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HISTORY INFORMATION FOR THE FOLLOWING MANUAL:
SERVICE MANUAL
MODEL NAME REMOTE COMMANDER DESTINATION
SP-4
RM-YD016 RM-YD016 RM-YD016 US/CND US/CND US/CND
CHASSIS
KDS-50A3000 KDS-55A3000 KDS-60A3000
ORIGINAL MANUAL ISSUE DATE: 8/2007
8/2007 8/2007 9/2007 : UPDATED ITEM SUBJECT No revisions or updates are applicable at this time. Added Optional Colored Speaker Grille P/N's information. Replaced Page 115. Updated Self-Diagnostic information. Replaced page 8-9. Corrected information in Disassembly section, Replace pages 10 -16. Corrected PN for Power Supply and added PN for Plug Holder. Replaced page 67. Updated TOC to add Appendix C: HV Cable Removal. Replaced page 3. Updated Disassembly section to include HV Cable Removal instructions. Replaced page 13. Updated illustration to show HV Plug Holder. Replaced page 67. Added Appendix C: HV Cable Removal.
REVISION DATE
10/2007
SXRD PROJECTION TELEVISION
9-883-759-04
Self Diagnosis
Supported model
SERVICE MANUAL
MODEL NAME REMOTE COMMANDER DESTINATION
SP-4
RM-YD016 RM-YD016 RM-YD016 US/CND US/CND US/CND
CHASSIS
KDS-50A3000 KDS-55A3000 KDS-60A3000
KDS-60A3000
RM-YD016
SXRD PROJECTION TELEVISION
9-883-759-04
KDS-50A3000/55A3000/60A3000
TABLE OF CONTENTS
SECTION TITLE PAGE Specifications ................................................................................. 4 Warnings and Cautions .................................................................. 6 Safety Check-Out ........................................................................... 7 Self-Diagnostic Function................................................................. 8 SECTION 1: DISASSEMBLY ............................................................... 10 1-1. Lamp Removal ..................................................................... 10 1-2. Screen Frame Assembly and Speaker Grille Assembly Removal ............................................................................... 10 1-3. Rear Cover Removal and H1 Board Bracket Removal .........11 1-3-1. Side Cover Removal (KDS-50A3000 Only) ..............11 1-4. H2 Board, Speaker, and Separator Removal ....................... 12 1-5. Front Bracket Removal ........................................................ 12 1-6. Optics Block Assembly and Lamp Duct Removal ................ 13 1-6-1. Lamp Duct Block Disassmbly .................................. 13 1-7. Chassis Removal ................................................................. 14 1-8. Diffusion Plates (Screens) Removal .................................... 15 1-9. Mirror Removal..................................................................... 16 SECTION 2: CIRCUIT ADJUSTMENTS .............................................. 17 2-1. Using the Remote Commander for Electrical Adjustments .. 17 2-2. Accessing Service Adjustment Mode ................................... 17 2-3. Viewing the Service Menus .................................................. 17 2-4. Using the Remote Commander to View Service Data ......... 18 2-5. Adjusting H/V Center............................................................ 18 2-6. Exiting Service Mode ........................................................... 18 SECTION 3: DIAGRAMS ..................................................................... 19 3-1. Circuit Boards Location ........................................................ 19 3-2. Printed Wiring Boards and Schematic Diagrams Information ......................................... 19 3-3. Block Diagram ...................................................................... 21 3-4. Schematics and Supporting Information .............................. 22 A Board Schematic Diagram ................................................ 22 BC Board Schematic Diagram ............................................. 24 F Board Schematic Diagram ................................................ 26 FB1A Board Schematic Diagram (1 of 17) ........................... 28 FB1A Board Schematic Diagram (2 of 17) ........................... 29 FB1A Board Schematic Diagram (3 of 17) ........................... 30 SECTION TITLE PAGE
FB1A Board Schematic Diagram (4 of 17) ........................... 31 FB1A Board Schematic Diagram (5 of 17) ........................... 32 FB1A Board Schematic Diagram (6 of 17) ........................... 33 FB1A Board Schematic Diagram (7 of 17) ........................... 34 FB1A Board Schematic Diagram (8 of 17) ........................... 35 FB1A Board Schematic Diagram (9 of 17) ........................... 36 FB1A Board Schematic Diagram (10 of 17) ......................... 37 FB1A Board Schematic Diagram (11 of 17) ......................... 38 FB1A Board Schematic Diagram (12 of 17) ......................... 39 FB1A Board Schematic Diagram (13 of 17) ......................... 40 FB1A Board Schematic Diagram (14 of 17) ......................... 41 FB1A Board Schematic Diagram (15 of 17) ......................... 42 FB1A Board Schematic Diagram (16 of 17) ......................... 43 FB1A Board Schematic Diagram (17 of 17) ......................... 44 G Board Schematic Diagram (1 of 2) ................................... 46 G Board Schematic Diagram (2 of 2) ................................... 47 H1 Board Schematic Diagram.............................................. 49 H2 Board Schematic Diagram.............................................. 51 S2 Board Schematic Diagram .............................................. 53 T Board Schematic Diagram ................................................ 55 TUU2 Board Schematic Diagram (1 of 2) ........................... 57 TUU2 Board Schematic Diagram (2 of 2) ........................... 58 U Board Schematic Diagram (1 of 4) ................................... 60 U Board Schematic Diagram (2 of 4) ................................... 61 U Board Schematic Diagram (3 of 4) ................................... 62 U Board Schematic Diagram (4 of 4) ................................... 63 3-5. Semiconductors ................................................................... 65 SECTION 4: EXPLODED VIEWS ........................................................ 66 4-1. Screen Frame Assembly and Mirror..................................... 66 4-2. Optics Block Assembly ......................................................... 67 4-3. Chassis ................................................................................ 68 4-4. Connectors ........................................................................... 69 SECTION 5: ELECTRICAL PARTS LIST ............................................ 70 APPENDIX A: ENCRYPTION KEY COMPONENTS ..........................A-1 APPENDIX B: REPLACING THE LAMP ............................................B-1 APPENDIX C: HV CABLE REMOVAL ...............................................C-1
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SPECIFICATIONS
Power Requirements Power Consumption (W) In Use (Max) In Standby Inputs/Outputs 120V, 60Hz 240W Less than 0.4W HDMI IN 1/2/3 Video - 480i, 480p, 720p, 1080i, 1080p, 1080/24p Audio - Two channel linear PCM 32, 44.1 and 48 kHz, 16, 20, and 24 bit, Dolby Digital Audio - (HDMI IN 1 only) 500 mVrms (100% modulation) Impedance:47 kilo ohms Video (IN) 1/2/3 Video 1 total Y: 1.0 Vp-p, 75ohms unbalanced, sync negative S Video (IN) 1 total (4-pin mini DIN) Y: 1Vp-p, 75ohms unbalanced, sync negative C: 0.286Vp-p (Burst signal), 75ohms Audio (IN) 500 mVrms (100% modulation) Impedance:47 kilo ohms
Component In 1/2 (Y, PB/RR) (Component Video) Y: 1.0 Vp-p, 75 ohms unbalanced, sync negative PB: 0.7 Vp-p, 75 ohms; PR: 0.7 Vp-p, 75 ohms Signal format: 480i, 480p, 720p, 1080i, 1080p Audio (IN) 500 mVrms (100% modulation) Impedance:47 kilo ohms Audio Out 500 mVrms (100% modulation) 1 Vrms at the maximum volume setting (Varies with input level) Digital Audio Optical Output (PCM/Dolby Digital) Optical Digital Audio Output PC In D-sub 15-pin, analog RGV, 0.7 Vp-p, 75 ohms, positive PC Audio Input Stereo mini jack, 500mVrms, 47 kilohm
Trademark Information
As an ENERGY STAR® Partner, Sony Corporation has determined that this product meets the ENERGY STAR® guidelines for energy efficiency. ENERGY STAR® is a U.S. registered mark.
SXRD "BRAVIA" and , BRAVIA ENGINE EX, "XMB" and "XrossMediaBar", S-Force, BRAVIA Theatre Sync, , DMx, BRAVIA Internet Video Link Ready and "PS3" are trademarks or registered marks of Sony Corporation and/or Sony Computer Entertainment Inc.
This TV is manufactured under license from Dolby Laboratories. "Dolby" and the double-D symbol are trademarks of Dolby Laboratories.
This TV incorporates HighDefinition Multimedia Interface (HDMITM ) technology. HDMI, the HDMI logo and HighDefinition Multimedia Interface are trademarks or registered trademarks of HDMI Licensing LLC.
Design and specifications are subject to change without notice.
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KDS-50A3000 Speaker Output (W) Speaker Dimension mm in Dimensions (W x H x D) mm 1150 x 850 x 365 mm 3/8 x 33 1/2 x 14 3/8 in in 45 Mass kg 34 kg lbs 75 lbs
KDS-55A3000 12W + 12W 70 x 130 mm 2 7/8 x 5 1/8 in 1260 x 920 x 395 mm 49 5/8 x 36 1/4 x 15 5/8 in 37 kg 81.10 lbs
KDS-60A3000
1370 x 985 x 425 mm 54 x 38 7/8 x 16 3/4 in 41 kg 90.7 lbs
All measurements are approximations Television system
American TV standard, NTSC ATSC Compliant 8VSB, ATSC (8VSB terrestrial) ANSI/SCTE 07 2000, QAM on cable
Projection Lens
High Performance, large diameter hybrid lens F2.5
Lamp
120W, XL-5200 Ultra High Pressure Lamp
Channel coverage
Terrestrial 2-69/ Cable TV: 1-125 (analog) Terrestrial 2-69/ Cable TV: 1-135 (digital)
Supplied Accessories
Remote Commander RM-YD016 Two Size AA (R6) Batteries Operating Instructions Quick Setup Guide Warranty Card Online Registration Card
Screen Size (measured diagonally)
KDS-50A3000 - approximately 50 inches KDS-55A3000 - approximately 55 inches KDS-60A3000 - approximately 60 inches
Antenna
75-ohm external antenna terminal for VHF/UHF
Optional Accessories
Lamp XL-5200 Ultra High Pressure Lamp TV Stand SU-RS12X
Projection System
3 SXRD Panels, 1 lens projection system
SXRD Panel System
High Frame Rate Compatible 0.61 inch panel Ful HD SXRD device
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WARNINGS AND CAUTIONS CAUTION
These servicing instructions are for use by qualified service personnel only. To reduce the risk of electric shock, do not perform any servicing other than that contained in the operating instructions unless you are qualified to do so.
CARRYING THE TV
Carrying the TV requires at least two people. Do not hold by the pedestal or the front panel of the TV. Doing so may cause these parts to break off. If you have connected cables and cords, be sure to unplug them before moving the TV. When moving the TV,
KDS-50A3000 KDS-55A3000/ KDS-60A3000
Do not grasp the pedestal or the front panel of the TV.
place one hand to the lower portion of the front cabinet while grasping the top with the other hand.
place one hand in the hole on the lower portion of the TV while grasping the top with the other hand.
WARNING!!
An isolation transformer should be used during any service to avoid possible shock hazard, because of live chassis. The chassis of this receiver is directly connected to the AC power line.
! SAFETY-RELATED COMPONENT WARNING!!
Components identified by shading and ! mark on the schematic diagrams, exploded views, and in the parts list are critical for safe operation. Replace these components with Sony parts whose part numbers appear as shown in this manual or in supplements published by Sony. Circuit adjustments that are critical for safe operation are identified in this manual. Follow these procedures whenever critical components are replaced or improper operation is suspected.
ATTENTION!!
Ces instructions de service sont à l'usage du personnel de service qualifié seulement. Pour prévenir le risque de choc électrique, ne pas faire l'entretien autre que celui contenu dans le Mode d'emploi à moins que vous soyez qualifié faire ainsi.
TRANSPORTER LE TÉLÉVISEUR
Le transport du téléviseur doit être effectué par au moins deux personnes. Ne tenez pas le téléviseur par son socle ni par le panneau avant. Ces pièces risqueraient de se détacher. Si vous avez branché les câbles et les cordons d'alimentation veillez à les débrancher avant de déplacer le téléviseur. Lorsque vous déplacez le téléviseur,
KDS-50A3000 KDS-55A3000/ KDS-60A3000
Ne saisissez pas le téléviseur par son socle ni par le panneau avant.
placez une main sur la partie inférieure du boîtier avant tout en maintenant la partie supérieure de l'autre main.
placez une main dans l'orifice de la partie inférieure du boîtie arrière tout en maintenant la partie supérieure de l'autre ma
Afin d'eviter tout risque d'electrocution provenant d'un chássis sous tension, un transformateur d'isolement doit etre utilisé lors de tout dépannage. Le chássis de ce récepteur est directement raccordé à l'alimentation du secteur.
! ATTENTION AUX COMPOSANTS RELATIFS A LA SECURITE!!
Les composants identifies par une trame et par une marque ! sur les schemas de principe, les vues explosees et les listes de pieces sont d'une importance critique pour la securite du fonctionnement. Ne les remplacer que par des composants Sony dont le numero de piece est indique dans le present manuel ou dans des supplements publies par Sony. Les reglages de circuit dont l'importance est critique pour la securite du fonctionnement sont identifies dans le present manuel. Suivre ces procedures lors de chaque remplacement de composants critiques, ou lorsqu'un mauvais fonctionnement suspecte.
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SAFETY CHECK-OUT
After correcting the original service problem, perform the following safety checks before releasing the set to the customer: 1. Check the area of your repair for unsoldered or poorly soldered connections. Check the entire board surface for solder splashes and bridges. 2. Check the interboard wiring to ensure that no wires are "pinched" or touching high-wattage resistors. 3. Check that all control knobs, shields, covers, ground straps, and mounting hardware have been replaced. Be absolutely certain that you have replaced all the insulators. 4. Look for unauthorized replacement parts, particularly transistors, that were installed during a previous repair. Point them out to the customer and recommend their replacement. 5. Look for parts which, though functioning, show obvious signs of deterioration. Point them out to the customer and recommend their replacement. 6. Check the line cords for cracks and abrasion. Recommend the replacement of any such line cord to the customer. 7. Check the B+ and HV to see if they are specified values. Make sure your instruments are accurate; be suspicious of your HV meter if sets always have low HV. 8. Check the antenna terminals, metal trim, "metallized" knobs, screws, and all other exposed metal parts for AC leakage. Check leakage as described below. Leakage Test
To Exposed Metal Parts on Set
The AC leakage from any exposed metal part to earth ground and from all exposed metal parts to any exposed metal part having a return to chassis, must not exceed 0.5 mA (500 microamperes). Leakage current can be measured by any one of three methods. 1. A commercial leakage tester, such as the Simpson 229 or RCA WT-540A. Follow the manufacturers' instructions to use these instructions. 2. A battery-operated AC milliampmeter. The Data Precision 245 digital multimeter is suitable for this job. 3. Measuring the voltage drop across a resistor by means of a VOM or battery-operated AC voltmeter. The "limit" indication is 0.75 V, so analog meters must have an accurate low voltage scale. The Simpson's 250 and Sanwa SH-63TRD are examples of passive VOMs that are suitable. Nearly all battery-operated digital multimeters that have a 2 VAC range are suitable (see Figure A).
How to Find a Good Earth Ground A cold-water pipe is a guaranteed earth ground; the cover-plate retaining screw on most AC outlet boxes is also at earth ground. If the retaining screw is to be used as your earth ground, verify that it is at ground by measuring the resistance between it and a cold-water pipe with an ohmmeter. The reading should be zero ohms. If a cold-water pipe is not accessible, connect a 60- to 100-watt trouble- light (not a neon lamp) between the hot side of the receptacle and the retaining screw. Try both slots, if necessary, to locate the hot side on the line; the lamp should light at normal brilliance if the screw is at ground potential (see Figure B).
Trouble Light AC Outlet Box Ohmmeter
0.15 F
AC Voltmeter (0.75V)
Cold-water Pipe
Earth Ground
Figure A. Using an AC voltmeter to check AC leakage.
Figure B. Checking for earth ground.
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SELF-DIAGNOSTIC FUNCTION
Self Diagnosis
Supported model
The units in this manual contain a self-diagnostic function. If an error occurs, the POWER LED will automatically begin to flash. The number of times the LED flashes translates to a probable source of the problem. A definition of the POWER LED flash indicators is listed in the instruction manual for the user's knowledge and reference. If an error symptom is difficult to reproduced use the Remote Commander to display the record that is stored at the internal NVM to specify the cause of the failure. Diagnostic Test Indicators When an error occurs, the POWER LED will flash a set number of times to indicate the possible cause of the problem. If there is more than one error, the POWER LED will identify the first of the problem areas. If the errors occur simultaneously, the one that corresponds to the fewest flashes is identified first. Results for all of the following diagnostic items are displayed on screen. (No error has occurred if the screen displays a "0".)
NUMBER OF TIMES
LED BLINKS 2 times 3 times 5 times
SELF CHECK DIAGNOSIS ITEM CODE POW_OVP Power OVP POW_ERR1 Power Error LAMP_DRV Lamp Driver
POSSIBLE CAUSE 7V is over voltage 12V is not supplied
POSSIBLE SOLUTION
6 times 7 times 8 times 9 times
COVER
Lamp Cover
TEMP_ERR Temperature Over AUD_PROT Audio Protect Error FAN_ERR Fan Error
10 times 11 times LAMP-LED flashes
DTT_ERR DEV_ERR
Microprocessor Error Device Error Lamp Error
Check CN6903 on G Board Check CN6903 on G Board Check Power Supply (Ballast) Problem with the 400V (CN6501 on G Board) lamp driver Check IC4001 on FB1A Board Secure Lamp Door. Lamp cover is not securely Verify harness is connected attached to T Board. Remove dust from fan and Inner temperature is too high ventilation is clear. Short in speaker line Check A Board or replace speaker Secure harness to fan. Fan is not getting power. Check CN4001 or CN5602 on FB1A Fan connector is not securely Board. attached. Check CN6900 on G Board. DTT_WDT (Watch Dog Timer) Check FB1A Board Check S2, H2, and C Boad and all I2C Communication Error connection to the FB1A Board Lamp needs to be replaced. Change the lamp.
DISPLAY OF POWER LED OR LAMP LED FLASH COUNT
Screen
TIMER
LAMP
POWER
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- Example Diagnosis
Number of times LED Flashes 3 times 6 times LED ON : 0.3sec LED OFF : 0.3sec
LED OFF 3.0sec
Power Error
Lamp Cover
NOTE: 4 Flashes is not used for self-diagnosis
LED OFF 3.0sec
RELEASING THE POWER LED LASH
Unplug the power cord from the outlet to temporarily stop the POWER LED lamp from flashing. Self-Diagnostic Screen Display For failures that are difficult to reproduce, or accompany occasional power off and/or picture mute, the Self-Diagnostic Self Check screen display is useful to specify the cause.
VIEWING THE SELF-DIAGNOSTIC SELF CHECK SCREEN
1. TV must be in standby mode. (Power off). 2. Press the following buttons on the Remote Commander within a second of each other: DISPLAY POWER Channel 5 Volume -
NOTE: This differs from the method of accessing service mode which is Volume + Sample Self-Diagnostic Screen Display Information Indicator Column LED Display Displays Time of last 3 events SELF CHECK 0501210811 0412311234 0311111825 00 00 2 : POW _OVP 003 : POW _ERR1 00 ------------ ------------ -----------005 : LAMP_DRV 00 ------------ ------------ -----------006 : COVER 01 1 indicates an error was detected ------------ ------------ ----------------------- ------------ -----------007 : TEMP_ERR 00 0 indicates no error was detected 008 : AUD_PROT 00 ------------ ------------ -----------0 09 : FAN_ERR 00 ------------ ------------ -----------01 0: DTT_ERR 00 ------------ ------------ -----------011: DEV_ERR 00 ------------ ------------ -----------013: 00 ------------ ------------ -----------101 : DTT_W DT 00 *W DT- W atch Dog Timers ------------ ------------ -----------102 : TVM_W DT 00 *(W atch Dog Timers ------------ ------------ -----------103 : BEM_W DT 00 ar e us e d t o t r a c k ------------ ------------ -----------25 5 : LAMP_ERR 00 m i c r o p r o c e ss o r s , not to rec o rd errors .) B o o t c o un t a n d o p er a t ion t im e 00013-00028-000 12-000 12 Total lamp hours Total Panel hours (max 65535)
Boot count (max 65535) Total hours of operations (max 65535)
NOTE: To refresh the Self Check menu when all the items are not displayed, press JUMP on the Remote Commander.
CLEARING THE SELF-DIAGNOSTIC SCREEN
The self-diagnostic results displayed on the screen are not cleared automatically, therefore you should always check the self-diagnostic screen during repairs. When you have completed the repairs, clear the self-diagnostic screen to reset the results to "0". Note: The self-diagnostic function will not be able to detect any subsequent faults after completion of the repairs unless the Self-Diagnostic result display is cleared to reset the results to "0". 1. If the Self-Diagnostic screen is already displayed, proceed to step 3. If not, Power off (Set to Standby mode). POWER 2. Press DISPLAY Channel 5 Volume 0 The status resets to 0. 3. Press Channel 8 4. To exit the Self-Diagnostic screen, turn the power off.
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SECTION 1: DISASSEMBLY 1-1. LAMP REMOVAL
For detailed instructions refer to Appendix B: Replacing the Lamp, at the back of this manual. 1 2 Remove the Lamp Cover and the Lamp Door Assembly. Gently pull out Lamp Block assembly from the TV.
2 Lamp Lamp Door Assembly 1 Lamp Cover
1-2.
SCREEN FRAME ASSEMBLY AND SPEAKER GRILLE ASSEMBLY REMOVAL
1 2 3 Loosen the 2 Ornamental Screws (one from each side). Pull off the Speaker Grille Assembly from the Screen Frame Assembly. Remove 2 screws from the Screen Frame Assembly, +BVTP2 4x16
Rear Cabinet
3 Ornamental Screw
Speaker Grille Assembly
1 Screen Frame Assembly
2
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1-3.
REAR COVER REMOVAL AND H1 BOARD BRACKET REMOVAL
1 2 3 4 Remove 12 screws from the Rear Cabinet, +BVTP2 4x16 Remove 2 screws from the Side Control Bracket, +BVTP2 4x16 Remove 1 screws from the H1 Board, +BVTP 3x12 TYPE2 IT-3 Release one connector. 1 Screen Frame Assembly
Rear Cabinet H1 Board 4 Side Control Bracket 3
2
1-3-1. SIDE COVER REMOVAL (KDS-50A3000 ONLY)
1 Remove 4 screws from the Side Covers (2 from each side), +BVTP2 4x16
Rear Cabinet
Side Cover (L) 1
1
Side Cover (R)
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1-4.
H2 BOARD, SPEAKER, AND SEPARATOR REMOVAL
1 2 3 4 5 6 Disconnect joint connector from the H2 board. Remove 2 screws for H2 board removal, +BVTP 3x12 TYPE2 IT-3 Disconnect joint connector from the Speakers. Remove 4 screws from the Speakers, +BWTP2 4x16 Remove 6 screws from the Separator, +BVTP2 4x16 Lift two tabs and slide out the Separator unit.
Rear Cabinet
Separater
1 Speaker 2 3 4 H2 Board 5
Speaker 6
1-5. FRONT BRACKET REMOVAL
1 2 3 Release all connector wire from Clamps on the Front Bracket. Remove 2 screws from the Duct and the TUU2 Shield, +BVST 3x6 Remove 2 screws from the Chassis block, +BVTP2 4x16
TUU2 Shield
FB1 Shield (Bottom) Front Bracket
2 3
1 Duct (Front)
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1-6.
OPTICS BLOCK ASSEMBLY AND LAMP DUCT REMOVAL
1 2 3 4 Remove 1 screw from the Adjuster Cover, +PVTP2 4x16 Remove 2 screws from the Adjuster Block and the Supporter, +PWHTP2 4x25 Remove 2 screws from the Lamp Duct, +PVTP2 4x16 Gently pull out Optics Block from cabinet.
2 Adjuster Cover
Adjuster Supporter (V)
1
Caution: When replacing the Optics Unit Block Assembly be sure to remove any dust particles.
Optics Block
4 Adjuster Block (V)
Adjuster Plate (H)
Lamp Duct Unit 3
1-6-1.
LAMP DUCT BLOCK DISASSMBLY
1 2 3 4 5 Remove 1 screw from the Upper Duct, +BVTP2 4x16 Disconnect 2 connectors from the Power Supply (Ballast Unit). Remove 1 screw from the Power Supply, +BVTP2 4x16 Remove 1 screw from the Power Supply, +BVTP2 4x16 Using caution not to damage the HV wires, push the HV Cable through the Plug Holder. (See Appendix C for illustrations.)
6 4 T Board Lamp Duct (R) Plug Holder Intake Duct (F) HV Cable (Ballast Plug) 5 Lamp Duct (F) Optics Block 10 Fuse Holder 9 S2 Board Fuse Sheet Fuse Plate 8 Exhaust Duct (L) 7 Power Supply (Ballast Unit) Fan (DC Motor) Fan Cushion Exhaust Duct (U) 2P Connector (Thermal Fuse) 1 2 3
Note: To remove each duct, gently lift the tabs to release from the hooks. 6 Carefully detach from the Optics Block. 7 8 Remove 1 screw from the T board, +BVTP 3x12 TYPE2 IT-3 Disconnect 1 connector from the T board.
9 Disconnect 1 connector from the S2 board. 10 Remove 2 screws from the Fuse Holder, +BVTP 3x12 TYPE2 IT-3
Turn Rivet D.C. Fan (80x80) Optics Block
Note:The D.C. Fan is secured to the Optics Block Assembly with Turn Rivet screws. To remove these screws use a screw driver to unscrew the screw until it lifts slightly above the rivet then pull the screw and the rivet out from the fan. (Refer to the illustration to the left.)
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1-7. CHASSIS REMOVAL
1 2 Remove 2 screws from the Rear Cabinet and the AC Bracket, +BVTP 3x12 TYPE2 IT-3 Remove 2 screws from the FB1A Block Assembly, +BVTP2 4x16 Chassis Block 1
2 FB1A Block Assembly 3 4 5
AC Bracket (F Board Bracket)
G Board Disconnect 6 connectors then remove 6 screws, +BVTP 3x12 TYPE2 IT-3 Fan Bracket Disconnect 1 Connector then remove 2 screws, +BVTP2 4x16 Turn Rivet Unscrew and carefully pull out from the fan to release it from the shield. Note: The fan is secured to the Chassis Assembly with Turn Rivet screws. To remove these screws use a screw driver to unscrew the screw until it lifts slightly above the rivet then pull the screw and the rivet out from the fan.
6 7 8 9
A Board Disconnect 2 connectors then remove 3 screws, +BVST3x6, and pull out from the FB1A Block Assembly connector F Board Disconnect 2 connectors then remove 2 screws, +BVST 3x6 TUU2 Block Release the RF connector FB1A Block Assembly Disconnect 6 connectors
10 BC Board Disconnect 2 connectors then remove 2 screws, +BVST 3x6 11 BC Shield Remove 3 screws, +BVST 3x6 12 G Bracket Remove 6 screws, +BVST 3x6, then remove the AU Shield by removing 1 screw, +BVST 3x6 13 U Board Disconnect 1 connector, remove 2 screws +BVST 3x6, and pull out from FB1A Block Assembly connector 14 Terminal Bracket - Remove 3 screws, +PSW M3x8, 5 screws, + BVTP 3x12 TYPE2 IT-3, and 1 Hex Nut and 1 Washer Caution: When replacing any part of the chassis be sure to remove any dust particles and clean the mirror. AU Shield G Bracket Terminal Bracket 4 13 14 12 U Board 11 BC Board 7 BC Shield 10 F Board 6 A Board Fan Bracket 5 Turn Rivet D.C. Fan (60x60) 3 G Board
8 FB1 Block 9
TUU2 Block
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1-8. DIFFUSION PLATES (SCREENS) REMOVAL
CAUTION: The screens are adhered to the Screen Frame Assembly with double sided tape (3-275-118-21). After removing the screens, use rubbing alcohol to gently clean the area to remove any excess tape. The double sided tape must be replaced before mounting the screens to the Screen Frame Assembly to ensure that they are securely attached. The illustration below indicates the approximate location of the double -side tape. For complete details, refer to the Sony Electronics Service Information website. 1 Remove a total of 12 screws, +BVTP2 4x16 2 screws from the Top Holder, 8 screws from the Bottom Holder and 1 screw from each of the side holders. Gently pull the screens from the Screen Frame Assembly to dislodge from the double sided tape. Double Sided Tape (10mm x 100mm) 2 Screen Frame Assembly 1
2
Screen Holders Diffusion Plates Double Sided Tape (2 pieces, 1 piece on each side) 2 x (10mm x 500mm) (KDS-50A3000 Only) 2 x (10mm x 550mm) (KDS-55A3000/60A3000 Only) Note: The following diagram illustrate the taping method when replacing the diffusion Plates. For Part Numbers refer to the Explode view section of this manual.
Diffusion Plate (Lenticular - Front side)
TAPE, PE 100 (3-275-116-01) 1 piece on each corner area
Diffusion Plate (Frensnel - Rear side)
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1-9.
MIRROR REMOVAL
1 Remove 6 screws (KDS-50/55A3000 Only), 8 screws (KDS-60A3000 Only), +BVTP2 4x16 Order the same part number to replace Top & Side Mirror Edge Guards. Refer to the Exploded View section of this manual for part number information.
NOTE:
Caution: - Holder screws should be tightened from the center to the outer screw positions.
Rear Cabinet
Mirror Edge Guard
1
Mirror Holder Mirror Edge Guard Mirror Mirror Edge Guard
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KDS-50A3000/55A3000/60A3000
SECTION 2: CIRCUIT ADJUSTMENTS 2-1. USING THE REMOTE COMMANDER FOR ELECTRICAL ADJUSTMENTS
To adjust various set features, use the Remote Commander to put the set into service mode to display the service menus and categories. Equipment Needed: Pattern Generator (with component outputs) Oscilloscope Digital multimeter
2-3. VIEWING THE SERVICE MENUS
Use the Remote Commander to view the BE and Digital service menus options. 1. To display the Service Menu that contains the Category you want to adjust, press JUMP on the Remote Commander. (For a complete list of the service Categories refer to Service Menus)
2-2. ACCESSING SERVICE ADJUSTMENT MODE
1. TV must be in standby mode. (Power off). 2. Press the following buttons on the Remote Commander within a second of each other: Channel 5 Volume + DISPLAY POWER .
DIGITAL 001 OP 000 VERS DM1. 103A00SA DD0. 000A00LU M2. 001C
SERVICE 000 SM1. 009W00AA SD1. 003W00AA SB1. 002W00AA BM1. 010W00AU BD1. 011A00SUA BB1. 001W00AU
DISPLAY
TV POWER
Press JUMP
5
CHASSIS SERVICE 000 GR 000 GRMD
0
JUMP Displays Service Menus
Press JUMP
Onscreen cursor and select button
SUB SERVICE 000 VERS 000 MODEL MODEL ID: XXXXXXXXXX Press JUMP
BEM BOOT: MAIN: DATA: NVM: 1. 001W00AU 1. 010W00AU 1. 011A00SUA 1. 011
SERVICE
VOLUME (+)
Press JUMP
Sample Service Menu
RM-YD016 The first service menu (TV) displays.
KDS-50A3000/55A3000/60A3000
17
KDS-50A3000/55A3000/60A3000
2-4. USING THE REMOTE COMMANDER TO VIEW SERVICE DATA
Use the buttons on the Remote Commander to access the service menu items and adjust the data values. Service Menu Item Numbers Category
BEM 0016 0003 DIFF TG VCENT SERVICE
2-5. ADJUSTING H/V CENTER
Check the picture horizontal/vertical center after replacing the Optics Unit Block or Rear Cover. 1. Check the H/V center using a 480i monoscope signal with the TV in "FULL' model. 2. If the center is shifted, proceed to step 3. 3. Access the Service Menu by pressing the following buttons on the Remote Commander within a second: Channel 5 DISPLAY The service menu displays. Volume + TV POWER .
6 1
Data Value
Adjustment Item
4. Press the JUMP button until the BEM micro service menu displays.
BEM BOOT: MAIN: DATA: NVM: 1. 001W00AU 1. 010W00AU 1. 011A00SUA 1. 011 SERVICE
Display 1 Next Item Display 2 Next Category Display 4 Previous Item Saves data 0
3 Increase Data Value 6 Decrease Data Value 5 Display Previous Category 9 Read data JUMP Displays Service Menus
5. Press 2 until the 0016 TG category displays.
BEM 0016 0001 DIFF TG 0 1 SERVICE
6. Press 1 until the 0003 VCENT item displays.
BEM 0016 0003 DIFF TG VCENT SERVICE
6 1
MUTING Writes data into memory
7. Press 3 to increase (shift VCENT up), or press 6 to decrease the value (shift VCENT down) until the correct adjustment is set. 8. Press 1 until the 0004 HCENT item displays.
BEM 0016 0004 DIFF TG HCENT SERVICE
5 1
9. Press 3 to increase (shift HCENT right), or press 6 to decrease the value (shift HCENT left) until the correct adjustment is set. RM-YD016 10. To write into memory, press MUTING then 0 on the Remote Commander.
2-6. EXITING SERVICE MODE
After completing the changes, exit service mode. 1. To exit service mode, turn the power off by pressing POWER . Wait 2 minutes before restarting the set to allow the fans to completely shut down or the Service Menu will appear on the screen.
KDS-50A3000/55A3000/60A3000
18
KDS-50A3000/55A3000/60A3000
SECTION 3: DIAGRAMS 3-1. CIRCUIT BOARDS LOCATION
U A F OPTICS BLOCK ASSEMBLY (Includes the C Board)
G
BC FB1A TUU2 H2 H1
S2
T
3-2. PRINTED WIRING BOARDS AND SCHEMATIC DIAGRAMS INFORMATION
All capacitors are in F unless otherwise noted. pF : F 50WV or less are not indicated except for electrolytics and tantalums. All electrolytics are in 50V unless otherwise specified. All resistors are in ohms. k=1000, M=1000k Indication of resistance, which does not have one for rating electrical power, is as follows: Pitch : 5mm Rating electrical power : 1/ 4 W
1
All voltages are in V. S : Measurement impossibility. : B+line. : B-line. (Actual measured value may be different). : signal path. (RF) Circled numbers are waveform references.
The components identified by shading and only with part number specified.
!
/ 4 W in resistance, 1/10 W and 1/16 W in chip resistance. : nonflammable resistor : fusible resistor : internal component : panel designation and adjustment for repair : earth ground : earth-chassis
symbol are critical for safety. Replace
The symbol indicates a fast operating fuse and is displayed on the component side of the board. Replace only with fuse of the same rating as marked.
Les composants identifies per un trame et une marque ! sont critiques pour la securite. Ne les remplacer que par une piece portant le numero specifie. Le symbole indique une fusible a action rapide. Doit etre remplace par une fusible de meme yaleur, comme maque.
All variable and adjustable resistors have characteristic curve B, unless otherwise noted. Readings are taken with a color-bar signal input. Readings are taken with a 10M digital multimeter. Voltages are DC with respect to ground unless otherwise noted. Voltage variations may be noted due to normal production tolerances.
NOTE: The components identified by a red outline and a mark contain confidential information. Specific instructions must be adhered to whenever these components are repaired and/or replaced. See Appendix A: Encryption Key Components in the back of this manual.
KDS-50A3000/55A3000/60A3000
19
KDS-50A3000/55A3000/60A3000
REFERENCE INFORMATION
RESISTOR : RN METAL FILM : RC SOLID : FPRD NONFLAMMABLE CARBON : FUSE NONFLAMMABLE FUSIBLE : RW NONFLAMMABLE WIREWOUND : RS NONFLAMMABLE METAL OXIDE : RB NONFLAMMABLE CEMENT : ADJUSTMENT RESISTOR COIL : LF-8L MICRO INDUCTOR
Terminal name of semiconductors in silk screen printed circuit ( )
Device Printed symbol
*
Terminal name Collector Base Emitter
Circuit
1 2 3 4 5
Transistor Collector Base Diode Cathode Anode Cathode Diode Anode (NC) Emitter
Transistor
Cathode Diode Anode (NC)
CAPACITOR : TA TANTALUM : PS STYROL : PP POLYPROPYLENE : PT MYLAR : MPS METALIZED POLYESTER : MPP METALIZED POLYPROPYLENE : ALB BIPOLAR : ALT HIGH TEMPERATURE : ALR HIGH RIPPLE
Common
6 7 8 9 0 qa qs qd qf qg qh qj qk ql w; wa ws wd
Diode Anode Diode Cathode Common Anode Diode Cathode
Common Anode Anode
Common Diode Anode Anode
Common Diode Cathode Diode Cathode Common Cathode Anode Anode Cathode Drain Cathode Cathode Anode Anode Source Gate
G D G S S D
Diode Transistor (FET) Transistor (FET) Transistor (FET) Transistor
Drain
Source Gate Source Drain Gate Emitter Collector Base
D
D G G S
S
C1
C2 B2
Transistor
C2 B1 E1 B1 E2 B2 C1 E1 E2
Transistor
C1 B2 E2 E1 B1 C2 B1 C1 C2 B2 E1 E2
Transistor
C1 B2 E2 E1 B1 C2
E1
E2 B2
Transistor
C1 B2 E2 E1 B1 C2
B1 C1 C1(B2) C2 C2
Transistor
E2 B1 E1 C2 C1(B2)
B1 E2 E1(B2) B1 C1 E1(B2) B1 C1 C2 C2 C2 E2 E2
Transistor
(B2) B1 E1 E2 C1 C2
Transistor Discrete semiconductot
(B2) E2 E1 B1 C2 C1
(Chip semiconductors that are not actually used are included.)
Ver.1.5
KDS-50A3000/55A3000/60A3000
20
KDS-50A3000/55A3000/60A3000
3-3. BLOCK DIAGRAM
KDS-50A3000/55A3000/60A3000
21
KDS-50A3000/55A3000/60A3000
3-4. SCHEMATICS AND SUPPORTING INFORMATION A BOARD SCHEMATIC DIAGRAM 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15
To JIG
|
16
|
17
|
18
|
19
|
20
|
21
|
22
|
23
|
24
|
A
TVM_RXD_0 BEM_RXD_3 TVM_TXD_0 BEM_TXD_3 (TV_BINT) TVM_SDA2 BEM_SDA1 BEM_SDA2 BEM_SDA3 TVM_SCL2 BEM_SCL1 BEM_SCL2 BEM_SCL3 REC_3.3V
CN1000 42P
STBY_3.3V
MODE_BEM
REC_3.3V
TVM_RST
BEM_RST
FE_SDA0
FE_SDA2
FE_SCL2
FE_SCL0
E_BINT
--
GND GND 1 2
TVM_FLASH_WRITE
EMMA_LOG_RX
EMMA_LOG_TX
BEM_RXD_0
BEM_TXD_0
GND
GND 39 40 41
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
B
STBY5V E_BINT REC_FB_3.3V RB1000 47
BEM_SDA1
BEM_SCL1
BEM_SCL2
BEM_SDA2
GND GND GND
A1 B1 A2 B2 REC_FB_3.3V FB1003 0uH AMP_R AMP_L R1044 22k 5% 1005 C1065 0.1 25V B 1608
BEM_I2C_1 BEM_I2C_2 RB1006 10k
1
2
3
4
5 REC_A_9V
BEM_I2C_3 BEM_TXD3 BEM_RXD3 MODE_BEM
-- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N --
GND
REC_FB_3.3V A3 AMP_R AMP_L GND HDMI_MUTE ATT_SW REC_ON GND GND NC NC GND GND B3 A4 B4 A5 B5 A6 B6 A7 B7 A8 B8 A9
HDMI_MUTE ATT_SW
R1009 2.2k 0.5% 1005
Q1000 2SC3052EF-T1-LEF
MODE_BEM FE_I2C_0 EMMA_LOG_TX EMMA_LOG_RX
AC_OFF_MUTE
Q1010 RT3N11M-TP-1
JIG_RST C1004 0.1 16V X7R 1005
FE_SDA0
FE_SCL0
C1005 1 25V X7R 2012
R1006 10k 5% 1005
R1007 2.7k 0.5% 1005 R1008 2.7k 0.5% 1005
C1006 10 16V C 3216
BEM_TXD0 C1007 0.1 16V 1005 BEM_RST BEM_RXD0
BEM_SDA3
BEM_SCL3
IC1001 PQ200WNA1ZPH
TVM_I2C_2
RB1007 47
C
REC_A_9V
TVM_SDA2
TVM_SCL2
TO FB1A
1
3 RB1002 47
2
4
REC_FB_3.3V
JIG_BEM_RST B9 MODE_BEM GND GND BEM_CODE_RX BEM_CODE_TX GND GND BEM_SDA2 A10 B10 A11 B11 A12 B12 A13 BEM_SDA2 B13 BEM_SCL2 B14 A15 BEM_SDA1 B15 BEM_SCL1 B16 A17 BEM_SDA3 B17 BEM_SCL3 B18 A19 B19 A20 B20 A21
BEM_RST MODE_BEM
TV_TXD
TV_RXD
FE_I2C_2
BEM_RXD0 BEM_TXD0 BEM_I2C_2
TO FB CN5701
BEM_SCL2 A14 GND GND BEM_SDA1 BEM_I2C_1
BEM_SCL1 A16 GND GND BEM_SDA3 BEM_I2C_3
BEM_SCL3 A18 GND GND BEM_LOG_TX BEM_LOG_RX GND GND
BEM_TXD3 BEM_RXD3
E_BINT B21 INV_PFC_DET A22 GND GND TV_RXD B22 A23 B23
E_BINT INV_PFC_DET AUDIO_VCC
AC_OFF_MUTE TV_RXD TV_TXD
Audio_Vcc
REC_A_9V F1000 5A 24V 6 5 GND 4 C
TV_TXD A24 GND GND TV_FLASH_M B24 A25 B25
JIG_RST A26 GND GND TVM_SDA2 B26 A27 TVM_SDA2 B27 TVM_SCL2 B28 A29 B29
JIG_RST VCC IN TVM_I2C_2 R
IC1003 RT8H225C
JL1028
1
TV_FLASH_M
OUT
FE_SDA2
FE_SCL2
001:3F TV_FLASH_M
7
5
3
1
7
5
3
1
RB1001 47
--
STBY3.3V
8
6
4
2
8
6
4
2
42
3
4
5
6
7
8
9
GND
5V
5V
L1001 22uH
D1000 MAZ8082G0LS0
C1064 220 25V
R1031 10k 5% 1005 RB1004 100k C1051 0.001 50V X7R 1005 SP_PROT
1 R1051 100k 1/16W CHIP 5%
2
3 INV_PFC_DET
2
TO DETECT
R1026 6.8k 5% 1005
TVM_SCL2 A28 GND GND SP_MUTE
Q1008 RT1N141C-TP-1
SP_MUTE
C1067 47 16V
NC A30 GND GND B30 A31 SP_PROT C1061 0 . 1 25V B STBY5V 1608 SHUTDOWN_MUTE REC_A_9V R1052 0 22uH L1002 TMP C1069 0.22 50V MPS R1025 100k 5% 1005 C1052 0.1 25V X7R 1608
SP_PROT B31 SHUTDOWN_MUTE GND A32 B32
C1042 0.22 50V MPS C1044 4.7 25V X7R 3216
D1006 MC2837
STBY5V A33 EMMA_LOG_RX EMMA_LOG_TX GND B33 A34 B34 FB1001 0uH EMMA_LOG_RX C1062 0 . 1 STBY3.3V 25V B 1608 FE_I2C_2 FB1002 0uH FE_SCL2 FE_SDA2 C1063 0 . 1 25V B 1608 EMMA_LOG_TX
C1017 0.1 25V X7R 1608
C1019 100 25V L1003 22uH TMP C1022 0.22 25V X7R 1608
C1043 0.22 50V MPS
R1023 120k 0.5% 1005
Q1006 RT3AMMM
STBY3.3V A35 FE_SCL2 B35 FE_SDA2 A36 GND B36
FL1000 EMI G
C1024 0.22 25V X7R 1608 P42 P41 P40 P39 P38 P37
P44
P48
P47
P46
FE_I2C_0 FE_SCL0 FE_SDA0 R1014 0 CHIP 2012 AMP_L C1011 0.001 50V X7R 1005 C1015 22 16V C1013 22 16V
12V A37 FE_SCL0 B37 FE_SDA0 A38 GND GND GND GND GND CN1001 80P BLK B38 A39 B39 A40 B40
C1018 1000p 50V CH 1005
P45
P43
R1024 120k 0.5% 1005
C1045 4.7 25V X7R 3216
Q1009 RT3N77M-TP-1
44
43
42
41
40
39
38
37
SHUTDOWN
GND
MUTE
LOUTN
LOUTN
AVCC
AVCC
LOUTP
LOUTP
FAULT
BSRN
BSRP
48
47
46
45
P1 P2 P3 P4 P5 P6 P7
GND 2 LINN 3 LINP 4 AGND 5 RINP 6 RINN 7 GAIN0 8 GAIN0 9 GAIN1 10 MSTR/SLV SYNC GND ROUTP ROUTP ROUTN ROUTN BSLP ROSC VREG VBYP AGND GND BSLN GND
GND PVCCR PVCCR PGNDR PGNDR
P36 P35 P34 P33 P32 P31 P30 P29 P28 P27 P26 P25 C1027 1000p 1005 CH 50V C1026 1000p 50V CH 1005 C1029 0.1 25VX7R 1608
C1034 47 35V
R1040 100k 1/16W RN-CP 0.5%
R1041 100k 1/16W RN-CP 0.5%
R1042 100k 1/16W RN-CP 0.5%
R1043 100k 1/16W RN-CP 0.5%
Q1007 RT3AMMM
C1050 0.1 25V X7R 1608
36
1
35 34 33 32 31
TPA3100D2PHPR IC1002
VCLAMPR VCLAMPL PGNDL PGNDL PVCCL PVCCL GND
C1030 1 25V 2012 X7R
C1038 1500 35V R1027 0 2012
C1046 1000p 50V CH 1005
C1048 1000p 50V CH 1005 1 2 L+ LRR+
To SPEAKERS
30
C1012 0.001 50V X7R R1015 1005 0 CHIP 2012
P8 C1016 22 16V R1047 P9 0 P10 P11 C1014 22 16V P12
C1031 1 25V 2012 X7R C1032 0.1 X7R 25V 1608 C1035 47 35V C1039 1500 35V
29 28 27 26
R1028 0 2012
TO G
AU_18V 1 2 3 4 AUDIO_VCC
AMP_R
R1029 0 2012 R1030 0 2012
3 4
11 12
25
CN1002 4P BLK C1047 1000p 50V CH 1005 C1049 1000p 50V CH 1005
P13
P14
P15
P16
P17
P18
P19
P20
P21
P22
P23
AU_GND AU_GND CN1003 4P
R1019 47k 5% 1005
C1023 0.22 25V X7R 1608
C1025 0.22 25V X7R 1608 L1004 22uH TMP C1040 0.22 50V MPS
M1MA152WA-T1 D1005
R1049 10k 1/16W CHIP 5% 1 4 R1021 47k 5% 1005 R1022 100k 0.5% 1005
P24
TO G CN6902
RB1003 22k
17
18
19
20
21
22
23
24
13
14
15
16
AU_18V
C1070 0.22 50V MPS
REC_FB_3.3V AC_OFF_MUTE
R1016 1k 5% 1005
SP_MUTE
R1005 10k 1/16W CHIP 5%
R1050 Q1005 10k 1/16W RT3WLMM-TP-1F CHIP 5%
2
5 3 6 R1020 47k 5% 1005
C1041 0.22 50V MPS C1021 C1020 22 0 . 0 1 16V 25V X7R 1005
D1003 D1002 MAZ8056G0LS0 MAZ8056G0LS0
D1004 MAZ8056G0LS0
L1005 22uH TMP
O
INV_PFC_DET
D1001 M1MA152WA-T1
R1004 0 CHIP SHUTDOWN_MUTE
A
AUDIO
Q1004 RT3N11M-TP-1
--
HDMI_MUTE
Q1011 RT1N141C-TP-1
P
A-1273-122-A A
KDS-50A3000/55A3000/60A3000
22
KDS-50A3000/55A3000/60A3000
A
A
[AUDIO]
A
2
CN1003 L1001 4 1
[AUDIO]
COMPONENT SIDE
1 3
CN1002
CONDUCTOR SIDE
1 2
RB1004 Q1007 C1052 R1024 Q1006 C1038 C1045 R1042 R1043 R1031 C1051 Q1009
3
F1000
5A 25V
ET1000
ET1002 C1057 C1058
A
R1026 C1050 R1025
C1044 R1023
R1027 C1048 R1028 C1046
R1029 C1047 R1030 C1049
C1023 C1025
R1038 R1036
C1064 C1019
C1066
IC1002 C1034 C1028 C1035
R1039 R1037
C1039
C1043
B
B
C1033 C1031 C1030 L1003 L1004 C1029 C1026 36 C1032 C1027 25 24 R1021 R1019 R1016 C1037 C1070 C1040
37 C1042
C1041
C1069
48 C1036 C1018 L1002 C1017 1 12 R1022
13
D1004 C1020
R1033 R1035 C1056 R1032 R1034 C1055 C1022 C1024
C1053 C1054 C1006 D1006 C1007
R1052 C1067
Q1003
C
C1021
C1059
C1060
L1005
R1045 R1017 C1013 C1015 C1016 C1014
C
R1046 R1018
D1002 R1047 D1003
Q1005
R1050 C1068 JL1028 R1049 4 D1005 6 IC1003
R1011
Q1002
R1007
R1012
R1008 R1009
C1011 R1014 L1000
C1012 R1015 ET1003 C1010
ET1001 JL1003 JL1007 JL1009 JL1011 R1006 IC1001
C1005 R1044
Q1000
Q1001
C1009 RB1006 JL1023 JL1025
JL1001
JL1014
JL1018 JL1020 JL1022
CN10001
2 RB1007
42 JL1026
FB1003 C1065
RB1001 C1063 C1061 FB1001 JL1033 C1062 FB1002
JL1008 JL1010 JL1012 JL1013 JL1015 JL1017 JL1019
JL1002 JL1005
CN1001 39 40 79 80
JL1021
JL1024 1 2 41 42
E
E
KDS-50A3000/55A3000/60A3000
JL1031 JL1029
RB1002 JL1040
RB1000
JL1037
1-874-141-11
C1004
JL1036
JL1030
(172881511)
41
JL1038
D
A-1273-
122-A
JL1016
JL1027
D
(172881511) 1-874-141-11
FL1000
-
-
-
R1005
Q1004
JL1034 JL1000
JL1035
R1040 R1041 RB1003 R1020
R1048
3
JL1039
R1013 JL1032 C1008 R1010
1 R1051 Q1010
23
KDS-50A3000/55A3000/60A3000
BC BOARD SCHEMATIC DIAGRAM 1 | 2 | 3 | 4 | 5 | 6 | 7
1A[0] 1A[1] 1A[2] 1A[3] 1A[4]
|
1B[0] 1A[5] 1A[6]
8
1B[1] 1B[2] 1B[3] 1B[4]
|
9
|
10
|
11
|
12
|
13
|
14
|
15
|
16
|
17
|
18
|
19
|
20
|
21
|
22
|
23
|
24
|
A --
RB9902 68 +2.5V
1B[6]
1B[5]
1B[2]
1B[4]
1B[3]
1B[1]
1B[0]
1A[5]
1A[6]
1A[4]
1A[3]
1A[2]
1A[1]
RB9904 68
RB9908 68
1A[0]
7
5
3
1
7
5
3
1
7
5
3
1
2
B
FB9921 0uH 1005 140033121
8
6
4
2
8
6
4
2
8
6
4
2 FB9913 0uH 140033121 C9942 10 6.3V X6S 2012 34 RB4 33 RB5 1CLK RB6 CLKOUT GND RC0 RC1 RC2 RC3 32 8 31 30 29 2 28 8 1C[2] 7 1C[1] 1C[3] 5 1C[2] 1C[4] 3 1C[3] 1C[5] 1 1C[4] R9941 0 1005 54 55 56 57 1C[6] 1D[1] 3 1D[0] 1D[2] 1 1D[3] 7 1D[1] 1D[4] 5 1D[2] 1D[5] 3 1D[3] 1D[6] 1 1D[4] 64 TD4 PLLGND PLLVCC CLKIN PDWN GND GND VCC TD5 TD6 TE0 TE1 TE2 TE3 TE4 TE5 LVDSGND TE6 17 63 TD3 TE+ 18 62 TD2 TE19 61 TD1 TD+ 20 59 60 TD0 R/F TCLK+ TD22 21 58 TC6 TCLK23 TC3 TC4 GND TC5 LVDSVCC LVDSGND 27 26 25 24 53 TC2 TB+ 28 27 26 25 24 23 22 21 20 19 18 17 RB9917 68 6 8 C9934 0.01 25V X7R 1005 6 RB9915 68 1 1C[1] R9940 68 1005 6 5 1B[6] 1C[0] 1C[0] C9964 0.01 25V X7R 1005 49 50 51 52 TB6 TC0 VCC TC1 RB9914 68 7 48 TB5 1B[5] 47 GND 46 TB4 45 TB3 44 TB2 43 RS 42 TB1 41 TB0 40 TA6 39 GND 38 TA5 37 TA4 36 TA3 35 TA2 34 TA1 33 C9962 0.001 50V X7R 1005 32 C9960 0.01 25V X7R 1005 C9958 0.1 16V X7R 1005 C9954 10 6.3V X6S 2012 TA0 C9940 0.1 16V X7R 1005 C9938 0.01 25V X7R 1005 C9936 0.001 50V X7R 1005 R9972 10k 1005
C9930 0 . 0 1 25V X7R 1005
100mA
C9920 0.01 25V X7R 1005
1
-- C -- D -- E -- F --
To FB1A CN5601
R9904 100 1005 RN-CP
145722311 L9905 0uH 2 +3.3V 4 3
RB0
RB1
RB2
GND
RA0
RA1
RA2
RA3
RA4
RA5
VCC
RA6
VCC
RB3
C9909 10 6.3V X6S 2012
48
47
46
45
44
43
42
41
40
39
38
37
36
35
49 50
RARA+ RBRB+ LVCC RCRC+ RCLKRCLK+ LGND RDRD+ RERE+ PGND PVCC GND GND VCC RD6 RD5 RE6 RE5 RE4 RE3 RE2 RE1 RE0 R/F DK OE
FB9918 0uH 140033121
1
3
4
+3.3V
145722311 L9904 0uH
145722311 L9906 0uH 2 4
To C2 CN8400
CN9902 0uH 140049921 IRIS_CTRL2 0uH 140049921 IRIS_FB 0uH 140049921 IRIS_CTRL 0uH 140049921 NACEL_RST 0uH 140049921 PANEL_ON BEM_SCL2 BEM_SDA2 EPP_V 0uH 140049921 51P BLK FB9906 FB9907 FB9908 FB9909 FB9910 IRIS_CTRL2 IRIS_FB IRIS_CTRL NACEL_RST PANEL_ON SCL2 SDA2 EPP_V TO[0]N TO[0]P GND TO[1]N TO[1]P GND TO[2]N TO[2]P GND TOCLKTOCLK+ GND TO[3]N TO[3]P GND TO[4]N TO[4]P GND TE[0]N TE[0]P GND TE[1]N TE[1]P GND TE[2]N TE[2]P GND TECLKTECLK+ GND TE[3]N TE[3]P GND TE[4]N TE[4]P SET_ON MUTE2 WP2 SCL3 SDA3 CAYENNE_RST NACEL_MUTE IRIS_FB2 182139111
R9905 100 1005 RN-CP C9916 0.01 25V X7R 1005 R9906 100 1005 RN-CP
51 52 53 54 55
4
3
LVDS swing mode = Normal
LVDSGND TATA+ TB-
1
2
4
R9907 100 1005 RN-CP
56 57
IC9903
THC63LVD104S
RC4 RC5 VCC RC6 RD0 RD1 RD2 RD3 RD4
4
2
1
3
R9908 100 1005 RN-CP 1 2 3 4 5 6 7 8 9 IRIS_CTRL2 R9951 R9952 R9953 R9954 R9955 R9902 R9903 R9958 0 1005 IRIS_FB 0 1005 IRIS_CTRL 0 1005 NACEL_RST 0 1005 PANEL_ON 0 1005 BEM_SCL2 0 1005 0 1005 0 1005 BEM_SDA2 EPP_V C9911 0.01 25V X7R 1005 R9909 100 1005 RN-CP
59 60 61 62 63 64
1C[5] 1D[0]
2
IRIS_FB IRIS_CTRL NACEL_RST PANCEL_ON SCL2 SDA2 EPP_V RA1RA1+ GND RB1RB1+ GND RC1RC1+ GND RCLKRCLK+ GND RD1RD1+ GND RE1RE1+ GND RA2RA2+ GND
2
1
3
4
2
PD
4
2
1
2
3
4
5
6
7 R9937 10k 1005
8
9
10
11
12
13
14
15
16
1
3
R9933 10k 1005
10 11 12 R9931 100k1005
C9928 0 . 0 1 25V X7R 1005
R9926 10k 1005
13 14 15 16 17 18 19 20 21 22 23 24 25 26 C9921 0.1 16V X7R 1005
1D[5]
1D[6]
1E[2]
1E[0]
1E[1]
1E[3]
1E[4]
1E[5]
1E[6]
2 RB9900 68
4
6
8
2
4
6
8 RB9905 68
1CLK
1 1E[ 6]
3 1E[ 5]
5 1E[ 4]
7 1E[ 3]
1 1E[ 2]
3 1E[ 1]
5 1E[ 0]
7
2B[0]
2B[1]
2B[2]
2B[3]
2A[0]
2A[1]
2A[2]
2A[3]
2A[4]
2A[5]
27 28 29 30 RB9903 68 +2.5V 31 32 33 34 FB9920 0uH 1005 140033121 C9910 10 6.3V X6S 2012 C9922 0.01 25V X7R 1005
2A[6]
2B[4]
RB9906 68
RB9909 68
RB2+ GND RC2RC2+
2
2B[4]
2B[3]
2B[2]
2B[1]
2B[0]
2A[6]
2A[5]
2A[4]
2A[3]
2A[2]
2A[1]
2A[0]
4
8
6
4
2
8
6
4
2
8
6
4
2
C9931 0 . 0 1 25V X7R 1005
GND RCLK2RCLK2+ GND
35 36 37 38 39 40 41
RB0
RB1
RB2
RB3
RB4
RA0
RA1
RA2
GND
RA3
RA4
RA5
VCC
RA6
VCC
RB5
RD2+ GND RE2-
2CLK RB6 32 8 31 30 29 2 28 8 2C[2] 7 2C[3] 5 2C[4] 3 2C[5] 1 2C[1] 2C[2] 2B[6] 27 6 26 25 24 23 22 21 20 19 8 18 6 17 RB9913 68 C9935 0.01 25V X7R 1005 RB9911 68 1 2C[1] R9939 68 1005 RB9910 68 7 2B[5] 2B[5] 2B[6]
+3.3V
R9962 0 1005 BEM_SDA3 CAYENNE_RST NACEL_MUTE 140049921 140049921 140049921 R9963 0 1005 FB9903 0uH FB9904 0uH FB9905 0uH
2
4
3
SET_ON MUTE2 WP2 SCL3
44 45 46 47 48 49 50 51
SET_ON R9959 0 1005 AC_DET R9960 0 1005 WP2 R9961 0 1005 BEM_SCL3 R9900 0 1005 BEM_SDA3 R9901 0 1005 CAYENNE_RST R9964 0 1005 NACEL_MUTE R9965 0 1005 IRIS_FB2 R9966 0 1005
2C[0] TB5 TB4 TB3 TB2 RS TB1 TB0 TA6 TA5 TA4 TA3 TA2 TA1 GND GND TA0
1
3
53 54 55 56
LVCC RCRC+ RCLKRCLK+ LGND RDRD+ RERE+ PGND PVCC GND GND VCC RD6 RD5 RE6 RE5 RE4 RE3 RE2 RE1 RE0 R/F DK OE
RC1 RC2 RC3
49 2C[0] C9966 0.01 25V X7R 1005 50 51 52 53
TB6 TC0 VCC TC1 TC2 TC3 TC4 GND TC5 TC6 TD0 R/F TD1 TD2 TD3 TD4
LVDS swing mode = Normal
LVDSGND TATA+ TBTB+ LVDSVCC LVDSGND
32 31 30
145722311 L9913 0uH 2 4
-- J -- K
IC9904
THC63LVD104S
RC4 RC5 VCC RC6 RD0 RD1 RD2 RD3 RD4
2
CAYENNE_RST NACEL_MUTE IRIS_FB2 CN9900 51P BLK 182139111
4
SDA3
R9912 100 1005 RN-CP
1
R9913 100 1005 RN-CP
58 R9914 100 1005 RN-CP R9915 100 1005 RN-CP 59 60 61 62 63 64 C9913 0.01 25V X7R 1005
28 27 26 25
8
2C[6] 7 2D[0] 5 2D[1] 3 2D[2] 1 2D[3] 7 2D[4] 5 2D[5] 3
2C[3] 54 2C[4] R9943 0 1005 55 56 57 2C[6] 58 2D[0] 59 60 TCLK+ TDTD+ TETE+ LVDSGND PLLGND PLLVCC CLKIN PDWN GND GND VCC TD5 TD6 TE0 TE1 TE2 TE3 TE4 TE5 TE6 22 21 20 TCLK23
145722311 L9914 0uH 2 4
RB9912 68
4
6
2
2C[5]
IC9906 THC63LVD103D
TCTC+
1
145722311 L9915 0uH 2 4
4
PD
2
2D[6] 1
2D[1] 61 2D[2] 1 2D[3] 63 2D[4] 64 17 18 3 62 19
1
2
3
4
5 R9934 10k 1005
6
7
8
9
10
11
12
13
14
15
16
R9938 10k 1005
C9929 0.01 25V X7R 1005
+3.3V
R9927 1005
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16 R9981 0 1005 R9983 0 GND_1 1005
--
C9923 0.1 16V X7R 1005
10k
RB9901 68 2 4
6
8
2
4
6
8 RB9907 68 2D[5] 2D[6] C9967 0.01 25V X7R 1005
C9947 0.01 25V X7R 1005
R9979 0 1005
FB9917 0uH 140033121
R9980 0 1005
L
R9969 0 1005 +2.5V
R9930 0 1005 1 3 5 7 1 3 5 7
GND_1
GND_1
2CLK 2E[1] 2E[2] 2E[3] 2E[4] 2E[5] 2E[6] 2 E[ 0 ]
2E[6]
2E[5]
2E[4]
2 E[ 3 ]
2 E[ 2 ]
2 E[ 1 ]
--
C9902 0.01 25V X7R 1005
R3112N221A-TR-FA IC9900
CD OUT VDD NC GND 4 5 1
FB9912 0uH 1005 140033121
2 E[ 0 ]
GND_3
R9982 0 1005
R9984 0 GND_1 1005
GND_5
M
FROM FB1A
C9917 0.01 25V X7R 1005
+3.3V GND_2 R9989 0 1005 R9991 0 GND_1 1005 GND_4
R9987 0 1005
R9988 0 1005
+5V/UNREG7V +3.3V/UNREG7V +3.3V/UNREG7V GND
2 3 4 5 6
*R9967 0 1005 +3.3V *R9968 0 1005
NC
GND
IC9901 PQ070XNA1ZPH
2.5V REG
C9945 0.01 25V X7R 1005
GND_1
GND_1
VADJ
H M 181947411
C9907 0.01 25V X7R 1005
1
2
3
4
5 C9918 0.01 25V X7R 1005 C9924 10 6.3V X6S 2012 +2.5V
--
*C9905 1 10V X7R 1608
*R9916 0 1005
GND
N
VIN
VO
VC
GND CN9901 6P
Pd=0.16W Vref=1.23V 2%
GND_3
R9990 0 1005
R9992 0 GND_1 1005
GND_5
R9918 1.5k 1005 RN-CP
R9922 3.3k 1005 RN-CP
O
C9914 0.01 25V X7R 1005 R9919 1k 1005 RN-CP
BC
LVDS RX/TX
--
P
A-1337-113-A BC
KDS-50A3000/55A3000/60A3000
R9994 0 1005
--
+5V/UNREG7V
1
D9902 MMDL914T1
C9944 0.001 50V X7R 1005
CD
OUT VDD
R9970 0 1005
B
R9993 0 1005
R3112N291A-TR-FA IC9907
5 1
FB9915 0uH 1005 140033121
R9950 0 1005
CN9900 FROM FB
R9986 0 1005
A
R9985 0 1005
C9949 0.001 50V X7R 1005
C9951 0.01 25V X7R 1005
C9953 0.1 16V X7R 1005
C9957 10 6.3V X6S 2012
3
24
3
57
29
CN9900 FROM FB
GND_2
GND_4
CN9902 TO C
CN9902 TO C
1
52
RB+
RC0
C9963 0.001 50V X7R 1005
C9961 0.01 25V X7R 1005
C9959 0.1 16V X7R 1005
IRIS_FB2
2
I
6
5
RE2+
43 R9911 100 1005 RN-CP C9912 0.01 25V X7R 1005 51 RBGND
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
FB9919 0uH 140033121 C9956 10 6.3V X6S 2012
3
50
RA+
CLKOUT
4
42
4
R9910 100 1005 RN-CP
49
RA-
5
145722311 L9912 0uH
BEM_SCL3
6
--
RD2-
1
3
WP2
7
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
C9943 10 6.3V X6S 2012
C9941 0.1 16V X7R 1005
C9939 0.01 25V X7R 1005
C9937 0.001 50V X7R 1005
R9973 10k 1005
AC_DET
8
SET_ON
FB9900 140049921 0uH FB9901 140049921 0uH FB9902 140049921 0uH
2
4
9
FB9914 0uH 140033121
10
145722311 L9911 0uH
11
H
1
3
+3.3V
15
--
RB2-
14
145722311 L9910 0uH
16
7
5
3
1
7
5
3
1
7
5
3
1
20
19
G
30
29
C9965 0.01 25V X7R 1005
R9947 10k 1005
32
FB9916 0uH 140033121
33
C9946 0.01 25V X7R 1005
C9948 0.001 50V X7R 1005
C9950 0.01 25V X7R 1005
C9952 0.1 16V X7R 1005
C9955 10 6.3V X6S 2012
34
+3.3V
35
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
37
36
31
28
27
26
25
24
23
22
21
18
17
13
12
41
40
145722311 L9909 0uH
44
RB9916 68
4
4
IRIS_CTRL2
5
45
6
TC+
R9956 0 1005 R9957 0 1005 FB9911
7
46
FROM FB1A
58
8
1C[6]
IC9905 THC63LVD103D
TC-
145722311 L9908 0uH
50
29
51 49 48 47 43 42 39 38
30
145722311 L9907 0uH
3
31
2 3 2 3 4
24
KDS-50A3000/55A3000/60A3000
BC
A
[LVDS RX/TX]
BC
2 3 4
CN9901 CN9901
[LVDS RX/TX]
COMPONENT SIDE
1
R9986 R9984
CONDUCTOR SIDE
5 1
JL9908
2
C9981 R9919 R9923 R9922
3
R9977 C9982 C9982 R9921 R9925
4
R9994
5
R9992
R9978
JL9903
R9920
R9967
R9968
R9918
R9924
C9926
IC9902
cam23
IC9901
cam22
A
R9982 R9990 R9980 R9988
JL9907
C9924
D9904
C9918
R9946
C9927
R9976 R9975
C9915
C9925
R9949
C9919
C9904
C9984
C9914
D9900
D9902
D9901
D9903
C9906
C9907
C9905
C9908
R9916
R9917
C9903
C9983
JL9900
JL9901
CN9901
cam24
cam17
RB9907
cam11
cam7
RB9901
C9976 C9975
JL9911 JL9911
JL9909
R9966
C9901
R9965
C9969
C9973
C9979
C9957
cam10
R9964 C9971
RB9913
FB9905
R9961
R9960
R9959
JL9913
C9967
C9949
C9951
C9953
C9937
C9939
C9941
cam8
R9927
R9929
R9934
C9913
FB9904
FB9920
R9963 R9915 R9962
R9901
FB9903
FB9917
R9943
FB9914
R9900
C9929
B
L9915 L9914
L9913
L9912
IC9906 IC9904
RB9911 RB9910 RB9909 RB9909
C9922
C9910 C9933
C9935
R9944
C9943
R9948
FB9902
C9923
R9932
R9936
R9938
RB9912
R9914
R9913
B
JL9902
FB9901
FB9919
JL9915 JL9915
FB9900
C9947
C9956
C9963
C9961
C9959
R9912 R9973 R9974 C9966
CN9902 CN9902
C D
CN9900 CN9900
R9911
C9912 C9931
R9939
R9910
JL9905
L9911 L9910 L9909
C9978
C9944
IC9907
R9950
RB9906
RB9903
L9908 L9907 L9906
IC9906 IC9904
RB9905
cam20
IC9900
R9970
113-A A-1337-
R9930 R9969
(172911511)
C9902
C9977
C9945
L9905 RB9900
cam21
C
CN9900
C9911 R9909 R9908 cam12
1-875-104-11
FB9912
FB9915
C9917
L9904
R9957
C9980
C9955
RB9917
JL9912
FB9911
C9965
C9948
C9950
C9952
C9936
C9938
C9940
R9926
R9928
R9933
R9958
FB9910
FB9921 FB9916
R9906
-
R9983
1-875-104-11
(172911511)
R9979
R9987 R9981 R9989
-
KDS-50A3000/55A3000/60A3000
-
R9956
R9903
R9941 R9902 C9928 R9942
FB9913
FB9909
IC9905 IC9903
RB9915 RB9914 RB9908 RB9908
C9920
C9909 C9932
C9934
C9942
R9947
C9921
R9931
R9935
R9937
RB9916
FB9908
JL9914 JL9914
CN9902
R9985
FB9907
FB9918
R9907
C9946
FB9906
JL9906 JL9906
C9954
C9962
C9960
C9958
R9972
R9971
C9964
R9905
C9916
R9955 R9904 R9954 C9972 R9953 C9974
C9930
R9940
JL9904
IC9903
RB9904 RB9902
R9952
R9951
D
C9970
cam4 cam4
C9968
C9900
IC9905
JL9910
R9991 R9993
25
KDS-50A3000/55A3000/60A3000
F BOARD SCHEMATIC DIAGRAM _ _ _ _
TO G CN6006
AC IN AC IN
_
² % ²
Mount Mecha TP6001 410314301
2P CN6001
$
2
1
C6001 470p 250V B
C6005 470p 250V B
GND_1
&
4
VD6002
1
²
1
3 L6002 9mH CN6003 1P C6002 470p 250V B
2
'
1
GND_1
C6006 470p 250V B
² ( ² ) ² * ²
CN6004 1P C6009 0.22 250V PT 4 1
3 L6001 9mH R6001 1M 1/2W RN
2
TK6000 E TK6001 E
C6017 0.47 250V PT C6016 0.47 250V PT VD6000 FH6000 F6000 5A 250V
F
LINE FILTER
3.4mm 3.4mm CA6002 3.4mm CA6000
FH6001
CA6003 3.4mm
+
1 2
AC IN
AC IN
² , ²
KDS-50A3000/55A3000/60A3000
A-1269-159-A F
CN6000 2P
CA6001
26
KDS-50A3000/55A3000/60A3000
F
A
[LINE FILTER]
COMPONENT SIDE
1
EY6013
2
EY6012 VD6002
3
AC IN(N)
AC IN(L) EY6058
JW6900
JW6901
JW6902
JW6903
L6002
1 EY6059
1
CN6001
2
2
EY6008
B
EY6009 EY6006 C6009
C6001
C6005
F
CN6007
[LINE FILTER]
CONDUCTOR SIDE
1
VD6002
EY6007 EY6011 EY6010
C6006
JW6000
2
3
C
A-1315-
L6001
1-874-150-11 (172881612)
C6002
A
1-874-150-11 (172881612)
M D
AC IN(L)
AC IN(N) L6002
FH6000 EY6004 TP6001
EY6005
D
2 EY6002 EY6060 EY6061
CN6001
1
R6001 EY6057
T5AH/250V
B
C6016 C6005 C6001 C6009 C6006 CN6007
EY6003
E
EY6001 2 AC IN(L)
C6017 EY6056 EY6000 1 CN6005
FH6001
F6000
AC IN(N)
VD6000
AC CORD
TK6000
CN6000 TK6001
CN6002
F
CN6003
CN6004 TP6001 FH6000
KDS-50A3000/55A3000/60A3000
1 1
2 2
C
PF LP
AC IN(N) CA6000 CN6005 TK6001
F6000
C6002 L6001
T5AH/250V
D
R6001 C6016
FH6001
JL6002
C6017 AC IN(L) CN6000 VD6000
E
1
2
JL6001 CA6001 TK6000
CA6002
CA6003
F
CN6004
CN6003
CN6002
27
KDS-50A3000/55A3000/60A3000
FB1A BOARD SCHEMATIC DIAGRAM (1 OF 17) 1 | 2 |
JL5700 UART2_DCD
3
|
4
|
5
|
6
|
7
|
8
|
9
|
10
|
11
|
12
|
13
|
14
|
15
|
16
|
17
|
18
|
19
|
20
|
21
|
22
|
23
|
24
|
A --
To U
2
JL5701 UART2_CTS JL5702 UART2_RXD JL5703 UART2_TXD
L5605 0uH
1
3
4
CN5601 LVDS_DLL1.2V 2 51P BLK NC IRIS_FB IRIS_CTRL NACEL_RST PANEL_ON SCL2 SDA2 EPP_V TO[0]N TO[0]P GND TO[1]N TO[1]P GND TO[2]N TO[2]P GND TOCLKTOCLK+ GND TO[3]N TO[3]P GND TO[4]N TO[4]P GND TE[0]N TE[0]P GND TE[1]N TE[1]P GND TE[2]N TE[2]P GND TECLKTECLK+ GND TE[3]N TE[3]P GND TE[4]N TE[4]P SET_ON MUTE2 WP2 SCL3 SDA3 CAYENNE_RST NACEL_MUTE NC IPX ST 51p 182138811 4
JL5704 UART2_RTS JL5705 X_MDM_RST HP_DET
L5606 0uH
1
3
2
1005
4
GND GND GND PC_H_IN
B1 A2 B2 A3 B3 A4 B4 A5 B5 A6 B6 A7 B7 A8 B8 A9 B9 A10 B10 A11 B11 A12 B12 A13 B13 A14 B14 A15 B15 A16 B16 A17 B17 A18 B18 A19 B19 A20 B20 A21 B21 A22 B22 A23 B23 A24 B24 A25 B25 A26 B26 A27 B27 A28 B28 A29 B29 A30 B30 A31 B31 A32 B32 A33 B33 A34 B34 A35 B35 A36 B36 A37 B37 A38 B38 A39 B39 A40 B40 AMP_R AMP_L ATT_SW C5729 C5728 100p 0.01 50V 25V CH X7R 1005 1005 FB5707 0uH TV_M_R R5814 0 TV_M_L R5812 0 C5726 100p 50V CH 1005 C5724 0.01 25V X7R 1005 FB5705 0uH C5713 10 10V X7R 3216 C5716 4.7 25V X7R 3216 TU_V R5813 0 C5725 100p 50V CH 1005 C5723 0.01 25V X7R 1005 FB5704 0uH R5854 0 HDMI_MUTE R5841 R5788 R5767 R5770 0 FE_SDA1 R5769 R5772 0 C5745 0.01 25V X7R 1005 R5846 0 CHIP 0 FE_SDA2 STBY5V 0 FE_SPDIF 0 FE_SCL1 0 FE_SCL2 EMMA2_AOLRCK R5794 R5789 R5792 0 EMMA2_AOMCK 0 EMMA2_AOBCK 0 EMMA2_AOD0 R5790 R5791 R5793 0 EMMA2_AOD1 0 EMMA2_AOD2 0 DAC_RST R5840 R5811 R5771 0 PC_SYNC_INT 0 DSP_INT 0 VSW_PW_CTRL R5810 R5838 0 DATA_SLICER_MAIN 0 I2C_TAS_SDA_2 R5809 R5816 0 DTT_PON 0 DSP_MUTE R5834 R5808 0 I2C_TAS_SCL_2 0 DSP_RST R5806 R5807 0 LINE_MUTE 0 R5775 0 M_C DSP_MUTE2 M_CB/B M_CV/Y M_CR/R M_Y/G PC_H_OUT R5751 R5749 R5752 R5750 0 PC_H_IN 0 PC_V_OUT 0 PC_V_IN 0
GND GND GND REC_FB_3.3V AMP_R AMP_L GND HDMI_MUTE ATT_SW REC_ON GND GND NC NC GND GND JIG_BEM_RST MODE_BEM GND GND BEM_CODE_RX BEM_CODE_TX GND GND BEM_SDA2 BEM_SCL2 GND GND BEM_SDA1 BEM_SCL1 GND GND BEM_SDA3 BEM_SCL3 GND GND BEM_LOG_TX BEM_LOG_RX GND GND E_BINT INV_PFC_DET GND GND TV_RXD TV_TXD GND GND TV_FLASH_M JIG_RST GND GND TVM_SDA2 TVM_SCL2 GND GND SP_MUTE NC GND GND SP_PROT SHUTDOWN_MUTE GND STBY5V EMMA_LOG_RX EMMA_LOG_TX GND STBY3.3V FE_SCL2 FE_SDA2 GND 12V FE_SCL0 FE_SDA0 GND GND GND GND GND CN5701 80P BLK
B1 A2 B2 A3 B3 A4 B4 A5 B5 A6 B6 A7 B7 A8 B8 A9 B9 A10 B10 A11 B11 A12 B12 A13 B13 A14 B14 A15 B15 A16 B16
1
2
REC_FB_3.3V R5844 0
3
4
1
3
5
6
PC_H_OUT PC_V_IN PC_V_OUT GND
AMP_R R5795 R5796 0 AMP_L 0 HDMI_MUTE R5839 R5835 R5776 0 ATT_SW 0 DTT_PON 0
001:2H 001:2H
LVDS1_TAM LVDS1_TAP LVDS1_TBM
FB5612 0uH
2
001:2F 001:2G 001:2D;024:10J;017:6H;017:15B
LVDS1_TBP LVDS1_TCM LVDS1_TCP LVDS1_CKM LVDS1_CKP LVDS1_TDM LVDS1_TDP LVDS1_TEM LVDS1_TEP
GND GND GND M_CR/R
2
M_Y/G GND GND M_CB/B
2
JIG_BEM_RST R5724 R5722 0 MODE_BEM 0
LVDS_DLLVDD LVDS_DLLVSS LVDS2_TAM LVDS2_TAP
L5610 0uH
GND GND M_C DSP_MUTE2
2
BEM_CODE_TX R5721 0
LVDS2_TBP LVDS2_TCM LVDS2_TCP
L5611 0uH 2 4
GND GND DSP_RST LINE_MUTE
BEM_SDA2 R5730 R5732 0 BEM_SCL2 0
LVDS2_CKM LVDS2_CKP LVDS2_TDM LVDS2_TDP
GND DSP_MUTE I2C_TAS_SCL_2 GND
2
BEM_SCL1 R5731 0
LVDS2_TEP
1
3
I2C_TAS_SDA_2 REC_ON GND
B17 A18 B18 A19 B19 A20 B20
BEM_SDA3 R5733 R5735 0 BEM_SCL3 0
2
4
1
DATA_SLICER_MAIN
BEM_LOG_RX R5728 0
GND DAC_RST PC_SYNC_INT DSP_INT GND EMMA2_AOD0
2
4
A21 B21 A22 B22 A23 B23 A24 B24 A25 B25 A26 B26 A27 B27 A28 B28 A29 B29 A30 B30 A31 B31 A32 B32 A33 B33 A34 B34 A35 B35 A36 B36 A37 B37 A38 B38 A39 B39 A40 FE_SCL0 R5766 R5768 0 FE_SDA0 0 C5744 C5743 0.01 100p 25V 50V X7R CH 1005 1005 FB5711 0uH FE_SCL2 R5831 R5832 0 FE_SDA2 0 R5803 0 EMMA_LOG_RX R5765 R5763 0 EMMA_LOG_TX 0 C5740 0.01 25V X7R 1005 SP_PROT R5805 R5837 0 SHUTDOWN_MUTE 0 R5845 0 STBY5V SP_MUTE R5836 0 TVM_SDA2 R5842 R5843 0 TVM_SCL2 0 TV_FLASH_M R5801 R5802 0 JIG_RST 0 TV_RXD R5799 R5800 0 TV_TXD 0 L5604 0uH E_BINT R5738 R5830 0 INV_PFC_DET 0 L5603 0uH
R5856 0
1
3
EMMA2_AOD2 GND EMMA2_AOLRCK EMMA2_AOMCK
1
-- H -- I -- J -- K -- L
EMMA2_AOBCK GND HDMI_MUTE FE_SPDIF FE_SCL1 FE_SCL2 FE_SDA1 FE_SDA2 GND GND STBY5V INV_PFC_DET V_DET GND REC_6V TV_M_R TV_M_L GND REC_4.2V ATT_SW 12V GND 12V AMP_R AMP_L GND GND GND GND GND CN5700 80P BLK
STBY3.3V
FE_12V
C5741 0.01 25V X7R 1005 FE_12V
3
FE_12V FB5606 0uH
C5608 C5605 100p 0.01 50V 25V CH X7R 1005 1005
1 2 3
FB5607 0uH
4 5 6 7 8
B40 9 BE_7V C5607 C5604 C5602 220 100p 0 . 0 1 16V 50V 25V CH X7R 1005 1005 FB5602 0uH 10 11 12 GND 6V GND 6V GND 6V GND 6V GND GND GND GND NC NC PFC_DET EX_C_BOARD_FAN STBY5V FAN_DRV NC(OV) LAMP_EX_FAN(FAN1) AC_RLY PANEL_FAN(FAN3) PANEL_FAN_ON C_BOARD_FAN(FAN5) FAN_ERR 5V CN5602 34P WHT
To A CN1001
PQ070XNA1ZPH IC5700
13 14
FB5603 0uH
REC_FB_5V
COM_REC_5V 300mA FE_REC_5V 1005 C5701 10 10V X7R 3216 FB5703 0uH STBY5V C5711 C5712 10 0.01 10V 25V X7R X7R 1005 3216
15 16 17 18
FE_7V
Vadj
1 R5818 0 1608 R5819 0 1608
2
3
4
5
GND
Vin
Vo
Vc
FB5604 0uH
19 20
C5703 1 25V 2012
R5702 2.7k 0.5% 1005 R5703 390 0.5% 1005
FB5605 0uH
21 22
C5700 0.01 25V
X7R
PQ070XNA1ZPH IC5701
C5718 C5719 0 . 0 1 100p 25V 50V FB5706 X7R CH 0uH 1005 1005
PFC_DET R5823 0 FAN2_CNT *R5847 0 FAN_DRV R5820 0
23 24 25 26 27
--
Vadj GND Vin Vo Vc REC_4.2V 1 2 3 4 5
R5817 1k 5% 1005 R5704 1k 0.5% 1005
FAN1_CNT R5822 0 AC_RLY R5821 0 FAN3_CNT R5824 0 PANEL_FAN_ON
28 29 30 31 32 33 34
REC_TU_3.3V
M -- N --
TV_M_LR_IN
R5705 0 1608 R5706 0 1608 C5706 1 25V 2012 R5708 680 0.5% 1005 R5709 1k 0.5% 1005 R5707 1k 5% 1005 FB5709 0uH 1608 FE_7V R5710 1k 0.5% 1005 C5708 0.01 25V X7R 1005 C5709 10 6.3V X6S 2012
To TUU2
X7R
R5825 0 COM_REC_5V FAN5_CNT R5826 0 FAN_ERR_G R5827 0
CN1002
TV_M_L TV_M_L GND GND REC_3.3V TV_M_R GND GND UNREG_6V 1 2 3 4 TV_M_R 5 6 7 8 9 UNREG_6V GND GND TV_GR_V 12V 10 11 12 13 14 15 16 17 R5701 0 18 19 TUHSYNC_MAIN TU_V C5738 100p 50V CH 1005 C5733 0.01 25V X7R 1005 FB5710 0uH FE_12V C5737 100p 50V CH 1005 C5734 0.01 25V X7R 1005 FB5708 0uH C5736 100p 50V CH 1005 C5735 0.01 25V X7R 1005 REC_TU_3.3V
REC_TU_3.3V
R5828 0
C5721 0.01 25V X7R 1005
C5720 100p 50V CH 1005
CHIP 0 R5853
O --
CN5702 20P
GND GND MAIN_H
FB1A 1/17
CONNECTORS/LVDS
20
1.25mm_20P_Top
P
A-1273-124-A P1
KDS-50A3000/55A3000/60A3000
2
NACEL_MUTE
3
G
EMMA2_AOD1
2
4
CAYENNE_RST
0uH FB5622 0uH FB5623
R5631 0
4
BEM_SDA3
R5630 0
5
BEM_SCL3
6
WP2
7
--
0 SET_ON2 RB5601
AC_DET
FB5613 0uH FB5615 0uH FB5621 0uH
8
SET_ON
10
9
To U CN001
11
R5726
0
3
VSW_PW_CTRL
BEM_LOG_TX
12
F
GND
13
L5602 0uH
14
TMP
15
IC4900 CXD4716GB
16
--
GND
A17
18
L5601 0uH
19
R5729
0
L1
4
BEM_SDA1
LVDS2_TEM
20
L2
21
E
GND
L3
22
L4
23
M1
1
3
24
M2
L5600 0uH
25
M3
1
3
26
--
M4
27
R5723
0
N1
4
BEM_CODE_RX
LVDS2_TBM
28
N2
29
N3
30
D
M_CV/Y
N4
1
3
31
P6
32
N6
4
33
P1
34
P2
35
--
P3
1
3
36
P4
37
R1
L5609 0uH
4
38
R2
39
C
GND
R3
40
R4
1
3
41
T1
L5608 0uH
42
T2
4
43
T3
44
--
T4
7
8
BEM_SDA2
EPP_V
47
PORTION6
L5607 0uH
BEM_SCL2
PANEL_ON
48
B
GND
A1
R5833
0
GND
A1
C5600 0.001 50V X7R 1005
C5601 0.01 25V X7R 1005
C5606 0.1 16V
C5609 10 6.3V X6S 2012
22 RB5600
NACEL_RST
49
C5739 0.01 25V X7R 1005
IRIS_CTRL
FB5617 0uH FB5618 0uH 0uH FB5624 FB5608 0uH
50 46 45 17 1
To A
IRIS_FB
51
To BC CN9900
GND 12V GND 12V GND 12V GND GND
To G CN6903
28
KDS-50A3000/55A3000/60A3000
FB1A BOARD SCHEMATIC DIAGRAM (2 OF 17) 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 |
A -- B
BE_7V BE_3.3V
EPP1.2V
RSS050P03FTB Q4100
8 1 1
C4100 C4105 4.7 4.7 25V 25V X7R X7R 3216 3216
RSS100N03TB Q4104
8 S1 D4
--
3.15A
L4101 4.7uH
JL4116