DVD3800_Cover.p65 DVD3800
User Manual: DVD3800
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For U.S.A., Canada, Europe, Asia & Korea model Digital Player SERVICE MANUAL MODEL DVD-3800 DVD AUDIO-VIDEO PLAYER Some illustrations using in this service manual are slightly different from the actual set. 16-11, YUSHIMA 3-CHOME, BUNKYOU-KU, TOKYO 113-0034 JAPAN Telephone: 03 (3837) 5321 X0137 NC 0207 DVD-3800 SAFETY PRECAUTIONS The following check should be performed for the continued protection of the customer and service technician. LEAKAGE CURRENT CHECK Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power cord is less than 460 kohms, the unit is defective. SPECIFICATIONS Signal System: Applicable Discs: NTSC/PAL (1) DVD-Audio/DVD-Video discs 1-layer 12 cm single-sided discs, 2-layer 12 cm single-sided discs, 2-layer 12 cm double-sided discs (1 layer per side) 1-layer 8 cm single-sided discs, 2-layer 8 cm single-sided discs, 2-layer 8 cm double-sided discs (1 layer per side) (2) Compact discs (CD-DA, Video CD) 12 cm discs, 8 cm discs S-Video Output: Y output level: 1 Vp-p (75 Ω/ohms) C output level: 0.286 Vp-p (For U.S.A., Canada, Asia & Korea model) 0.3 Vp-p (For Europe model) Output connectors: S connectors, 2 setS AV 1 connector, 1 set (For Europe model) Video Output: Output level: 1 Vp-p (75 Ω/ohms) Output connector: Pin-plug jacks, 2 setS AV 1 connector, 1 set/AV2 connector, 1 set (For Europe model) Component Output: Y output level: 1 Vp-p (75 Ω/ohms) PB/CB output level: 0.648 Vp-p (75 Ω/ohms) (For U.S.A., Canada, Asia & Korea model) 0.7 Vp-p (75 Ω/ohms) (For Europe model) PR/CR output level: 0.648 Vp-p (75 Ω/ohms) (For U.S.A., Canada, Asia & Korea model) 0.7 Vp-p (75 Ω/ohms) (For Europe model) Output connector: Pin jack, 1 set RGB Output: Output level: 0.7 Vp-p (75 Ω/ohms) (For Europe model) Output connector: AV 1 connector, 1 set (For Europe model) Audio Output: Output level: 2 Vrms 2 channel (FL, FR) output connector: Pin jacks, 2 sets Multi channel (C, SW, SL, SR) output connector: Pin jack, 1 set AV 1, 1 set/AV 2, 1 set (For Europe model) Audio Output Properties: (1) Frequency response 1 DVDs (linear PCM) : 2 Hz to 22 kHz (48 kHz sampling) : 2 Hz to 44 kHz (96 kHz sampling) : 2 Hz to 88 kHz (192 kHz sampling) 2 CDs : 2 Hz to 20 kHz (2) S/N ratio 1 DVDs : 116 dB 2 CDs : 116 dB (3) Total harmonic distortion 1 DVDs : 0.0015 % 2 CDs : 0.0018 % (4) Dynamic range 1 DVDs : 108 dB 2 CDs : 100 dB Digital Audio Output: Optical digital output : Optical connector, 1 set Coaxial digital output : Pin jack, 1 set Power Supply: AC 120 V, 60 Hz (For U.S.A. & Canada model) AC 230 V, 50 Hz (For Europe & Asia model) AC 220 V, 50 Hz (For China model) AC 220 V, 60 Hz (For Korea model) Power Consumption: 30 W (For U.S.A. & Canada model) 32 W (For Europe, Asia & Korea model) Maximum External Dimensions: 434 (W) × 132 (H) × 343 (D) mm (including protruding parts) Mass: 10.0 kg Remote Control Unit: RC-553 Type: Infrared pulse Power Supply: DC 3 V, 2 "AA" /R6P batteries ∗ Design and specifications are subject to change without notice in the course of product improvement. 2 DVD-3800 Iop Measurement Method (Diagnostics of Traverse Unit) Diagnostics of optical pickup (Replacing Traverse Unit) as shown as below. 1. Arrange of Judgment (1) Check read discs Disc no read, unsteady playback, etc. (2) Laser current (Iop) check Check the Iop (Laser drive current). If the present Iop value exceeds +50% of the initial value, replace the Traverse Unit with a new one. (3) Replacing the Traverse Unit Traverse Unit replacing (See page 8 and 9). No mechanical adjustment is necessary after the replacement. DVD CD mA mA Laser current initial value 2. Iop Measurement Method Nearby C532 DVD laser drive current measuring points 17 7 18 6 1 14 1 28 28 15 40 29 60 41 40 61 8 4 5 15 32 17 1 16 1 21 80 1 1 39 1 40 1 20 24 40 21 20 1 8 14 7 1 21 20 75 51 50 76 26 100 1 11 12 1 48 25 24 37 25 CD laser drive current measuring points 36 GU-3389 P.W.B. (foil side) [CD] IOP silk point (1) DVD laser current measurement • Playback the title 1/chapter 1 of DVD test disc (DVDT-S01) or the equivalent. • Connect the oscilloscope to the above mentioned point. • DVD laser current = Measured Voltage Value / 39 (Resistance Value) (2) CD laser current measurement • Playback the track 1 of CD test disc (TCD-784) or the equivalent. • Connect the oscilloscope to the above mentioned point. • CD laser current value = Measured Voltage Value / 39 (Resistance Value) 3 DVD-3800 Note for Handling the Laser Pick-up The protection for the damage of laser diode. If you want to change the optical device unit from any other units, you must keep the following. (1) It should be done at the desk already took measures the static electricity in care of removing the OPU's (Optical device unit) connector cable. (2) Workers should be put on the "Earth Band". (3) It shold be done to add the solder to the short land to prevent the broken Laser diode before removing the 24P FFC cable. (4) Don't touch OPU's connector parts carelessly. Replacement of the Traverse Unit When repairing, carry out failure diagnostics by following the procedure described below. If the present value of the laser drive current is 50% up to initial value, it is the point of the pickup replacement. In case of the pickup replacement, replace the Traverse Unit with no adjustment. The initial value is indicated on the label on back side of Mecha. NO DISC indicated, Playback not smooth, etc. Laser drive current check HF signal check Present value: 50% up to initial value Traverse Unit replacement (refer to page 8) Laser drive current check after replacement. If the present value is less than 80mA, write on the new label by hand, put on the new label over the old label. If the present value exceeds 80mA, replace the Traverse Unit with a new one. Cause: Damaged electrostatically when replaced. 4 DVD-3800 DISASSEMBLY ( Follow the procedure below in reverse order when reassembling ) 1. Top Cover (1) Remove 10 screws 1 on the top and both sides, and 2 screws 2 on the rear. (2) Widen the Top Cover a little laterally, then detach it with sliding in the arrow direction. 1 1 2 1 2. Loader Panel, Front Panel Power P.W.B. 2-1. When the Disc Tray can be ejected electrically 3 (1) After removing the Top Cover, proceed Front Panel as follows. (2) Plug the power cord to the wall outlet, switch on the power, and press the “OPEN/CLOSE” button to open the Disc Tray. Power Switch (3) Detach the Loader Panel by lifting it in the arrow direction. (4) Press the “OPEN/CLOSE” button to close the Disc Tray, then unplug the power cord. Loader Panel (5) Disconnect the wire (CX025, CX041) connecting the Front Panel’s P.W.B. and the Power PWB in the Chassis. 4 (6) Remove 4 top screws 3 and 4 bottom “OPEN/CLOSE” button screws 4 , then detach the Front Panel to the arrow direction. (7) Disconnect the FFC (CX171) connecting the Front Panel’s P.W.B. and the Main P.W.B. in the Chassis. Main P.W.B. 5 DVD-3800 2-2. When the Disc Tray cannot be ejected electrically (1) After removing the Top Cover, proceed as follows. Trans. Bracket (2) Remove 2 screws 5 on the Trans. Bracket and 2 bottom screws 6 . 5 6 Front Panel (3) Turn the Trans. and Bracket to the arrow direction, then remove 2 screws 7 . 7 (4) Move the Trans. toward the Front Panel. Trans. Front Panel (5) Insert a screwdriver into the left hole of the Mecha. Fix Bracket, and push the Plate Gear of the DVD Mecha. slowly to open the Disc Tray. DVD Mecha. Mecha. Fix Bracket Plate Gear screwdriver (6) Remove the Loader Panel, and close the Disc Tray. Loader Panel (7) Detach the Front Panel following the same steps described on the previous page 2-1. (5)~(7). 6 DVD-3800 3. Video P.W.B. (1) (2) (3) (4) (5) 8 Disconnect 2 connectors. Disconnect 2 FFCs (CY272, CY131). Remove 4 screws 8 on the Video P.W.B. Remove 3 screws 9 from the rear. Detach the Video P.W.B. to the arrow direction. FFC 9 Video P.W.B. Connector I/F P.W.B. Connector 4. DVD Mecha. FFC (1) Remove 2 screws on the I/F P.W.B., 2 screws from the rear, then disconnect 2 FFCs (CY211, CY212) and 1 connector (CY036) to detach the I/F P.W.B. (2) Disconnect each one of 30P FFC (CY301) and 14P connector (CX141) from the DVD Mecha. (3) Remove 4 screws on the DVD Mecha., and take it off in the arrow direction. 14P Connector DVD Mecha. 30P FFC # Power P.W.B. 5. Audio P.W.B. / Power P.W.B. ! 5-1. Audio P.W.B. Remove 4 screw ! on the Audio P.W.B., 4 screws " from the rear. 5-2. Power P.W.B. (1) Remove 6 screws # on the Power P.W.B. (2) Disconnect 2 connectors (CX024, CX026). Connector Audio P.W.B. " 7 DVD-3800 How to Replace Traverse Unit 1. Preparing for Replacement (1) Removing Clamp Base Damper Remove 4 pcs of 2.6mm machine screw (a), and detach the Clamp Base Damper upward. (2) Removing Clamp Base Remove 6 pcs of 3mm P-tight screw (b), and detach the Clamp Base upward. (3) Ejecting Loader Through the left rectangular hole of the Mechanism Unit, push the slider with a ruler or screwdriver until the Traverse portion lowers and the Loader comes out a little. (4) Removing Loader • Remove 2 pcs of 3mm P-tight screw (c) on the Loader Holder left. • Remove 2 pcs of 3mm P-tight screw (d) on the Loader Holder right, then pull up the Bearing Plate. • Fully pull out the Loader forward, and lift up to take it out. (5) Shorting Pickup To protect the Pickup from static electricity, short-circuit 2 positions as shown in figure. (6) Removing Main P.W.B. Ass'y Remove 4 pcs of 3mm P-tight screw (e), and detach the Main P.W.B. Ass'y downward. (a) Clamp Base Damper Clamp Base (b) (d) Bearing Plate (c) Holder Loader A (4) (3) Main P.W.B. Ass'y Solder to short-circuit (CD) (e) Solder to short-circuit (DVD) Short-circuit with solder (enlarged fig. A) 2. Replacing Traverse Unit (1) Removing Wires • CX241: 24P-FFC for Pickup • CX151: 15P-FFC for Spindle • CX031: 3P-PH wire for PU Slide (2) Removing Traverse Unit Remove 4 pcs of special screw (f) and dampers, then take out the Traverse Unit upward. (3) Mounting Traverse Unit Mount the Traverse Unit following the reverse order. (f) Traverse Unit Damper 8 DVD-3800 3. Installing Loader Plate Gear (1) Inserting Loader Set and push the Loader to the arrow direction until it stops. When installing the Loader, move the Plate Gear to right beforehand so as that the boss of the Plate Gear fits in the backside groove of the Loader. (See figure right) (2) Fixing Loader Fix the Loader with each 2 screws (c) and (d). Boss Groove (d) Bearing Plate (c) Loader 4. Assembly (1) (1) Assembling Main P.W.B. Ass'y Fix the Main P.W.B. Ass'y with 6 pcs of 3mm P-tight screw (e). (2) Removing Pickup-short Solder After connecting 24P-FFC of the Pickup with P.W.B., remove solder from 2 shorted positions. (3) Temporary Positioning Clamp Base To protect your eyes from laser light, put the Clamp Base temporarily. (At this moment, be sure to make chucking the Clamper and Turn-table securly.) (4) Positioning up Traverse Unit Connect the following wires of the Mechanism Unit, and operate it. • CX141: 14P-PH wire for power • CX131: 13P-FFC wire from Display P.W.B. Turn on the power to the unit, and press "OPEN/CLOSE" button to close the Loader. The Traverse Unit rises up. (display: 0h00m00s) Clamp Base (e) Main P.W.B. Ass'y 9 DVD-3800 5. Assembly (2) (1) Attaching Tape to Clamp Base Damper Attach acetate cloth tape to 3 projections of the Clamp Base Damper backside. (Be careful not to make it overlapped.) (2) Assembling Clamp Base Set the Clamp Base Damper with positioning for clamper by 3 projections. Fix the Clamp Base with 6 pcs of 3mm P-tight screw (b). Acetate Cloth Tape Clamp Base Damper Clamp Base Damper (b) Clamp Base 6. Assembly (3) (1) Detaching Tape from Clamp Base Damper Detach acetate cloth tape from 3 projections of the Clamp Base Damper backside. (2) Assembling Clamp Base Damper Set the Clamp Base Damper to the Clamp Base contrary to the direction set in step above. Fix the Clamp Base Damper with 4 pcs of 3mm S-tight screw (a). (a) Clamp Base Damper 10 DVD-3800 Service Mode 1. Aging Mode (1) Preparation (a) Equipment used: Any one of DVD Karaoke Disc (containing more than 10 titles), CD/Video CD (Ver1.0: None playback control), or No-menu DVD. (Setting varies according to the disc used.) (b) Unit setting: No spec other than the following procedure (Aging mode) At the tray open status, press the "POWER" button to turn on the power while pressing the "PLAY" and "OPEN/CLOSE" buttons for DVD operation simultaneously. mark on the FL lights, and the unit is set to the heat run mode. (2) Procedure (a) According the above, set to the aging mode. (b) Set a DVD Karaoke disc to the tray and press the "PLAY" button once. mark on the FL blinks, and aging peration (after playback title-1 and title-10 of the disc, the tray open/close is made automatically, then playback the title-1 again) starts. This aging operation continues automatically until it is stopped or it stops caused by an error. (c) When using other than a DVD Karaoke disc, aging operation (after playback all titles of the disc, the tray open/close is made automatically, then playback all titles again) starts by pressing the "PLAY" button once, and mark on the FL lights. The aging operation continues automatically until it is stopped or it stops caused by an error. In case of some error in DVD, the tray opens and the following error messages are displayed on the FL. No. Error contents Error code FL display 1 During tray work, it doesn’t end within the time specified. 045300 ERROR 01 2 No spindle work during playback. 040990 ERROR 02 3 Out of focus during playback, search, or pause. 031100 ERROR 04 4 No data read when spin up. 031100 ERROR 04 5 No data read when playback. 031100 ERROR 04 6 Cannot read TOC within the time specified. 025700 ERROR 05 7 No sub-code read 025700 ERROR 05 8 No response from DVD drive more than 10 sec. 0B4000 ERROR 06 9 Error not specified (other than above). --- ERROR 07 2. Initial Setting Mode (1) Preparation (a) Equipment used: None (b) Unit setting: No spec other than the following procedure (2) Procedure (a) Initialize the DVD player when µcom, peripheral parts of µcom, or Main P.W.B. has been replaced in servicing. (b) Carry out the following to restore factory setting mode. At the player stop condition, press 3 buttons for DVD peration ("PLAY", "OPEN/CLOSE", and " SKIP") until "INITIALIZE" appears and disappears in the FL. ("Initialized" appears and disappears on the TV screen.) (c) All user setting will be lost and its factory setting will be restored when this initialization is made. Be sure to memorize your setting for restoring again after the initialization. 11 DVD-3800 3. P.W.B. Check Mode (1) Preparation (a) Equipment used: None (b) Unit setting: No spec other than the following procedure (2) Procedure (a) Press the "POWER" button to turn on the power while pressing the "PLAY" and "OPEN/CLOSE" buttons for DVD operation simultaneously. (b) FL all light/extinguish mode. This mode is for detecting FL defects. Press "STILL/PAUSE( )"on the remote control unit once to light all FL segments, and press it once again to extinguish them. (c) DVD µcom and main unit µcom firm check mode. This mode is for displaying the status of each µcom employed. • DVD µcom firm: Press the "MENU" button. Each time the "MENU" button is pressed, µcom firm is displayed one after another. Ex.: [DRV_6067, ESS_6094, PANEL 6093] Set Serial No. (lower 5 digits) 1 00001~ Bus Manager V.52 Drive Pcom Ver. 6067 (Display) 6067 ESS Pcom Ver. 6094 (Display) 6094 Panel Pcom Ver. 6093 (Display) 6093 2 3 4 12 DVD-3800 TROUBLESHOOTING 1. No power (FL tube doesn't light.) Check connector insertion. Switching power (GU-3439-1): [CX024, CX025, CX026, CY041, CX141] Main PWB (GU-3389): [CX031, CX131, CX141, CX171, CX272] Check switching power (GU-3439-1) voltages. [CX141]: 14P PH for Main PWB: 5 , +5V, " (3.3V) (1) Check reset signal (3V) at 67pin of IC601 on DISP PWB. (2) Check 4.3MHz at 65pin of IC601. No No No Replace the switching power unit (GU-3439-1). (1) Check R681, R602 solderring. (2) After checking X601 and IC601 soldering, change X601. If still NG after changing, replace IC601. Check switching power (GU-3439-1) voltages. [CX041]: 4P PH for Main PWB: 1 +3.6V No Check soldering of IC201 on Main PWB (GU-3389). Check switching power (GU-3439-1) voltages. [CX141]: 14P PH for Main PWB: 1 +12V 2 -12V 3 +5V 9 3.3V +5V ! +3.3V [CX041]: 4P PH for DISP PWB: 1 ON/ST(3.6V) 2 -24V 3 -29V 4 -32V No Replace the switching power unit (GU-3439-1). Perform operation check after changing Main PWB (GU-3389) with a perfect one. No When replacing µcom, µcom peripheral parts, or Main PWB, perform initializing of DVD player. Re-insert the connector. There is something wrong in Main PWB (GU-3389). → Check 27MHz output of IC101 (49) pin/XIN, (105) pin/CLK, and (116) pin/ PCLK2X on Main PWB. No No Check after replacing IC201 on Main PWB (GU-3389). Check soldering of IC108, IC110 and IC116 on Main PWB (GU-3389), then change IC101 if it's NG. Change IC111 if it's still NG. A Note: When switching power unit is repairable, refer to the waveforms and voltages shown in Schematic Diagram. 13 DVD-3800 A There is something wrong in Main PWB No (GU-3389). → Check 11MHz input of IC101 (39) pin/ MCLK. Check IC109→IC113→IC112→IC111 (see Schematic Diagram) on Main PWB (GU-3389). There is something wrong in Main PWB (GU-3389). No → Check if CLOCK and DATA signals of ICBUS are output on IC101 (160) pin/ AUX0, (161) pin/AUX1 when the power is on. Check soldering of IC106, IC703, IC706 and IC101 on Main PWB (GU-3389), and change IC101 if it's NG. Change IC106, then IC703 and IC706 if it's still NG. Finally, change IC601 on Video PWB (GU-3438-2) if still NG. Check soldering of IC101 (208 pins) on Main PWB (GU-3389). → Perform re-soldering. Caused by Main PWB (GU-3389). No →Check 20MHz output on IC703(10) pin. Check soldering of IC703 and X701, and replace if NG. Caused by Main PWB (GU-3389). No →Check 27MHz input on IC706 (32) pin. Check soldering of IC706, and replace if NG. Check RESET 5V output of IC511 (30) pin on Main PWB. Check soldering of R637 and IC101 (145) pin on Main PWB. → Perform re-soldering. No Check Laser drive current/HF wave form. Criterion: Iop is less than 1.5 times of its initial value. Replace Traverse Unit. Write Iop after replacing the unit. 14 DVD-3800 2. No power (Both FL tube & LED don't light.) Check connector insertion. Switching power (GU-3439-1): [CX024, CY025, CX028, CY141, CX041] Main PWB (GU-3389): [CX141, CX171] No Re-insert the connector. Check switching power voltages. [CY141]: 14P PH for Main PWB: +5V(NSW) " +3.3V(NSW) No Replace the switching power unit. Check Main PWB voltages. [CX171]: 1 pin: +5V check (CX141 →CX171 1 break check) pin: +3.3V check (CX141 " →CX171 2 break check), etc. 15 DVD-3800 Electrical Adjustment for Video SETTING 1. Connect the monitor TV to the video output 1 terminal. 2. Connect the Oscilloscope to the Y-signal and C-signal of S2 video output terminal and each terminate at 75 Ohms. 3. Connect the Oscilloscope to the PB-signal , CB-signal and Y-signal of Component video output terminal and each terminate at 75 Ohms. Use the 75 Ohms resistance must be 1% 4. DVD test disc : DVDT-S01 ADJUSTMENT Setting the Oscilloscope as bellow. 1 PB / CB / PR / CR (a) TIME / DIV : 2 µS (b) VOLT / DIV : 100 mV (use the probe : ×10) 2 Y/C (a) TIME / DIV :2 µS (b) VOLT / DIV :50 mV (use the probe : ×10) Power on. Power Supply U.S.A.& Canada : 120 V Asia : 230 V China : 220 V Europe : 230 V 1. 2. 3. 4. 5. 6. Power on. Set the [SOURCE] selector knob : DVD. Push [OPEN/CLOSE] button, then open the Disc Tray. Set DVD test disc (DVDT-S01) on the Disc Tray, and then push [CLOSE] button. FL display appear "STOP", push [PLAY] button to playback DVD. Set the Video output to INTERLACED by remote control unit. (Push the [SETUP] button, set to the mode of VIDEO SETUP.) 7. Push the [DISPLAY] button of remote control unit and then appear the ONScreen Display (GUI) on the monitor TV. 8. Push the [12] button, select title 12 of DVD. 9. Push the [SELECT] button, playback title 12. (color bar 75%) Adjustment Point & Adjustment Value Wave Adjust the signal of S2 video out by the wave of Oscilloscope. 1 Y-signal Y Point : VR602 Adjustment Value : 1000 ±20 mV Y-signal of S2 video out Adjust the signal of S2 video out by the wave of Oscilloscope. 2 C-signal C Point : VR603 Adjustment Value : 286 ±5 mV C-signal of S2 video out Adjust the signal of Component video out. 1 CB-signal Point : VR601 Adjustment Value : *525 ±10 mV PB PB-signal 16 DVD-3800 Adjustment Adjust the signal of Component video out Point & Adjustment Value Wave Point: VR604 Adjustment Value: 1000 ±20mV 2 Y-signal Y Y-signal Set the Video output to PROGRESSIVE by remote control unit. (Push the [SETUP] button, set to the mode of VIDEO SETUP.) Point: VR710 Adjustment Value: 1000 ±20mV Y 1 Y-signal Y-signal Set the Video output to PROGRESSIVE by remote control unit. (Push the [SETUP] button, set to the mode of VIDEO SETUP.) Point: VR709 Adjustment Value: *525 ±10mV PB 2 PB-signal PB-signal Set the Video output to PROGRESSIVE by remote control unit. (Push the [SETUP] button, set to the mode of VIDEO SETUP.) Point: VR708 Adjustment Value: *525 ±10mV PR 3 PR-signal PR-signal *: 486 ±10mV for U.S.A. & Canada model 17 DVD-3800 BLOCK DIAGRAM 1 DVD DRIVE MECHA UNIT [FG-180] 2 3 FRONTEND PROCESSOR [TA1293F] 4 DRAM DRAM DISC SERVO PROCESSOR [TA1293F] ATAPI INTERFACE DVD DECODER [TC9469BF] ACT/MOTOR DRIVER 5 FLASH ROM 6 REM KEY 7 FL DRIVER [ML9207] PANEL CONTROL µ-COM [MN102H460B] RESET DRIVE CONTROL µ-COM [TMP95FY64F] LED FLT ROT SW. 8 A < PANEL CONTROL > RS-232C < FRONT END > WIRED REM B < BACK END > 64M SDRAM SPDIF 16M FLASH ROM E2PROM DVD PROCESSOR [ES6038] 33MHz OSC 27MHz OSC PLL < AUDIO BLOCK > BASS MANAGEMENT. DSP [ADSPMEL322] I/O EXPAN 12MHz OSC VIDEO ENCODER [ADV7190] I/P µCOM [PIC18LC242] FILTER& AMP FR C DAC [PCM1738] VR & FILTER CLAMP & DRIVER 525I/625I FILTER& AMP SL FILTER& AMP SR FILTER& AMP C D DAC [PCM1738] I/P CONVERTER [SiI504] 64M SDRAM POWER TRANS FLASH ROM FL MONO MULTI DIGITAL POWER UNIT ANALOG POWER UNIT ALPHA PROCESSOR [DXP7001] FILTER& AMP FPGA XC2530 VIDEO ENCODER [ADV7300] VR & FILTER SELECTOR CLAMP & DRIVER 525P FILTER& AMP MONO MULTI PROM E DAC [PCM1738] SW < VIDEO BLOCK > 18 DVD3800_Block.p65 Page 18 02/06/18, 14:20 Adobe PageMaker 6.5J/Win DVD-3800 SEMICONDUCTORS IC’s Note: Indications before IC numbers denote P.W.B. name. AV: AUDIO/VIDEO P.W.B. MA: MAIN P.W.B. PD: POWER/DISPLAY P.W.B. SC: SCART P.W.B. TC9453F (MA: IC505) to Driver from RF-Amp. (servo signal) ADC Digital Servo DSP Output I/F Digital IN Analog Out 1bit DAC for CD-DA Clock PLL from RF-Amp. (RF signal) RF Signal Process Sync ECC Output I/F MPU I/F PLL Data Out MPU 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 PDON2 PDOP2 PDON1 PDOP1 PESP PVSS PESV PPW CFC2 CFC1 VSS3 TESM8 TESM7 TESM6 TESM5 PLCK VDD3 NC NC BD15 BD14 BD13 VSS5 BD12 BD11 BD10 BD9 VSS3 BD8 BD7 BD6 BD5 BD4 BD3 BD2 BD1 BD0 VDD5 /BWU /BWL /BCAS /BRAS /BOE VDD3 1Mbit DRAM 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 BA8 BA7 BA6 BA5 BA4 VSS5 BA3 BA2 BA1 BA0 VDD3 TESM4 DIGI TESM3 VDD5 PDCK /PDRQ /PSYC PD8 PD7 PD6 PD5 VSS3 PD4 PD3 PD2 PD1 VSS5 PD0 VDD3 VMCK SMCK NC NC VDD5 MD7 MD6 MD5 MD4 MD3 MD2 MD1 MD0 /MINT 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 NC NC DVSS RO DVDD DVR LO DVSS XVSS XI XO XVDD TESM0 TESM1 TESM2 VDD3 VSS3 VPFC TEST0 VLPF1 VLPF0 VSS3 MON0 MON1 MON2 MON3 MON4 MON5 MON6 MON7 MON8 MON9 VDD3 NC NC TEST1 FLGA FLGB VSS3 /RST /MA /MRD /MWR /MCE LPFN LPFO PVREF VCOREF VCOF PVDD SLCO1 TESM9 TEST2 RFCD RFDVD AVDD RFCT RFZ1 TEZ1 AWIN AVSS FE1 TE1 RFSB RFRP AVSS TESM10 EXTAD VREF FOO TRO AVDD AWCTL FMO DMO TEBC FEBC DPDC EQBC ANMON /DFCT VRCK VSS3 SCD SCL SCB FGIN NC 19 DVD-3800 TC9453F Terminal Function Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 Pin Name NC NC DVSS RO DVDD DVR LO DVSS XVSS XI XO XVDD TESM0 TESM1 TESM2 VDD3 VSS3 VPFC TEST0 VLPFI VLPFO VSS3 MON0 MON1 MON2 MON3 MON4 MON5 MON6 MON7 MON8 MON9 VDD3 NC NC TEST1 FLGA FLGB VSS3 /RST /MA /MRD /MWR /MCE /MINT MD0 MD1 MD2 MD3 MD4 MD5 MD6 MD7 VDD5 NC NC SMCK VMCK I/O O O O I O O I I O O O O O O O O O O O I I/O I/O I I I I I O O O O O O O O O O O Function GND for DAC R-ch output signal, Analog output pin Power for DAC Amp ref. signal output, Analog input pin L-ch output signal, Analog output pin GND for DAC GND for oscillator X’tal osc. input, Analog input pin X’tal osc. output, Analog output pin Power for oscillator Test pin, Connect to GND Test pin, Open Test pin, Connect to VDD3 3.3V digital power 3.3V digital GND Clock PLL block phase/freq. comparator out, Analog output pin Test mode pin, Connect to VDD3 VCO block filter input for clock PLL, Analog input pin VCO block filter output for clock PLL, Analog output pin 3.3V digital GND Test monitor Test monitor Test monitor Test monitor Test monitor Test monitor Test monitor Test monitor Test monitor Test monitor 3.3V digital power Test mode pin, Connect to VDD3 Universal I/O or flag monitor Universal I/O or flag monitor 3.3V digital GND Reset pin, Pull-up resister built-in µcom address enable signal, Fail-safe pin µcom data read signal, Fail-safe pin µcom data write signal, Fail-safe pin µcom chip enable signal, Fail-safe pin µcom interrupt signal, Open drain pin µcom data bus µcom data bus µcom data bus µcom data bus µcom data bus µcom data bus µcom data bus µcom data bus Power for 5V 22M block clock output Data output block (signal processing system) clock output 20 DVD-3800 Pin No. 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 Pin Name VDD3 PD0 VSS5 PD1 PD2 PD3 PD4 VSS3 PD5 PD6 PD7 PD8 /PSYC /PDRQ PDCK VDD5 TESM3 DIGI TESM4 VDD3 BA0 BA1 BA2 BA3 VSS5 BA4 BA5 BA6 BA7 BA8 VDD3 /BOE /BRAS /BCAS /BWL /BWU VDD5 BD0 BD1 BD2 BD3 BD4 BD5 BD6 BD7 BD8 VSS3 BD9 BD10 BD11 BD12 VSS5 BD13 BD14 BD15 NC NC VDD3 PLCK I/O Function 3.3V digital power O DVD/CD data output GND for 5V O DVD/CD data output O DVD/CD data output O DVD/CD data output O DVD/CD data output 3.3V digital GND O DVD/CD data output O DVD/CD data output O DVD/CD data output O DVD/CD data output O DVD data sector sync signal O DVD data transfer block O DVD data transfer clock Power for 5V Test pin, Connect to VSS5 I 1bit DAC digital-in input Test pin, Connect to VSS5 3.3V digital power O External RAM address output O External RAM address output O External RAM address output O External RAM address output GND for 5V O External RAM address output O External RAM address output O External RAM address output O External RAM address output O External RAM address output 3.3V digital power O External RAM/OE signal O External RAM/RAS signal O External RAM/CAS signal O External RAM Lower/WE signal O External RAM Upper/WE signal Power for 5V I/O External RAM data in/output I/O External RAM data in/output I/O External RAM data in/output I/O External RAM data in/output I/O External RAM data in/output I/O External RAM data in/output I/O External RAM data in/output I/O External RAM data in/output I/O External RAM data in/output 3.3V digital GND I/O External RAM data in/output I/O External RAM data in/output I/O External RAM data in/output I/O External RAM data in/output GND for 5V I/O External RAM data in/output I/O External RAM data in/output I/O External RAM data in/output 3.3V digital power I/O PLL block clock in/output 21 DVD-3800 Pin No. 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 Pin Name TESM5 TESM6 TESM7 TESM8 VSS3 CFC1 CFC2 PPW PESV PVSS PESP PDOP1 PDON1 PDOP2 PDON2 LPFN LPFO PVREF VCOREF VCOF PVDD SLCO1 TESM9 TEST2 RFCD RFDVD AVDD RFCT RFZI TEZI AWIN AVSS FEI TEI RFSB RFRP SAVSS TESM10 EXTAD VREF FOO TRO AVDD AWCTL FMO DMO TEBC FEBC DPDC EQBC ANMON /DFCT VRCK VSS3 SCD SCL SCB FGIN NC I/O O O O I O O O O O I O I I O I I I I I I I I I I I I O O O O O O O O O O O O O O O I Function Test pin, Connect to GND Test pin, Connect to GND Test pin, Open Test pin, Open 3.3V digital GND VCO frequency control signal, Analog output pin VCO frequency control signal, Analog output pin Phase comparator offset adj. V out, Analog output pin Phase comparator offset adj. sig. in, Analog input pin GND for 3.3V PLL block Phase comparator offset adj. sig. out, Analog output pin DVD/CD phase control sig. (positive), Analog output pin DVD/CD phase control sig. (negative), Analog output pin DVD/CD phase control sig. (positive), Analog output pin DVD/CD phase control sig. (negative), Analog output pin Data PLL low pass filter inverted input, Analog input pin Data PLL low pass filter output, Analog output pin Ref. V for data PLL block VCO reference, Analog input pin VCO auto-adj. filter out, Analog input pin Power for 3.3V PLL block Data slice 6bitDAC out, Analog output pin Test pin, Open Test mode pin, Connect to VDD3 CD RF signal input, Analog input pin DVD RF signal input, Analog input pin Power for 3.3V analog block RFRP center V input (zero-cross intake), Analog input pin RFRP signal input (zero-cross intake), Analog input pin Tracking error signal input (zero-cross intake), Analog input pin Active wide PLL control signal input, Analog input pin GND for 3.3V analog block Focus error signal input, Analog input pin Tracking error signal input, Analog input pin RF level or sub beam signal add input, Analog input pin RFRP signal input, Analog input pin GND for 3.3V analog block Test pin, Connect to VREF Universal outside ADC input, Analog input pin Ref. V (1.65V) for analog block Focus EQ output, Analog output pin Tracking EQ output, Analog output pin Power for 3.3V analog block Active wide PLL control output, Analog output pin Focus EQ output, Analog output pin Disc EQ output, Analog output pin Tracking balance control signal, Analog output pin Focus balance control signal, Analog output pin DPD error signal pit depth adj. signal, Analog output pin RF wide boost adj. signal, Analog output pin Universal PWM output, Analog output pin Black dot detect signal RF EQ characteristic control clock 3.3V digital GND Head amp serial data Head amp serial data latch pulse Head amp serial data clock Disc FG signal input (w/ self-bias circuit), Feedback R/Analog input pin * Pin names begin with “/” are active “L” terminals. 22 DVD-3800 /RAS./CAS 3 16 BA8-0 SEDVD DRAM 256kw/128kw/64kw (4Mbit/2Mbit/1Mbit) BD15-0 Buffer /BWU./BWL /BOE TC9469BF (MA: IC508) 2 CSEL /PDIAG./DASP 2 9 Input Selecter CD-IF & DVD-IF 9 Buffer Address 64 Da Daf HEDda 16 16 HSYC 8 PDA(7:0) 16 2 5 64 64 SBDa H-FIFO (64B) ECC 8 SUB-IF Input IF Convert IORDY HDRQ 8 Driver PDA8 Correction (H-IF) PSYCN.PDROM 3 PDCK 16 SBQa /HDAK /IOCS16 HD15-0 /HRD./HWR /HCS3./HCS1 HA2-0 INTRQ H Interrupt BSYC 16 M-FIFO (8B ´ 3ch) 8 8 16 AV-IF /RST DIGO AZCK ABCK.ACHCK ADO ASYC 8 Gnd Vdd 30 3 (M-IF) Clock AUTH M Address M Interrupt TC9469BF MA6-0 /MINT 7 3 m com 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 (NC) VSS VSS VDD /RST ESTOUT /MINT /MWR VSS /WRD /WCE MA6 MA5 MA4 MA3 MA2 MA1 MA0 VDD VSS MD7 MD6 MD5 MD4 MD3 MD2 MD1 MD0 VSS SEDVD VDD ACHCK AD0 ABCK AZCK (NC) MD7-0 8 /MWR./WRD /MCE XO 3 XI TEST2-0 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 (NC) (NC) VSS (LRCK)PDA0 (BCK)PDA1 (DA1)PDA2 (C2P1)PDA3 (CLCK)PDA4 VSS (SB01)PDA5 (SFSY)PDA6 (SBSY)PDA7 PDA8 PSYCN PDRQN PDCK (NC) DIGO VDDck X0 X1 VSSck TEST2 TEST1 TEST0 BA3 BA1 BA2 VSS BA0 BA4 BA5 BA6 BA7 VSS (NC) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 (NC) VSS A2 /HCS1 /HCS3 /DASP CSEL VSS VDD BD15 BD14 BD13 BD12 BD11 BD10 BD9 BD8 VDD VSS BD4 BD5 BD7 BD6 BD3 BD2 BD1 BD0 VSS /BWU(/BWE) /BWL(/CASL) /CAS(/CASU) /RAS /BOE BA8 VDD (NC) VDD HD7 HD8 HD6 HD9 HD5 HD10 VSS HD4 HD11 HD3 HD12 HD2 HD13 HD1 HD14 HD0 VDD VSS HD15 HDRQ /HWR VSShr /HRD VSS24 IORDY VDD24 VSS /HDAK INTRO /IOCS16 HA1 /PDIAG HA0 VDD (NC) 23 DVD-3800 TC9469BF Terminal Function Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 Pin Name NC VSS HA2 /HCS1 HCS3 /DASP CSEL VSS VDD BD15 BD14 BD13 BD12 BD11 BD10 BD9 BD8 VDD VSS BD4 BD5 BD7 BD6 BD3 BD2 BD1 BD0 VSS /BWU /BWL /CAS /RAS /BOE BA8 VDD NC NC VSS BA7 BA6 BA5 BA4 BA0 VSS BA2 BA1 BA3 TEST0 TEST1 TEST2 VSSck XI XO VDDck DIGO NC PDCK PDRQN I/O Function I I I I/O I I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O O O O O O O O O O O O O O O I I I GND pin Host address 2 input: IDE sig. DA2, TTL level input, pull-up R built-in Chip select 1 input: IDE sig. /CS1FX, TTL level input, pull-up R built-in Chip select 3 input: IDE sig. /CS3FX, TTL level input, pull-up R built-in Drive active in/output: IDE sig. /DASP, TTL level input, open drain out, pull-up R built-in Cable select pin: IDE sig. CSEL GND pin Power pin Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output Power pin GND pin Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output Buffer RAM data in/output, at low power: output GND pin For write enable bit (for /BWE sig.), at low power: H For /CAS signal lower 8bit (for /CASL sig.), at low power: H For /CAS signal upper 8bit (for /CASU sig.), at low power: H RAS signal output, at low power: H Output enable, at low power: H Buffer address output Power pin GND pin Buffer address output Buffer address output Buffer address output Buffer address output Buffer address output GND pin GND pin GND pin Buffer address output Test pin, Fixed to “L” Test pin, Fixed to “L” Test pin, Fixed to “L” GND pin (for clock system) I Master clock in/output, feedback R built-in O Master clock in/output, feedback R built-in Power pin (for clock system) O Digital out pin I Data read clock input I Data effective flag input 24 DVD-3800 Pin No. 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 Pin Name PSYCN PDA8 PDA7 PDA6 PDA5 VSS PDA4 PDA3 PDA2 PDA1 PDA0 VSS NC NC NC AZCK ABCK ADO ACHCK VDD SEDVD VSS MD0 MD1 MD2 MD3 MD4 MD5 MD6 MD7 VSS VDD MA0 MA1 MA2 MA3 MA4 MA5 MA6 /MCE /MRD VSS /MWR /MINT TESTOUT /RST VDD VSS VSS NC VDD HD7 HD8 HD6 HD9 HD5 HD10 VSS I/O I I I I I I I I I I I O O O I I/O I/O I/O I/O I/O I/O I/O I/O I I I I I I I I I O O I I/O I/O I/O I/O I/O I/O Function Sync signal input Parallel data 8 input Parallel data 7 input Parallel data 6 input Parallel data 5 input GND pin Parallel data 4 input Parallel data 3 input Parallel data 2 input Parallel data 1 input Parallel data 0 input GND pin Ref. clock input for audio playback Bit clock (BCK) output for audio playback Data output for audio playback Channel clock (LRCK) output for audio playback Power pin Input IF select GND pin µcom data in/output, tri-state output µcom data in/output, tri-state output µcom data in/output, tri-state output µcom data in/output, tri-state output µcom data in/output, tri-state output µcom data in/output, tri-state output µcom data in/output, tri-state output µcom data in/output, tri-state output GND pin Power pin µcom address input µcom address input µcom address input µcom address input µcom address input µcom address input µcom address input Chip enable signal input µcom chip read signal input GND pin µcom write signal input µcom interrupt signal output, open drain, pull-up R built-in Output for test, leave it open Hardware reset input (CMOS level), pull-up R built-in Power pin GND pin GND pin Power pin Host data in/output (HD[0:15]:IDE sig. DD[0:15]), TTL level, tri-state out, pull-up R built-in GND pin 25 DVD-3800 Pin Name Pin No. 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 HD4 HD11 HD3 HD12 HD2 HD13 HD1 HD14 HD0 VDD VSS HD15 HDRQ /HWR VSShr /HRD VSS24 IORDY VDD24 VSS /HDAK INTRQ /IOCS16 HA1 /PDIAG HA0 VDD NC I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O O I I O I O O I I/O I Function Host data in/output (HD[0:15]:IDE sig. DD[0:15]), TTL level, tri-state out, pull-up R built-in Power pin GND pin Host data in/output (HD[0:15]:IDE sig. DD[0:15]) Data request output: IDE sig. DMARQ, tri-state out, drive-ability 12mA Host write signal input: IDE sig. /DIOW, TTL level, pull-up R built-in GND pin (for /HR) Host read signal input: IDE sig. /DIOR, TTL level, pull-up R built-in GND pin (for IORDY) IO transfer ready output: IDE sig. IORDY, tri-state out, drive-ability 24mA Power pin (for IORDY) GND pin Data acknowledge input: IDE sig. /DMACK, TTL level, pull-up R built-in Interrupt signal output: IDE sig. INTRQ, tri-state out, drive-ability 12mA Data bit wide select output: IDE sig. /IOCS16, open drain, pull-up R built-in Host address 1 input: IDE sig. DA1, TTL level, pull-up R built-in Post diagnostic in/output: IDE sig. /PDIAG, TTL level, tri-state out, pull-up R built-in Host address 0 input: IDE sig. DA0, TTL level, pull-up R built-in Power pin * Pin names begin with “/” PSYNCN, and PDRQN are active “L” terminals. MX29LV160BTC-90 (MA: IC102) A15 1 A14 2 48 A16 47 BYTE A13 3 46 GND A12 4 45 Q15/A-1 A11 5 44 Q7 A10 6 43 Q14 A9 7 42 Q6 A8 8 41 Q13 A19 9 40 Q5 NC 10 39 Q12 WE 11 RESET 12 38 Q4 37 VCC NC 13 36 Q11 NC 14 35 Q3 RY/BY 15 34 Q10 A18 16 33 Q2 A17 17 32 Q9 A7 18 31 Q1 A6 19 30 Q8 A5 20 29 Q0 A4 21 28 OE A3 22 27 GND A2 23 26 CE A1 24 25 A0 SYMBOL A0~A19 Q0~Q14 Q15/A-1 CE WE BYTE RESET OE RY/BY VCC GND PIN NAME Address Input Data Input/Output Q15 (Word mode)/LSB addr (Byte mode) Chip Enable Input Write Enable Input Word/Byte Selection input Hardware Reset Pin/Sector Protect Unlock Output Enable Input Ready/Busy Output Power Supply Pin (2.7V~3.6V) Ground Pin 26 DVD-3800 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 P34/A12 P35/A13 P36/A14 P37/A15 P20/A16 P21/A17 P22/A18 P23/A19 P24/A20 P25/A21 P26/A22 P27/A23 VCC VSS(GND) AM8/16 P17/D15 P16/D14 P15/D13 P14/D12 P13/D11 P12/D10 P11/D9 P10/D8 P07/D7 P06/D6 TMP95FY64F (MA: IC511) 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 P05/D5 P04/D4 P03/D3 P02/D2 P01/D1 P00/D0 VCC P96/TOA/TOB P95/TIB/INT8 P94/TIA/INT7 P93/TO9 P92/TO8 P91/TI9/INT6 P90/TI8/INT5 P75/TO7/INT4 P74/TO5 P73/TI4/INT3 P72/TO3/INT2 P71/TO1 P70/TI0/INT1 RESET EA X2 X1 VSS(GND) VREFL AVSS AVCC DAOUT0 DAOUT1 NMI P53/BUSRQ P54/BUSAK P55/WAIT P56/INTO P57/SCLK2/CTS2 P80/TxD0 P81/RxD1 P82/SCLK0/CTS0 P83/TxD1 P84/RxD1 P85/SCLK1/CTS1 P86/TxD2 P87/RxD2 P60/CS0 P61CS1 P62/CS2 P62/CS3 CLK VCC 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 P33/A11 P32/A10 P31/A9 P30/A8 P47/A7 P46/A6 P45/A5 P44/A4 P43/A3 P42/A2 P41/A1 P40/A0 P50/RD P51/WR P52/HWR (GND)VSS PA0/AN0 PA1/AN1 PA2/AN2 PA3/AN3/ADTRG PA4/AN4 PA5/AN5 PA6/AN6 PA7/AN7 VREFH TMP95FY64F Terminal Function Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 Pin Name VREFL AVSS AVCC DAOUT0 DAOUT1 NMI P53 P54 P55 INT0 P57 P80 P81 P82 P83 P84 P85 P86 P87 CS0 CS1 P62 P63 CLK VCC VSS X1 X2 EA RESET INT1 P71 P72 Symbol VREFL AVSS AVCC DAOUT0 DAOUT1 NMI STBN AMUTE DSPINT RSTN TEST TMM+ TMM DECCSN DSPCSN VCC VSS X1 X2 EA RESET DECINT I/O Function I O O I O O Ref. V input (L) for A/D converter GND Power D/A output 0 D/A output 1 Non-maskable interrupt request pin TA8493F/BA5952FP standby pin Not used Not used I Interrupt input from TC9453F O Reset output of TC9453F Not used Not used I Not used Not used O Loading motor control pin O Loading motor control pin O Not used I Not used O TC9469BF chip select O TC9453F chip select Not used Not used Not used Power GND I X’tal connection O X’tal connection I Power I Reset input pin I Interrupt input from TC9469BF Not used Not used 27 DVD-3800 Pin No. 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 Pin Name INT3 P74 P75 INT5 P91 P92 P93 P95 P96 VCC D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 AM8/16 VSS VCC P27 P26 P25 P24 P23 P22 P21 A16 A15 A14 A13 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0 RD WR P52 VSS PA0 PA1 PA2 PA3 PA4 PA5 AN6 PA7 VREFH Symbol FG BRKN I O SLIDE_PULSE P-LOW PLLD P-HIGH INT7 I O PLLB VCC MD0 MD1 MD2 MD3 MD4 MD5 MD6 MD7 T22 T9 T10 T11 T12 T13 T14 T15 AM8/16 VSS VCC BUSY Function I/O O I/O I/O I/O I/O I/O I/O I/O I/O I O O O MA8 O MA6 MA5 MA4 MA3 MA2 MA1 MA0 RDN WRN O O O O O O O O O VSS MASTER SLAVE CSEL CLOS OPEN INSWN +1.65V EJECT VREFH I I I I I I I I I FG signal input from TA8493F Brake signal output to TA8493F Not used Pulse counter input of slide PLL filter switching output Not used PLL filter switching output Not used Not used Not used Power Data bus Data bus Data bus Data bus Data bus Data bus Data bus Data bus Not used Not used Not used Not used Not used Not used Not used Not used Pull-up GND Power Busy output Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Address bus Not used Address bus Address bus Address bus Address bus Address bus Address bus Address bus Strobe signal output for read Strobe signal output for write Not used Power Pull-down Pull-up Pull-up Loader close SW input pin Loader open SW input pin Pickup inner SW input pin Analog input pin Not used Ref. V input (H) for A/D converter 28 DVD-3800 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 LDO1 MDI1 EQF EQB RFDC GND2 EQD NC Vcc2 VccO PSC FEB TEB DPDB VccR RFO RPP RPB RPO RPZ TA1293F (MA: IC501) 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 DFTN NC NC NC NC NC FEO TEO NC LVL NC NC NC VccS RFSW NC NC NC NC VccP GNDP LDO2 MDI2 NC NC VrA Vrfi VrD Vdd DPAC DPBD DPD1 DPD2 SCB SCL SCD VRCK NC NC VCKF 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 P1TN P1TP P1FN P1FP LDP1 GNDR P1DI P1CI P1BI P1AI LDP2 P2AI P2BI P2CI P2DI GNDS P2FP P2FN P2TP P2TN TA1293F Terminal Function Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 Pin Name GNDP LDO2 MDI2 NC NC VrA Vrfi VrD Vdd DPAC DPBD DPD1 DPD2 SCB SCL SCD VRCK NC NC VCKF VccP NC NC NC NC RFSW VccS NC NC I/O Function GND pin O Drive pin I Monitor pin Used connecting with VrA Used connecting with VrA O Analog VREF Filter capacity for reference O Digital VREF, outputs 1/2 of Vdd I Power pin, connect Vdd of servo IC DPD AC coupling capacity 1 DPD AC coupling capacity 2 DPD integral capacity 1 DPD integral capacity 2 I Control line (bit clock) I Control line (latch signal) I Control line (serial data) I Ref. clock input Used connecting with GND Used connecting with GND Capacity for adjusting time constant Power pin Used in open Used in open Used in open Used connecting with GND I RFO control pin, outputs signal after EQ at L Power pin Used in open Used connecting with VrA 29 DVD-3800 Pin No. 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 Pin Name NC LVL NC TEO FEO NC NC NC NC NC DFTN RPZ RPO RPB RPP RFO VccR DPDB TEB FEB PSC VccO Vcc2 NC EQD GND2 RFDC EQB EQF MDI1 LDO1 P1TN P1TP P1FN P1FP LDP1 GNDR P1DI P1CI P1BI P1AI LDP2 P2AI P2BI P2CI P2DI GNDS P2FP P2FN P2TP P2TN I/O Function Used connecting with VrA O Servo addition output Used in open O TE output O TE output Used connecting with VrA Used connecting with VrA Used connecting with VrA Used connecting with VrA Used connecting with VrA I DPD defect, L: DPD out = Mute O RF ripple center output O RF ripple output O Bottom of RF ripple O Peak of RF ripple O Equivalent RF output Power pin (RF) I Pit depth adjustment I TE balance I FE balance I VRCK divide on/off, H: divide off Power pin Power pin Connect with VrD, or GND via C I Group delay correction GND pin DC feedback capacity I Boost adjustment I Frequency adjustment I Monitor input O Drive output I TE(-) input (DVD) I TE(+) input (DVD) I FE(-) input (DVD) I FE(+) input (DVD) I APC polarity 1, positive when connected to Vcc GND pin I D input (DVD) I C input (DVD) I B input (DVD) I A input (DVD) I APC polarity 2, positive when connected to Vcc I A input (CD) I B input (CD) I C input (CD) I D input (CD) GND pin I FE(+) input (CD) I FE(-) input (CD) I TE(+) input (CD) I TE(-) input (CD) 30 DVD-3800 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 HostAddr5 HostAddr4 HostAddr3 HostAddr2 HostAddr1 HostAddr0 GNDCore HostCS HostRd_SDA HostWr_SCL VDDCore VidlnClk GNDIO VidlnData9 VidlnData8 VidlnData7 VidlnData6 VidlnData5 VidlnData4 VidlnData3 VidlnData2 VDDIO ExtRefXtalIOut ExtRefXtalIn VDDIO GNDIO MemData16 MemData17 MemData18 MemData19 GNDIO MemData20 MemData21 MemData22 MemData23 GNDIO MemData31 MemData30 GNDIO VDDIO MemData29 MemData28 GNDIO MemData27 MemData26 MemData25 MemData24 MemData15 BypPLLMemClk GNDCore VDDCore RSVD SiI504CM208 (MA: IC701) 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 TOP VIEW RSVD RSVD GNDCore MemClk GNDCore VDDCore MemData14 MemData13 MemData12 MemData11 MemData10 GNDIO MemData9 MemData8 PuPdDis VDDIO MemData0 MemData1 MemData2 GNDIO MemData3 MemData4 MemData5 MemData6 MemData7 GNDIO DQM WE CAS RAS VDDIO VDDIO GNDIO RSVD MemAddr11 MemAddr10 MemAddr9 MemAddr8 GNDIO MemAddr7 MemAddr6 MemAddr5 MemAddr4 GNDIO MemAddr0 MemAddr1 MemAddr2 MemAddr3 VDDCore GNDCore RSVD RSVD RSVD VDDCore GNDCore LCDPwrEn CBIank CSync VSync HSync Blue_Cb0 Blue_Cb1 Blue_Cb2 Blue_Cb3 Blue_Cb4 Blue_Cb5 GNDIO VDDIO Blue_Cb6 Blue_Cb7 Blue_Cb8 Blue_Cb9 GNDIO Green_Y0 Green_Y1 Green_Y2 Green_Y3 VDDIO Green_Y4 Green_Y5 Green_Y6 Green_Y7 Green_Y8 Green_Y9 GNDIO Red_Cr0 Red_Cr1 Red_Cr2 Red_Cr3 Red_Cr4 Red_Cr5 GNDCore VDDCore Red_Cr6 Red_Cr7 Red_Cr8 Red_Cr9 VidOutClk GNDCore BypPLLClk48M Clk48M GNDCore VDDCore ExtRefSel HostAddr6 HostAddr7 HostMode VDDCore HostClk GNDCore HostData15\VidlnData19 HostData14\VidlnData18 HostData13\VidlnData17 HostData12\VidlnData16 GNDCore VDDCore HostData11\VidlnData15 HostData10\VidlnData14 HostData9\VidlnData13 HostData8\VidlnData12 RSVD HostData7\VS HostData6\HS HostData5 HostData4 HostData3 HostData2 HostData1 HostData0 VDDIO GNDIO Det32PD Det22PD DetVideo DeintDone MemAddr12 VDDIO GNDIO SDOut WSOut SCKOut VDDIO SDIn WSIn SCKIn GNDIO VDDCore Reset Test0 Test1 BypPLLClk54_72M Clk54_72M VDDCore GNDCore ARTN AVDD SiI504CM208 Terminal Function Pin No. 2, 41, 51, 56, 99, 106, 146, 160, 168, 199, 205 3, 40, 47, 50, 55, 100, 102, 107, 150, 162, 167, 206 4 5 6 7 8 9~14, 17~20 15, 21, 33, 61, 66, 72, 79, 85, 93, 114, 118, 121, 126, 131, 144, 183, 190, 198 Pin Name I/O Function VDDCore Pwr 1.8V Core Power. GNDCore Pwr Digital Ground for Core Power. LCDPwrEn CBlank CSync VSync HSync Blue_Cb[9:0] Out Out Out Out Out Out LCD Power Enable Composite Blank Composite Sync Vertical Sync Horizontal Sync Blue Data (RGB output mode); Cb Data (YCrCb output mode) GNDIO Pwr Digital Ground for I/O Power. 31 DVD-3800 Pin No. Pin Name 16, 26, 73, 74, 89, 117, 132, VDDIO 135, 182, 189, 194 22~25, 27~32 Green_Y[9:0] 34~39, 42~45 Red_Cr[9:0] 46 VidOutClk 48 BypPLLClk48M 49 Clk48M 52 ExtRefSel 57~60, 62~65, MemAddr[12:0] 67~70, 188 75 RAS 76 CAS 77 WE 78 DQM 80~84, 86~88, 91, 92, 94~98, 109, 110~113, MemData[31:0] 115, 116, 119, 120, 122~125, 127~130 90 PuPdDis 101 MemClk 108 BypPLLMemClk 133 ExtRefXtalIn 134 ExtRefXtalOut 136~143 VidlnData[9:2] 145 VidlnClk 147 HostWr_SCL 148 HostRd_SDA 149 151~158 159 161 163~166, 169~172 174 175 176~181 184 185 186 187 191 192 193 195 196 197 200 201, 202 203 204 207 208 HostCS HostAddr[7:0] HostMode HostClk HostData[15:8] (VidInData[19:2]) HostData[7](VS) HostData[6](HS) HostData[5:0] Det32PD Det22PD DetVideo DeintDone SDOut WSOut SCKOut SDIn WSIn SCKIn Reset Test[1:0] BypPLLClk54_72M Clk54_72M ARTN AVDD I/O Pwr Out Out Out In InOut In Function 3.3V I/O Power. Green Data (RGB output mode); Y Data (YCrCb output mode) Red Data (RGB output mode); Cr Data (YCrCb output mode) Video Output Clock, 36, 27 or 24 MHZ Bypass PLL for Clk48M. 48 MHz Clock. External APLL Reference Select. InOut SDRAM Address when an output. Configuration at reset when an input. Out Out Out Out SDRAM Row Address Strobe. SDRAM Column Address Strobe. SDRAM Write Enable. SDRAM Data Mask. InOut SDRAM Data. In InOut In In Out In In In InOut Internal pullup and pulldown disable test function. SDRAM Clock. Bypass PLL for MemClk. External APLL Reference Crystal/oscillator Input. External APLL Reference Crystal Output. Multiplexed Video Input Data; Y Video Input Data. Video Input Clock, 27.0 MHz 186-Compatible Write when HostMode=0. Serial Clock when HostMode=1. 186-Compatible Read when HostMode=0. Serial Data when HostMode=1. 186-Compatible Chip Select when HostMode=0. In When HostMode=1, must be tied to VDD or pulled up to VDD. In 186-Compatible Address when HostMode=0. No connect when HostMode=1. In Serial Host Interface when HostMode=1. 186-compatible host interface when HostMode=0. InOut 186-Compatible Clock when HostMode=0. No connect when HostMode=1. InOut 186-Compatible Data when HostMode=0. Chroma video input data when HostMode=1. InOut InOut InOut Out Out Out Out Out Out Out In In In In In In InOut Pwr Pwr 186-Compatible Data when HostMode=0. Vertical sync input when HostMode=1. 186-Compatible Data when HostMode=0. Horizontal sync input when HostMode=1. 186-Compatible Data when HostMode=0. No connect when HostMode=1. 3:2 Pulldown Sequence Detected. 2:2 Pulldown Sequence Detected. Interlaced Video Sequence Detected. Deinterlace processing complete for current field period. Serial Digital Audio Output Data. Serial Digital Audio Output Word Select. Serial Digital Audio Output Clock. Serial Digital Audio Input Data. Serial Digital Audio Input Word Select. Serial Digital Audio Input Clock. Hardware Reset. Production hardware test support. Bypass PLL for Clk54_72M. 54 or 72 MHz Clock. Analog Return for PLLs. 1.8V Analog Power for PLL. 32 GND_IO CLKIN_B S9 S8 S7 S6 S5 DGND VDD S4 S3 S2 S1 S0 S_HSYNC S_VSYNC DVD-3800 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 ADV7300 (MA: IC706) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 TOP VIEW 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 S_BLANK R SET 1 VREF COMP1 DAC A DAC B DAC C VAA AGND DAC D DAC E DAC F COMP2 R SET 2 EXT_LF RESET ADV7300 Terminal Function Pin No. Pin Name I/O 1 2~9, 12, 13 10, 56 11, 57 14~18, 26~30 VDD_IO Y9-0 VDD DGND C9-0 P I P G I 19 SPI/I2C I 20 21 22 ALSB_SO SDA_CLKSP SCLK_SI I/O I/O I 23 P_HSYNC I 24 P_VSYNC I 25 31 32 P_BLANK RTC_SCR_TR CLKIN_A I I I 33 RESET I 34 EXT_LF I 35, 47 RSET1,2 I 36,45 COMP O 37 DAC F O 38 DAC E O 39 DAC D O 40 41 42 43 44 46 48 49 50 AGND VAA DAC C DAC B DAC A VREF S_BLANK S_VSYNC S_HSYNC G P O O O I/O I/O I/O I/O S9-S0 I CLKIN_B GND_IO I G 51~55, 58~62 63 64 C3 C4 SPI/I2C ALSB_SO SDA_CLKSP SCLK_SI P_HSYNC P_VSYNC P_BLANK C5 C6 C7 C8 C9 RTC_SCR_TR CLKIN_A 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 VDD_IO Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 VDD DGND Y8 Y9 C0 C1 C2 Function Digital power supply. 10-Bit Progressive scan/ HDTV input port for Y data. Digital power supply. Digital Ground 10-Bit Progressive scan/ HDTV input port for CrCb color data in 4:2:2 input mode. When this input pin is brought low, the ADV7300 interfaces over the SPI port and uses this input as part of the 4 wire SPI interface. When this input pin is tied high [VDD_IO], the ADV7300 interfaces over the I2C port. Multifunctional pin. Multifunctional pin. Multifunctional input. Video Horizontal Sync Control Signal for HD sync in simultaneous SD/HD mode and HD only mode. Video Vertical Sync Control Signal for HD sync in simultaneous SD/HD mode and HD only mode. Video Blanking Control Signal for HD sync in simultaneous SD/HD mode and HD only mode. Multifunctional input. Pixel Clock Input for HD only or SD only modes. This input resets the on-chip timing generator and sets the ADV7300 into Default Register setting. Reset is an active low signal. External Loop filter for the internal PLL. A1520 Ohms resistor must be connected from this pin to AGND and is used to control the amplitudes of the DAC outputs. Compensation Pin for DACs. In SD only mode: Chroma/RED/V analog output. In HD only mode and simultaneus HD/SD: Pb/ BLUE (HD) analog output. In SD only mode: Luma/BLUE/U analog output. In HD only mode and simultaneus HD/SD: Pr/ RED (HD) analog output. In SD only mode: CVBS/GREEN/Y analog output. In HD only mode and simultaneus HD/SD: Y/ GREEN (HD) analog output. Analog Ground Analog power supply. Chroma/ RED/ V SD analog output. Luma/ BLUE/ U SD analog output. CVBS/ GREEN/ Y SD analog output. Optional External Voltage Reference Input for DACs or Voltage Reference Output (1.235V). Video Blanking Control Signal for SD. Video Vertical Sync Control Signal for SD. Video Horizontal Control Signal for SD. 10-Bit Standard Definition input port. Or Progressive Scan/ HDTV input port for Cr [Red/V] color data in 4:4:4 input mode. Pixel Clock Input. Digital Ground 33 DVD-3800 PIC18LC242-I/SO (MA: IC703) MCLR 1 28 RB7 RA0 RA1 2 27 3 26 RB6 RB5 RB4 RA2 4 25 RA3 5 24 RB3 RA4 6 23 RB2 RA5 7 22 RB1 VSS 8 21 INT0 OSC1 9 20 VDD OSC2 10 19 VSS RC0 RC1 11 18 12 17 RC7 RC6 RC2 13 16 RC5 RC3 14 15 RC4 TOP VIEW PIC18LC242-I/SO Terminal Function Pin No. Pin Name I/O 1 2 3 4 5 6 7 8 MCLR RA0 RA1 RA2 RA3 RA4 RA5 VSS I I/O I/O I/O I/O I/O I/O P 9 OSC1 I 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 OSC2 RC0 RC1 RC2 RC3 RC4 RC5 RC6 RC7 VSS VDD INT0 RB1 RB2 RB3 RB4 RB5 RB6 RB7 O I/O I/O I/O I/O I/O I/O I/O I/O P P I I/O I/O I/O I/O I/O I/O I/O Description Master Clear (Reset) input. This pin is an active low RESET to the device. Digital I/O. Digital I/O. Digital I/O. Digital I/O. Digital I/O. Open drain when configured as output. Digital I/O. Ground reference for logic and I/O pins. Oscillator crystal input or external clock source input. ST buffer when configured in RC mode. CMOS otherwise. Oscillator crystal output. Connects to crystal or resonator in Crystal Oscillator mode. Digital I/O. Digital I/O. Digital I/O. Digital I/O. Digital I/O. Digital I/O. Digital I/O. Digital I/O. Ground reference for logic and I/O pins. Positive supply for logic and I/O pins. External Interrupt 0. Digital I/O. Digital I/O. Digital I/O. Digital I/O. Interrupt-on-change pin. Digital I/O. Interrupt-on-change pin. Digital I/O. Interrupt-on-change pin. ICSP programming clock. Digital I/O. Interrupt-on-change pin. ICSP programming data. Legend: O=Output I=Input P=Power 34 DVD-3800 VEE VSS HA1 HA0 HCS3FX# HCS1FX# HIOCS16# HRD# HWR# VEE VSS HIORDY HRST# HIRQ HRDQ# HWRQ# HD15 HD14 VCC VSS HD13 HD12 HD11 HD10 HD9 HD8 HD7 VEE VSS HD6 HD5 HD4 HD3 HD2 HD1 HD0 VCC VSS HSYNC# VSYNC# PCLKQSCN PCLK2XSCN YUV7 YUV6 YUV5 VSS ADVEE YUV4 YUV3 YUV2 YUV1 YUV0 DCLK 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 ES6038 (MA: IC101) 157 104 VEE HA2 158 103 VSS VEE 159 102 DSCK AUX[0] 160 101 DQM AUX[1] 161 100 DCS0# AUX[2] 162 99 VEE VSS 163 98 VSS VEE 164 97 DCS1# AUX[3] 165 96 DB15 AUX[4] 166 95 DB14 AUX[5] 167 94 DB13 AUX[6] 168 93 DB12 AUX[7] 169 92 VEE LOE# VSS 170 171 91 90 VSS DB11 VCC 172 173 89 DB10 88 DB9 174 175 87 DB8 LCS2# 86 DB7 LCS3# 176 85 DB6 VSS 177 84 VSS LD0 LD1 178 179 83 VCC 82 DB5 LD2 LD3 180 181 81 80 DB4 DB3 LD4 182 79 DB2 VEE VSS 183 184 78 77 DB1 DB0 LD5 185 76 VSS LD6 186 75 VEE LD7 187 74 DMBS1 LD8 188 73 DMBS0 LCS0# LCS1# 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 TDMFS TDMTSC# TWS/SEL_PLL2 TSD0/SEL_PLL0 VSS VCC TSD1/SEL_PLL1 TSD2 TSD3 MCLK TBCK SPDIF/PLL3 NC VSS VCC RSD RWS RBCK NC XIN XOUT AVEE VSS LA9 TDMCLK DMA0 28 53 TDMDR 208 26 27 DMA1 VSS VSS VEE 54 25 207 24 DMA2 LA3 TDMDX 55 RESET# 206 23 DMA3 LA2 LA21 DMA4 56 22 57 205 LA20 204 LA1 20 21 DMA5 LA0 19 58 LA18 LA19 203 LA17 VEE CAMIN1 18 VSS 59 VEE 60 202 17 DMA6 201 CAMIN0 VSS 61 16 200 VEE LA16 DMA7 VSS 15 62 LA15 199 14 DMA9 DMA8 LWRHL# 13 64 63 LA14 197 198 LA13 DMA10 LD15 LWRLL# 12 65 LA12 196 11 DMA11 LD14 LA11 66 10 195 LA10 VEE VSS LD13 9 68 67 8 193 194 7 DCAS# VEE LD12 VSS 69 VCC 192 5 6 DSCK_EN VSS LA7 LA8 70 4 191 3 DWE# LD11 LA6 DRAS# 71 LA5 72 190 1 2 189 VEE LA4 LD9 LD10 ES6038 Terminal Function Pin No. 1, 18, 27, 59, 68, 75, 92, 99, 104, 130, 148, 157, 159, 164, 183, 193, 201 8, 17, 26, 34, 43, 52, 60, 67, 76, 84, 91, 98, 103, 112, 120, 129, 138, 147, 156, 163, 171, 177, 184, 192, 200, 208 23:19, 16:10, 7:2, 207:204 9, 35, 44, 83, 121, 139, 172 Pin Name I/O Function VEE I I/O power supply. VSS I Ground. LA[21:0] O Device address output. VCC I Core power supply. 35 DVD-3800 Pin No. 24 25 28 29 30 31 Pin Name I/O RESET# TDMDX TDMDR TDMCLK TDMFS TDMTSC# TWS SEL_PLL2 I O I I I O O I TSD0 SEL_PLL0 TSD1 SEL_PLL1 TSD[2] TSD[3] MCLK TBCK SPDIF SEL_PLL3 O I O I O O I/O O O I NC RSD RWS RBCK XIN XOUT AVEE DMA[11:0] DCAS# DSCK_EN DWE# DRAS# DMBS0 DMBS1 I I I I O I O O O O O O O Reset input, active low. TDM transmit data. TDM receive data. TDM clock input. TDM frame sync. TDM output enable. Audio transmit frame sync. System and DSCK output clock frequency selection is made at the rising edge of RESET#. The matrix below lists the available clock frequencies and their respective PLL bit settings. SEL_PLL2 SEL_PLL1 SEL_PLL0 Clock Type 0 0 0 VCO off. 0 0 1 DCLK 0 1 0 Bypass mode 0 1 1 DCLK x 2 1 0 0 DCLK x 4.5 1 0 1 DCLK x 3 1 1 0 DCLK x 3.5z 1 1 1 DCLK x 4 Audio transmit serial data port 0. Refer to the description and matrix for SEL_PLL2 pin 32. Audio transmit serial data port 1. Refer to the description and matrix for SEL_PLL2 pin 32. Audio transmit serial data output 2. Audio transmit serial data output 3. Audio master clock for audio DAC. Audio transmit bit clock. S/PDIF output. Clock source select. SEL_PLL3 Clock Source 0 Crystal oscillator 1 DCLK input No connect pins. Leave open. Audio receive serial data. Audio receive frame sync. Audio receive bit clock. Crystal input. Crystal output. Analog power for PLL. DRAM address bus [11:0] DRAM column address strobe, DRAM clock enable. DRAM write enable. DRAM row address strobe. SDRAM bank select 0. SDRAM bank select 1. DB[15:0] I/O DRAM data bus [15:0] DCS[1:0]# DQM DSCK DCLK YUV0 YUV1 YUV2 YUV3 YUV4 ADVEE YUV5 O O O I O O O O O I O SDRAM chip select [1:0] Data input/output mask. Output clock to SDRAM. 27 MHz clock input to PLL. YUV0 pixel output data. YUV1 pixel output data. YUV2 pixel output data. YUV3 pixel output data. YUV4 pixel output data. Analog power for video DAC. YUV5 pixel output data. 32 33 36 37 38 39 40 41 42,48 45 46 47 49 50 51 66:61, 58:53 69 70 71 72 73 74 96:93, 90:85, 82:77 97, 100 101 102 105 106 107 108 109 110 111 113 Function 36 DVD-3800 Pin No. 114 115 116 117 118 119 127:122 128 131 132 133 134 135 136 137 140 141 142 143 144 145 146 149 150 151 152 153 158, 155:154 160 162 165 169:166 170 176:173 197:194, 191:185, 182:178 198 199 202 203 Pin Name I/O YUV6 YUV7 PCLK2XSCN PCLKQSCN VSYNC# HSYNC# HD[5:0] HD[6] HD[7] HD[8] HD[9] HD[10] HD[11] HD[12] HD[13] HD[14] HD[15] HWRQ# HRRQ# HIRQ HRST# HIORDY HWR# HRD# HIOCS16# HCS1FX# HCS3FX# HA[2:0] AUX[1:0] AUX[2] AUX[3] AUX[7:3] LOE# LCS[3:0]# O O I/O O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O O O I/O O I I/O O I O O I/O I/O I/O I/O I/O O O YUV6 pixel output data. YUV7 pixel output data. 27 MHz video output pixel clock. 13.5 MHz video output pixel clock. Vertical sync, active low. Horizontal sync, active low. Host data I/O [5:0]. Host data I/O [6]. Host data I/O [7]. Host data bus 8. Host data bus line 9. Host data bus line 10. Host data bus line 11. Host data bus line 12. Host data bus line 13. Host data bus line 14. Host data bus line 15. Host write request. Host read request. Host interrupt. Host reset. Host I/O ready. Host write. Host read. Device16-bit data transfer. Host select 1. Host select 3. Host address bus. Auxiliary ports 1:0. Auxiliary ports 2. Auxiliary ports 3. Auxiliary ports 7:3. Device output enable. Chip select [3:0]. LD[15:0] I/O EPROM device data bus. LWRLL# LWRHL# CAMIN0 CAMIN1 O O I I Device low-byte write enable. Device high-byte write enable. Camera YUV 0. Camera YUV 1. Function 37 DVD-3800 128 127 P53, CS2,ALE VDD VSS P54, RAS, RFSH P55, CAS, LCAS,BIBT1 P56, CS3, UCAS,BIBT2 P20,A0, KI0 P21,A1, KI1 P22,A2, KI2 P23,A3, KI3 P24,A4, KI4 P25,A5, KI5 P26,A6, KI6 P27,A7, KI7,TMI17B P30,A8 PD6,RTP6 PD7,RTP7 P31,A9 P32,A10 P33,A11 P34,A12 P35,A13 VDD(VPP) PC4,TM12O,TM8I,TM21IA P36,A14 P37,A15 P40,A16 P41,A17 P42,A18 P43,A19 P44,A20 P45,A21 MN102H460B (MA: IC201) 126 124 122 120 118 116 114 112 110 108 106 104 102 100 98 125 123 121 119 117 115 113 111 109 107 105 103 101 99 97 96 P46,A22, CS0 1 P47,A23, CS1 2 95 P51, WEH,WE P00,AD0,D0 3 94 P50, WEL P01,AD1,D1 4 93 PC7,NBRACK P02,AD2,D2 5 92 PC6,NBREQ P03,AD3,D3 6 91 P97,AN15,TM20IB VDD 7 90 P96,AN14,TM15O,TM19IB VSS 8 89 P95,AN13,TM13O,TM2I P04,AD4,D4 9 88 P94,AN12,TM11O,TM4I P05,AD5,D5 10 87 AVDD P06,AD6,D6 11 86 VREFH P07,AD7,D7 12 85 P93,AN11 P10,AD8,D8 13 84 P92,AN10 P11,AD9,D9 14 83 P91,AN9 P12,AD10,D10 15 82 P90,AN8 PD0,RTP0 16 81 PD5,RTP5 PD1,RTP1 17 80 PD4,RTP4 P13,AD11,D11 18 79 P87,AN7 P14,AD12,D12 19 78 P86,AN6 P15,AD13,D13 20 77 P85,AN5 P16,AD14,D14 21 76 P84,AN4 P17,AD15,D15 22 75 P83,AN3 MODE0 23 74 P82,AN2 MODE1 24 73 P81,AN1 MODE2 25 72 P80,AN0 PC3,TM10O,TM7I,TM21IR 26 71 VREFL PC2,TM8O,TM6I 27 70 AVSS PC1,TM6O,TM11I 28 69 VSS VDD 29 68 VDD OSCI 30 67 PB5,SBT3,SCL3 OSCO 31 66 PB4,SBO3,SDA3 65 PB3,SBI3 64 PB2,SBT2,TM18IC 63 PB1,SBO2,TM17IC 62 PB0,SBI2,TM16IC 61 PA5,SBT1,SCL1 60 PA4,SBO1,SDA1 59 PA3,SBI1 58 PA2,SBT0 57 PA1,SBO0 56 PA0,SBI0 55 P75,TM18IOB,TM21ID 54 P74,TM18OA 53 P73,TM17OB,STOP 52 P72,TM17OA 51 P77,TM20IOA 50 VDD 49 PD3,RTP3 48 PD2,RTP2 47 P71,TM16OB,WDOUT 46 P70,TM16OA 45 P67,IRQ7, EXTDK 44 P66,IRQ6 43 P65,IRQ5,TM18IA 42 P64,IRQ4,TM17IA 41 P63,IRQ3,TM16IB 40 P62,IRQ2,TM16IA 39 P61,IRQ1,TM3I 38 P60,IRQ0 37 P76,TM19IOA 36 PC0,TM4O,TM10I 35 RST 34 PC5,NMI 32 33 P57,/DUMX,BOSC VSS TOP VIEW P52, RE 38 DVD-3800 TOP VIEW 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 A20 A19 A18 GND A17 A16 A15 A14 VDDEXT A13 A12 A11 A10 A9 GND A8 A7 A6 VDDEXT A5 A4 A3 A2 A1 A0 OPMODE VDDINT EMU GND TRST TCK GND TMS TDI TDO RESET VDDEXT PF6 PF7 TMR0 TMR1 TMR2 DT2 TCLK2 TFS2 DR2 RCLK2 RFS2 RXD TXD GND GND DT0 TCLK0 VDDINT TFS0 DR0 RCLK0 RFS0 VDDEXT DT1 TCLK1 TFS1 DR1 RCLK1 RFS1 BMODE0 BMODE1 BYPASS 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 PF3 PF4 PF5 D14 D15 HAD0 HAD1 GND HAD2 HAD3 HAD4 HAD5 HAD6 HAD7 HAD8 VDDEXT HAD9 HAD10 GND HAD11 HAD12 VDDINT HAD13 HAD14 HAD15 HA16 HACK_P VDDEXT HACK HCMS HCIOMS GND HALE HRD HWR GND PF0 PF1 PF2 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 D13 VDDEXT D12 D11 D10 D9 D8 D7 D6 D5 GND XTAL CLKIN VDDEXT CLKOUT GND D4 VDDINT D3 D2 D1 D0 RD WR ACK MS3 VDDEXT MS2 MS1 MS0 IOMS BMS BR BG BGH A21 ADSPMEL322 (MA: IC207) 39 18 19 20 21 22 23 24 25 CDATA<5> CDATA<4> CDATA<3> CDATA<2> M1 GND M0 12 VCCO CDATA<6> 11 GND 17 10 YDATA<0> CDATA<7> 9 YDATA<1> 16 8 YDATA<2> CDATA<8> 7 YDATA<3> CDATA<9> 6 YDATA<4> 15 5 YDATA<5> 14 4 YDATA<6> 13 3 NC 2 TMS YDATA<7> VCCINT 1 GND CCLK NC DIN YOUT<7> YOUT<8> YOUT<9> COUT<0> COUT<1> COUT<2> COUT<3> COUT<4> GND VCCO DELAYHSYNC VCCINT DELAYVSYNC DELAYBLANK NC COUT<5> COUT<6> COUT<7> COUT<8> COUT<9> INITNC 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 DVD-3800 XC2S30-5VQ100C (MA: IC711) VCCO 76 50 VCCO NC(TDO) 77 49 DONE GND 78 48 GND NC(TDI) 79 47 NC YOUT<6> 80 46 NC YOUT<5> 81 45 NC YOUT<4> 82 44 NC YOUT<3> 83 43 NC YOUT<2> 84 42 VCCINT VCCINT 85 41 RESET YOUT<1> 86 40 BLANK YOUT<0> 87 39 NC NC 88 38 GND GND 89 37 VCCO VCCO 90 36 NC CLOCK 91 35 VCCINT VCCINT 92 34 VSYNC BYPASS 93 33 VCCINT VCCINT 94 32 HSYNC GRAYBITS<0> 95 31 CDATA<0> GRAYBITS<1> 96 30 CDATA<1> YDATA<9> 97 29 NC YDATA<8> 98 28 NC NC(TCK) 99 27 M2 VCCO 100 26 VCCO 40 DVD-3800 W986416DH (MA: IC103) VCC 1 DQ0 2 VCCQ 3 54 VSS 53 DQ15 DQ1 4 51 DQ14 DQ2 5 50 DQ13 VSSQ 6 49 VCCQ DQ3 7 48 DQ12 DQ4 8 47 DQ11 VCCQ 9 46 VSSQ 52 VssQ DQ5 10 45 DQ10 DQ6 11 VSSQ 12 44 DQ9 43 VCCQ DQ7 13 42 DQ8 VCC 14 41 VSS LDQM 15 40 NC WE 16 39 UDQM CAS 17 38 CLK RAS 18 37 CKE CS 19 36 NC BS0 20 35 A11 BS1 21 34 A9 A10/AP 22 33 A8 A0 23 32 A7 A1 24 31 A6 A2 25 A3 26 30 A5 Vcc 27 29 A4 28 Vss W986416DH Terminal Function Pin No. 1, 14, 27 2, 4, 5, 7, 8, 10, 11, 13, 42, 44, 45, 47, 48, 50, 51, 53 3, 9, 43, 49 6, 12, 46, 52 16 17 Pin Name Function Description VCC Power (+3.3V) Power for input buffers and logic circuit inside DRAM. DQ0-DQ15 Data Input/Output Multiplexed pins for data output and input. VCCQ VSSQ WE CAS Power (+3.3V) for I/O buffer Ground for I/O buffer Write Enable Column Address Strobe 18 RAS Row Address Strobe 19 CS Chip Select 20, 21 BS0, BS1 Bank Select 23~26, 22 29~35 A0-A11 Address 28, 41, 54 36, 40 VSS NC Ground No Connection 37 CKE Clock Enable 38 CLK Clock Inputs 39, 15 UDQM, LDQM Input/Output mask Separated power from VCC, to improve DQ noise immunity. Separated ground from VSS, to improve DQ noise immunity. Referred to RAS. Referred to RAS. Command input. When sampled at the rising edge of the clock RAS, CAS and WE define the operation to be executed. Disable or enable the command decoder. When command decoder is disabled, new command is ignored and previous operation continues. Select bank to activate during row address latch time, or bank to read/write during address latch time. Multiplexed pins for row and column address. Row address: A0-A11. Column address: A0-A7. A10 is sampled during a precharge command to determine if all banks are to be precharged or bank selected by BS0, BS1. Ground for input buffers and logic circuit inside DRAM. No Connection CKE controls the clock activation and deactivation. When CKE is low, Power Down mode, Suspend mode, or Self Refresh mode is entered. System clock used to sample inputs on the rising edge of clock. The output buffer is placed at Hi-Z (with latency of 2) when DQM is sampled high in read cycle. In write cycle, sampling DQM high will block the write operation with zero latency. 41 DVD-3800 AGND VAA NC NC NC NC NC NC TTX AGND VAA NC PAL_NTSC VSO/CLAMP CSO_HSO RESET ADV7190 (AV: IC601) 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 P0 P1 P2 P3 P4 P5 P6 P7 P8 P9 P10 P11 P12 P13 P14 P15 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 TOP VIEW 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 RSET1 VREF COMP 1 DAC A DAC B VAA AGND DAC C DAC D AGND VAA DAC E DAC F COMP 2 RSET2 AGND VAA AGND HSYNC VSYNC BLANK ALSB TTXREQ AGND VAA AGND CLKIN CLKOUT VAA SCL SDA SCRESET/TRC/TR 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 ADV7190 Terminal Function Pin No. Pin Name I/O Function 1~16 17, 25, 29, 38, 43, 54, 63 18, 24, 26, 33, 39, 42, 55, 64 P0-P15 I 8-Bit or 16-Bit 4:2:2 Multiplexed YCrCb Pixel Port. The LSB of the input data is set up on Pin P0. VAA P Analog Power Supply (3.3V to 5V). AGND G Analog Ground. 19 HSYNC I/O 20 VSYNC I/O 21 BLANK I/O 22 23 ALSB TTXREQ I O 27 CLKIN I 28 30 31 CLKOUT SCL SDA 32 SCRESET/RTC/TR 34 RSET2 I 35 36 37 40 41 44 45 46 COMP 2 DAC F DAC E DAC D DAC C DAC B DAC A COMP 1 O O O O O O O O 47 VREF I/O 48 RSET1 I 49 RESET I 50 CSO_HSO O 51 VSO/CLAMP I/O 52 53, 57~62 56 PAL_NTSC NC TTX O I I/O I I I HSYNC (Modes 1, 2, and 3) Control Signal. This pin may be configured to be an output (Master Mode) or an input (Slave Mode) and accept Sync Signals. VSYNC Control Signal. This pin may be configured as an output (Master Mode) or as an input (Slave Mode) and accept VSYNC as a Control Signal. Video Blanking Control Signal. This signal is optional. For further information see Vertical Blanking Data Insertion and BLANK Input section. TTL Address Input. This signal sets up the LSB of the MPU address. Teletext Data Request Output Signal, used to control teletext data transfer. TTL Clock Input. Requires a stable 27 MHz reference clock for standard operation. Alternatively, a 24.5454 MHz (NTSC) or 29.5 MHz (PAL) can be used for square pixel operation. Clock Output Pin. MPU Port Serial Interface Clock Input. MPU Port Serial Data Input/Output. Multifunctional Input: Real-Time Control (RTC) Input, Timing Reset Input, Subcarrier Reset Input. A 1200 ohm resistor connected from this pin to ground is used to control full-scale amplitudes of the Video Signals from DACs D, E, and F. Compensation Pin for DACs D, E, and F. Connect a 0.1µF Capacitor from COMP2 to VAA. S-Video C/V/RED Analog Output. This DAC is capable of providing 4.33 mA output. S-Video Y/U/BLUE Analog Output. This DAC is capable of providing 4.33 mA output. Composite/Y/GREEN Analog Output. This DAC is capable of providing 4.33 mA output. S-Video C/V/RED Analog Output. This DAC is capable of providing 4.33 mA output. S-Video Y/U/BLUE Analog Output. This DAC is capable of providing 4.33 mA output. Composite/Y/GREEN Analog Output. This DAC is capable of providing 4.33 mA output. Compensation Pin for DACs A, B, and C. Connect a 0.1µF Capacitor from COMP1 to VAA. Voltage Reference Input for DACs or Voltage Reference Output (1.235V). An external VREF cannot be used in 4x oversampling mode. A 1200 ohm resistor connected from this pin to ground is used to control full-scale amplitudes of the Video Signals from DACs A, B, and C. The input resets the on-chip timing generator and sets the ADV7190/ADV7191 into default mode. See Appendix 8 for Default Register Settings. Dual function CSO or HSO Output Sync Signal at TTL Level. Multifunction Pin. VSO Output Sync Signal at TTL level. CLAMP TTL Output Signals can be used to drive external circuitry to enable clamping of all Video Signals. Input signal to select PAL or NTSC mode of operation, pin set to Logic 1 selects PAL. No Connect. Teletext Data Input Pin. 42 DVD-3800 DXP7001AF (AV: IC201) 23 33 34 22 44 12 1 11 DXP7001AF Terminal Function Pin No. Pin Name I/O Pin No. Description Pin Name I/O Description 1 MDT Ip Microcomputer Interface Data 23 P24L O /Lambda-processor Lch 24th bit Output *1, *2 2 MCK Ip Microcomputer Interface Clock 24 P23L O /Lambda-processor Lch 23rd bit Output *1, *2 3 MLEN Ip Microcomputer Interface Latch Enable 25 P22L O /Lambda-processor Lch 22nd bit Output *1, *2 4 RSTN Ip Reset Terminal 26 P21L O /Lambda-processor Lch 21st bit Output *1 5 DLRCK Ip Audio Serial Input Data L/R Clock 27 P20L O /Lambda-processor Lch 20th bit Output *1 28 VDD Power Supply Terminal 29 SO2L/P19L O Test Setting Terminal 2 (Alpha-processor 1 30 SO1L O Lambda-processor Lch(+) Output Output shifts 12-bit.) 31 SO1R O Lambda-processor Rch(+) Output 32 SO2R/P19R O 33 P20R O /Lambda-processor Rch 20th bit Output *1 34 P21R O /Lambda-processor Rch 21st bit Output *1, *2 35 P22R O /Lambda-processor Rch 22nd bit Output *1, *2 36 P23R O /Lambda-processor Rch 23rd bit Output *1, *2 37 P24R O /Lambda-processor Rch 24th bit Output *1, *2 38 TEST1N Ip Test Terminal 1 (Alpha-processor 1 stops) 39 CKSLN Ip System Clock Select (384fs system / 40 CKDV1 Ip 6 VSS Ground Terminal 7 DBCK Ip Audio Serial Input Bit Clock 8 9 10 DDT TEST2N TEST3N Ip Ip Ip th Audio Serial Input Data Test Setting Terminal 3 (Alpha-processor 2 Output stops.) Test Setting Terminal 4 (Lambda-processor 11 TEST4N Ip 12 DFBCK Ip Lambda-processor Input Bit Clock 13 DFWCK Ip Lambda-processor Input Word Clock 14 DOL Ip Lambda-processor Input Data L-channel 15 DOR Ip Lambda-processor Input Data R-channel 16 LMOD Ip Lambda-processor Operation Mode Set 17 OMOD1 Ip Output Mode Setting Terminal 1 Output stops.) Output Mode Setting Terminal 2 18 OMOD2 Ip L OMOD2 H H 24bit Alternate 24bit Parallel Output *1 Lambda-processor Rch() Output/19 bit th Output *1 256fs system) OMOD1 L 18bit Alternate 20bit Parallel Lambda-processor Lch() Output /19 bit System Clock Divider Select Terminal 1 System Clock Divider Select Terminal 2 41 CKDV2 Ip L CKDV2 H 19 INVIN Ip Lambda-processor Input Reversed Polarity Terminal 20 BCKO O Lambda-processor Output Bit Clock 21 WCKO O Lambda-processor Output Word Clock 22 WCKO2 O 42 XTI I CKDV1 L 192fs (CKSLN=H) 256fs (CKSLN=H) 192fs (CKSLN=H) 256fs (CKSLN=H) H 768fs 384fs X-TAL Oscillator Input Terminal 43 XTO O X-TAL Oscillator Output Terminal 44 CKO O Clock Output Terminal Lambda-processor Output Word Clock 2 (for Canceling OFFSET on 1DAC (Ip = Input Terminal with pull-up) *1: Outputted on OMOD1=L (18-bit Alternate Output or 20 bit Parallel Output) *2: Internal Signal is outputted on OMOD1=H (24-bit Alternate Output or 24 bit Parallel Output) and one of TEST1N, TEST2N, TEST3N or TEST4N is set to L. 43 DVD-3800 PCM1738-1 (AV: IC206, 209, 212) PCM1738-1 Terminal Function Pin Name Pin No. RST 1 28 VCC3 ZEROL 2 27 AGND2 ZEROR 3 26 IOUTL- LRCK 4 25 IOUTL+ DATA 5 24 VCC2 BCK 6 23 VCC1 SCKI 7 22 VCOM3 DGND 8 21 IREF 9 20 VCOM2 SCKO 10 19 VCOM1 VDD MDO 11 18 AGND1 MDI 12 17 IOUTR+ MC 13 16 IOUTR- CS 14 15 MUTE 1 2 3 RST ZEROL ZEROR 4 LRCK 5 DATA 6 BCK 7 SCKI 8 9 10 11 12 13 14 DGND VDD SCKO MDO MDI MC CS 15 MUTE 16 17 18 19 20 21 22 23 24 25 26 27 28 LOUTR− LOUTR+ AGND1 VCOM1 VCOM2 IREF VCOM3 VCC1 VCC2 IOUTL+ IOUTL− AGND2 VCC3 I/O Function I Reset (1) O Zero-flag for Lch O Zero-flag for Rch Normal mode: L/R clock (fs) input (1) I Ext. DF mode: WDCK clock input DSD mode: GND connection Normal mode: Serial audio data input (1) I Ext. DF & DSD mode: Lch audio data input Normal mode: Bit clock input (1) I DSD mode: GND connection Normal mode: System clock input (1) I DSD mode: BCK (64fs) clock input Digital GND Digital power +3.3V O System clock output O Function control register serial data output (2) I Function control register serial data input (1) I Function control register shift clock (1) I Mode control chip select and latch signal (1) Normal mode: Analog output mute control (1) I Ext. DF & DSD mode: Rch audio data input O Rch analog current output (−) O Rch analog current output (+) Analog GND Internal bias de-coupling pin Common mode voltage of I/V Output current reference bias pin Internal bias de-coupling pin Analog power +5.0V Analog power +5.0V O Lch analog current output (+) O Lch analog current output (−) Analog GND Analog power +5.0V Note: (1) Schmitt trigger input, 5V input possible (2) Tri-state output AN8471SA (MA: IC503) AN8471SA Terminal Function 32 BC4 BC3 BC2 BC1 VPUMP VLP VM1 16 VDD 1 18 16 15 14 13 12 32 31 OSC FG 10 Booster Logic Circuit FG2 20 Pin No. 17 Thermal Protect 19 VM2 H1H 7 27 A11 Hall Amp Matrix H2L 4 Divider 3ø Bridge H2H 5 Pre-Driver H1L 6 H3H 3 24 A21 25 A22 21 A31 H3L 2 22 A32 PWMOUT VHB 1 28 A12 Hall Bias 23 CS2 Direction SW 26 CS1 SRESET EC 8 VT Start/Stop ECR 9 VCL X5 CSOUT BMS 30 START 11 17 GND 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 Pin Name VHB H3L H3H H2L H2H H1L H1H EC ECR FG1 START VPUMP BC1 BC2 BC3 BC4 GND VDD VM2 FG2 A31 A32 CS2 A21 A22 CS1 A11 A12 NC BMS VM1 VLP Function Hall bias pin Hall element 3 input (-) Hall element 3 input (+) Hall element 2 input (-) Hall element 2 input (+) Hall element 1 input (-) Hall element 1 input (+) Torque command input pin Torque command ref. input pin FG signal lout put pin (0.C) Start/Stop switching pin Booster pin Booster cap. connecting pin 1 Torque command input pin 2 Torque command input pin 3 Torque command input pin 4 GND pin Power pin Motor power pin 2 3x FG signal output pin (0.C) Drive output 3 Drive output 3 Current detect pin 2 Drive output 2 Drive output 2 Current detect pin 1 Drive output 1 Drive output 1 N.C. Brake mode switching pin Motor power pin 1 Pre-driver lower power 44 DVD-3800 SM8701BM (MA: IC109) SM8701BM Terminal Function Pin No. MLEN/R2 1 20 MCK/R1 P/S 2 19 MDT/R0 VDD 3 18 RSTN GND 4 17 SO3 XTO 5 16 VDDO XTI 6 15 GNDO GNDP 7 14 SO2 VDDP 8 13 SO4 VDD3 9 12 SO1 MO 10 11 MON Pin Name I/O 1 MLEN/R2 Ip1 2 P/S Ip1 3 4 5 VDD GND XTO O 6 XTI 7 8 9 10 11 12 13 14 15 16 17 18 GNDP VDDP VDD3 MO MON SO1 SO4 SO2 GNDO VDDO SO3 RSTN O O O O O O Ip2 19 MDT/R0 Ip1 20 MCK/R1 Ip1 I Function Control signal input. In serial mode: latch enable signal In parallel mode: sampling rate select signal Mode select signal. LOW: serial mode, HIGH: parallel mode 5V supply (Digital block) Ground (Digital block) Reference signal crystal oscillator element connection Reference signal crystal oscillator element connection or external clock input Ground (PLL block) 5V supply (PLL block) 3.3V supply (output buffer) 27 MHz fixed-frequency output 27 MHz fixed-frequency output (inverted) 33.8688 MHz fixed-frequency output 768fs output 256fs output Ground (output buffer) 3.3V supply (output buffer) 384fs output LOW-level reset input Control signal input. In serial mode: control data input signal In parallel mode: sampling frequency select signal Control signal input. In serial mode: clock signal In parallel mode: sampling frequency select signal Note: 1. Schmitt trigger input with pull-down resistor 2. Schmitt trigger input with pull-up resistor 64M SDRAM (MA: IC702) W986432AH W986432AH Terminal Function VCC 1 DQ0 2 86 VSS 85 DQ15 VCCQ 3 84 VCCQ DQ1 4 83 DQ14 DQ2 5 82 DQ13 VSSQ 6 81 VCCQ DQ3 7 80 DQ12 DQ4 8 79 DQ11 VCCQ 9 78 VSSQ Pin No. Pin Name 25~27, 60~66, 24 A0-A10 22, 23 BS0, BS1 DQ5 10 77 DQ10 2, 4, 5, 7, 8, 10, 11 ,13, 31, 33, 34, 36, 37, 39, 40, 42, 45, 47, 48, 50, DQ0-DQ31 51, 53, 54, 56, 74, 76, 77, 79, 80, 82, 83, 85 DQ6 11 VSSQ 12 76 DQ9 75 VCCQ 20 DQ7 13 74 DQ8 NC 14 73 NC VCC 15 72 VSS DQM0 16 71 DQM1 WE 17 70 NC CAS 18 69 NC RAS 19 68 CLK CS 20 67 CKE NC 21 66 A9 BS0 22 65 A8 BS1 23 64 A7 A10/AP 24 63 A6 A0 25 62 A5 A1 26 A2 27 61 A4 60 A3 DQM2 28 59 DQM3 VCC 29 58 VSS NC 30 57 NC DQ16 31 56 DQ31 VSSQ 32 55 VCCQ DQ17 33 54 DQ30 DQ18 34 53 DQ29 VCCQ 35 52 VSSQ DQ19 36 DQ20 37 51 DQ28 50 DQ27 VSSQ 38 49 VCCQ DQ21 39 48 DQ26 DQ22 40 47 DQ25 VCCQ 41 46 VSSQ DQ23 42 45 DQ24 VCC 43 19 18 17 16, 28, 59, 71 68 67 1, 15, 29, 43 44, 58, 72, 86 3, 9, 35, 41, 49, 55, 75, 81 6, 12, 32, 38, 46, 52, 78, 84 14, 21, 30, 57, 69, 70, 73 Function Address for row and column Bank Select to activate during row address latch time Data Input / Output pins for data Chip Selec to disable or enable the command decoder RAS Row Address Strobe CAS Column Address Strobe WE Write Enable DQM0-DQM3 Input / Out put Mask CLK Clock Inputs CKE Clock Enable VCC Power (+3.3V) VSS Ground CS VCCQ Power (+3.3V) for I/O Buffer VSSQ Ground for I/O Buffer NC No Connection 44 VSS 45 DVD-3800 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 AD2 AD1 VDISP2 NC VFL2 P4 P3 P2 P1 VDD DA CP CS RESET OSC1 OSC0 GND VFL1 COM24 COM23 ML9207-01 (PD: IC101) 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 COM22 COM21 COM20 COM19 COM18 COM17 COM16 COM15 COM14 COM13 COM12 COM11 COM10 COM9 COM8 COM7 COM6 COM5 COM4 COM3 SEG19 SEG20 SEG21 SEG22 SEG23 SEG24 SEG25 SEG26 SEG27 SEG28 SEG29 SEG30 SEG31 SEG32 SEG33 SEG34 SEG35 VDISP1 COM1 COM2 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 AD3 AD4 SEG1 SEG2 SEG3 SEG4 SEG5 SEG6 SEG7 SEG8 SEG9 SEG10 SEG11 SEG12 SEG13 SEG14 SEG15 SEG16 SEG17 SEG18 ML9207-01 Terminal Function Pin No. 3~37 39~62 1,2, 79, 80 72~75 71 38, 78 64 63, 76 70 69 68 67 65 66 Pin Name SEG1~35 COM1~24 AD1~4 P1~4 VDD VDISP1~2 GND VFL1~2 DA CP CS RESET OSC0 OSC1 I/O O O O O I I I I I O Function FL display anode drive output pin FL display grid drive output pin FL display anode drive output pin General port output pin VDD-GND: Power supply for logic block VDISP-VFL: Power supply for FL display drive For VDD and VDISP, apply from same power source Serial data input pin (positive logic) Shift clock input pin Chip select input pin Reset input pin Pin for self-oscillation BA5952AFP (MA: IC504) VINFC 1 CFCErr1 2 28 MUTE CFCErr2 3 26 VINTK 27 BIAS VINSL+ 4 25 CTKerr1 VINSL- 5 24 CTKerr2 VOSL $ VNFFC 7 23 VINLD PreVcc & PVcc1 9 22 PreGND 21 PVcc2 20 VNFTK PGND 10 VOSL- 11 19 PGND VOSL+ 12 17 VOLD+ VOFC- 13 VOFC+ 14 16 VOTK15 VOTK+ 18 VOLD- Terminal Function Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Pin Name Function No. VINFC Focus driver input 15 VOTK+ Tracking driver output(+) CFCerr1 Cap.connecting pin for error amp filter 16 VOTK- Tracking driver output(-) CFCerr2 Cap.connecting pin for error amp filter 17 VOLD+ Loading driver output(+) VINSL+ Op.amp input (+) for sled driver 18 VOLD- Loading driver output(-) Power GND VINSL- Op.amp input (-) for sled driver 19 PGND 20 VNFTK Tracking driver feedback pin Op.amp output for sled driver VOSL 21 PVcc1 VNFFC Focus driver feedback pin Power GND 22 PreGND Pre GND PreVcc Pre Vcc 23 VINLD PVcc1 Power Vcc of sled driver Loading driver input 24 CTKerr2 Cap.connecting pin for error amp filter PGND Power GND of sled driver VOSL- Sled driver output(-) 25 CTKerr1 Cap.connecting pin for error amp filter VOSL+ Sled driver output(+) Tracking driver input 26 VINTK Bias input 27 BIAS VOFC- Focus driver output(-) Mute control pin 28 MUTE VOFC+ Focus driver output(+) Name Function 46 DVD-3800 GND 39 3 38 4 37 5 36 6 35 7 34 8 33 9 32 10 31 11 30 12 29 13 28 14 27 15 26 16 25 17 24 18 23 I/O15 I/O14 I/O13 I/O12 GND I/O11 I/O10 I/O9 I/O8 NC LCAS UCAS OE A8 A7 A6 A5 19 22 20 21 A3 VCC Terminal Function Name A0-A8 I/O0-15 WE OE RAS UCAS LCAS Vcc GND NC Function Address Inputs Data Inputs/Outputs Write Enable Output Enable Row Address Strobe Upper Column Address Strobe Lower Column Address Strobe Power Ground No Connection 20 19 18 17 16 15 14 13 12 11 1 2 3 4 5 6 7 8 9 10 CLR L H H H D X L H X Vcc Q8 D8 D7 Q7 Q6 D6 D5 Q5 CK Output CK X 7 8 9 10 11 12 13 14 15 16 17 39 38 37 36 35 34 33 32 31 30 29 S-24C02BFJ-TB (MA: IC106) Function Q L L H Qn A0 1 8 Vcc A1 2 7 TEST/WP NC 3 6 SCL GND 4 5 SDA Terminal Function Truth Table Input I/O12 I/O11 I/O10 I/O9 I/O8 GND NC I/O7 I/O6 I/O5 I/O4 Clear ¾ ¾ No change Pin No. Name 1 2 3 4 5 6 7 8 A0 A1 A2 GND SDA SCL TEST/WP Vcc Function Address input Address input Address input GND Serial data input/output Serial clock input Test, connect to GND Power supply X: Don't Care BA033LBSG (AV: IC205, 208, 211) 5 A13 A12 A11 A10 A9 GND NC A8 A7 A6 A5 Pin Name A0-A15 CE OE WE I/O0-I/O15 NC Function Address Inputs Chip Enable Output Enable Write Enable Data Inputs/Outputs No Connection A4 GND SN74AHCT273PW (MA: IC104, 105, 114) CLR Q1 D1 D2 Q2 Q3 D3 D4 Q4 GND Terminal Function 6 5 4 3 2 1 44 43 42 41 40 40 2 18 19 20 21 22 23 24 25 26 27 28 1 I/O3 I/O2 I/O1 I/O 0 OE NC A0 A1 A2 A3 A4 VCC I/O0 I/O1 I/O2 I/O3 VCC I/O4 I/O5 I/O6 I/O7 NC NC WE RAS NC A0 A1 A2 AT49LV1025 (MA: IC202) I/O 13 I/O 14 I/O 15 CE NC NC VCC WE NC A15 A14 4M DRAM (SOJ)-35 (IC507, 509) IS41C16256 M11B416256A TC74VHC157A (MA: IC113) SELECT 1A 1B 1Y 2A 2B 2Y GND 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 Vcc ST 4A 4B 4Y 3A 3B 3Y TOP VIEW Terminal Function INPUTS SELECT ST X H L L L L H L H L X: Don't Care OUTPUTS A X L H X X B X X X L H Y L L H L H TC4W53F (SC: IC855) (Europe model only) Terminal Function 4 Vcc 1 Vref TOP VIEW CTL 3 1 2 3 5 OUT 4 C Pin No. Name 1 2 3 4 5 Vcc GND CTL C OUT Ripple Improve Output Over current protection Over temperature protection GND TOP VIEW Function Power Ground Power Save COM 1 8 VCC NH 2 7 ch0 VEE 3 6 ch1 GND 4 5 ADR 2 TC7W32F (MA: IC107) TC7W14F (MA: IC111, 115, 116) MN1382-S (MA: IC203) TOP VIEW 1A 1 8 Vcc 1A 1 8 Vcc 1B 2 7 1Y 3Y 2 7 1Y 2Y 3 6 2B 2A 3 6 3A GND 4 5 2A GND 4 5 2Y OUT 1 2 VDD VSS 3 47 DVD-3800 STR-F6674 (PD: IC901) 4 Vin BA15218F (MA: IC510) NJM2068DD (AV: IC407, 408) NJM2068MD (AV: IC301~308, 401~406) NJM4558M (MA: IC502) TK15420MTL (AV: IC701~707, 803, 804) 3 Drain DRV.REC=8.6V FRONT VIEW Start Rg2 O.V.P Rg1 DRV Latch Reg. 47ohm T.S.D O.C.P./F.B. S D VIN GND 1 OCP/FB Rg2: STR-F6632 360ohm STR-F6672 180ohm OCP/FB comp. +IN1 7 OUT2 + 2ch - 6 3 VEE 4 Vth2=1.3~1.6V + 1ch + 1.35mA OSC - 2 -IN1 + 8 VCC OUT1 1 2 Source Vth1=0.73±0.05V -IN2 5 +IN2 INH comp. Tth(min)=1m S 4700pF TOFF=50m S typ. Iconst trm. 5 GND BA033FP (MA: IC302, 512) BA18BC0FP (MA: IC710) AT49LV002-70TC (MA: IC210) A11 A9 A8 A13 A14 A17 WE VCC RESET A16 A15 A12 A7 A6 A5 A4 1 2 3 4 5 6 7 8 9 10 32 31 30 29 28 27 26 25 24 23 11 12 13 14 15 22 21 20 19 16 17 18 OE A10 CE I/O7 I/O6 I/O5 I/O4 I/O3 GND I/O2 I/O1 I/O0 A0 A1 A2 A3 2 Vcc TOP VIEW 1 REFFERENCE VOLTAGE GND 2 1 3 PQ070XZ01Z (MA: IC301, 303, 304, 709) 3 TOP VIEW DC input (VIN) 1 On/Off control (VO) 2 A 1 8 VCC B 2 7 ST Y 3 6 SELECT GND 4 5 Y 8 VIN2 GND 2 TOP VIEW 7 V VSAG1 3 6 VSAG2 + VOUT1 4 DATA 1 8 VCC CLK 2 7 VCC RESET/OE 3 CE 4 NJM2267M (SC: IC852) (Europe model only) VIN1 1 XC17S30AV08C (MA: IC712) 5 VOUT2 6 NC 3 DC output (VO) 4 Output voltage adjustment (VADJ) Specific IC 5 GND 12345 TC7WH157FU (MA: IC112) OUT 3 PC123 (PD: IC902) TOP VIEW ANODE CATHODE COLLECTOR EMITTER 5 GND TC7WU04F (MA: IC108, 110) SE005N (PD: IC903) C Vout 2 1 1A 1 8 Vcc 3Y 2 7 1Y 2A 3 6 3A GND 4 5 2Y FRONT VIEW 1 2 3 3 GND 48 DVD-3800 TC74HCT7007AF (MA: IC206, 209) 1 14 Vcc 1CLR 1 2 13 6A 1D 2 2A 3 12 6Y 1CK 3 1Y TC74VHC123AF (AV: IC602, 708) 13 2CLR CK D PR CLR Q Q 11 5A 1PR 4 11 2CK 3A 5 10 5Y 1Q 5 10 2PR 3Y 6 9 4A D CK CLR PR Q Q GND 7 GND 7 MUTE 1 INA 2 75ohm GND 3 INB 4 6dB 75ohm 14 OUTA2 Z1 3 Z1 Z 4 Z X1 13 X1 Z0 5 Z0 X0 12 X0 12 OUTB2 11 N.C. 6dB 75ohm GND 8 10 OUTC1 Inhibit 6 9 OUTC2 VEE 7 Inhibit C GND 8 1A 2 1A G 15 STROBE 1B 3 1B 4A 14 4A OUTPUT 1Y 4 1Y 4B 13 4B INPUTS 2A 5 2B 6 OUTPUT 2Y 7 2A 2B INPUTS 4Y 12 4Y OUTPUT 3A 11 3A 2Y 3Y 3B GND 8 10 3B X 14 X INPUTS 9 3Y OUTPUT BA033T (PD: IC904) NJM7805FA(S) (AV: IC204, 207, 210, 951) NJM7812FA(S) (AV: IC953) 14 Vcc 1Y 2 13 6A 2A 3 12 6Y 2Y 4 11 5A 5 10 5Y B 10 B 3Y 6 9 4A 9 C GND 7 8 4Y 74VHC4066MTC (MA: IC506) 19 GND VCC 3 18 - C4 C1- 4 17 C5+ 5 16 2 C5 6 - 300ohm 300ohm ROUT1 9 5.5kohm ROUT2 10 5.5kohm NJM7905FA (AV: IC952) NJM7912FA (AV: IC954) FRONT VIEW 1 11 A C4+ DIN2 8 1A A 20 DIN1 7 SN74LV04APW (MA: IC208, 213) TC74HCT04AF (AV: IC219, 506) TC74HCU04AF (AV: IC216) 3A + IN/OUT1 1 14 VDD OUT/IN1 2 13 CONT1 VSS OUT/IN2 3 12 CONT4 STBY IN/OUT2 4 11 IN/OUT4 10 OUT/IN4 15 VCHA CONT2 5 14 DOUT1 CONT3 6 9 OUT/IN3 13 DOUT2 VSS 7 8 IN/OUT3 12 RIN1 11 RIN2 PQ1CG21H2FZ (PD: IC905) FRONT VIEW Input GND Output FRONT VIEW Common Input Output INPUTS S 15 Y VDD 1 C1 16 VCC SELECT 1 Y m PD4721GS (PD: IC511) SN74LV157APW (AV: IC214) 11 2CLR 9 2A Y0 N.C. 6 2Cx 6 Q CLR 10 2B Y0 2 13 OUTB1 12 2Q Q GND 8 16 VCC Y1 2Q 5 8 2Q 15 OUTA1 GND 5 INC 7 Y1 1 14 1Cx 13 1Q 1Q 4 2Rx/Cx 7 TC4053BF (AV: IC801, 802) (SC: IC851~854, 858) (Europe model only) 16 VCC 6dB CLR Q Q 9 2Q 8 4Y BA7660FS (SC: IC856) (Europe model only) 1B 2 1CLR 3 12 2D 2Y 4 1Q 6 16 Vcc 15 1Rx/Cx 1A 1 14 VCC VIN VOUT COM OADJ ON/OFF 1A SN74LV74APW (AV: IC215) 49 DVD-3800 OTHERS GP1UM271XK (Remote Control Sensor) (PD: IC103) TOP VIEW RL Limiter Amp BPF Detector & Integrator Hysteresis Comparator Comparator VOUT VCC GND Head Amp GND VCC VOUT CXA1511M (PD: IC510) 1 4 Head Amp 8 TOP VIEW Limiter Amp BPF BEF Detector & Integrator Comparator Hysteresis Comparator IN 1 5 ABLC 2 3 4 5 6 C2 GND fo N.C. 7 8 OUT Vcc OPTICAL Output GP1FA551TZ (AV: JK503) FRONT VIEW VCC LED DRIVE IC VIN GND VIN VCC GND C1 50 DVD-3800 TRANSISTORS 2SA1022 2SA1036K (Europe model only) 2SB709A 2SC2411K (Europe model only) 2SC2412K 2SD601A B KTC2875B TOP C DTA114EK VIEW E DTA124EK DTC114EK DTC124TK (Europe model only) DTC143EK DTC143TK DTC144EK (Europe model only) DTC144TK (Europe model only) DTA114EK DTA124EK C C TOP VIEW C R1 R2 E R1 B R2 R2 DTC114EK 10kohm 10kohm DTC124TK 22kohm E DTC143EK 4.7kohm R2 DTC143TK 4.7kohm DTA114EK 10kohm 10kohm DTC144EK 47kohm DTA124EK 22kohm 22kohm DTC144TK 47kohm 4.7kohm 47kohm 2SC1740S 2SD468 C FRONT VIEW FRONT VIEW E R1 R1 2SB1266 2SB1274 2SD1902 2SB1260 B DTC114EK DTC124TK DTC143EK DTC143TK B DTC144EK DTC144TK E C B B C E HAT2053M IMD3A 4 5 6 1 25 6 DDD D TOP VIEW 1 6 2 5 3 4 (4) TOP VIEW 3 G 10k 3 2 1 DTr1 DTr2 S 4 4 Source 3 Gate 1,2,5,6 Drain 10k R2 (3) (5) (6) 10k R1 R2 10k R1 (2) (1) DIODES (Including LED) 1SS355 RB161L-40 TOP VIEW UDZS12B UDZS13B 1SR139-400 AG01ZT(V1) AL01ZT(V1) EM01AT(V1) TOP VIEW RJ43 LF015-305 RK39 LF-C4 SARS01T(V1) RB411D HZS4C-1 TOP VIEW S4VB20 MA152A (Europe model only) TOP VIEW SEL1210S (Red) SELU1E10CXM-002 (Blue) MA152WK (Europe model only) TOP VIEW SEL2810A (Amber) TOP VIEW TOP VIEW TOP VIEW SIDE VIEW TOP VIEW TOP VIEW 51 DVD-3800 FL DISPLAY 17-ST-04GNK (FL101) 1 COLOR ILLUMINATION 66 Reddish Orange ----- Above pattern Green ------------------ Other part PIN CONNECTION 11111111 11 22 22 22 2 1234 5678 901234567 89 01 23 45 6 PPPP PPPPPPPPP CONNECTION F N N N P P P P P P P P P 1 1 1 1 1 1 1 1 1 1 2 2 2 - XPP1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 PIN NO. 5555555556666666 1234567890123456 111 CONNECTION 2 1 0 9 8 7 6 5 4 3 2 1 N N N F GGGG GGGG GG GG P P X + PIN NO. GRID ASSIGNMENT 14G 2223333333333 44 44 44 44 445 7890123456789 01 23 45 67 890 PPPPP PP PP PPPP 11 111 2 2 2 2 2 2 2 3 3 3 3 3 3 NNNNNN7 6 5 4 3 3 4 5 6 7 8 9 0 1 2 3 4 5 C C C C C C GG G G G NOTE 1) F-,F+ ---------- Filament 2) NP ------------- No pin 3) NX ------------- No extend pin 4) DL ------------ Datum line 5) 1G~17G ----- Grid 6) Visual Field -- Upper 22.6° min. 7) NC ------------ No connection (NC pin should be electorically open on the PC board) 15G 16G 13G 12G 11G 10G 9G 8G [13G~1G] 7G 6G 1-1 2-1 3-1 4-1 5G 5-1 4G 1-2 2-2 3-2 4-2 5-2 1-3 2-3 3-3 4-3 5-3 1-4 2-4 3-4 4-4 5-4 1-5 2-5 3-5 4-5 5-5 1-6 2-6 3-6 4-6 5-6 1-7 2-7 3-7 4-7 5-7 3G 2G 1G ANODE CONNECTION 17G P1 P2 P3 P4 P5 P6 P7 P8 P9 P10 P11 P12 P13 P14 P15 P16 P17 P18 16G 15G 14G 13G~1G 1-1 2-1 3-1 4-1 5-1 1-2 2-2 3-2 4-2 5-2 1-3 2-3 3-3 4-3 5-3 1-4 2-4 3-4 17G P19 P20 P21 P22 P23 P24 P25 P26 P27 P28 P29 P30 P31 P32 P33 P34 P35 16G 15G 14G 13G~1G 4-4 5-4 1-5 2-5 3-5 4-5 5-5 1-6 2-6 3-6 4-6 5-6 1-7 2-7 3-7 4-7 5-7 52 DVD-3800 PRINTED WIRING BOARD 1 4 3 2 5 6 7 8 GU-3389A MAIN P.W.B. UNIT Ass'y A 14 1 32 33 128 97 64 65 96 1 1 176 7 1 8 14 8 5 1 4 8 5 1 4 133 1 132 43 B 86 15 14 28 1 1 44 21 1 1 C 6 44 36 89 1 37 45 144 88 21 1 108 73 75 51 50 17 7 8 100 26 1 8 5 8 5 8 5 1 4 1 4 1 4 25 8 5 1 4 16 1 12 20 9 11 144 8 5 14 1 4 1 8 1 20 11 20 11 20 11 1 10 1 10 1 10 8 108 2 36 73 37 72 1 26 4 1 30 1 D 1 7 5 6 13 10 14 5 1 109 1 1 1 2 109 72 76 8 1 27 3 E COMPONENT SIDE 53 DVD-3800 1 4 3 2 5 6 7 8 GU-3389A MAIN P.W.B. UNIT Ass'y A 17 5 1 7 18 14 5 6 1 1 1 28 28 15 40 29 156 105 1 157 60 41 40 61 24 4 5 32 17 1 16 15 B 1 25 157 208 1 21 80 156 1 53 1 8 48 104 208 1 1 40 1 20 52 24 25 8 14 7 1 C 1 26 40 100 52 51 20 21 104 28 76 50 21 105 53 1 5 39 27 75 1 1 4 81 54 20 75 8 51 76 50 100 26 5 17 32 33 16 48 1 49 9 54 8 1 1 32 1 11 12 D 1 48 25 64 16 1 16 17 24 37 25 36 E FOIL SIDE 54 DVD-3800 1 4 3 2 5 6 7 8 GU-3438 AUDIO/VIDEO P.W.B. UNIT Ass'y 3 1 2 8 14 1 7 14 7 5 8 1 1 9 7 8 A 4 1 5 8 15 1 4 1 5 8 8 8 1 7 7 4 1 5 8 14 8 5 1 4 1 1 4 1 1 30 4 44 34 1 33 11 23 12 8 14 14 9 1 1 28 14 15 5 8 5 8 4 1 4 1 5 8 5 8 5 29 1 28 1 14 4 8 22 3 1 28 1 4 14 15 1 4 1 5 8 5 8 4 1 4 1 5 8 5 8 4 1 5 8 8 5 1 4 B 4 1 5 8 GU-3438-1 AUDIO P.W.B. C 10 1 16 6 26 1 1 13 12 2 2 8 16 1 1 27 9 1 64 17 32 4 1 5 8 49 48 4 1 5 8 D 4 1 5 8 4 1 5 8 4 1 5 8 E 3 33 1 4 1 5 8 5 8 1 4 GU-3438-2 VIDEO P.W.B. COMPONENT SIDE 55 DVD-3800 1 2 3 4 5 6 7 8 GU-3438 AUDIO/VIDEO P.W.B. UNIT Ass'y A B C D E FOIL SIDE 56 DVD-3800 1 3 2 4 5 6 7 8 GU-3439 POWER/DISPLAY P.W.B. UNIT Ass'y GU-3439-1 DIGI. POWER P.W.B. 4 A 1 1 2 GU-3439-6 I/F P.W.B. 1 21 20 1 2 2 1 20 3 21 14 2 1 2 1 B 1 C GU-3439-3 LED P.W.B. D GU-3439-5 P.SW P.W.B. E GU-3439-2 DISPLAY P.W.B. GU-3439-6 SW P.W.B. COMPONENT SIDE 57 DVD-3800 1 4 3 2 5 6 7 8 GU-3439 POWER/DISPLAY P.W.B. UNIT Ass'y A B 8 5 1 4 10 1 11 20 C D 41 40 60 21 61 20 80 1 E FOIL SIDE 58 DVD-3800 1 4 3 2 5 6 7 8 GU-3442 SCART P.W.B. UNIT Ass'y (Europe model only) 1 A 8 5 1 4 10 B 1 8 16 16 9 1 8 1 16 8 9 9 C 8 5 1 4 1 16 1 16 1 16 8 9 8 9 8 9 COMPONENT SIDE D FOIL SIDE E 59 DVD-3800 NOTE FOR PARTS LIST l Part indicated with the mark "" are not always in stock and possibly to take a long period of time for supplying, or in some case supplying of part may be refused. l When ordering of part, clearly indicate "1" and "I" (i) to avoid mis-supplying. l Ordering part without stating its part number can not be supplied. l Part indicated with the mark " " is not illustrated in the exploded view. l Not including Carbon Film ±5%, 1/4W Type in the P.W.Board parts list. (Refer to the Schematic Diagram for those parts.) WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacturer. l Resistors l Capacitors Ex.: Ex.: RN 14K 2E 182 G FR Type Shape Power Resist- Allowable Others and perance error formance t t RD : Carbon RC : Composition RS : Metal oxide film RW : Winding RN : Metal film RK : Metal mixture Resistance 1 8 2 ⇒ s s 2B 2E 2H 3A 3D 3F 3H t : 1/8W : 1/4W : 1/2W : 1W : 2W : 3W : 5W F G J K M : ±1% : ±2% : ±5% : ±10% : ±20% CE 04W 1H 2R2 M BP Type Shape Dielectric Capacity Allowable Others and per- strength error formance 1800 ohm = 1.8 kohm Indicates number of zeros after effective number. 2-digit effective number. t t t P : Pulse-resistant type NL : Low noise type NB : Non-burning type FR : Fuse-resistor F : Lead wire forming CE : Aluminum foil electrolytic CA : Aluminum solid electrolytic CS : Tantalum electrolytic CQ : Film CK : Ceramic CC : Ceramic CP : Oil CM : Mica CF : Metallized CH : Metallized • Units: ohm 1 s R 2 s • Units: ohm ⇒ 1.2 ohm 1-digit effective number. 2-digit effective number, decimal point indicated by R. t t 0J : 6.3V F : ±1% HS : High stability type 1A : 10V G : ±2% BP : Non-polar type 1C : 16V 1E : 25V 1V : 35V J : ±5% K : ±10% M : ±20% 1H 2A 2B 2C 2D 2E 2H 2J Z : +80% –20% P : +100% –0% C : ±0.25pF D : ±0.5pF = : Others HR : Ripple-resistant type DL : For change and discharge HF : For assuring high requency U : UL part C : CSA part W : UL-CSA type F : Lead wire forming : 50V : 100V : 125V : 160V : 200V : 250V : 500V : 630V Capacity (electrolyte only) 2 2 2 ⇒ 2200µF s s Indicates number of zeros after effective number. 2-digit effective number. • Units: µF. 2 R 2 s s ⇒ 2.2µF 1-digit effective number. 2-digit effective number, decimal point indicated by R. • Units: µF. Capacity (except electrolyte) 2 2 2 ⇒ 2200pF=0.0022µF s s (More than 2) Indicates number of zeros after effective number. 2-digit effective number. • Units: pF. 2 s 2 1 s ⇒ 220pF (0 or 1) Indicates number of zeros after effective number. 2-digit effective number. • Units: pF. • When the dielectric strength is indicated in AC, "AC" is included after the dieelectric strength value. 60 DVD-3800 PARTS LIST OF P.W.B. UNIT ASS'Y GU-3389A MAIN P.W.B. UNIT Ref. No. Part No. Part Name Remarks SEMICONDUCTORS GROUP IC101 IC102 ROM sub Ass’y Ref. No. Part No. Part Name TR503-505 269 0091 906 Transistor DTC143TKT96 MX29LV160BTC-90 TR506 274 0154 007 Transistor 2SD1902(R,S) IC103 262 3119 004 IC W986416DH-7 TR507 272 0110 003 Transistor 2SB1266(R,S) IC104,105 262 2801 902 IC SN74AHCT273PW-EL2 TR509 269 0171 907 Transistor IMD3A-T108 IC106 262 3053 908 IC S-24C02BFJ-TB IC107 262 2391 904 IC TC7W32F(TE12L) TR707 271 0293 901 Transistor 2SA1022-B IC108 262 1953 903 IC TC7WU04F TR708,709 272 0125 904 Transistor 2SB709A IC109 262 3052 909 IC SM8701BM IC110 262 1953 903 IC TC7WU04F IC111 262 2104 900 IC TC7W14F IC112 262 3046 902 IC TC7WH157FU IC113 262 3129 900 IC TC74VHC157AF-EL IC114 262 2801 902 IC SN74AHCT273PW-EL2 IC115,116 262 2104 900 IC TC7W14F IC201 262 3054 004 IC MN102H460B IC202 GEN 6093 ROM sub Ass’y IC203 262 1647 905 IC MN1382-S(TX) IC206 262 2376 903 IC TC74HCT7007AF(TP1) IC207 262 3121 005 IC ADSPMEL322 IC208 262 2515 900 IC SN74LV04APW-EL2 IC209 262 2376 903 IC TC74HCT7007AF(TP1) IC210 GEN 6074 Bass M.ROM sub Ass’y IC301 263 1110 901 IC PQ070XZ01ZP IC302 263 1079 903 IC BA033FP IC303,304 263 1110 901 IC PQ070XZ01ZP IC501 262 2802 008 IC TA1293F IC502 263 0425 901 IC NJM4558M (TAPE) IC503 263 1109 909 IC AN8471SA IC504 263 1080 905 IC BA5952AFP IC505 262 2803 007 IC TC9453F IC506 262 2892 908 IC 74VHC4066MTC IC507 262 2877 907 IC 4M DRAM(SOJ)-35 IC508 262 2798 002 IC TC9469BF IC509 262 2877 907 IC 4M DRAM(SOJ)-35 IC510 263 0615 902 IC BA15218F-DXE2 IC511 GEN 6100 DRV ROM sub Ass’y IC512 263 1079 903 IC BA033FP IC701 262 3058 000 IC SII504CM208 IC702 262 2916 004 IC 64M SDRAM(TSOP) IC703 262 3059 902 IC PIC18LC242-I/SO TAPE IC706 262 3050 008 IC ADV7300 IC708 262 1348 903 IC TC74HC123AF(TP1) IC709 263 1110 901 IC PQ070XZ01ZP IC710 262 2977 904 IC BA18BC0FP-E2 IC711 262 3126 000 IC XC2S30-5VQ100C IC712 262 3127 009 IC XC17S30AV08C(SQZ) Remarks TR501,502 272 0156 902 Transistor 2SB1260-Q 262 3051 007 IC ES6038 GEN 6094 Note : The symbols in the column “Remarks” indicate the following destinations. E3 : U.S.A. & Canada model E2 : Europe model E1 : Asia model AT49LV1025-70JC AT49LV002-70TC TMP95FY64F D201 276 0717 903 Diode 1SS355 TE-17 D301-303 276 0717 903 Diode 1SS355 TE-17 D501,502 276 0717 903 Diode 1SS355 TE-17 D701 276 0717 903 Diode 1SS355 TE-17 RESISTORS GROUP R101 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R102-105 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT R106 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R107,108 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT R109 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R111 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R113 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R116-118 247 2009 941 Carbon chip 6.8 kohm 1/16W RM73B--682JT R119 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R120-125 247 2009 941 Carbon chip 6.8 kohm 1/16W RM73B--682JT R126 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R127-130 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R131 247 2014 965 Carbon chip 1 Mohm 1/16W RM73B--105JT R132 247 2006 944 Carbon chip 390 ohm 1/16W RM73B--391JT R133 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R135-137 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R143 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R144 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R145,146 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT R147,148 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R150,151 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT R152-155 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R157 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT R158 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R159 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R160 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R163 247 2014 965 Carbon chip 1 Mohm 1/16W R164 247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT RM73B--105JT R166,167 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R169-174 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R177-179 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R180-185 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R186,187 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R189-191 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT 61 DVD-3800 Ref. No. Part No. Part Name Remarks Ref. No. Part No. Part Name 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R535 R202 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT R536 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT R203 247 2008 984 Carbon chip 3.9 kohm 1/16W RM73B--392JT R537-540 247 2018 916 Carbon chip 1 ohm 1/16W R205 247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT R541,542 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R207 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R543-545 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R209 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R546 247 2014 965 Carbon chip 1 Mohm 1/16W RM73B--105JT R211 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R547 247 2006 902 Carbon chip 330 ohm 1/16W RM73B--331JT (1608) R231 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R548 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R233,234 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R549 247 2013 982 Carbon chip 470 kohm 1/16W RM73B--474JT R235 247 2018 903 Carbon chip 0 ohm 1/16W R550 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R236 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R551,552 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R237 247 2014 965 Carbon chip 1 Mohm 1/16W R553-557 247 2018 903 Carbon chip 0 ohm 1/16W R238-242 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R558 247 2012 996 Carbon chip 200 kohm 1/16W RM73B--204JT R243 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R559 247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT R244,245 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R560 247 2009 941 Carbon chip 6.8 kohm 1/16W RM73B--682JT R247,248 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R561,562 247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT R250,251 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R563 247 2010 985 Carbon chip 27 kohm 1/16W RM73B--273JT R253 247 2018 903 Carbon chip 0 ohm 1/16W R564 247 2011 968 Carbon chip 56 kohm 1/16W RM73B--563JT R254-264 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R565,566 247 2007 943 Carbon chip 1 kohm 1/16W R266 247 2007 969 Carbon chip 1.2 kohm 1/16W RM73B--122JT R568 247 2013 924 Carbon chip 270 kohm 1/16W RM73B--274JT R571 247 2012 970 Carbon chip 160 kohm 1/16W RM73B--164JT R301 247 2007 972 Carbon chip 1.3 kohm 1/16W RM73B--132JT R573 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT R302 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R574 247 2018 903 Carbon chip 0 ohm 1/16W R303 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R575 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT R304 247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT R576 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R305-307 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R577 247 2010 998 Carbon chip 30 kohm 1/16W RM73B--303JT R308 247 2010 927 Carbon chip 15 kohm 1/16W RM73B--153JT R578 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT R309-313 247 2018 903 Carbon chip 0 ohm 1/16W R579-585 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R586 247 2008 968 Carbon chip 3.3 kohm 1/16W RM73B--332JT R501 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R587 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R502 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT R589-594 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R503 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R596 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R504 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--0R0KT RM73B--105JT RM73B--0R0KT RM73B--0R0KT 247 2018 916 Carbon chip 1 ohm 1/16W Remarks R201 RM73B--010KT RM73B--010KT RM73B--0R0KT RM73B--102JT RM73B--0R0KT RM73B--102JT R505,506 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R604 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R507 247 2012 925 Carbon chip 100 kohm 1/16W RM73B--104JT R613-617 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R508 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT R618 247 2007 943 Carbon chip 1 kohm 1/16W R510 247 2012 925 Carbon chip 100 kohm 1/16W RM73B--104JT R619,620 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R511,512 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT R625,626 247 2012 941 Carbon chip 120 kohm 1/16W RM73B--124JT R513,514 247 2005 958 Carbon chip 160 ohm 1/16W RM73B--161JT R627 247 2009 954 Carbon chip 7.5 kohm 1/16W RM73B--752JT R515,516 247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT R628 247 2010 927 Carbon chip 15 kohm 1/16W RM73B--153JT R517 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R629 247 2011 997 Carbon chip 75 kohm 1/16W RM73B--753JT R518,519 247 2005 958 Carbon chip 160 ohm 1/16W RM73B--161JT R630 247 2010 914 Carbon chip 13 kohm 1/16W RM73B--133JT R520,521 247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT R631 244 2050 904 Metal oxide 22 ohm 1W(NB) R522 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R632 244 2052 960 Metal oxide 220 ohm 1W(NB) RS14B3A221JNBST(S) R523 247 2004 988 Carbon chip 82 ohm 1/16W RM73B--820JT R633 244 2051 945 Metal oxide 1 ohm 1W(NB) R524 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT R634 244 2052 960 Metal oxide 220 ohm 1W(NB) RS14B3A221JNBST(S) R525 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R637 247 2007 943 Carbon chip 1 kohm 1/16W R526,527 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT R638 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R528-530 247 2018 916 Carbon chip 1 ohm 1/16W RM73B--010KT R640 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R531 247 2010 972 Carbon chip 24 kohm 1/16W RM73B--243JT R648 247 2011 900 Carbon chip 33 kohm 1/16W RM73B--333JT R532,533 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R649 247 2005 961 Carbon chip 180 ohm 1/16W RM73B--181JT R534 247 2018 903 Carbon chip 0 ohm 1/16W R650 247 2010 969 Carbon chip 22 kohm 1/16W RM73B--223JT RM73B--0R0KT RM73B--102JT RS14B3A220JNBST(S) RS14B3A010JNBST(S) RM73B--102JT 62 DVD-3800 Ref. No. Part No. Part Name Remarks Ref. No. Part No. Part Name Remarks R651-653 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R796 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R656-664 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R798 247 2018 903 Carbon chip 0 ohm 1/16W R668 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R799 247 2007 985 Carbon chip 1.5 kohm 1/16W RM73B--152JT R671-674 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R675 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R800-802 247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT R679 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R815,816 247 2003 989 Carbon chip 33 ohm 1/16W R680 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R821,822 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R681-685 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R823 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R686 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R827 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R828 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT RM73B--330JT R702-704 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R832-834 RM73B--0R0KT R705 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R838 247 2007 985 Carbon chip 1.5 kohm 1/16W RM73B--152JT R709 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R839-841 247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT R710 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R844 247 2007 943 Carbon chip 1 kohm 1/16W R712 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R845 247 2007 901 Carbon chip 680 ohm 1/16W RM73B--681JT R713 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R846 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R714,715 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R847-850 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT RM73B--102JT R716 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R851 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT R722-724 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R860-862 247 2018 903 Carbon chip 0 ohm 1/16W R733 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R863 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R734 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R880,881 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R735 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R736,737 247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT RA101-103 247 9002 909 Chip network 33 ohm 1/16W R738-741 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT RA104 R743,744 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT RA105,106 247 9002 909 Chip network 33 ohm 1/16W R745 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R746,747 247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT R748 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R749 247 2003 989 Carbon chip 33 ohm 1/16W R750 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R751,752 247 2018 903 Carbon chip 0 ohm 1/16W R753 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R754,755 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT MNR14=330JE0AB 247 9002 912 Chip network 6.8 kohm 1/16W MNR14=682JEOAB MNR14=330JE0AB RA107-109 247 9002 912 Chip network 6.8 kohm 1/16W MNR14=682JEOAB RA597-600 247 9002 909 Chip network 33 ohm 1/16W MNR14=330JE0AB RM73B--330JT RA621-624 247 9002 912 Chip network 6.8 kohm 1/16W MNR14=682JEOAB RM73B--0R0KT RA642,643 247 9002 912 Chip network 6.8 kohm 1/16W MNR14=682JEOAB RM73B--0R0KT R757 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT RA701-704 247 9002 909 Chip network 33 ohm 1/16W MNR14=330JE0AB R759-762 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT RA710-715 247 9002 909 Chip network 33 ohm 1/16W MNR14=330JE0AB R766-768 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT VR708-710 211 6148 906 Semi fixed resistor 470 ohm V03PB471MT(RH03ADCS) R769 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R770 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R771 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R774 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R777,778 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R783 247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT R784 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R785 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R786 247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT R787 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R788 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R789 247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT R790 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R791 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R794 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R795 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT CAPACITORS GROUP C101 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C102 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C103 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C104 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C105,106 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C108-110 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C111 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C112-122 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C123 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C124 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C125 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C126-131 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C132 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT 63 DVD-3800 Ref. No. C133 Part No. Part Name 254 4464 906 Electrolytic 100uF/6.3V Remarks Ref. No. Part No. Part Name Remarks CE67C0J101MT C241,242 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT CE67C1C220MT C134 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C243 254 4465 905 Electrolytic 22uF/16V C135-141 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C244 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C142 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C245-253 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C143 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C254 254 4465 905 Electrolytic 22uF/16V CE67C1C220MT C144 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C255,256 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C145 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C257 257 0504 924 Ceramic chip 27pF/50V CC73CH1H270JT C146 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C258 257 0504 940 Ceramic chip 33pF/50V CC73CH1H330JT C147 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C259-261 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C148 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C149 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C301 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT CK73F1E104ZT C150,151 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C302,303 257 0512 903 Ceramic chip 0.1uF/25V C152 257 0502 997 Ceramic chip 7pF/50V CC73CH1H7R0DT C304 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C153 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C305,306 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C154 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C307 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C155 257 0502 997 Ceramic chip 7pF/50V CC73CH1H7R0DT C326-329 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C156 254 4465 918 Electrolytic 47uF/16V CE67C1C470MT C159 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C501 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C160,161 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C503 254 4465 905 Electrolytic 22uF/16V CE67C1C220MT C162 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C504-506 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C163 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C507,508 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C164 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C509 257 0503 925 Ceramic chip 10pF/50V CC73CH1H100DT C165 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C510 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C166,167 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C511 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C168 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C512 257 2010 937 Electrolytic 22uF/10V CS77B1A220MT C169 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C513,514 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C170 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C515-517 257 0507 976 Ceramic chip 330pF/50V CC73CH1H331JT C171 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C519 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C172 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C522 257 0503 925 Ceramic chip 10pF/50V CC73CH1H100DT C173 257 0503 967 Ceramic chip 15pF/50V CC73CH1H150JT C523 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C174 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C524 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C175 257 0503 941 Ceramic chip 12pF/50V CC73CH1H120JT C526 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C176 254 4465 918 Electrolytic 47uF/16V CE67C1C470MT C527 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C177 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C528,529 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C178,179 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C530,531 257 0510 934 Ceramic chip 4700pF/50V CK73B1H472KT C180 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C532 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C181 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C533 254 4465 905 Electrolytic 22uF/16V CE67C1C220MT C534 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT CE67C1C220MT C201 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C535 254 4465 905 Electrolytic 22uF/16V C202-207 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C536,537 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C208 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C538 254 4465 905 Electrolytic 22uF/16V CE67C1C220MT C209 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C539,540 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C210 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C544,545 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C211 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C546 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C212 257 0503 967 Ceramic chip 15pF/50V CC73CH1H150JT C547 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C213 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C548 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C214 257 0503 967 Ceramic chip 15pF/50V CC73CH1H150JT C549 257 4010 906 Electrolytic 100uF/16V CE67C1C101MT C215 254 4465 918 Electrolytic 47uF/16V CE67C1C470MT C550 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C216 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C552 257 0516 909 Ceramic chip 0.022uF/25V CK73B1E223KT C229,230 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C553 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C231-233 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C554 257 0506 977 Ceramic chip 120pF/50V CC73CH1H121JT C234,235 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C555,556 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT 64 DVD-3800 Remarks Ref. No. C557 257 0506 977 Ceramic chip 120pF/50V CC73CH1H121JT C722-730 C560 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C731 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C562 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C732-735 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C563 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C736 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C564 257 0501 927 Ceramic chip 0.015uF/50V CK73B1H153KT C737,738 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C565-569 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C741,742 257 0502 942 Ceramic chip 2pF/50V CC73CH1H2R0CT C570 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C743 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C571-573 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C744 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C574 254 4465 905 Electrolytic 22uF/16V CE67C1C220MT C745-748 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C575-577 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C750 254 4465 905 Electrolytic 22uF/16V CE67C1C220MT C578 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C751,752 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C579 257 0510 918 Ceramic chip 3300pF/50V CK73B1H332KT C756-758 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C580 257 0501 927 Ceramic chip 0.015uF/50V CK73B1H153KT C759 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C582-589 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C760 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT Ref. No. Part No. Part Name Part No. Part Name 257 0512 903 Ceramic chip 0.1uF/25V Remarks CK73F1E104ZT C590,591 257 0507 976 Ceramic chip 330pF/50V CC73CH1H331JT C761 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C592 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C762,763 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C593 257 0510 950 Ceramic chip 6800pF/50V CK73B1H682KT C766,767 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C594 257 0509 945 Ceramic chip 1200pF/50V CK73B1H122KT C768-770 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT CC73CH1H221JT C595 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C772 257 0507 934 Ceramic chip 220pF/50V C596 257 0506 951 Ceramic chip 100pF/50V CC73CH1H101JT C773 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C597 257 0509 990 Ceramic chip 2200pF/50V CK73B1H222KT C774,775 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT CK73B1H392KT C598 257 0509 945 Ceramic chip 1200pF/50V CK73B1H122KT C776 257 0510 921 Ceramic chip 3900pF/50V C599-601 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C777 257 0509 903 Ceramic chip 820pF/50V CK73B1H821KT C778 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT CE67C0J101MT C602 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C779 254 4464 906 Electrolytic 100uF/6.3V C603-606 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C782 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C609-618 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C783,784 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C619 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C785 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C620-623 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C786 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C626-628 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C797 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C629 254 4465 905 Electrolytic 22uF/16V CE67C1C220MT C630-633 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C634 257 4010 906 Electrolytic 100uF/16V CE67C1C101MT C635,636 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C637 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C639 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C640 257 2010 937 Electrolytic 22uF/10V CS77B1A220MT C641 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C650 257 0506 951 Ceramic chip 100pF/50V CC73CH1H101JT C660-662 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C664 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C701 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C702 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C703 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C704-710 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C711 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT C712,713 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C714 254 4533 921 Electrolytic 100uF/6.3V CE04W0J101MT SMG/RE3 C715 254 4465 905 Electrolytic 22uF/16V CE67C1C220MT C716-720 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C721 254 4464 906 Electrolytic 100uF/6.3V CE67C0J101MT 65 DVD-3800 GU-3438 AUDIO/VIDEO P.W.B. UNIT Ref. No. Part No. Part Name Remarks Q'ty OTHER PARTS GROUP Ref. No. Part No. Part Name CX031 205 0863 936 3P PH connector base (L) 1 IC201 262 2978 000 IC DXP7001AF CX051 205 0863 952 5P PH connector base (L) 1 IC204 263 0809 006 IC NJM7805FA(S) CX061 205 1072 946 6P PH connector base 1 IC205 263 1136 901 IC BA033LBSG-TR CX131 205 1170 932 13P FFC base (FMNBMTT) 1 IC206 262 3072 905 IC PCM1738-1 CX141 205 1172 943 14P PH connector base (L) 1 IC207 263 0809 006 IC NJM7805FA(S) CX151 205 1149 905 15P FFC base (52207) 1 IC208 263 1136 901 IC BA033LBSG-TR CX171 205 1174 909 17P FFC base (FMNSMT) 1 IC209 262 3072 905 IC PCM1738-1 CX211,212 205 1174 938 21P FFC base (FMNSMT) 2 IC210 263 0809 006 IC NJM7805FA(S) CX241 205 1152 905 24P FFC base (FLZ-SM1) 1 IC211 263 1136 901 IC BA033LBSG-TR CX272 205 1170 929 27P FFC base (FMNBMTT) 1 IC212 262 3072 905 IC PCM1738-1 IC213 262 2515 900 IC SN74LV04APW-EL2 CY301 205 1174 941 30P FFC base (FMNSMT) 1 IC214 262 2669 908 IC SN74LV157APW IC215 262 2518 907 IC SN74LV74APW-EL2 FB201-210 235 0130 903 Chip emifil (11A121) 10 IC216 262 1205 907 IC TC74HCU04AF(TP1) FB211-216 247 2018 903 Carbon chip 0 ohm 1/16W 6 IC219 262 1421 901 IC TC74HCT04AF(TAPE1) FB217-219 235 0130 903 Chip emifil (11A121) 3 FB225 235 0130 903 Chip emifil (11A121) 1 IC301-308 263 0896 909 IC NJM2068MD-T1 FB229 235 0130 903 Chip emifil (11A121) 1 FB233,234 235 0130 903 Chip emifil (11A121) 2 IC401-406 263 0896 909 IC NJM2068MD-T1 FB236-255 235 0130 903 Chip emifil (11A121) 20 IC407,408 263 0609 002 IC NJM2068DDC IC506 262 1421 901 IC TC74HCT04AF(TAPE1) FBMJ1608HS280NT 1 FB505,506 235 0138 905 Beads inductor FBMH3216MH501NT 2 FB507-509 235 0136 907 Beads inductor FBMJ1608HS280NT FB501 235 0136 907 Beads inductor FB502-504 235 0130 903 Chip emifil (11A121) 3 3 IC601 262 3093 007 IC ADV7190 FB703,704 247 2018 903 Carbon chip 0 ohm 1/16W 2 IC602 262 1348 903 IC TC74HC123AF(TP1) FB705-708 235 0130 903 Chip emifil (11A121) 4 IC701-707 263 1082 903 IC TK15420MTL FB716-720 235 0130 903 Chip emifil (11A121) 5 FB721 1 247 2018 903 Carbon chip 0 ohm 1/16W Remarks SEMICONDUCTORS GROUP FB722,723 235 0130 903 Chip emifil (11A121) 2 IC801,802 262 0707 901 IC TC4053BF (TAPE) for E2 FB724,725 247 2018 903 Carbon chip 0 ohm 1/16W 2 IC803,804 263 1082 903 IC TK15420MTL for E2 FB726-733 235 0130 903 Chip emifil (11A121) 8 IC951 263 0809 006 IC NJM7805FA(S) L302 235 0048 901 Chip emifil 1 IC952 263 0554 005 IC NJM7905FA L704,705 235 0125 905 Inductor 22uH 2 IC953 263 0801 004 IC NJM7812FA(S) L710,711 235 0125 905 Inductor 22uH 2 IC954 263 0641 002 IC NJM7912FA W702 203 0515 039 1P SIN connector cord 1 TR217 273 0384 900 Transistor 2SC2412KT96(S) TR218 269 0083 901 Transistor DTA114EKT96 X101 399 0619 906 Crystal 27 MHz 1 TR219 269 0119 901 Transistor DTA124EKT96(TAPE) X103 399 0807 909 Crystal 33.333 MHz 1 TR220 269 0082 902 Transistor DTC114EKT96 X201 399 0698 901 Ceramic 25.00 MHz 1 TR226,227 269 0082 902 Transistor DTC114EKT96 X202 399 0806 900 Crystal 12.288 MHz 1 X501 399 0697 902 Ceramic 22.57 MHz 1 X502 399 0699 900 Ceramic 50.00 MHz 1 X503 399 0698 901 Ceramic 25.00 MHz 1 TR401-410 273 0460 905 Transistor KTC2875B-RTK X701 399 0706 903 Ceramic 20.00 MHz 1 TR411 269 0119 901 Transistor DTA124EKT96(TAPE) TR412 269 0082 902 Transistor DTC114EKT96 TR305-308 273 0460 905 Transistor KTC2875B-RTK 001 0130 041 1P wire 3 TR413-420 273 0460 905 Transistor KTC2875B-RTK 461 0415 007 Rubber sheet 3 TR421-424 273 0460 905 Transistor KTC2875B-RTK TR425 269 0119 901 Transistor DTA124EKT96(TAPE) TR426 269 0082 902 Transistor DTC114EKT96 for E2 66 DVD-3800 Ref. No. Part No. Part Name Remarks Ref. No. Part No. Part Name Remarks TR601 274 0163 904 Transistor 2SD601A R254 TR602 272 0125 904 Transistor 2SB709A R255 247 2010 930 Carbon chip 16 kohm 1/16W RM73B--163JT TR603 274 0163 904 Transistor 2SD601A R261 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT TR604 272 0125 904 Transistor 2SB709A R263 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT TR605 271 0293 901 Transistor 2SA1022-B R264 247 2010 930 Carbon chip 16 kohm 1/16W RM73B--163JT TR606 272 0125 904 Transistor 2SB709A R270 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT TR607 271 0293 901 Transistor 2SA1022-B R272 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT TR608,609 272 0125 904 Transistor 2SB709A R273 247 2010 930 Carbon chip 16 kohm 1/16W RM73B--163JT TR633 R276 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R278 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT TR701-705 272 0125 904 Transistor 2SB709A R279 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT TR706 273 0460 905 Transistor KTC2875B-RTK 271 0293 901 Transistor 2SA1022-B R281 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT TR707,708 272 0125 904 Transistor 2SB709A R285-287 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT TR709,710 274 0163 904 Transistor 2SD601A R288,289 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT TR715-717 274 0163 904 Transistor 2SD601A R290 244 2051 974 Metal oxide 1 kohm 1W(NB) R292 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT TR801,802 269 0048 904 Transistor DTC143EK-T96 TR807,808 274 0163 904 Transistor 2SD601A D202,203 276 0717 903 Diode 1SS355 TE-17 D206,207 276 0717 903 Diode 1SS355 TE-17 D601-604 276 0717 903 Diode 1SS355 TE-17 for E2 RS14B3A102JNBST(S) R293,294 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT R295 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R297 247 2004 991 Carbon chip 91 ohm 1/16W RM73B--910JT R298-300 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT R301 247 2007 930 Carbon chip 910 ohm 1/16W RM73B--911JT R302 247 2006 999 Carbon chip 620 ohm 1/16W RM73B--621JT R303 247 2007 930 Carbon chip 910 ohm 1/16W RM73B--911JT R304-316 247 2006 999 Carbon chip 620 ohm 1/16W RM73B--621JT D801,802 276 0717 903 Diode 1SS355 TE-17 R317-320 247 2008 913 Carbon chip 2 kohm 1/16W D952 276 0305 001 Diode S4VB20 R321-336 247 2006 999 Carbon chip 620 ohm 1/16W RM73B--621JT D953-956 276 0765 900 Diode 1SR139-400 R337,338 247 2008 913 Carbon chip 2 kohm 1/16W RM73B--202JT R342 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT R345,346 247 2008 913 Carbon chip 2 kohm 1/16W RM73B--202JT R349-352 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT R439,440 241 2420 946 Carbon film 150 ohm 1/4W R441,442 247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT R443,444 241 2420 946 Carbon film 150 ohm 1/4W R445,446 247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT R453,454 241 2420 946 Carbon film 150 ohm 1/4W R455,456 247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT R457,458 241 2420 946 Carbon film 150 ohm 1/4W R459,460 247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT R461 244 2051 932 Metal oxide 3.3 kohm 1W(NB) RS14B3A332JNBST(S) R462 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R465,466 247 2010 998 Carbon chip 30 kohm 1/16W RM73B--303JT RESISTORS GROUP R202 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R203-207 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT R208-211 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R215 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT R219 247 2013 940 Carbon chip 330 kohm 1/16W RM73B--334JT R221 247 2004 933 Carbon chip 51 ohm 1/16W RM73B--510JT R222 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R223 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R224 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R226 247 2006 902 Carbon chip 330 ohm 1/16W RM73B--331JT (1608) R227,228 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R230-234 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R235 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R238 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R239,240 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT R241 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R242 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT R243 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R244 247 2004 920 Carbon chip 47 ohm 1/16W RM73B--470JT R245,246 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R248 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R252 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT RM73B--202JT RD14B2E151JT(PSNB) RD14B2E151JT(PSNB) RD14B2E151JT(PSNB) RD14B2E151JT(PSNB) R467,468 247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT R469,470 247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT R471,472 247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT R473,474 247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT R475,476 247 2010 998 Carbon chip 30 kohm 1/16W RM73B--303JT R477,478 247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT R479,480 247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT R481,482 247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT R483,484 247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT 67 DVD-3800 Ref. No. R487,488 Part No. Part Name Remarks Ref. No. Part No. Part Name Remarks 247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT, for E2 R713 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R491,492 247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT, for E2 R716,717 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT R493 244 2051 932 Metal oxide 3.3 kohm 1W(NB) RS14B3A332JNBST(S) R718,719 247 2007 927 Carbon chip 820 ohm 1/16W RM73B--821JT R494 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R720 247 2005 974 Carbon chip 200 ohm 1/16W RM73B--201JT R495-500 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R723 247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT R517 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT R724 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R518 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT R725 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT R519 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R726 247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT R520 247 2004 975 Carbon chip 75 ohm 1/16W RM73B--750JT R727 247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT R522 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R728 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R729 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT R601,602 247 2018 903 Carbon chip 0 ohm 1/16W R730,731 247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT R603,604 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R732 247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT R606,607 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R733 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R608,609 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--330JT R734 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT 247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT RM73B--0R0KT R610,611 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R735 R612-615 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R736 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R621 247 2007 969 Carbon chip 1.2 kohm 1/16W RM73B--122JT R737 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT R623 247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT R738 247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT R624 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R739 247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT R627,628 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R740 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R630 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R741 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT R632 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R742 247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT R633,634 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R743 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R635-637 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R746 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R638,639 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R747,748 247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT R640-642 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R749 247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT R643 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R750 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R644 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R751,752 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R645 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R753 247 2005 974 Carbon chip 200 ohm 1/16W RM73B--201JT R646 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R755 247 2014 965 Carbon chip 1 Mohm 1/16W R647 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R756 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R648 247 2008 913 Carbon chip 2 kohm 1/16W RM73B--202JT R757,758 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT R649 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R760 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R650 247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT R761 247 2014 965 Carbon chip 1 Mohm 1/16W R651-655 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT R762,763 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT R659,660 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT R764 247 2004 962 Carbon chip 68 ohm 1/16W R661-665 247 2003 989 Carbon chip 33 ohm 1/16W RM73B--103JT R765,766 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT R666-670 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R782 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R785,786 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT RM73B--105JT RM73B--105JT RM73B--105JT RM73B--680JT R701 247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT R787,788 247 2014 965 Carbon chip 1 Mohm 1/16W R702 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R789 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R703 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT R790 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT R704 247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT R791-793 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R705 247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT R794,795 247 2014 965 Carbon chip 1 Mohm 1/16W RM73B--105JT R706 247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT R796 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R707 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT R797 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT R708 247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT R798,799 247 2018 903 Carbon chip 0 ohm 1/16W R709 247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT RM73B--0R0KT R710 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT R803,804 247 2014 965 Carbon chip 1 Mohm 1/16W RM73B--105JT, for E2 R711 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT R806 247 2014 965 Carbon chip 1 Mohm 1/16W RM73B--105JT, for E2 R712 247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT R808 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT, for E2 68 DVD-3800 Ref. No. R811,812 Part No. Part Name Remarks Ref. No. Part No. Part Name Remarks 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT C248,249 254 4313 921 Electrolytic 22uF/50V CE04W1H220MT(ASF) R813,814 247 2014 965 Carbon chip 1 Mohm 1/16W RM73B--105JT C250 257 3006 924 Metalized chip 0.01uF/16V CF73=1C103JT(ECHUB5) R815 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT C251 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) R816-819 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT C253,254 254 4313 798 Electrolytic 220uF/50V CE04W1H221MC(ASF) R820-825 247 2004 975 Carbon chip 75 ohm 1/16W RM73B--750JT C256 254 4313 934 Electrolytic 47uF/50V CE04W1H470MT(ASF) R826-839 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT C257 254 4313 921 Electrolytic 22uF/50V CE04W1H220MT(ASF) R840-842 247 2004 975 Carbon chip 75 ohm 1/16W RM73B--750JT C258 257 3012 921 Metalized chip 0.01uF/50V CF73=1H103JT(ECHUB5) R843-849 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT C259,260 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) R867 247 2014 965 Carbon chip 1 Mohm 1/16W RM73B--105JT, for E2 C261,262 254 4313 921 Electrolytic 22uF/50V CE04W1H220MT(ASF) R868,869 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT, for E2 C263 257 3006 924 Metalized chip 0.01uF/16V CF73=1C103JT(ECHUB5) R870 247 2018 903 Carbon chip 0 ohm 1/16W C264 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) R871-874 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT, for E2 C266,267 254 4313 798 Electrolytic 220uF/50V CE04W1H221MC(ASF) R876,877 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT, for E2 C269 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT R878,879 247 2007 969 Carbon chip 1.2 kohm 1/16W RM73B--122JT C270 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT R881,882 247 2005 974 Carbon chip 200 ohm 1/16W RM73B--201JT, for E2 C271 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C272 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT R951 244 2051 974 Metal oxide 1 kohm 1W(NB) RS14B3A102JNBST(S) C273 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT R952 244 2043 940 Metal oxide 2.2 kohm 1W(NB) RS14B3A222JNBST(S) C274 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C275 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C276 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C277,278 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT V03PB102MT(RH03ADC) C279,280 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) V03PB471MT(RH03ADCS) C281 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C282 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C283 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C293 254 4319 750 Electrolytic 470uF/25V CE04W1E471MC(ASF) C301 255 4232 940 Mylar film 1800pF/100V CQ93P2A182JT(NH) C302 255 4237 903 Mylar film 2700pF/100V CQ93P2A272JT(NH) C303 255 4232 940 Mylar film 1800pF/100V CQ93P2A182JT(NH) C304 255 4237 903 Mylar film 2700pF/100V CQ93P2A272JT(NH) C305,306 255 4232 953 Mylar film 4700pF/100V CQ93P2A472JT(NH) RA601-604 247 9002 909 Chip network 33 ohm 1/16W VR601 211 6138 903 Semi fixed resistor 1 kohm VR602-604 211 6148 906 Semi fixed resistor 470 ohm RM73B--0R0KT, for E2 MNR14=330JE0AB CAPACITORS GROUP C200 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C201,202 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C203 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C204 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C205 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C206,207 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C208 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C209 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C210 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C211 253 4536 925 Ceramic 12pF/50V CC45SL1H120JT(DD-3) C212-214 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C215 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C216-218 254 4313 950 Electrolytic 100uF/50V CE04W1H101MT(ASF) C219,220 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C221,222 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C230 254 4313 934 Electrolytic 47uF/50V CE04W1H470MT(ASF) C231 254 4313 921 Electrolytic 22uF/50V CE04W1H220MT(ASF) C232 257 3012 921 Metalized chip 0.01uF/50V CF73=1H103JT(ECHUB5) C233,234 255 4235 934 Mylar film 0.01uF/100V CQ93P2A103JT(NH) C235,236 254 4313 921 Electrolytic 22uF/50V CE04W1H220MT(ASF) C237 255 4235 934 Mylar film 0.01uF/100V CQ93P2A103JT(NH) C238 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C240,241 254 4313 798 Electrolytic 220uF/50V CE04W1H221MC(ASF) C243 254 4313 934 Electrolytic 47uF/50V CE04W1H470MT(ASF) C244 254 4313 921 Electrolytic 22uF/50V CE04W1H220MT(ASF) C245 257 3012 921 Metalized chip 0.01uF/50V CF73=1H103JT(ECHUB5) C246,247 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C307-310 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C311-314 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C315-318 254 4313 950 Electrolytic 100uF/50V CE04W1H101MT(ASF) C319-322 255 4237 903 Mylar film 2700pF/100V CQ93P2A272JT(NH) C323,324 255 4232 953 Mylar film 4700pF/100V CQ93P2A472JT(NH) C325-328 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C329-332 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C333-336 254 4313 950 Electrolytic 100uF/50V CE04W1H101MT(ASF) C341-344 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C349-352 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C353-356 254 4598 908 Electrolytic 22uF/50V CE04W1H220MTBP(ASF) C357-360 257 0503 925 Ceramic chip 10pF/50V CC73CH1H100DT C407-410 255 4232 940 Mylar film 1800pF/100V CQ93P2A182JT(NH) C411-414 255 4235 918 Mylar film 100pF/100V CQ93P2A101JT(NH) C415-418 257 3011 948 Metalized chip 2200pF/50V CF73=1H222JT(ECHUB5) C419,420 255 4237 945 Mylar film 1200pF/100V CQ93P2A122JT(NH) C421,422 254 4598 908 Electrolytic 22uF/50V CE04W1H220MTBP(ASF) C423,424 257 0503 925 Ceramic chip 10pF/50V CC73CH1H100DT C425,426 254 4347 751 Electrolytic 2.2uF/50V CE04W1H2R2MC(ARSA) 69 DVD-3800 Ref. No. C427,428 Part No. Part Name 254 4356 713 Electrolytic 100uF/50V Remarks Ref. No. CE04W1H101MC(ARS) C711 Part No. Part Name 257 0512 903 Ceramic chip 0.1uF/25V Remarks CK73F1E104ZT C431,432 255 4235 934 Mylar film 0.01uF/100V CQ93P2A103JT(NH) C714 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C433,434 254 4347 751 Electrolytic 2.2uF/50V CE04W1H2R2MC(ARSA) C715 254 4533 934 Electrolytic 220uF/6.3V CE04W0J221MT SMG/RE3 C435,436 254 4356 713 Electrolytic 100uF/50V CE04W1H101MC(ARS) C717 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C437,438 255 4235 989 Mylar film 470pF/100V CQ93P2A471JT(NH) C720 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C439,440 254 4347 751 Electrolytic 2.2uF/50V CE04W1H2R2MC(ARSA) C723 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C441,442 254 4356 713 Electrolytic 100uF/50V CE04W1H101MC(ARS) C724 254 4533 934 Electrolytic 220uF/6.3V CE04W0J221MT SMG/RE3 CK73F1E104ZT C445,446 255 4235 934 Mylar film 0.01uF/100V CQ93P2A103JT(NH) C727 257 0512 903 Ceramic chip 0.1uF/25V C447,448 254 4347 751 Electrolytic 2.2uF/50V CE04W1H2R2MC(ARSA) C730 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C449,450 254 4356 713 Electrolytic 100uF/50V CE04W1H101MC(ARS) C731 254 4533 934 Electrolytic 220uF/6.3V CE04W0J221MT SMG/RE3 C451,452 255 4235 989 Mylar film 470pF/100V CQ93P2A471JT(NH) C732 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C467-470 254 4313 950 Electrolytic 100uF/50V CE04W1H101MT(ASF) C735 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C473,474 254 4313 950 Electrolytic 100uF/50V CE04W1H101MT(ASF) C738 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C475,476 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C739 254 4533 934 Electrolytic 220uF/6.3V CE04W0J221MT SMG/RE3 C477,478 254 4313 950 Electrolytic 100uF/50V CE04W1H101MT(ASF) C741 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C479-481 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C742 254 4538 939 Electrolytic 47uF/16V CE04W1C470MT SMG/RE3 C482 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C743 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C483,484 257 0508 933 Ceramic chip 560pF/50V CC73CH1H561JT, for E2 C744 254 4538 939 Electrolytic 47uF/16V CE04W1C470MT SMG/RE3 C485,486 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C745 254 4533 921 Electrolytic 100uF/6.3V CE04W0J101MT SMG/RE3 C747 257 0504 940 Ceramic chip 33pF/50V CC73CH1H330JT C524 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C748 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C525 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C749 254 4538 913 Electrolytic 22uF/16V CE04W1C220MT SMG/RE3 C526 254 4525 900 Electrolytic 33uF/50V CE04W1H330MT SMG/RE3 C750 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C527 254 4524 985 Electrolytic 10uF/50V CE04W1H100MT SMG/RE3 C751 254 4538 913 Electrolytic 22uF/16V CE04W1C220MT SMG/RE3 C528 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C752 254 4533 921 Electrolytic 100uF/6.3V CE04W0J101MT SMG/RE3 C533 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C753 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C534 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C754 254 4538 913 Electrolytic 22uF/16V CE04W1C220MT SMG/RE3 C535 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C755 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C536 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C756 254 4538 913 Electrolytic 22uF/16V CE04W1C220MT SMG/RE3 C537 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C757 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C538 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C758 254 4538 913 Electrolytic 22uF/16V CE04W1C220MT SMG/RE3 C759 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C601 254 4533 934 Electrolytic 220uF/6.3V CE04W0J221MT SMG/RE3 C760 254 4538 913 Electrolytic 22uF/16V CE04W1C220MT SMG/RE3 CK73B1H103KT (1608) C602 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C761,762 257 0501 901 Ceramic chip 0.01uF/50V C605-608 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C764 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C609 254 4533 934 Electrolytic 220uF/6.3V CE04W0J221MT SMG/RE3 C765 254 4538 939 Electrolytic 47uF/16V CE04W1C470MT SMG/RE3 C610-614 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C766 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C615 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C767 254 4538 939 Electrolytic 47uF/16V CE04W1C470MT SMG/RE3 C616-618 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C768 254 4533 921 Electrolytic 100uF/6.3V CE04W0J101MT SMG/RE3 C619-622 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C769 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C623,624 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C770 254 4538 913 Electrolytic 22uF/16V CE04W1C220MT SMG/RE3 C625-629 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C771,772 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C630 254 4533 934 Electrolytic 220uF/6.3V CE04W0J221MT SMG/RE3 C773 254 4538 913 Electrolytic 22uF/16V CE04W1C220MT SMG/RE3 C631 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C774 254 4538 900 Electrolytic 10uF/16V CE04W1C100MT SMG/RE3 C632 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C775 254 4538 913 Electrolytic 22uF/16V CE04W1C220MT SMG/RE3 C776 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT CK73F1E104ZT C777 254 4538 913 Electrolytic 22uF/16V CE04W1C220MT SMG/RE3 C701 257 0512 903 Ceramic chip 0.1uF/25V C704 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C778 254 4538 900 Electrolytic 10uF/16V CE04W1C100MT SMG/RE3 C705 254 4533 934 Electrolytic 220uF/6.3V CE04W0J221MT SMG/RE3 C781-786 257 0504 982 Ceramic chip 47pF/50V CC73CH1H470JT C706 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C791-793 257 0504 982 Ceramic chip 47pF/50V CC73CH1H470JT C709 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C710 254 4533 934 Electrolytic 220uF/6.3V CE04W0J221MT SMG/RE3 C802-805 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT, for E2 70 DVD-3800 Ref. No. Part No. Part Name Remarks Ref. No. Part No. Part Name Remarks Q'ty C807,808 254 4538 900 Electrolytic 10uF/16V CE04W1C100MT SMG/RE3 OTHER PARTS GROUP C809 254 4538 939 Electrolytic 47uF/16V for E2 AS909,910 417 0476 010 Radiator 2 C810 257 0512 903 Ceramic chip 0.1uF/25V for E2 CX032 205 0653 036 3P VH connector base 1 CK73F1E104ZT, for E2 CX036 205 0343 032 3P connector base (KR-PH) C811 254 4538 913 Electrolytic 22uF/16V 1 CE04W1C220MT SMG/RE3 CX062 205 0653 065 6P VH connector base 1 C812,813 257 0512 903 Ceramic chip 0.1uF/25V for E2 CX102 205 0375 000 10P connector base (KR-PH) for E2 1 CK73F1E104ZT, for E2 CX301 205 0892 075 30P FFC base (P=1) C814 254 4538 939 Electrolytic 47uF/16V CE04W1C470MT SMG/RE3 1 for E2 CY032 205 0653 036 3P VH connector base C815 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT, for E2 CY052 205 0343 058 5P connector base (KR-PH) C816 254 4538 913 Electrolytic 22uF/16V CE04W1C220MT SMG/RE3 CY131 205 0892 088 13P FFC base 1 for E2 CY272 205 1100 083 27P FFC base (P=1) 1 235 0130 903 Chip emifil (11A121) CE04W1C470MT SMG/RE3 1 for E2 1 C820 257 0503 925 Ceramic chip 10pF/50V C823 257 0503 925 Ceramic chip 10pF/50V CC73CH1H100DT CC73CH1H100DT FB201 C825 254 4533 950 Electrolytic 470uF/6.3V CE04W0J471MT SMG/RE3 FB202-207 247 2018 903 Carbon chip 0 ohm 1/16W 6 for E2 FB208,209 235 0130 903 Chip emifil (11A121) 2 FB406,407 235 0130 903 Chip emifil (11A121) 2 FB511,512 235 0130 903 Chip emifil (11A121) 2 1 1 C956 255 4235 934 Mylar film 0.01uF/100V CQ93P2A103JT(NH) C957 254 4599 703 Electrolytic 2200uF/16V CE04W1C222MC (KMF) C960 254 4599 703 Electrolytic 2200uF/16V CE04W1C222MC (KMF) JK401 204 8632 014 8P pin jack (AU) C961 255 4235 934 Mylar film 0.01uF/100V CQ93P2A103JT(NH) JK503 269 0187 001 Optical connector GP1FA551TZ 1 C963 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT JK505 204 8618 009 1P pin jack (AU) 1 C965 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT JK701 204 8631 002 2P pin jack (AU) 1 C966 254 4368 947 Electrolytic 220uF/25V CE04W1E221MT(ASF) JK702 204 8620 000 3P pin jack (AU) 1 C968 254 4368 947 Electrolytic 220uF/25V CE04W1E221MT(ASF) JK704 204 8633 000 2P S-terminal (AU) 1 C969,970 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C972,973 254 4543 704 Electrolytic 3300uF/50V CE04W1H332MC(ARS) L601,602 235 0070 911 Inductor 22uH 2 C976,977 254 4356 742 Electrolytic 470uF/50V CE04W1H471(ARS) L603 235 0125 905 Inductor 22uH 1 C980 255 4235 934 Mylar film 0.01uF/100V CQ93P2A103JT(NH) L604 235 0070 911 Inductor 22uH 1 C983 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT L701-706 235 0070 911 Inductor 22uH 6 C984 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) L707 235 0060 934 Inductor 47uH 1 C985 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C986 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT LF701-703 261 0159 909 Filter ELB4B584 3 C987 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT LF705 261 0159 909 Filter ELB4B584 1 C989,990 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT LF706 261 0160 901 Filter ELB4C572 1 C991 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT LF804 261 0160 901 Filter ELB4C572 1 C992 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C993 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C994 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT RL701,702 214 0211 906 Relay (EB2-5NU-L1) 2 T501 1 231 8063 009 Pulse trans. 001 0112 043 Vinyl wire 001 0130 041 1P wire 1 for E2 1 412 2160 015 Common plate 2 461 0415 007 Rubber sheet 17 471 3303 016 Screw 3x6 CBS-Z 2 71 DVD-3800 GU-3439 POWER/DISPLAY P.W.B. UNIT Ref. No. Part No. Part Name Remarks Ref. No. Part No. Part Name Remarks SEMICONDUCTORS GROUP RESISTORS GROUP IC101 262 3048 007 IC ML9207-01GP R101 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT IC103 499 0303 004 Remote sensor GP1UM271XK R102 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R103 247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT IC510 262 2580 906 IC CXA1511M R104 247 2005 961 Carbon chip 180 ohm 1/16W RM73B--181JT IC511 262 2114 903 IC UPD4721GS-GJG R105 247 2007 943 Carbon chip 1 kohm 1/16W R106 247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT IC901 265 0112 003 IC STR-F6674 R107 247 2005 961 Carbon chip 180 ohm 1/16W RM73B--181JT IC902 262 3047 008 IC PC123 Y-22 R108 247 2006 915 Carbon chip 270 ohm 1/16W RM73B--271JT IC903 263 1113 005 IC SE005N R109 247 2007 943 Carbon chip 1 kohm 1/16W IC904 263 1048 002 IC BA033T R110 247 2009 967 Carbon chip 8.2 kohm 1/16W RM73B--822JT IC905 263 1114 004 IC PQ1CG21H2FZ R116 247 2007 943 Carbon chip 1 kohm 1/16W R118 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT R120-122 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT R175 244 2051 929 Metal oxide 820 ohm 1W(NB) RM73B--102JT TR101 269 0171 907 Transistor IMD3A-T108 TR102,103 269 0082 902 Transistor DTC114EKT96 RM73B--102JT RM73B--102JT RM73B--102JT R176 244 2052 915 Metal oxide 1.8 kohm 1W(NB) RM73B--470JT R177 244 2055 996 Metal oxide 1.2 kohm 1W(NB) RS14B3A122JNBST(S) TR501 269 0171 907 Transistor IMD3A-T108 R178 247 2005 961 Carbon chip 180 ohm 1/16W RM73B--181JT TR902 269 0082 902 Transistor DTC114EKT96 R179 247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT TR903 272 0093 010 Transistor 2SB1274 (R/S) R180 247 2007 943 Carbon chip 1 kohm 1/16W TR904 273 0303 910 Transistor 2SC1740S(S)-T R181 247 2008 984 Carbon chip 3.9 kohm 1/16W RM73B--392JT RM73B--102JT TR905 269 0083 901 Transistor DTA114EKT96 TR906 269 0082 902 Transistor DTC114EKT96 R529 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT TR907 275 0106 906 Transistor HAT2053M(TAPE) R534 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT TR908,909 274 0036 905 Transistor 2SD468(C)TF R542 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT TR910,911 269 0083 901 Transistor DTA114EKT96 R544 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT TR912 274 0036 905 Transistor 2SD468(C)TF R545 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT D102-104 276 0717 903 Diode 1SS355 TE-17 R546 247 2012 996 Carbon chip 200 kohm 1/16W RM73B--204JT R547 244 2052 928 Metal oxide 47 ohm 1W(NB) RS14B3A470JNBST(S) R549-551 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT RM73B--102JT D901-904 276 0729 904 Diode EM01AT (V1) R552 247 2007 943 Carbon chip 1 kohm 1/16W D905 276 0730 906 Diode AG01ZT (V1) R553 247 2011 926 Carbon chip 39 kohm 1/16W RM73B--393JT D906 276 0724 909 Diode SARS01T (V1) R554 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT D907-909 276 0730 906 Diode AG01ZT (V1) R555-557 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT D910 276 0725 704 Diode RK39 LF-C4 R559 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT D911 276 0726 703 Diode RJ43 LF015-305 R561 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT D912 276 0745 904 Diode RB411DT146 R563 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT D913,914 276 0727 906 Diode AL01ZT (V1) R572-574 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT D916 276 0717 903 Diode 1SS355 TE-17 R578 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--102JT D917 276 0737 909 Diode RB161L-40 (TAPE) R580 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT, for E3 D922,923 276 0717 903 Diode 1SS355 TE-17 R581 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT, for E1 ZD901 276 0457 904 Zener diode HZS4C-1TD LD101 393 9623 908 LED SEL2810A(TP7) Amber LD102 393 9576 903 LED SELU1E10CXM-002 Blue LD103 393 9504 904 LED SEL1210S(TP7) Red TH901 279 0044 002 Thermistor NTH11D8R0LA R582,583 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT, for E2,E1 R584 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT, for E2,E1 R585 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT, for E3,E2 R586,587 247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT, for E3 R901 244 2675 716 Metal oxide 68 kohm 2W(NB) RS14B3D683JNBF (ERG) R902 244 2671 956 Metal oxide 0.47 ohm 2W(NB) RS14B3DR47JNBST(S) R905 244 2675 729 Metal oxide 220 kohm 2W(NB) RS14B3D224JNBF (ERG) R906 244 2675 703 Metal oxide 47 ohm 2W(NB) R913 244 2043 953 Metal oxide 470 ohm 1W(NB) RS14B3A471JNBST(S) R920 244 2051 974 Metal oxide 1 kohm 1W(NB) RS14B3D470JNBF (ERG) RS14B3A102JNBST(S) 72 DVD-3800 Ref. No. Part No. Part Name Remarks R932 244 2052 999 Metal oxide 10 kohm 1W(NB) RS14B3A103JNBST(S) R937 244 2064 929 Metal oxide 3.3 ohm 1W(NB) RS14B3A3R3JNBST(S) R991 247 2006 902 Carbon chip 330 ohm 1/16W RM73B--331JT (1608) R992 247 2018 916 Carbon chip 1 ohm 1/16W 257 0512 903 Ceramic chip 0.1uF/25V Part No. Part Name CK73F1E104ZT C106,107 257 0502 971 Ceramic chip 5pF/50V CC73CH1H5R0CT C108,109 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C110 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C111 254 4299 964 Electrolytic 47uF/16V CE04W1C470MT(SRE) C113 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C114 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C115 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C116,117 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C118 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C119 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C120 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C121 253 8022 707 Ceramic 0.01uF/250V(AC) CK45F2EAC103MC C122 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C501 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C502 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C503 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C504 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C505 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C507 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C508 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C509 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C510 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C511 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C566 257 0506 951 Ceramic chip 100pF/50V CC73CH1H101JT C567 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C568 254 4538 939 Electrolytic 47uF/16V CE04W1C470MT SMG/RE3 C569 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C570 254 4524 943 Electrolytic 1uF/50V CE04W1H010MT SMG/RE3 C571 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C573 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C574 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C575 257 0501 901 Ceramic chip 0.01uF/50V CK73B1H103KT (1608) C576-578 254 4524 901 Electrolytic 0.1uF/50V CE04W1H0R1MT SMG/RE3 C579 254 4533 921 Electrolytic 100uF/6.3V CE04W0J101MT SMG/RE3 C580 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C581,582 254 4524 901 Electrolytic 0.1uF/50V CE04W1H0R1MT SMG/RE3 C585,586 257 0506 951 Ceramic chip 100pF/50V CC73CH1H101JT C588 257 0506 951 Ceramic chip 100pF/50V CC73CH1H101JT C589,590 257 0511 917 Ceramic chip 0.022uF/50V CK73F1H223ZT C591 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C592-594 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C901 256 8038 017 Metalized 0.22uF/250V CF99--2EAC224M C902 256 8038 004 Metalized 0.1uF/250V CF99--2EAC104M Remarks C905 254 4589 700 Electrolytic 47uF/400V C905 254 4589 713 Electrolytic 100uF/400V CE04W2G470MC (KMG) C906 253 4546 711 Ceramic 220pF/2000V CC45SL3D221JC C907 253 4452 902 Ceramic 470pF/50V CC45SL1H471JT for E2,E1 RM73B--010KT CAPACITORS GROUP C101,102 Ref. No. CE04W2G101MC(KMG) for E3 C908 253 9030 963 Ceramic 0.01uF/25V CK45=1E103KT C909 254 4522 945 Electrolytic 47uF/35V CE04W1V470MT SMG/RE3 C910 253 8029 700 Ceramic 2200pF/250V(AC) CK45F2EAC222MC (KX) C911 253 8028 701 Ceramic 2200pF/1000V CK45R3A222KC C912 255 1249 923 Mylar film 680pF/50V CQ93M1H681JT (B) C913 254 4356 713 Electrolytic 100uF/50V CE04W1H101MC(ARS) C914 254 4592 700 Electrolytic 2200uF/6.3V CE04W0J222MC K20(LXV C915 254 4593 709 Electrolytic 1200uF/16V CE04W1C122MC K20(LXJ C916 254 4591 905 Electrolytic 100uF/50V CE04W1H101MT (KMF) C917 254 4593 709 Electrolytic 1200uF/16V CE04W1C122MC K20(LXJ C918 254 4591 905 Electrolytic 100uF/50V CE04W1H101MT (KMF) C919 256 1058 971 Metalized 0.1uF/50V CF93A1H104JT (JL) C920 254 4368 947 Electrolytic 220uF/25V CE04W1E221MT(ASF) C921 254 4524 985 Electrolytic 10uF/50V CE04W1H100MT SMG/RE3 C922 253 8022 707 Ceramic 0.01uF/250V(AC) CK45F2EAC103MC C923 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C924 254 4538 942 Electrolytic 100uF/16V CE04W1C101MT SMG/RE3 C925 254 4522 945 Electrolytic 47uF/35V CE04W1V470MT SMG/RE3 C926 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C927 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C928 254 4585 908 Electrolytic 470uF/6.3V CE04W0J471MT(LXV) C929 254 4533 921 Electrolytic 100uF/6.3V CE04W0J101MT SMG/RE3 C932,933 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C935 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C936 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C938 257 0512 903 Ceramic chip 0.1uF/25V RM73B—103JT C941 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C942 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C945,946 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C947 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C948 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C949 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C950 254 4313 950 Electrolytic 100uF/50V CE04W1H101MT(ASF) C964 254 4313 950 Electrolytic 100uF/50V CE04W1H101MT(ASF) 73 DVD-3800 Ref. No. Part No. OTHER PARTS GROUP Part Name Remarks Q’ty Ref. No. X101 Part No. Part Name 399 0151 008 Crystal 4.332 MHz Remarks Q’ty 1 AS902 417 0610 009 Heat sink 1 CW041 203 6589 001 4P PH-SAN connector cord 1 CX024 205 0581 001 2P VH connector base 1 417 0632 003 Heat sink 1 CX025 205 0581 056 2P VH connector base 1 461 1125 118 FL spacer 4 203 5299 004 3P PH connector cord for E2 1 415 0299 000 Condenser cover for C121 1 417 0631 004 Heat sink 1 CX026 205 1093 006 2P VH connector base 1 471 3305 027 Screw 3x10 CBS-B 1 CX035 205 0355 033 3P KR connector base (L) 1 473 7005 002 Screw 3x10 CBTS(S)-Z 1 CX041 205 0343 045 4P connector base (KR-PH) 1 CY025 205 0581 056 2P VH connector base 1 CY035 205 0355 033 3P KR connector base (L) 1 CY036 205 0343 032 3P connector base (KR-PH) 1 CY141 205 0375 042 14P connector base (KR-PH) 1 CY171 205 1006 080 17P FFC base (P=1) 1 CY211,212 205 1006 022 21P FFC base (P=1) 2 F951 206 1087 002 Fuse ET0.63A for E3 1 206 1015 058 Fuse 1.6A for E2,E1 1 FB503-507 235 0130 903 Chip emifil (11A121) 5 FB519 235 0130 903 Chip emifil (11A121) 1 FB523-530 235 0130 903 Chip emifil (11A121) 8 FB753-756 235 0130 903 Chip emifil (11A121) 4 FF901 202 0040 909 Fuse clip 1 FH901 202 0040 909 Fuse clip 1 FL101 393 8060 009 FLT (17-ST-04GNK) 1 JK507,508 204 8612 005 Mini jack 2 JK509 205 1153 001 9P S SUB connector 1 L901 235 0141 002 Line filter (PLA10A) 1 L902 235 0142 917 Inductor 4.7uH 1 L903 239 8019 002 Line filter coil 1 L904 235 0140 906 Inductor 100uH 1 L907 235 0142 917 Inductor 4.7uH 1 L909 235 0142 917 Inductor 4.7uH 1 RL901 214 0202 009 Relay DG1U TV-8 1 S101-106 212 5604 910 Tact switch 6 S107 212 0389 007 Rotary switch 1 S108,109 212 5604 910 Tact switch 2 S120 212 1030 009 Power switch (TV-5) 1 ST901-903 205 0452 017 Style pin 3 T901 1 233 6403 007 Switching trans. (WIDE) 74 DVD-3800 GU-3442 SCART P.W.B. UNIT Ref. No. Part No. Part Name Note: Addition for Europe model Remarks Ref. No. Part No. Part Name Remarks SEMICONDUCTORS GROUP R853 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT IC851-854 262 0707 901 IC TC4053BF (TAPE) R854,855 247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT IC855 262 1793 901 IC TC4W53F R856 247 2005 958 Carbon chip 160 ohm 1/16W RM73B--161JT IC856 262 2534 907 IC BA7660FS-E2 R857,858 247 2004 975 Carbon chip 75 ohm 1/16W IC857 263 1115 906 IC NJM2267M (T1) R859,860 247 2006 902 Carbon chip 330 ohm 1/16W RM73B--331JT (1608) IC858 262 0707 901 IC TC4053BF (TAPE) R861 247 2005 929 Carbon chip 120 ohm 1/16W RM73B--121JT R862 247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT TR851,852 269 0054 901 Transistor DTC144EKT96 R863 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT TR853 269 0085 909 Transistor DTC144TKT96 R864 247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT TR854,855 269 0054 901 Transistor DTC144EKT96 R865 247 2005 929 Carbon chip 120 ohm 1/16W RM73B--121JT TR856 269 0123 900 Transistor DTC124TKT146 R866 247 2005 945 Carbon chip 150 ohm 1/16W RM73B--102JT TR857 269 0119 901 Transistor DTA124EKT96(TAPE) R867 247 2011 900 Carbon chip 33 kohm 1/16W RM73B--470JT TR858 269 0123 900 Transistor DTC124TKT146 R868 247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT TR859 269 0119 901 Transistor DTA124EKT96(TAPE) R869 247 2011 900 Carbon chip 33 kohm 1/16W RM73B--333JT TR860 271 0260 905 Transistor 2SA1036KT146(S/R) R870 247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT TR861 273 0437 909 Transistor 2SC2411K-T146 RM73B--750JT R871 247 2011 900 Carbon chip 33 kohm 1/16W RM73B--333JT TR862-864 269 0054 901 Transistor DTC144EKT96 R872 247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT TR865 273 0437 909 Transistor 2SC2411K-T146 R873-875 247 2004 975 Carbon chip 75 ohm 1/16W TR866 271 0260 905 Transistor 2SA1036KT146(S/R) R876 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) TR867 269 0054 901 Transistor DTC144EKT96 R877,878 247 2018 903 Carbon chip 0 ohm 1/16W TR868 271 0260 905 Transistor 2SA1036KT146(S/R) R883 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) TR869 273 0437 909 Transistor 2SC2411K-T146 R884 247 2008 968 Carbon chip 3.3 kohm 1/16W RM73B--332JT 269 0054 901 Transistor DTC144EKT96 R885,886 247 2018 903 Carbon chip 0 ohm 1/16W TR871 271 0260 905 Transistor 2SA1036KT146(S/R) R887 247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT TR872 272 0125 904 Transistor 2SB709A R888-891 247 2008 968 Carbon chip 3.3 kohm 1/16W RM73B--332JT TR873 273 0437 909 Transistor 2SC2411K-T146 R892 247 2004 962 Carbon chip 68 ohm 1/16W RM73B--680JT TR874 272 0125 904 Transistor 2SB709A R893,894 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT D851 276 0679 902 Diode MA152A(TAPE) D852 276 0628 908 Diode MA152WK D853 276 0679 902 Diode MA152A(TAPE) ZD851 276 0683 969 Diode UDZS12B-TE17 ZD852 276 0683 972 Diode UDZS13B-TE17 TR870 RM73B--750JT RM73B--0R0KT RM73B--0R0KT R895,896 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) R897-899 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT CAPACITORS GROUP C801,802 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT C809 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C810 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C811 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C831 254 4299 964 Electrolytic 47uF/16V CE04W1C470MT(SRE) RM73B--0R0KT C832,833 254 4300 963 Electrolytic 100uF/6.3V CE04W0J101MT(SRE) RM73B--0R0KT C834,835 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT RM73B--102JT C836,837 257 0508 917 Ceramic chip 470pF/50V CC73CH1H471JT R832 247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT C838,839 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT R833 247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT C841-844 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT R834,835 247 2008 968 Carbon chip 3.3 kohm 1/16W RM73B--332JT C845,846 257 0508 917 Ceramic chip 470pF/50V CC73CH1H471JT R836 247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT C847,848 257 0506 951 Ceramic chip 100pF/50V CC73CH1H101JT R837 247 2008 900 Carbon chip 1.8 kohm 1/16W RM73B--182JT C851,852 257 0506 951 Ceramic chip 100pF/50V CC73CH1H101JT R838 247 2008 968 Carbon chip 3.3 kohm 1/16W RM73B--332JT C853 254 4299 964 Electrolytic 47uF/16V CE04W1C470MT(SRE) R839 247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT C854,855 254 4300 963 Electrolytic 100uF/6.3V CE04W0J101MT(SRE) R840 247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT C856-859 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT R841,842 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT C860,861 254 4300 963 Electrolytic 100uF/6.3V CE04W0J101MT(SRE) R843-847 247 2004 975 Carbon chip 75 ohm 1/16W C862 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT R848,849 247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608) C863 254 4300 963 Electrolytic 100uF/6.3V CE04W0J101MT(SRE) R850 247 2008 968 Carbon chip 3.3 kohm 1/16W RM73B--332JT C864,865 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT R851,852 247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT C866-868 254 4299 964 Electrolytic 47uF/16V CE04W1C470MT(SRE) RESISTORS GROUP R801-804 R807 R831 247 2018 903 Carbon chip 0 ohm 1/16W 247 2018 903 Carbon chip 0 ohm 1/16W 247 2007 943 Carbon chip 1 kohm 1/16W RM73B--750JT 75 DVD-3800 Ref. No. Part No. Part Name Remarks C869 254 4300 963 Electrolytic 100uF/6.3V CE04W0J101MT(SRE) C870 254 4299 919 Electrolytic 22uF/16V CE04W1C220MT(SRE) C871 254 4300 963 Electrolytic 100uF/6.3V CE04W0J101MT(SRE) C872 254 4299 919 Electrolytic 22uF/16V CE04W1C220MT(SRE) C873 254 4300 963 Electrolytic 100uF/6.3V CE04W0J101MT(SRE) C874 254 4299 919 Electrolytic 22uF/16V CE04W1C220MT(SRE) C875 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C876 254 4300 963 Electrolytic 100uF/6.3V CE04W0J101MT(SRE) C877,878 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C879 257 0511 904 Ceramic chip 0.01uF/50V CK73F1H103ZT C880 257 0509 929 Ceramic chip 1000pF/50V CK73B1H102KT C890,891 247 2018 903 Carbon chip 0 ohm 1/16W RM73B--0R0KT C896,897 257 0512 903 Ceramic chip 0.1uF/25V CK73F1E104ZT C898,899 254 4300 963 Electrolytic 100uF/6.3V CE04W0J101MT(SRE) OTHER PARTS GROUP Q'ty CX031 205 0355 033 3P KR connector base (L) 1 CX052 205 0355 059 5P KR connector base (L) 1 CY102 205 0480 005 10P KR connector base (L) 1 FB801-816 235 0130 903 Chip emifil (11A121) 16 FB851-862 235 0130 903 Chip emifil (11A121) 12 JK851,852 204 6649 009 RGB connector 2 L851 235 0070 911 Inductor 22uH 1 W801,802 414 0903 005 SCART shield plate 2 76 DVD-3800 EXPLODED VIEW 1 4 3 2 5 6 7 8 WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacturer. 103 5 55 113 A 113 56 103 105 106 1 28 103 113 103 113 17 25 103 103 51 22 105 38 103 23 16 26 18 3-1 19 9 (for Europe, Asia & Korea model) 24 103 B 104 13 12 106 26 54 3-6 106 52 103 113 114 53 46 31 107 112 30 112 (Europe model only) 3-5 112 C 4 107 107 33 43 44 49 32 3-3 50 11 3-2 106 47 103 42 107 6 103 40 2-2 35 103 D 29 3-4 41 103 45 8 115 2-1 48 10 27 39 106 103 10 103 E 103 103 103 77 DVD-3800 Note : The symbols in the column “Remarks” indicate the following destinations. E3 : U.S.A. & Canada model E2 : Europe model E1 : Asia model E1K : Korea model PARTS LIST OF EXPLODED VIEW Ref. No. 1 2 2 2 2-1 2-2 3 3 3 3-1 3-2 3-3 3-4 3-5 3-6 4 5 6 7 8 9 10 11 11 11 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 34 34 Part No. Part Name GU- 3389 A GU- 3438 GU- 3438 D GU- 3438 E GU- 3439 GU- 3439 D GU- 3439 E GU- 3442 Main P.W.B. unit Audio/Video P.W.B. unit Ass’y Audio/Video P.W.B. unit Ass’y Audio/Video P.W.B. unit Ass’y Audio P.W.B. unit Video P.W.B. unit Power/Display P.W.B. unit Ass’y Power/Display P.W.B. unit Ass’y Power/Display P.W.B. unit Ass’y Digital power P.W.B. unit Display P.W.B. unit LED P.W.B. unit Select P.W.B. unit Power switch P.W.B. unit I/F P.W.B. unit SCART P.W.B. unit GEN 5903 FG-180 DVD mecha. sub Ass’y Chassis Caution label Bottom cover Trans. bracket Foot Rear panel Rear panel Rear panel Rear panel AC inlet AC inlet 3P VH connector cord Ferrite clamp (RFC-9) Wire clamp band Heat sink Heat sheet Mech. fix bracket Spacer Fuse label Fuse label Spacer FL spacer Card stand (H=18) Power trans. Power trans. Cord holder (L50) 3P VH-VH connector cord 14P PH-PH connector cord 30P FFC (1.0) 21P FFC (1.0) 21P FFC (1.0) 27P FFC (1.0) 13P FFC (1.0) Label (A) Label (Laser) E2 laser caution 411 1961 102 513 3363 004 105 1402 009 441 1963 004 104 0313 015 105 1401 000 105 1401 026 105 1401 039 105 1401 042 203 3994 000 203 3995 009 203 5293 013 342 0032 011 445 0033 005 417 0634 001 417 0636 009 412 4927 201 461 1137 009 513 3827 016 513 3827 003 461 1136 013 461 1125 121 412 2197 046 233 6404 006 233 6406 004 445 0048 016 203 5295 008 204 6741 004 009 0235 047 009 0235 021 009 0235 034 009 0235 005 009 0235 018 513 3406 107 513 3463 001 513 2065 002 Remarks for E3 for E2 for E1, E1K for E3 for E2 for E1, E1K for E2 for E3 for E3 for E2 for E1 for E1K for E3 for E2, E1, E1K CW024 for E2,E1, E1K for E2,E1, E1K for E2,E1, E1K for E3 for E2,E1, E1K CW032 CW141 CW301 CW211 CW212 CW272 CW131 for E3 for E2,E1, E1K for E2 Q'ty 1 1 1 1 1 1 1 1 1 1 1 1 1 4 1 1 1 1 1 1 1 1 1 2 2 1 1 2 1 2 1 2 1 1 5 1 1 1 1 1 1 1 1 1 1 Ref. No. Part No. Part Name 35 36 37 38 39 39 40 40 41 42 43 43 44 45 46 47 47 48 48 49 50 51 52 53 53 54 55 55 56 56 203 5296 010 203 8532 001 204 2942 001 412 4944 006 144 2750 263 144 2750 276 131 9004 013 131 9004 068 143 1145 009 143 1110 005 146 2225 309 146 2225 312 203 5296 007 009 0234 006 203 5294 009 113 1886 008 113 1886 011 112 0855 024 112 0855 037 461 1109 011 129 0253 048 461 1131 005 461 1131 018 102 0644 005 102 0644 018 105 1403 008 146 2282 009 146 2282 012 135 0067 006 135 0067 019 3P PH-PH connector cord 5P PH-PH connector cord 10P PH-PH connector cord Front angle Front panel Front panel DENON mark DENON mark Window Lens Inner panel Inner panel 3P PH-PH connector cord 17P FFC (1.0) 3P VH-VH connector cord Power switch knob Power switch knob Volume knob (B) Volume knob (B) PWB rubber Rubber sheet Rubber foam Rubber foam Top cover Top cover Top cover damper Loader panel Loader panel DVD-A plate DVD-A plate 57 57 57 57 58 59 513 3747 002 513 3798 006 513 3842 004 513 3886 003 513 3437 008 513 1381 004 Rating sheet Rating sheet Rating sheet Rating sheet Label C Manufac. date label 103 104 105 106 107 112 112 113 113 114 473 7002 018 473 7003 017 473 7007 000 473 7015 005 473 7500 044 477 0064 123 477 0064 123 477 0263 005 477 0263 018 Screw 3x8 CBTS(S)-Z Screw 3x8 CFTS (S)-B Screw 4x8 CBTS(S)-B Screw 3x6 CBTS (S)-B Screw 3x8 CBTS(P)-B Fixing screw Fixing screw 3P. swelling screw 3P. swelling screw Special screw 115 Remarks CW036 CW052 for E2 CW102 for E2 Q'ty for Black model for Gold model for Black model for Gold model 1 1 1 1 1 1 1 1 1 3 1 1 1 1 1 1 1 1 1 2 2 2 1 1 1 1 1 1 1 1 for E3 for E2 for E1 for E1K for E1 for E3 1 1 1 1 1 1 for Black model for Gold model for Black model for Gold model for Black model for Gold model CW035 CW171 CW025 for Black model for Gold model for Black model for Gold model for Black model for Gold model SCREWS 9 SP nut 52 2 4 15 14 8 12 10 10 2 for E3, E1, E1K for E2 for Black model for Gold model Attachment for 9P S SUB connector Attachment for Rotary switch 1 78 DVD-3800 EXPLODED VIEW OF DVD MECHANISM 1 4 3 2 5 6 7 8 12 50 60 9 8 59 52 7 14 A 51 32 10 15 4 14 58 5 31 55 15 15 28 B 13 57 15 53 20 55 18 30 3 24 2 C 25 29 19 1 17 D 16 56 55 23 55 26 21 22 27 6 55 E 54 79 DVD-3800 PARTS LIST OF DVD MECHANISM Ref. No. 1 2 3 4 5 6-1 6-2 6-3 6-4 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 34 Part No. Part Name 411 1988 101 431 0426 503 9KA 2A40 3D 441 1952 109 9KM 01T1 32 9KA 85P0 05 9KA 85G0 27 9KA 82G3 08 9KS 01W1 48 421 0772 108 424 0269 209 424 0268 200 424 0267 201 424 0270 104 423 0077 100 446 0063 007 9KC 2A07 4A 9KC 2G08 3A 424 0246 109 431 0427 405 461 1131 005 461 1131 018 412 4817 104 431 0384 001 431 0428 006 412 4818 006 GU- 3389 009 0186 015 203 8517 068 414 0963 003 412 4820 201 9KA 7G20 3B 9KA 7P08 5A 9KA 7G20 2D 403 0061 002 513 3436 009 Mecha chassis Plate gear Gear base sub ass'y Gear base ass'y LD Motor Detector SW P.W.B. 2P Connector wire 2P Connector Detector SW Motor pully Gear C Gear B Gear A Pulley gear Belt Mecha frame TRAV. Mecha Damper-IDLE Loader gear Loader Rubber form Rubber form Loader bracket Slide shaft Holder Bearing plate Ass'y Main P.W.B. unit 24P FFC cable (0.5) 5P PH-PH Connector cord Earth plate Clamp base Clamper L Clamper T Clamper H Clamp base damper ROM seal Remarks Q'ty 1 1 1 1 1 1 1 1 1 1 1 2 1 1 1 1 1 4 1 1 1 1 1 1 1 1 1 1 1 4 1 1 1 1 1 1 471 9057 007 9KM 01T1 32 471 3813 001 9KH 26P0 08 473 7511 004 473 7508 017 473 7508 046 477 0262 006 9KC 1H01 1A 9KP 36C6 25 9KP 26C6 25 Special screw M1.7 Screw 2.6x2.5CBS-NI Screw 2.6x4 CBS-B Screw 2.6x8CFTS(P) Screw 3x10 CFTS (P)-Z Screw 3x10 CBTS (P)-B Screw 3x16 CBTS (P)-B Special screw SCW-Damper Slit washer Slit washer 2 2 4 5 1 16 2 2 4 1 1 SCREWS 50 51 52 53 54 55 56 57 58 59 60 80 DVD-3800 POINTS OF GREASING (1/2) 1 2 4 3 5 6 7 8 A MOLYKOTE EM-30L 0.1mg x 4 points B MOLYKOTE EM-30L 0.1mg MOLYKOTE EM-30L 0.1mg x 3 points MOLYKOTE EM-30L 0.1mg x 4 points C MOLYKOTE EM-30L 0.1mg x 4 points MOLYKOTE EM-30L 0.1mg x 3 points MOLYKOTE EM-30L 0.1mg D MOLYKOTE EM-30L 0.1mg x 3 points MOLYKOTE EM-30L 0.1mg x 4 points E 81 DVD-3800 POINTS OF GREASING (2/2) 1 2 3 4 5 6 7 8 A MOLYKOTE EM-30L 0.1mg x 4 points B HANARL FL777 0.1mg MOLYKOTE EM-30L 0.1mg MOLYKOTE EM-30L 0.1mg x 5 points MOLYKOTE EM-30L 0.3mg 40~50mm MOLYKOTE EM-30L 0.1mg C HANARL UD777 0.1mg D MOLYKOTE EM-30L 0.1mg E 82 DVD-3800 PACKING VIEW 201 208 210 209 210 211 211 PARTS LIST OF PACKING & ACCESSORIES Ref. No. 201 202 203 204 205 206 207 208 Part No. 505 0038 043 511 3877 002 511 3897 008 511 3898 007 511 3957 003 511 3928 100 511 3934 000 515 0921 005 206 2202 006 206 2203 005 206 2210 001 203 5224 008 399 0795 008 Part Name Poly. cover Instruction manual Instruction manual Instruction manual Instruction manual Correction sheet Correction sheet Service station list (EX) AC cord set AC cord set AC cord 3P pin cord Remote controller RC-553 Battery (AA/R6P) Remarks for E3 for E2 for E1 for E1K for E3 for E2 for E3 for E2,E1 for E1K Q'ty 1 1 1 1 1 1 1 1 1 1 1 1 1 212 Note : The symbols in the column “Remarks” indicate the following destinations. E3 : U.S.A. & Canada model E2 : Europe model E1 : Asia model E1K: Korea model Ref. No. 209 210 211 212 213 214 215 217 218 219 Part No. 505 0312 028 503 1374 001 503 1440 003 501 2172 002 501 2172 028 513 3579 005 513 3579 018 513 9111 001 513 3580 007 515 0690 404 Part Name Cabinet cover Cushion Bottom cushion Carton case Carton case Control card UPC label POS label POS label Region label Region label Color label (gold) Carton label (CHINA) DEL warranty home Remarks Q'ty for E3, E2 for E1, E1K 1 2 2 1 1 for E3 for E2 Black model for E2 Gold model for E3 for E2 for Gold model for E1, E1K for E3 2 2 2 1 1 83 DVD-3800 WIRING DIAGRAM 1 2 3 4 5 6 7 GU-3442-1 SCART UNIT CY102 (E2 MODEL ONLY) CX031 AC IN 2P VH A 3P PH CX102 CY036 CX025 3P PH INTERFACE UNIT CY272 2P VH CY025 10P PH CX052 GU-3439-6 CX024 2P VH 8 27P FFC CX026 (CW033) CY212 GU-3439-5 P.SW UNIT CY211 21P FFC GU-3439-1 21P FFC GU-3438-2 DIGI.POWER UNIT B VIDEO UNIT CX212 CX211 14P PH CY141 CX272 GU-3389-1 MAIN UNIT CX141 CX131 CX041 AC IN CY131 13P FFC 24P FFC CX241 4P PH CX062 CY032 15P FFC CX151 C DVD DRIVE MECHA POWER TRANS UNIT [FG-180] 5 P PH CX051 5P PH 3P PH CX031 CX036 CY052 3P VH CX032 30P FFC OUTPUT CX301 CY301 6P VH CX171 D 17P FFC GU-3438-1 AUDIO UNIT CW041 CY171 E 3P PH GU-3439-3 LED UNIT DVD3800_Wiring.p65 Page 84 CY035 CX035 GU-3439-2 DISPLAY UNIT GU-3439-4 SELECT UNIT 02/06/25, 9:26 Adobe PageMaker 6.5J/Win 84 DVD-3800 MEASURING METHOD AND WAVEFORMS To check the waveforms on the Servo P.W.B., the GND ( (Except for Inner SW, TRVSW) * For & ~ , connect the GND (−) probe to "GND". ) probe of the oscilloscope to Vref point. NOTES Measuring Disc: DVD/DVDT-S01 or TDV-520A CD/TCD-784 (It is better to use wires for extending between the probe and test points.) When watching the HF waveform, use the extending wire as short as possible. When HF waveform is noisy or cannot discriminate the eye-pattern, replace the Traverse Unit after measuring the Iop. 1 ~ points have the certain test points shown below. 8 5 2 4 7 14 15 3 12 17 7 18 14 6 1 1 1 28 28 15 40 29 9 60 41 40 61 1 8 4 5 15 32 17 1 16 10 1 13 11 21 80 56 1 39 40 1 20 1 6 24 8 14 7 1 1 40 21 05 20 21 16 1 20 75 51 50 76 32 11 26 100 1 12 1 48 25 17 24 37 25 17 18 19 36 20 Main P.W.B. Unit Foil Side 85 DVD-3800 WAVEFORMS GU-3389-1 MAIN P.W.B. DVD PLAY DVD PLAY (INNER) Disc DVDT-S01 1 HF (RFI) DMO FG Vref A3 V = 0.5 V/div CD PLAY (INNER) CD PLAY Disc TCD-784A DMO FG 1 HF (RFI) Vref A3 V = 0.5 V/div SERCH TO OUTER CHAPTER (DVD/CD) LOADING PLAY (INNER OUTER) 6 TEI 2 FEI 3 FOO 4 FO+ 5 FO− ! FMO " FM− # FM+ POWER ON (INNER SWITCH ON) DVD PLAY 6 TEI $ INSWN ! FMO " FM+ OUT 7 TRO % 8 TR+ 9 TR− LOADER OPEN CD PLAY 6 TEI & OPEN OPEN 7 TRO 8 TR+ ' CLOSE CLOSE CLOSE LOADING+ 9 TR− 86 DVD-3800 GU-3438-1 AUDIO P.W.B. A1 A6 A11 A2 A7 A12 A3 A8 A13 A4 A9 A14 A5 A10 87 DVD-3800 GU-3389-1 MAIN P.W.B. P1 P2 P3 88 DVD-3800 GU-3442 SCART P.W.B. ( P14 ~ P16 : Europe model only) GU-3438-2 VIDEO P.W.B. P4 P9 P14 75ohm terminate P5 P10 P15 75ohm terminate P6 P11 P16 75ohm terminate P7 P12 P8 P13 89 DVD-3800 GU-3439-1 DIGITAL POWER P.W.B. 3439- A 3439- B 3439- C 3439- D 3439- E 90 DVD-3800 SCHEMATIC DIAGRAMS (1/8) 1 2 3 4 5 1 6 7 8 9 10 11 A 4 15 14 9 2 6 5 8 7 B 13 3 C 11 D 19 12 10 18 16 E F For the Waveforms marked with numbers 1 ~ 20 , refer to page 86 (WAVEFORMS). G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. 17 20 CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE WARNING: ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (1/8) GU-3389A-1 MAIN UNIT(1/3) 91 DVD-3800 SCHEMATIC DIAGRAMS (1/8) 1 2 3 4 5 1 6 7 8 9 10 11 A 4 A B 15 14 9 2 6 5 8 7 13 3 B C 11 D 19 12 10 18 16 E 17 C D F For the Waveforms marked with numbers 1 ~ 20 , refer to page 86 (WAVEFORMS). G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. 20 CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE WARNING: ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (1/8) GU-3389A-1 MAIN UNIT(1/3) 91 DVD-3800 DVD-3800 DVD-3800 DVD-3800 DVD-3800 DVD-3800 DVD-3800 DVD-3800 DVD-3800 DVD-3800 SCHEMATIC DIAGRAMS (1/8) 1 2 3 4 5 1 6 7 8 9 10 11 A 4 15 14 9 2 6 5 8 7 B 13 3 C 11 D 19 12 10 18 16 E F For the Waveforms marked with numbers 1 ~ 20 , refer to page 86 (WAVEFORMS). G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. 17 20 CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE WARNING: ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (1/8) GU-3389A-1 MAIN UNIT(1/3) 91 DVD-3800 SCHEMATIC DIAGRAMS (1/8) 1 2 3 4 5 1 6 7 8 9 10 11 A 4 15 14 9 2 6 5 8 7 B 13 3 C 11 D 19 12 10 18 16 E F For the Waveforms marked with numbers 1 ~ 20 , refer to page 86 (WAVEFORMS). G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. 17 20 CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE WARNING: ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (1/8) GU-3389A-1 MAIN UNIT(1/3) 91 DVD-3800 SCHEMATIC DIAGRAMS (1/8) 1 2 3 4 5 1 6 7 8 9 10 11 A 4 15 14 9 2 6 5 8 7 B 13 3 C 11 D 19 12 10 18 16 E F For the Waveforms marked with numbers 1 ~ 20 , refer to page 86 (WAVEFORMS). G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. 17 20 CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE WARNING: ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (1/8) GU-3389A-1 MAIN UNIT(1/3) 91 DVD-3800 SCHEMATIC DIAGRAMS (1/8) 1 2 3 4 5 1 6 7 8 9 10 11 A 4 15 14 9 2 6 5 8 7 B 13 3 C 11 D 19 12 10 18 16 E F For the Waveforms marked with numbers 1 ~ 20 , refer to page 86 (WAVEFORMS). G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. 17 20 CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE WARNING: ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (1/8) GU-3389A-1 MAIN UNIT(1/3) 91 DVD-3800 SCHEMATIC DIAGRAMS (2/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D E F WARNING: G Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (2/8) GU-3389A-1 MAIN UNIT(2/3) 92 DVD-3800 SCHEMATIC DIAGRAMS (2/8) 1 2 3 4 5 6 7 8 9 10 11 A A B B C D E C D WARNING: F G Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (2/8) GU-3389A-1 MAIN UNIT(2/3) 92 DVD-3800 SCHEMATIC DIAGRAMS (2/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D E F WARNING: G Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (2/8) GU-3389A-1 MAIN UNIT(2/3) 92 DVD-3800 SCHEMATIC DIAGRAMS (2/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D E F WARNING: G Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (2/8) GU-3389A-1 MAIN UNIT(2/3) 92 DVD-3800 SCHEMATIC DIAGRAMS (2/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D E F WARNING: G Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (2/8) GU-3389A-1 MAIN UNIT(2/3) 92 DVD-3800 SCHEMATIC DIAGRAMS (2/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D E F WARNING: G Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (2/8) GU-3389A-1 MAIN UNIT(2/3) 92 DVD-3800 SCHEMATIC DIAGRAMS (3/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D P1 E P2 F P3 For the Waveforms marked with numbers P1 ~ P3 , refer to page 88 (WAVEFORMS). G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE WARNING: ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (3/8) GU-3389A-1 MAIN UNIT(3/3) 93 DVD-3800 SCHEMATIC DIAGRAMS (3/8) 1 2 3 4 5 6 7 8 9 10 11 A A B B C D P1 E P2 C D F P3 For the Waveforms marked with numbers P1 ~ P3 , refer to page 88 (WAVEFORMS). G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE WARNING: ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (3/8) GU-3389A-1 MAIN UNIT(3/3) 93 DVD-3800 SCHEMATIC DIAGRAMS (3/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D P1 E P2 F P3 For the Waveforms marked with numbers P1 ~ P3 , refer to page 88 (WAVEFORMS). G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE WARNING: ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (3/8) GU-3389A-1 MAIN UNIT(3/3) 93 DVD-3800 SCHEMATIC DIAGRAMS (3/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D P1 E P2 F P3 For the Waveforms marked with numbers P1 ~ P3 , refer to page 88 (WAVEFORMS). G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE WARNING: ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (3/8) GU-3389A-1 MAIN UNIT(3/3) 93 DVD-3800 SCHEMATIC DIAGRAMS (3/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D P1 E P2 F P3 For the Waveforms marked with numbers P1 ~ P3 , refer to page 88 (WAVEFORMS). G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE WARNING: ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (3/8) GU-3389A-1 MAIN UNIT(3/3) 93 DVD-3800 SCHEMATIC DIAGRAMS (3/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D P1 E P2 F P3 For the Waveforms marked with numbers P1 ~ P3 , refer to page 88 (WAVEFORMS). G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. _ B LINE + SIGNAL LINE NOTICE WARNING: ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (3/8) GU-3389A-1 MAIN UNIT(3/3) 93 DVD-3800 SCHEMATIC DIAGRAMS (4/8) 1 2 3 4 5 6 7 8 9 10 11 A12 A A1 B A12 A5 A2 A6 A3 A4 A8 A7 C A13 D A12 A5 A11 A10 A9 A12 E A12 F A5 A11 A10 A9 A14 For the Waveforms marked with numbers A1 ~ A14 , refer to page 87 (WAVEFORMS). G _ B LINE + SIGNAL LINE WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (4/8) GU-3438-1 AUDIO UNIT 94 DVD-3800 SCHEMATIC DIAGRAMS (4/8) 1 2 3 4 5 6 7 8 9 10 11 A12 A A1 A5 A2 A6 A3 A4 A8 A7 B A B A12 C A13 D A12 A5 A11 A10 A9 A12 A14 C D E A12 A5 A11 A10 A9 For the Waveforms marked with numbers A1 ~ A14 , refer to page 87 (WAVEFORMS). F G _ B LINE + SIGNAL LINE WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (4/8) GU-3438-1 AUDIO UNIT 94 DVD-3800 SCHEMATIC DIAGRAMS (4/8) 1 2 3 4 5 6 7 8 9 10 11 A12 A A1 B A12 A5 A2 A6 A3 A4 A8 A7 C A13 D A12 A5 A11 A10 A9 A12 E A12 F A5 A11 A10 A9 A14 For the Waveforms marked with numbers A1 ~ A14 , refer to page 87 (WAVEFORMS). G _ B LINE + SIGNAL LINE WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (4/8) GU-3438-1 AUDIO UNIT 94 DVD-3800 SCHEMATIC DIAGRAMS (4/8) 1 2 3 4 5 6 7 8 9 10 11 A12 A A1 B A12 A5 A2 A6 A3 A4 A8 A7 C A13 D A12 A5 A11 A10 A9 A12 E A12 F A5 A11 A10 A9 A14 For the Waveforms marked with numbers A1 ~ A14 , refer to page 87 (WAVEFORMS). G _ B LINE + SIGNAL LINE WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (4/8) GU-3438-1 AUDIO UNIT 94 DVD-3800 SCHEMATIC DIAGRAMS (4/8) 1 2 3 4 5 6 7 8 9 10 11 A12 A A1 B A12 A5 A2 A6 A3 A4 A8 A7 C A13 D A12 A5 A11 A10 A9 A12 E A12 F A5 A11 A10 A9 A14 For the Waveforms marked with numbers A1 ~ A14 , refer to page 87 (WAVEFORMS). G _ B LINE + SIGNAL LINE WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (4/8) GU-3438-1 AUDIO UNIT 94 DVD-3800 SCHEMATIC DIAGRAMS (4/8) 1 2 3 4 5 6 7 8 9 10 11 A12 A A1 B A12 A5 A2 A6 A3 A4 A8 A7 C A13 D A12 A5 A11 A10 A9 A12 E A12 F A5 A11 A10 A9 A14 For the Waveforms marked with numbers A1 ~ A14 , refer to page 87 (WAVEFORMS). G _ B LINE + SIGNAL LINE WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (4/8) GU-3438-1 AUDIO UNIT 94 DVD-3800 SCHEMATIC DIAGRAMS (5/8) 1 2 3 4 5 6 7 8 9 10 11 A P9 P10 B P4 P5 C P11 Progre only P6 P12 Progre only D P7 P13 Progre only P8 E For the Waveforms marked with numbers P4 ~ P13 , refer to page 89 (WAVEFORMS). F _ B LINE + SIGNAL LINE G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (5/8) GU-3438-2 VIDEO UNIT 95 DVD-3800 SCHEMATIC DIAGRAMS (5/8) 1 2 3 4 5 6 7 8 9 10 11 A A P9 P10 P4 P5 B B C P11 Progre only P6 P12 Progre only D P7 P13 Progre only P8 E For the Waveforms marked with numbers P4 ~ P13 , refer to page 89 (WAVEFORMS). C D F _ B LINE + SIGNAL LINE G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (5/8) GU-3438-2 VIDEO UNIT 95 DVD-3800 SCHEMATIC DIAGRAMS (5/8) 1 2 3 4 5 6 7 8 9 10 11 A P9 P10 B P4 P5 C P11 Progre only P6 P12 Progre only D P7 P13 Progre only P8 E For the Waveforms marked with numbers P4 ~ P13 , refer to page 89 (WAVEFORMS). F _ B LINE + SIGNAL LINE G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (5/8) GU-3438-2 VIDEO UNIT 95 DVD-3800 SCHEMATIC DIAGRAMS (5/8) 1 2 3 4 5 6 7 8 9 10 11 A P9 P10 B P4 P5 C P11 Progre only P6 P12 Progre only D P7 P13 Progre only P8 E For the Waveforms marked with numbers P4 ~ P13 , refer to page 89 (WAVEFORMS). F _ B LINE + SIGNAL LINE G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (5/8) GU-3438-2 VIDEO UNIT 95 DVD-3800 SCHEMATIC DIAGRAMS (5/8) 1 2 3 4 5 6 7 8 9 10 11 A P9 P10 B P4 P5 C P11 Progre only P6 P12 Progre only D P7 P13 Progre only P8 E For the Waveforms marked with numbers P4 ~ P13 , refer to page 89 (WAVEFORMS). F _ B LINE + SIGNAL LINE G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (5/8) GU-3438-2 VIDEO UNIT 95 DVD-3800 SCHEMATIC DIAGRAMS (5/8) 1 2 3 4 5 6 7 8 9 10 11 A P9 P10 B P4 P5 C P11 Progre only P6 P12 Progre only D P7 P13 Progre only P8 E For the Waveforms marked with numbers P4 ~ P13 , refer to page 89 (WAVEFORMS). F _ B LINE + SIGNAL LINE G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (5/8) GU-3438-2 VIDEO UNIT 95 DVD-3800 SCHEMATIC DIAGRAMS (6/8) 1 2 3 4 5 6 7 8 9 10 11 3439- B A B POWER ON : +5VDC St-by : +0VDC 3439- E POWER ON/ St-by : +5VDC 3439- A +18VDC +3.6VDC C 3439- D 3439- C GND for Primary circuit D POWER ON : +3.2VDC St-by : 0VDC For the Waveforms marked with numbers 3439- A ~ 3439- E , refer to page 90 (WAVEFORMS). E _ B LINE + SIGNAL LINE F NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. G CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (6/8) GU-3439-1 DIGI. POWER UNIT GU-3439-6 I/F UNIT 96 DVD-3800 SCHEMATIC DIAGRAMS (6/8) 1 2 3 4 5 6 7 8 9 10 11 3439- B A B B POWER ON : +5VDC St-by : +0VDC 3439- E A POWER ON/ St-by : +5VDC 3439- A +18VDC +3.6VDC 3439- D C 3439- C GND for Primary circuit D POWER ON : +3.2VDC St-by : 0VDC For the Waveforms marked with numbers 3439- A ~ 3439- E , refer to page 90 (WAVEFORMS). E C D _ B LINE + SIGNAL LINE F NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. G CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (6/8) GU-3439-1 DIGI. POWER UNIT GU-3439-6 I/F UNIT 96 DVD-3800 SCHEMATIC DIAGRAMS (6/8) 1 2 3 4 5 6 7 8 9 10 11 3439- B A B POWER ON : +5VDC St-by : +0VDC 3439- E POWER ON/ St-by : +5VDC 3439- A +18VDC +3.6VDC C 3439- D 3439- C GND for Primary circuit D POWER ON : +3.2VDC St-by : 0VDC For the Waveforms marked with numbers 3439- A ~ 3439- E , refer to page 90 (WAVEFORMS). E _ B LINE + SIGNAL LINE F NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. G CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (6/8) GU-3439-1 DIGI. POWER UNIT GU-3439-6 I/F UNIT 96 DVD-3800 SCHEMATIC DIAGRAMS (6/8) 1 2 3 4 5 6 7 8 9 10 11 3439- B A B POWER ON : +5VDC St-by : +0VDC 3439- E POWER ON/ St-by : +5VDC 3439- A +18VDC +3.6VDC C 3439- D 3439- C GND for Primary circuit D POWER ON : +3.2VDC St-by : 0VDC For the Waveforms marked with numbers 3439- A ~ 3439- E , refer to page 90 (WAVEFORMS). E _ B LINE + SIGNAL LINE F NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. G CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (6/8) GU-3439-1 DIGI. POWER UNIT GU-3439-6 I/F UNIT 96 DVD-3800 SCHEMATIC DIAGRAMS (6/8) 1 2 3 4 5 6 7 8 9 10 11 3439- B A B POWER ON : +5VDC St-by : +0VDC 3439- E POWER ON/ St-by : +5VDC 3439- A +18VDC +3.6VDC C 3439- D 3439- C GND for Primary circuit D POWER ON : +3.2VDC St-by : 0VDC For the Waveforms marked with numbers 3439- A ~ 3439- E , refer to page 90 (WAVEFORMS). E _ B LINE + SIGNAL LINE F NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. G CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (6/8) GU-3439-1 DIGI. POWER UNIT GU-3439-6 I/F UNIT 96 DVD-3800 SCHEMATIC DIAGRAMS (6/8) 1 2 3 4 5 6 7 8 9 10 11 3439- B A B POWER ON : +5VDC St-by : +0VDC 3439- E POWER ON/ St-by : +5VDC 3439- A +18VDC +3.6VDC C 3439- D 3439- C GND for Primary circuit D POWER ON : +3.2VDC St-by : 0VDC For the Waveforms marked with numbers 3439- A ~ 3439- E , refer to page 90 (WAVEFORMS). E _ B LINE + SIGNAL LINE F NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. G CAUTION: Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. H SCHEMATIC DIAGRAMS (6/8) GU-3439-1 DIGI. POWER UNIT GU-3439-6 I/F UNIT 96 DVD-3800 SCHEMATIC DIAGRAMS (7/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D E F G _ B LINE + SIGNAL LINE WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. SCHEMATIC DIAGRAMS (7/8) GU-3439-2 DISPLAY UNIT GU-3439-3 LED UNIT GU-3439-4 SW UNIT GU-3439-5 P.SW UNIT H 97 DVD-3800 SCHEMATIC DIAGRAMS (7/8) 1 2 3 4 5 6 7 8 9 10 11 A A B B C D E C WARNING: D F G _ B LINE + SIGNAL LINE Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. SCHEMATIC DIAGRAMS (7/8) GU-3439-2 DISPLAY UNIT GU-3439-3 LED UNIT GU-3439-4 SW UNIT GU-3439-5 P.SW UNIT H 97 DVD-3800 SCHEMATIC DIAGRAMS (7/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D E F G _ B LINE + SIGNAL LINE WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. SCHEMATIC DIAGRAMS (7/8) GU-3439-2 DISPLAY UNIT GU-3439-3 LED UNIT GU-3439-4 SW UNIT GU-3439-5 P.SW UNIT H 97 DVD-3800 SCHEMATIC DIAGRAMS (7/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D E F G _ B LINE + SIGNAL LINE WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. SCHEMATIC DIAGRAMS (7/8) GU-3439-2 DISPLAY UNIT GU-3439-3 LED UNIT GU-3439-4 SW UNIT GU-3439-5 P.SW UNIT H 97 DVD-3800 SCHEMATIC DIAGRAMS (7/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D E F G _ B LINE + SIGNAL LINE WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. SCHEMATIC DIAGRAMS (7/8) GU-3439-2 DISPLAY UNIT GU-3439-3 LED UNIT GU-3439-4 SW UNIT GU-3439-5 P.SW UNIT H 97 DVD-3800 SCHEMATIC DIAGRAMS (7/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D E F G _ B LINE + SIGNAL LINE WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. SCHEMATIC DIAGRAMS (7/8) GU-3439-2 DISPLAY UNIT GU-3439-3 LED UNIT GU-3439-4 SW UNIT GU-3439-5 P.SW UNIT H 97 DVD-3800 SCHEMATIC DIAGRAMS (8/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D P16 E P15 P14 F G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. For the Waveforms marked with numbers P14 ~ P16 , refer to page 89 (WAVEFORMS). CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. _ B LINE + SIGNAL LINE H SCHEMATIC DIAGRAMS (8/8) GU-3442-1 SCART UNIT (Europe model only) 98 DVD-3800 SCHEMATIC DIAGRAMS (8/8) 1 2 3 4 5 6 7 8 9 10 11 A A B B C D P16 E P15 C WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. D P14 F G For the Waveforms marked with numbers P14 ~ P16 , refer to page 89 (WAVEFORMS). CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. _ B LINE + SIGNAL LINE H SCHEMATIC DIAGRAMS (8/8) GU-3442-1 SCART UNIT (Europe model only) 98 DVD-3800 SCHEMATIC DIAGRAMS (8/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D P16 E P15 P14 F G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. For the Waveforms marked with numbers P14 ~ P16 , refer to page 89 (WAVEFORMS). CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. _ B LINE + SIGNAL LINE H SCHEMATIC DIAGRAMS (8/8) GU-3442-1 SCART UNIT (Europe model only) 98 DVD-3800 SCHEMATIC DIAGRAMS (8/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D P16 E P15 P14 F G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. For the Waveforms marked with numbers P14 ~ P16 , refer to page 89 (WAVEFORMS). CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. _ B LINE + SIGNAL LINE H SCHEMATIC DIAGRAMS (8/8) GU-3442-1 SCART UNIT (Europe model only) 98 DVD-3800 SCHEMATIC DIAGRAMS (8/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D P16 E P15 P14 F G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. For the Waveforms marked with numbers P14 ~ P16 , refer to page 89 (WAVEFORMS). CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. _ B LINE + SIGNAL LINE H SCHEMATIC DIAGRAMS (8/8) GU-3442-1 SCART UNIT (Europe model only) 98 DVD-3800 SCHEMATIC DIAGRAMS (8/8) 1 2 3 4 5 6 7 8 9 10 11 A B C D P16 E P15 P14 F G WARNING: Parts marked with this symbol have critical characteristics. Use ONLY replacement parts recommended by the manufacture. For the Waveforms marked with numbers P14 ~ P16 , refer to page 89 (WAVEFORMS). CAUTION: NOTICE ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT CONDITION. CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE. Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the power card is less than 460kohms, the unit is defective. WARNING: DO NOT return the unit to the customer until the problem is located and corrected. _ B LINE + SIGNAL LINE H SCHEMATIC DIAGRAMS (8/8) GU-3442-1 SCART UNIT (Europe model only) 98
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