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Self Diagnosis
Supported model
SERVICE MANUAL
CPD-E530
AEP Model
Chassis No: SCC-L33T-A
21CR1 CHASSIS
SPECIFICATIONS
Picture tube 0.24 mm aperture grill pitch (center) 21 inches measured diagonally 90-degree deflection FD Trinitron 19.8" viewing image Approx. 403.8 X 302.2 mm (w/h) (16 x 12 inches) Deflection frequency* Horizontal: 30 kHz to 117 kHz Vertical: 48 kHz to 170 kHz AC input voltage/current 100V to 240V, 50 - 60Hz, 2.0 - 1.0A Dimensions Mass Horizontal: Max. 1600 dots Vertical: Max. 1200 lines Approx. 388 x 291 mm (w/h) (153/8 x 111/2 inches) Approx. 364 x 291 mm (w/h) (143/8 x 111/2 inches) Analog RGB (75 ohms typical) 0.700 Vp-p Positive H/V Separate or Composite sync TTL 2 k ohms, Polarity free Sync on Green: 0.3 Vp-p Negative 135 W Plug and Play
*
Video image area
497 x 502 x 485 mm (w/h/d) (195/8 x 19 x 187/8 inches) Approx. 30 kg (66 lb 2 oz.) DDC2B/DDC2Bi, GTF**
Resolution *Recommended Addressable: Standard image area or Input signal
**
Video Sync
Recommended horizontal and vertical timing condition Horizontal sync width duty should be more than 4.8% of total horizontal time or 0.8 µs, whichever is larger. Horizontal blanking width should be more than 2.3 µsec. Vertical blanking width should be more than 450 µsec. If the input signal is Generalized Timing Formula (GTF) compliant, the GTF feature of the monitor will automatically provide an optimal image for the screen.
Design and specifications are subject to change without notice.
Power consumption 9-878-801-01
TRINITRON® COLOR MONITOR
CPD-E530
TABLE OF CONTENTS
SECTION TITLE PAGE
Power Management .................................................................................................................................. 4 Diagnosis Function.................................................................................................................................... 4 Timing Specification .................................................................................................................................. 5 Warnings and Cautions ............................................................................................................................. 6 Safety Check-Out...................................................................................................................................... 7 SECTION 1: DISASSEMBLY.................................................................................................................................. 8 Cabinet Removal ............................................................................................................................. 8 Service Position............................................................................................................................... 9 A1 Board (C Block) Removal ........................................................................................................ 10 A1 Board Removal ........................................................................................................................ 10 Bezel Assembly and H1 Board Removal........................................................................................11 D Board Removal .......................................................................................................................... 12 Picture Tube Removal ................................................................................................................... 13 Anode Cap Removal ..................................................................................................................... 13 1-8. Harness Location .......................................................................................................................... 14 SECTION 2: SAFETY RELATED ADJUSTMENTS.............................................................................................. 15 2-1. HV Regulator Circuit Check .......................................................................................................... 15 2-2. HV Protector Circuit Check............................................................................................................ 15 2-3. Beam Current Protector Circuit Check .......................................................................................... 15 SECTION 3: ADJUSTMENTS .............................................................................................................................. 16 3-1. 3-2. 3-3. 3-4. 3-5. 3-6. Landing Rough Adjustment ........................................................................................................... 16 Landing Fine Adjustment............................................................................................................... 16 Convergence Rough Adjustment................................................................................................... 17 White Balance Adjustment Specification ....................................................................................... 17 Vertical and Horizontal Position and Size Specification ................................................................ 18 Focus Adjustment.......................................................................................................................... 18 1-1. 1-2. 1-3. 1-4. 1-5. 1-6. 1-7.
SECTION 4: DIAGRAMS...................................................................................................................................... 19 4-1. Circuit Boards Location ................................................................................................................. 19 4-2. Printed Wiring Board and Schematic Diagram Information........................................................... 19 4-3. Block Diagrams ............................................................................................................................. 20 A1 Block Diagram, H1 Block Diagram, and L2 Block Diagram ..................................................... 20 DA Block Diagram and N Block Diagram ...................................................................................... 21 D Block Diagram ........................................................................................................................... 22 4-4. Schematics and Supporting Information ....................................................................................... 23 H1 Board Schematic Diagram ....................................................................................................... 23 A1 Board Schematic Diagram ....................................................................................................... 24 D Board Schematic Diagram ......................................................................................................... 26 DA Board Schematic Diagram....................................................................................................... 28 N Board Schematic Diagram ......................................................................................................... 29 L2 Board Schematic Diagram ....................................................................................................... 30 4-5. Semiconductors............................................................................................................................. 31 SECTION 5: EXPLODED VIEW ........................................................................................................................... 33 5-1. Chassis.......................................................................................................................................... 33 5-2. Picture Tube .................................................................................................................................. 34 5-3. Packing Materials .......................................................................................................................... 35 SECTION 6: ELECTRICAL PARTS LIST............................................................................................................ 36
--3--
CPD-E530
POWER MANAGEMENT
The power saving mode complies with the VESA Display Power Management Signaling standard. Each state of power management shall be activated by the host computer terminating the appropriate sync signals. Blanking the video must precede termination of the sync signals. The elapsed time counter shall also be controlled by the host computer. Reactivation of the monitor shall be accomplished from the host computer by re-establishing the normal sync signal.
Power consumption mode 1 2 3 Normal operation Screen (video) active Horizontal sync signal yes no* -Vertical Power sync signal consumption yes no* -< 135 W <3W 0 W (approx) -Recovery time -Indicator Green Orange Off
Active-off* (deep sleep)** blank Power-off --
* When your computer enters power saving mode, the input signal is cut and NO SIGNAL appears on the screen before the monitor enters active mode. After a few seconds, the monitor enters power saving mode. * "Deep sleep" is power saving mode defined by the Environmental Protection Agency.
DIAGNOSIS FUNCTION
When a failure occurs, the STANDBY/TIMER lamp will flash a set number of times to indicate the possible cause of the problem. If there is more than one error, the lamp will identify the first of the problem areas.
Status 1 2 3 4 5 Failure 1 Failure 2 Failure 3 Failure 4 Aging/Self Test Area of Failure +B Horizontal/Vertical Deflection Failure Thermal Protector ABL Protector HV Failure LED Indication Amber (0.5 second) / Off (0.5 second)
Amber (1.5 second) / Off (0.5 second)
Amber (0.5 second) / Off (1.5 second)
Amber (0.25 second) / Off (0.25 second) Amber (0.25 second) / Off (1.25 second) Amber (0.5 second) / Off (0.5 second) Green (0.5 second) / Off (0.5 second) Green (OSD Indication)
6
Out of scan range
Aging Mode (Video Aging): Self Test (OSD Color Bar): Reliability Check Mode:
During Power Save, press MENU button for longer than 2 seconds. During Power Save, push up Control button for longer than 2 seconds. During Power Save, push down Control button for longer than 2 seconds.
--4--
CPD-E530
TIMING SPECIFICATION
MODE AT PRODUCTION RESOLUTION CLOCK --HORIZONTAL-H-FREQ H. TOTAL H. BLK H. FP H. SYNC H. BP H. ACTIV --VERTICAL-V. FREQ (HZ) V. TOTAL V. BLK V. FP V. SYNC V. BP V. ACTIV --SYNC-INT(G) EXT (H/V) /POLARITY EXT (CS) /POLARITY INT/NON INT
MODE 1 640 X 480 25.175 MHz 31.469 kHz usec 31.778 6.356 0.636 3.813 1.907 25.422 59.940 Hz lines 525 45 10 2 33 480 NO YES N/N NO NON INT
MODE 2 1600 X 1200 229.500 MHz 106.250 kHz usec 9.412 2.440 0.279 0.837 1.325 6.972 85.000 Hz lines 1250 50 1 3 46 1200 NO YES P/P NO NON INT
--5--
CPD-E530
WARNINGS AND CAUTIONS CAUTION
Short circuit the anode of the picture tube and the anode cap to the metal chassis, CRT shield, or carbon painted on the CRT, after removing the anode.
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!!
Apres avoir deconnecte le cap de l'anode, court-circuiter l'anode du tube cathodique et celui de l'anode du cap au chassis metallique de l'appareil, ou la couche de carbone peinte sur le tube cathodique ou au blindage du tube cathodique. 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 ŕ 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.
--6--
CPD-E530
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. 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. 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 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).
7.
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 troublelight (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).
8.
To Exposed Metal Parts on Set
Trouble Light AC Outlet Box Ohmmeter
0.15 µF
1.5 K
AC Voltmeter (0.75 V)
Cold-water Pipe
Earth Ground Figure A. Using an AC voltmeter to check AC leakage. Figure B. Checking for earth ground.
--7--
CPD-E530
SECTION 1: DISASSEMBLY 1-1. CABINET REMOVAL
Push in the tip of a screwdriver about 10mm to unlock the claw.
Cabinet Cabinet
Bezel assembly
Bezel assembly 2
Two claws
3
5
Three screws (+BVTT 4 x 8)
A
Push the upper side of the cabinet in the direction of arrow A , disconnect claws, then remove the cabinet lifting it up in the direction of arrow B .
7
EMI shield
1
B
Two screws (+BVTP 4 x 16)
4
Three screws (+BVTT 4 x 8)
EMI shield
C
6
Slide the EMI shield in the direction of arrow C and remove four claws.
--8--
CPD-E530
1-2. SERVICE POSITION
1 2 3 4
Remove the D board. Remove the Video block assembly. Install the Adaptor board (XT MOUNT) (A-1391-123-A). Lay the Video block assembly.
Video block assembly
2 4
D board
3 1
5
Install the video block assembly.
Video block assembly
6
Put a box which is about 15cm in height under the D board to fix it. (Please disconnect the CN 701 first.) D board
Box
--9--
CPD-E530
1-3. A1 BOARD (C BLOCK) REMOVAL
1
CN318
A1 board (C BLOCK)
GND
GND
CN315
1-4. A1 BOARD REMOVAL
7
Video case
6
Screw (+BVTP 3 X 8)
8
A1 board
3
Four screws (+BVTP 3 x 8)
CN315
5
Four screws (HEX)
1
4
Video shield
Two screws (+BVTP 3 x 8)
2
Video block assembly
-- 10 --
CPD-E530
1-5. BEZEL ASSEMBLY AND H1 BOARD REMOVAL
1 Before removing the bezel assembly, secure
the picture tube by attaching two screws to the picture tube shield at the positions shown with an arrow (diagonal two places) to prevent the picture tube from falling. (Use the screws +BVTT 4 x 8 that fix EMI shield.)
2
Four tapping screws (5)
Picture tube shield
3
Screw (+BVTP 4 x 16)
11
L1 blacket
4
12
Magnetic CN1500 MIU-221D sensor
Screw (+BVTP 4 x 16)
6
Three screws (+BVTP 3 x 10)
5
Bezel assembly
7
Input selector button
8
10
9
CN1401
Two claws
Joy stick
H1 board
CN1400
-- 11 --
CPD-E530
1-6. D BOARD REMOVAL
4
Two screws (+BVTP 3 x 10)
3
CN315
Video block assembly
5
Rear plate assembly
6
Five screws (+BVTP 3 x 10)
CN1601 CN1600 CN1103 CN1003 CN605 CN701
CN501
GND
1
A1 board (C block)
Connector (4P)
2
Two screws (+BVTP 3 x 8)
8
D board
Screw (+BVTP 3X10)
7
Connector (4P)
GND
CN602
CN601
-- 12 --
CPD-E530
1-7. PICTURE TUBE REMOVAL
1
2
A1 board (C block)
Anode cap
3
Neck assembly
CN2
GND
CN3
CN2
CN1
4
Picture tube
ANODE CAP REMOVAL
WARNING: High voltage remains in the CRT even after the power is disconnected. To avoid electric shock, discharge CRT before attempting to remove the anode cap. Short between anode and coated earth ground strap of CRT. NOTE: After removing the anode cap, short circuit the anode of the picture tube and the anode cap to either the metal chassis, CRT shield, or carbon painted on the CRT.
REMOVAL PROCEDURES
a b
c
Anode Button Turn up one side of the rubber cap in the direction indicated by arrow a . Use your thumb to pull the rubber cap firmly in the direction indicated by arrow b . When one side of the rubber cap separates from the anode button, the anode cap can be removed by turning the rubber cap and pulling it in the direction of arrow c .
HOW TO HANDLE AN ANODE CAP
1. 2. 3. Do not use sharp objects which may cause damage to the surface of the anode cap. To avoid damaging the anode cap, do not squeeze the rubber covering too hard. A material fitting called a shatter-hook terminal is built into the rubber. Do not force turn the foot of the rubber cover. This may cause the shatter-hook terminal to protrude and damage the rubber.
-- 13 --
CPD-E530
1-8. HARNESS LOCATION
H1 board
CN1401 CN1400
Magnetic sensor
CN1500
Picture tube
CN2
5P CN1 4P CN3 4P
CN1
L2 board
CN1602
CN701
CN1600 CN1601 CN501
CN1003
CN904
D board
CN1103
N board
CN602
CN604 CN601
CN1102
CN312
CN311
AC inlet (3P)
CN315 CN320
A1 board
CN303
CN318
CN316
CN319
-- 14 --
CPD-E530
SECTION 2: SAFETY RELATED ADJUSTMENTS
When replacing parts shown in the table below, the following operational checks must be performed as a safety precaution against X-ray emissions from the unit. Part Replaced ( HV ADJ RV901 Part Replaced ( HV Regulator Circuit Check ) )
2-1. HV REGULATOR CIRCUIT CHECK
1. Turn the RV901 slowly, and adjust so that high voltage is in the specified range. [Specification]: 27.00 ± 0.05 kV Check that the voltage of D912 cathode on the D board is 17.0V or more.
2.
D Board C925, IC901, R901, R902, R905, R924, R925, R926, RV901, T901 (FBT), · Mounted D Board D Board C920, C923, D911, D912, R903, R917, R918, R919, R920, R923, T901 (FBT) · Mounted D Board N Board IC1001, RB1001 · Mounted N Board D Board C930, D917, R921, R932, R933, R935, T901 (FBT) · Mounted D Board N Board IC1001, RB1001 · Mounted N Board
2-2. HV PROTECTOR CIRCUIT CHECK
1. Using external DC Power Supply, apply the voltage shown below between cathode of D912 and GND, and check that the RASTER disappears. [Specification]: 19.95 ± 0.00/-0.05V
HV HOLD DOWN Circuit Check
2-3. BEAM CURRENT PROTECTOR CIRCUIT CHECK
1. Connect constant current source to a section between T901 (FBT) 11 pin and GND, and check that the RASTER disappears when the specified current flows to the 11 pin. [Specification]: 2.12 ± 0.00/-0.051 mA
Beam Current Protector Circuit Check
Confirm one minute after turning on the power.
-- 15 --
CPD-E530
SECTION 3: ADJUSTMENTS
Connect the communication cable of the connector located on the D Board on the monitor. Run the service software and then follow the instructions.
1 1-690-391-21
2 A-1500-819-A Interface Unit
3 3-702-691-01 Connector Attachment To BUS CONNECTOR
IBM at Computer as a Jig D-Sub (9 Pin [female]) Mini Din (8 Pin) 4 Pin 4 Pin
4 Pin
* The Parts above ( 1 ~ 3 ) are necessary for DAS Adjustment. Allow a 30 minute warm-up period prior to making the following adjustments. Attach a wobbling coil to the specified position of CRT neck. Put on landing sensor to CRT face. Set LCC_SW to 12. With landing checker, adjust DY position, purity, DY center and the landing of the 4 corners. 13. Read VX and VY values which are read out of the magnetic sensor, and write to LCC_VX_REF and LCC_VY_REF. 14. Adjust landing by LCC_NS, LSS_LT, LCC_LB, LCC_RT, and LCC_RB. Adjustment of registers shall be limited within the following range: LCC_NS: 128 ± 15 LCC_LT, LCC_LB, LCC_RT, and LCC_RB: 128 ± 40 Set LCC_SW to 13, and Perform Service Save.
Adjust so that the green is within the specification given right. 4 corner adjust target : within ± 1 The red and blue must be within the specification given right with respect to the green.
3-1. LANDING ROUGH ADJUSTMENT
1. 2. 3. 4. 5. Display the all white pattern. Set contrast to 255. Display plain green pattern. Slide the DY back and roughly adjust the plain green pattern with the purity magnet so that it is centered on the screen. Adjust the DY tilt. NOTE: Set ROTATION to 128 and LCC_NS to 128 when adjusting the DY tilt. Lightly tighten the DY screw.
9. 10. 11. 12.
6.
3-2. LANDING FINE ADJUSTMENT
NOTE: (1) After adjusting W/B (9300k), measure the average of with all white video input, while CONTRAST is maximum and BRIGHTNESS is centered. Make the adjustments so that the miss-landing becomes least after aging 2H with the 30% of measured value shown above. (2) The magnetic field shall be BH = 0. (3) When adjusting at other than BH = 0, calculate the shifted value from BH = 0. 1. Place the monitor in the Helmholtz coil. 2. Set as follows; LCC-SW = 0 (LCC Correction Current = 0) FUNCTION_SW bit1 = (Auto Degauss = On) CONTRAST = 255 3. Display plain green pattern. 4. Degauss the iron part of the chassis with a hand-degausser and degauss coil. 5. Degauss the CRT face with degauss equipment or hand-degausser. 6. Input AC 230V to AC IN and turn the monitor off and on to activate the auto degausser. 7. Reset FUNCTION_SW bit 1 to 0 (auto-degauss = off) 8 Repeat step 5 by degaussing the CRT face with degauss equipment or hand-degausser.
(µm) 0 ± 3 0 ± 7.5 0 ± 3 0 ± 3 0 ± 7.5 0 ± 3 0 ± 3 0 ± 7.5 0 ± 3 ±6 ±6 ±6 ±6 ±6 ±6 10 7 10 (µm) ±6 ±6 ±6 (µm) 10 10 10
A difference between red and blue must be within the specification given right.
10 10 10
15. Tighten DY screw within specified torque, and auto-degauss. NOTE: Torque 22 ± 2 kgcm (2.2 ± 0.2 Nm)
-- 16 --
CPD-E530
16. Adjust the vertical angle of the DY to make the top and bottom pins equal (a = b). The horizontal angle is not changed (straight). Settle DY upright without leaning, and insert wedges firmly so that the DY does not move.
Green plain crosshatch pattern a a and b should be equal. c and d should be equal.
3-3. CONVERGENCE ROUGH ADJUSTMENT
1. 2. 3. Display the white crosshatch pattern. Pile the convex parts of the 6-pole magnet for convergence together. Roughly adjust H.CONV and V.CONV with the 4-pole magnet.
Purity 4-pole magnet 6-pole magnet 2-pole magnet
c
d
b
H.TRAP TB-PIN
Plaster RTV to both sides for the upper wedge. Make sure that they settle inside DY.
XCV
TLH
XCV B
XBV R
B
TLH
R
Plaster RTV to one side for other wedges.
TLV YCH R B B R YBH
R
B B
R
17. Adjust the top and bottom pins correction VR. 18. Adjust the horizontal trapezoid distortion by DY horizontal trapezoid correction VR. 19. Check the landing at each corner. If the landing is not set to specification, adjust the landing of the 4 corners with LCC_NS, LSS_LT, LCC_LB, LCC_RT, and LCC_RB. The limitations of registers are shown below: LCC_NS: 128 ± 15 LCC_LT, LCC_LB, LCC_RT, and LCC_RB: 128 ± 40 20. Remove the sensor and wobbling coil. 21. Switch signals to R, G, B, and then check that the pure colors have good color purity. 22. Fix purity magnets with white paint.
R
B
R
B
Convergence Specification
B V A
A B
0.20 mm 0.24 mm
3-4. WHITE BALANCE ADJUSTMENT SPECIFICATION
1. 9300 K x = 0.283 ± 0.005 y = 0.298 ± 0.005 (All White) 6500 K x = 0.313 ± 0.005 y = 0.329 ± 0.005 (All White) 5000 K x = 0.346 ± 0.005 y = 0.359 ± 0.005 (All White)
2.
3.
-- 17 --
CPD-E530
3-5. VERTICAL AND HORIZONTAL POSITION AND SIZE SPECIFICATION
A b
b a a b a
MODE B A B
4:3 388 291
1.8 mm 1.8 mm
3-6. FOCUS ADJUSTMENT
1. Adjust Focus (V) and Focus (H) for optimum focus.
Focus (V) Focus (H)
-- 18 --
CPD-E530
SECTION 4: DIAGRAMS 4-1. CIRCUIT BOARDS LOCATION
N A1
The components identified by shading and ! symbol are critical for safety. Replace only with part number specified. 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.
DA
L2
The components identified by X in this basic schematic diagram have been carefully factory-selected for each set in order to satisfy regulations regarding X-ray radiation. Should replacement be necessary, replace only with the value originally used. When replacing components identified by Y, make the necessary adjustments as indicated. If the results do not meet the specified value, change the component identified by X and repeat the adjustment until the specified value is achieved. (Refer to Section 2: Safety Releated Adjustments.) When replacing the parts listed in the table below, it is important to perform the related adjustments. Part Replaced ( HV ADJ RV901 Part Replaced ( HV Regulator Circuit Check ) )
H1
D
4-2. PRINTED WIRING BOARD AND SCHEMATIC DIAGRAM INFORMATION
All capacitors are in µF unless otherwise noted. pF : µµF 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
D Board C925, IC901, R901, R902, R905, R924, R925, R926, RV901, T901 (FBT), · Mounted D Board D Board C920, C923, D911, D912, R903, R917, R918, R919, R920, R923, T901 (FBT) · Mounted D Board N Board IC1001, RB1001 · Mounted N Board D Board C930, D917, R921, R932, R933, R935, T901 (FBT) · Mounted D Board N Board IC1001, RB1001 · Mounted N Board
/ 4 W in resistance, 1/10 W and 1/ 8 W in chip resistance. : nonflammable resistor. : fusible resistor. : internal component. : panel designation and adjustment for repair. : earth ground : earth-chassis
HV HOLD DOWN Circuit Check
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. All voltages are in V. S : Measurement impossibillity. : B+line. : B-line (Actual measured value may be different). : signal path (RF). Circled numbers are waveform references.
Beam Current Protector Circuit Check
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 CAPACITOR : TA TANTALUM : PS STYROL : PP POLYPROPYLENE : PT MYLAR : MPS METALIZED POLYESTER : MPP METALIZED POLYPROPYLENE : ALB BIPOLAR : ALT HIGH TEMPERATURE : ALR HIGH RIPPLE
-- 19 --
CPD-E530
4-3. BLOCK DIAGRAMS A1 BLOCK DIAGRAM, H1 BLOCK DIAGRAM, AND L2 BLOCK DIAGRAM
CN309 HD15
15 10 5 4 3 2 1 5 6 7 10 5 4 3 2 1 5 6 7 2
2
14 9 13 8
12 7 11 6
IC008 INPUT SELECT
4 6 7 8
IC001 RGB PRE-AMP
25 28 31 23 7 4 2
IC002 RGB AMP R OUT G OUT B OUT
26 28 30 8 9 11
B1 G1 R1 V1 H1
R OUT G OUT B OUT SOG
R IN G IN B IN
R IN G IN B IN
R OUT G OUT B OUT
5 3 1
CN315 5 3 1 7 KR KG KB HEATER+ KR KG KB
CN318 5 3 1 7
CN307 HD15
15
SDA SCL VCLK IC009 ROM
V901 PICTURE TUBE
HEATER+
14 9
FV
COF G SCL COF R COF B
22 23 24 15 14 13
1
13
8
10 12 14
B2 G2 R2 V2 H2
12 7 11 6
SYNC IN
SDA SCL VCLK IC007 ROM IC006 INVERTER
9 3 1 8 4 2 5 11 13 6 10 12
15 16
RIN GIN BIN
GOUT
ROUT BOUT
3 5 7
G2
22
IC004 CUT OFF AMP
CN318 1 G2
B
R_IK
G.SYNC
H OUT
V OUT
OSD R
OSD G
OSD B
V_DET
CN311 DDC SCL1 DDC SDA1 DDC GND1 DDC SCL2 DDC SDA2 DDC GND2 H BLK INPUT SW IIC SCL IIC SDA HS OUT VS OUT ECO SW 10 11 9 7 8 6 1 15 16 2 3 4 SDA HS OUT ECO SW VS OUT SCL
SW Q004 SW Q005 SW Q002 SW Q001
18
19
21
15
14
13
12
10
17
BLK
SDA
18
CLAMP
SW
SDA
23
OSD BLK
13
22
SCL
12
11
G_IK
10
B_IK
FC
HV
TO D BOARD FBT
7V
2
IC011 HEATER REG Vcc VADJ OUT
4 5
A
TO D BOARD CN1102
H FLY
OSD G
OSD R
3 12 13 27 23 24 25
OSD BLK
OSD B
SDA HS OUT VS OUT ECO SW
CLP
BLK
AV
SCL
2 4
18
20
19
21
7
11
10
CN312 RCI BCI
32 31 30
SCL SDA HS OUT VS OUT ECO SW CS IN VS IN HS IN
GCI
BUFFER Q101, Q201, Q301
+80V +12V
+B
1 2 4 6 7 8 9
+B +B +80V +12V 7V 5V 3.3V
C
TO D BOARD CN604
13
IC003 OSD
XTAL IN
14
3.3V X001 24.5MHz
2 4
7V 5V
A1
(VIDEO AMP, RGB OUT)
IC005 INVERTER
CN1400 KEY SCAN WAKE UP 2 3 4 5 12 13 14 8
KEY DET Q1402
S1402 CONTROL
4 3 6 7
+ + IC1603 + -
2
IC1600 (1/2) IC1600 (2/2)
CN1601 3 4 1 2 CY4+ CY4CY3+ CY3CN1600 1 2 LCC-NS (+) LCC-NS (-) CN1602 1 2 3 4 5 6 7 8 LCC-LT (+) LCC-LT (-) LCC-LB (+) LCC-LB (-) LCC-RT (+) LCC-RT (-) LCC-RB (+) LCC-RB (-) LCC-LT LCC-LB LCC-RT LCC-RB LCC-NS
8
D
TO D BOARD CN1103
LED1 LED2
1
INPUT SW
5V TH1400 S1401 PICTURE EFECT LED DRIVE Q1400 INPUT1 INPUT2 LED DRIVE Q1401 A S1400 MENU
E
TO N BOARD CN1003
T_AMB
CN1603 GXSC 4 5 6 7 8 GYSC
2
4
VY VX
F
G D1400 TO D BOARD CN1106
LCC NS
CN1401 TO MAGNETIC SENSOR UNIT VX VY 3 2
IIC SDA
21 20
IC1602 DAC SDA SCL AO2 AO1 AO4 AO3
4 2 1 4 3 3 6 7 4 3 6
+ + + + -
2
IC1601 (1/2)
5V
IIC SCL
IC1601 8 (2/2) IC1604 (1/2) IC1604 (2/2)
S1403
2
H1
(USER CONTROL)
L2 (CY, LCC)
-- 20 --
7
8
CPD-E530
DA BLOCK DIAGRAM AND N BLOCK DIAGRAM
DA
CN1101 REFDC H.DF XDC 33 37 34 36 15 11 13 20 19 22 24 16 21 23 38 39 40 32 35 12 10 5 2 7 1
(DPU)
1 2 3 21 23 35 36 38 39 40 41 43 44 45 48 49 50 51 52 53 54 63 27 26 64 58 59 7 5 61 62
IC1101 DPU HDF1 DCC2 XDC HDOUT H BLK V-IN H-IN SDA SCL
CN1001 IK SIGMA LB DET 32 34 7 9
IC1001 CPU
22 21 51 52 71 49 50 70 80 35 36 37 38 23 79 78 34 31 19 20 28 7 6 5 4 3 2 1 58 60 10 13 9
P42/AN10 P41/AN09 P86/SDA1 P87/SCL1 P84/SDA2 P85/SCL2 P21/A1/A17 P54/AN04 P55/AN05 P56/AN06 CN1003 4 3 2 T_AMB VY VX
DDC SDA1 DDC GND1
DDC SCL1
HD OUT
PLL LOCK
HS OUT
VS OUT
H BLK
HFBP
FBP-IN
DDC SDA2
11 13 15 17 29 1 3 2 35 33 31 39 40 6 8 4
16 17 18
DDC GND2
DDC SCL2 INPUT SW
P20/A0/A16 P27/A7/A23 P80/SDA0/SI0 P81/SCL0/SO0 P82/TXD0 P83/RXD0 P42/AN11 P26/A6/A22 P25/A5/A21 P76/SCK0/INT3 P57/AN07 P40/AN08
E
TO H1 BOARD CN1400
LOCK-DET
IIC SDA TXD
IIC SDA
IIC SCL RXD
G
TO D BOARD CN502
HSAW_SW
LCC_NS
IIC SCL
LCC_NS PWM2 GYSC GXSC VDF YSC XSC YDC VKEY
IC1003 ROM P12/A10/AD10
64 63 62 7 6 5
HSAW_SW
KEY SCAN
WC
H.LINBAL GYSC GXSC
LED1 LED2 POC
P11/A9/AD9 P10/A8/AD8
SCL SDA
D.TILT YSC XSC
V.DF
I
TO D BOARD CN1104
PLL LOCK
P73/TB01N0/IN5 5V
46
ABL DET
HV DET
G2
HSHAPE
HSHAPE POC-OUT POC-IN DCC ASW1 ASW2 VSAWL VSAWH PWR SW
S6 S5 S4 S3 S2 S1 S0
10 12 14 16 18 24 26 28 23 25 30 36 5
P70/TA1OUT P36/TA7OUT P35/TA61N P34 P33/MAIT P32/HWR P31/WR P30/RD RESET O
I G
VSAWN
DCC2
POC
YDC
IC1002 RESET
IC1102 AMP + 6 -
2
+ - 4
3
P04/AD4 P06/AD6 P61/CTS0 P51/AN01 P60/INT0
X2 X1
41 43
DGC SW
WAKE UP
V.FBP
X1001 16.9344MHz
ECO SW
INVERTER Q1001
N
(i-COM )
-- 21 --
CPD-E530
D BLOCK DIAGRAM
AC IN CN602 AC L NC 1 2 3 RY603 1 4 THP602
L610 AFC
F601
T601 :LFT
S601
D610 AC RECT
PH610
4 3
+15V
1 2
IC640 +B DETECT ERROR AMP
2 1
D
DEFLECTION , HDF, VDF, HV, POWER SUPPLY
AC N DGC
IC610 PFI TH601
L SEN CATHODE AC SEN
2 1
IC620 REG OUT FB VSENSE VG (H) VS VB
16 15 14 10 12 9
CN601 DGC DGC
MAIN CONVERTER OUT Q641 T620 MAIN CONVERTER OUT Q640
9
RY602
DRAIN
3 3 2
1 1
5 10
VG (L) OCP
VC2
D.TILT D650 +B XSC IC701 CY AMP 3.3V
3 4 6 7
7 11
RELAY DRIVE Q611
1 2 4 8
IC630 REG COMP FB RT/CT VREF OUT ISENS
5 3
8
9
4 3 2 1
T630 :SRT
5 6
5 13 14
INA INA+ INB+
IOUTA OUTA OUTB
1 2 8 9
3.3V
1 2
IC703 ROTATION DRIVE + 4
CN701 10 9 8 7 6 5 4 3 2 ROTATION+ XSC XSC+ YSC+ XDC+ YDC+ YSC XDC YDC ROTATION -
ROTATION
REG SW Q630
+80V D652 +15V IC654 12V REG +12V YSC
INB -
IOUTB
8
15 16
PH620
VCC SW Q610
PH630
4 3 2 3 1
4 3 2
1
PROTECT Q652
-15V
5
IC702 CY AMP XDC REFDC YDC
4 3 2 10
-IN A (X) +IN A (X) +IN B (Y) STBY
OUT A (X)
6
1
7V IC652
IC680
1
CN1104 IK SIGMA LB DET 32 34 7 9
5 2
+15V +15V 11 10 9 8 7 13 IIC SDA TXD IIC SCL RXD IIC SDA IIC SCL VS OUT HS OUT H BLK 16 15 3 2 1 4 6
CTL Vcc
CN1102 DDC SDA1 DDC SCL1 DDC GND1 DDC SDA2 DDC SCL2 DDC GND2 ECO SW INPUT SW IIC SDA IIC SCL VS OUT HS OUT H BLK DGC SW PWR SW
3.3V
5V
4 1
-IN B (Y)
OUT B (Y)
1
5V 3.3V
DDC SDA1 DDC GND1
DDC SCL1
DDC SDA2
11 13 15 17 29 1 3 2 36 35 33 31 39 40 6 8 4 5
IC901 HV CONT
14
CN604
5
DDC GND2
DDC SCL2 ECO SW
Width H SAW GEN
+80V +12V + 3 10
+B
1 2 4 6 7 8 9
+B +B +80V +12V 7V 5V 3.3V
INPUT SW
A
TO A1 BOARD CN311 H.DF H DF OUT Q701-705
11 12
IIC SDA TXD
IIC SCL RXD
T701 :DFT
+ -
3.3V 5V
7V
C
TO A1 BOARD CN312
KEY SCAN
WAKE UP
KEY SCAN
WAKE UP
V.DF
V DF OUT Q706, 707
I
TO N BOARD CN1001
LED1 LED2 POC
LED1 LED2 POC TXD RXD 4 3
CN1101 TXD RXD CN1103 2 3 4 5 8 WAKE UP LED1 LED2 KEY SCAN ECS
PLL LOCK
PLL LOCK
ABL DET
HV DET
ABL DET
HV DET
G2
S6 S5 S4 S3 S2 S1 S0
10 12 14 16 18 24 26 28 23 25 30
G2
WAKE UP LED1 LED2
S6 S5 S4 S3 S2 S1 S0
KEY SCAN
HFBP
BUFF Q507 IC401 V OUT
1 7 5 3 6
+B HV REG SW Q901 HV DRIVE Q903-904 HV OUT Q902
T902 :HRC
4 1 2
T901 :FBT
TO PICTURE TUBE HV
17 13
D
TO H1 BOARD CN1400
DCC2
INPUT SW CN1106
VSAWN
+ -
OUT
GXSC GYSC LCC NS
4 5 6 7 8
GXSC GYSC LCC NS
V.FBP
PWR SW
PWR SW
HV DET
FV
14
DGC SW
DGC SW
V.FBP
V.FBP
IIC SDA IIC SCL
IIC SDA IIC SCL
F
TO L2 BOARD CN1603
ABL DET G2 HD OUT H DRIVE BUFF Q501-503 H DRIVE Q504 T501 :HDT H_SAW SW Q521 H OUT Q505 G2 OUT Q905 G2 MUTE Q906
7
TO PICTURE TUBE
IC503 AMP + Đ
5 6 8
15 16
CN502 IIC SDA HSOUT VSOUT IIC SCL 19 20 11 13 15 21 23 22 7 5 1 10 12 16 24 32 33 34 35 36 37 38 39 40 2
IIC SDA HSOUT VSOUT
IIC SCL
HSHAPE HSAW_SW
G2 MUTE Q907
FC
11 12
H BLK GXSC GYSC
H BLK GXSC GYSC
6
TO PICTURE TUBE
PLL LOCK
LCC NS POC
PLL LOCK
LCC NS POC T504 :HST
SIZE DETECT BUFF Q519 L502 :HLC IC501 PWN CONT
17
CN510 1 G2 V DY
3 10 9
H.DF
H.DF VSAWN
B
CN501
G
TO DA BOARD CN1101
VSAWN
V.DF
V.DF S0 S1 S2 S3 S4 S5 S6 H.LINBAL S CAP CHANGE Q511-516 Q511-517
HSAW_SW
H.LINBAL HSHAPE
DCC2
HSAW_SW
H.LINBAL HSHAPE
DCC2
SAWR
PWMOUT
MIXOUT
+B H-SIZE FILTER SW Q523 H-SIZE FILTER SW Q524 PIN DRIVE Q508-509 PIN OUT Q506
L510 :HOC
1 2 4 6
V+
VH+
HD OUT
REFDC
HD OUT
REFDC
T503 :LCT
7
H-
15V
6 14 11 12 18
ERRIN REFIN HDIN MIX+ MIX VREG9
ERROUT
HFBP
YDC XDC
HFBP
YDC XDC
H LIN BAL SW Q510
L509 :HCC S501 (RASTER CENTER TAP SWITCH)
H DY
D.TILT YSC XSC
D.TILT YSC XSC
-- 22 --
CPD-E530
4-4. SCHEMATICS AND SUPPORTING INFORMATION
H1 BOARD SCHEMATIC DIAGRAM 1 | 2 | 3
A --
R1400 220 :RN R1401 220 :RN R1402 100 :RN R1403 100 :RN
|
4
R1422 22k
|
CN1401 5P
1 2 3 4 5
5
GND VY VX +5V +12V
TO MAGNETIC SENSOR
|
C1404 0.01 R1423 22k
Q1402 DTA124ESA
C1403 0.01
D1402 1SS119
R1408 470 FB1401 FB1402 S1400 S1401 R1404 470 :RN FB1403 0UH 0UH 0UH
C1405 47 16V
D1403 1SS119
CN1400 14P
1 2 3 4 5
+12V WAKE UP KEY SCAN LED 1 LED 2 GND +5V INPUT SW GND GND GND T_AMB VY VX
TO N BOARD CN1003
B -- C -- D -- E
Q1400 DTC114ESA-TP LED DRIVE
OK
S1402
+
MENU
PICTURE MODE
TO D BOARD CN 1103
R1409 100k
C1401 47 16V
6 7
C1498 0.1 :B
8 9 10 11
R1421 10k :RN R1406 150 1/4W C1402 47 16V R1424 22k :RN
TH1400 10K
R1407 220 1/4W
POWER
G
A
Q1401 DTC114TSA LED DRIVE
INPUT1
S1403
R1405 100k 1/4W
R1419 100k C1407 47 16V FB1404 FB1405 FB1406 JW(5) JW(5) JW(5)
R1420 10k
12 13 14
C1400 10
D1400 SML79423C-TP15
INPUT2
(FRONT PANEL)
9-878-801-01<21CR1>H1
H1
D1400 P OW ER
[Front Panel]
CONDUCTOR SIDE
R1407 E Q1401 B D1401 + OK R1400 R1406 R1421 E Q1400 B S1400 MEN U S1401 PI CT URE MO DE R1403
C1404
D1403 R1405 I NPU T2 INP UT 1
Q1402 R1409
R1419 14 VX VY T_AMB GND TH1400 1 0 GND GND INPUT SW +5V GND LED 2 LED 1 KEY SCAN WAKE UP 1 +12V
--
C1401
R1408 C1400
C1498
FB1401 R1423 S1403 FB1403
C1407
CN1401
1
1-679-350-12
- S1402
5 R1422 FB1405
FB1406
1
CN1400
10
14
CN1400
-- 23 --
CPD-E530
A1 BOARD SCHEMATIC DIAGRAM 1 A -- B -- C -- D --
C033 0.1 25V
|
2
|
D311 1PS226-115
3
R330 33
|
4
|
5
STBY +5V
|
6
|
7
|
IC001 M61314SP RGB-PRE AMP
3 2
8
FB002 0
|
9
|
IC002 LM2412T RGB AMP
VBIAS
10
4
R.OUT
|
CN315 8P :XA
6
G.OUT B.OUT
11
1 2 3 4 5 6
|
KB GND KG GND KR GND HEATER GND KB GND KG GND KR GND
12
1 2 3 4 5 6 7 8
|
CN316
R351 47 1/2W :SURGE R251 47 1/2W :SURGE R151 47 1/2W :SURGE
F GND
13
FV 1
J001
|
G1 3 H1 4 H2 5 6 G1 KR
SG002 L004 C031 1000p 500V B:CC
14
FC FV TO D BOARD FBT
A1 BOARD WAVEFORMS 1
H
5
1 3
R230 33
VCC B1 VCC G1 VCC R1 V1 H1 GND B2 POWER SAVE
VCC B OUT GND VCC G OUT GND VCC R OUT GND SOG
2
C040 0.01
R318 56
C330 0.22 16V
1
R361 82 1/4W
C352 47 25V
D211 1PS226-115
1
IC008 MM1470AD INPUT SELECT
2 3
GND1
B.IN
G.IN
GND3
GND2
R.IN
GND
NC
11
FB303 0UH C023 0.22 16V B:CHIP JR022 0 :CHIP C012 0.22 B:CHIP R223 820 1/4W R323 820 1/4W C024 47 16V R204 2.7k C211 100p R304 2.7k R310 330 C301 15p C016 470 16V R210 680 C201 18p R217 33
10
9
8
7
GND01
VCC
+12V
FC
13
6
5
4
3
2
1
1 B IN ABL
GND
IMR
11 G1 10 G2 9 KB 8
7 KG
3 0
G IN
9 2
4
R130 33 R161 82 1/4W C152 47 25V
C319 0.01
R218 47
C230 0.22 16V
C007 0.22 16V B:CHIP
12V
B OUT
3 0
3
3
R261 82 1/4W
C252 47 25V
D111 1PS226-115
R317 33
FB203 0UH
R111 56 FPRD
R211 68 FPRD
3 1
2
7
R311 56 FPRD
HEATER GND
CN319 CN320
0.74 Vp-p (H)
8
R064 220k 1/2W C035 4700p 2kV B:CC SG001 SG101 SG301 SG201
2
2 9
4
G2 G2
FB103 0UH C015 0.1 25V B:CHIP
1 2
12V
2 8
D004 1PS226-115
2 8
2 SOG IN G OUT
5
C311 100p
CN318 2P
CN303 GND TAB
1
5
R013 100
7 2
6
GND
PIN301
C025 0.01 R118 22
COATING EARTH
1.12 Vp-p (H)
6 2
GND
GND
7 2
7
6
5 2
8
R011 2.2k
INPUT2
CN309 D-SUB
10 15 14 13 12 11 9 8 7 6
R012 2.2k
C049 0.01
2 6
7
D002 RD5.6ESB2
R007 100
3 R IN R OUT
R123 820 1/4W
1
FB104 0UH C011 0.1 100V
COATING LEAD
1 0
2 3
GND
GND
2 5
8
STBY +5V
D001 1SS184
1 1
2 2
SYNC IN
1 2
R051 1M
4 2
9
5 4 3 2 1
D003 RD5.6ESB2
C004 0.1 25V
C130 0.22 16V B:CHIP
2 4
R104 2.7k C111 100p
R110 330
R117 33 C101 18p
9
D304 1SS376TE-17
C306 0.47 250V
C039 0.1 B:CHIP C051 0.1 B:CHIP
3
H
C014 22 100V
FB302 0UH
SOG OUT
COF B
D104 1SS376TE-17
1 0
4 1
R2 V2 H2
V OUT H OUT GND
9 1
IC009 BR24C02F-WE2 ROM
NC VCC
1
3 1
1 1
STBY +5V
C109 47 25V
C048 0.01
1 5
1 8
1 2
R034 1.8k
OSD BLK
G2
2 1
C062 0.1 25V B:CHIP R363 100
+5V
COF R
2 2
R048 47k
C019 0.01
SW
VCC
0 2
R003 100
V DET
COF G
R098 47k
2 3
G2
G.SYNC
D204 1SS376TE-17 D205 1SS376TE-17
D305 1SS376TE-17
R333 0UH FB202 0UH
0.73 Vp-p (H)
2 1
C106 0.47 250V
C206 0.47 250V
R233 0UH FB102 0UH
4
8
1 6
3 1
R001 15k
R002 15k
1 4
1 9
NC
SCL
3
6
D013 1SS119
OSD B
SCL
0 2
NC
VCLK
1 7
2
7
+12V
D105 1SS376TE-17
D206 HSS82 D106 HSS82
D306 HSS82
R133 0UH
56.0 Vp-p (H)
R263 100
OSD G
SDA
R306 39k R018 100
R_BASE
G_BASE
R_OUT
G_OUT
B_IK
G_IK
R_IK
B_IN
G_IN
VBB
+B
GND
R043 0
R017 100
R_IN
R027 47
R028 47
C026 10p CH:CHIP
B_OUT
IC006 SN74AHCT04NSR INVERTER
R019 8.2k
OSD R
CLAMP
B_BASE
5 1
8 1
VSS
SDA
C010 47 10V
MAIN5V
4
5
R163 100
R206 39k
IC004 H8D3104 CUT OFF AMP
5
R109 1M R209 1M R309 1M FB310 0UH FB210 0UH FB110 0UH R120 470k R119 470k R322 1M
1 6
GND
BLK
1 7
14
D005 1PS226-115
C063 0.01 B:CHIP R044 0
R106 39k
1
3
4
5
6
7
8
10
11
12
13
14
15
16
17
L002 1mmH R097 0 R033 C036 1k RN:CHIP 100p CH:CHIP C038 4700p B:CHIP
C123 0.1 250V :PT C018 2.2 250V
C223 0.1 250V :PT
C323 0.1 250V :PT
C053 0.1 25V B:CHIP
R122 1M
R222 1M
54.5 Vp-p (H)
6
R220 470k R219 470k
1
13
2
D008 RD5.6ESB2 D007 RD5.6ESB2
A GND
12
ADCGND
11
4
34
3
1
HFLY
ADCREF
E
R301 82 1/4W
C320 47 25V
D301 1PS226
C037 0.1 25V B:MPS
10
33
5
2
R320 470k
R319 470k
6
9
FILTER
RCI
54.5 Vp-p (H)
32
7
8
3
D201 1PS226
R340 33
SDA
GCI
STBY+5V
-- F --
INPUT1
R201 82 1/4W
C220 47 25V
D101 1PS226-115
R240 33
C017 100p CH:CHIP
C046 0.01 B:CHIP
+200V
C045 0.1 25V B:CHIP
SCL
BCI
C105 0.1 25V B:CHIP
C205 0.1 25V B:CHIP
C305 0.1 25V B:CHIP
31
R107 33k R164 120k R307 33k R207 33k R264 120k
4
R364 120k
30
5
TEST
AVDD
D308 1PS181-115
C009 1
D108 1PS181-115 Q101 2SC2412K BUFF
29
6
S
R101 82 1/4W
R015 2.2k
S
D019 1PS226-115
D016 RD5.6ESB2
R016 2.2k
R008 100
R040 4.7k :CHIP R030 0 R041 10k :CHIP
R054 2.2k 1/2W C091 1 C021 0.01 B:CHIP
26
R010 100
Q002 2SK1828 SW
FB006 0
27
8
C120 47 25V
R140 33
Q001 2SK1828 SW
+5V
AV
VDD2
Q301 2SC2412K BUFF
D208 1PS181-115 Q201 2SC2412K BUFF
R208 4.7k R108 4.7k R221 470k R315 22k C208 0.22 16V B:CHIP R121 470k
DVSS
ECO SW
28
7
+12V
9
DVDD
GND
C059 0.1 25V B:CHIP
R308 4.7k R321 470k C308 0.22 16V B:CHIP
+80V
CLP
HS IN
R215 22k
C108 0.22 16V B:CHIP
R062 470k 1/4W R115 22k R063 470k 1/4W FB005 0UH
R061 100k 1/4W
10
25
D006 1SS184
FB004 0UH
BLK
VS IN
11
24
R023 1k
L003
12
23
R059 2.2k
R052 4.7M C058 7p CH:CHIP R053 100 :CHIP
HS OUT
CS IN
G
15
R022 0
CN307 D-SUB
D009 RD5.6ESB2
NC
1
R049 47k
IC005 TC7SU04FU INVERTER
8
R077 15k R092 15k C090 0.01 B:CHIP
VS OUT CLP DELAY XTAL IN OSD BLK XTAL OUT
C061 150p CH:CHIP
IC011 BA00AST-V5 HEATER REG
C064 100 16V
13
VCC
14
21
22
5 NC VCLK
2 7
Vcc
NC IN
FB009 0UH
5
1
10 9 8 7 6
X001 24.5MHz
R078 5.1k C001 0.001 500V B:CC
CTL
GND
OUT
VADJ
15
20
2
Vcc
-- H -- I -- J
4
14 13 12 11
3 2 1
NC
3
4 SCL
3 6
OUT
GND
16
19
C055 22p CH:CHIP FB007 0 C092 0.01 B:CHIP FB008 0
OSD G OSD B
OVSS
1
2
3
4
5
R079 3.3k
C042 0.1 B:CHIP C050 0.1 B:CHIP
VSS
SDA
17
18
4
5
+5V
L007 C054 0.1 25V B:CHIP C057 47 25V
+12V
OVDD OSD R
R082 0.68 2W :RS C027 47 10V C065 100 16V R080 2.7k
IC007 BR24C02F-WE2 ROM D012 1PS226-115
R039 47 R038 47
L001
IC003 CXD9548MTR OSD
R046 0 :CHIP
R021 100 R020 100
R025 4.7k R024 4.7k
C022 47 10V
C032 0.1 25V B:CHIP
R047 0 :CHIP
R014 100 1/2W
R006 100 1/2W R032 100 1/2W R031 15k
L005 C005 0.1 25V B:CHIP FB003 0UH C029 0.22 16V B:CHIP
RCV
CRT
L006
S
D010 RD5.6ESB2 D011 RD5.6ESB2 Q004 2SK1828 SW
Q005 2SK1828 SW
R058 1k
C043 0.1 25V B:CHIP
H
21TKD
D014 1SS119
S
+80V +200V
(VIDEO)
KB KG
KR
G2 G1
G4 GM HV
11
15
14
13
17
16
12
10
9
9
8
8
7
6
7
5
5
4
6
4
3
3
1
2
2
1
9-878-801-01<21CR1>A1
TO D BOARD
DDC SCL1
DDC SDA2
DDC SCL2
DDC SDA1
DDC GND1
DDC GND2
INPUT SW
IIC SDA
IIC SCL
ECO SW
VS OUT
HS OUT
3.3V
+12V
+80V
GND
GND
GND
GND
GND
7V
NC
5V
+B
+B
TO D BOARD CN1102
CN311 17P WHT
H BLK
CN312 9P WHT
TO D BOARD CN604
-- 24 --
CPD-E530
A1
A
[Video]
1
JR302
2
JR102
3
1-679-351- 22
R022 R023 R030 C013 C008 C006 JR020
C046
4
JR026 C 009
R215 C208
5
C045 Q101 R221 R108 FB302 R333 R308 D308 D305
6
CN315
7
C105 R106
R164
(-1-0-2 179002)
R003 JR018
JR019 1
JR001
R240 R140 R051
R005
1 C205 8 R207 R264 R306
Q201
JR025
C026
C053
Q301
R163
R008
D208
JR024
IC002
R010
D201
R340 D301
R118
C091
C306 D304
C044
R0 53 C016
C092 FB007 JR029 R018 R104
C060
R311 R211 D205 FB103 R111 D204
C206 D309 C323 D209 D104 D206 D106 D109 FB210 FB110
C120 JR003 C220
R202
C106 D306
C049 R123 R223 R110 R217 R323 R117 C213
B
JR004 D21 1 R086 C320 JR005 R3 30 R130
R301 R201 JR016
D105 C011
C040
R318
C330
I C0 05
C0 54 JR021 L00 7
C015
C152 D111
C032
D311 C252
C351
R361 C313 1 C02 2 1 5 4 R025 R363 R362 R009 C062 R098 R093 C211 R024
FB104
FB005 D409 C018 FB004
R101 1 R015 R016 6
D002
JR0 15 9 CN313 R261 R161 R013
5 R007 10
1
5 10 C033
C01 7
FB002
2
C066
JR027 R082 C064
IC011
C065 C027
C
CN307
D013 R019
CN319
R351 SG201
JR006
11 D010 JR008
15 R04 2 R 044
JR011
11 R012
CN309
D003
15
R 04 0 R077 R092
R080
R078 C201
C025 C007 C312 C311
R251
CN318
G2 10 6 7 8 9 SG001 5 4 11
D011 R038 C090
Q0 01 D 007 D0 08 R037 R054 R006 R032 R014 R020 FB 00 3 IN PUT SW R036 R035
Q003
C035
R 045
D009 R0 49
C048
R001
R 061
KB GND KG GN D
D
R021
C050 C 029 C042
KR GND HE ATE R GND SG002 3
C031
17
1
9
1
L004
CN308 CN320
CN311
DD C SCL 1
CN312
-- 25 --
CPD-E530
D BOARD SCHEMATIC DIAGRAM 1 A
YDCXDC+ XDCYSC+ YSCXSC+ XSCROTATION+ ROTATION-
|
2
|
3
|
4
|
5
|
6
|
7
|
ROTATION
8
|
9
|
10
|
11
|
12
|
13
|
14
|
15
|
16
|
17
|
18
|
19
|
20
|
21
|
22
|
23
| D BOARD IC| VOLTAGE LIST 24 25 |
IC401
pin 1 2 3 4 5 6 7 pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 pin 1 2 3 4 volt 0.7 15.0 -13.4 -15.0 0.6 14.3 0.7
26
IC654
pin I G O pin 1 2 3 pin 1 2 3 4 5 6 7 8 9 10 pin 1 2 3 4 5 6 7 8 9 10 pin 1 2 3 4 5 volt 15.0 GND 12.0 volt 2.0 GND 4.9
|
pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 pin 1 2 3 4 5 6 7 8
27
IC901
volt 12.0 12.0 8.7 GND 8.6 8.6 NC GND NC 3.8 0.0 8.9 0.0 5.4 GND NC 2.5 2.6
|
28
|
IC620
pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 pin 1 2 3 4 5 6 7 8 pin 1 2 3 pin 1 2 3 4 5 volt 1.5 2.0 2.1 2.3 GND -0.1 4.4 15.1 0.0 10.2 GND 4.4 NC 200.0 190.3 194.7 NC NC volt 0.0 0.0 -0.1 20.0 GND 1.4 16.1 4.8
B -- C -- D -- E -- F -- G --
R731 22k :CHIP
YDC+
--
CN701 10P
IC680
10
6
2
7
8
3
4
1
5
9
TO DA BOARD CN1101
R738 6.8k :CHIP R734 220 1W C734 0.1 B:CHIP
Q502 KTC3876S-Y-RTK H DRV BUFF IC701 LA6510 AMP
HD
R501 1k :CHIP R503 220 :CHIP C559 0.1 25V F:CHIP R502 100 :CHIP
D518 RB441Q-40T-77
TO N BOARD
R522 1k :CHIP
+12V
C554 1000p B:CHIP
CN1001
HSW
H.DF V.DF A.GND A.GND POC A.GND PLL LOCK A.GND NC VSAWN VS OUT DCC2 HS OUT NC H BLK H.LINBAL A.GND A.GND IIC SCL IIC SDA GYSC LCC NS GXSC HSAW_SW D.GND D.GND 3.3V A.GND +12V NC +12V HSHAPE REFDC HD OUT YDC HFBP XDC D.TILT YSC XSC
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 2
H.DF V.DF 2 4
R732 1.5 :FPRD C738 0.22 :MPS
R733 22 1W :RS
HSP
CN502 40P
D.TILT
+15V
C500 220p CH:CHIP
CN1104 44P
C533 4700p B:CHIP R537 2.2k C564 0.01
IIC SDA 1 TXD IIC SCL RXD 2 3 4 5 HV DET 6 7 8 9 10 DDC GND1 S6
R593 10k
IC501
volt 15 15 10.1 GND 8 4.7 4.7 GND 3 3.8 3.2 3.2 GND 0.5 GND 3.7 2.6 9 volt 90.7 NC 90.4 0 2.2 NC GND 2.2 14.6 378
1
IIC SDA TXD IIC SCL RXD ECO SW HV DET DDC SDA1 ABL DET DDC SCL1 G2 DDC GND1 S6 DDC SDA2 S5 DDC SCL2 S4 DDC GND2 S3 GND GND HTR SW GND PWR SW S2 DGS SW S1 +5V S0 INPUT SW V.FBP LED2 LB DET LED1 IK SIGMA KEY SCAN WAKE UP S7 GND PLL LOCK POC NC NC GND NC
R524 3.3k
R523 27k
IC701
volt 1.5 1.5 1.5 1.5 -15.0 1.5 1.5 0.2 0.2 15.0 volt 0.0 0.8 0.8 0.8 0.8 -0.1 -15.0 GND 15.0 4.8 volt 1.2 1.2 -15.0 0.2 15.0
IOUTA
IOUTB
POC
IC703 LA6500P-FA ROTATION DRIVE
R735 4.7k :CHIP
OUTA
INA-
INA+
INB+
INB-
OUTB
VEE
VCC
+15V
R504 10k :CHIP
R505 22k :CHIP
2
C515 0.01 B:CHIP
C516 220 16V
C517 470p R598 3.9k
R525 1.8k
ECO SW
1 5
-15V R701 2.2 C736 47 C701 330p B:CHIP
2
3
4
5
6
7
8
9
10
PLL LOCK
1
3
VSAWN VS OUT DCC2 HS OUT
R737 2.7k :CHIP C730 1000p B:CHIP
C718 0.1 25V F:CHIP
C719 0.1 25V F:CHIP
+15V
R700 82k :CHIP R709 4.7k :CHIP C713 0.01 B:CHIP C714 0.01 B:CHIP
SGND
SAWR
HDIN
MIX+
VREG9
SAWOUT
MIX-
+15V
C737 47
SLOW SW
H BLK H.LIN BAL
C704 0.01 :PT R710 8.2k :RN-CP R711 9.1k :RN-CP
R712 4.7k C706 0.01 :PT
+B
Q521 DTC124EKA H SAW SW
PWMOUT
REFIN
ERRIN
ERROUT
R706 150 2W :RS
R707 82k
PVCC
PGND
VCC
C705 0.1 25V B:CHIP
R713 150 2W :RS
MIXOUT
-15V
NC
C727 0.1 25V F:CHIP
R579
C726 0.1 25V F:CHIP
1k
R703 2.2 C703 330p B:CHIP
Q501 2SC1623-T1-L5L6 H DRV BUFF
Q503 KTA1505S-Y-RTK H DRV BUFF
R520 220 :CHIP C525 0.1 25V C565 0.1 25V R526 47k R599 100k
R577 0.001
DDC SDA1 ABL DET
R527 22k R528 22k :RN
R594 4.7k :CHIP
DDC SCL1
18
17
16
15
14
13
12
11
10
Q508 KTC3876S-Y-RTK PIN DRIVE
C511 0.1 F:CHIP
11 12 13 14 15 16 17 18 19
DDC SDA2 S5 DDC SCL2
NC
1
2
3
4
5
6
7
8
9
L510
+3.3V
IIC SCL IIC SDA GYSC LCC NS
XSC
1
L501 R515 2 4.7k C506 22 250V FB501 1.1UH
Q506 2SJ569LS PIN OUT
S
R521 100
IC501 BA9759F-E2 PWN CONT
R592 4.7k
S4 DDC GND2
R591 4.7k
S3
5
6
1
C503 0.1 :PT T501 HDT
8
4
Q509 KTA1505S-Y-RTK PIN DRIVE
D519 UDZS-TE17-5.1B
R531 2.7k R532 22k :CHIP
C524 470 25V
R572
C520 0.015
100
20 HTR SW
C562 1000p B:CHIP
R530 3k
C522 22
21
R590 4.7k :CHIP +15V R589 4.7k :CHIP
IC630
NC
9.1 volt -0.1 -0.1 GND GND 3.8 3.8 8.6 15.0
22 PWR SW S2 DGS SW S1 23 24 25 26 27 S0
GXSC HSW
R758 2.2 :FPRD R759 2.2 :FPRD
YSC
3
R506 10
L508
1
+15V -15V
Q504 2SK2231 H DRIVE IC702 STK391-220 AMP
R508 47 1W :RS
2
R514 22 :FPRD
C507 0.047 400V
FB555 0
D505 D2L40-TA D503 HZS182-TE
D509 MA111-TX
R534 2.2k :CHIP R511 22k :RN-CP C521 0.01 R578 C519 0.0047 2.2k
2
9
4
5
1
C504 0.0047
10
:PT
R596 100
R716 2.2 :FPRD
R717 2.2 :FPRD
R585 0.22 3W
R510 2.2 10W
Q519 2SA1037AK SIZE DETECT BUFF Q507 2SC2412K BUFF
R512 2.2k :CHIP
D706 UDZSTE
R756 2.2k 1/4W
IC702
IC902
R573
D504 FMQ-G5GS
OUT B(Y)
-IN B(Y)
+IN B(Y)
-IN A(X)
+IN A(X)
OUT A(X)
HSP 32 33 34 35 36 37 38 39 40 REFDC HD YDC HFBP XDC D.TILT YSC XSC
C707 220 25V C708 220 25V
S
STBY
C514 0.0047 :PT
D502 D5SC4M-F
R513 27 1W :RS
C509 100p 2kV SL
C512 470p B:CHIP
R518 220 :CHIP
R541 47k :CHIP
IC401 STV9379A V OUT
C732 0.01
1k
D705 MA111-TX
R588 4.7k :CHIP
28 29 30 31 32 33 34
INPUT V.FBP
1
2
3
4
5
6
7
8
9
10
R507 22k
D501 HZS182-TE
C505 220 35V
R509 0.47 :FPRD
C510 0.0022 100V :PT
VEE
VCC
R516 4.7k :CHIP
C513 0.1 25V F:CHIP
Q524 DTC124EKA-T146 H-SIZE FILTER SW
D406 RB441Q Q523 DTA124EKA-T146 H-SIZE FILTER SW
L509 C402 0.47 100V C401 470 25V R401 0.82 :FPRD
1 4
2 5
3 6
4 7
5 1
6 2
D401 EGP10GPKG23
3
C404 470 25V
7
R757 10k
C733 2200 10V
LED2 LB DET LED1
Q505 SC5570 H OUT
C508 3300p 1.8kV
D506 HZS5B2-TE
R517 47k :CHIP
R519 330 :CHIP
C403 220 R407 10k :CHIP
+12V
KEY SCAN
5
4
3
R584 47 3W
R586 47 3W
D512 1SS119-25TD
3
T504 HST R571
4
5
R412 JW (5.0MM)
C408 5p CH:CHIP
D405 RD5.1ES-T1B2
R408 100k
35 36
V.FBP
C405 0.001 R575 470 :CHIP
37 38 39
IC610
5
120 1/2W R542 120 120 1/2W 1/2W R533 C502 18k 0.01 C563 :PT :RN-CP 0.0022 2kV R546 470 2W
6
C407 2200p B:CHIP C406 2200p :PT R409 15k :RN-CP
VSAWN
R410 18k :RN-CP
PLL LOCK POC 40 41
R718 330 1W R719 2.2 2W :RS R721 10k :RN-CP
L506 L504 C537 0.13 400V
-15V
C712 33p
2
R570
D510 11DF2N
2 7
IC640
volt 7.1 12.8 GND
DCC2
TH401 R402 470 1W :RS R403 1.5 1/2W :RN R404 15k :RN R406 18k :RN
42 43 44
1
2
L505
1
C560 0.018 400V C549 0.047 400V C547 0.082 250V C545 0.18 250V C543 0.39 250V C539 1.2 250V R549 47 1/2W C538 4.7 250V
2 R536 1 2
R548 100 1/2W 100 1W :RS T503 LCT
1
All voltages are in V
2
C541 0.82 250V
R722 330 1W
C711 33p
L502
D516 D1NL40-TA D520 1SS119
1
R725 2.2 2W :RS
R724 10k :RN-CP
R726 8.2k :RN-CP
R727 8.2k :RN-CP
R729 8.2k :RN-CP
Q517 IRLI3215 S CAP CHANGE
Q516 IRLI3215 S CAP CHANGE
R581 47k 1/4W
Q515 IRLI3215 S CAP CHANGE
Q514 IRLI3215 S CAP CHANGE
Q513 FS30KMJ S CAP CHANGE
R557 47k
Q512 SK3579 S CAP CHANGE
1
1
2
6
5
5 2
D517 11DF2N
R405 1.5 1/2W :RN
C566 0.1 25V R550 47k 1/4W C536 0.47 400V
S501
CN501 6P WHT :VH
3 1
IC703
V DY
5 6 7 8 9 10
IC652
volt 3.3 7.0 GND 5.0 6.7
V+ VNC HNC H+ H DY
R754 10k :RN-CP
R728 10k :RN-CP C561 0.01 R561
S
S
S
S
+3.3V
R755 8.2k :RN-CP
C544 0.47 16V
S
C542 1 16V
S
C540 47 25V R552 47k 1/4W
S
0.1
C535 25V B:CHIP R545 2.2k
C550 0.01
47k 1/4W
C548 0.01 B:CHIP R567 100 :CHIP
R559 47k
C546 0.22 25V R566 100 :CHIP
R555 47k
R553 47k
PWR SW1
REFDC
YDC
S6
C534 0.01
HFBP
R547 39 1/4W
H.LIN BAL
H --
R583 100
R574 0
+15V
Q511 SK2098 S CAP CHANGE
R568 100
Q510 2SC3311A H LIN BAL SW
R580 470 1/4W :FPRD
D521 1SS119
2 4 3 4 5 5 6 6
12
9
7
+15V -15V
XDC
S0
S1
S2
S3
PH610 TLP421F
10
9
8
6
I --
C606 4700p 250V
4
1
R639 1.5k
IC640 SEB3-LF4 +B DETECT ERROR AMP
1 2 3
R694 33k 1/4W R565 R564 R693 36k 1/4W 100 R563 1k 100
R901 100k :CHIP C901 100 25V R904 2.2k :CHIP C902 0.01 B:CHIP C903 3.3
D901 MA111-TX
R902 47k :CHIP R905 1k :CHIP
H.DF
CN1101 4P WHT
1
L610
R651 1k :RN
D613 RM11A
0.1
R620 1/2W
:RF R675 2.2M 1/2W T620 PIT
C904 0.1 B:CHIP
1
2
3
4
5
C905 470p CH:CHIP
C906 100p CH:CHIP
D921 1SS119
+80V
D610 D4SB60L
2
L611
C687 0.1 :MPS
3
2
R640 1.8k
D GND +5V RXD TXD
CN1103 8P WHT :S-MICRO
2 RXD TXD 3 4
+12V
1
R615 6.8k
SGND
HDIN
VREG9
SAWOUT
DELAY
CATHODE
S4
S5
S6
AC SEN
SOURCE
IC610 MZ1532 PFI
L SEN COMP GND VCC
DRAIN
R652 22k :CHIP
R647 2.2M 1/2W
AGC
IC620 MCZ3001D REG OUT
NC
NC
D650 D4SBL40
9
R692 36k 1/4W R691 36k 1/4W
20
19
18
17
16
15
14
13
12
-
11 +
SLOW SW
HVDCAP
SVcc
HVD
1
2
3
4
5
6
7
8
9
10
J
C611 1 450V C614 100p :CHIP R611 0.47 2W R610 0.33 2W C612 0.22 :MPS C613 47 R630 1 :FPRD
16
C644 0.1 :MPS
R676 150k :RN-CP C645 1000p 2% :PP R653 6.8k :RN-CP
F/B
NC
Q641 2SK2876-01MR-F12 CONVERTER
R646 10 :CHIP C642 0.1 250V :MPS R645 10k :CHIP C643 100p 1kV :SL
+B
6
11
C650 100 250V
PGND
PVcc
NC
NC
17
C610 330 450V
IC654 NJM7812FA +12V
ERROUT
PWMOUT
C605 4700p 250V
GATE
R699 680 +B
VSENSE
VD
18
IC901 BA9758AFS-E2 HV CONT
FB1000 0UH
FB1005 0 :CHIP
1
7
10
D917 UDZS-TE17-9.1B
KEY SCAN
1 2
+12V WAKE UP KEY SCAN LED1 LED2 GND +5V INPUT SW
2
FB902 0UH +12V C908 0.01 B:CHIP C909 100 25V
1
2
3
4
5
6
7
8
9
10
CT
VG(H)
I 5 12
+80V
O G
S
RT
VS
-- K
RY602
14
5
C607 2200p 250V
13
D651 D1NL40
C652 100 100V C654 2200 25V
15
4
C910 220p CH:CHIP
C911 680p C721 47 100V
Q702 2SC2784-E H DF OUT
3
R753 10 :FPRD R739 27k R761 JW (5.0MM)
3 4 5 6 7
LED1 LED2
FB1002 0 :CHIP
D BOARD TRANSISTOR LIST
C667 47 16V C900 4.7 :BP C916 0.33 250V T701 DFT
INPUT
FB1007 0 :CHIP
R614 100
GND
VB
TIMER
NC
C647 4.7
D641 ERB38-06V1 Q640 2SK2876-01MR-F12 CONVERTER
R642 10 :CHIP
3
14
L652 +15V R934 4.7 1/2W :FPRD R661 0 :CHIP -15V L653 C657 47 25V R907 4.7k :CHIP
2 4 3
Q704 2SC3421-Y H DF OUT
5
8
SS
VG(L)
C648 47
C646 2.2 R656 100 :CHIP
C641 100p 1kV :SL
S
2
15
C655 47 25V
R698 15k :RN-CP
12
D690 1SS119-25TD
R696 270 1/2W
VC1
P.GND
C640 10
10
9
TH601
R641 10k :CHIP
C658 8200p 800V :PP
1
16
1
C656 2200 25V
7
1 LB DET
R911 47 1/4W C913 47 250V
2
R908 10k 1/4W C914 0.01
S
FB901 0UH
D906 UDZ-STE-17-13B
D907 D2L40-TA
T902 500UH
C915 470p 250V :APS
D701 1SS119-25TD
R744 470 :FPRD
13
TO H1 BOARD CN 1400
1
8
R909 68 10W :RN
D922 MA111-TX
6 8
1
R745 4.7 :FPRD
D702 1SS119-25TD D703 1SS119-25TD
GXSC
R740 47k
1 2 3 4 5 6 7 8
-15V +15V GND GXSC GYSC LCC NS IIC SDA IIC SCL
2
4
R746 4.7 :FPRD
D652 D4SBS4
R643 0.1 2W :RS
11
3
-- L -- M -- N
AC IN
CN602 3P WHT :VH
T601 LINE FILTER C603 470p 250V B
C649 1000p B:CHIP R612 100
C602 0.47 250V
R654 47 :CHIP
OCP
VC2
Q901 2SJ449 HV REG SW
6 5
8
L902
4
R924 10k :RN-CP
RV901 100k R925 270k :RN-CP
7
7
3
3
GYSC LCC NS IIC SDA
D697 MA111-TX
R660 4.7k :RN-CP
4
R912 1k
HV
Q903 KTC3876S HV DRIVE
8
6
4
2
R914 470
1
C917 0.1
17
C925 0.022 :PT
R747 15 2W :RS
R741 1k :CHIP
S601
Q610 DTA143ZSA-TP VCC SW D632 P6KE200AG23
R635 1M 1/2W T630 SRT
3
2
Q652 DTC114ESA-TP PROTECT
R937 1k :CHIP
Q904 KTA1505S HV DRIVE
Q902 FS5KM-18A HV OUT
C918 2000p 1.2kV
R926 27k :CHIP R928 330k 1/2W :RC SG901 C926 0.1 100V :PT 470p R929 47k :CHIP
5
1
Q705 2SA1358-Y H DF OUT
13
T901 :FBT R927 4.7k 1/2W :RC
C723 22 100V
Q703 2SA1049 H DF OUT
R743 330
C761 0.01 B:CHIP
C720 10000p B:CHIP R742 5.1k
IIC SCL
CN1106 8P
TO L BOARD
4
1
R915 22 :FPRD
D909 HZS182-TE
S
2
FV1
D680 FCH10A15
PH620 TLP421F R655 1k :CHIP
C692 220 6.3V
D910 RGP02
8
R936 2.2M 1W :RN C919 0.01 2kV F R916 47 :FPRD
C927 500V
:B
+80V
14
SG902 R930 15MM +12V
Q706 2SC4620TV2Q V DF OUT
Q701 2SC2362KG-AA H DF OUT
C604 470p 250V B
4
R636 1M 1/2W
5
R665 2.2k
D918 MA111-TX
D634 D1NL20U-TR D635 RD27ES-T1B
C632 2.2
5
4
D633 ERB38-06V1 D631 D1NL20U-TR
C631 100 25V C630 R633 0.1 :CHIP 120 R632 22k :CHIP
+7V
L680 7V C682 4700p :PT R670 15k C681 220 10V
R939 82k :CHIP
D920 UDZS-TE17-10B
R938 390k :CHIP R940 330k :CHIP R941 22M :RN R942 1M :CHIP
C936 1000p B:CHIP
IC902 NJM2904M(TE2) AMP
+ OUT VCC
6 15 3
R748 470k 1/2W R931 4.7k 1/2W :RC
R702 10k :CHIP R704 1k :CHIP
PWR SW1 PWR SW
GND
3
3
6
VDR601
R601 330k 1/2W
C615 100p 2kV
2
C680 4700 16V
IC680 MM1431ATT RECT
3 3
C932 0.1 25V B:CHIP R945 100 :CHIP
SG903
6
CN904 1P
C724 470p 2kV B
5
7 2
16
V.DF
L1001
1
1
8
1
4
Vcc
GND
CTL
VREF
RY603 C601 1 250V
D692 1SS119-25TD Q611 DTC143XSA-TP RELAY DRIVE
IC630 FA13842P REG
VCC
OUT
GND
5V
PH630 TLP421F R634 1k R631 1 1W
4 1
3.3V
2
3
8
7
6
5
D694 1SS119-25TD
S
Q630 2SK2647-01MR-F91 REG SW
R686 220 :CHIP
1 2 2
1
IC652 BA3953T-V5 3.3V/5VREG
C933 47 25V
R946 10k :CHIP
Q905 2SC4634LS-C11 G2 OUT Q906 2SA1037AK-T146 G2 MUTE
R617 10k :CHIP R953 2.2M :CHIP
R944 1k :CHIP R950 1k :CHIP C937 22 25V
D911 RGP02
7
R749 2.2k :CHIP
R760 68k :CHIP
Q707 2SA1037AK V DF OUT
R943 100k :CHIP R951 100k :CHIP
2
5V
JW019 4.7 1/4W C935 0.01 B:CHIP R918 820k 1/2W :RN C920 0.01 2kV F R917 2.2 :FPRD
9
FV2
D914 HSS82-TJ
10 11
R935 3.3k :RN C930 0.22 :MPS R932 3.9k :RN-CP R933 2.7k :RN-CP
D923 MA111-TX
R952 2.2k :CHIP
D919 UDZSTE
COMP
6
4
2
RT/CT
ISENS
FH601 F601 6.3A
C686 220 6.3V R671 10k R687 22k :CHIP
+15V
R903 180k :RN-CP
12
1
2
3
4
5
3
2
HV DET
1
SG601
2
3
4
AC L NC AC N
1 2 3 1 2 3 4
VDR602 FH602
5
3
1
C629 4700p :CHIP R637 6.8k :CHIP R629 15k
D643 MA111
L612 C683 220 6.3V
R954 10M :CHIP
R919 10k :CHIP
C938 470 16V
Q907 2SB709A G2 MUTE
R955 10M :CHIP
C921 0.1 25V F:CHIP
R920 56k :RN-CP
D912 RD15ES-T1B3
FB
C923 0.47
R923 82k
R921 4.7k C929 4.7
+5V
D644 MA111
C636 2200p B:CHIP
R618 1k :CHIP
ABL DET
(DEFLECTION,HDF,VDF) (HV,POWER SUPPLY)
--
DGC DGC NC NC DGC
CN601 4P WHT :VH
R638 10k :CHIP
C635 470p B:CHIP
INPUT
IIC SDA
IIC SCL
ECO SW
DDC SDA1
DDC SCL1
DDC GND1
DDC SDA2
DDC SCL2
THP602
17
16
15
14
13
12
11
10
1
4
DDC GND2
2
4
VS OUT
3
1
3
2
HS OUT
8
7
6
5
9
8
O --
9
7
6
5
1
H BLK
DGS SW
Q501 Q502 Q503 Q505 Q507 Q508 Q509 Q510 Q519 Q521 Q524 Q610 Q611 Q652 Q701 Q702 Q703 Q704 Q705 Q706 Q707 Q905 Q906 Q907
B 0.3 6.1 6.1 -1.3 -0.7 10.1 10.1 0.9 1.2 0.2 0.2 1.8 0 4.1 1.2 33.8 32.1 33.4 32.9 1.8 1.2 9.4 3.6 3.7
C 6.1 12 GND 66.7 12 15 GND 12.8 9 5.6 5.6 16.6 12.1 0 32.1 80 GND 80 GND 107.8 GND 72.5 GND GND
E GND 6.1 6.1 GND 0.2 9.8 9.8 0.4 GND GND GND 16.6 GND GND 0 33.4 32.9 33.3 33.1 1.3 1.8 8.8 8.8 0.7
All voltages are in V
Q504 Q506 Q511 Q512 Q513 Q514 Q515 Q516 Q517 Q630 Q640 Q641 Q901 Q902
G -10.4 200 0.2 4.9 0.2 0.2 0.2 0.2 0.2 1.2 4.4 194.6 218.5 8.2
D -0.2 66.6 26.5 24.8 24.8 24.8 24.8 24.8 24.8 385 190.1 378 54.4 54.8
S -15 217.4 GND GND GND GND GND GND GND 1.2 GND 190.1 200 GND
All voltages are in V
6
8
1
9-878-801-01<21CR1>D
DDC SDA2
DDC SDA1
DDC SCL1
DDC GND1
DDC SCL2
DDC GND2
IIC SDA
IIC SCL
VS OUT
HS OUT
ECO SW
TO C BLK CN318
TO A1 BOARD CN312
TO A1 BOARD CN311
H BLK
3.3V
+12V
+80V
CN510
GND
GND
GND
GND
GND
CN1102 17P BLK
INPUT SW
5V
+B
7V
+B
G2
NC
CN604 9P BLK
D BOARD WAVEFORMS 1 2 3 4 5 6
P
0.71 Vp-p (H) 11.3 Vp-p (H) 59.5 Vp-p (V) 1.7 Vp-p (V) 180 Vp-p (H) 640 Vp-p (H)
--
-- 26 --
CPD-E530
D
A
[Deflection, HDF, VDF, HV, Power Supply]
D BOARD LOCATOR LIST
1
2
3
R612 9
4
10 R4 62 G C640
5
R4 61 G 61 Q4 S Q4 60 S
6
7
R9 66
R603 R604
8
D695 C691 R608 C690
9
67 C0
10
11
T6.3AH F601
VDR601
12
250V
DIODE
D401 D405 D501 D502 D503 D504 D505 D506 D509 D510 D512 D516 D517 D518 D519 D520 D521 D610 D613 D631 D632 D633 D634 D635 D641 D643 D644 F-6 F-6 I-2 H-5 G-4 H-6 F-4 I-4 F-1 I-6 F-3 G-6 I-6 E-2 F-1 I-5 I-5 B-9 B-8 C-6 C-6 C-7 B-6 B-6 A-4 C-6 C-6
DIODE
D650 D651 D652 D680 D690 D692 D694 D697 D701 D702 D703 D705 D706 D901 D906 D907 D909 D910 D911 D912 D914 D917 D918 D919 D920 D921 D922 D923 D-5 D-4 D-4 D-7 A-9 D-11 B-6 A-4 G-7 G-7 G-7 F-8 F-8 F-8 F-8 F-9 F-10 G-11 H-10 H-11 H-9 G-8 G-12 G-11 G-11 G-8 F-8 G-11 IC401 IC501 IC610 IC620 IC630 IC640 IC652 IC654 IC680 IC701 IC702 IC703 IC901 IC902
IC
F-6 F-1 B-8 A-4 B-5 C-3 D-6 E-3 D-5 C-1 D-1 B-1 G-9 F-11
TRANSISTOR
Q501 Q502 Q503 Q504 Q505 Q506 Q507 Q508 Q509 Q510 Q511 Q512 Q513 Q514 Q515 Q517 Q516 Q519 Q521 Q523 Q524 Q610 Q611 Q630 Q640 Q641 Q652 Q701 Q702 Q703 Q704 Q705 Q706 Q707 Q901 Q902 Q903 Q904 Q905 Q906 Q907 E-2 E-1 E-2 I-2 H-5 F-4 I-3 F-2 E-2 F-5 G-2 G-2 G-1 G-1 H-1 I-1 H-1 F-3 E-1 F-2 F-2 A-3 D-11 B-7 A-6 A-5 B-3 G-7 G-7 G-8 G-8 G-8 I-10 H-11 E-9 E-10 G-9 G-9 G-11 F-11 F-11
Q674
R5 62
C645
C4 62
66 R4 C641 C614
R606 Q675
Q673
H0 F6 1
F62 H0
1
3
R653 C3 78 C730 R737 3 4 3 4 R4 67 18
R620 R601 D63 VR 0 1 63 R4 D613 C1 I6 0 C601 N0 C6 2
B
C726 C718 10 R713 CN701 1 E R718 C713 10
2 PH620 Q652 R655 B R639
1
2
1 PH610
C632 R3 62 R636 60 8 C3 5 IC630
C636 C635
R640
61 L1
D694
61 R9
R633
C719
R634
62 R9 R722 R665 I60 C4
4
R629 R628 R623
1
R637 C629
D633 D632 C606 1 CN601 4 H62 T P0
IC701
JR009
C
1 R712 R703 C703 T2 60 D631 3 4 3 4
1 4 T630 61 C1 R5 78 2 1 2 1 8 5 C605
R701
JR006 R735 C3 76
R1 68 R679 R670 R687 R1 J 03
OPTION SW
C4 70 C656
D
R727
R728 R721 R717
R5 79 L653
D651 C712 R724 C711 C655 51 Q2 C6 55 54 R2 58 D1 C559 IC654 O I 58 L0 1 C10 N1 6 C652 C667 61 C8 C5 60 R753 43
R755
E
Q501 Q0 52 R526 R501 C515 56 C1 R3 54 R0 J 07 R531 1 IC501 9 C2 51 R514 Q2 53 R4 51 C525 50 R2 Q2 56 R567 B5 F5 5 R563 Q2 59 J07 R1 R7 51 50 R7 R542 D503 56 R7 R4 54 R406 Q519 D505 12 C535 53 R4 55 Q2 58 Q2 G S
Q524
R2 52 57 R3 R502 C517 10 R523 R504
R0 J08 39 C500 40
56 R9 1 2
R9 58 18
51 C1
F
C523 54 C2 JR003
R530
C522
C506 C502 FB501 Q506 E R547 B Q 1 J0 8 50 R 1 54 R7
D0 71
C903 R901
C911 10
1
D903
C538
G
53 Q1 C544 R556 C543 3
Q520
Q0 95 C406 H0 T4 1 R1 J0 6 R902 11 20 C917 C6 71 R742 R743 72 C0 97 D1 C901 R913 Q903 C930 R932 C927 C919 N0 C 51 R746 C926 R933 R704 D504 R928 R402 R927 Q707 R926 R917 CN510 1. 2K V JR901 96 R3 94 Q0
5
R405
L504
R554 C542
2
T504 1
R403 7 6 6 1 L506 H D Y+ V D YV DY +
C548 R560 C550 R562 R557 C545 R510 55 Q1 C547 56 C6 G S 56 Q1 G C561 R582 S R507 C513 G S G R506 Q507 S R518 R509 53 C0 D510 R508 R516 D501 50 R8 S0 51 4 5 51 T0 1 E 8 B Q505
H
R513 R747
C723
L505
R921 58 C0 1 5 SG902 R931 R748 C925
8
71 T0 R930 C724 CN904 6 GND
R760
Q706
I
57 Q1
D517
E
B
-- 27 --
B
C540
R553
E
D650 C52 N0 L0 51
R716
4 G ND GND
L612
+
8
IC680
A
K
CN1103
D692 220V/200V 220V/200V NC
69 R8
R690
L680
D680
7V 7V
1
8
+80V GND +12V 7V N14 C 10 1 2