser Diagnostic Software EN 123402 Setting the filename was aborted by the user Example DS gt 1234 Enter the new Download Table Filename Currently equals DVDR2001 001 Enter a filename gt The Download Table Filename will be set to DVDR2001 001 Is that correct Y N 123402 Setting the filename was aborted by the user Error DS gt 1234 Enter the new Download Table Filename Currently equals DVDR2001 001 Enter a filename gt DVDR2002 001 The Download Table Filename will be set to DVDR2002 001 Is that correct Y N Y 123400 Test OK Nucleus Name DS SYS licWriteRead Nucleus Number 1235 Description Perform an IIC write read action on the digital board Technical Determine bus ID slave address number of bytes to be written and the byte array of data from the user input Initialise Write the data to the IIC slave Read the data from the IIC slave Exec
143. 0 BAS316 PDZ6 8B SM BZX384 C5V6 1N4935 BZX79 B33 BAT54 1N4935 BAV21 SM PDZ27B BZX79 B8V2 BAS316 SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B SM PDZ12B HHH EL EE EL EL EL EL EE EE EL EL EL EE EE ET FT htt p ww dwxzl w conf 21 ronuser Spare Parts List 10 EXC 6501 9340 548 61115 6502 9340 548 61115 6503 9340 548 61115 6600 4822 130 11397 7001 9352 668 47118 7002 4822 130 60854 7003 4822 209 32071 7004 4822 130 60854 7006 9352 670 99118 7007 4822 130 61553 7100 9322 196 98685 7101 4822 130 61553 7102 4822 130 40981 7103 3198 010 42310 7104 4822 130 41246 7105 4822 130 41246 7106 3198 010 42310 7107 3139 240 50921 7109 3198 010 42310 7110 4822 130 61553 7111 3198 010 42310 7112 9965 000 04199 7113 3198 010 42320 7114 9965 000 04199 7115 3198 010 42310 7117 3198 010 42320 7118 3198 010 42320 7119 3198 010 42310 7300 9322 183 38668 7301 4822 209 14933 7302 4822 130 11336 7303 4822 209 14933 7304 9322 183 38668 7305 4822 209 14933 7306 9322 163 75685 7307 4822 130 61553 7308 4822 130 11417 7309 9322 180 12685 7310 4822 130 41782 7311 9352 673 56112 7312 3198 010 42320 7313 3198 010 42310 7314 3198 010 42310 7316 9965 000 09548 7318 4822 130 40959 7319 4822 209 14933 7321 9322 163 75685 7322 9322 163 75685 7323 3198 010 42310 7324 4822 130 61553 7325 9322 1
144. 0 INT INT ION IPFAIL IPOR IRESET K1 K2 KILL P50 IN P50 OUT POR_DC PSS Permanent Supply 5V Pin8 Scart2 only for Europe Data from Analog to Digital Board UART Communication Analog board ready status information to digital board Parallel Address Bus CC Flash ROM and S RAM Parallel Address Bus CC Flash ROM and S RAM Parallel Address Bus CC Flash ROM and S RAM Automatic Frequency Control Audio Frontend Left Audio Frontend Right Automatic Gain Control for Europe Wide Screen Rear In for NTSC Audio In Front Left Audio In Front Right Audio Kill Signal Audio Left to ADC Audio Left from DAC Address Latch Enable Adress mode 0 Adress mode 1 Audio Right to ADC Audio Right from DAC Audio Scart 1 Mute System Clock Output for Real time Clock Adjustment Power Supply for A D converter GND Pin for A D converter Chroma Front In Chip Select 0 CC S RAM Chip Select 2 CC Flash ROM Video Front In Data from Digital to Analog Board UART Communication Digital board ready status information from digital board Mute Signal for DAC Digital Audio Out Audio from Digital Video In Left Audio from Digital Video In Right Power Supply Pin Power Supply Pin Power Supply Pin GND Pin GND Pin GND Pin Fan for Basic engine Fast Blanking input FOllow ME Status line matching signals yes no only for Europe DISPLAY GRID Interrupt OUT for the CC Interrupt line from Dis
145. 0 B17 4402 J3 4403 C17 4404 E18 4406 D17 4407 D18 4408 L9 4410 C17 4411 C18 4413 C18 441619 441719 4419 H12 4420 H8 4421 H8 4422 12 4423 HB 4427 G12 5400 14 5405 E12 5406 L9 6400 L9 6401 L9 6402 L9 6403 L9 6426 J18 6427 J18 6428 L19 6429 L4 7401 1 B13 7401 2 K19 7402 G5 7403 1 H10 7403 2 E14 7405 1 C14 7405 2 D14 7409 G14 1400 A5 1401 A5 1402 B5 1403 A12 1404 B14 1405 B13 1406 C9 1407 C8 1408 B5 1409 141018 1411 K5 1413 F15 1414 F16 1416 K3 1417 68 1418 H5 1419 H5 1420 H2 4215 1422 1423 H2 M24 G5 1425 H2 1426 18 1427 H2 1428 H2 1429 H2 1430 1431 H2 1432 1433 12 1434 1435 12 1436 12 1437 12 M38 14 1439 48 1440 18 1441 B14 1442 B15 1443 B17 1444 C15 1446 D17 1447 D15 1448 H8 1449 H8 1450 H8 1451 C15 1452 E12 1455 G13 1456 18 1457 G12 1458 E14 1459 G13 1460 F15 1461 E15 1463 K8 1464 H16 1465 H12 1467 H13 1468 F14 1469 48 1470 113 1471 38 1472 69 1473 H8 1474 H9 1475 J13 1476 E17 1477 F15 1478 F15 1480 F15 M81 F15 1482 48 1484 J3 M85113 1486 G10 1487 H11 1488 H10 1491 12 1492 J20 1496 J18 1497 K8 1498 K8 htt p ww j dwxzl w conf f ronuser DVDR615 69 Circuit Diagrams and PWB Layouts BEN 108 FEBE FE Centaurus 1 5 Processor
146. 0 E2 3031 F3 3032 F5 3033 C3 3034 B8 3035 B9 3036 E8 3037 E9 3038 F4 3039 F4 3040 C1 6001 B1 6002 C3 6003 B1 7001 A6 7002 C4 7003 A E8 7003 B F9 7003 C C9 7003 D C8 7004 A2 7006 D4 7007 C3 F002 B1 F003 C1 F004 C1 F005 C9 F006 C2 F007 C1 2008 F009 D2 F010 D2 F011 02 2012 02 F013 02 F014 D2 F015 D1 F016 E9 1001 A5 1002 A4 1003 A4 1004 A6 1005 A7 1006 A4 1007 B4 1008 B6 1009 B6 1010 C5 1011 C5 1012 C6 1013 D6 1014 D7 1015 D5 1016 D2 1017 E1 1018 E2 1019 E7 1020 E3 1021 E6 1022 E2 1023 E1 1024 E5 1025 E5 1026 E3 htt p ww j dwxzl w con f ronuser Circuit Diagrams and PWB Layouts LIN MOBO Board Digital In Out DIGIO1 5 3 4 5 6 7 8 9 rage 1955 D9 2551 A4 2552 A4 2553 D7 1525 DAOUT 2554 D2 TY 2555 D5 2556 D7 2557 5 4 2558 8 Tek Prev mnmnnnnm Ta ni r p 3551 A4 3552 A4 Y 3553 4 3554 B3 ids il 3555 B4 m 3556 C2 74HCU04D I I 3557 D1 1535 3558 D2 1 13 3559 7 3560 5 3561 E1 3562 E3 3563 E7 DAINCOAX lt J 3564 E8 to DAC ADC 10K 3565 F6 5551 D6 for DVDR740 ONLY 6255 F9 7551 1 D3 7551 2 E4 7551 3 D4 7551 4 F4 7551 5 E4 7551 6 B3 F505 C8 F506 C8 F507 C8 F508 C8 F509 D8 F510 D8 F511 F8 F512 F8 1525 D1 1526 D2 1527 D3 1528 D4 7551 1 5 1 7551 3 5 1529 D5 V1 3 aa 14 go 4HCUO4D W 14 DIGITAL 1530 D7 DAOUT I 2 5 1531 from DAC ADC 7 1530 3559 1532 5 YK
147. 06 Communicating with the Basic Engine failed Example DS gt 904 090400 Test OK Nucleus Name DS BE Nucleus Number 905 Description Close the tray of the basic engine Technical Check if an AV2 or AV3 is connected Send the S2B TRAY command In case of an AV3 send an ATAPI START STOP UNIT command Execution Time Approximately 1 2 seconds User Input None Error Number Description 90500 The command executed successfully 90501 There was a time out while communicating 90502 The Basic Engine returned an unexpected result 90503 The BE returned an error code 90504 No acknowledge received from BE 90505 Unable to enter normal mode 90506 Communicating with the Basic Engine failed Example DS gt 905 090500 Test OK Nucleus Name DS BE WriteReadDvdRw Nucleus Number 906 Description Write data to and read data from a DVD RW disc through the basic engine for verification of the writing Technical Check if an AV2 or AV3 is connected Execute DS BE GetSelftestResults Send the TRAY command Send the READ TOC command Generate a random disc location Generate test data to write to the DVD RW In case of an AV2 Transfer the test data to the disc location using DMA In case of an AV3 Transfer the test data to the disc location using PIO mode ATAPI WRITE 10 In case of an AV2 Read back the data from disc using DMA In case
148. 07 3608 3609 3610 3611 3612 3613 3614 3615 3617 3618 3619 3620 3621 3622 3623 3624 3625 3626 3627 3628 3629 3630 3631 3635 3639 3643 3650 3651 3652 3653 3684 3689 3690 3702 3703 3704 3705 3706 3707 3708 3709 3710 3711 3712 3800 3801 3802 3803 3804 3805 3806 3807 3808 3809 3810 3811 3812 3814 3816 3817 3820 3821 3824 3825 3828 3829 3841 3842 3843 3853 3854 3855 3856 3859 3860 3861 3862 3863 3864 3865 3867 3868 3873 3876 3877 3880 3881 3893 3894 3895 3908 3911 3914 3915 3916 3917 3918 3919 3920 3925 3926 3927 3974 3989 3992 3994 3995 3996 3997 4006 4008 4011 4100 4106 4107 4108 4109 4110 4111 4112 4400 4403 4404 4406 4407 4408 4410 4411 4422 4502 4503 4504 4519 4520 4525 4604 4605 4615 4701 4702 4703 4704 4705 4706 4707 4807 4901 4902 4917 5000 5002 5011 5012 5014 5015 5016 5017 5018 5019 5020 5021 5022 5023 5101 5103 5300 5301 5400 5501 5502 5504 5602 5603 5607 5615 5802 5806 5807 5900 5901 5903 5904 5928 5929 5931 6100 6426 6427 6428 6429 6500 6501 6502 6503 6603 6604 6605 6607 6800 7000 7001 7007 7101 7102 7103 7104 7105 7202 7203 7502 7506 7800 7805 7904 7905 7924 htt p ww j dwxzl w conA fronuser Circuit Diagrams and PWB Layouts 118 Layout FEBE Top View Part 1 5012 LA m 7000 2062 m wo 2098 5018 i
149. 1 4 DEBUG 0 1701 3 735 lt 37032 1 13 1 4703 18 S24 DEBUG 1 1702 1 gt 14 4 4702 4 5 FICA DEBUG 2 ue T w perm 15 DEBUG 3 9 Ll Elz 56 16 1 4705 1 8 4 1705 ARE Por le 37051 d 17 4 4706 4 5 MON2 4 DEBUG 6 var _ ES 18 3 4704 3 6 PPNO 4 DEBUG 7 ue 15 metr 19 DEBUG 8 A 1 4 ES 20 4 4704 4 5 A DEBUG 5 19 11 ui 21 1 4704 1 8 22 23 4 47054 5 y RXLMASTERA gt e ele eee 1705 24 24704 27 192 25 26 2 4705 2 7 IRQN 4 27 1 4706 1 8 PORN 4 28 3470536 1723 MRNA Solder Pads 29 2 4706 2 7 14 2220 30 4707 scl A TRAYSW 31 3 4706 3 6 SDA l 32 l TRY 33 DEBUG 4 Thi 34 DEBUG 0 35 DEBUG 1 36 DEBUG 2 37 DEBUG 3 38 39 1700 pEBUG 5 SERVO COMM 40 ES DEBUG 6 12 DRIVER ON DEBUG 7 41 7 D3V3 is 42 5 r d a 20 43 Us DEBUG 10 DEBUG 10 VAS L703 22 DEBUG 8 DEBUG 8 10K 3703 44 8 8 45 DL DEBUG 12 DEBUG 12 A 10K v 46 717 DEBUG 13 A DEBUG 13 10K 3705 OPTION ANA 47 10K 48 148 DEBUG A DEBUG 9 3706 ipium Connect ion Sol itted GND plane 49 We DEBUG 11 DEBUG 11 10K AUT 0001 0002 2700 210 10K 10n 10n 50 J OPTION ed 2702 2703 n 10n 10n 2704 E 10n 10n 2706 2707 n I 7 B 10n ton 12 13 14 000117 000218 1700 B1 1702 F
150. 104 lt me excita 5401 cs dc Yl C 3327 9191 9190 SS 914 R ENB Bovey pio pss a ma a say p aumuaaguc ENE B 9113 4 E s FUSTBEF DE RECHANCHE 8 NDS 2 E 22005 0 soy DU MEME s8 0 7301 2 S EH 5 31102 25 25 aya D 0 uU 912 80 8 ooo0a0 7 TE 0 n ans a Sn 2 ooo B BB 0 2065 D D 2504 0 9 1 9125 B n 9012 ana Gato A ticae 28 52 T500mA na eueneu 0 5 o o o D H D 1 9106 on in B al 9 19 c Sg S EE 1911 9105 2 o S 9 2 Serer edt Bie Pies 9013 AN A 108 D SFA 7305 S z 9112 050 l S n ess5ic 5 5 pi QNS CAUTLON RTSK OF FYIRES CREPLACE FUSES AS 20 125mA t aft 2902 00 2604 AES MARKED 1 3301 BN S 2611 2 2301 LI VEPAR 2 9097 A gt 3324 LS 2507 lt 2 532 4H 5 3323 o 2328 J 6305 2607 Te 9098 dE He sags 2 e G4 3322 50 5600 B Su Oh 0 of n 9092 afd g cT 3603 CJUO C 8 s Tho 2514 23 5 M 8 dam us 4 3600 3601 3 418 25 boned i 50099 5601 9051 S 8 9184 9056 n 9085 S m E C G u jan Ooo
151. 114 1 AA 8 47R 3800 3 B11 anos AV AKT uo S DRAMDATATT E 5 S ANN 38113 3 6 47R D SEM 810 mE n 3825 AKT ITU OUT V2 ry our a GND1 GND38 SDRAM DATA18 A i 3826 A AKT OUTG GND2 VDD PNX PAD GND37 SDRAM DATA19 v23 3809 2 2 AAT 1 3801 3 C10 3874 2 14 3827 AKT ITU OUTG V4 iTU OUT3 GND3 wan PI GND36 SDRAM DATA20 2558054 4 VA 3801 4 B11 3874 3 A14 PE 3628 OUT Ut ry GND4 PNX GND35 SDRAM DATA21 25 NAV 38083 3 Vm 3802 1 C11 3874 4 A14 S820 AA Ae TOUTS 2 rru ouTS GND5 Sn SORAM DATA22 A A 5 47R ANN 3802 2B10 3875 1 A14 3830 AAA AKT ITU 007 6 U3 irU OUT6 GNDG VDD PNX PAD VDD PNX PAD GNOsS SOR AM DATAS w26 ANN 22 7 AIR I 3831 ITU OUT 7 U4 SDRAM DATA2A 38082 2 A 3802 3B10 3875 2 B14 MWA ITU OUT7 SDRAM DATA25 243809 3 3 3802 4 10 3875 3 14 VIDEO ou 1 4 M23 SDRAM DATA26 V28 TET MM 5 AAACS ETR 3803 1 B10 3875 4 B14 AVODI vooe2 ne T VDD_PNX_CORE pag 6 SDRAM DATAZT 38112 2 7 478 3803 2 11 3876 1 A14 PAD 5 Avon VDD PNX CORE oos EREA U243810 2 2 A A 7 478 NV DRAM DATA 3803 3 B11 3876 2 B14 Avona o SDRAM DATASO 726 38104 4 5 478 SDRAM 3803 4811 3876 3 14 8 vppc2 4 _ T t 23 VDDC6 SDRAM DATA31 124 3810 1 1
152. 12 2513 2514 2515 2516 2517 2518 2519 2520 2521 2522 2523 2524 2525 2526 2527 2528 2529 2530 2531 2533 2534 2536 2538 2540 2551 2552 2562 2563 2564 2565 2566 2567 2568 2569 2570 2571 2573 2574 2575 2576 2577 2578 2579 2580 2581 2582 2583 2584 2585 2586 2604 2605 2607 2609 2612 2614 2615 2623 2624 2625 2626 2651 2653 2654 2655 2659 2666 2667 2668 2669 2672 2674 2675 2676 2677 2700 2701 2702 2703 2704 2705 2706 2707 2801 2802 2803 2804 2807 2809 2812 2818 2828 2838 2860 2917 2918 2981 2989 2998 2999 3000 3001 3002 3003 3004 3005 3006 3007 3008 3009 3010 3011 3012 3016 3020 3021 3023 3024 3025 3026 3027 3028 3029 3030 3034 3048 3049 3050 3057 3058 3059 3064 3065 3066 3067 3069 3070 3071 3072 3074 3076 3079 3082 3083 3084 3085 3086 3087 3104 3108 3110 3111 3112 3113 3114 3115 3116 3117 3118 3207 3208 3213 3215 3216 3217 3218 3219 3220 3221 3222 3223 3224 3225 3226 3227 3228 3229 3301 3304 3305 3306 3308 3309 3403 3406 3411 3412 3418 3420 3421 3422 3425 3426 3427 3428 3429 3430 3471 3473 3478 3479 3485 3489 3490 3491 3500 3503 3504 3515 3516 3517 3518 3519 3520 3522 3524 3527 3529 3530 3534 3535 3536 3547 3548 3551 3561 3574 3577 3578 3580 3581 3582 3586 3587 3588 3589 3591 3592 3593 3594 3595 3596 3597 3598 3599 3604 3605 3606 36
153. 14 NETW 4 X 47R 5 MNR14 NETW 4 X 47R 5 MNR14 NETW 4 X 47R 5 MNR14 NETW 4 X 47R 5 MNR14 RST NETW 1206 4X 33R PM5 COL RST NETW 1206 4X 33R 5 COL RST NETW 1206 4X 33R 5 COL RST NETW 1206 4X 33R PM5 COL RST NETW 1206 4X4K7 PM5 COL R RST NETW 1206 4X4K7 PM5 COL R RST NETW 1206 4X4K7 PM5 COL R RST NETW 1206 4X4K7 PM5 COL RST NETW 1206 4X4K7 PM5 COL R RST NETW 1206 4X4K7 PM5 COL R RST NETW 1206 4X 10K PM5 COL R RST NETW 1206 4X 10K PM5 COL RST NETW 1206 4X 10K PM5 COL R BLM11P600SPT BLM11P600SPT BLM11P600SPT BLM11P600SPT BLM11P600SPT BLM11P600SPT BLM11P600SPT BLM11P600SPT BLM11P600SPT BLM11P600SPT IND FXD 0603 EMI 100MHZ 600R IND FXD 0603 EMI 100MHZ 600R IND FXD 0603 EMI 100MHZ 600R FXDIND 0603 10U PM10 COL IND FXD 0603 EMI 100MHZ 600R IND FXD 0603 EMI 100MHZ 600R IND FXD 0603 EMI 100MHZ 600R IND FXD D62LCB 10U PM20 R IND FXD 0603 EMI 100MHZ 600R IND FXD 0603 EMI 100MHZ 600R IND FXD 0603 EMI 100MHZ 600R IND FXD 0603 EMI 100MHZ 600R IND FXD 0603 EMI 100MHZ 600R IND FXD 0603 EMI 100MHZ 1508 IND FXD 0603 EMI 100MHZ 600R htt p ww j dwxzl w conf 21 ronuser 170 10 DVDR615 69 Spare Parts List 5615 2422 549 45322 5616 2422 549 44991 5800 4822 157 11499 5802 4822 157 11499 5803 4822 157 11499 5804 4822 157 11717 5805 4822 157 11499 5806 4822 157 11717 5807 4822 157 11717 5808 2422 549 44991 5900 4822 157 11499 5901 4822 15
154. 14 3107 A2 3115 B10 3123 C12 3131 D7 3141 E2 3149 F2 3157 G12 3165 317314 5100 A9 6106 610 7101 A8 7109 F11 7117 G8 F104 15 F115G1 1050 E10 1058 F8 1066 F10 1074 G8 1544 A9 1552 B12 1568 C10 1577 D10 1586 D10 1595 E8 1913 C1 2105 A12 2113B10 2121 E2 2129 G1 3099 114 3108 A11 3116 B2 3124 D1 3132 012 3142 E1 3150 F6 3158 G6 3166 H3 317414 5101 B12 6107H10 7102 A11 7110 G4 7118 H9 F106 A15 F116 G1 1051 E8 1059 F10 1067 F10 1075 H11 1545 A1 1553 B13 1561 C10 1569 D10 1578 D10 1587 D10 1596 E2 1914 G1 2106 A5 2114 C1 2122 E3 2130 G6 3101 A5 3109 A11 3117 C2 3125 012 3135 3143 E8 3151 F2 3159 G6 3167 H8 3175 G7 6100 A10 6108 H10 7103 B11 7111 611 711919 F108 B9 F117 G1 1052 E10 1060 F8 1068 F8 1076 H9 1546 A11 1554 B10 1562 C10 1570 D8 1579 D2 1588 E10 1597 E10 1915 B3 2107 A13 2115 11 2123 2131 611 3102 A6 3110 8 3118 2 3126 D2 3136 2 3144 8 3152 F6 3160 G6 3168 H11 3177 H9 6101 B7 6109 H10 7104 B11 7112 H2 9131 B12 F110C1 F118 G1 1053 E10 1061 F10 1069 F10 1077 H14 1547 A7 1555 B11 1563 C10 1571 D10 1581 D10 1589 E10 1598 E8 SVSTBY 5 5 TEY I N 5S lt 1544 12VSTBY s e 857 NCP301LSN47 E Ps lt A a 1 8 2 3105 gt gt gt BATS4 COL 3104 4 2 AA 1 3106 2100 1547 Cu AAA 4 3107 1008 OUTP MN 2 6 258 330R 4 5 V 470R 220n EN s amp 5 Es 100R INC1 NC2 GND 85 scm sle gif ES gis 5VSTBY 558 RT 5 8 BOE 2 2 E 123V 3 c
155. 17 1718 1719 1720 1721 4 1722 C3 1723 C3 1724 1 1731 1732 1735 1800 05 1801 05 1802 05 1803 05 1804 05 1805 05 1806 05 1807 D5 1808 05 1809 05 1810 05 1811 05 1812 05 1813 05 1814 05 1815 05 1816 05 1817 05 1818 C5 1819 C5 1820 C5 1821 06 1822 C5 1823 06 1824 D6 1825 D6 1826 E6 1828 C7 1836 D5 1838 C5 1839 C6 1840 D6 1841 C6 1900 D5 1901 E6 1902 E5 1903 E5 1904 E5 1905 E5 1910 A6 1911 A6 1912 A6 1913 A6 1914 A6 1915 A6 1916 B6 1917 A7 1918 A6 1919 A6 1920 B6 1921 A6 1922 A6 1923 A6 1924 A7 925 A7 926 B6 927 A7 928 B6 929 A7 930 B6 931 B6 932 C6 933 B6 934 B6 935 B6 936 A6 937 C6 938 B6 939 C7 940 B6 941 B6 942 C6 943 B6 944 A6 945 B6 946 B6 947 C6 948 B6 949 A5 950 D6 951 C6 953 C5 954 C5 955 C5 957 B4 958 B5 960 C5 961 B5 962 C7 963 A5 964 A6 965 A7 966 A7 967 A7 968 A6 969 A5 970 A5 971 A5 972 A6 973 A6 974 A6 975 A5 976 D7 1977 D6 978 D6 979 D7 980 D7 L100 B2 L301 B2 L303 B2 L304 B2 L305 B2 L306 B2 L307 B2 L308 B3 L309 B2 L310 B2 L311 B2 L501 C4 L502 C3 L503 C3 L504 D3 L700 B4 L701 C4 L702 B4 L703 B4 MOBO Frontend Video FV 0803 A10 1700 A3 1701 A4 1702 A4 2700 A9 2701 B9 PIN TABLE 1 LAYOUT PIN DESCRIPTION BB 700 APAC SAMSUNG 2702 D3 2704 E6 2703 D3 2705 E7 1701 NAFTA SAMSUNG 2706 E4 2707 5 1702 not used NAFTA SANYO AUDIO IN
156. 17 F118 F118 F119 F119 F120 F120 F121 F121 F122 F122 F130 F130 F131 F131 F132 F132 F133 F133 F300 F300 F301 F301 F302 F302 F303 F303 F304 F304 F305 F305 F306 F306 F307 F307 F308 F308 F309 F309 F310 F310 F311 F311 F312 F312 F313 F313 F314 F314 F315 F315 F316 F316 F317 F317 F318 F318 F319 F319 F320 F320 F321 F321 F322 F322 F323 F323 F324 F324 F325 F325 F326 F326 F327 F327 F328 F328 F329 F329 F330 F330 F331 F331 F332 F332 F333 F333 F334 F334 F335 F335 F337 F337 F338 F338 F339 F339 F340 F340 F341 F341 F342 F342 F343 F343 F344 F344 F345 F345 F346 F346 F347 F347 F348 F348 F349 F349 F350 F350 F351 F351 F352 F352 F353 F353 F354 F354 F355 F355 F356 F356 F357 F357 F358 F358 F359 F359 F361 F361 F362 F362 F400 F400 F401 F401 F402 F402 F403 F403 F404 F404 F405 F405 F406 F406 F407 F407 F408 F408 F409 F409 F410 F410 F411 F411 F412 F412 F413 F413 F414 F414 F415 F415 F416 F416 F417 F417 F418 F418 F419 F419 F420 F420 F421 F421 F422 F422 F423 F423 F424 F424 F425 F425 F426 F426 F427 F427 F428 F428 F429 F429 F430 F430 B6 F431 B7 F431 B7 F432 B7 F432 B7 F433 B1 F433 C1 F434 C1 F434 D1 F435 C1 F435 C1 F436 D1 F436 D1 F437 B3 F437 C3 F438 C2 F438 C2 F439 C2 F439 C2 F440 F440 F441 F441 F442 F442 C2 C2 C2 C2 C2 C2 F443 C2 F443 C2 F444 C2 F444 C2 F445 B1 F445
157. 170002 There was a timeout reading the device htt p ww dawzl w con f ronuser 1 HIM 5 Diagnostic Software 1700038 The acknowledge was not received 170004 The communication with the device failed 170005 The bus failed 170006 The bus initialisation failed Example DS gt 1700 170000 Test OK VIDEO MATRIX VMIX Nucleus Name DS_VMIX_Communication Nucleus Number 1800 Description This nucleus checks the communication between the IIC controller of the Codec and the Video Matrix on the analogue board Technical Try to read anything from the video matrix by means of IIC Execution Time Less than 1 second User Input None Error Number Description 180000 Communicating wit the Video Matrix succeeded 180001 An IIC bus error occurred 180002 There was a timeout reading the device 180003 The IIC bus was not accessible 180004 The acknowledge was not received 180005 There was an IIC error upon the stop condition 180006 The IIC bus was chosen wrong 180007 The IIC functionality is not running 180008 An unknown error was returned Example DS gt 1800 180000 Test OK Nucleus Name DS VMIX Routing Nucleus Number 1801 Description This nucleus performs the routing of the video signals in the set It sets the video path according to the user i
158. 2 001 eps 14062004 10 11 12 13 14 1921 12 2900 5 2901 9 2902 10 2903 12 2904 C13 2905 C9 2906 C10 2907 C12 2908 C13 2909 C9 2910 C10 2911 C12 2912 C13 2913 C10 2914 C13 2915 E8 2916 E11 2917 E3 2918 G3 2921 G10 3903 1 D4 3903 2 D4 3903 3 D4 3903 4 D4 3904 2 D4 3904 3 D4 3904 4 D4 3908 D7 3911 E7 3912 E8 3913 E11 3914 F7 3915 F2 3916 F2 3917 F2 3918 F2 3919 G2 3920 H2 4900 D6 4901 D4 4902 F7 4925 E6 5900 B10 5901 B13 5902 B5 5903 E3 5904 G3 7900 C6 7902 C9 7903 C12 7904 E3 7905 G3 F849 112 F901 E6 1900 B5 1901 B9 1902 B12 1903 E3 1904 G3 1905 E2 htt p ww j dwxzl w con f ronuser Circuit Diagrams and PWB Layouts EM 113 FEBE BE DV In IEEE1394 1 2 3 4 5 6 7 8 9 10 11 12 13 14
159. 2 DVD quality Standard Play SP 2 hours DVD quality Standard Play Plus SP 2 5 hours M3 S VHS quality Long Play LP 3 hours 4 VHS quality Extended Play EP 4 hours M6 VHS quality Super Long Play SLP 6 hours M8 VHS quality Super Extended Play SEP 8 hours Press REC to start recording If required you can press REC twice to start a 30 minute recording Each time you press REC button you will add 30 minutes to the recording time During recording you may press PAUSE II to pause the recording and press REC to continue To stop the recording press STOP gt Wait until the message disappears from the display panel before you remove the disc o Start Playback Insert a disc with the label side facing up Playback will start automatically gt dialogue appears on the TV showing Do you want to access the disc content press A V to select Yes to show the disc content or No to start playback then press OK to confirm gt disc menu appears press 4 A to navigate within the menu highlight a title and press OK or PLAY P to start playback NO SOUND Connect the AUDIO L R red white sockets at the back of the DVD recorder to the correspond AUDIO input sockets on a TV set stereo system or receiver Turn on the connected system and select the appropriate channel To stop playback press STOP To watch the TV programmes
160. 2 or external Cinch 16 DIGOUT5 Digital Output Pin 5 17 R PR CIN_AUX Red or Pr or Chroma input from Auxiliary SCART2 or external Cinch 18 DIGOUT6 Digital Output Pin 6 19 Y CVBSIN_AUX Y CVBS Input from Auxiliary SCART2 or external Cinch 20 VCCB_REC Video Output Recorder Buffer Supply Pin 21 Y CVBSOUT_REC Y CVBS Output to Recorder 22 GNDB_REC Ground Supply for Recorder Buffer 23 COUT_AUX Chroma Output to Auxiliary SCART2 or external Cinch 24 VCCB1 Video Output Buffer Supply Pin 25 Y CVBSOUT AUX Y CVBS Output to Auxiliary SCART2 or external Cinch 26 GNDB Ground Supply for Video Buffer 27 B PBOUT TV Blue or Pb Output to TV SCART1 or external Cinch 28 C GATE External Transistor Command for Bidirectinnal B C SCART 29 G YOUT TV Green or Y Output to TV SCART1 or external Cinch 30 VCCB2 Video Buffer 31 R PR COUT TV Red or Pr or Chroma Output to TV SCART1 or external Cinch 32 VCCB3 Video Output Buffer Supply Pin 33 Y CVBSOUT TV Y CVBS Output to TV 5 1 or external Cinch 34 FBOUT TV Fast Blanking Output to TV SCART1 35 FBIN AUX Fast Blanking Input from Auxiliary SCART2 Figure 9 16 htt p ww 2 w conf 21 ronuser Circuit IC descriptions and list of abbreviations DVDR615 69 Pin No Symbol Description 36 VDD 5 V Digital Power Sup
161. 21 PM CON BM V 22P F 1 00 FFC 0 3 R CON BM V 22P F 1 00 FFC 0 3 CON V 7P 2 00 PHR 1904A 1905 1906 1907 1908 2013 2014 2062 2071 2073 2081 2083 2098 2107 2416 2431 2446 2448 2515 2533 2538 2580 2612 2653 2654 2666 2667 2668 2669 2812 2818 2828 2838 2981 2989 2999 3000 3001 3003 3004 3005 3006 3007 3008 3009 3010 3025 3029 3084 3085 3541 3542 3543 3562 3583 3584 3585 3587 3588 3589 3615 2422 086 11087 8204 056 66011 2422 086 11087 2422 025 16729 2422 086 11087 2020 021 91729 4822 124 12095 2020 021 91729 2020 021 91729 2020 021 91729 2020 021 91729 2020 021 91729 4822 124 80151 5322 124 41945 4822 124 12095 4822 124 23002 5322 124 41945 2020 552 95812 4822 124 23002 4822 124 23002 4822 124 23002 5322 124 41945 5322 124 41945 5322 124 41945 5322 124 41945 4822 124 23002 4822 124 23002 4822 124 23002 4822 124 23002 4822 124 23002 4822 124 23002 4822 124 23002 2020 021 91857 2020 021 91729 2020 021 91729 2020 021 91857 3198 031 13390 3198 031 13390 3198 031 13390 3198 031 13390 4822 117 13523 4822 117 13523 3198 031 14720 3198 031 14720 4822 117 13523 4822 117 13523 4822 117 12662 4822 117 12662 3198 031 11010 3198 031 11010 3198 031 13390 3198 031 13390 3198 031 13390 4822 117 13526 4822 117 13526 4822 117 13526 4822 117 13526 4822 117 13526 4822 117 13526 48
162. 22 117 13526 2350 035 10829 FUSE 1A 125V ULR CON V 12P M 2 00 PH R FUSE F 1A 125V ULR CON BM V 10P F 1 00 FFC 0 3R FUSE F 1A 125V ULR ELCAP RKV 35V 4U7 PM20 R 100UF 20 16V ELCAP RKV 35V 4U7 PM20 R ELCAP RKV 35V 4U7 PM20 R ELCAP RKV 35V 4U7 PM20 R ELCAP RKV 35V 4U7 PM20 R ELCAP RKV 35V 4U7 PM20 R 47UF 16V 22UF20 35V 100UF 20 16V 10UF 16V 22UF20 35V CER 1206 X7R 16V 10 PM10R 10UF 16V 10UF 16V 10UF 16V 22UF20 35V 22UF20 35V 22UF20 35V 22UF20 35V 10UF 16V 10UF 16V 10UF 16V 10UF 16V 10UF 16V 10UF 16V 10UF 16V ELCAP FK 6V3 100U PM20 R ELCAP RKV 35V 4U7 PM20 R ELCAP RKV 35V 4U7 PM20 R ELCAP FK 6V3 100U PM20 R RST NETW 1206 4X 33R 5 COL RST NETW 1206 4X 33R 5 COL RST NETW 1206 4X 33R 5 COL RST NETW 1206 4X 33R 5 COL 220R 5 RESN 0 63W 220R 5 RESN 0 63W RST NETW 1206 4X4K7 5 COL RST NETW 1206 4X4K7 5 COL 220R 5 RESN 0 63W 2208 5 RESN 0 63W 10R X4 5 10R X4 5 RST NETW 1206 4X100R 5 COL RST NETW 1206 4X100R 5 COL RST NETW 1206 4X 33R 5 COL RST NETW 1206 4X 33R 5 COL RST NETW 1206 4X 33R 5 COL 150R 5 RESN 0 63W 150R 5 RESN 0 63W 150R 5 RESN 0 63W 150R 5 RESN 0 63W 150R 5 RESN 0 63W 150R 5 RESN 0 63W 150R 5 RESN 0 63W RST NETW ARV24 4X 82R 5 3631 3635 3639 3643 3800 3801 3802 3803 3804 3805 3806 3807 3808 3809 3810 3811 3812 3813 3814 3815 3846 38
163. 230 2128 A4 3094 3369 C7 6410 2438 5100 2129 A4 3095 C8 3370 06 6411 ER g zo 2180 2 3000 aa Saon BI 6413 en 2132 A7 3098 A8 3402 6500 N ae ux B Ba 2133 B8 3099 A8 3403 D1 6501 B a EB 2134 F1 3101 A7 3404 01 6502 gt mn TUS 2135 F2 3102 3405 B1 6503 if Bros nt 2136 F2 3104 C7 3406 A1 6600 7404 B BH B ENS 2137 3105 A7 340781 7001 2 is 8 1 B Deme gt ere 482 2138 A7 3106 A7 2408 7002 lm ji ay 5108 o 2181 3107 3409 7003 B B B HIE MEE za 5109 ess 30 2183 A6 3108 C7 3410 7004 Ei woe B 5505 3095 2184 F1 3109 C7 341101 7006 E TA 4 L 2 3305 47300 n 3094 2185 6 3110 A7 341201 7007 L E Bg E zi Tm B 2186 3111 C8 3413 D1 7100 Ritt 12 IN ELS 22 2300 C6 3112 C7 3414 7101 288 ate Wer ag 2304 E7 3113 C8 3415 7103 Er Nc sm 2311 D7 3114 C8 3416 7106 2320 FA 3115 3418 7107 2321 07 3116 A5 3419 A7 7108 ES 2324 3118 5 3420 7109 yp 2326 06 3119 8 3421 7110 3402 c 5 250 2330 D5 3120 A8 3422 01 7111 E r Eur 2331 F5 3121 AB 3423 C1 7112 3400 t 3308 22 7773 509 815 2334 F6 3122 A7 3424 7118 2 270 EN 2 Sumo ge 3308 zm 2335 F5 3123 B7 3425 F2 7114 340 1 r 509 4111 B 58 B 3307 ih 97304 233
164. 232 ged 1260 100R 560p 2233 3238 55 1 AAA REP5 BIS 828 68 100R ocer tla 828 5 lii OFTON TR20035_001 eps 14062004 2204 4 2205 4 2209 2 2210 B2 2211 2 2212 B3 2213 E7 2214 E7 2215 E7 2217 E6 2218 E7 2219 B3 2221 2223 F6 2228 D6 2229 G8 2230 G9 2231 H9 223218 2233 19 2234 19 3200 4 3201 4 3202 4 3204 4 3206 E7 3207 G4 3208 G5 3209 G2 3210 2 3211 2 3212 2 3213 7 3215 2 3216 2 3217 F7 3218 G7 321917 3220 G8 3221 G8 3222 G8 3223 H8 3224 G9 322518 3226 H8 3227 18 3228 18 3229 I9 4200 H11 4201 H11 4202 C5 4203 C4 4204 C4 5202 B1 7201 C3 7202 G8 7203 18 1201 B2 1202 C5 1203 C5 1204 C5 1205 C5 1206 C5 1207 C5 1208 C4 1209 C4 1212 C3 1214 C4 1215 D3 1216 C6 1217 D6 1218 D3 1219 D6 1220 D3 1221 D6 1222 D6 1223 C4 1224 D3 1225 C4 1226 E3 1227 E3 1228 E6 1229 E3 1231 E3 1232 F5 1233 E3 1234 E6 1235 F4 1237 E6 1238 F6 1239 E6 1240 G3 1241 F6 1242 B4 1243 B4 1244 F3 1247 F6 1248 F3 1249 F3 1250 H5 1251 H5 1252 H4 1253 F4 1254 G1 1257 G6 1258 G6 1259 16 1260 16 1261 H1 1262 H1 1263 H1 1264 E7 htt p ww j dwxzl w cond fronuser Circuit Diagrams and PWB Layouts 106 FE Laconic Pre processing 1 2 3 4 5 6 7 8 9 m 2300 E4 2301 E4 2302 E4 TO OPU EPLD CENTAURUS 2303 A2 2304 B2 WSB RW Del OSC_IN PORN SCL SDA SCLK SDIO SEN HIGH GAIN CD MO
165. 27 39K 1 AK 5 1 27 39 71 AN Sr S1V65 12k 196 1461 12Va Ed Jae 12k 196 im 3463 LM358D D 4404 RAD 5405 1452 NAA 7 1 121 12K 1 6V 3453 geo 1 son 12K 1 1 M13 2439 M14 i 120p D3V3 1477 2434 78 Y i 120p asx 1480 2435 481 858 i 120p 1424 n 7409 aaa gd BA5995FM esl TRAY INOUT WU 1455 5 us DRIVER ON 20 smw 5 TR pu 8 lt 22 7402 55 SA56202TW ere 2411 Jorns m P rus se 1457 7 aml hd S e e 1420 3425 2 qe DIODE 8 ss 7 SHIFT m a HE THERMAL MAp sives 35747 N _ vow 17 w 1423 1508 2 SHUTDOWN GNDDO 54 7 S1V65 S A oy eve 3 ss 1473 3481 25 We 1425 d VV T ub s wecs 48 4420 INDY 1464 ve 2 gt g 1449 28 i vor s w s 4421 E MEL BIAS VH e FO 27 h gt b LEVEL Heu 1429 l z BS T ALL BIAS 4423 SHIFT 4 3421 s nner voo o 49 ud 5489 H v 1431 EAT Ct S1V65 AT 3420 o CURRENT MS ounp 48 3495 2400 w opouri 4 27R E u 1433 ERANA NX d n VFOO OPTIONS 3491 2422 1421 REFERENCE Lor KC 10R epe 4 uco 45 kusam AA DD ae P
166. 3 4397 4 L2 dd wk422 TR20048 001 eps 15062004 5 7 1302 1400 1401 1500 1601 1602 1700 1702 1703 1705 1904 1906 1908 2000 2001 2002 2004 2005 2006 2007 2008 2009 2010 2011 2012 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2045 2046 2051 2055 2063 2066 2067 2068 2069 2070 2075 2076 2077 2082 2086 2087 2089 2094 2095 2096 2097 2101 2109 2110 2204 2205 2209 2210 2213 2214 2215 2221 2228 2302 2303 2304 2305 2308 2311 2312 2400 2401 2406 2409 2411 2414 2415 2421 2430 2432 2433 2434 2435 2436 2438 2441 2444 2504 2505 2506 2507 2550 2561 2572 2608 2610 2611 2618 2662 2663 2664 2665 2670 2671 2673 2805 2806 2808 2810 2811 2813 2814 2815 2816 2817 2819 2820 2821 2822 2823 2824 2825 2826 2827 2829 2830 2831 2832 2833 2834 2835 2836 2837 2839 2840 2841 2842 2843 2844 2845 2846 2847 2861 2862 2863 2900 2901 2902 2903 2904 2905 2906 2907 2908 2909 2910 2911 2912 2913 2914 2915 2916 2919 2920 2921 2929 2932 2933 2934 2935 2936 2937 2938 2942 2943 2946 2947 2951 2953 2954 2955 2956 2959 2962 2963 2965 2967 2968 2974 2975 2976 2977 2978 2979 2980 2982 2983 2984 2985 2986 2987 2988 2990 2991 2992 2993 2995 2996 3013 3014 3015 3017 3018
167. 3019 3022 3035 3036 3037 3038 3039 3040 3041 3042 3043 3044 3045 3046 3047 3051 3052 3053 3054 3055 3056 3060 3061 3062 3063 3068 3073 3075 3077 3078 3080 3081 3100 3101 3102 3103 3105 3106 3107 3119 3120 3200 3201 3202 3204 3206 3209 3210 3211 3212 3300 3302 3303 3315 3316 3404 3405 3410 3423 3440 3444 3445 3446 3447 3450 3452 3453 3454 3455 3456 3457 3458 3459 3460 3461 3462 3463 3464 3465 3472 3474 3475 3476 3477 3480 3481 3482 3483 3484 3486 3487 3488 3492 3493 3494 3495 3496 3497 3498 3501 3502 3507 3508 3509 3510 3511 3512 3513 3514 3521 3523 3528 3531 3532 3541 3542 3543 3545 3546 3560 3562 3579 3583 3584 3585 3647 3648 3660 3661 3686 3692 3693 3694 3695 3696 3697 3713 3714 3715 3716 3717 3718 3719 3813 3815 3818 3819 3822 3823 3826 3827 3830 3831 3832 3833 3834 3835 3836 3837 3838 3839 3840 3844 3846 3847 3848 3851 3857 3858 3866 3869 3870 3871 3872 3874 3875 3896 3897 3901 3903 3904 3912 3913 3921 3922 3923 3924 3930 3931 3932 3933 3934 3935 3936 3937 3940 3941 3942 3943 3944 3946 3948 3949 3951 3952 3953 3954 3956 3958 3959 3961 3963 3964 3965 3966 3967 3968 3969 3970 3971 3972 3973 3975 3976 3977 3978 3979 3980 3981 3984 3987 3988 3990 3991 3993 3998 3999 4000 4001 4002 4003 4004 4005 4007 4009 4010 4105 4200 4201
168. 3182 2 3185 02 6182E2 7181 1 F130D1 F133E1 1192 3 1195 1916 01 2183 2 2186 3183 2 5181 4 6183 2 7182 1 131 1 1190 4 1193 2181 2184 1 3181 2 3184 1 6181 6184 2 7183 4 132 1 1191 1194 C2 1 2 3 4 2181 6 5vsTBY l arn 5VSTBY x not used 22u 16V 7183 TMP86CK74A 7181 PDTC124EU IPOR1 lt 0 lt 0 7 gt gt 7182 PDTC124EU TC2 F IROUT 6181 O O R OQ NAO BAS316 3183 100R 1194 1916 HSJ1637 010510 5 Na Ga 3 A 1 AIN STOP NOORWN AO BZX384 C6V8 BZX384 C6V8 BZX384 C6V8 for EPG only v gt 2 4 OPTION GLINK RXDI GLINK TXDI E 14220 014 290904 T 2 htt p ww dwxzl w conA fronuser Circuit Diagrams and PWB Layouts LEN Layout MOBO Main Part Top View
169. 401 The user provided wrong input 60402 The VIP was not accessible 60402 An unsupported VIP was found Example DS gt 604 1 060400 Test OK Table 5 1 Available channels for input of the 7118 and their description Channel number Description 1 CVBS Y IN A 2 CVBS OUT B 3 CVBS Y IN B 4 CVBS Y IN C 6 C IN 8 G IN 9 13 14 18 19 Table 5 2 Available channels for input of the 7115 and their description Channel number Description 1 CVBS Y IN B CVBS OUT B VIP C IN VIP 2 4 7 CVBS Y IN B Digital Video Input Output DVIO Nucleus Name DS DVIO LinkDevTypeGet Nucleus Number 700 Description Get the device revision type information of the 1394 Link layer IC Technical Initialise the PIO pins on the Codec Read out the ID register Execution Time Less than 1 second User Input None Error Number Description 70000 Getting the information from the link layer IC succeeded 70001 Getting the information from the link layer IC failed 70002 Type not according to type stored in HW diversity string Example DS gt 700 Test OK 070000 Device type of the link layer IC 00301 Nucleus Name DS DVIO PhyDevTypeGet Nucleus Number 701 htt p ww dwxzl w con f ronuser 1 0 EEJ 5 Diagnostic S
170. 4202 4203 4204 4303 4402 4413 4416 4417 4419 4420 4421 4423 4427 4606 4607 4608 4805 4900 4905 4906 4909 4915 4919 4920 4921 4922 4923 4925 5001 5003 5013 5102 5104 5202 5405 5406 5609 5614 5616 5617 5800 5801 5803 5804 5805 5808 5902 5905 5906 5909 5914 5915 5916 5917 5918 5919 5920 5921 5922 5923 5924 5925 5926 5927 5930 5932 5933 5934 5935 5936 6001 6400 6401 6402 6403 6900 6901 7005 7006 7008 7107 7201 7300 7401 7402 7403 7405 7409 7500 7503 7504 7505 7603 7604 7606 7607 7608 7802 7804 7900 7902 7903 7910 7913 7914 7915 7916 7917 7918 7919 7920 7921 7922 7923 7926 7927 7928 7929 7950 htt p ww j dwxzl w con f ronaser Circuit Diagrams and PWB Layouts EN 123 Layout FEBE Bottom View Part 1 TR 20048a 001 01072004 TS E Ny 4 jor je EI de lt e dri el ll ir 2 lt gt A _ gt pr fell 5 l els m ele B ol eal ol rl Loy l o ra ral dmi 9 iD 5 9 in i 29 il 54 ens EL DE lot 3204 I gt mI 2 CS 1 1 fe jo 2 2 gt e hol FSI lt a ee m u zx 8 18 8 md Il leo Ce 5
171. 429 1508 15FMN BTRK A 559 soa g 100 zi ale le 5NSTBY 5NESD 5NESD G 3454 a 100R 3434 37 L 5 3 3 38 3 3436 H13 5 a fron tb a 2 2 2 2 2 x 5NESD erm LED_TRAY gt Ej lt 8 8 358 3 3 818 n Fron CU R LED EPG gt from CU GND GND GND GND GND a Eu o m Y iT 0 6402 6 Rea l 6403 A6 to CU caoaps 6405 AINFR REAR OUT 2 to 10A 3435 a 6406 B11 AAA zl 6407 B11 AINFL 150R BOSTAN T 6408 B12 to 10 as res CVBS 6409 C12 V KEY2 o o o o zl so z BS 68R 1 2 6410 D13 to CU Se Fo cr or FA 5 v 6411 G13 KEYI 929 8 AL 6412 G14 to CU 8 8 GND vom 6413 H13 IGND GND GND GND GND GND GND GND GND F446 cmo on 7401 ES 3 1944 1 l 7402 D9 lt 5NSTBY 331520 10 10 7403 F13 T 7404 H13 S ASA 5 400 7 i 1 Tao voor eooraseesresgan F401 A9 V A 22922 202929925 230 F402 A2 BK 454545458 552 50595754 ae F403 AG Bo 2249 gt F404 5 E E OPTION 85 95 2 Be lt u 85 Bs E 14220 007 F405 AG E from to Digital Board 42 52 280904 F406 A6 F407 A10 F422 Y_OUT F425 C_OUT 1403 V_OUT 1406 Y_OUT 1422 C_OUT 1424 Y_OUT D js 00000000000000000 REAR IN 1 AR
172. 45 002 eps F905 E11 30062004 F906 F11 1 2 3 4 5 6 7 8 9 10 11 12 13 1922 A YCVBS 1926 D CVBS 1928 D Y 1930 D C wan 1931 D VR gaa 1989 DUB __ F905 D BCLK F906 D WCLK F907 DATAO F908 D PCMCLK FEBE BE Supply Reset UART Encorder I2S Clock Source Switch 1 3 htt p ww j dwxzl w conf f ronuser Circuit Diagrams and PWB Layouts 7 10 11 12 13 Y Y R Boe 85 RESE 950 1951 gt PNX7100 RESETn 3 ei Biz 8 58 18 8 g Le 8 B5 RTS 2993 EJTAG_RESETn gt 2 IRESET DIG gt 48V3 RES 5 48V3dig 1953 1954 5927 PNX7100 SYS RESETn 3976 L 170271905151 AV 4K7 ole s 8 8 8 8T 5 8S eas 82 g 8 lt 5 7923 1 74LVCOBAD x 4906 _ 1 3082 1955 MPIO13 IDE1 RESETn 1956 AV 44 gt RESET IDEn 330R 3984 4K7 B 7923 4 7ALVCOBAD 13 amp 1957 14 IEEE1394 RESETn ES qa 11 p RESET 1394n gt 3987 I AK 3988 M OPTION 4 F956 MPIO31 SERVICE MODE FAST DUM 6 ANALOG RESET 79232 3990 74LVCOBAD 7923 8 74LV
173. 46 OUTFCS focus driver positive output 12 U spindle driver output U 45 OUTFCS focus driver negative output 13 VDDSPN1 spindle driver power supply 1 44 GNDACT actuator drivers power ground 14 V spindle driver output V 43 VDDACT actuator drivers power supply 15 GNDSPNe 2 spindle driver power ground 2 42 OUTTRK tracking driver pos output 16 W spindle driver output W 41 OUTTRK tracking driver neg output 17 VDDSPN 2 spindle driver power supply 2 40 OUTTLT tilting driver pos output 18 FG frequency generator output 39 OUTTLT tilting driver neg output 19 GNDDIG ground supply 38 CURSLD1 sled driver 1 current sense 20 INSPN spindle driver input 37 OUTSLD1 sled driver 1 positive output 21 REF reference input voltage 36 OUTSLD1 _ sled driver 1 negative output 22 VDDANA system supply voltage 35 CURSLD2 sled driver 2 current sense 23 CP1 charge pump cap conn 1 34 OUTSLD2 sled driver 2 positive output 24 CP2 charge pump cap conn 2 33 OUTSLD2 sled driver 2 negative output 25 CAPY charge pump output voltage 32 VDDSLD sled driver power supply 26 CTL1 driver logic control input 1 31 GNDANA ground supply 27 CTL2 driver logic control input 2 30 INSLD2 sled driver 2 input 28 TEMP thermal warning 29 INSLD1 sled driver 1 input Figure 9 30 htt p www dwxzl w con f ronuser Circuit IC descriptions and list of abbreviations 9 7409 BA5995 FEBE Board 4 cha
174. 5 1316 1316 1317 1317 1318 1318 1319 1319 1320 1320 1321 1321 1322 1322 1323 1323 1324 1324 1325 1325 1326 1326 1327 1327 1328 1328 1329 1329 1330 1330 1331 1331 1332 1332 1333 1333 1334 1334 1335 1335 1336 1336 1337 1337 1338 1338 1339 1339 1340 1340 1344 1344 1343 1343 1344 1344 1345 1345 1346 1346 1347 1347 1348 1348 1349 1349 1352 1352 1353 1353 1400 1400 1401 1401 1402 1402 1403 1403 1404 1404 1405 1405 1406 1406 1407 1407 1408 1408 1409 1409 1410 1410 1411 1411 1412 1412 1413 1413 1414 1414 1415 1415 1416 1416 1417 1417 1418 1418 1419 1419 1420 1420 1421 1421 1422 1422 1423 1423 1424 1424 1425 1425 1426 1426 1427 1427 1428 1428 1429 1429 1430 1430 1431 1431 1432 1432 1500 1500 1501 1501 1502 1502 1503 1503 1505 1505 1506 1506 1507 1507 1508 1508 1509 1509 1510 1510 1511 1511 1512 1512 1513 1513 1515 1515 1516 1516 1517 1517 1518 1518 1519 1519 1520 1520 1522 1522 1523 1523 1525 1525 1526 1526 1527 1527 1528 1528 1529 1529 1530 1530 1531 1531 1532 1532 1533 1533 1534 1534 1535 1535 1541 1541 1542 1542 1544 1544 1545 1545 1546 1546 1547 1547 1548 1548 1549 1549 1550 1550 1551 1551 1552 1552 1553 1553 1554 1554 1555 1555 1556 1556 1557 1557 1558 1558 1559 1559 1560 1560 1561 1561 1562 1562 1563 1563 1564 1564 1565 1565 1566
175. 5 1703 C6 1705 E8 2700 110 2701 111 2702 110 2703 111 2704 110 2705111 2706 110 2707 111 3702 H4 3703 H5 3704 H4 3705 H5 3706 14 3707 15 3708 C5 3709 C4 3710 C4 3711 C4 3712 C5 3713 B1 3714 B1 3715 B1 3716 B1 3717 C1 3718 D1 3719 D1 4701 1 E 4701 2 4701 3 E 4701 4 E 4702 1 C 4702 2 4702 3 4702 4 L 4703 1 4703 2 4703 3 4703 4 4704 1 4704 2 4704 3 4704 4 E 4705 1 4705 2 4705 3 F 4705 4 E 4706 1 F 4706 2 F 4706 3 F 4706 4 4707 F2 1700 C5 1701 C5 1702 D5 1703 D5 1704 D5 1705 D5 1706 B14 1707 D5 1708 C14 1709 D5 1710 C14 1711 D5 1712 C14 1713 E5 1714 C14 1715 H3 1716 H3 1717 H3 1718 I3 1719 1720 C12 1721 E2 1722 E2 1723 F2 1724 F9 1731 C14 1732 C14 1735 C14 L700 G3 L701 G3 L702 H3 L703 H3 htt p WAN j dwxzl w com f ronuser Circuit Diagrams and PWB Layouts 7 FEBE BE Chrysalis 1 2 3 4 5 6 7 8 9 10 11 12 13 14 2801 A9 3832 E10 F841 12
176. 5 2618 F6 2619 F6 28 WS 3600 B2 3601 B7 2S DA OUT 3602 B8 3603 B1 3604 C8 51 4 I2SL R I2SL R 3605 E1 3606 E1 FM1 LOUDSPEAKER R ANA IN FM2 LOUDSPEAKER nen 47u 16V 10u 25V 8VSTBY 5V 25 CL 28 DA IN1 25 DA IN2 NICAM A DEMODULATOR LOUDSPEAKER L DACOM g 5600 B8 Sir IN 5601 F5 l 6600 B7 7600 A2 1600 A4 1603 A6 1605 A6 1606 B2 1607 B2 1608 B7 1609 B7 1610 B7 1611 C2 1613 C2 1614 C7 HEADPHONE L 1616 D7 1618 E1 1619 E2 1621 E1 3605 1618 2613 1622 E2 ARDACI 4 1623 5 from DAC ADC 2K2 1u0 1624 F6 3606 1621 1625 F6 HEADPHONE R 4u7 50V 2612 ALDACI fi DAC ADC 2K2 SCART Switching Facilities VERSION TABLE Pos 7600 18M432 TAIWAN ALL OTHERS S KOREA MSP3425G MSP3415G MSP3425G E E 14220 010 OPTION 290904 1 2 3 4 5 6 7 8 9 1515 1518 AFER AFEL 2005 F016 ARDAC ALDAC Tek stop Tek stop L v C Neue A Chi 5 2004 sep 2004 0000007 Ere u 0 000008 17 5732 5NSTBY 5VSTBY Y AKILL lt 9 to IOA PDTA124EU 7004 IMUTE GND 6001
177. 52 745 77557 2722 171 08804 9352 115 40118 3104 123 97403 9322 182 03668 9322 182 03668 9322 130 41668 9322 130 41668 5322 130 60159 9352 684 56115 5322 130 60159 9352 684 56115 5322 130 60159 5322 130 60159 4822 130 61553 5322 130 60159 5322 130 60159 9352 456 80115 9352 500 20118 9352 317 20118 9322 191 99685 9322 188 69668 9322 188 69668 9322 188 68668 9340 425 20115 LD1117DT 5700 R LD1117DT18 STOO R PNX7100EH C3 PHSE Y OSC XTL 4MHZ 20 FXO 31 R 74LVC245APW PHSE R FLASH ASSY 4MB FEBE BACK END MT48LC8M16A2TG 75 MRNO R MT48LC8M16A2TG 75 MRNO R M24C64 WMN6 STOO M24C64 WMN6 STOO BC846B 74LVC1G04GW BC846B 74LVC1G04GW BC846B BC846B DTC124EU BC846B BC846B 74HCT1G125GW 74LVCO8AD PHSE R 74LVC125APW PHSE R NCP303LSN29 ONSE R STS5DNF20V STOO STS5DNF20V STOO NCP1570D ONSE R BC847BS PHSE R
178. 55 F335 ja x x x 1330 1537 F351 F357 x 356 X F343 x F342 F33 F350 x x F338 x F307 F327 x F326 x F348 1302 1308 F319 x 1331 x F317 x x 1336 ry 1344 ty X 154 29 F318 1340 X x x x 1547 x 1051 1 325 F346 1325 F316 F315 1542 1545 x 1568 1595 x Aa E x 1559 x 1556 1570 x 1598 1579 S2 x 1576 15821584 ise x 1058 X 1062 X 1085 1 x 10705 x 107 EX 2 BA T075 1079 x x F108 x 100 F354 x F323 x FI x 2 1550 x 1546 x 1555 x E 1552 x x 1317 x 315 x 1316 x F329 F332 x F330 F344 F341 F333 x x F306 F309 x i x 1305 x 1306 F334 x r F322 x 1320 F324 X x 1568 1553 1077 1565 15696 X563 15626 M561 10726 106 56 106 10626 59 105 M056 105 Moss 1598 50 105 597 159 M5868 1590 X569 158 Xs5s6 x 1583 isa X578 157X X575 157 1569 X572 X 107 X 107 r352 X x 1557 E 14220 005 29092004 F002 F002 2003 2003 2004 2004 2005 2005 2006 2006 2007 2007 F008 F008 F009 F009 F010 F010 F011 F011 F012 F012 F013 F013 F014 F014 F015 F015 F016 F016 F100 F100 F101 F102 F103 F104 F106 F108 F108 F110 F110 F111 F111 F112 F112 F113 F113 F114 F114 F115 F115 F116 F116 F117 F1
179. 5615 1601 653 42V 2673 ME 8 559 3 HUN a n I lt q 1205 gt 2 aly 828 sss 5 i ag 8 gig aad BS 8 2222 gt STF 1538 lt 9 85 8 l d zl 5555 L EMFFILTER 8 z TEE el non 1 1650 1658 5607 682 1602 1659 45V a 5VS pus gla S8 FA wa DUE il p 184 SMD1812 1681 l 20039 001 14062004 2 DI 3 4 7 g o 4o a4 42 1 2 4 7 10 11 12 13 1601 H11 1602 111 2604 B10 2605 E9 2607 110 2608 15 2609 19 2610 B4 2611 B3 2612 B3 261415 2615 H2 2618 H4 2623 110 2624 111 2625111 2626 110 2651 H3 2653 110 2654 15 2655 B3 2659 H3 2662 D5 2663 D4 2664 D4 2665 D2 2666 C3 2667 C3 2668 C5 2669 F2 2670 F3 2671 2672 B3 2673H2 2674 H3 267513 2676 I9 2677 15 3604 A11 3605 A9 3606 B9 3607 B10 3608 B9 3609 B11 3610 B10 3611 B9 3612 B8 3613 B8 3614 B8 3615 A C10 3615 B C10 3615 C C10 3615 D C10 3617 A10 3618 B11 3619 C10 3620 C9 3621 D9 3622 D10 3623 D10 3624 D10 3625 D10 3626 E10 3627 D10 3628 E10 3629 E10 3630 E10 3631 1 F9 3631 2 F9 3631 3 F9 3631 4 F9 3635 1 G9 3635 2 F9 3635 3 F9 3635 4 F9 3639 1 G9 3639 2 G9 3639 3 G9 3639 4 G9 3643 1 H9 3643 2 H9 3643 3 G9 3643 4 G9 3
180. 6 27 3006 3 3 6 220R ADE 3014 D2 815 3008 2 7 NAA 2 47 9 HIFD9 lt gt 4 gt HIFA7 26 3006 4 4 AAA 5 220R PCI AD 7 3015 D2 Sm 3008 3 6 3 47 HIDIO HIFAB 22 3011 AAA 100R LJ G 3008 4 5 AN 4 47 7 HIFD11 lt gt L lt HIFSC_ 36 035 3057 A N 100R XIO_SEL1 3016 E2 3007 1 8 1 4K7 4 HIFD12 pad pi HIFWR 37 40 3058 100 PCI CBE 4 3017 F3 HN 3007 2 7 AA 2 4K7 3 HIFD13 lt La HIFALE 39 n N M we 3018 B2 3007 3 6 4KT 2 HIFDI4 4 p La HIFRD 40 20416 3059 4 AA 1008 4 CBE 2 3019 B2 30074 5 4 1 HID15 gt La HIFTBBIT 45 3020 2 5001 MPIO2 1394 IRQn AAA em HENT 4 gt HIFMUX 46 Sx 3021 C2 Y 0399 ge 313 33R 3060 lt 5 8 3022 B5 z GND 3023 C6 5 8 ELS EIS ELS 4004 3024 C7 ST RTE RTE RTS A 3025 1 C6 sl g s 3 8 8 R 8 2 8 9 3 8 E o i 33 LINK 3025 2 C7 H 3025 3 C6 3025 4 C7 3026 D12 i 3027 D12 s002 F044 3028 D12 Y F045 gt 3V3_IEEE_D 3029 1 06 zig els els 3029 3 06 5 8 5 8 5 8 RTT NT aT 3029 4 D7 3030 D6 1 1 F029 1C7000 60 itd kid ul 3V3_LINK D gt 046 g x 3V3_LINK 3036 7 3037 B7 rile ele o cole rlen zelzsnuisssessszsssisoisszis 3038 B7 5 8 8 8 2 8 8 5 5 8 8 5 8 8 8 5 8 8 8 8 5 5 amp 8 5 8 8 5 8 8 8 8 8 8 8 3039 B7 Bre ST S ORTOS are STE STO RT
181. 6 1 13 1803 A14 7800 8 8 B PCI _ 18144 38752 2 T 2815 G14 3846 2 12 1804 12 PNXT100E 10120 28763 3 AAA 2816 F13 3846 3 I2 1805 A13 o o TONO O owm iuL Sssx esss N263803 1 1 8 22R LI 3876 858885885 5 838 85885 SSS SSS SOSANASSSNRRBR BREEZE EE 35158 5598 SDRAMADDRO 526 VA E CE ER CI NEUE ER 2847 F13 3846 4 15 1906 A14 hes 405 2252255222 555552555555555555555555 5535555 99992680 99655 SDRAM ADDR2 82438004 4 5 22R PCLCBE 1818 38764 4 A S 28181613 SIM 1807 L SYNC 2x2 eRcccacnhnchapODDDDDDDODOD 05505500 65560565 55 gggx SDRAM ADDRES 26 V 38033 3 AA 6 BR PCI 1 _ 1819 3877 2 2 2819 G13 3848 J5 1808 A12 L FSYNC opt SDRAMADDR4 P243800 2 2 7 ZR VM PCI 0 18206 38771 1 AAA 2820 G13 385114 1809 A14 L Do SDRAM ADDRs 25 22022 2 177 228 RU ME ERE B 2821G13 3853 12 1810 A14 B1 5 1394 PCI XIO 12 SDRAM ADDRe M263802 3 v 8 22R AAG 2822 G13 3854 J12 1811 A14 LD2 8 SDRAM ADDR7 24 z pg NAA 2823 G13 3855 112 1812 A14 d SDRAM ADDRE lag 22022 2 R S SBR 2824 G14 3856 112 1813 14 tee SDRAM ADDR10 N243801 1 1 22R AM 2825 G14 3857 112 1814 A14 L D6 SDRAM ADDR11 24 3 EDI wy 5 28 2826 G14 3858 112 1815 14 107 SDRAM ADDRI2 8233801 3 3 A A G 22R Wk 3V3dig 2827 G14 3859 112 1816 B14 SDRAM ADDRIS 4 Vv 2828 F13 3860 112 1817 B14 mE SD
182. 6 A6 017 B6 018 A7 019 A7 020 A7 021 A6 022 A6 023 A6 024 A6 025 A6 026 A6 027 A6 1028 1029 1030 1100 1101 1102 1103 1104 1106 1107 1108 1110 1111 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1135 1201 1202 1203 1204 1205 1206 1207 1208 1209 1212 1214 1215 1216 1217 1218 1219 1220 1221 1222 1223 1224 1225 1226 1227 1228 1229 1231 1232 1233 1234 1235 1237 1238 1239 1240 1241 1242 1243 1244 1247 1248 1249 1250 1251 1252 1253 1254 A6 B7 B7 C1 C1 B2 B2 B2 B2 B1 B2 B2 B2 C1 B2 B2 B1 B1 C1 D1 D1 D1 D1 D1 D1 01 457 01 458 B1 459 D1 460 C1 461 B1 463 A1 464 D1 465 D1 467 D1 468 C1 469 A1 470 D1 471 1 472 Al 473 1 474 2 475 D1 476 C1 477 D1 478 D1 480 B1 481 D1 482 1 484 A1 485 D2 486 C1 487 C1 488 C1 491 C1 492 D1 493 D2 494 D2 495 E2 496 D2 497 Al 498 A1 500 E2 501 D3 502 D3 503 C3 504 D4 505 506 B3 507 C3 509 E4 510 C4 511 D2 512 C4 513 D2 514 C3 515 C3 516 C3 517 C3 518 C3 519 C3 520 C4 521 C3 522 C3 523 D2 524 D2 527 C3 530 D3 531 C3 532 C3 535 C3 536 C3 537 C3 538 E4 539 C2 540 C2 541 D2 542 C3 543 C3 544 C3 545 C3 546 C3 547 D3 548 C3 549 D3 1702 A3 1703 A3 1704 A3 1705 A4 1706 A3 1707 A3 1708 A3 1709 A3 1710 1711 1712 1713 1714 1715 1716 17
183. 6 C6 3125 8 3426 7115 88 Eni 20 Es 2337 CA 3126 AB 3427 7116 dg m Boi 7504 8 2503 om 2401 01 312788 3428 7117 qox QE B 5 8 D ay E 2402 01 3128 7 3429 7118 d se P 1618 3 jue 2403 A2 3129 B8 3431 7119 Say om ela 2404 B2 3130 A7 3435 7181 Em D 2407 C2 3132 B8 3437 Cl 7183 2501 2 7 7 7 ae 8 E 9 2409 B2 3135 A5 3500 Di 7300 b E 44 B EDHE e D 2410 B3 3136 A5 3501 01 7304 zs B 1325 2411 E1 2137 BB 3502 D2 7306 AN up y gt ull EB 55 2413 C3 3138 7 3503 1 7307 6404 1 2415 3139 B8 3504 03 7309 ye 8 2503 La 2416 D4 3140 A5 3505 D5 7312 Ji 2417 3141 A4 3506 D4 7313 aw B 2418 3142 5 3507 D2 7314 mmeo 2419 C1 3143 A7 3508 01 7321 2420 D1 3144 A7 3509 D3 7322 Bua 8400 2405 Part 4 2421 Ci 3145 3510 Bi 17323 Part 3 2422 B2 3146 B7 3511 B1 7324 2423 B2 3147 B7 3512 B1 7325 E E 14220 016c E 14220 016d 242 B3 3150 B7 3514 BI 7401 ISI 1081 2429 B2 3152 A7 3515 B1 7402 K 2430 B3 3154 A7 3516 B1 7403 6410 m 2431 2 3155 B7 3517 1 7404 2432 B2 3156 B8 3551 A1 7500 ET 2433 B2 3157 B8 3552 A1 7501 2434 1 3158 A7 3553 A1 7503 2436 2 3159 A7 3554 A2 7504 2437 C1 3160 A7 3555 A1 7551 2438 A2 3161 A7 3556 A2 7600 2439 B1 2162 A7 3557 A2 7700 2500 Di 3163 A7 3558 7701 2501 01 3164 3559 A1 2502 D5 3165
184. 60 G7 F961 H7 F962 H4 F963 H4 F964 H7 F965 H4 F966 H7 F967 H4 F968 H7 F969 H4 F970 H4 F971 H7 F972 14 F973 14 F974 17 F975 17 F976 H7 1950 A3 1951 A4 1953 B3 1954 B4 1955 C4 1956 C3 1957 D4 1958 D3 1959 D9 1960 E3 1961 F3 1962 F8 1963 G11 1964 G10 1965 G8 1966 G8 1967 G8 1968 H11 1969 H12 1970 H11 1971 H9 1972 10 1973 H8 1974 H8 1975 111 1976 A8 1977 A8 1978 A9 1979 C9 1980 B8 htt p ww j dwxzl w conf f ronuser Circuit Diagrams and PWB Layouts DVDR615 69 EAM Layout FEBE Top View 222 5 5 BRO 2702 BE 1000 5400 1905 id 1111 2416 1 0001 ar 72443 2668 2666 2446 NN 18 3412
185. 63 75685 7400 3198 010 42320 7401 9322 179 71668 7402 9322 173 41668 7403 3198 010 42310 7404 3198010 42310 7500 4822 209 62312 7501 5322 209 11102 7503 9340 219 30115 7504 9340 219 30115 7551 5322 209 11517 7600 9322 186 87668 7700 3198 010 42320 FEBE BOARD Various 1000 2422 025 17955 1001 2422 543 01368 1002 2422 543 01422 1100 2422 025 17821 1302 2422 543 01025 1400 2422 025 05548 1401 2422 025 18382 1601 2122 662 00152 1602 2122 662 00136 1901 2422 025 16389 1902 2422 025 16389 1903 8204 056 66001 SM PDZ12B SM PDZ12B SM PDZ12B BAS316 UDA1334BTS N2 DTA124EU W MC33079D DTA124EU W UDA1361TS N1 DTC124EU NCP301LSN47 DTC124EU BC337 25 BC847BW BC327 25 BC327 25 BC847BW TMP87CM74AF 5JP4 w mark ASP017 50921 non Lead free BC847BW DTC124EU BC847BW BSN20 BC857BW BSN20 BC847BW BC857BW BC857BW BC847BW SM STS9NFS30L TL431IZ STP16NFO6FP TL4311Z SM STS9NFS30L TL4311Z SM SI2306DS DTC124EU STP3NB60FP SM SI2312DS BF422 TEA1507P N1 BC857BW BC847BW BC847BW PHOTOCOUPLER TCET1108G BC547B TL431IZ SM SI2306DS SM SI2306DS BC847BW DTC124EU SM SI2306DS BC857BW NJM2285M STV6618 BC847BW BC847BW MC33078D HEF4052BT BC817 25W BC817 25W PC74HCU04T SM MSP3415G QG B8V3 BC857BW CON V 6P M 1 00 SRR RES XTL 24M576 12P CX8045 R RES XTL 24M576 18P CX8045 R CON H 45P F 0 50 FPC 0 3 R RES XTL 16M93 20P CX 16F R CON H 4P F 1 00 FFC 0 3 CON H 11P F 1 00 FPC 0 3 PTC 1812 16V 0R18 PM PTC 1812 6V 0R
186. 647 E11 3648 E10 3650 1 H7 3650 2 H7 3650 3 H7 3650 4 H7 3651 1 H7 3651 2 H7 3651 3 H7 3651 4 H7 3652 1 H8 3652 2 H8 3652 3 H8 3652 4 H8 3653 1 H8 3653 2 H7 3653 3 H8 3653 4 H8 3660 G2 3661 G2 3684 E10 3686 I3 3689 B9 3690 C9 3692 E4 3693 E2 3694 D2 3695 C3 3696 C4 3697 C4 4604 11 4605 A2 4606 A12 4607 B12 4608 B12 4615 B10 5602 A2 5603 A2 5607 110 5609 G2 5614 G5 5615 H10 5616 D5 5617 D2 6603 H2 6604 111 6605 111 6607 E3 7603 A4 7604 G3 7606 D3 7607 B4 7608 F3 1538 112 1607 B10 1608 B10 1609 B10 1610 B10 1611 C11 1612 C11 1613 C11 1614 C11 1615 C11 1616 C11 1617 D11 1618 D11 1619 D11 1620 E11 1621 E11 1622 E11 1623 F11 1624 F11 1625 F11 1626 F11 1627 F11 1628 F11 1629 A2 1631 F11 1632 G11 1633 A2 1634 A3 1636 G11 1637 G11 1638 G11 1641 G11 1642 G11 1643 G11 1644 H11 1645 H11 1646 E10 1647 G2 1648 G1 1649 E10 1650 11 1651 9 1652 G2 1653 12 1654 11 1656 1657 9 1658 110 1659 112 1662 011 1663 9 1667 G4 1668 D11 1669 E11 1670 E11 1671 B11 1672 H11 1674 A11 1676 H12 1677 E11 1678 D11 1679 D11 1680 H11 1681 112 1682 111 1683 B11 1687 D2 1688 D3 1689 D5 1690 D3 1691 D4 1692 E4 1694 C2 1696 C4 1697 F1 1698 H13 Circuit Diagrams and PWB Layouts DVDR615 69 EA htt p ww j dwxzl w conf f ronuser FEBE FE Tray Motor Switch Connection amp Debug Connectors 1 2 3 4 5 6 7 10 11 12 13 14
187. 6682 4822 130 31083 4822 130 31083 9322 184 68682 4822 130 31083 9322 184 68682 4822 130 31083 9322 126 71673 9322 161 78682 4822 130 31878 4822 130 10871 4822 130 11397 4822 130 11416 3198 020 55680 9322 206 47683 4822 130 34142 4822 130 80622 9322 206 47683 4822 130 30842 9340 548 69115 4822 130 34382 4822 130 11397 9340 548 61115 9340 548 61115 9340 548 61115 9340 548 61115 9340 548 61115 9340 548 61115 9340 548 61115 9340 548 61115 9340 548 61115 9340 548 61115 9340 548 61115 9340 548 61115 9340 548 61115 9340 548 61115 9340 548 61115 htt p ww j dwxzl w com 21 ronuser 47PF 5 1KV ELCAP ZL 1000UF 20 16V 10NF 5 250V 2 2NF 10 NPO 500V 2 2NF 5 400V 10R 5 0 33W 3M3 5 0 5W 3M3 5 0 5W 220R 5 0 5W 680K 5 0 5W RST MFLM PRO1 A 0R47 PM5 A RST MFLM PRO1 0968 PM5 IND FXD SM EMI 100MHZ 600R R 100MUH TFM SMT SLOT SRW28EC9 E01V0 B IND FXD LHLO8 202 PM20 A FIL MAINS 25MH 0A4 HF2022R Y 22UH 10 9X9 5 22UH 10 9X9 5 2 4UH 22UH 10 9X9 5 2 4UH 10UH 5 2 4 3 4 10UH 5 2 4 3 4 10UH 5 2 4X3 4 TRANSFORMER 6RG SAGA B 10UH 5 2 4X3 4 10UH 5 2 4X3 4 6 8UH 5 10UH 5 2 4 3 4 6 8UH 5 IND FXD SM EMI 100MHZ 600R R IND FXD SM EMI 100MHZ 600R R BAS316 BAS316 BAS316 BAT54 BAT54 PDZ6 8B BAS316 BAS316 BAS316 SOC FIB OPT JFJ1000 L SB340L 7024 SB340L 7024 BYW55 BYW55 STPS5L40 C2 BYW55 STPS5L40 C2 BYW55 BYT42M A SB360L 7024 1N4003G SBYV27 20
188. 7 5 check if the hardware info is filled correctly you can execute nucleus 1228 Nucleus 1228 info example g D amp S HyperTerminal File Edit Yiew Call Transfer Help DS gt 1228 Settings ID 4F31 6808080080802 26363 0801 61 61 6261 8800062008 0000 Board name Ni Hardware ID 34 Codec IC PNX7188_MF3 Video Input Processor IC SAA7118 Progressive Scan Deinterlacer IC None Progressive Scan Denc IC ADU7196 I Link physical layer circuit 1 PDI1394P25 I Link link layer circuit IC PDI1394P48 fludio clock Clock scheme 1 Bit engine connector available not available not available not available IDE connector 1 ROM size NOR FLASH bank 1 8MByte ROM size NOR FLASH bank 2 Not available ROM size FLASH Not available Bit Engine 122800 Test OK 8 DS gt _ Connected 0 02 26 Auto detect 92041 SCROLL Cepture Figure 5 8 6 Exitthe Terminal program 7 Reboot the DVD recorder to allow the software to start htt p ww dwxzl w conf 21 ronuser DVDR615 69 Diagnostic Software Command overview Digital Board Below you will find an overview of the nuclei their numbers and their error codes This overview is preliminary and subject to modifications Note AV3 in the overview includes also the AV3 5 drive CODEC HOST CONTROLLER CHR Nucleus Name DS_CHR_DevTyp
189. 7 11499 5902 4822 157 11499 5903 4822 157 11499 5904 4822 157 11499 5905 2422 536 00598 5906 2422 549 45634 5909 2422 549 45634 5914 2422 549 45634 5915 2422 536 00598 5916 2422 549 45634 5917 2422 549 45634 5918 4822 157 11499 5919 2422 536 00598 5920 2422 536 00598 5921 4822 157 11499 5922 4822 157 70649 5923 2422 536 00598 5924 2422 536 00598 5925 3198 018 90050 5926 4822 157 70649 5927 4822 157 11499 5928 4822 157 11499 5929 4822 157 11717 5930 4822 157 11499 5931 2422 535 94995 5932 4822 157 11717 5933 4822 157 11717 5934 4822 157 11717 5935 4822 157 11499 5936 4822 157 11717 gt 6001 4822 130 11528 6100 4822 130 11397 6400 9340 571 37115 6401 9340 571 37115 6402 9340 571 37115 6403 9340 571 37115 6500 4822 130 81637 6501 5322 130 31928 6502 5322 130 31928 6503 5322 130 31928 6604 4822 130 11522 6605 9322 159 72685 6900 4822 130 11528 EL 7000 9352 683 02157 7001 9352 682 52557 7005 935268381115 7006 5322130 60159 7007 9352 673 95518 7008 9322 116 74668 7101 5322 130 60159 7102 5322 130 60159 7103 5322 130 60159 7104 9340 547 21215 7201 9352 713 79157 7300 9352 713 77157 7401 5322 209 82941 7402 9352 735 89518 7403 5322 209 82941 7405 5322 209 82941 7409 9322 164 64668 7500 9352 737 02557 7503 3104 123 97361 7504 9322 166 67668 7506 9322 184 07685 7603 4822 209 17398 IND FXD 0603 EMI 100MHZ 150R R IND FXD 0603 EMI 100MHZ 600R BLM11P600SPT BLM11P600SPT BLM11P600SPT BLM31P500SPT BLM11P600SP
190. 707 Retrieving the current version failed 121708 Unknown recorder layout type 121709 Validating the section where the version is stored failed 121710 Getting the configuration section from NVRAM failed 121711 Initialisation of IIC or reaching NVRAM failed Example DS gt 1217 82 121700 Test OK Nucleus Name DS SYS SlashVersionGet Nucleus Number 1218 Description Get the slash version of the system Technical Issue the command to get the slash version to the analogue board Return the received information to the user Execution Time Less than 1 second User Input None Error Number Description 121800 Getting the slash version succeeded 121801 Getting the slash version failed 121802 The IIC write failed 121803 The IIC read failed 121804 There was no response from the analogue board 121805 No DS error code known for analogue board error 121806 Reading the slash version failed 121807 Initialisation of IIC or reaching NVRAM failed 121808 Reading an unexpected section version in NVRAM Example DS gt 1218 121800 The slash version is 82 Test OK Nucleus Name DS SYS Virginize Nucleus Number 1219 Description Re Virginize the recorder User data in the NVRAM of the analogue board is cleared Technical Issue the command to return to the factory defaults to the analogue board Execution Time 1 second User
191. 73 3874 3875 3876 3877 3897 3903 3904 5000 5001 5002 5003 5012 5013 5016 5018 5019 5022 5101 5102 5103 5104 5202 5300 5301 5400 5405 5501 5502 5504 5603 5607 5614 3198 031 13390 3198 031 13390 3198 031 13390 3198 031 13390 2350 035 10229 2350 035 10229 2350 035 10229 2350 035 10229 4822 117 13573 4822 117 13573 4822 117 13573 4822 117 13573 4822 117 13573 4822 117 13573 4822 117 13573 4822 117 13573 3198 031 13390 3198 031 13390 3198 031 13390 3198 031 13390 3198 031 14720 3198 031 14720 3198 031 14720 3198 031 14720 3198 031 14720 3198 031 14720 3198 031 11030 3198 031 11030 3198 031 11030 4822 157 11499 4822 157 11499 4822 157 11499 4822 157 11499 4822 157 11499 4822 157 11499 4822 157 11499 4822 157 11499 4822 157 11499 4822 157 11499 2422 549 44991 2422 549 44991 2422 549 44991 3198 018 51090 2422 549 44991 2422 549 44991 2422 549 44991 2422 536 00501 2422 549 44991 2422 549 44991 2422 549 44991 2422 549 44991 2422 549 44991 2422 549 45322 2422 549 44991 RST NETW 1206 4X 33R 5 COL RST NETW 1206 4X 33R 5 COL RST NETW 1206 4X 33R 5 COL RST NETW 1206 4X 33R 5 COL RST NETW ARV24 4X22R 5 RST NETW ARV24 4X22R 5 RST ARV24 4X22R 5 RST ARV24 4X22R 5 NETW 4 X 47 5 14 NETW 4 X 478 5 MNR14 NETW 4 X 47 5 MNR14 NETW 4 X 47R 5 MNR
192. 7927 B SOC CINCH H 1P F BK B 220MF 80 20 5 5V CERSAF KX 250V S 2N2 PM20 B ELCAP ZL 1000UF 2076 16V 1NF 10 500V 1NF 10 500V ELCAP ZL 1000UF 2076 16V 275V 220N 20 47NF 10 250V ELCAP LS 400V S 68U PM20 B ELCAP ZL 1000UF 20 16V 2319 2322 2325 2327 2328 3124 3300 3301 3316 3319 3330 3331 5100 5101 5300 5301 5303 5304 5305 5306 5307 5308 5400 5401 5402 5551 5600 5601 5700 5701 5702 5703 5704 gt 6001 6002 6003 6100 6101 6102 6103 6104 6109 6255 6300 6301 6302 6303 6304 6305 6306 6307 6308 6309 6310 6311 6312 6313 6314 6315 6316 6317 6318 6319 6320 6321 6322 6400 6401 6402 6403 6404 6405 6406 6407 6408 6409 6410 6411 6412 6413 6500 4822 126 14525 2020 021 91506 4822 121 41857 4822 126 10206 4822 121 51598 4822 052 10109 4822 053 21335 4822 053 21335 4822 116 83872 4822 053 21684 2322 193 14477 2322 193 14687 2422 549 43062 4822 157 50964 2422 531 02546 2422 535 94634 2422 549 44509 4822 157 11737 4822 157 11737 4822 157 70826 4822 157 11737 4822 157 70826 4822 157 11706 4822 157 11706 4822 157 11706 2422 536 00019 4822 157 11706 4822 157 11706 4822 157 11139 4822 157 11706 4822 157 11139 2422 549 43062 2422 549 43062 4822 130 11397 4822 130 11397 4822 130 11397 4822 130 80622 4822 130 80622 4822 130 11416 4822 130 11397 4822 130 11397 4822 130 11397 9322 175 41687 9322 161 76682 9322 161 7
193. 8 G5 1019 G5 TR20044 001 eps 1020 G5 14062004 1021 G5 SCLO SDAQ ITU_IN 7 0 CVBS Y IN ACVBS Y IN _ IN IN 6 IN VIP Y IN IN VIPR IN IN VIP 5011 3V3 VDDA 7118 1008 VDDA1A 7118 3V3dig 1001 f 5012 OONN 3 3 5013 2045 100n 2046 100n 2051 100n 2055 100n 2062 4u7 4 20 400 33 VIP 5014 1002 1003 1004 n 4 4 4 V 100R VDDA2A 71 VDDE 7118 43V3 VIP 5015 1005 gt AV 1006 5016 E 1006 7118 ANN 33 7005 74LVC1G32 IGP1 2064 2065 100n tly Ra 2066 100n 2067 100n 2068 100n 2069 100n 2073 VDDI 7118 1007 1 1 1 5017 1008 option M MN w0 100R 6001 1PS76SB10 VDDA4A 7118 Srl 009 56 5019 700 Vig 1010 3V3digle Y Y Y 023 WA 2074 100 Tvopx 7118 1030 2075 100n 2076 100n 2077 100n VDDE 7118 2082 150p 3063 2083 4u7 2084 100n viP_RESETn 5021 5022 3 OT 33V3dig 3065 VV 100R 3067 Scio 1 VIP FB mi y _ 4005 OPTION 5 3064 AN 2 2 3066 2085 1 0 4006 L QI 3068
194. 811 3 D11 7802 12 5 VIP ERROR gt 5 IDE pD11 022 3813 4 33R F814 3811 4 E11 7804 J6 Sid MERGE MUTE Lun PIOS TEST GENERAL DIGITAL AUDIO INTERFACE UARTS IDE Dp12 AE23 3814 3 6 33R F815 e CAS 0 DQM 0 DQM 1 DQM 2 DOM 3 RAS 0 WE 0 CKE HSCKB 3842740 TBOSHM a z m 2 IDE DD13 AF24 3814 2 33R F816 WW MPIO8_1394_CNA 85 amp e d Zoe Bi 5 5 55 25 gt IDE Dp14 AD24 3815 2 F817 amp IDE DD 0 15 3812 2610 F800A9 lt 28528 Zzzzz E 23555558899 5855959 824 3815 3 6 33R F818 e 3812 3G10 F801 C2 sSVsdig 29590055554 assesagasasaas 50902225906 seos H 38124010 F802 D2 3 22202222882 Lees 58885885 20855880025 5 82 m OOO 33d 3813 1H10 F804G11 zz els K Ie Ie 852 Sx TALVC245APW S g TUIDIHE TE m SIE gl E 5 kk SE ae ao 3813 4 H10 F807 9n 8c el oo MPIO22 PCI RESETn 1G3 38141 910 iod G11 2806 LL AV 5 1 18 3858 A A 228 9833 IDE_DMACKn 3814 2 H 7802 lt lt lt lt J 7 VVVVVVVVVIAAAA ED 5 vp VV 3814 3 H10 F810 G11 7ALVC1G125 1000n lt M M PURUS UR 9 EE 2 9bb5kkEERS lt gt 17 3863 33R 2838 IDE CSin 3814 4 G10 F811 G11 2 DT MM b SS 4 55 58 a 88 o 2052888
195. 9 1 1 9 1 2 9 1 7 htt p ww dwxzl w conf 21 ronuser DVDR615 69 Circuit IC descriptions and list of abbreviations Circuit IC descriptions and list of abbreviations MOBO Analog Board General The pcba consists of the following parts Control unit Slave uP Power supply unit Frontend Audio amp Video Input Output switching e Audio ADC amp DAC processing 1 Blaster for EPG sets only Control unit Slave uP The core element of the MOBO analog board is the slave uP TMP87CM74AF 7107 It runs on a 5V supply and is responsible for the following functions e Interface with the Chrysalis chip on the FEBE Digital backend Evaluation of the keyboard matrix on the Front board Decoding the remote control commands from the infra red receiver e Activation and control of the display Heater voltage generation Fan control RBlaster for EPG sets only It runs on a high clock frequency of 8MHz with resonator 1101 and a low clock frequency of 32 768kHz with resonator 1102 Interface to the Chrysalis chip The communication to the Chrysalis chip on the FEBE Digital backend is done via 2 interface where the TMP87CM74AF acts in slave mode Evaluation of the keyboard matrix A resistor network on the Keyboard on the Front board is used to generate a specific direct voltage value KEY1 amp KEY2 line depending on the pressed key Via the resistor
196. 924 Description Read the TOC from the disc This gives a good indication if the BE works properly Technical Send the TRAY command Send the READ TOC command Display the TOC info Execution Time Approximately 10 seconds User Input None Error Number Description 92400 A disc is loaded TOC info if echoed 92401 Unable to load the tray 92402 The BE has not returned TOC info 92403 Error received from BE Example DS gt 924 092400 TOC info hex 91 Test OK DS gt 924 092403 The BE returned 0x10 no disc error No disc is detected Error DS gt 924 092403 BE returned 1 z illegal medium error Engine unable to handle current disc Probably illegal medium Error Nucleus Name DS BE DiscErase Nucleus Number 925 Description Perform a DC erase on a DVD RW disc Technical Check if an AV2 or AV3 is connected In case of an AV2 Execute 05 BE GetSelftestResults Send the TRAY IN command Send the READ TOC command Send the SET INPUT TYPE command with parameter DO ERASE Overwrite the header of the DVD RW disc with DC erase data Send the SET INPUT TYPE command with parameter NORMAL In case of an AV3 display a not supported message Execution Time Approximately 1 15 minute User Input None Error Number Description 92500 A DVD RW disc is erased 92501
197. B COMMUNICATIONIICNVRAM NUC 25 DS ANAB COMMUNICATIONIICTUNER NUC 26 DS ANAB COMMUNICATIONIICSOUNDPROCESSOR NUC 27 DS COMMUNICATIONIICAVSELECTOR NUC 28 DS ANAB CHECKSUMPROGRAM NUC Note Invocation by holding down the PLAY button when powering up the system Included tests Note The following example is for a generation 2 1 DVD RW recorder The variant you test may behave differently For a detailed description of the script behaviour of your variant under test refer to the RW2 1 SWA DS Example DS gt script Executing User Dealer script Busy executing NUC1100 1 28 Hello Analogue Board Busy executing NUC1000 2 28 Busy executing NUC200 3 28 Busy executing NUC1228 4 28 Settings ID 4C4541440D0000000003030001 0101020101000020080000 Board name LEAD Hardware ID 0 Codec IC PNX7100 MF3 Video Input Processor IC SAA7118 Progressive Scan Deinterlacer IC None Progressive Scan Denc IC ADV7196 I Link physical layer circuit IC PDI1394P25 I Link link layer circuit IC PDI1394P40 Audio clock Clock scheme 1 Bit engine connector available IDE connector 1 available IDE connector 2 not available PCI connector not available RAM size 32MByte ROM size NOR FLASH bank 1 8MByte ROM size NOR FLASH bank 2 Not available ROM size NAND FLASH Not available Bit Engine AV 2 0 htt p ww dwz w com f ronuser Diagnostic Softw
198. BIT AUDIO 7 100u 6 3V 5 1014 10 not used 5NSTBY 11 from PS lt 5NSTBY 3V3SW 5VSTBY 5NS 4 BY 10K 1 5NSTBY 11 ov 14 4 MC33079 7003 D A 5VSTBY 3020 GND GND 100K 1 2019 33p 2025 10 not used 5 5V 5NSTBY 11 ov 1 527 MC33079 7003 A A 5VSTBY 5 1V 22 8 to IOA MSP MC33079 7003 C 5VSTBY F005 F016 ARDAC ALDAC Tekstop A Chi 7 Sep 2004 00000 17 5732 10K 1 5NSTBY 2028 11 100n to IOA MSP 016 ov LD ALDAC 7 74 MC33079 5 7003 B 2031 GND 100n 5VSTBY GND E 14220 011 290904 1900 C1 2001 4 2002 A4 2003 A6 2004 A3 2007 B6 2008 B6 2009 B7 2010 B7 2011 B8 2012 B4 2013 B6 2014 B8 2015 C5 2016 C6 2017 Al 2018 C5 2019 D8 2020 D6 2021 D6 2022 D7 2023 D7 2024 D5 2025 D8 2026 D5 2027 D6 2028 E9 2029 E1 2030 E1 2031 F9 2032 F3 2033 F3 2034 B9 2035 D9 2036 A3 3001 A3 3002 A7 3003 A8 3004 A8 3005 A3 3006 B2 3007 B2 3009 B6 3010 B7 3011B2 3012 B3 3013 B7 3015A1 3016 A1 3017 3018 D6 3019 D7 3020 D7 3021 D8 3022 D2 3023 D2 3024 D2 3025 D6 3026 D7 3027 E7 3028 F3 3029 E2 303
199. BUF S 7 VDD_PLL_BUF J 7924 2 82 x 7ALVC125APW 2 5 gt 5012 OUT gt yh WE IN x EN I VDD PLL BUF 7924 3 7ALVC125APW SCK012 OUT gt gt SCKE_IN EN FL option 4909 el VDD BUF VDD PLL BUF 7924 4 7924 1 74LVC125APW k 7ALVC125APW 12 SCLKE IN PNX FSCLKO12 OUT gt 2 D1 1962 y EN MPIO25 FSCLKE OE MPIO26 FWSCLKO12 p EN 3992 1 VDD BUF 10K gt FSCLKE_IN 1904 F957 F958 5929 1963 SUPPLY aus o Doo 1598 1000mA F 1000 5 B12B PH SM3 TBT 286234 24 F960 1906 1967 5932 5930 1964 1008 EL 1 4 OWN 3V3dig 12010 L STSSDNFaOV 7 g 8 201 1000mA F 2847 lt 74922 71 L n e COPS gt 1215 7929 2 CI NCP1570D m Fee 5933 6 e lt lt p H12Vdig 8 5 1 5 7 F966 2841 GATE H 1968 5931 1969 8 F968 6 8 I usos 10 GaTe 10u LI 10 2842 VFB 8 1970 5 6 SLF 10145 3 eo LI PGDELAY 4 gt 100 COMP n P 7928 2 ATS T A 1908 1973 5934 PWRGD STSSDNF20V lt m 2244 5Vdig 5 1000mA 1974 5936 3 x D Se 543 1972 aL 2843 mp 9 65 t I F975 dn 5935
200. C21 3416 1534 A4 1535 B3 1u0 10V 560R not used DAINOPT lt to DAC ADC to DIGIO2 for DVDR740 ONLY a m a 7551 2 5V1 74HCU04D 14 4 7 3561 100R not used 3 7551 5 5V1 74HCUO4D 14 10 7 11 7551 4 5 1 L Li OPTICAL OUT 0006 BRACKET 7 pP OPTION E 14220 012 290904 htt p ww j dwxzl w con f ronaser Circuit Diagrams and PWB Layouts EM LEN MOBO Board Control Unit CU 1555 7102 7104 Emitter 1556 X tal 1101 7107 pin 9 LARA 1558 X tal 1101 1 7107 pin 8 AAAAA 1595 X tal 1102 IC7107 pin 12 1598 X tal 1102 IC7107 pin 11 te E F113 107107 pin 19
201. CH 3 4 B MOD MOD ON OFF VIDEO IN N C RF AGC GND AS nj SCL SDA B B N C TU N C IF OUT SW1 N C AUDIO OUT SIF OUT AFT AMCO From MSP CSW from IOV MSW from IOV SDA 5V from to CU SCL 5V gt from CU VIDEO OUT htt p ww j dwxzl w con f ronaser Circuit Diagrams and PWB Layouts LIEN 7 Circuit Diagrams and PWB Layouts 3700 A9 3702 B9 3704 D2 5700 D3 5702 E7 3701 A9 3703 B9 3705 E1 5701 D6 5703 E4 1700 TCPK0601PD13F PAL NTSC APAC 1702 not used 115 V DO25AH 1701TCMN0682PA13F1 NTSC 5704 E4 7700 A9 7701 E2 F700 A5 F701 D6 1174 E2 6 1700 A9 1701 A8 VID OUT RF MODULATOR MOD ON OFF MB MD TU VID IN x Sw CONTROL BC857BW 7701 IF DEMODULATOR 1702 A9 1703 A8 1704 B8 1705 D4 7 VID_OUT 1706 D4 1707 D5 1708 D5 1710 D6 1709 D5 1711 D6 From PS 33VSTBY 5VSTBY 33VSTBY 5VSTBY 1712 D6 1713 E1 Le SIF_OUT SIF_OUT AUD_OUT AUD_OUT
202. CLK in 2R PNX7100 ITU IN VAL FIFO ITRI 112 CBCR gt VBI DATA ____ SUR een gt YY Y arn VIDEOTEXT 4 amcik Pit 014 BOUNDARY ARBITER 29 2 15 X lt 1017 _ IGP1 Y nf gt 5 ADC1 P 3 lt va ANALOG INPUT CONTROL Y Y VIDEO FIFO lt 38 oz lt peek 3 ADC1 YCBCR 2089 100n B IN VIP 1 F3 UN Gi 34 2092 100n Bi va PRESCALER BCS SCALER FIR PREFILTER LINE FIFO BUFFER VERTICAL SCALING HORIZONTAL FINE PHASE SCALING Y OUTPUT FORMATTER I PORT ADC1 YCBCR YCBCRS m x lt va o o 2 o DECODER OUTPUT CONTROL R_IN_VIP Al Di A43 IN VIP ADC1 vvvvvv v ANALOG1 ANALOG1 ANALOG1 AN LOG1 74 v o 2 a y 9 a 8 gt 2 gt gt VSSA HPI 4 gt gt XRDY XPDO XPD1 VXSS 04 gt XPOS XPD6 XCLK lt gt lt B11 xrR D14 HPDO E12 HPD2 E14 G13 HPD7 F13 F14 A6 E11 E13 AS B5 c2 12 4 2 J4 H3 4 1022
203. COBAD 9 1961 8 20_ _ io 8 vIP_RESETn E em 5 n al ANALOG BOARD INTERFACE E Im lt zi S p zi k Q x 9 5 lt UART1 A RXD3 3993 WV 3340 oPrioN 100R 394 828 s Se 3995 a F959 T 100R F962 lt M 4 9 Sj o M i 3997 OPTION 3998 OPTION 1008 6 _ I V 5 lt 4 3999 2 SCLO gt 2 lt 100R 1 3078 F9 gt A y VIP FB 100R OPTION F973 3086 17 WE LV LANA 100R gt 52 _ SERVICE INTERFACE 3V3dig gt e VDD BUF 3973 1976 1977 Rue Tom AK7 5Vdig 3974 AA AAA 4K7 2990 F950 15 L e n 1903 5Vdig F952 1 e 2 H h F954 5 e 6 7 1979 3975 F935 B7B PH SM3 TBT VA svig o 10K 3978 MWA lt RXD_IN RET ENCODER 125 CLOCK SOURCE SWITCH 8 8 VDD PLL
204. Chrysalis 7800 has a complex clock system which is e SDRAM 7902 and 7903 38 133MHz provided by needed to support the processes running at different PNX7100 frequencies such as video decoding audio decoding or 1394 LINK 7001 pin 88 49 152MHz provided by 1394 peripheral I O devices etc To ensure a synchronous PHY initialization of all the registers and state machines all the PLLs 1394 7000 pin 59 and 60 24 576MHz provided by are switched to their default frequency and the reset sequence crystal 1001 is run at 4MHz Then when the booting control unit is correctly initialized and once it has captured all the booting parameters Memory it sets the PLLs to its functional frequency to allow the modules Several memories are used on the Chrysalis 7800 to run at their nominal frequencies Thanks to a clock blocking EEPROM 7904 this memory contains all the necessary mechanism the frequency switching is glitch free boot parameters of the board e EEPROM 7905 this memory contains all the necessary System clocks parameters for the application e PNX7100 7800 pins AF9 and AF10 4MHz provided by e FLASH 7900 this memory contains the application the crystal oscillator 7804 diagnosis and service software e SAAT7118 7007 pins and B4 24 576 MHz provided by crystal 1 002 Reset 3V3dig Y T 7800 7923 1 Reset_IDEn 7 amp 7926 NCP303 gt 1 PNX7100 Resetn gt
205. D IPH gt OUTFCS VDDSPN1 2 GNDACT m 5 3 VDDACT GNDSPN2 95r 2 OUTTRK ub k OUTTRK VDDSPN2 gt OUTTLT 35 OUTTLT GNDDIG b lt a CURSLD1 INSPN 2 7 OUTSLD1 REF 2 OUTSLD1 m VDDANA CURSLD2 1 5 OUTSLD2 OUTSLD2 CAPY VDDSLD CTL1 MUTE GNDANA STANDBY CTL2 FUNCTIONS INSLD2 2 INSLD1 Fig 2 Block diagram SA56202 Figure 9 29 htt p ww dwxzl w conf 21 ronuser DVDR615 69 PIN DESCRIPTION Circuit IC descriptions and list of abbreviations PIN SYMBOL DESCRIPTION PIN SYMBOL DESCRIPTION 1 HU positive Hall input U 56 COSC ext capacitor for int oscillator 2 HU negative Hall input U 55 DIODE diode for temperature readout 3 HV positive Hall input V 54 GNDDIO temperature diode ground 4 HV negative Hall input V 53 INLD loading driver input 5 positive Hall input W 52 INFCS focus driver input 6 HW negative Hall input W 51 INTRK tracking driver input 7 HBIAS Hall element bias 50 INTLT tilting driver input 8 RREF ext res for current reference 49 VDDLD loading driver power supply 9 REMF ext res for EMF regeneration 48 OUTLD loading driver positive output 10 RLIM ext res for current limit 47 OUTLD loading driver negative output 11 1 spindle driver power ground 1
206. DE ALFA LASP Vdel Vthr VREF Othr CD MODE HIGH GAIN IRQN OSTR SDA SCL oDel 5 ES 1 5 2307 E2 2308 D3 2309 C7 3V3D 3V3A 1308 XTAL 1302 I320 CLKOUT 1C7300 pin 4 2310 B2 ka 2311 A2 2312 A2 3300 B2 3301 C7 3302 D2 3303 A2 3304 C6 3305 C6 TE 3306 C6 3308 B2 3309 B2 3315 B3 3316 C2 4303 B3 22n 5300 E3 L310 5301 E1 7300 A4 1300 C3 1301 C3 1302 C5 1303 E4 1304 D3 1305 D3 1306 C3 1307 A2 1308 B3 1310 B3 5 1311 B3 1312 C3 1313 E1 a 1314 B3 m 1315 C5 2308 100 T Temp vat 1318 C6 1319 C3 1320 A3 L301 D5 L303 D5 L304 C5 L305 B3 L306 C5 L307 D3 L308 A3 L309 C6 L310 B5 L311 C5 1317 2305 3316 Vio 1305 OPTION A a e gt e L307 5300 1303 TR20036_001 eps 14062004 Circuit Diagrams and PWB Layouts FEBE FE Drivers htt p WAN j dwxzl w conf f ronuser DVDR615 69
207. DbIn YC 12 Scart 2 RGB to Scart 1 RGB 13 Scart 2 CVBS to Scart 1 CVBS 14 Scart 1 CVBS to Scart 2 CVBS Table 5 4 Available VIDEO path Ids for NAFTA routing NAFTA Path ID Description DbOut Digital Board Output DbIn Digital Board Input 00 DbOut CVBS YC YUV to RearOut CVBS YC YUV 01 DbOut CVBS to RearOut CVBS FrontIn CVBS to DbIn CVBS 02 DbOut YC to RearOut YC to DbIn YC 03 DbOut CVBS to RearOut CVBS Rearln CVBS to DbIn CVBS 04 DbOut YC to RearOut YC to DbIn YC 05 DbOut YUV to RearOut YUV to DbIn YUV 06 DbOut CVBS to RearOut CVBS Tuner CVBS to DbIn CVBS 07 DbOut CVBS to DbIn CVBS 08 DbOut PSCAN to RearOut YUV AUDIO MATRIX SOUND PROCESSOR AMIX Nucleus Name DS_AMIX_Communication Nucleus Number 1900 Description This nucleus checks the communication between the IIC controller of the Codec and the Audio Matrix sound processor on the analogue board Technical Test whether anything can be read from the sound processor Execution Time Less than 1 second User Input None Error Number Description 190000 Communicating wit the Audio Matrix succeeded 190001 An IIC bus error occurred 190002 There was a timeout reading the device 190003 The IIC bus was not accessible 190004 The acknowledge was not received 190005
208. Description Turn on the display fatal functionality which displays debug information on the display when encountering a fatal error condition from which could not be recovered automatically Technical Issue the command to use the display fatal functionality to the analogue board Execution Time Less than 1 second User Input None Error Number Description 122300 Turning on the display fatal functionality succeeded 122301 Turning on the display fatal functionality failed 122302 The returned error code from the analogue board is unknown 122303 No DS error code known for analogue board error 122304 There was no response from the analogue board 122305 Section validation or write failed in NVRAM 122306 Reading the section from NVRAM failed 122307 Initialisation of or reaching NVRAM failed Example DS gt 1223 122300 Test OK htt p WAN duxzl w cona f ronuser Diagnostic Software 5 LIN Nucleus Name DS_SYS_DisplayFatalOff Nucleus Number 1224 Description Turn off the display fatal functionality which displays debug information on the display when encountering a fatal error condition from which could not be recovered automatically Technical Issue the command to stop using the display fatal functionality to the analogue board Execution Time Less than 1 second User Input None Error Number Description 122400 Tur
209. Get Nucleus Number 805 Description Get the colour settings of the hatch or the frame field Technical Initialise Read the colour settings from the DENC through IIC Execution Time Less than 1 second User Input None Error Number Description 80500 Getting the colour settings succeeded 80501 The progressive scan DENC IC was not accessible through 80502 Unable to get colour 80503 No chip was expected Example DS gt 805 080500 Colour Y Cr Cb values 0 02 0x92 0x10 Test OK Nucleus Name DS_PSCAN_Routing Nucleus Number 806 Description Route a video signal from the codec host processor through the progressive scan ICs to the progressive scan output of the set Note To route the progressive scan to the output of the set first call the nucleus to do the video routing on the analogue part of the board Technical Initialise the PIO pins of the Codec Initialise IIC Reset the DENC Enable the 27Mhz clock Send all settings to the DENC through IIC Execution Time Less than 1 second User Input None Error Number Description 80600 Routing path is created successfully 80601 Unable to initialise the Codec 80602 Unable to access DENC 80603 Unable to access de interlacer 80604 Wrong chips were expected Example DS gt 806 080600 Test OK htt p
210. Hz gt 48dB 4 8 MHz 2Vrms 1dB 0 22dB gt 100dB gt 87dB 0 2dB max gt 85 dB gt 83dB gt 83dB htt p ww dwxzl w cona f ronuser EM Technical Specifications and Connection Facilities Distortion and noise 16Hz 20kHz gt 75dB Intermodulation distortion gt 70dB Mute gt 95dB Outband attenuation gt 40dB above 30kHz 1 8 Digital Audio Output 1 8 1 Coaxial CDDA LPCM incl MPEG1 according IEC958 MPEG2 AC3 audio according IEC1937 DTS according IEC1937 amendment 1 1 8 2 Optical CDDA LPCM incl MPEG1 according IEC958 MPEG2 AC3 according IEC937 DTS according IEC937 amendment 1 1 9 Digital Video Input IEEE 1394 1 9 1 Applicable Standards Implementation according IEEE Std 1394 1995 IEC 61883 Part 1 IEC 61883 Part 2 SD DVCR 02 01 1997 Specification of consumer use digital VCR s using 6 3 mm magnetic tape dec 1994 Mechanical connection according Annex A of 61883 1 1 10 Dimensions and Weight Height of feet 5 5mm Apparatus tray closed WxDxH 435 x 285x 65mm Apparatus tray open WxDxH 435 x 422x 65mm Weight without packaging app 4 kg 0 5 kg Weight in packaging 6 5 kg 1 11 Laser Output Power amp Wavelength 1 11 1 DVD Output power during reading 0 8mW Output power during writing 20mW Wavelength 660nm 1 11 2 CD Output power 0 3mW Wavelength 780nm
211. ISE 7201 64 63 62 61 60 59 58 57 56 55 54 53 52 51 60 49 9 8 5 22 lt 209 x 1215 thu 7 58 Z 1217 1 MIRN 4 u 1219 2 GNDIA 52 XDN 47 S2 XDN 4 1218 1221 D 3 monz 46 MON2 4 re us wont 46 p MON1 J 5 vopic 4 5Vd 1224 2228 NREN 6 RFNIN 43 1226 10n 7 REPIN TZA1047 envi 2 1228 3206 5Vd VDD1A 21 ha 1227 s 2 Ne 2 wo 2 cou 40 29 10 v 39 007 224 27 5Vd VDD1B CA1 ss 10n 2215 1231 10n 12 vig mane 2218 126 1233 4 KvIG 13 vig BIG jon TNRW Del 14 39 IRAT 2217 47n Pena 1259 15 soa pen 34 re PPNO 4 1248 1241 16 ss 5 m 5565 A 33 08 88 4 5 roy REN3 1 euo 858 ase 5 STR 8 5Vd JNIMOUT 5Vd 5Vd Y Ex acy 7 8 25 858 5Vd lt ase jh SSN N gt ASN 3 ae Kermcukn 1254 3209 1240 1257 azs 2229 PX 7002 VN AV 1kg 1258 100R 560p ha BFS20 2230 3224 BS us kad L 4 848481 ip Nerm cLkp 261 SAW si kalka SSS gre K EFM RWN Nemm patan 22 321 TIMOUT 1263 2 ped pam a NEFM DATAP AA KB REP3 H 1K8 1518 1 lt 5 Y IE TIS N RW Del 9 amp 9 ee Z au 85 ASN DN 1259 3219 2
212. LED 1O RC 1924 1923 5VSTBY Aw 3 Keyboard Main em 1001 CFIN 3 GND DISPLAY E 14220 008 280904 htt p WAN dwxzl w com f ronuser Block Diagrams Waveforms Wiring Diagram 6 EEJ Waveforms MOBO Board Waveforms 1406 Y_OUT 1409 U_OUT 1422 C_OUT 1424 Y_OUT 1505 1512 AIN2R AIN2L Tek sto F422 Y OUT F425 C OUT F433 CVBS OUT 1403 V OUT i i 1 4 E 1 1 1 PENNE m see TENIS TENES SES ME as IC SUPE ON 1 PENE NOR 1 icai cr aa ch Eds Sh 7 5 ev d RAM ATH is A RT A Rm 23 Aug 2004 Aug 2004 Aug 2004 Aug 2004 Aug 2004 23 Aug 2004 Aug 2004 Aug 2004 Z Sep 2004 gt 0 000008 00 26 58 00 24 48 0 000005 0 000005 01 24 04 Gen 70 0000p5 01 23 21 6 000005 01 28 59 57 0400095 005115 gt 0 000008 00 52 31 fer 0 000005 15 1942 1515 1518 AFER AFEL F005 F016 ARDAC ALDAC 1502 1510 ARADC ALADC 1C7500 pin 7 1 1321 Vgate Standby 1322 VSource Standby F331 VDrain Standby 1321 Vgate No Disc 1322 VSourc
213. O NOI LO3 LOHd d3AO poys NOILOJLOHd AWIL NO INDIWIXVIN oejop 1sunq 3ounos LNAYHND dN LHYYLS 19534 NO H3MOd NOI LO3 LOHd qunivHadiNaL TOHLNOO AONanoud YHOLVTIIOSO Q3TIOH LNOO Hes OJAN IN3IN3O9VNVIN 2051731 j 6 79419 5 92 4 Figure 9 15 htt p ww 2 w conf 21 ronuser DVDR615 69 Circuit IC descriptions and list of abbreviations 1C7402 STV6618 MOBO Board Video Switch Matrix 1 2 Pin Description Pin No Symbol Description 1 Y CVBSIN TUN Y CVBS Input from Tuner 2 DIGOUT3 Digital Output Pin 3 3 GND1 Ground Supply 1 for Video Inputs 4 CVBSIN_ENC CVBS Input from Encoder 5 DECV Video decoupling capacitor 6 CIN_ENC Chroma Input from Encoder 7 YIN_ENC Y Input from Encoder 8 5 V Power Supply for Video Inputs 9 Red or Pr or Chroma Input from Encoder 10 G YIN ENC Green or Y Input from Encoder 11 B PBIN ENC Blue or Pb Input from Encoder 12 GND2 Ground Supply 2 for Video Inputs 13 B PBIN AUX Blue or Pb Input from Auxiliary SCART2 or external Cinch 14 DIGOUTA Digital Output Pin 4 15 G YIN_AUX Green or Y Input from Auxiliary SCART
214. OCK 13 0 3029 4 F032 2033 27 gt 4 AA 3003 3 E12 F022 D7 O6 k 07 5 AAA 4 57 CYCLEOUT 4 98 3047 AAA 10K I s ous 1 A 2 AVIERRO 96 3003 4E12 F023 012 disse 43 20 47 1394MODE x AVIERR1 97 3045 3004 1E12 F024D12 gt AVIREADY 118 F035 3004 2E12 F025 7 1394 CLK 44 TRANSMIT pal 21 10R 3034 92 LINKON gt lt gt r 3V3 LINK z OPTION 4 DATA k 92 gt gt 40K 3004 3E12 F026 D12 45 ENCODER Pc2 22 3035 8V3 LINK gt 3004 4 E12 F027 012 3601 spa E E 3005 1 F12 F028 07 46 3 P036 4001 3005 2 612 F029 02 T i VN E MPIOB 1884 42 RESET AV2DO 133 30034 4 5 E 33R MX 900 3005 3G12 F030 012 47 1904n T gt CONTROL im avaja 30033 3 VV MX D 1 3005 4 612 F031 012 2576 53 F037 4002 AND AV2D2 135 30032 2 7 33R MX 002 2007 lt 4 Dx AAA 3006 1 612 F032 D7 gle gle 54 STATUS 2 ge x AV2D3 136 3003 1 1 8 33R MX D 3 30062612 F033 D8 toon _ 208 5 PDI1394P25 lt T REGISTERS MDS E 3006 3G12 F034 D12 Eam I LA NAT 33R MX D 6 3006 4612 F035D12 OPTION e AV2D7 142 30041 1 8 33R MX D 7 L O9 o E EST AL 124 EET M cuc 3007 1 G8 F036 E5 AGND DGND PLLGND gt gt VVV 3007 2 G8 F037 E5 E 35 u l
215. R SineOff nucleus Execution Time 4 seconds User Input None Error Number Description 10500 The sine signal burst was successfully generated 10501 The delay did not succeed during the burst 10502 The audio sine could not be generated Example DS 105 010500 Test OK Nucleus Name DS CHR MuteOn Nucleus Number 106 Description Mute the audio outputs of the digital board Technical Send the Mute command to the audio decoder Execution Time Less than 1 second User Input None Error Number Description 10600 Muting the audio succeeded htt p ww 2 w com f ronuser Diagnostic Software DVDR615 69 LXI Example DS gt 106 010600 Test OK Nucleus Name DS_CHR_MuteOff Nucleus Number 107 Description De mute the audio outputs of the digital board Technical Send the DeMute command to the audio decoder Execution Time Less than 1 second User Input None Error Number Description 10700 De muting the audio succeeded Example DS gt 107 010700 Test OK Nucleus Name DS CHR DvLedOn Nucleus Number 108 Description Check the connection to the DV LED on the digital board by switching it on Technical Write to the PIO pin to light the DV LED Execution Time Less than 1 secon
216. R615 69 5 GEJ Error Number Description 70400 Routing the signals succeeded 70401 The 1394 link chip could not be initialised properly 70402 There was a syntax error in the DV stream 70403 DMA could not copy DV stream to memory Stream connect ed 70404 DMA not working properly Example DS gt 704 070400 Test OK Nucleus Name DS_DVIO_DetectNode Nucleus Number 705 Description Check whether a DV node can be detected by the hardware This test works for both NTSC and PAL Technical Initialise the 1394 interface Detect whether a node is in range Execution Time 3 or 5 seconds 3 when OK 5 when no stream or error User Input None Error Number Description 70500 The node was detected OK 70501 The 1394 link chip could not be initialised properly 70502 Unable to write to 1394 PHY chip 70508 Unable to read from 1394 PHY chip 70504 No node was detected Example DS 705 070500 Test OK Nucleus Name DS DVIO DetectStream Nucleus Number 706 Description Check whether a DV stream can be detected by the hardware This test works for both NTSC and PAL Technical Initialise the 1394 interface Start receiving the stream Detect whether the stream is OK Execution Time 3 or 5 seconds 3 when OK 5 when no stream or error User Input None Error Number Description 70600 The stream was detected 70601
217. RANEADDIST 2829 F13 3861112 1818 B14 C25 3807 4 4 AA 5 478 2830 F13 3862 112 1819 B14 4 SDRAM DATAO A MTUINOQ mE 1 D243807 1 1 A A 8 47R 2 5 2831 F13 3863 12 1820 B14 ITU IN 3 ITU IN3 SDRAM DATA2 D 5 D AAA STR 2832 F13 3864 J12 1821 14 ITU IN4 F23 VN 38063 3 AA 6 478 2833 F13 3865 J12 1822 B14 ITU INS l I VV N imine SDRAM DATAS 2538052 2 A 7 47R 2834 F14 3866 J10 1823 E10 ITU 7 F1 ITU IN7 SDRAM DATAe 623 3806 4 4 AA 5 478 2835 14 3867 J10 1824 F10 I 5 SDRAM DATA7 6253805 4 4 A A PNX7100 TRST 2836 F14 3868 J10 1825 F10 PNX7100 HS IN HS IN SDRAM DATAB c GERD III mE AAA ETR 2837 14 3869 12 1826 F11 SDRAM PNX7100 HS OUT HS OUT AE F26 ANN 3805 1 1 8 ATR PNXT100 TMS 2862 J5 3870 A12 1828 13 3819 3827 VS OUT sor EE 885 888858 SDRAM DATA11 2038062 2 7 4TR PNXT100 25631911 1846 11 PNX7100 VS OUT o 2229229 88 888 222222 SDRAM DATA12 26 3804 3 3 6478 EJTAG RESETn 3061 G1 3872 A13 1838 F13 Gi mur 5555555 58 559 556666 DRAM DATA13 2438072 2 An 7478 Y 3800 1 B11 3873 1 A14 1839 E13 32MB x 7100 T4 ITU IN CLK 5 D25 VY 3804 2 2 AA 7 478 3800 2 B10 3873 2 A14 1840 G13 7100 ITU OUT cs TU OUT CLK 2 C2638073 3 A 8478 v AM 64MB X 7100 ITU VAL ITU IN VAL DRAM DATAt6 125 38
218. ROLL CAPS Capture Prntech 4 Figure 5 6a Error messages D amp S program 85 HyperTerminal Eile Edit View Call Transfer Help 215 2l l 9 gt soe System error Diversity string Unflccessible Eeprom problem xx DE E XX PE DE E X PE XC X XC EEE JE JE PE JE JE JEEE Factory Diagnostics and Service Software DVD Video Recorder Version 8 May 12 2003 16 44 35 PARNING Digital Board Hardware Information is corrupt 599 Figure 5 6b In these cases the boot EEPROM of the Digital Board does not contain the required string with the hardware information To update the Digital Board with the correct string nucleus 1226 must be executed See next section Diversity String Input There can also be the next error message File Edit View Call Transfer Help System error Due to setting in the Digital Board Diversity Settings the Recorder is unable to function properly Please change the hardware diversity settings by using the proper nuclei BEFORE proceeding to the application DE JE X
219. SIDA RX2 TX2 TX1 RX1_MASTER DRIVER ON MOTOR ON IRQN TRAY SW TRAY INOUT VRIN IEC958 EFM_RWN RAD_MUTE ACT_EMF TEMP_SENSE 5 t AAA TES z 8 5 POWER CONN AUDIO DEBUG AND FLASH DRIVERS CHEETAH QD 1M a 8 0 gla 9 95 O 5 1C7504 pin 38 1502 XTAL 1500 _ ow d lt 2 p m sso 1504 552 U2 5 D3V3 1 T d d 1 2563 2564 aay PIENE heel cal es esl eal 4422 gee 4 i D3V3 Sade 2 85788 8 8188 88 88 898 88 80 89 89 88 8 8 2 5 2534 1 3 s g 3 3 8155 2872872 SES 28 iii ME ggg lm aglaita giselss s 5818515818 88588 DE 10u 8128 A ap 28 2 m c le ie SEBBEBEEEEBES _ 8 8 9 3 8 3 SS RS BS S i 92 2420929292425290 92 ANA 55251555382 959525 45 950 gt 858 SBS BSS BS a 3592 1504 32828 FE Be Be Bo 8272828 252 wa 852858 aj jo 5 EIT J Es _ 592 2 111111 aj s 9 8 8 b 32 S505 1808 150R 3593 aa ZEE T a els sls als sae EEE 8 8 B k RS SB RS ERE RS o O O 5 VY 585 818 whe EESER SES ESE Geese sage eae 1 EGET
220. Speed CD CAV 7x Read Speed DVD CAV 4x Write Speed DVD RW ZCAV 2 4x Write Speed DVD R ZCAV2 4x 1 3 General Mains voltage 198V 276V Mains frequency 43 Hz 63Hz Power consumption record 27W Power consumption AV loop through lt 15W Power consumption low power stand by lt 3 W 1 4 1 4 1 1 4 2 1 4 3 1 4 4 1 4 5 VAU8041 Basic Engine FeBe Digital Board FeBe Digital Board RF Tuner Test equipment Fluke 54200 TV Signal generator Test streams PAL BG Philips Standard test pattern System PAL B G PAL D K PAL I RF Loop Through Frequency range 45 MHz 860 MHz Gain ANT IN ANT OUT 6 dB to 2dB Radio Interference input voltage 3 tone method 40 dB min 85dBuV Receiver PLL tuning with AFC for optimum reception Frequency range 45 25 MHz 857 MHz Sensitivity at 40 dB S N gt 60dBuV at 750 video unweighted Video Performance Channel 25 503 25 MHz Test pattern PAL BG PHILIPS standard test pattern RF Level 74 dBV Measured on Cinch Out 1 4 6 1 4 7 1 5 1 5 1 1 5 2 htt p WAN duxzl w cona f ronuser Technical Specifications and Connection Facilities 1 Frequency response Group delay 0 1 MHz 4 4 MHz Audio Performance 0 1 4 00 MHz 3dB Onsec 150nsec Audio Performance Analogue HiFi Frequency response at Cinch Out L R output 100 Hz 12
221. T BLM31P500SPT BLM31P500SPT IND FXD 0603 EMI 100MHZ 600R BLM11P600SPT BLM11P600SPT BLM11P600SPT BLM11P600SPT BLM11P600SPT IND FXD 1210 1U5 PM20 R IND FXD 0603 EMI 100MHZ 60R IND FXD 0603 EMI 100MHZ 60R IND FXD 0603 EMI 100MHZ 60R IND FXD 1210 1U5 PM20 R IND FXD 0603 EMI 100MHZ 60R IND FXD 0603 EMI 100MHZ 60R R BLM11P600SPT IND FXD 1210 1U5 PM20 R IND FXD 1210 1U5 PM20 R BLM11P600SPT 4 7UH NL322522T 4R7J IND FXD 1210 1U5 PM20 R IND FXD 1210 1U5 PM20 R FXDIND 0603 100MHZ 1K COL R 4 7UH NL322522T 4R7J BLM11P600SPT BLM11P600SPT BLM31P500SPT BLM11P600SPT IND FXD 10145 10U PM20 R BLM31P500SPT BLM31P500SPT BLM31P500SPT BLM11P600SPT BLM31P500SPT 1PS76SB10 BAS316 PMEG1020EA PHSE PMEG1020EA PHSE PMEG1020EA PHSE PMEG1020EA PHSE PMLL4148L BAS16 BAS16 BAS16 UDZ15B MM3Z6V2 ONSE 1PS76SB10 PDI1394P25BD PHSE Y PDI1394L40 PHSE Y 74LVC1G32GW PHSE R BC846B SAA7118E V1 PHSE R LD1117D33 BC846B BC846B BC846B BSH205 PHSE R TZA1047HL PHSE Y TZA1042HL PHSE Y LM358D SA56202TW PHSE LM358D LM358D BA5995FM RHMO R PNX7850E_Z_M2A PHSE FLASH ASSY VAD8041 SW MT48LC4M16A2TG 7E MRNO R PST3642N MITM LD1117DT33 7607 7608 7800 7804 7805 7900 7902 7903 7904 7905 7910 7913 7914 7915 7916 7917 7918 7920 7921 7922 7923 7924 7926 7927 7928 7929 7950 9322 144 97668 8204 056 08131 93
222. TC1 P14 TCA PDO PWM VO P13 DVO VO Output P12 TC2 PPG VO 1 0 P11 INT1 I O Input External interrupt input 0 P22 XTOUT Output 3 bit input output port with latch Resonator connecting pins 32 768 kHz When used as input port or external For inputting external clock XTIN is used and P21 XTIN interrupt input STOP mode release XTOUT is opened Input signal input the latch must be set to P20 INTS STOP qe External interrupt input 5 or STOP mode release signal input 3 bit programmable input output P32 5 0 VO 1 0 ports Sink open drain 100 serial clock input output Each bit of these ports can be individually configured as aninputor 2Cbus serial data input output or 5100 serial P31 SDA SOO VO VO Output an output under software control data output When used as a 12C input output the Pila I2Cbus serial clock input output 5100 serial data Input 8 bit programmable input output ports tri state P47 AIN7 Each bit ofthese ports can be to P40 AINO Input individually configured as an inputor A D converter analog inputs an output under software control When used as a analog input the must be set to 0 4 bit programmable input output ports tri state P53 AIN13 Each bit of these ports can be to P50 AIN10 Input individually configured as an inputor A D converter analog inputs an output under software control
223. The user aborted setting the hardware ID no changes made Example DS 1232 Enter the new HW ID of the digital board Currently equals 21 Enter a value between 0 and 99 gt 22 The HW ID will be set to 22 Is that correct Y N y 123200 Test OK DS gt 1232 Enter the new HW ID of the digital board Currently equals 22 Enter a value between 0 and 99 gt The HW ID will be set to 0 Is that correct Y N N 123202 Setting the HW ID was aborted by the user Error DS gt 1232 99 123200 Test OK Nucleus Name DS_SYS_SettingsDoubleCheck Nucleus Number 1233 Description Double check whether stored HW string equals actual HW as far as we can automatically detect this An automatic and a manual mode is supported Technical Read out the HW diversity string Check whether these settings correspond the actual hardware In case of modification Write back the new HW diversity settings Execution Time 4 seconds in auto mode when everything matches User Input manual or MANUAL to enter manual mode default is automatic mode where the nucleus stops upon and reports the first encountered error Error Number Description 123300 Double checking the HW diversity settings succeeded 123301 Double check failed a difference in settings was encountered 123302 Reading the HW diversity settings failed htt p
224. This nucleus cannot be executed because the Self Test failed 92502 The BE cannot enter normal operating mode 92503 Unable to send the tray in 92504 Unable to read TOC from disc 92505 Invalid disc is loaded please insert a DVD RW disc 92506 Calibrating DVD RW failed 92507 Set Input Type command failed 92508 Erasing the DVD RW disc failed 92509 Erasing is aborted by user 92510 This nucleus is not supported by the engine Example AV2 DS gt 925 The entirely disc will be erased Are you sure you want this y n 092500 Test OK Example AV3 092510 This nucleus is not supported by the engine Error Nucleus Name DS_BE_RegionCodeSet Nucleus Number 928 Description Set the region code in the AV3 htt p ww dwzl w con f ronuser 0 El Diagnostic Software Technical Check if an AV2 or AV3 is connected In case of anAV2 display a not supported message In case of an AV3 send the ATAPI SEND KEY command Execution Time User Input Region code Error Number Description 92800 The command executed successfully 92801 There was a time out while communicating 92802 The Basic Engine returned an unexpected result 92803 The BE returned an error code 92804 No acknowledge received from BE 92805 Communicating with the Basic Engine failed 92806 No disc is present please insert dis
225. Unable to enter service mode 93107 This nucleus is not supported by the engine Example AV2 DS 931 093107 This nucleus is not supported by the engine Error Example AV3 DS 931 093100 Test OK htt p ww dawzl w con f ronuser HIEMS Diagnostic Software System SYS Nucleus Name DS SYS HardwareVersionGet Nucleus Number 1200 Description Get the hardware version and type of the digital board Technical Initialise the PIO pins of the Codec Read the segment header in FLASH and determine hardware version Execution Time Less than 1 second User Input None Error Number Description 120000 Getting the hardware version and type of the digital board succeeded 120001 Getting the hardware version and type of the digital board failed 120002 Wrong hardware version read from FLASH Example DS gt 1200 120000 Hardware ID 0x29 Test OK 9 Nucleus Name DS SYS SoftwareVersionBootGet Nucleus Number 1201 Description Get the version of the boot software on the digital board Technical Read the segment header in FLASH and determine Boot software version Execution Time Less than 1 second User Input None Error Number Description 120100 Getting the Boot software version succeeded 120101 Getting the Boot software version failed Example DS gt 1201 120100 Softw
226. VideoLoopthroughStop succeeded 121401 DENC module on Codec failed Example DS gt 1214 121400 Test OK Nucleus Name DS SYS VideoLoop Nucleus Number 1215 htt p WAN duxzl w cona f ronuser Diagnostic Software 5 LI Description The Codec generates a video signal with a specific signature and sends it to the output of the digital board The user selects which video input path must be routed on the digital board and a video standard The Codec encodes the video signal checks the signature and returns a conclusion Note Before executing this nucleus the user must route the video signal on the analog board with the proper nucleus Technical Evaluate user input Reset the global variables video memory Fill the video memory with a vertical colourbar Initialise the Codec SYNC module Initialise the Codec MIXER module Initialise the Codec VPP module Initialise the Codec DENC module Display the original image Initialise the VIP Initialise the Codec VFE module Try to detect a sync in the VIP input Catch the received image in memory Display the received image Compare the received image with original image Create a conclusion Execution Time 3 seconds User Input Video input of the digital board CVBS YC YUV RGB TEST The video output will be routed to the video input on
227. WB to each other is necessary Adjustment Procedure Connect the Digital Board to a PC via serial cable 3122 785 90017 Start up Hyperterminal or any other terminal program with the correct settings 19200 8 N 1 8 5 8 5 1 8 5 2 htt p ww j dwxzl w cona f ronaser EM Alignments and Test Procedures Power on the set Call up nucleus 931 of the DSW The adjustment takes about 30 seconds Example DS 931 93100 Test OK Now data within the OPU EEPROM and the FLASH of the PWB are aligned Drive Test Short Term Test Procedure Test 1 Disc LVP 12 01 7104 099 91851 test layer change on track 28 gt 31 Duration 1 minute When the LVP12 01 disc is loaded and accepted the next steps are Skipto track 29 Press next to chapter 30 forward to halfway track 30 Play track 30 till track 31 halfway When this part of the disc is played without any still pictures or freeze frames the beamlanding of the OPU is good the track transition at the beginning of track 31 gives a short still picture but this is normal Stop the disc Test 2 DVD R blank disc type Ricoh 4X 7104 099 94261 Duration 4 minutes Record 1 minute Press stop Open close Play back recorded track Remark When this disc is used for 30 recordings the disc appears to be full But physically the disc is not full and to use a
228. When used as a analog input the P5CR must be set to 0 P67 V7 to P60 VO Four 8 bit high brackdown voltage output ports with the latch When used as a VFT driver output the VFT driver outputs Output latch must be cleared to 0 P97 V31 to P90 V24 5 bit high breakdown voltage output ports with the latch PDA V36 V32 VO Output When used as a VFT driver output the latch must be cleared to 0 Figure 9 13 P30 SCL SIO VO O Input htt p ww dwxzl w com 21 ronuser EMI DVDR615 69 Circuit IC descriptions and list of abbreviations XIN XOUT Input Output Resonator connecting pins for high frequency clock For inputting external clock XIN is used and XOUT is opened Reset signal input or watchdog timer output address trap reset output system RESET Vo clock reset outputted TEST Test pin for out going test Be tied to low VDD VSS 5V 0V GND Power Supply VFT driver power supply VAREF VASS Analog reference voltage inputs High Low Figure 9 14 WAN dwxzl w com 21 ronuser http Circuit IC descriptions and list of abbreviations DVDR615 69 9 IC7311 1507 MOBO Board Power Supply Control BLOCK DIAGRAM SAH NOLLO3 LOHd 2 614 HdMOdH3A
229. a over IIC succeeded 121001 The bus was not accessible 121002 There was a timeout writing to the device 121003 The IIC acknowledge was not received 121004 The communication with the device failed 121005 There was an unknown IIC bus error 121006 bus initialisation failed 121007 Decoding bus ID unsigned value failed 121008 Decoding slave address unsigned value failed 121009 Decoding number of bytes unsigned value failed 121010 Bus ID out of range 121011 nrBytes out of range Example DS gt 1210 0 0xa0 0x20 Read 0x0000 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x0008 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x0010 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x0018 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 121000 0 0xa0 0x20 Test OK Nucleus Name DS SYS UartWrite Nucleus Number 1211 Description Perform an UART write action on the digital board on a specified UART Technical Decode the user input for the proper port to use Write out the bytes through the indicated port Execution Time Less than 1 second User Input The user inputs the UART to write to the number of bytes and the bytes to be written to the UART 1 UART port 1 not used 2 UART port 2 Bit Engine 3 UART port 3 Analogue board UartNr Number of bytes to write gt lt d1 gt lt d2 gt lt gt lt dx gt Error Number Description 121100 Writing the bytes to the UART succeeded 121101 The user provided w
230. a rey id z T 125 to CU 3346 G3 F334 E2 _ 4304 _ L o Fe as 3347G4 F335 E12 825 962 8 3348H11 F337 E1 1 1 oF a 3349H8 F338 E7 L i GNDHOT GNDI 3350111 F339 GND1 GND 1343 GMDHOT 2334 9 3359 10944 3 CX 3351111 F340 E8 1 1 d od lt 3352 6 F341 E2 sels 7318 93550 3351 1337 28 1V 3354 H7 F342 858 873 7319 A 3355H10 F343 E9 s 1 2Ko 1339 5 3356H8 F344F1 alsz Soi 3357 H9 F345 F1 25 Y 8 3358 _ 2346 F13 GND g a 8 3359 H7 F347 F13 GNDHOT GNDHOT 8 z g 3360H7 F348 G3 rds 2 GND 2 E 336214 F349 G6 855 828 GND 336316 50 G8 ei a 5 33647 F351 H12 GNDreg li v e Y 3365 12 F352 H13 gt 3 3366E9 F353 H12 OPTION L l 5 5 GND E 14220 009 3367 E10 F354 H13 GNDreg GNDreg Eo gt 290904 3368 E11 F355 H11 3369E9 F356 H12 1321 Vgate Standby 1322 VSource Standby F331 VDrain Standby 1321 Vgate No Disc 1322 VSource No Disc F331 VDrain No Disc oe ke ees htt p ww dwxzl w cond fronuser Circuit Diagrams and PWB Layouts MOBO Multi Sound Processing MSP 1 2 3 4 5 6 7 8 9 2601 from PS 2602 A6 8VSTBY 5V 2603 2604 7 2605 A1 2606 B8 2607 C8 2608 C2 2609 C2 2611 D7 MSP3425G 2612 D7 2613 E2 2614 E2 DET oe fomo CU 2617
231. an AV3 send the ATAPI INQUIRY command Send the OPU VERSION command Display the returned version information Execution Time Less than 1 second User Input None Error Number Description 90300 BE version OK 90301 There was a time out while communicating 90302 The Basic Engine returned an unexpected result 90303 The BE returned an error code 90304 No acknowledge received from BE 90305 Communicating with the Basic Engine failed 90306 The BE returned no info Example DS 903 090300 BE version 31 30 24 PHILIPS VAD8031 Optical unit version 00 06 82 19 00 Test OK 31302400 REL 8031 313024 2073 htt p ww dwzl w con f ronuser 1 BEX EE Diagnostic Software Nucleus Name DS_BE_TrayOut Nucleus Number 904 Description Open the tray of the basic engine Technical Check if an AV2 or AV3 is connected In case of an AV2 Send the S2B TRAY OUT command In case of an AV3 send an ATAPI START STOP UNIT command Execution Time Approximately 2 seconds User Input None Error Number Description 90400 The command executed successfully 90401 There was a time out while communicating 90402 The Basic Engine returned an unexpected result 90403 The BE returned an error code 90404 No acknowledge received from BE 90405 Unable to enter normal mode 904
232. and Execution Time User Input None Error Number Description 93000 The command executed successfully 93001 There was a time out while communicating 93002 The Basic Engine returned an unexpected result 93003 The BE returned an error code 93004 No acknowledge received from BE 93005 Communicating with the Basic Engine failed 93006 This nucleus is not supported by the engine htt p ww dwxzl w conf 21 ronuser Diagnostic Software DVDR615 69 LI Example AV2 DS gt 930 093006 This nucleus is not supported by the engine Error Example AV3 DS 930 093000 Test OK Nucleus Name DS BE AdjustLaserControl Nucleus Number 931 Description Adjust the DVD M with the OPU with PCBA So adjusts the two PCBS to each other Technical Check if an AV2 or AV3 is connected In case of an AV2 display a not supported message In case of an AV3 adjust the DVD M with the OPU with PCBA by sending a S2B command to align the PCBs to each other Execution Time 30 seconds User Input None Error Number Description 93100 The command executed successfully 93101 There was a time out while communicating 93102 The Basic Engine returned an unexpected result 93103 The BE returned an error code 93104 No acknowledge received from BE 93105 Communicating with the Basic Engine failed 93106
233. ansistor 7308 current flows from the rectified mains voltage at capacitor 2314 2315 through the primary coil of the transformer 5300 pins 7 5 the transistor 7308 and resistors 3330 3331 to ground The htt p WAN duxzl w cona f ronuser Circuit IC descriptions and list of abbreviations EN GIHE positive voltage on pin 7 of the transformer 5300 can be assumed as constant for a switching cycle The current in the primary coil of the transformer 5300 increases linearly A magnetic field representing a certain value of the primary current is formed inside the transformer In this phase the voltages on the secondary coils are polarized such that the diodes 6300 6301 6304 6306 6309 6311 6315 and 6318 block From the controller 7319 a current is supplied into the CTRL input on the IC pin 3 7311 via optocoupler 7316 Once the switch on time of the switching transistor 7308 that corresponds to the current supplied into the CTRL input has been reached the switching transistor 7308 is switched off When the switching transistor has been switched off the blocking phase begins No more energy will be transferred into the transformer The inductivity of the transformer will still attempt to keep the current flowing at a constant level U L di dt Switching off transistor 7308 interrupts the primary current circuit The polarity of the voltages on the transf
234. are Boot Version 0331 Test OK 9 Nucleus Name DS SYS SoftwareVersionDownloadGet Nucleus Number 1202 Description Get the version of the download software on the digital board Technical Read the segment header in FLASH and determine Download software version Execution Time Less than 1 second User Input None Error Number Description 120200 Getting the Download software version succeeded 120201 Getting the Download software version failed Example DS 1202 120200 Software Download Version 0001 Test OK 9 Nucleus Name DS SYS SoftwareVersionApplGet Nucleus Number 1203 Description Get the version of the application software on the digital board Technical Read the segment header in FLASH and determine Application software version Execution Time Less than 1 second User Input None Error Number Description 120300 Getting the Application software version succeeded 120301 Getting the Application software version failed Example DS 1203 120300 Software Application Version 0001 Test OK 9 Nucleus Name DS SYS SoftwareVersionDiagnosticsGet Nucleus Number 1204 Description Get the version of the diagnostics software on the digital board Technical Read the segment header in FLASH and determine Diagnostics software version Execution Time Less than 1 second User Input None
235. are E Example Busy executing NUC100 5 28 Device ID 7100 Codec ID PNX7100 F BCU 0x0102 1 0 INTC 0x011d 1 0 PCI XIO 0x0113 1 0 SIF 0x013b 1 0 EJTAG 0x0104 0 0 S BCU 0x0102 1 0 BOOT 0x010a 1 0 CONFIG 0x013f 1 0 RESET 0x0123 1 0 DEBUG 0x0116 0 0 UARTO 0x0107 0 1 UART1 0x0107 0 1 UART2 0x0107 0 1 UART3 0x0107 0 1 I2CO 0x0105 0 1 I2C1 0x0105 0 1 GPIO 0 013 1 0 SYNC 0x013a 1 0 DISPO 0xa015 0 2 DISP1 Oxa00f 0 0 OSD 0x0136 0 1 SPU 0xa00e 0 0 MIXER 0x0137 1 0 DENC 0x0138 0 1 CCIR 0x0139 1 0 VDEC 0x0133 0 1 PARSER 0 00 0 0 DV 0 00 0 0 BEI 0xa00a 0 0 IDE 0xa009 0 0 SGDX 0xa008 0 0 BYTE 0xa00b 0 0 OUTPUT 0xa003 0 0 ACOMP 0xa000 0 0 VFE 0xa001 0 0 VCOMP 0xa002 0 0 SCR 0x0000 0 0 SIFF 0xa011 0 0 WMD 0xa010 0 0 AUDIOO 0xa015 0 2 AUDIO1 Oxa00f 0 0 PSCAN 018 0 0 Busy executing NUC114 6 28 Busy executing NUC115 7 28 Busy executing NUC201 8 28 Busy executing NUC300 9 28 Busy executing NUC301 10 28 Busy executing NUC401 11 28 Busy executing NUC501 12 28 Busy executing NUC503 13 28 BootCode checksum is OXBABEB432 which is correct Diagnostics checksum is OxBABED22B which is correct Download checksum is OXBABEO25F which is correct Application checksum is OXBABE2825 which is correct Busy executing NUC1200 14 28 Hardware ID 00 Busy executing NUC600 15 28 Found SAA7118 Busy executing NUC601 16 28 Busy executing NUC700 17 28
236. bOut to Scart 1 AOut Scart 2 Aln to 03 DbOut to Scart 2 AOut Scart 1 Aln to DbIn 04 DbOut to RearOut for CVBS YC Tuner to DbIn 05 DbOut to RearOut 5 1 06 DbOut to DbIn 07 Scart 2 Aln to Scart 1 AOut 08 Scart 1 Aln to Scart 2 AOut Table 5 6 Available AUDIO path lds for NAFTA APAC routing NAFTA Path ID Description DbOut Digital Board Output DbIn Digital Board Input 00 DbOut to All Outputs 01 DbOut to RearOut for CVBS YC and RearOut for YUV Frontin to Dbin 02 DbOut to RearOut for CVBS YC and RearOut for YUV Rearln1 EXT2 for CVBS YC to DbIn 03 DbOut to RearOut for CVBS YC and RearOut for YUV 2 EXT1 for YUV to Dbin 04 DbOut to RearOut for CVBS YC and RearOut for YUV Tuner to Dbln 05 DbOut to RearOut 5 1 06 DbOut to Dbin Nucleus Name DS AMIX VersionGet Nucleus Number 1902 Description This nucleus gets the version information from the sound processor Technical Read the information from the sound processor using IIC Execution Time Less than 1 second User Input htt p WAN duxzl w cona f ronuser Diagnostic Software EN Error Number Description 190200 Getting the version info from the sound processor succeeded 190201 Getting the version info from the sound processor failed Example DS gt 1902 Hardwa
237. c 92807 Region code out of range 92808 User input wrong 92809 Region counter expired 92810 This nucleus is not supported by the engine Example AV2 DS gt 928 092810 This nucleus is not supported by the engine Error Example AV3 DS gt 928 1 092800 Test OK 9 Nucleus Name DS BE RegionCodeGet Nucleus Number 929 Description Read the region code from the AV3 Technical Check if an AV2 or AV3 is connected In case of anAV2 display a not supported message In case of an AV3 send the ATAPI REPORT KEY command Execution Time User Input None Error Number Description 92900 The command executed successfully 92901 There was a time out while communicating 92902 The Basic Engine returned an unexpected result 92903 The BE returned an error code 92904 No acknowledge received from BE 92905 Communicating with the Basic Engine failed 92906 This nucleus is not supported by the engine Example AV2 DS gt 929 092906 This nucleus is not supported by the engine Error Example AV3 DS gt 929 092900 DVD region 1 Test OK 9 Nucleus Name DS BE RegionCounterReset Nucleus Number 930 Description Reset the region counter in the AV3 Technical Check if an AV2 or AV3 is connected In case of an AV2 display a not supported message In case of an AV3 send a special ATAPI RESET REGION COUNTER comm
238. cksum Execution Time Less than 1 second htt p ww dwzl w con f ronuser 0 BG El Diagnostic Software User Input The unique ID to be set Error Number Description 120700 Setting the unique DV ID succeeded 120701 User input is not valid 120702 Setting the unique DV ID failed 120703 Write succeeded but checksum is corrupt Example DS gt 1207 1234567890 120700 Test OK Nucleus Name DS_SYS_DvidNumberGet Nucleus Number 1208 Description Get the IEEE1394 unique ID Technical Read out the ID from the configuration segment and return this info to the user Execution Time Less than 1 second User Input None Error Number Description 120800 Getting the unique DV ID succeeded 120801 Getting the unique DV ID failed 120802 Reading an unexpected section version in NVRAM Example DS gt 1208 120800 DvldNumber is 1234567890 Test OK 9 Nucleus Name DS SYS licWrite Nucleus Number 1209 Description Perform an IIC write action on the digital board Technical Determine bus ID slave address number of bytes to be written and the byte array of data from the user input Initialise Write the data to the slave specified through IIC Execution Time Less than 1 second User Input The user input the number of bytes to write
239. con f ronuser 0 EE Diagnostic Software User Input The user inputs 6 parameters lt UartNr gt lt baudrate gt lt flowcontrol gt lt databits gt lt parity gt lt stopbits gt UartNr 1 UART port 1 not used Chrysalis only 2 UART port 2 Bit Engine or DTTM Chrysalis only 3 UART port 3 Analogue board baudrate 115200 62500 57600 38400 19200 9600 4800 2400 1200 flowcontrol O disabled 1 enabled databits 70r8 parity NO ODD or EVEN stopbits 1or2 Error Number Description 123600 Setting up the selected UART succeeded 123601 User provided Invalid setup parameters 123602 Setting up the selected UART Failed 123603 Selected UART is not available Example Chrysalis DS 1236 2 38400 0 8 NO 1 123600 Test OK 9 Example Leco DS 1236 2 38400 0 8 NO 1 123603 The selected UART is not available Error Electronic Program Guide Board EPGB Nucleus Name DS EPGB VersionGet Nucleus Number 1300 Description Returns the version of the EPG board Technical Issue the command to get the version of the EPG board to the analogue board Return the received information to the user Execution Time 3 seconds User Input None Error Number Description 130000 Getting the version succeeded 130001 Communication with the analog board failed 130002 Communication with the EPG board failed 130003 There was no response from
240. d User Input None Error Number Description 10800 Switching the DV LED on succeeded 10801 Switching the DV LED on failed Example DS gt 108 010800 Test OK Nucleus Name DS_CHR_DvLedOff Nucleus Number 109 Description Switch off the DV LED on the digital board Technical Write to the PIO pin to switch off the DV LED Execution Time Less than 1 second User Input None Error Number Description 10900 Switching the DV LED off succeeded 10901 Switching the DV LED off failed Example DS gt 109 010900 Test OK Nucleus Name DS_CHR_MacroVisionOn Nucleus Number 110 Description Turn on MacroVision Technical Set some registers of the DENC module in the Codec Execution Time Less than 1 second User Input None Error Number Description 11000 Turning on MacroVision succeeded 11001 Turning on MacroVision failed Example DS gt 110 011000 Test OK Nucleus Name DS CHR MacroVisionOff Nucleus Number 111 Description Turn off MacroVision Technical Set some registers of the DENC module in the Codec Execution Time Less than 1 second User Input None Error Number Description 11100 Turning off MacroVision succeeded htt p ww dawzl w con f ronuser 0 EEJ 5 Diagnostic Software 11101 Turning off MacroVision failed
241. d 121601 The audio encoder did not initialise 121602 No audio could be generated 121603 The audio encoder did not encode audio 121604 The audio could not be decoded 121605 Frequency on left channel out of range 121606 Frequency on right channel out of range 121607 The frequencies on both channels are out of range 121608 Frequency on left channel out of range Right channel silent 121609 Right channel is silent 121610 Frequency on right channel out of range Left channel silent 121611 Left channel is silent 121612 Both channels are silent Example DS 1216 121600 Test OK 9 Nucleus Name DS SYS SlashVersionSet Nucleus Number 1217 Description Set the slash version of the system Technical Decode the user input for the slash version to set Issue the command to set the slash version to the analogue board Execution Time Less than 1 second User Input The slash version Error Number Description 121700 Setting the slash version succeeded 121701 Invalid slash version no slash version is set 121702 Setting the slash version on the Analogue Board fails 121703 Invalid input htt p ww dwxzl w conf 21 ronuser Diagnostic Software DVDR615 69 LEM 121704 The returned error code from the analogue board is unknown 121705 No DS error code known for analogue board error 121706 There was no response from the analogue board 121
242. der Contents 5 1 2 Structure Unplug the power cord Hold key PLAY pressed while you plug the recorder During the test the display will show the a sequence of nuclei under test NO SET O K YES To exit DEALER SCRIPT unplug the power 4 TR 18029 001 120304 Figure 5 1 The End use Dealer script executes all diagnostic nuclei that do not need any user interaction and are meaningful on a standalone DVD recorder Included tests 1 05 COMMUNICATIONECHO NUC 2 DS DCB 3 05 BROM COMMUNICATION DS_SYS_SETTINGSDISPLAY_NUC DS_CHR_DEVTYPEGET_NUC DS_CHR_INT_PIC_NUC DS_CHR_DMA_NUC DS_BROM_WRITEREAD_NUC DS_NVRAM_COMMUNICATION_NUC 10 DS_NVRAM_WRITEREAD_NUC 11 DS_SDRAM_WRITEREADFAST_NUC 12 DS_FLASH_WRITEREAD_NUC OANOoS 15 DS_VIP_DEVTYPEGET_NUC 16 DS_VIP_COMMUNICATION_NUC 17 DS_DVIO_LINKDEVTYPEGET_NUC 18 DS_DVIO_PHYDEVTYPEGET_NUC 13 DS_FLASH_CHECKSUMPROGRAM_NUC 14 DS_SYS_HARDWAREVERSIONGET_NUC 19 DS_DVIO_LINKCOMMUNICATION_NUC 20 DS_DVIO_PHYCOMMUNICATION_NUC 21 DS_PSCAN_COMMUNICATIONDENC_NUC 22 DS_PSCAN_COMMUNICATIONDEINTERLACER_NUC 23 DS_BE_COMMUNICATIONECHO_NUC 24 DS_ANAB_COMMUNICATIONIICNVRAM_NUC 25 DS_ANAB_COMMUNICATIONIICTUNER_NUC 26 DS_ANAB_COMMUNICATIONIICSOUNDPROCESSOR_NUC 27 DS_ANAB_COMMUNICATIONIICAVSELECTOR_NUC 28 DS_ANAB_CHECKSUMPROGRAM_NUC
243. e MPEG backend and incorporates the following functions e CD DVD channel decoder encoder e CD DVD data block decoder encoder Buffer Manager Digital Servo processor using digital signal processor Drive system microprocessor based on MIPS core The MIPS microcontroller uses Flash ROM for the firmware and SRAM to execute the program SDRAM is provided for the encoding decoding function block of centaurus 7500 2 Mbytes of data buffer size is available inside the IC for data storage Cheetah 2 TZA1047 The Cheetah2 7201 is an analogue pre processing for the diode signals coming from the OPU It contains an amplifier with programmable gain that amplifies the RF signal to adapt the output for the different reflectivity of the various discs The tracking signals are filtered and normalized In addition the IC contains a timing circuit for the sample and holding circuits and for switching the various blocks between read and write Supporting functions such as laser control and offset control are incorporated Communication to and from the IC is based on fast two wire serial bus that works according to the IC interface protocol Laconic TZA1042 The main function of the Laconic 7300 is to control the laser power The IC forms a closed control loop in combination with the Elantec located on the OPU It compensates aging and temperature of the laser Furthermore it forms a fingerprint correction loop It also acts as bridg
244. e No Disc L 1 Tek Provu L i 1 Tek prevu n 1 Tek revu L 1 Tek revu L Y 1 y 1 Tekstop L 1 Tekstop L 1 Tekstop L 1 7 is A CHI 7 240mv 7 ich ea Chi 7 6 368 V 8 Sep 2004 7 Sep 2004 7 Sep 2004 7 Sep 2004 1 7 0 00000 5 23 52 33 0 5 0 000005 17 57 32 Ti 10 0000 5 18 23 38 8 000005 18 24 47 0 5 0 000005 0 7 0 00000 5 80 0000n8 Tier 0 00000 5 0 5 0 000005 Tek sto Tek sto F331 VDrain No Disc 1525 DAOUT 1555 7102 7104 Emitter 1556 X tal 1101 IC7107 9 1558 X tal 1101 IC7107 pin 8 1595 X tal 1102 7107 pin 12 1598 X tal 1102 IC7107 11 F113 1C7107 pin 19 Tek sto Tek sto Tek sto prevu O Tek prevu E 8 de d Ld M Zep 2004 23 Aug 2004 23 Aug 2004 0 000005 18 09 25 3 09600 5 01455 8 5 0 000005 014051 23 Aug 2004 23 Aug 2004 23 Aug 2004 23 Aug 2004 01 40 02 0 00000 5 01 47 33 0 7 0 000005 01 46 50 0 00000 5 01 49 13 FEBE Board Waveforms 1931 D VR 1932 D YG 1933 D UB F905 D_BCL 1922 A YCVBS 1926 D CVBS 1928 D Y 1930 D C Tok prevu L Tak stop L Tok prevu _ Tek prevu L Tek stop L 1 Tek stop L i i S j i T 167504 38
245. e o x x 27 96 x YR 9 XX 6 178 M 9 o 9696 x 96 X 96 502 Pe Mea as 2 gt ac 78 M X 36 Be 28 de 6 9e PO x BQ 283 070 1987 x do T E9 2 Mo 196 2 0 42 T D x x a6 X x 74 x ee 1 90 v x 1272 1 uds Ww 1 1362 Ms 36 s Ma e Ms 19 bh 1562 1 186 Bo 1b o rb 9 rbd pfo 276 bz 1900 1548 7 6 1944 1542 x 1907 6 Bes DG DO Ph ble bha 1 Yl x 1955 Ms rb Dd 1 77 Fb F860 rbd PAPA PO 6 H 1 96 gt x 90 ne Foe F367 a x 1944 070 58 696 i ibo 041 D ct E bs i 1 Ws EM iy D 9 Oe ibi z 96 A 120 x 9 079 ipfo 5 a 777 H 1 x amp LI E 763 D X z 5 gt 1543 79 D 1965 1364 965 f n i 029 m 9 96 9 Fri ne xy 56 260 96 iB x P LI ibo 50 s 96 1 w X m o a E 96 5 me 6 1808 aeo en e yy 1 1965
246. e between I C and serial bus of the Elantec laser driver on the CPU Optical Pick up Unit The OPU66 is a dual laser Optical Pick up Unit for the DVD RW R It consists of a 3 D actuator for focusing radial tracking and tilt correction 650nm laser for DVD 780nm laser for CD On the interconnecting flex several electrical components are mounted Elantec programmable laser diode power driver e Paedic integrated photo detector with programmable gain pre amplifier Eeprom containing a number of values representing adjustments belonging to the OPU The laser control and diode signal processor ICs together with an Eeprom are mounted on the OPU flex The laser control IC generates the DVD laser read and writing signals needed for reading DVD discs and writing DVD RW R discs write strategies of DVD RW R discs The diode signal processor is an analogue pre processor adapted for the CD and CD R RW read function The Eeprom contains information about writing current writing strategies and other parameters belonging to the OPU Motor and Servo drivers The disc tray and sledge motors are driven by a one chip motor driver SA56202 7402 while the 3 D actuator is driven amp control by a 4 channe BTL driver BA5995FM 7409 and some low power Ops amplifier LM358D 7401 7403 and 7405 htt p WAN duxzl w cona f ronaser Circuit IC descriptions and l
247. eGet Nucleus Number 100 Description Retrieves the device id the module ids and revisions of the Codec and returns them to the stdout port Technical Determine the codec id by means of comparing version ids of the modules Read the module id register of every module and display it to the user Execution Time Less than 1 second Device ID 7100 Codec ID PNX7100 C F BCU 0x0102 1 0 SIF 0 013 1 0 0x010a 1 0 DEBUG 0x0116 0 0 UART2 0x0107 0 1 I2C1 0x0105 0 1 DISPO 0 015 1 12 SPU 0xa00e 0 0 CCIR 0x0139 1 0 DV 0 00 0 0 SGDX 0 008 1 0 ACOMP 0xa000 1 0 SCR 0x0000 0 0 AUDIOO 0xa015 1 12 INTC 0 0114 1 0 EJTAG 0x0104 0 1 CONFIG 0x013f 1 1 UARTO 0x0107 0 1 0x0107 0 1 GPIO 0 013 1 0 DISP1 1 1 MIXER 0x0137 1 0 VDEC 0x0133 0 2 BEI 00 0 1 BYTE 0 00 0 1 0 001 0 1 SIFF 0 011 0 1 AUDIO Oxa00f 1 1 User Input None Error Number Description 10000 Getting the information succeeded 10001 Wrong codec id detected Example DS gt 100 010000 PCI XIO 0x0113 1 0 S BCU 0 0102 1 0 RESET 0x0123 1 0 UART1 0x0107 0 1 2 0 0 0105 0 1 SYNC 0x013a 1 0 OSD 0 0136 0 1 DENC 0x0138 1 0 PARSER 0xa00d 0 0 IDE 0 009 0 1 OUTPUT 0xa003 1 0 VCOMP 0xa002 1 0 WMD 0xa010 0 0 PSCAN 0xa018 0 1 Test OK Nucleus Name DS CHR TestlmageOn N
248. econds on AV3 User Input None htt p ww j dwxzl w con f ronuser 1 0 GEGE Diagnostic Software Error Number Description 90800 The command executed successfully 90801 There was a time out while communicating 90802 The Basic Engine returned an unexpected result 90803 The BE returned an error code 90804 No acknowledge received from BE 90805 Communicating with the Basic Engine failed 90806 The BE returned no info Example AV2 DS gt 908 Number of times Tray went Open Closed 4 Total minutes the CD laser was on 0 Total minutes the DVD laser was on 0 Total minutes the write laser was on 0 090800 Test OK Example AV3 DS gt 908 Number of times Tray went Open Closed 4 Total time the power power on HR MIN 0 0h Total time of reading CDROM discs HR MIN 0 0h Total time of reading high speed CD R discs HR MIN 0 0h Total time of reading other CD R discs HR MIN 0 0h Total time of reading high speed CD RW discs HR MIN 0 08 Total time of reading other CD RW discs HR MIN 0 0h Total time of reading high speed DVD SL discs HR MIN 0 0h Total time of reading other DVD SL discs HR MIN 0 0h Total time of reading high speed DVD DL discs HR MIN 0 08 Total time of reading other DVD DL discs HR MIN 0 0h Total time of reading high speed DVD R discs HR MIN 0 0h Total time of reading other DVD R discs HR MIN 0 2h Total
249. ed as AFER 8 AFEL line to the 1 for further processing Circuit IC descriptions and list of abbreviations WN dwxzl w conh f ronuser DVDR615 69 http 9 1 11 Audio routing ANA OA S949 ZLNO uvas 1 12834 V AS vas LYS 0 ejeg OOW ZVSH 1 19 6 H 8 uo 9 104 ino jeondo Y Y 9305 921 15 1 yeod O OOAV pieoq odd 1 Wova Ovauv LL i T lais Gaung 1837 Tino os 2 L ova nova 2 1 I 5 Ly lt Qn M 06 Anne 9 THNIV M LNO 198 Ov 0 Ww 10 uv Mode 4 1315 SS r dSNW 0097 SOd T ova m TIG w SLAW ILANI al 3 TAY 9 o 6 957 _ 8SW 91601 P lt pueog cL 3834 woy vL A vivd q I Ovauv e S1areelvan 100 504 9007 SOd I v TeNIV ef TNIV ana TNIV L 1X3 NI 23 t LL EET asvasw S949 Z1X3 NI i W uy
250. ee 7 05 STS aatra picks 5VSTBY L 1 i Rc ov 1551 7102 gt lt z TEMP gt 25 BC337 25 1 5 at E 3 558 GND GND 5 9101 aTi 2181 652 500 dia BJ900GNK 2 BAT54 COL 680 100u FIL2 3094 1100 42VSTBY 50V 22u 9131 BZX384 C6V8 f cec 1656 797 2 g Ti ste 3095 1915 TMPS7PM74ZF 8 Q RI ay AAA 5 evi VAREF VDD VKK Von t 12VSTBY e2p 5V ts 9 1 Y BSS Y mEnE 1558 1 MICROPROCESSOR 3096 KEY2 3 8 XTAL NI MR gt B3B PH K E GND Ble 10 l gt 1918 for DVDR740 only sit 13 GND amp FAN P 1 F110 EE sS Ense p 2 ol FANN 2 1 4 559 79 2 s 25V 2 m V 1008 m 5 2 VGNSTBY G8 g 75 BC847BW NNN 100R 2 1 vs 2115 G7 8 5 4 19V me 6 100p LA G6 L A L 8 557 6 2116 22K 65 2138 lt 0 lt 07 gt 0 100p 3125 G4 B 1001 1 A SSe a 15 INTO 2 2117 2 mer 165 ri 3 im Va 100p 3127 92 8 lt lt PPG 5 4 AAA 4 G9 al 4576 18 4pvo 6 me Ek 91 g 3128 pu F113 28 Poo 1 BY lt t V PDI 1000 3129 5 to PSMSP TP Clock PWM L A 9 az 3130 INT3 2119 22K Z P13 g DD ON lt gt 1582 8 4 G6 toPS 3131 1585 584 INT2 9 100
251. en not in EFM bypass mode Figure 9 25 htt p ww dwxzl w conf 21 ronuser DVDR615 69 Circuit IC descriptions and list of abbreviations 1 7300 TZA1042 FEBE Baord Laser Power Controller Osco Osci ClkOut lt 1 RWn PLL amp CPS Osc Clock lt Processing VrefH AR Analogue lt reference o VrefL H 5 to TR DR and ELIA 5 E 2 8 1 y S O x o e al A s 5 8 s g i Ej Y i i lt Vrefin i ES Y gt Vthr 5 o 2 Vdel i FS_ADC_Sample1 gt amp FS ADC Sample2 3 es pun 5 Threshold ref lapcR aser t Laser TR Control Control gt gt AMeas Alpha measure Analogue Alpha ADC Digital ELIA lt I External LasP Laser Power LasP DAC Delta ref i lapcW LPC 9 DR LDDIF gt loop 5 analogue Bank gt amp 2 gt gt Pi i Alpha 8 Analogue Ref i Vopuref loop 8 5 AEZ amp Ostr OPC strobe O P C lt IRQn x ESI Elantec Serial SCLK gt gt SCL i to all blocks I
252. eparation of luminance and chrominance by a comb filter The output stream named ITU IN 7 0 is then routed to the Chrysalis 7800 This IC encodes and decodes the digital video stream into from MPEG2 format Audio Part 125 audio is sent from the MOBO analog board to the Chrysalis 7800 via connector 1902 The Chrysalis 7800 compresses the 125 audio data into an MPEG1 L2 AC3 audio stream Front end PS Chrysalis 7800 interfaces directly with the Centaurus 7500 and buffers the in and out going data streams In the Chrysalis 7800 the video MPEG2 stream and the audio stream are multiplexed into 125 stream The serial data are sent to the Centaurus 7500 for recording Playback Mode During playback the serial data from the Centaurus 7500 is going directly to the Chrysalis 7800 via the serial front end 25 interface The Chrysalis 7800 is an MPEG CoDec and has the following outputs HHI BL EL EEEEEL EL EL EE EE oo htt p ww dwxzl w conf 21 ronuser E DVDR615 69 Circuit IC descriptions and list of abbreviations Clock Distribution 24 576 MHz FRONTEND INTERFACE 707 VIP7118 gt 7800 7902 133MHz HERO CHRYSALIS oa PNX7100 i SDRAM 1394 LINK 7000 1394 PHY 7904 n AUDIO 4 MHz 1 24 576 MHz Figure 9 6 Chrysalis Clock The
253. epending on the possibilities of repair or the state the faulty set is in 8 3 Handling State of original defective board 1 The FEBE board starts up in Diagnostics Mode follow procedure A to retrieve the valid unique number 2 The FEBE board does NOT start up in Diagnostics Mode follow procedure B Procedure A 1 Connect defective digital board to PC via serial cable 3122 785 90017 2 start up hyper terminal or any other serial terminal via the correct settings DSW command mode interface 3 read out existing unique number via 1208 example DS gt 1208 120800 DvldNumber is OX0C22384E5A Test OK 9 4 note read out 5 program new digital board via nucleus 1207 example DS gt 1207 1234567890 120700 Test OK 8 4 The set has now the original unique number Procedure B 8 4 1 1 Note the serial number of the set example VN050136130156 production centre VN Szekesfehervar According to UAW 500 V 22 and N 14 05 change code this is not used for this calculation 01 YEAR 36 Production WEEK 130156 Lot and SERIAL number 2 Calculate the unique number this number always exists out of 10 hexadecimal numbers 3 First 5 numbers First we calculate a decimal number according to the formula below 35828 YEAR 676 WEEK 26 A H 8788 The figures are fixed YEAR WEEK factory code A H are variable Example 35828 01 676 36 26 1 8 8788 68986 decimal Then we tra
254. er 0 EEJ El Diagnostic Software Example DS gt 505 050500 Checksum OXBABEBO064 Test OK Video Input Processor VIP Nucleus Name DS VIP DevTypeGet Nucleus Number 600 Description Get the device revision type information of the VIP IC Technical Initialise IIC Read out the device revision type information of the VIP IC Execution Time Less than 1 second User Input None Error Number Description 60000 Getting the information from the VIP succeeded 60001 The IIC bus initialisation failed 60002 The was an error getting the information from the VIP 60003 Type not according to type stored in HW diversity string Example DS gt 600 060000 Found SAA7118 Test OK Nucleus Name DS VIP Communication Nucleus Number 601 Description Check the communication between the IIC controller of the Codec and the VIP IC Technical Initialise IIC Read data from a location in the VIP Execution Time Less than 1 second User Input None Error Number Description 60100 Communicating with the VIP succeeded 60101 The IIC bus was not accessible 60102 There was a timeout reading the device 60103 The IIC acknowledge was not received 60104 The communication with the device failed 60105 The IIC bus initialisation failed Example DS 601 060100 Test OK Nucleus Name DS VIP ClockOutputOn
255. et lines All other reset lines are directly driven from Chrysalis 7800 port pins eg MPIO13 IDE1 RESETn All reset lines are logically connected via 74LVCO8AD 7923 AND gates If both reset signals are low all other external devices are initialized PC Bus The Chrysalis 7800 is the master of all the bus during reset external IC masters are allowed The following ICs are controlled by the bus 7904 Boot Eeprom 7905 NVRAMs 7007 VIP 9 2 5 O Connectors Audio IO Connector 1902 The Audio In Out AIO connector is used to interchange digital audio signals between MOBO Analog and FEBE Backend Digital portion Video IO Connector 1901 The Video In Out VIO connector is used to interchange analogue video signals between MOBO Analog and FEBE Backend Digital portion 9 2 6 Service UART Interface Transistor 7950 BC847BS is used to make a level conversion from microprocessor LVTTL to 5V compatible with most RS232 interfaces and vice versa The control line MPIO19 CTL SERVICE is used to activate service and diagnostic SW at start up procedure The connectivity is provided via an external service tool htt p ww j dwxzl w conf 21 ronuser E DVDR615 69 Circuit IC descriptions and list of abbreviations 9 3 IC Descriptions 9 3 1 MOBO Board 1 7001 UDA1334BTS MOBO Board Digital to Analoque Converter VDDD Vssp
256. ewe _ FUNCTIONS ptem 29 STEP SIN 7 zer TB lt E 85 3411 92 scx 8 3 28 4 5 858 329 8 8 8 sm TEMP WARNING 6429 FS 4 16 waste eroe OPTIONS Eun 5 5 CONN 1400 1 2 3 4 CONN 1401 4 5 6 8 9 10 CONN 1401 1 2 3 te _ S B eni ANA j TR20037 002 eps 30062004 1400 5 1401 H1 2400 HB 2401 A13 240518 2406 B13 2407 C9 2409 48 2411 68 2412 K4 241319 2414 2415 K4 2416 2417 2418 J2 2419 J3 2420 J2 2421 A13 2426 J17 2427 K19 2430 E12 2431 E12 243218 243319 2434 F15 2435 F15 2436 18 2438 H9 2439 F15 2440 H9 2441 H10 2442 2443 2444 K2 2445 J9 244619 2447 119 2448 19 3403 BB 3404 B13 3405 B12 3406 C9 3410 F14 3411 K4 3412 H8 3418 3420 14 3421 H4 342214 3423 F5 3425 H3 3426 K18 3427 K19 3428 J20 3429 120 3430 J20 3440 C14 3444 C15 3445 E15 3446 C13 3447 C15 3450 E15 3452 C15 3453 E15 3454 D15 3455 C14 3456 014 3457 015 3458 E14 3459 J10 3460 J10 3461 014 3462 015 3463 E14 3464 014 3465 3471118 3472 J10 3473 G13 3474 H12 3475 J10 3476 J10 3477 H12 3478 12 3479113 3480 G9 3481 HB 3482 H9 3483 H9 3484 H9 3485 J13 3486 H10 3487 J11 3488 H11 3489 H18 3490 118 3491 118 3492 B14 3493 KB 3494 KB 3495 18 3496 18 349718 3498 J8 440
257. formance noise distortions is passed Then both signals ALDAC amp ARDAC are directly routed to the rear cinch output The DAC has also a mute possibility which can be activated by setting pin 8 to 3 3V via 7002 This mute is controlled either by the FEBE board D KILL line or IMUTE from the slave uP or the IPFAIL signal from the Power Supply Unit The signals from the audio DAC part ARDAC ALDAC are directly routed to both cinch rear outputs which are connected in parallel To avoid plops and any other audible noise on the output there is a mute stage implemented 7503 amp 7504 for each channel The activation is done via AKILL line which is a combination of the KILL from the IMUTE from slave pP D KILL from FEBE board DAC MUTE from DAC part and IPFAIL from the Power supply unit Circuit IC descriptions and list of abbreviations uvad WAN j dw zl w conh f ronuser http DVDR615 69 9 1 13 Video routing Oct i eq OGOW amp AW AAW 5 5 g lt Gaa Y 8 no LLX3 NI
258. g Chrysalis Leco 2 Boot EEPROM 3 NVRAM 4 SDRAM 5 Flash 6 Video Input Processor 7 DVIO 8 Progressive Scan 9 Basic Engine 10 Display and Control Board 11 Analogue Board 12 System 13 Electronic Program Guide Board 14 PCMCIA 15 HDMI 16 Analogue Slave Processor 17 Analogue Board EEPROM 18 Video Matrix 19 Audio Matrix 20 Front End 21 Hard Disk 22 Digital Terrestrial Tuner Module Not applicable for DVDR610 DVDR615 amp DVDR616 Range 5 3 2 Error Handling Each nucleus returns an error code This code contains six numerals which means XX YY ZZ Error code Nucleus number Nucleus group numbei CL 06532152 013 ep 05120 Figure 5 4 The nucleus group numbers and nucleus numbers the same as above 5 3 3 Command Mode Interface Set Up Physical Interface Components Hardware required Service PC one free COM port on the Service PC special cable to connect DVD recorder to Service PC The service PC must have a terminal emulation program e g Hyperterminal installed and must have a free COM port e g 1 Activate the terminal emulation program and check that the port settings for the free COM port are 19200 bps 8 data bits no parity 1 stop bit and no flow control The free COM port must be connected via a special cable to the RS232 port of the DVD recorder This special cable will also connect the test pin which is available
259. htt p WAN duxzl w comh f ronuser Diagnostic Software LI Error Number Description 120400 Getting the Diagnostics software version succeeded 120401 Getting the Diagnostics software version failed Example DS gt 1204 120400 Software Diagnostics Version 0001 Test OK Nucleus Name DS_SYS_EepromUpload Nucleus Number 1205 Description Upload the contents of the NVRAM on the analogue board or the digital board to the service PC by using the X modem protocol Technical Decode the user input Determine whether to upload the analogue board or digital board NVRAM Start uploading using the XMODEM protocol Determine whether all was uploaded OK Execution Time Depends on the chosen NVRAM and the User User Input Choose one of the following parameters for the nucleus 1 Upload the contents of the NVRAM of the digital board 2 Upload the contents of the NVRAM of the analogue board Choose in the terminal on the control PC gt transfer gt receive file Select X modem protocol Then click receive in the dialogue and fill in the file name in which you want to store the data Error Number Description 120500 Download succeeded 120501 User input is not valid 120502 Something went wrong while copying the data from NVRAM to SDRAM 120503 Something went wrong while transferring the data 120504 User cancelled the upload Example DS gt 1205 1 120500
260. htt p ww dwxzl w com f ronuser DVD Video Recorder DVDR615 DVDR615 69 Service Service Service ervice Manua DVD ReWritable DIGITAL VIDEO DIGITAL AUDIO Contents Page FEBE BE DV In IEEE1394 Diagram 10 113 2S 9 FEBE BE Video In Processing VIP Diagram 11 114 1 Technical Specifications and Connection FEBE BE Audio amp Video In Out Diagram 12 115 a 2 FEBE BE Supply Reset UART Enc Diagram 13 116 2 Safety Information General Notes 5 8 Alignments 129 tor Use 9 cir it IC Descriptions and List 4 Mechanical Instructions 9 ef Am r viations P 130 5 Diagnostic Software 13 6 Block Diagrams Waveforms Wiring Diagram 77 19 Spare Parts List 165 Wiring Diagram 79 Waveforms 80 Testpoints 81 7 Circuit Diagrams and PWB Layouts 83 MOBO Fronted Video FV Diagram 1 83 MOBO In Out Video IOV Diagram 2 84 MOBO In Out Audio IOA Diagram 3 85 MOBO Power Supply PS Diagram 4 86 MOBO Multi Sound Processing MSP Diagram 5 87 MOBO Audio Converter DAC ADC Diagram 6 88 MOBO Digital In Out 1 DIGIO1 Diagram 7 89 MOBO Color UniT CU Diagram 8 90 MOBO IR Blaster IRB Diagram 9 91 MOBO Digital In Out 2 DIGIO2 Diagram 10 98 Front Keyboard KEY Diagram 11 99 Front Standby STBY Diagram 12 101 Front Open Close OPCL Diagram 13 102 Front 5 Way Switch 5 WSW Diagram 14 103 FEBE FE OPU Interface Diag
261. i ag 2 ats o 9198 2193 B SS E 2026 Ds 5 dm B D 9160 B L an Ae 4 weca OE A 2144 a 9180 g rra 00000 eeseesagscc L ZEN 0 POE 9123 Etitic E 46 2408 9142 10 B n u u 3030 A bf 41 042 Eg 191 n 0 5402 Us Onononono 04 0 04280 292995990 0000 55 0 go 0 05295 0 0000 Hn BD B B 98 m 01010 3103 ue EE 3029 tl 505958 g 95959095 d r 08 50 9590 B 9124 9 ens nepeueu p 3 n op OG 0 BO oa 9169 2205 D pn 4 OE DN 71000 a e e 5400 Ae d gt on lt a qe 9407 naam 9135 OM 9036 272 9167 us 25 Boorse 9136 eumd eadutinc Bopooe a 99825 5 m 9032 125 EN 9114 9162 9151 n rara ci 9 9 ciagnaucs etu RN 58139 069 599285 a 0 0 exd mnc cYEgBBOOO ia 0 qM 9138 Ho 9031 970 9080 up E M a 3 s 24 mW 2 90 im 9017 Beo 9033 aguna 3 ecaogg3gagauud SEEN S o Pane Y E a Doo gp ME Q ma 7 ag 2 22 med TLA a 7102 0 E ru UNS hich Ag m H male 6 zo B ceuuune 1 5 19 9 Nec E eimi B 1300 9121 E 5 ar Ss 7
262. ine failed 91506 Unable to enter service mode Example DS 915 091500 Test OK Nucleus Name DS BE MotorOff Nucleus Number 916 Description Turn off the turntable motor Technical Check if an AV2 or AV3 is connected In case of an AV2 Send the TURN TABLE MOTOR ON command In case of an AV3 Send the transparent BIT engine TTM command Execution Time Less than 1 second on AV2 4 seconds on AV3 User Input None Error Number Description 91600 Turn table motor is off 91601 There was a time out while communicating 91602 The Basic Engine returned an unexpected result 91603 The BE returned an error code 91604 No acknowledge received from BE 91605 Communicating with the Basic Engine failed 91606 Unable to enter service mode Example DS 916 091600 Test OK Nucleus Name DS BE Tilt Nucleus Number 920 Description Test the tilt mechanism control loop or allow its proper functioning to be measured Before executing this nucleus a disc must be loaded in the recorder Technical Check if an AV2 or AV3 is connected In case of an AV2 Send the TRAY IN command Send the READ TOC command Send the TILT COMMAND command with parameter 0x00 0x00 Send the TILT COMMAND command with parameter 0x00 0x02 In case of an AV3 display a not supported message Execution Time Approximately 15 seconds User
263. ist of abbreviations EM 9 2 4 Backend Digital part Record Mode TO FROM FRONTEND PART 12C 12C 128 EEPROM EEPROM 64Kbit 64Kbit I2C0 I2C 0 7007 Y Y 7800 I2C 1 VIP CCIR656 SAA7118 CHRYSALIS 1FH VIDEO gt our m DIG AUDIO IN OPT amp COAX A A gt DIG AUDIO OUT 7902 7903 SDRAM gt 25 AUDIO OUT 4M X 16x 4 125 AUDIO IN XIO 0 1FH VIDEO IN i I 1394 1394 NORFLASH PID1394P25 PID1394L40 4M OPTIONAL 5V 3V3 5V 12V 1000 1m Dons 1 Sn OY 1394 i CONNECTOR FROM POWER SUPPLY Figure 9 5 Chrysalis Block Video Part To the MOBO analog board analogue video RGB The analogue video input signals CVBS YC and YUV RGB CVBS on connector 1901 RGB for Euro and YUV for USA from the MOBO analog board 125 audio PCM format on connector 1902 are routed from connector 1901 to IC 7007 7 118 Video e SPDIF audio digital audio output on connector 1902 Input Processor e Communication gateway RS232 on connector 1907 The digital video input signals are routed from the DV in connector 1000 via ICs 7000 1394 PHY and 7001 1394 LINK to Chrysalis PNX7100 7800 The multi standard Video Input Processor VIP 7007 encodes the analogue video to digital stream CCIR656 format It provides filtering of the analogue signals and s
264. itor 2314 2315 The diodes 6302 6303 6305 and 6307 rectify the AC supply voltage which is then buffered by the capacitor 2314 2315 The common mode coil 5303 and capacitor 2310 work as a filter to block interference arising in the power supply from the mains Components 1302 3316 protect the power supply against short term over voltages in the mains e g caused by indirect lightning Start up with Mains on After connecting the power cord to the mains the capacitor 2332 is loaded via a current source between pin 8 and pin 1 in the IC 7311 Once the voltage on 2332 and therefore the supply voltage Vcc of the IC 7311 has reached approx 11V the IC starts up and provides pulses at its output pin 5 These pulses are used to drive the gate of the power transistor 7308 The frequency of these pulses is depending on load and mains voltage The current consumption of the IC is approx 5 mA at Voc in normal mode If Vcc drops to below approx 9V e g with power limitation or if Veg exceeds approximately 16V e g interruption of the control loop the output of the IC 7311 pin 5 is blocked and a new start up cycle begins See also Overload Power Limitation and Burst Mode section Normal operation With the power supply in normal mode the periodic sequences in the circuit are divided primarily into the conductive and blocking phase of the switching transistor 7308 During the conductive phase of the switching tr
265. kHz 0 3dB S N according to DIN 45405 7 1967 and PHILIPS standard test pattern video signal Harmonic distortion 1 kHz 25 kHz deviation Audio Performance NICAM Frequency response at Cinch Out L R output gt 50dB unweighted amp 1 5 40Hz 15kHz0 3dB S N according to DIN 45405 7 1967 and PHILIPS standard test pattern video signal Harmonic distortion 1 KHz Tuning Automatic Search Tuning scanning time without antenna stop level vision carrier Maximum tuning error of a recalled program Maximum tuning error during operation Tuning Principle automatic B G and DK detection manual selection in STORE mode Analogue Inputs Outputs External 1 Component Video Cinch Y Pb Pr 2 60 dB unweighted lt 0 5 typ 3 min gt 37dBuV H 62 5 kHz H 100 kHz according to EIO 770 1 A EIA 770 2 A Audio Cinch Input voltage Input impedance External 2 Audio Cinch Output voltage Output impedance Video Cinch Output voltage Output impedance Video YC Hosiden According to IEC 933 5 1Vpp 3dB gt 10kQ 2Vrms max gt 10kQ 1 Vpp 750 Superimposed DC level pin 4 load gt 100kQ 2 4V is detected as 4 3 aspect ratio gt 3 5V is detected as 16 9 aspect ratio Input voltage Y Input impedance Y Input voltage C Input impedance C 1Vpp 750 burst 300 mVpp dB 750 1 5 3 1 5 4 1 5 5 1 6
266. lso the remaining space on the disc you can do this by deleting the index pictures Test 3 CD RW low reflection audio disc 7104 099 96581 Duration 1 minute Play a few seconds from track 1 Skip to the last track Play a few seconds of the last track Stop the disc Long Term Test Procedure Following the steps to be taken for all DVD recorders coming in for service to the workshop related to a DVDM failure and which have No Defect Found NDF after a Short Term Test In case no defect is found during the Short Term Test Procedure the test has to be extended with a burn in test Long Term Test Procedure The burn in test described herein should be done with a DVD RW disc Make a recording of 1 to 2 hours on M1 HQ and M2 SP mode Remark Attention To prevent scratches the discs should be treated very carefully Heavily scratched discs have a bad influence on the test performance and should be replaced The technician has to decide by visual inspection the reliability of his test material The pictures below show a bad example of discs used too long Figure 8 1 Figure 8 2 htt p www dwxzl w conh f ronuser Alignments and Test Procedures 8 GEJ Flowchart for test instruction In the flowchart below it is described how and when the burn in test has to be carried out incoming DVDR set for repair
267. mains plug Laser Safety This unit employs a laser Only qualified service personnel may remove the cover or attempt to service this device due to possible eye injury Laser Device Unit Type Semiconductor laser Wavelength Output Power Beam divergence CLASS 1 LASER PRODUCT GaAlAs 650 nm DVD 780 nm VCD CD 20 mW DVD RW writing 0 8 mW DVD reading 0 3 mW VCD CD reading 60 degree Figure 2 1 Note Use of controls or adjustments or performance of procedure other than those specified herein may result in hazardous radiation exposure Avoid direct exposure to beam 2 2 2 2 1 2 2 2 Warnings General All ICs and many other semiconductors are susceptible to electrostatic discharges ESD amp Careless handling during repair can reduce life drastically Make sure that during repair you are at the same potential as the mass of the set by a wristband with resistance Keep components and tools at this same potential Available ESD protection equipment Complete kit ESD3 small tablemat wristband connection box extension cable and earth cable 4822 310 10671 Wristband tester 4822 344 13999 Be careful during measurements in the live voltage section The primary side of the power supply pos 1005 including the heatsink carries live mains voltage when you connect the player to the mains even when the player is off It is possible to touch copper tracks and or co
268. me 2 seconds User Input None Error Number Description 91100 The command executed successfully 91101 There was a time out while communicating 91102 The Basic Engine returned an unexpected result 91103 The BE returned an error code 91104 No acknowledge received from BE 91105 Communicating with the Basic Engine failed Example DS 911 091100 Test OK Nucleus Name DS BE JitterOptimise Nucleus Number 912 Description Perform jitter optimisation A formatted DVD must be loaded into the engine before executing this nucleus Technical Check if an AV2 or AV3 is connected Send the TRAY command Send the READ TOC command In case of an AV2 Send the JITTER COMMAND command with parameter 0x00 0x00 Send the COMMAND command with parameter 0x00 0x01 Send the JITTER COMMAND command with parameter 0x00 0x02 until offset 0x80 is received In case of an AV3 Send the MEASURE JITTER BLER PPN command and dis play the average jitter and bler values Execution Time Approximately 20 seconds User Input none htt p ww dawzl w con f ronuser 0 Diagnostic Software Error Number Description 91200 Optimising jitter succeeded 91201 There was a time out while communicating 91202 The Basic Engine returned an unexpected result 91203 The Basic Engine returned an error code 91204
269. mponents in this unshielded primary area when you service the player Service personnel must take precautions to prevent touching this area or components in this area A lightning stroke and a stripe marked printing on the printed wiring board indicate the primary side of the power supply Never replace modules or components while the unit is tani on Laser The use of optical instruments with this product will increase eye hazard Only qualified service personnel may remove the cover or attempt to service this device due to possible eye injury Repair handling should take place as much as possible with a disc loaded inside the player Text below is placed inside the unit on the laser cover shield CAUTION VISIBLE AND INVISIBLE LASER RADIATION WHEN OPEN AVOID EXPOSURE TO BEAM ADVARSEL SYNLIG OG USYNLIG LASERSTRALING VED ABNING UNDGA UDS ETTELSE FOR STR LING ADVARSEL SYNLIG OG USYNLIG LASERSTRALING NAR DEKSEL APNES UNNGA EKSPONERING FOR STRALEN VARNING SYNLIG OCH OSYNLIG LASERSTRALNING NAR DENNA DEL AR OPPNAD BETRAKTA EJ STRALEN VARO AVATT AESSA OLET ALTTIINA NAKYVALLE JA NAKYMATT OMALLE LASER S TEILYLLE ALA KATSO SATEESEEN VORSICHT SICHTBARE UND UNSICHTBARE LASERSTRAHLUNG WENN ABDECKUNG GEOFFNET NICHT DEM STRAHL AUSSETSEN DANGER VISIBLE AND INVISIBLE LASER RADIATION WHEN OPEN AVOID DIRECT EXPOSURE TO BEAM ATTENTION RAYO NNEMENT LASER VISIBLE ET INVISIBLE EN CAS D OUVERTURE EXPOSITION DANGEREUSE
270. n in this port Write the ASP pio port Else Set the RECORD LED bit on Write the external ASP pio port Set the TRAY LED bit on Write the external ASP pio port Set the EPG LED bit on Write the external ASP pio port Execution Time Less than 1 second User Input None Error Number Description 161400 Switching on the LEDs succeeded 161401 communication failed Example DS gt 1614 161400 Test OK htt p WAN duxzl w cona f ronuser Diagnostic Software 5 LI Nucleus Name DS_ASP_LEDsOff Nucleus Number 1615 Description This nucleus switches off the RECORD TRAY and EPG LED when available Technical Check if the analogue board is a MOBO board if so Read the ASP pio port Set the RECORD LED bit off in this port Write the ASP pio port Read the ASP pio port Set the TRAY LED bit off in this port Write the ASP pio port Read the ASP pio port Set the EPG LED bit off in this port Write the ASP pio port Else Set the RECORD LED bit off Write the external ASP pio port Set the TRAY LED bit off Write the external ASP pio port Set the EPG LED bit off Write the external ASP pio port Execution Time Less than 1 second User Input None Error Number Description 161500 Switching
271. ning off the display fatal functionality succeeded 122401 Turning off the display fatal functionality failed 122402 The returned errorcode from the analogue board is unknown 122403 No DS errCode known for analogue board error 122404 There was no response from the analogue board 122405 Section validation or write failed in NVRAM 122406 Reading the section from NVRAM failed 122407 Initialisation of or reaching NVRAM failed Example DS gt 1224 122400 Test OK Nucleus Name DS_SYS_DisplayFatalGet Nucleus Number 1225 Description Get the display fatal flag of the recorder Technical Issue the command to get the status of the display fatal functionality to the analogue board Execution Time Less than 1 second User Input None Error Number Description 122500 Getting the display fatal flag succeeded 122501 Getting the display fatal flag failed 122502 The returned errorcode from the analogue board is unknown 122503 No DS errCode known for analogue board error 122504 There was no response from the analogue board 122505 Reading the display fatal flag failed 122506 Initialisation of IIC or reaching NVRAM failed 122507 Unexpected version read from NVRAM section 122508 Reading the fatal flag from NVRAM failed Example DS gt 1225 122500 The Display Fatal functionality is ON Test OK Nucleus Name DS SYS SettingsSet Nucleus Number 1226
272. nitialise IIC Send the default settings to the DENC through Execution Time Less than 1 second User Input None Error Number Description 80300 Turning off the test image succeeded 80301 Unable to initialise PSCAN IC 80302 IIC Error during writing PSCAN IC 80303 No chip was expected htt p ww dwxzl w conf 21 ronuser Diagnostic Software DVDR615 69 Example DS gt 803 080300 Test OK Nucleus Name DS PSCAN TestlmageColourSettingsSet Nucleus Number 804 Description Set the colour of the hatch or the frame field to a different value than the default white Technical Determine which colour must be set Initialise Enable 27 Mhz PSCAN Clock Send all settings to the DENC through IIC Execution Time Less than 1 second User Input A colour string of one of the next non case sensitive strings WHITE BLACK RED GREEN BLUE YELLOW CYAN MAGENTA or Y Cr Cb hexa decimal values Error Number Description 80400 Setting the new colour settings succeeded 80401 The user provided wrong input 80402 Unable to initialise pscan ic 80403 Unable to set colour 80404 No chip was expected Example DS gt 804 yellow 080400 Test OK DS gt 804 0x6a Oxde Oxca 080400 Test OK Nucleus Name DS PSCAN TestlmageColourSettings
273. nnel BTL driver eBlock diagram P ISTAND B ch1 3 4 e owVcc ch3 4 10k 10k 10k 10k 10k A ATA 10k V 10k V LEVEL V SHIFT LEVEL SHIFT 10k Pin descriptions LEVEL SHIFT LEVEL 20k MUTE STBY chi ch2 Pin No Pin name Function 1 BIAS IN Input for bias amplifier 2 OPIN1 Non inverting input for CH1 3 OPIN1 Inverting input for CH1 OP AMP 4 OPOUT1 Output for CH1 OP AMP 5 IN2 Input for CH2 6 MUTE Input for CH1 mute control 7 STBY2 Input for CH2 stand by control 8 GND Substrate ground 9 PowVcc1 Vcc for CH1 power block 10 PowVcc2 Vcc for CH2 power block 11 Voz Inverted output of CH2 12 Non inverted output of CH2 18 Vo Inverted output of CH1 14 Voi Non inverted output of CH1 Note Symbol of and output of drivers means polarity to input pin Figure 9 31 PowVcc ch1 C PowVoc ch2 10k A SHIFT A A 10k AN 10k V V 10k bent 10k Resistor unit O Pin No Pin name Function 15 Voa Non inverted output of CH4 16 Voa Inverted output of CH4 17 Vos Non inverted output of CH3 18 Vos Inverted output of CH3 19 PowVcc3 Vcc for CH3 4 power block 20 STBY1 Input for CH1 3 4 stand by control 21 GND Subs
274. no longer required The recorder engine performs all basic servo tasks reading and writing data on the disc and controls all functions like tray control start stop the disc tracking jumping and communicating to the host Mechanically the module consists of a motorized tray loader that contains the dual laser optical pickup unit and a board that contains all the electronics needed to control the drive and interfacing to the MPEG encoder decoder backend Digital portion The backend Digital portion encodes and multiplexes analogue video and digital uncompressed audio 125 into an MPEG2 stream This MPEG2 stream is formatted to be recorded by the DVD RW R engine In playback it decodes the MPEG2 stream into analogue and digital audio and into analogue video There is a temperature sensor included in the drive that prevents malfunction or destruction of the drive in case the temperature inside the drive gets too high Power Supply The 3V3 5V 5V and 12V come from the PSU of the MOBO analog board via connector 1905 while the 1V8 core voltage is generated on the board by a low voltage buck controller 7929 It provides the control for DC DC power solution producing a 1 8V output power over a wide current range The NCP1570 based solution is powered from 12V with the output derived from the 3V3 supply It contains all required circuitry for a synchronous NFET 7927 1 and 7928 2 buck regulator
275. nput Technical Determine whether the set is NAFTA APAC or EUROPE Switch the videomatrix according to the input specified by the user Execution Time Less than 1 second User Input The user inputs the path Id of choice as specified in tables below for Europe NAFTA APAC Error Number Description 180100 Routing the video path succeeded 180101 The user provided wrong input 180102 There was no response from the video matrix 180103 Could not retrieve region from analogue slave processor Example DS gt 1801 00 180100 Test OK htt p www dwxzl w con f ronuser Diagnostic Software 5 LIS Table 5 3 Available VIDEO path Ids for EUROPE routing EURO Path ID Description DbOut Digital Board Output DbIn Digital Board Input 00 DbOut CVBS YC RGB to RearOut CVBS YC and Scart_1 RGB 01 DbOut CVBS to RearOut CVBS FrontIn CVBS to DbIn CVBS 02 DbOut YC to RearOut YC to DbIn YC 03 DbOut CVBS to Scart_1 CVBS Scart_2 CVBS to DbIn CVBS 04 DbOut YC to Scart_1 YC Scart_2 YC to DbIn YC 05 DbOut RGB to Scart_1 RGB Scart_2 RGB to DbIn RGB 06 DbOut CVBS to RearOut CVBS Tuner CVBS to DbIn CVBS 07 DbOut CVBS to DbIn CVBS 08 DbOut PSCAN to RearOut YUV 09 DbOut YUV to RearOut YUV 10 DbOut CVBS to Scart 2 CVBS Scart 1 CVBS to DbIn CVBS 11 DbOut YC to Scart 2 YC Scart 1 YC to
276. nslate the decimal number to a hexadecimal number example 68986 decimal 10D7A hex 4 Last5 numbers The last 5 numbers exist out of the Lot and SERIAL number We have to translate the decimal number to the next 5 hexadecimal numbers Example 130156 decimal 1FC6C hex 5 Program new digital board via nucleus 1207 Therefore we use the 10 hexadecimal numbers we calculated above example DS gt 1207 10D7A1FC6C 120700 Test OK The set has now its original unique number Alignments after replacing the Boot EEPROM 7904 on the FEBE Board The NVM item 7904 on the FEBE Board contains the Diversity String that tells the software during startup which hardware version is present The setting is stored in the NVM during the production of the FEBE Board In case of a fault the NVM must be replaced by a programmed device containing the boot script Via the Diagnostic Software the Diversity String is stored with command 1226 followed by the Diversity String as parameter The diversity strings used in DVDR615 are as follows FEBE String Board Type E1_AV3_4 444248495AB8200145315F4156335F 34350 40300000101020001000020040000 Example DS gt 1226 444248495AB8200145315F4156335F34350 40300000101020001000020040000 122600 Test OK E2_AV3_4 FEBE Board for DVDR615 69 With command 1228 the settings can be displayed Adjust Laser Control In case of exchanging DVD M or PWB an adjustment to align OPU and P
277. nterface SDIO 4 gt lt SDA adapter 3j 4 1 12 PorN lt DVDCD i 12C POR Power lt e HiLo interface on Reset lt Suppl upply Erhi i Analogue Digital Test interface EnR2 Power Power z z amp amp 2 a 5 E H 8 gt gt Figure 9 26 htt p ww dwxzl w coni f ronuser Circuit IC descriptions and list of abbreviations EM EN 155 Pin description Symbol Pin Type Drive Description Thr AEZ 1 T Alpha Error Zero Alpha Set Zero pd Vppp3 2 P Digital Pad Supply Vssp3 3 P Digital Pad Supply CLOCKOUT 4 T M Buffered Oscillator Output OSCO 5 AO A Output of inverting Amplifier that forms oscillator OSCI 6 Al A Input of inverting Amplifier that forms oscillator TEST1D 7 Test pin AMEAS 8 Al A Alpha Measure value of measured disk writing quality VDDA1 9 P Analogue Supply Vssat 10 P Analogue Supply LASP 11 Laser Power indicates power level VREFL 12 AO A Bandgap Voltage Reference ground connection VREFH 13 AO A Bandgap Voltage Reference output VDEL 14 Al A Voltage input for Delta laser power VTHR 15 Al A Voltage input for Threshold laser power VOPUREF 16 AO A Reference Voltage for OPU VREFIN 17 Al A Inp
278. o M 3 2 5 3319 _ Elo EN NES 4F P 2318 Pills m 5300 r U wa 2310 z E NES o g Lg JS 5702 p 24 ID 3318 zu cada GAS 9 B 002 4 E b E T Q 2 TEM 9055 9084 im y be 5 ce Wap ag C a 1 1205 ear 15 pr wo N 2557 wi 55 5 KAQ M o 13 n o m 1303 tJ 0 V 2 254 Position UE logo E 14220 015 290904 4 5 6 7 0005 0006 0803 1100 1101 1102 1181 1300 1301 1302 1303 1304 1305 1306 1308 1310 1600 1700 1701 1702 1900 1911 1913 1914 1915 1916 1931 1932 1934 1941 1942 1944 1946 1947 1948 1949 1951 1955 2001 2013 2016 2018 2026 2029 2030 2033 2102 2103 2105 2107 2109 2111 2114 2123 2140 2182 2301 2302 2303 2305 2306 2307 2308 2309 2310 2312 2313 2314 2315 2316 2317 2318 2319 2322 2323 2325 2327 2328 2329 2332 2400 2405 2408 2412 2414 2424 2426 2428 2435 2504 2512 2515 2519 2600 2602 2604 2605 2607 2611 2700 2702 2704 3001 3006 3007 3011 3012 3022 3023 3024 3025 3029 3030 3032 3039 3103 3117 3124 3148 3151 3153 3300 3301 3312 3316 3318 3319 3320 3322 3323 3324 3327 3330 3331 3332 3342 3343 3344 3345 3348 3355 3357 3366 3417 3430 3432 3433 3434 3438 3600 3601 3603 5101 5181 5300 5301 5303
279. off the LEDs succeeded 161501 communication failed Example DS gt 1615 161500 Test OK Nucleus Name DS ASP Reset Nucleus Number 1616 Description This nucleus resets the ASP Technical Reset the ASP by toggling the reset wire by a GPIO pin of the codec Wait 500ms according to the HSI Read Status from ASP Put ASP in normal mode Configure general ASP PIO Make a ASP pio pin low to read the version Get GPP40 GPP47 and GPP48 GPP55 Decode hardware version revision and layout Configure the ASP clock Configure display part 1 Configure display part 2 Configure blinking Configure external ASP PIO Configure ADC input Configure remote control input Enable power on the AV3 Execution Time 3 seconds User Input None Error Number Description 161600 Reset command succeeded 161601 IIC bus communication failed Example DS gt 1616 161600 Test OK ANALOGUE BOARD EEPROM AROM Nucleus Name DS_AROM_Communication Nucleus Number 1700 Description Check the communication between the IIC controller of the Codec and the EEPROM Technical Initialise IIC Read from a location in AROM Execution Time Less than 1 second User Input None Error Number Description 170000 Something is properly read so the communication is OK 170001 The IIC bus was not accessible
280. oftware Description Get the device revision type information of the 1894 Physical layer IC Technical Initialise the PIO pins of the Codec Write the PHY access register in the Link chip to indicate phy read access Wait until the link chip has obtained the value from the phy chip Read this out and filter the data to be returned to the user Execution Time Less than 1 second User Input None Example DS 701 070100 Physical layer IC VendorlD 0x006037 ProductID 0x412801 Test OK 9 Nucleus Name DS DVIO LinkCommunication Nucleus Number 702 Description Check the accessibility of the 1394 Link layer IC by writing to and reading from a specific address Technical Initialise the PIO pins of the chrysalis Write a pattern to the CYCTM register of the link chip Read back and verify the pattern Execution Time Less than 1 second User Input None Error Number Description 70200 Communicating with the link layer IC succeeded 70201 Communicating with the link layer IC failed 70202 Result of nucleus not according to HW diversity string Example DS gt 702 070200 Test OK Nucleus Name DS DVIO PhyCommunication Nucleus Number 703 Description Check the accessibility of the 1394 Physical layer IC by writing to and reading from a spe cific address Technical Initialise the PIO pins of the Codec Initialise Wri
281. om BE Example DS gt 921 092100 Disc type DVD RW disc Disc manufacturer id PHILIPS Media type id 010 Test OK 9 DS gt 921 090500 Disc type Test OK None DS gt 921 092100 Disc type DVD R disc Disc manufacturer id RICOHJPN Media type id ROO Test OK Nucleus Name DS_BE_SledgeMotor Nucleus Number 922 Description Send the sledge to its home position then to the middle of the disc and then to the end Technical Send the PC5 COMMAND command with parameter 0x03 0x00 Send the PC5 COMMAND command with parameter 0x02 0x00 Send the 5 COMMAND command with parameter 0x00 0x01 Send the JUMP SLEGE STEPS command for times Send the PC5 COMMAND command with parameter 0x00 0x00 Execution Time 4 seconds on AV2 11 seconds on AV3 User Input None Error Number Description 92200 The command executed successfully 92201 There was a time out while communicating 92202 The Basic Engine returned an unexpected result 92203 The BE returned an error code 92204 No acknowledge received from BE 92205 Communicating with the Basic Engine failed 92206 Unable to enter service mode Example DS gt 922 092200 Test OK htt p ww dwxzl w conf 21 ronuser Diagnostic Software DVDR615 69 5 LIN Nucleus Name DS BE ReadTociInfo Nucleus Number
282. ommunication is OK 30001 The IIC bus was not accessible 30002 There was a timeout reading the device 30003 The IIC acknowledge was not received 30004 The communication with the device failed 30005 The IIC bus initialisation failed 30006 e e ee htt p ww dawzl w con f ronuser 0 EA El Diagnostic Software Example DS gt 300 030000 Test OK Nucleus Name DS NVRAM WriteRead Nucleus Number 301 Description Check whether the EEPROM can be written to and read from Technical Initialise IIC Backup data from location to modify Write to location and read it back again Write back the backed up data to the location to leave the NVRAM as found Less than 1 second Execution Time User Input None Error Number Description 30100 The write read test succeeded 30101 The bus could not be initialised 30102 There was an NVRAM IO error 30103 The value could not be read back from the NVRAM Example DS gt 301 030100 Test OK Nucleus Name DS NVRAM Clear Nucleus Number 302 Description Make the EEPROM empty containing all zeroes Technical Initialise IIC Create a memory block filled with zeroes Write this block to the NVRAM Execution Time 16 seconds User Input None Error Number Description 30200 The clearing of the NVRAM succeeded 30201 There was an IIC error
283. on Time Less than 1 second User Input None Error Number Description 161100 The test succeeded 161101 communication failed Example DS gt 1611 161100 Test OK Nucleus Name DS_ASP_KeyBoard Nucleus Number 1612 Description This nucleus checks all keys of the keyboard by having the user confirm the key code displayed of all keys If the user presses a or A the test is aborted If the user presses oor O the test is indicated as OK If the user holds down PLAY for more than a second the test is indicated as OK if the user holds down RECORD the test is indicated as failed htt p ww j dwxzl w con f ronuser O 0 Hag 5 Diagnostic Software Technical Initialise the display Display the key pressed by the user on the display Monitor the service port for an abort and get the next key pressed Update the display and repeat previous steps until user stops confirms Display the number of keys that were pressed Execution Time Depends on the user User Input None Error Number Description 161200 Checking all keys succeeded 161201 communication failed 161202 The user signals a failure of the keyboard 161203 The user aborted the test Example DS gt 1612 161200 Test OK Nucleus Name DS_ASP_RemoteControl Nucleus Number 1613
284. onfi f ronuser 164 10 Spare Parts List 10 Spare Parts List 10 1 Exploded View of FEBE Module VAU8041 VAU8041 11_9305 025 84111 110 dd 2004 01 26 Figure 10 1 htt p ww dwxzl w conf 21 ronuser Spare Parts List 10 165 10 2 Exploded View of the Loader Mechanism Height control for assemby of pos 120 121 E TT AV3 5 Loader Assy 3139 197 60291 110 dd 2004 02 13 POS Figure 10 2 htt p ww dwxzl w confi f ronuser 166 Spare Parts List 10 3 Exploded View of the DVDR Drive Mechanism AV3 5 Mechanism 3139 197 50301 110 dd 2004 02 13 POS Figure 10 3 htt p ww 2 w conf f ronuser Spare Parts List 10 1 157 ES LLAM PP 011 22911 018 2298 00 SL9HGAG Figure 10 4 168 10 DVDR615 69 Spare Parts List MISCELLANEOUS SET EXPLODED VIEW Various 101 102 110 114 118 122 126 130 134 138 147
285. ormer is reversed which means that the diodes 6300 6301 6304 6306 6309 6311 6315 and 6318 become conductive and current flows into the capacitors 2302 2308 2316 2322 2325 and 2329 and the load This current is also ramp shaped di dt negative therefore decreasing The feedback control for the switched mode power supply is done by changing the conductive phase of the switching transistor so that either more or less energy is transferred from the rectified mains voltage at 2314 2315 into the transformer The regulation information is provided by voltage reference 7319 This element compares the 5V output voltage via voltage divider 3360 3363 3364 with an internal 2 5V reference voltage The output voltage of 7319 passes via an optocoupler 7316 for insulation of primary and secondary parts as a current value into pin 3 on the IC 7311 The switch on time of the transistor 7308 is inversely proportional to the value of this current Overload power limitation burst mode With increasing load on one or more of the power supply outputs the switch on time for the power transistor 7308 increases and thus also the peak value of the delta shaped current through this power transistor The equivalent voltage of this current profile is passed from resistors 3330 and 3331 via 3335 to pin 5 of the IC 7311 If the voltage on pin 2 reaches approx 0 4V in one switching cycle the conductive phase of the switching tran
286. p 3132 ry P12 g VN INT4 10 G5 for EPG only CLOCK ADJ gt vtt 2120 22K P11 g 2121 2123 12 G4 8 85 l lt 1 lt 07 13 1000 3137 LA P10 5 100n Ux 50p 3138 1591 14 14 ww AA INTS 15 2124 22K P9 g 21258 100R 1595 LAI stop Mcr C 1 gi 8 4 21 PTIT 100p 3139 7 P8 g 3140 1596 18p 2 E XTOUT NNV Lyon G1 IROUT gle 2127 8 1598 16 22K P7 5 to DIGIO 150R 17 le i ao ieee 3vasw 18p 3143 1051 23 18 P6 9 Sex STBY NNN SCL 19 57 7 1008 3144 1054 Slo 20 5 g AAA SDA 21 P18 l z 2 5 100R 4dsoo 22 4 5er 5VSTBY 25 N Y 5 22 60 g s P gt acy Rey 2 gt gt BAS316 A 546 sS 5 58 FEES 1958 26 5VSTBY T 2 H 4 3 1060 o 24 P15 56 FSS 5 27 525 TSS 3150 1062 55 1 25 53V ius go 26 a dP aici 10K 1065 300 27 7109 GLINK_TXD WA 4 28 P13 to DIGIO 3152 1068 sU 5 29 71 A P15 3153 VN e 30 ARM GLINK_RXD NNN no E mre wie ig to DIGIO T 11 als 5 100R v pasos lt 9 lt 07 gt gt LA P17 5 8 sleg Lee J 10 ace 5 2 m 3 ur B 36 12AN ey P19 a L 1078 074 571 1914 I A P20 lt 5 lt 0 3 gt gt VGNSTBY VGNSTBY a F114 r 7110 esx 5VSTBY
287. pesos Nv2 n Z Pat RESET 1 omo 25 F115 PDTC124EU L L s lt VSS VASS BASSE a L efits 8 582 805 805 505 859 855 g SVSTBY P22 P6 B 45 F117 NTT BSA BSS 5502 BS sS BSF 6105 P5 soao 5 5 1 F118 BOSNIEN G1 54V P23 M 119 ese b SVSTBYSVSTBY 805916 aT 93V P24 P Ne 7 H cam BC847BW 2 PAS 4 2 F121 12VSTBY 12VSTBY 12VSTBY 12VSTBY G5 1075 P25 P3 5 GND 10 2 Y Y 6108 BAS316 G8 _ 23 3V P2 BSN20 859 829 G6 P26 1OFMN BTK A 7112 i BON BSN m 5316 6109 A ocx P1 LE 5 25 857 BC857B 2 8 SSX 2585 27 529713 4 6110 BAS316 Fess 557 gt G8 9 1079 _ oreg 316 6111 y2 A 3097 2 VVV H r 6112 BAS316 VGNSTBY VGNSTBY Von Y not used 7116 52 e 9 3098 gt E BAS316 FILI 2 ANY x o 5VSTBY MN 4Kx8 3172 Hie 3179 VV wc LAA LANA 10R 8173 EEPROM i BC847BW ik AAA SCL 2 4 3174 1008 o SDA 31 8 8 0005 Ton 6 PROTECTION FOIL gt Az A 8488 8 go 26 45 gt V V Saye ce ug x x a ul GE EQ g 8 25 8 sb 585006 14220 013 lt a a 8 8 7 7j 4 14 htt p ww j dwxzl w con f ronaser Circuit Diagrams and PWB Layouts LEN MOBO Board IR Blaster IRB 1181 2182 2185
288. play Print Inverse ON Line Inverse Power Fail Detection Inverse Power On Reset Inverse Reset Input Key Input Line Key Input Line Signal from IR Receiver P50 INput line only for Europe P50 OUTput line only for Europe Power On Reset for Display Control Print Ext DL Output Enable ReaD CC Flash ROM and S RAM PWM FIL PWONSW RD RECLED RESET DIG RP RSA1 2 RY BY SIF1 SB1 SCL SCLSW SDA SDASW SFS TS STBY SYNC TEMP SENSE VER VFV VKK VREFH VREFL 1 2 WR WSFI WU X1 X12 XIN XOUT XT1 XT2 YFIN htt p ww j dwxzl w cona f ronuser Circuit IC descriptions and list of abbreviations Control line for Filament Voltage Generation Amplifier Switch Audio A D Converter Pal Secam Select Control Signal for REC LED Reset Line to Digital Board Inverse Reset line to Flash ROM Record Selector 1 2 Ready Busy input line from Flash ROM Sound intermediate frequency Secam Band 1 PCB Test entrance IC Bus Switched PC Bus IC Bus Switched 2 SAW Filter Select Trap Select Standby Line Flash_Toshiba Video Sync input Temperature Sense Line HW version input Video from Frontend VFT Driver Power Supply Pin for Reference voltage input to A D converter Pin for Reference voltage input to A D converter View Selector 1 2 Write Enable CC Flash ROM and S RAM Wide Screen Signalling Front In Wake Up Oscillator Pin Oscillator Pin Oscillator Pin
289. ple DS gt 2002 0xaa 200200 Test OK Note European sets only Nucleus Name DS FRE CommunicationlfModule Nucleus Number 2003 Description This nucleus checks the communication with the IF Intermediate Frequency module of the front end Technical Determine whether the IF module can be read through IIC Execution Time Less than 1 second User Input Error Number Description 200300 Communicating with the front end succeeded 200301 The IIC bus was not accessible 200302 There was a timeout reading the device 200303 The IIC acknowledge was not received 200304 An IIC bus error occurred 200305 Got unknown IIC bus error 200306 The IIC bus initialisation failed 200307 Not a Europe set Example DS gt 2003 200300 Test OK Nucleus Name DS_FRE_TunerTypeGet Nucleus Number 2004 Description This nucleus retrieves the tuner type information and translates this to the region involved as well Technical Check the region through the ASP Read out the tuner type through Execution Time Less than 1 second User Input Error Number Description 200400 Getting the tuner type information succeeded 200401 Getting the type of the tuner OK but unknown type returned 200402 Getting the tuner type information failed Example DS gt 2004 200400 NAFTA Tuner 0682 Test OK
290. ply 37 SCL Bus Clock 38 SDA Bus Data 39 GNDD Digital Ground Supply 40 CIN TV Chroma Input from TV SCART1 or external Cinch 41 Y CVBSIN TV Y CVBS Input from TV SCART1 or external Cinch 42 DIGOUT1 Digital Output Pin 1 43 CIN_TUN Chroma Input from Tuner 44 DIGOUT2 Digital Output Pin 2 Figure 2 STV6618 Input Output Diagram R PR CIN_ENC R PR COUT_TV G YIN_ENC G YOUT_TV B PBIN_ENC B PBOUT_TV c FBOUT TV SCART1 Encoder CVBSIN Y CVBSOUT TV TV Y CVBSIN TV Y CVBSIN TUN Tuner CIN TUN Y CVBS a TV661 Recorder STV6618 MENS TQFP 44 C GATE Transistor DIGOUT1 DIGOUT2 COUT_AUX DIGOUT3 Y CVBSOUT AUX DIGOUT4 SCART2 Auxiliary R PR CIN_AUX DIGOUT6 G YIN_AUX B PB_AUX FBIN_AUX Y CVBSIN_AUX Figure 9 17 Circuit IC descriptions and list of abbreviations Figure 3 STV6618 Block Diagram WAN dwxzl w com 21 ronuser DVDR615 69 http e wo e N
291. ram 1 104 FEBE Fe Cheetah 2 Pre processing Diagram 2 105 FEBE FE Laconic Pre processing Diagram 3 106 FEBE FE Drivers Diagram 4 107 FEBE FE Centaurus 1 5 Processor Diagram 5 108 FEBE FE Supply BE Interface Diagram 6 109 FEBE FE Tray Motor Swich Conn Diagram 7 110 FEBE BE Chrysalis Diagram 8 111 FEBE BE Flash EEPROM amp SDRAM Diagram 9 112 Copyright 2004 Philips Consumer Electronics B V Eindhoven The Netherlands All rights reserved No part of this publication may be reproduced stored in retrieval system or transmitted in any form or by any means electronic mechanical photocopying or otherwise without the prior permission of Philips Published by KC 0439 Service PaCE Printed in the Netherlands Subject to modification EN 3122 785 14220 Version 1 0 amp PHILIPS htt p ww j dwxzl w cona f ronaser EN2 Technical Specifications and Connection Facilities 1 Technical Specifications and Connection Facilities 11 Locations Front Boards MOBO Board 1 2 Diversity Matrix and Read and Write speed VFM RANGE Module Pcb Application DVDR615 69 MOBO Board 04 AP2 3139 248 82902 Front Board x 12NC 3139 248 83071 VAU8041 21 DS version E1 AV3 4 x 12NC 9305 025 84121 peb 3104 128 09281 Drive AV3 5 Type of Disc Function Disc Rotation Speed Read
292. ray 2 Figure 4 9 Remove DVD M 4 2 h Re assembly To re assemble the module do all processes in reverse order Take care of the following Heat Paths Put the 5 heat paths gray rubber pieces back to their position on the ICs Complete module Place all wires cables in their original Figure 4 8 Remove Tray positions Emergency opening slot Be sure that the slot for the emergency tray opener is covered by adhesive tape 4 2 4 DVD M Drive Mechanism Caution Never try to align or repair the DVD Module itself Only the factory can do this properly Service engineers are only allowed to exchange the sledge motor assy After Exchanging the DVD M or the PCB the complete drive has to be adjusted Refer to chapter 8 for adjustment instructions Remove encasing and FEBE board as described in 4 2 2 Remove the Sealing strip 5 by uncatching it Loosen the 4 screws washer 1 to remove the DVD M 2 Figure 4 10 Heat Paths WAN dwxzl w com 21 ronuser htt p EN 12 Mechanical Instructions 4 3 eui uedo OY uees eui oiseq eui jo episiepun eui 1 eui jo eui episiepun ye eujeJ pue u 101 JO Aq y xoojun oi jq ssod si 3 SMOJJOJ
293. re Version 0x 2 Revision Code 0x 7 MSP Product Code 0x19 ROM Version Code 0x48 190200 Test OK Nucleus Name DS_AMIX_Control Nucleus Number 1903 Description Test the controllability of the sound processor by performing a controlled reset Technical Test the control register contains 0x80 after reset and 0 0 after first read of this control register MSP is reset and the control register is tested for the 0x80 reset indication Execution Time 1 second User Input Error Number Description 190300 Testing the controllability succeeded 190301 Accessing the MSP failed 190302 Accessing the MSP succeeded but wrong data was returned Example DS gt 1903 190300 Test OK Note European sets only Nucleus Name DS_AMIX_Beep Nucleus Number 1904 Description Test the beeper functionality of the sound processor Technical Execution Time 3 seconds User Input Error Number Description 190400 Testing the beeper succeeded 190401 Testing the beeper failed 190402 There was an error routing the test path 190402 The user provided the wrong input Example DS gt 1904 ON 190400 Test OK Nucleus Name DS_AMIX_CommunicationAdcDac Nucleus Number 1906 Description This nucleus checks the communication between the IIC controller of the Codec and the ADC DAC chip UDA 1380 on the analogue board
294. rong input 121102 Writing to the UART failed Example DS gt 1211 2 2 Oxd1 0x01 121100 Test OK Nucleus Name DS SYS UartRead Nucleus Number 1212 Description Perform an UART read action on the digital board on a specified UART Technical Decode the user input for the port to read from Read from the port and return data read to the user Execution Time Less than 1 second User Input The user inputs the UART to read from 1 UART port 1 not used 2 UART port 2 Bit Engine 3 UART port 3 Analogue board UartNr gt Error Number Description 121200 Reading the data from the UART succeeded 121201 The user provided wrong input htt p ww j dwxzl w con f ronuser 1 0 HI EE Diagnostic Software 121202 Reading the data from the UART failed Example DS gt 12122 121200 The HEX value that was read is 0x50 OxD1 0x00 Test OK 9 Nucleus Name DS SYS VideoLoopThroughStart Nucleus Number 1213 Description The video signal which is conform the user input is routed from the input to the output The input is set using the proper nucleus to route the signal on the board s All outputs are enabled Technical Decode the videosignal PAL NTSC and Y C RGB CVBS YUV Initialise the Video Input Processor and check for valid signal Initialise the Video Front End and start cap
295. ror Number Description 200000 Communicating with the front end succeeded 200001 The bus was not accessible 200002 There was a timeout reading the device 200003 The IIC acknowledge was not received 200004 An IIC bus error occurred 200005 Got unknown IIC bus error 200006 The IIC bus initialisation failed Example DS gt 2000 200000 Test OK Nucleus Name DS_FRE_ChannelSelect Nucleus Number 2001 Description This nucleus sets the tuner to receive a valid audio and video signal Technical Parse the user input to determine all parameters to set Pass these parameters to the respective parts using IIC Execution Time Less than 1 second User Input lt Frequency 16 gt video standard id lt gt Tuner frequency to tune the tuner to e g 216 MHz this parameter must be 3456 Since 216 16 3456 This is to avoid the decimal points to the parameter list Name Colour system Transmission standard Sound modulation PAL BG 5 PAL BG FM Stereo PAL BGM PAL BG FM Mono NICAM PAL IM PAL PAL DK 5 PAL DK FM Stereo PAL DK M PAL DK FM Mono NICAM NTSC MS NTSC M FM Stereo Video Standard ID The table below shows which video standards are possible ID Europe NAFTA APAC 0 PAL BG S NTSC 1 PAL BG M Invalid 2 PAL IM Invalid 3 PAL DK S Invalid 4 PAL DK M Invalid Tuner Select the tuner type that you want to tune This input is not mandatory If no input is detected t
296. s Test whether all interrupts were received Less than 1 second Execution Time User Input Error Number Description 11400 Testing all the PIC interrupts succeeded 11401 Testing all the PIC interrupts failed Example DS gt 114 011400 Test OK DS_CHR_DMA_TestDMA 115 Test the memory to memory DMA transfer Create a block with known data in memory Copy this block to the consecutive area using 3 different DMAs Check whether all DMAs transferred the data properly Less than 2 seconds Nucleus Name Nucleus Number Description Technical Execution Time User Input Error Number Description 11500 The testing of the DMAs succeeded 11501 The initialisation of the DMAs failed for one or more DMA 11502 One or more DMAs failed the test Nucleus Name DS_CHR_Poke htt p ww dwxzl w com f ronuser Diagnostic Software DVDR615 69 ES Example DS gt 115 011500 Test OK Boot EEPROM BROM Nucleus Name DS_BROM_Communication Nucleus Number 200 Description Check the communication between the IIC controller of the Chrysalis and the boot EE PROM Technical Initialise IIC Read something from the EEPROM Execution Time Less than 1 second User Input None Error Number Description 20000 The data i
297. s 3152 and 3154 on the analog digital A D ports 7107 pin 32 and 32 the evaluation is done IR receiver and signal evaluation The IR receiver 7200 on the Keyboard on the Front board contains a selectively controlled amplifier as well as a photo diode The photo diode changes the received infra red transmission to electrical pulses which are then amplified and demodulated On the output of the IR receiver 7200 a pulse sequence with TTL level which corresponds to the envelope curve of the received IF remote control command can be measured This pulse sequence is fed into the controller for further processing via pin 22 7107 Vacuum Fluorescence Display The VFD BJ900GNK 1100 is fully controlled by the microcontroller The microcontroller also includes the driving stages Only two additional drivers 7109 and 7111 are necessary for the grids 8 and 9 because of their large size VFD Heater Voltage Generator The circuit around 7102 7103 and 7104 is used to generate a proper AC voltage for the filament of the VFD For this the microcontroller generates an appropriate rectangular signal with 50 duty cycle and a frequency of 30kHz at pin 19 5101 and 2111 are acting as resonance circuit Via zener diode 6102 and resistors 3111 3113 and 8114 the two heater pins of the VFD FIL1 and FIL2 are clamped so that the grids and segments can be fully switched off Fan Control To avoid unwanted tempera
298. s properly read so the communication is OK 20001 The bus was not accessible 20002 There was a timeout reading the device 20003 The IIC acknowledge was not received 20004 An IIC bus error occurred 20005 The IIC bus initialisation failed 20006 An unexpected IIC error occurred Example DS gt 200 020000 Test OK Nucleus Name DS BROM WriteRead Nucleus Number 201 Description Check whether the Boot EEPROM can be written to and read from Technical Initialise Write something to the EEPROM Read from the same location and check whether it is the same as written Execution Time Less than 1 second User Input None Error Number Description 20100 The write read test succeeded 20101 The write read test failed 20102 An IIC bus error occurred 20103 There was a timeout reading the device 20104 The bus was not accessible 20105 The IIC acknowledge was not received 20106 Got unknown IIC bus error 20107 The IIC bus initialisation failed Example DS gt 201 020100 Test OK NVRAM Nucleus Name DS_NVRAM_Communication Nucleus Number 300 Description Check the communication between the IIC controller of the Codec and the EEPROM Technical Initialise Read from a location in NVRAM Execution Time Less than 1 second User Input None Error Number Description 30000 Something is properly read so the c
299. s value Execution Time Less than 1 second User Input None Error Number Description 160600 Getting the NTC value succeeded 160601 The bus failed Example DS gt 1606 160600 Temperature NTC ADC input value 0x94 Test OK 9 Nucleus Name DS ASP FanSpeedSet Nucleus Number 1607 Description This nucleus sets the speed of the fan that controls the temperature within the set Technical Decode user input Set pio pins C1 and FAN C2 Execution Time Less than 1 second User Input Speed to be set off low medium high Error Number Description 160700 Setting the new fan speed succeeded 160701 The bus failed 160702 The user provided wrong input Example DS gt 1607 low 160700 Test OK 9 Nucleus Name DS ASP LightDisplay Nucleus Number 1608 Description This nucleus lights the entire display Technical Set all segments on in the display buffer Set the grids correct in the display buffer Send the display buffer to the ASP Execution Time Less than 1 second User Input None Error Number Description 160800 Lighting the entire display succeeded htt p WAN duxzl w cona f ronuser Diagnostic Software 5 GEGE 160801 1 communication failed Example DS gt 1608 160800 Test OK
300. sistor is ended immediately The check is done in each individual switching cycle This process ensures that no more than approx 50W can be taken out from the mains power limitation If the power supply reaches the power limit the output voltages and the supply voltage Vcc on pin 1 of the IC 7311 will be reduced following further loading If Vcc is less than approx 9V at any point during this process the output of the IC 7311 pin 6 is blocked All output voltages and Vcc decrease and a new start up cycle begins If the overload status or short circuit remains the power limitation will be activated immediately and the voltages will again decrease followed by another start up cycle Burst Mode The amount of power taken up from the mains in burst mode is low Standby modes In the AV Standby operating mode of the set the DD ON control line is low switching off the 5VE and 12VE supply connector 1932 to the FEBE Frontend and DVD drive This reduces the amount of power taken from the mains In Low Power Standby mode additional STBY control line is high switching off the 12V 5V 5N and 3V3SW supply In this mode all functions are switch off and the slave pP in idle mode and real time clock 32 768kHz is running This reduces power consumption to less than 3W In some program mode the slave uP provides a wakeup service STBY line switches to low then the Chrysalis main controller starts up and asks for the wakeup reason
301. so equipped with a digital audio output via cinch plug 1955 The signal is generated on the FEBE board and routed via the audio interface cable and connector 1900 to the MOBO Analog board Here the DAOUT line first passes a 6 fold inverter 7551 being used as a driver and for performance reasons noise reduction jitter etc Afterwards a transformer 5551 is necessary to achieve the correct level and also to have a floating output with isolated ground before the signal is fed via 3559 amp 3563 to cinch plug 1955 The capacitor 2553 performs an AC coupling between connector and set ground 9 1 12 Audio ADC DAC The conversion of analog audio signals from the record selector 7501 in the I O ALADC amp ARADC is done via UDA1361TS 7006 This IC can process input signals up to 2Vrms by using external resistors 3029 3030 in series to the input pins All required clock signals are generated on the FEBE board and only the audio data DAT line are routed from MOBO Analog to FEBE board for further processing The transformation of digital audio back into the analog domain is done by UDA1334BTS 7001 All necessary clock signals are coming from the FEBE board and digital audio data D DATAO line are converted into analog signals which are available at pins 14 and 16 of 7001 Afterwards an Op Amplifier 7003 line driver amp level adaptation gain 2 which also works as low pass filter to increase signal per
302. st lock on write clock Ox2B laser forward sense erro Forward sense value didn t r change with changing laser pow er Ox2C jitter optimisation error An error occurred during optimis ation of the jitter Ox2D tilt calibration error An error occurred during calibra tion of the tilt frame Ox2E reserved Ox2F offset calib erro The offset in the frontend couldn t r be calibrated Ox30 reserved Ox31 50 calculation error An error occurred in the calcula tion of the write strategy Ox32 overrun error The buffer input stream overran the buffer output stream Ox33 value invalid error The requested information is not available for this inquiry Ox34 recording speed The selected speed is not al rror lowed for a recording on this me dium 0 35 media parameter err The media parameters info in or ATIP ADIP are invalid or not read Ox36 record power error The final optimum power was not reached Ox37 start power low erro OPC start power too low opti r mum power is higher 0x38 start power high err start power too high opti or mum power is lower error error meaning code 0x00 error No error has occurred 0 01 command error Command not allowed in this state or unknown command 0x02 parameter error Parameter s not valid for this command 0 03 timeout error The maximum execution
303. t gt AV2FSYNC 125 3051_A AA 4K7 8 z gt AV2VALID 127 3049 33R MX VAL A 3007 3 G8 F038 G2 28 29 50 49 48 39 33 32 64 18 17 58 57 m ASYNC 126 3052 AA 3007 4 G8 F039 G12 8 TRANSMITTER 2 5 AV2SYNC 128 3050 338 6 MX SYNC 3008 1 G8 F040 612 AND 2 La AV2ENDPCK 123 3053 4 3008 2 G8 F041 G12 1 5 RECEIVER 2 CERRAR 122 3094 AAA 22K 3008 3 G8 2042 G8 2 amp AV2ERR1 DATINV 122 3055 22K Bot PHY z F 27 AV2READY 143 3056 AA AKT 3V3 LIN 3008 4 G8 F043H2 8 3009 1 G8 F044 H10 F 3009 2G8 F045 H2 PCI AD 31 0 iS 3009 3G8 F04615 E E m TESTPIN 2 5 t 3009 4 G8 2047 D1 0 30104 2208 22 HIFADO 4 p s 3010 1 G8 PCI AD 25 3010 3 220R 21 HIFAD1 gt 3010 2 8 AD 26 3010 2 220R 20 HIFAD2 gt la gt 33 3005 1 1 8 2208 PCI AD 0 3010 3 F8 27 3010 1 220R 19 4 p 4 gt HIFA1 32 3005 2 2 j 7 220R 3010 4 F8 AD 28 3009 4 220R 16 HIFAD4 xe gt 2 31 3005 3 3 AN 6 220R Lf 5000 PCI AD 29 3009 3 220R 15 HIFAD5 gt HIFA3 30 3005 4 4 v 5 220R PCI AD 3 3011 G12 PA F038 pe 3V3 IEEE PLL PCLADGO 30092 2 2208 14 HIFAD6 4 bi HIFA4 29 3006 1 1 8 2208 4 3012 H13 LEE 31 3009 1 A VAL Z20R 13 7 4 pi a HIFAS 28 3006 2 2 7 220R 5 3013 01 3V3 3008 1 8 10 HIFD8 4 gt 8 BIT 5 gt HIFA
304. t OK Nucleus Name DS SDRAM WriteReadFast Nucleus Number 401 Description Check all data lines and address lines of the SDRAM Technical Test the databus Test the addressbus Execution Time Less than 1 second User Input None Error Number Description 40100 The write read test succeeded 40101 The data bus contains an error 40102 The address bus contains an error Example DS 401 040100 Test OK htt p ww dawzl w con f ronuser 0 0 EEJ EE Diagnostic Software Nucleus Name DS_SDRAM_Write Nucleus Number 402 Description Write to a specific memory address Technical Decode the user input and check its ranges and alignment on 4 bytes Write the data to the SDRAM Execution Time Less than 1 second User Input 1 The location that must be modified SDRAM starts at address 0xA0000000 2 The value to put on the selected location Error Number Description 40200 Writing to the SDRAM succeeded 40201 Writing to the SDRAM failed Wrong user input 40202 Address is not dividable by 4 Example DS gt 402 0xa1000010 Oxad112222 040200 Test OK Nucleus Name DS SDRAM Read Nucleus Number 403 Description Read from a specific memory address Technical Decode the user input and check the ranges Read from the SDRAM and re
305. t of Link Codec IC7431 MSB justified to 12S converted audio serial data audio serial data input of audio DAC UDA1334A Data bus lines for Host I F of Link Codec 7431 Data bus connection between PHY and LINK device DVIO board reset Reset signal driven by Flashmaster programming device Reset input of Link Codec 7431 Request to Send Parallel interface read write control input of Link Codec 7431 Receive Data Link control output clock Transmit Data 10V switchable programming voltage of microcontroller Digital Video FEBE Board Frontend part ADC ADIP Analogue to Digital Converter ADdress In Pre groove AGC CD CLV DROPPI AM BE ComPair CD DA CS DAC DAIO DENC DFU DNR DRAM DSD DSP DVD EEPROM EFM FDS HF 125 IF IRQ LADIC LLD LPCM LRCLK MACE MPEG NC NVM OPC OPU PCB PCS PLL PCM PCM CLK PCM OUTx PSU PWB RAM RGB ROM RF S2B SCL SCLK SDA SDRAM SMC S PDIF SPIDRE SRAM STBY SVCD SW THD TTL uP VCD Y C Circuit IC descriptions and list of abbreviations DVDR615 69 GI Automatic Gain Control Compact Disc Constant Linear Velocity Dvd Rewritable Opu Pre Processor IC Amplitude Modulation Basic Engine Computer aided rePair CD Digital Audio Chip Select Digital to Analogue Converter Digital Audio Input Output Digital Encoder Direction For Use description for the end user
306. t one or more locations in the NVRAM Technical Initialise Decode user input Read from the NVRAM and return this info to the user Execution Time Less than 1 second User Input 1 The location which must be read i e ALL BOOT DIAGNOSTICS DOWN LOAD CONFIG RECORDER or no string if an offset from the base address of the NVRAM is required 2 The offset and number of bytes to read offset length Error Number Description 30400 Value read 30401 Unable to initialise NVM 30402 Reading the NVRAM contents failed 30403 length out of range 30404 unable to decode length 30405 offset out of range 30406 unable to decode offset 30407 unknown location specified 30408 no location is specified Example 304 DIAGNOSTICS 0 6 030400 Value read 0x00 0x00 0x00 0x00 0x00 5 Test OK SDRAM Nucleus Name DS SDRAM WriteRead Nucleus Number 400 Description Check all data lines address lines and memory locations of the SDRAM Technical Test the databus Test the address bus Test the integrity of the device itself memory locations Execution Time 11 seconds for 32 Mb 23 seconds for 64 Mb User Input None Error Number Description 40000 The write read test succeeded 40001 The data bus contains an error 40002 The address bus contains an error 40003 The SDRAM itself contains an error Example DS gt 400 040000 Tes
307. te the data to be written to the phy chip to the link chip first Wait until the link chip indicates that the data has been written to the PHY Write the PHY access register in the Link chip to indicate PHY read access Wait until the link chip has obtained the value from the PHY chip Test whether the value read back equals the one previously written Execution Time Less than 1 second User Input None Error Number Description 70300 Communicating with the physical layer IC succeeded 70301 The physical layer IC was not accessible 70302 Communicating with the physical layer IC failed 70308 Result of nucleus not according to HW diversity string Example DS gt 703 070300 Test OK 9 Nucleus Name DS DVIO Routing Nucleus Number 704 Description Route a DV stream containing an audio and video signal through the physical and link layer ICs to the Codec This test works for both NTSC and PAL Technical Initialise the DMA to transfer 5 frames PAL NTSC Initialise the DV demultiplexer Initialise the 1394 interface and start reception of the DV stream Check whether the stream was copied to memory properly by the byte input interface port to memory type DMA Execution Time 6 10 seconds 6 when OK 10 when no stream or error User Input None htt p ww dwxzl w conf 21 ronuser Diagnostic Software DVD
308. the total number of channels found appears 9 Time and Date menu appears If the time and date shown on the TV are not correct press to enter the respective time date field Press A to change the first digit and press to go to the next digit field Once complete press OK to confirm Press to select Done and press OK to save the changes gt The first installation is now complete The DVD recorder is ready for use See next page for basic recording and playback htt p ww dwxzl w conf 21 ronuser DVDR615 69 cont Directions For Use DVD ReWritable DVD R REC MODE Start manual recording Insert a recordable DVD R VWV with the label side facing up Press TUNER on the remote control to see the TV programmes then press A V to select the programme number you wish to record gt If you wish to record from additional device e g Video Cassette Recorder press button A V on the remote control to select the correspond external input channel For example select EXT2 if you have connected the VCR to IN EXT2 socket at the back of the DVD recorder Press REC MODE to select a desired recording mode It defines the picture quality and the maximum recording time for a disc Record Mode Maximum Recording Time per Disc Picture Quality M1 High quality HQ 1 hour
309. time for the command has exceeded 0x04 sledge home error The sledge could not be moved home 0 05 sledge calibration error error occurred during calibra tion of the sledge 0x06 unstable error The sledge detected unstable control 0 07 timeout error Spindle motor could not reach its target speed within timeout 0x08 window error Measured spinning speed is not within expected window 0x09 timeout error Focus could not be achieved within the timeout OxOA retries error The amount of focus retries ex pired OxOB focus agc error The focus agc results are out of range OxOC timeout error Servo didn t get on track within the timeout OxOD radial retries error Servo didn t get on track after several retries OxOE radial error The radial agc results are out of range OxOF init error Unreliable signal scaling after the radial initialisation Ox10 hf pll error HF decoder pll could not lock to HF signal Ox11 wobble pll error Wobble pll could not lock to wob ble signal 0x12 timeout error Subcode information could not be read Ox13 subcode notfound error Requested subcode item could not be found 0 14 timeout error Header information could not be read 0x15 adip timeout error Adip information could not be read 0 16 window error Adip address was not within ex pected window Ox17 sync
310. time of reading high speed DVD RW discs HR MIN 0 0h Total time of reading other DVD RW discs HR MIN 0 35h Total time of writing DVD R discs at 2 4 x HR MIN 0 0h Total time of writing DVD R discs at 4 x HR MIN 0 0h Total time of writing DVD RW discs at 2 4 x HR MIN 0 0h Total time of writing DVD RW discs at 4 x HR MIN 0 0h 090800 Test OK Nucleus Name DS BE StatisticallnformationReSet Nucleus Number 909 Description Reset the statistical information in the basic engine Technical Send the RESET STATISTICAL INFO command Send the POWER DOWN command Toggle the reset pin of the 125 interface Execution Time 2 seconds User Input None Error Number Description 90900 The command executed successfully 90901 There was a time out while communicating 90902 The Basic Engine returned an unexpected result 90903 The BE returned an error code 90904 No acknowledge received from BE 90905 Communicating with the Basic Engine failed Example DS gt 909 090900 Test OK Nucleus Name DS BE ErrorLogGet Nucleus Number 910 Description Get the error log from the basic engine Technical Check if an AV2 or AV3 is connected In case of an AV2 Send the S2B GET ERROR command In case of an AV3 Send the transparent BIT engine GET ERROR and GET FATAL commands Display the returned info Execution Time Less than 1 second User Input
311. trate ground 22 OPOUT3 Output for CH3 OP AMP 23 Inverting input for CH3 OP AMP 24 OPIN3 Non inverting input for CH3 25 OPOUT4 Output for OP AMP 26 OPIN4 Inverting input for CH4 OP AMP 27 OPIN4 Non inverting input for OP AMP 28 PreVcc Vcc for pre block EN 160 DVDR615 69 htt p WAN dwxzl w com f ronuser Circuit IC descriptions and list of abbreviations 1C7500 PNX7850 FEBE Board Channel Codec Buffer Manager Servo Processor and Controller HF motor actuators EFM CD DVD WOBBLE PROCESSOR EFM WRITE CLOCK DATA GENERATOR BIT SIGNAL DETECTION CONDITION SERVO ACCELERATORS Nexperia PNX7850 conceptual block diagram CD DVD CHANNEL ENCODE DATA BLOCK DECODE ENCODE WITH DECODE ERROR CORRECTION MIPS PR1910 Figure 9 32 1C7926 NCP303LSN FEBE Board Reset Circuit NCP303LSNxxT1 DRIVE INTERFACE SDRAM SDRAM CONTROLLER MEMORY PROCESSOR AUTOMATION MICRO INTERFACE INTERRUPT CONTROLLER EJTAG STATIC MEMORY INTERFACE Flash Open Drain Output Configuration Figure 9 33 CSS eset Output UDMA66 HOST INTERFACE UART CONFIG GPIO POWER CONTROL AND RESET host audio UART htt p www dwxzl w con f ronuser Circuit IC descriptions and list of abbreviations
312. tures inside the set especially the Laser on the OPU of the drive is very sensitive a fan is located at the rear of the FEBE module The speed control is dependent on the ambient temperature A NTC resistor 3211 located on the Keyboard on the Front board measures the temperature The change in temperature is translated into dc levels and send to pin 28 of slave uP 7107 High low signals is then sends out via pin 5 and 6 of slave 7107 to control transistors 7105 and 7106 which regulates the fan motor to 3 different speeds Power Supply Unit Functional principle This power supply works in the way of a flyback converter In the mains input part 1931 to 2314 2315 the mains voltage is rectified and buffered in the capacitor 2314 2315 From this direct voltage at 2314 2315 energy is transferred into the transformer 5300 pins 7 5 during the conductive phase of the switching transistor 7308 and is stored there as magnetic energy This energy is passed to the secondary outputs of the power supply in the blocking phase of the switching transistor 7308 With the switch on time of the switching transistor 7308 the energy transferred in every cycle is regulated in such a way that the output voltages remain constant regardless of changes in the load or mains voltage The power transistor is driven by the integrated circuit 7311 Mains input part The mains input part extends from the mains socket 1931 to the capac
313. turing frames to memory Initialise the SYNC module Initialise the Video Post Processing and retrieve frames from memory Initialise the mixer Initialise the DENC module Route the signal to all outputs Execution Time Less than 1 second but stays running User Input viplnput lt VideoOutput gt lt VideoStandard gt 1 vipInput CVBS YC YUV RGB 1 to 9 see table below LECO Premier specific User input Video input Data path to VIP 1 RGB SCART aux RGB in 2 YC SCART aux Y C in 3 CVBS SCART aux CVBS 4 CVBS Tuner 5 YC Front Y C 6 CVBS Front CVBS 7 CVBS SCART TV CVBS 8 9 CVBS CE mode CVBS in 10 XPORT XPORT 2 VideoOutput YUV RGB 3 VideoStandard PAL NTSC Error Number Description 121300 Video LoopthroughStart succeeded 121301 User input is not valid 121302 Initialisation of the VIP failed 121303 Unable to stop the loop through before restarting 121304 Video Signal on the input is not a valid signal 121305 Initialisation of the VFE failed 121306 The digital board hardware information is corrupt Example DS gt 1213 CVBS RGB PAL 121300 Test OK Nucleus Name DS_SYS_VideoLoopThroughStop Nucleus Number 1214 Description Stop routing the video input to all the outputs Technical Stop the DENC and the Video Front End Execution Time Less than 1 second User Input Error Number Description 121400
314. turn this info to the user Execution Time Less than 1 second User Input The location from which the data must be read SDRAM starts at address 0xA0000000 Error Number Description 40300 Reading from the SDRAM succeeded 40301 Reading from the SDRAM failed Wrong user input 40302 Address is not dividable by 4 Example DS gt 403 0xa1000010 040300 Value read OxAD112222 Test OK FLASH Nucleus Name DS_FLASH_DevTypeGet Nucleus Number 500 Description Get the device revision type information of the FLASH IC type manufacturer device ID and size Technical Set the timing for the flash writing Write a command sequence to determine device type information Return the information to the user Execution Time Less than 1 second User Input None Error Number Description 50000 Getting the information from the FLASH succeeded 50001 Getting the information from the FLASH failed Example DS gt 500 050000 Found FLASH memory NOR AMD 29DL640G 8MB NOR AMD 29DL640G 8MB Test OK Nucleus Name DS FLASH WriteRead Nucleus Number 501 Description Check whether the FLASH can be written to and read from Technical Find the test segment in flash Read the data into SDRAM Modify the data Write this data from SDRAM to FLASH and verify it by reading back again Execution Time Less than 1 seconds
315. ucleus Number 101 Description Generates a test image of a selected video standard on selected video output on the digital board When no input is given the default values will be used see user input description be low Make sure to use the proper nuclei to route the video signal on the analogue board to get the videosignal to the proper output Technical Validate the user input Initialise the SYNC module Initialise the DISPLAY module Initialise the MIXER module Initialise the DENC module Set the selected video standard Generate the selected test image in memory Start the DISPLAY module Start the MIXER module Start the DENC module according to the selected test image id 6 seconds Execution Time htt p ww dwxzl w conf 21 ronuser Diagnostic Software DVDR615 69 ES Nucleus Name User Input DS CHR TestlmageOn The user has to decide which test image video standard and video output must be used Test image id 0 VERTICAL COLOURBAR default HORIZONTAL COLOURBAR WHITE YELLOW CYAN GREEN MAGENTA RED BLUE BLACK O Q G N e gt lt 11TEST IMAGE FOR PROGRESSIVE SCAN Video standard PAL default NTSC Video output ALL CVBS and YC and RGB default CVBS YC RGB YUV PSCAN progressive scan Error Number Description 10100 Generating the test image succeeded
316. ues Example DS gt 1603 Time 03 20 17 Date 22 06 03 dd mm yy 160300 Test OK Nucleus Name DS ASP RealTimeClockSetCorrection Nucleus Number 1604 Description This nucleus sets the correction value needed for the real time clock htt p ww dwxzl w com 21 ronuser ECI EE DVDR615 69 Diagnostic Software Technical T B D Execution Time Less than 1 second User Input none Error Number Description 160400 Setting the correction values succeeded Example DS gt 1604 160400 T B D Test OK 9 Nucleus Name DS ASP RealTimeClockAdjustment Nucleus Number 1605 Description This nucleus sets a test signal for clock crystal measurement The signal with a frequency of 1 kHz and duty cycle of 50 appears on pin RCC Technical Send Clock Adjustment command to the ASP Execution Time Less than 1 second User Input None Error Number Description 160500 The test succeeded 160501 The ASP initialisation failed 160502 The bus failed Example DS gt 1605 160500 Test OK Nucleus Name DS_ASP_NTCGet Nucleus Number 1606 Description This nucleus reads the value of the NTC resistor connected to the ASP which tells the ambient temperature to the processor Technical Read the ADC input pin of the ASP that is connected to the NTC resistor Display thi
317. uner will be defined run time if recognised Tuner Tuner ID 1 FE1316 Europe Philips 2 FE1319 Europe Philips 3 TMQZ2 403A Europe ALPS 4 JS6B2 L121 Europe Xuguang 5 601 Samsung 6 0682 NAFTA Samsung Error Number Description 200100 Setting the tuner channel succeeded 200101 Invalid user input htt p ww j dwxzl w conf 21 ronuser Diagnostic Software DVDR615 69 5 LI Nucleus Name DS_FRE_ChannelSelect 200102 Getting the version of the set failed 200103 Configuration of the tuner failed 200104 Configuration of the IF module failed Example DS gt 2001 3456 0 1200100 Test OK Nucleus Name DS_FRE_AFCReferenceVoltage Nucleus Number 2002 Description This nucleus stores the reference voltage for the tuner in the factory settings Technical Parse the user input Initialise IIC and NVRAM connection Put the new values in NVRAM Execution Time Less than 1 second User Input The reference voltage to store in a range between 0 and 255 dec Error Number Description 200200 Storing the reference voltage for the tuner succeeded 200201 The user provided wrong input 200202 The section in NVRAM could not be validated after write 200203 Writing the value to NVRAM failed 200204 Initialisation of failed or NVRAM unreachable Exam
318. us Technical Check if an AV2 or AV3 is connected In case of an AV2 Send the FOCUS command with parameter 0x00 In case of an AV3 Send the transparent BIT engine FOCUS command Execution Time Less than 1 second on AV2 2 seconds on AV3 User Input None Error Number Description 91400 Focus off succeeded 91401 There was a time out while communicating 91402 The Basic Engine returned an unexpected result 91403 The BE returned an error code 91404 No acknowledge received from BE 91405 Communicating with the Basic Engine failed 91406 Unable to enter service mode Example DS gt 914 091400 Test OK Nucleus Name DS BE MotorOn Nucleus Number 915 htt p WAN duxzl w cona f ronuser Diagnostic Software Em GEJ Description Turn on the turntable motor Technical Check if an AV2 or AV3 is connected In case of an AV2 Send the TURN TABLE MOTOR ON command In case of an AV3 Send the transparent BIT engine TTM command Execution Time Less than 1 second on AV2 4 seconds on AV3 User Input None Error Number Description 91500 Turn table motor is on 91501 There was a time out while communicating 91502 The Basic Engine returned an unexpected result 91503 The BE returned an error code 91504 No acknowledge received from BE 91505 Communicating with the Basic Eng
319. ut pd RWN 38 B M T Read Write not indicates power setpoints Board test IO Vssp2 39 P Digital Core Supply Vppp2 40 R Digital Core Supply BANK 41 T CAV setpoint switching input signal Board test IO pd TEST2D 42 T Test pin SDA 43 BOD 12 Serial Data SCL 44 I C Serial Clock 1 All supply pins must be connected to the same external power supply voltage 2 All inputs are 5V tolerant i e they will drive the supply voltage 3 0 3 6V but will work correctly when interface to a 5V drive device 3 The pin type definition is given below PinType Definition Table Type Definition input output OD open drain B bi directional BOD bi directional open drain T tri state output Al analog input AO analog output AB analog bi directional P power connection hy hysteresis on input pd hysteresis on output Figure 9 28 htt p ww 2 w conf f ronuser Circuit IC descriptions and list of abbreviations DVDR615 69 1C7402 SA56202 FEBE Board Motor Drivers Philips Semiconductors Preliminary Specification Rev 0 14 OneChip MotorDriver SA56202 PIN CONFIGURATION HU g OSCILLATOR 5 COSC gt 18 JOSCILLATOR HU 5 DIODE HN T 92 THERMAL Y SHUTDOWN 54 GNDDIO 52 INFCS 2 E pm INTLT ABL 7 OUTL
320. ut Reference Voltage for Vthr and Vdel VppA2 18 P Analogue Supply VssA2 19 P Analogue Supply TEST1A 20 AB A Test pin IAPCW p1 AO A Current Output of Delta Reference IAPCR 22 Current Output of Threshold Reference TEST2A 23 AB A Test pin ENR2 24 T M Programmable Output Flag ENR1 25 Bpd Initialisation Programmable Output Flag must be driven to VDD during reset DVDCD 26 M Programmable Output Flag for indicating DVD CD mode HILO 27 T M Programmable Output Flag for indicating High Low reflectivity Vssp1 28 P Digital Pad Supply Vppp1 29 P Digital Pad Supply BUSY 30 B M T Busy Enable input from Elantec Board test IO SEN 31 B Serial Enable output to Elantec Board test SDIO 32 B M T Serial data input output from to Elantec Board test IO SCLK 33 B M T Busy Enable input from Elantec Board test IO WSB 34 B M T Write Strategy Bank output controls OPU write switching Board test IO Figure 9 27 htt p ww dwxzl w co fromser E DVDR615 69 Circuit IC descriptions and list of abbreviations Pin description continued Symbol Pin Type Drive Description Thr IRQN 35 OD M Interrupt Request Not active low interrupt request OSTR 36 T OPC Strobe request step in alpha setpoint Board pd test input RESETN 37 T Reset Not active low reset inp
321. ution Time Less than 1 second User Input The user inputs the Bus ID Slave Address number of bytes to read number of bytes to write and the bytes to be written lt NucNr gt lt Busld gt lt SlaveAddr gt lt ReadLen gt lt WriteLen gt lt WrByte0 WrByteN gt Max number of bytes to write 255 Max number of bytes to read 255 Error Number Description 123500 Writing data to and reading data from the IIC slave succeeded 123501 The IIC bus was not accessible 123502 There was a bus timeout reading the device 123503 The IIC acknowledge was not received 123504 Unable to initialise bus 123505 The communication with the device failed 123506 Unknown bus error received 123507 Decoding bus ID unsigned value failed 123508 Decoding slave address unsigned value failed 123509 Decoding number of bytes unsigned value failed 123510 Bus ID out of range 123511 Number of bytes out of range Example DS gt 1235 0 0 Oxf 1 0 0x0000 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x0008 0x00 0x00 0x00 0x00 0x00 0x00 0x00 121000 Test OK Nucleus Name DS SYS UartSetup Nucleus Number 1236 Description Set up a configuration for the selected UART Technical Parse user input Use MIS UART Setup to setup the selected UART with the requested parameters Execution Time Less than 1 second htt p ww dwzl w
322. vice 80103 The IIC acknowledge was not received 80104 Communicating with the progressive scan DENC IC failed 80105 The initialisation of the IIC bus failed 80106 The read data is not the same as the written data 80107 No chip was expected Example DS gt 801 080100 Test OK Nucleus Name DS PSCAN TestlmageOn Nucleus Number 802 Description Generate the test images that are present on the progressive scan IC Technical Determine whether the user wanted a HATCH or a FRAME image pattern Initialise the PIO pins of the Codec Initialise Reset the DENC Enable the 27Mhz clock Send all settings for the pattern to the DENC through IIC Execution Time Less than 1 second User Input In case of ADV7196 When input is given HATCH is the default HATCH FRAME Remark HATCH is a crosshatch test pattern horizontal and vertical white lines are displayed against a black background FRAME is a uniform coloured frame field test pattern default white In case of FLI2300 Nothing Error Number Description 80200 The generation of the test image succeeded 80201 Unable to initialise PSCAN IC 80202 Unable to reset DENC 80203 Unable to generate image 80204 No chip was expected Example DS 802 HATCH 080200 Test OK Nucleus Name DS PSCAN TestlmageOff Nucleus Number 8038 Description Switch off the generated test image Technical I
323. written 80807 No chip was expected Example DS gt 808 080800 Test OK 9 Basic Engine BE Nucleus Name DS BE CommunicationEcho Nucleus Number 900 Description Check the communication between the digital board and the basic engine by issuing an echo command Technical Send the ECHO command Check if the BE returned the string 0x00 OxAA 0x55 Execution Time Less than 1 second User Input None Error Number Description 90000 Communicating with the BE over the S2B interface succeed ed 90001 There was a time out while communicating 90002 The Basic Engine returned an unexpected result 90003 The Basic Engine returned an error code 90004 No acknowledge received from BE 90005 Communicating with the Basic Engine failed 90006 Echo check failed no echo received 90007 Echo check failed received wrong pattern Example DS gt 900 090000 Test OK htt p ww dwxzl w conf 21 ronuser Diagnostic Software DVDR615 69 GEJ Nucleus Name DS BE Reset Nucleus Number 901 Description Reset the basic engine Technical Check if an AV2 or AV3 is connected In case of an AV2 Toggle the reset pin of the 125 interface In case of an AV3 Toggle the reset pin of the IDE interface Execution Time 2 seconds on AV2 9 seconds on AV3 when disc inside User Input None
324. ww dawzl w con f ronuser 0 BEA Diagnostic Software Nucleus Name DS_PSCAN_DevTypeGetDeinterlacer Nucleus Number 807 Description Get the device revision type information of the progressive scan de interlacer Technical Initialise the dei nterlacer Read the version register of the de interlacer Execution Time 1 second User Input None Error Number Description 80700 Everything went well 80701 The communication with the device failed 80702 No chip was expected Example DS gt 807 080700 Chip name 2300 Chip version 1 Test OK Nucleus Name DS PSCAN CommunicationDeinterlacer Nucleus Number 808 Description Check the communication between the IIC controller of the Codec and the progressive scan De interlacer IC Technical Initialise Set the video source synchronisation source to the Codec Write data to the DENC through IIC Execution Time Less than 1 second User Input None Error Number Description 80800 Communicating with the progressive scan De interlacer IC succeeded 80801 The bus was not accessible 80802 There was a timeout reading the device 80803 The communication with the device failed no ACK 80804 Communicating with the progressive scan De interlacer IC failed 80805 The initialisation of the IIC bus failed 80806 The data read back is not the same as the data
325. zl w conf 21 ronuser Directions For Use EN 3 Directions For Use The following excerpt of the Quick Use Guide serves as an introduction to the set The complete Direction for Use can be downloaded in different languages from the internet site of Philips Customer Care Center www p4c philips com QUICK USE GUIDE DVDR610 DVDR615 DVDR616 ANTENNA CABLE SIGNAL Y sor OUT I VIDEO Q DVD recorder back panel Connect DVD recorder Remove the antenna cable plug from your TV or Satellite Receiver Cable Box Connect it to the ANTENNA input socket at the back of the DVD recorder O Use the supplied antenna cable to connect the DVD recorder s TV output socket to the antenna input socket at the back of your TV set Use the supplied AV cables yellow plug to connect the DVD recorder s VIDEO CVBS OUT 2 socket to the Video In socket at the back of your TV set Use the supplied AV cables red white plugs to connect the DVD recorder s AUDIO L R OUT 2 socket to the audio input socket at the back of your TV set Connect the power cable from the DVD recorder s MAINS to the power supply Helpful Hint If your TV does not have the above mentioned connectors please refer to the user manual for more information on others possible connection to your TV set Prepare the remote control 12nc 3139 246 14151

"user manual"

Contents

Download Pdf Manuals

Related Search

Related Contents

&quot;user manual&quot;

Contents

Download Pdf Manuals

Related Search

Related Contents

"user manual"