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SDM-X82
SERVICE MANUAL
US Model Canadian Model AEP Model
SPECIFICATIONS
LCD panel Input signal format
Resolution Input signal levels
Power requirements Power consumption Operating temperature
Panel type: a-Si TFT Active Matrix Picture size: 18.1 inch RGB operating frequency* Horizontal: 28 92 kHz Vertical: 56 85 Hz Horizontal: Max.1280 dots Vertical: Max.1024 lines Analog RGB video signal 0.7 Vp-p, 75 , positive SYNC signal TTL level, 2.2 k , positive or negative (Separate horizontal and vertical, or composite sync) 0.3 Vp-p, 75 , negative (Sync on green) Digital RGB (DVI) signal: TMDS (Single link) 100 240 V, 50 60 Hz, Max. 1.2 A Max. 58 W 5 35 °C
Dimensions (width/height/depth) Display (upright): Approx. 450 × 424 × 241 mm (17 3/4 × 16 3/4 × 9 1/2 inches) (with stand) Approx. 450 × 368 × 90 mm (17 3/4 × 14 1/2 × 3 5/8 inches) (without stand) Approx. 8.2 kg (18 lb 15 oz) (with Mass stand) Approx. 6.5 kg (14 lb 5 oz) (without stand) Plug & Play DDC2B
* 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 2.5 µsec. · Vertical blanking width should be more than 450 µsec. Design and specifications are subject to change without notice.
TFT LCD Color Computer Display
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 contact 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 connector shell, metal trim, "metallized" knobs, screws, and all other exposed metal parts for AC Leakage. Check leakage as described right. 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 WT540A. Follow the manufacturers' instructions to use these instruments. 2. A battery-operated AC milliammeter. 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 250 and Sanwa SH-63Trd are examples of a passive VOMs that are suitable. Nearly all battery operated digital multimeters that have a 2 V AC range are suitable. (See Fig. A)
To Exposed Metal Parts on Set
0.15 µF
1.5 k
AC Voltmeter (0.75 V)
Earth Ground
Fig. A. Using an AC voltmeter to check AC leakage.
SDM-X82(E)
2
WARNING!! 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.
AVERTISSEMENT!! ATTENTION AUX COMPOSANTS RELATIFS À LA SÉCURITÉ!! LES COMPOSANTS IDENTIFIÉS PAR UNE TRAME ET UNE MARQUE ! SONT CRITIQUES POUR LA SÉCURITÉ. NE LES REMPLACER QUE PAR UNE PIÈCE PORTANT LE NUMÉRO SPECIFIÉ. LES RÉGLAGES DE CIRCUIT DONT L'IMPORTANCE EST CRITIQUE POUR LA SÉCURITÉ DU FONCTIONNEMENT SONT IDENTIFIÉS DANS LE PRÉSENT MANUEL. SUIVRE CES PROCÉDURES LORS DE CHAQUE REMPLACEMENT DE COMPOSANTS CRITIQUES, OU LORSQU'UN MAUVAIS FONCTIONNEMENT EST SUSPECTÉ.
SDM-X82(E)
3
POWER SAVING FUNCTION
AUTOMATIC PICTURE QUALITY ADJUSTMENT FUNCTION
(ANALOG RGB)
When the monitor receives an input signal, it automatically adjusts the picture's position and sharpness (phase/pitch), and ensures that a clear picture appears on the screen. The factory preset mode
When the monitor receives an input signal, it automatically matches the signal to one of the factory preset modes stored in the monitor's memory to provide a high quality picture at the center of the screen. If the input signal matches the factory preset mode, the picture is appears on the screen automatically with the appropriate default adjustment.
This monitor meets the power-saving guidelines set by VESA, ENERGY STAR, and NUTEK. If the monitor is connected to a computer or video graphics board that is DPMS (Display Power Management Signaling) compliant, the monitor will automatically reduce power consumption as shown below.
Power mode normal operation active off* (deep sleep)** 1 (power) off
Power consumption 58 W (max.) 3 W (max.) 1W
1 (power) indicator
green orange red off
If input signals do not match one of the factory preset modes
When the monitor receives an input signal, the automatic picture quality adjustment function of this monitor is activated and ensures that a clear picture always appears on the screen (within the following monitor frequency ranges): Horizontal frequency: 28 92 kHz Vertical frequency: 56 85 Hz Consequently, the first time the monitor receives input signals that do not match one of the factory preset modes, the monitor may take a longer time than normal for displaying the picture on the screen. This adjustment data is automatically stored in memory so that next time, the monitor will function in the same way as when the monitor receives the signals that match one of the factory preset modes.
main power off 0 W
*
When your computer enters the "active off" mode, the input signal is cut and NO INPUT SIGNAL appears on the screen. After 10 seconds, the monitor enters the power saving mode. ** "Deep sleep" is a power saving mode defined by the Environmental Protection Agency. Note If the ZZ... (POWER SAVE) is set to OFF (page 16), the monitor does not enter the power saving mode.
If you adjust the phase, pitch, and pictures position manually
For some input signals, the automatic picture quality adjustment function of this monitor may not completely adjust the picture position, phase, and pitch. In this case, you can manually set these adjustments (page 13). If you manually set these adjustments, they are stored in memory as user modes and automatically recalled whenever the monitor receives the same input signals.
SDM-X82(E)
4
TABLE OF CONTENTS
Section Title Page Section Title Page
1. DISASSEMBLY
1-1. 1-2. 1-3. 1-4. 1-5. 1-6. 1-7. Rear Cover and Cabinet Assy Removal ............... H Board Removal ................................................ I Board Removal .................................................. A Board Removal ................................................ G Board Removal ................................................. U Board and LCD Unit Removal ......................... LCD Panel Removal ............................................. 1-1 1-2 1-3 1-4 1-5 1-6 1-7
3. DIAGRAMS
3-1. Block Diagrams .................................................... 3-2. Circuit Boards Location ........................................ 3-3. Schematic Diagrams and Printed Wiring Boards.. (1)Schematic Diagram of A(a,b,c,d,e,f,g,h) Board. ........ (2)Schematic Diagram of H Board. ...................... (3)Schematic Diagram of I Board. ........................ (4)Schematic Diagram of G Board. ...................... (5)Schematic Diagram of U Board. ...................... 3-1 3-2 3-2 3-4 3-13 3-15 3-17 3-19
2. ADJUSTMENTS
2-1. 2-2. 2-3. 2-4. 2-5. Service Functions of Buttons in Front Panel ........ Usea of Service Mode .......................................... Functions of Service Mode .................................. White Balance Adjustment .................................. Action after Replacing the LCD Module and Board .................................. 2-1 2-2 2-3 2-3 2-5
4. EXPLODED VIEWS
4-1. Chassis ................................................................. 4-2. Packing Materials ................................................. 4-2 4-3 5-1
5. ELECTRICAL PARTS LIST ...............................
SDM-X82(E)
5
SECTION 1 DISASSEMBLY
1-1. REAR COVER AND CABINET ASSY REMOVAL
1 Rear cover
2 Four screws (+PSW 4X10)
3 Four screws (+PWH 3X12)
4 Cabinet assy
Protection sheet
SDM-X82(E)
1-1
1-2. H BOARD REMOVAL
2 Three screws (+PTP 3X8)
3 H Board
CN101
1 Connector
SDM-X82(E)
1-2
1-3. I BOARD REMOVAL
2 Inverter shield 1 Screw (+PWH 3X6) 3 Connector 3 Connector CN04 CN01 3 Connector CN03 2 Connector CN02 4 Screw (+PWH 3X6) 5 I Board 3 Connector CN07 3 Connector CN06 3 Connector CN05
SDM-X82(E)
1-3
1-4. A BOARD REMOVAL
2 Interface shield
1 Four screws (+PWH 3X6)
4 Connector CN303 5 Two screws (+PWH 3X6) 4 Connector CN202 4 Connector CN501
4 Connector CN201 4 Connector CN801 6 A Board
3 Six connector screw
SDM-X82(E)
1-4
1-5. G BOARD REMOVAL
1 Two screws (+PWH 3X6)
2 Power shield 3 Connector CN203 4 Screws (+PWH 3X6) 5 G Board 3 Connector CN102
3 Connector CN101
SDM-X82(E)
1-5
1-6. U BOARD AND LCD UNIT REMOVAL
3 Two screw (+RKTP 4x10) 2 Screw (+P 3x6)
4 LCD UNIT 3 Two screw (+RKTP 4x10)
1 Connector CN851
6 Screw (+PTP 3x8) 7 U Board 5 Connector CN852
SDM-X82(E)
1-6
1-7. LCD PANEL REMOVAL
1 Two screws (+P 3X6) 1 LCD panel
1 Two screws (+P 3X6)
SDM-X82(E)
1-7
SECTION 2 ADJUSTMENTS
2-1. Service Functions of Buttons in Front Panel
The following functions are available for servicing the set. 1. To display the model information Press the MENU button for five seconds or more in the ordinary power-on state, and the following information is displayed on the screen: - Model name - Serial number - Manufactured year and week This function is described in the instruction manual also. To display ETI (Elapsed Time Indicator) Press the OK button for five seconds or more in the ordinary power-on state, and the cumulative power-on time excluding the power-off and power saving state is displayed on the screen. All mode recall Press the POWER button with pressing the OK button in the power-off state, and the user memory is completely cleared and the system is reset to the factory setting. This reset is similar to RESET in the OSD menu, but differs from it in the following: - The NO SYNC AGING flag is cleared. - LANGUAGE is set to ENGLIDH. - INPUT is set to INPUT1: DVI-D. To set the NO SYNC AGING flag Press the POWER button with pressing the UP () button in the power-off state, and the NO SYNC AGING flag is set. In this setting, when the input with no input signal is selected, the system goes into the AGING mode. The NO SYNC AGING flag is held until it is cleared. To clear the NO SYNC AGING flag, go into the service mode and then set the AGING mode to OFF, or execute the all mode recall. 5. To enter the service mode Press the POWER button with pressing the UP () and DOWN () buttons in the power-off state, and the system is set to the service mode. The service mode will be explained later. To exit from the service mode, turn off the power. To copy EDID to the EEPROM and to clear ETI Press the POWER button with pressing the UP () and OK buttons in the power-off state, and the data for the model information are copied to the EEPROM for the internal microcontroller from EDID of INPUT2: HD15, and the model information display is made correct. When replacing the A board, this operation is required after writing EDID and at the same time ETI is reset to 0. To enter the ISP mode Turn on the MAIN POWER switch with pressing the DOWN () button in the main-power-off state, and the system enters the ISP mode. The POWER LED goes off, and both input LED's 1 and 2 light on, and the picture disappears, and any button becomes invalid. In the ISP mode, the internal software can be updated with an external personal computer using a special fixture. To cancel the ISP mode, turn off the MAIN POWER switch.
6.
2.
7.
3.
4.
SDM-X82(E)
2-1
2-2. Uses of Service Mode
1. 2. Turn off the power with the POWER button in the front panel. The red POWER LED lights on. Press the POWER button in the front panel with pressing the UP () and DOWN () buttons, and the system enters the service mode. When no signal is input to the selected input terminal, the following functions are disabled. Press the MENU button, and the main menu is displayed. Then go to page 2 of the main menu with the UP () or DOWN () button, then select the MAINTAIN icon on the bottom line, and then press the OK button. In this menu screen, the version number and released date of the internal software can be checked. The structure of the MAINTAIN menu is shown below.
MAINTAIN CONFIGURATION COLOR TEMP 9300K SUB-BRIGHTNESS R 6500K G B EXIT SUB-CONTRAST R G B EXIT INITIAL EEPROM CLEAR ETI TIME EEPROM TEST RGB RESET EXIT CHIPS AGING MODE ON OFF REGISTERS VALUE CONTROL REG EXIT EXIT 000~1FF
3.
4. 5.
The operation procedure is basically same as that of the ordinary user controls. The function of each menu is explained in next section.
SDM-X82(E)
2-2
2-3. Functions of Service Mode
1. COLOR TEMP This is used for the white balance adjustment at color temperature 9300 K and 6500 K. The adjustment requires to be done for every input (INPUT1: DVI-D, INPUT1: HD15, or INPUT2: HD15) by switching the input. The adjustment data is stored into the register for respective inputs. INITIAL EEPROM This sets the data of the EEPROM to the default data. This operation is not required usually. CLEAR ETI TIME This resets the ETI (Elapsed Time Indicator) counter to 00000 H. EEPROM TEST This tests writing and reading of the EEPROM. RGB RESET This adjust the offset and gain of the input AD converter for the analog inputs (INPUT1: HD15 and INPUT2:HD15). As these adjustments are common to both inputs, perform them for either input. It is unnecessary for another input. Execute the adjustments under the condition where the signal specified in "White Balance Adjustment" is input. AGING IN MODE This sets and clears the NO SYNC AGING flag. AGING MODE = ON: Sets the NO SYNC AGING flag. AGING MODE = OFF: Clears the NO SYNC AGING flag. When the NO SYNC AGING flag is set and the input with no input signal is selected, the system goes into the BURN IN mode. The NO SYNC AGING flag is held until it is cleared. To clear the NO SYNC AGING flag, go into the service mode and then set the AGINGN MODE to OFF, or execute the all mode recall. CONTROL REG. This can check the data of the internal registers. This operation is not required usually.
2-4. White Balance Adjustment
< Preparation > (1) Measurement point : Center of screen (2) Measurement distance : 50 cm (3) Measurement angle : 90° (4) Color analyzer (Minolta CS-1000 or equivalent) (5) Signal generator (Astro Design VG-828D or equivalent) Be sure to calibrate the analog RGB output level with 75 termination. 1. Service mode setting Enter the service mode referring to step 1 and 2 of Section 2-2. Aging Set the AGING MODE in the service mode to ON. Disconnect the signal input terminal or select the input with no signal input, and the system goes into the AGING MODE. Execute aging for 30 minutes or more. User control setting Feed a signal to the selected input, and then execute reset in the menu screen. Then, move the menu display position to avoid the measurement point. Or, set the following for respective inputs. BACKLIGHT (Brightness of backlight) = 100 CONTRAST = 70 BRIGHTNESS = 50 Menu display position = not center of screen (Avoid the measurement point.) (The setting of the menu display position is common to respective inputs.) ECO = OFF (The setting of ECO is common to respective inputs.) Do not change the above setting until the white balance adjustment is completed.
2.
3.
2.
4.
5.
3.
6.
7.
SDM-X82(E)
2-3
4.
Analog RGB white balance adjustment (1) Feed the signal listed below to INPUT2: HD15, and then select INPUT2: HD15. Then execute RGB RESET in the service mode menu.
Signal timing VESA 1280 * 1024 / 60Hz Pattern Gray scale Input level 0.73 Vp-p
(6) Adjust the SUB-BRIGHTNESS: R, G, and B. Specifications are listed below.
x 0.313 ± 0.003 y 0.329 ± 0.003 Brightness (cd/m2) 14 ± 0.7
(2) Feed the signal listed below to INPUT2: HD15.
Signal timing VESA 1280 * 1024 / 60Hz Pattern All gray Pattern 30 IRE (0.21 Vp-p)
(7) After adjusting (4) and (6), write down the value of SUB-CONTRAST and SUB-BRIGHTNESS. (8) Feed the signal listed below to INPUT1: HD15, and then select INPUT1: HD15. Select COLOR TEMP 9300K then 6500K in the service mode menu, and enter the value written down in step (7) respectively.
5.
Digital RGB white balance adjustment (1) Feed the signal listed below to INPUT1: DVI-D.
Signal timing Pattern All gray Input level 30 IRE
(3) Select COLOR TEMP 9300K in the service mode menu, and set the data listed below as initial data for adjustment.
SUB-BRIGHTNESS R 30 G 30 B 30 R 141 SUB-CONTRAST G 141 B 141
VESA 1280 * 1024 / 60Hz
(2) Select COLOR TEMP 9300K in the service mode menu, and set the data listed below as initial data for adjustment.
SUB-BRIGHTNESS R G 40 B 40 R 130 SUB-CONTRAST G 130 B 130
(4) Adjust SUB-BRIGHTNESS: R, G, and B. Specifications are listed below.
x 0.283 ± 0.003
y 0.298 ± 0.003
Brightness (cd/m2) 14 ± 0.7
40
(3) Adjust the SUB-BRIGHTNESS: R, G, and B. Specifications are listed below.
x 0.283 ± 0.003 y 0.298 ± 0.003 Brightness (cd/m2) 14 ± 0.7
(5) Select COLOR TEMP 6500K in the service mode menu, and set the data listed below as initial data for adjustment.
SUB-BRIGHTNESS R 30 G 30 B 30 R 141 SUB-CONTRAST G 141 B 141
SDM-X82(E)
2-4
(4) Select COLOR TEMP 6500K in the service mode menu, and set the data listed below as initial data for adjustment.
SUB-BRIGHTNESS R 40 G 40 B 40 R 130 SUB-CONTRAST G 130 B 130
2-5. Action after Replacing the LCD Panel and Board
1. After replacing the LCD panel (1) White balance adjustment. (Refer to Section 2-4.) (2) CLEAR ETI TIME. (Refer to Section 2-3 step 3.) (3) Check of picture and sound. After replacing the A board (1) White balance adjustment. (Refer to Section 2-4.) (2) EDID writing. As the write protection is not applied in this unit, it is possible to write data with an ordinary writing fixture. It is required to be written for INPUT1: DVI-D, INPUT1: HD15, and INPUT2: HD15 respectively. Take care that the data for DVI-D and HD15 terminals are different from each other. (3) EDID copy to the EEPROM and ETI clear. (Refer to Section 2-1 step 6.) Be sure to perform them after EDID writing. After executing, check that the correct model information is displayed. (Refer to Section 2-1 step 1.) (4) Operation check of buttons and LED's in the front panel, and Check of picture and sound for respective inputs. After replacing the I board (1) White balance adjustment. (Refer to Section 2-4.) (2) Check of picture and sound. After replacing the G board (1) Operation check of the MAIN POWER switch. (2) Check of picture and sound. After replacing the H board (1) Operation check of buttons and LED's in the front panel. After replacing the U board (1) Check of speaker output. (2) Check of headphone jack output.When connecting a plug to the headphone jack, confirm no sound from the speakers.
2. (5) Adjust the SUB-BRIGHTNESS: R, G, and B. Specifications are listed below.
x 0.313 ± 0.003 y 0.329 ± 0.003 Brightness (cd/m2) 14 ± 0.7
6.
Setting for shipping Turn off the power with the POWER button in the front panel. Check that the red POWER LED lights on, and then execute the all mode recall. (press the POWER button with pressing the OK button in the power-off state)
3.
4.
5.
6.
SDM-X82(E)
2-5
3-1. BLOCK DIAGRAMS
A BOARD (INTERFACE)
CN602
SECTION 3 DIAGRAMS
I BOARD (INVERTER)
BOARD IC502 IC603 IC401 CN501
CN603 IC503
CN601
IC503 IC504 IC505
IC307 CN301 IC301 IC303 IC302
IC305 IC601
IC304
H BOARD (IKEY BOARD)
IC201
G BOARD (POWER)
SDM-X82(E) 3-1
3-2. CIRCUIT BOARDS LOCATION
A Board
I Board
G Board
U Board H Board
SDM-X82 (E)
3-2
3-3. SCHEMATIC DIAGRAMS AND PRINTED WIRING BOARDS
Note:
· All capacitors are in µF unless otherwise noted. (pF: µµF) Capacitors without voltage indication are all 50 V. · Indication of resistance, which does not have one for rating electrical power, is as follows. Pitch: 5 mm Rating electrical power 1/4 W (CHIP : 1/10 W) · All resistors are in ohms. · : nonflammable resistor. · : fusible resistor. : internal component. · · : panel designation, and adjustment for repair. · All variable and adjustable resistors have characteristic curve B, unless otherwise noted. · : earth-ground. · : earth-chassis. · When replacing the part in below table, be sure to perform the related adjustment. · All voltages are in V. · Readings are taken with a 10 M digital multimeter. · Readings are taken with a color-bar signal input. · Voltage variations may be noted due to normal production tolerances. · * : Can not be measured. · Circled numbers are waveform references. · : B + bus. · : B bus. · Divided circuit diagram One sheet of A board are circuit diagram is divided into eight sheets, each having the code A-a to A-g. For example, the destination ab1 on the code A-a sheet is connected to ab1 on the A-b sheet. a b 1 Ref. No. Circuit diagram division code
Note: The components identified by shading and mark ! are critical for safety. Replace only with part number specified.
Note: Les composants identifiés par un tramé et une marque ! sont critiques pour la sécurité. Ne les remplacer que par une pièce portant le numéro spécifié.
SDM-X82 (E)
3-3
(1) Schematic Diagrams of A (a, b, c, d, e, f, gh) Board
1 A
2
3
4
5
6
7
8
9
10
11
12
13
14
15
+12V
+5V REG
+5V
B
ag 1
C
+12V
I/F
TO G BOARD CN203
D
+5V REG
afg2
+5V
E
F
+5V +5V
+2.5V REG +3.3V REG
+3.3V +5V
+3.3V REG
+2.5V
+3.3V
+5V
+3.3V REG
+3.3V
af 3
G
A-a
(POWER)
H
· Divided circuit diagram One sheet of A board are circuit diagram is divided into eight sheets, each having the code A-a to A-h. For example, the destination ab1 on the code A-a sheet is connected to ab1 on the A-b sheet.
B-SS3627-A..-P1
I
a b 1 Ref. No. Circuit diagram division code
SDM-X82(E)
3-4
1 A
2
3
4
5
6
7
8
9
10
11
12
13
14
B
INPUT 1 DVI-D INPUT (DIGITAL RGB)
bd 5
C
ag 3
D
+5V
SW
E
EEPROM
bc6
bg 9
bg7
bc8
bg 10
F
G
A-b
(DVI AND DDC SWITCH IC)
B-SS3627-A..-P2
· Divided circuit diagram
H
One sheet of A board are circuit diagram is divided into eight sheets, each having the code A-a to A-h. For example, the destination ab1 on the code A-a sheet is connected to ab1 on the A-b sheet. a b 1 Ref. No. Circuit diagram division code
I
J
SDM-X82(E)
3-5
1 A
INPUT 2 HD 15 INPUT (ANALOG RGB)
2
3
4
5
6
7
8
9
10
11
12
13
14
15
cg11
bc8
B
bc6
+5V +5V
C
cg12
c g 16
+5V SW
EEPROM
D
+5V
E
F
INPUT 1 HD 15 INPUT (ANALOG RGB)
cg13
cd19
G
cg14
H
cd17
+5V
cg18
I
ANALOG SW
AT2XC02-10SC EEPROM
cg15
A-c
(ANALOG)
J
· Divided circuit diagram One sheet of A board are circuit diagram is divided into eight sheets, each having the code A-a to A-h. For example, the destination ab1 on the code A-a sheet is connected to ab1 on the A-b sheet.
B-SS3627-A..-P3
K
a b 1 Ref. No. Circuit diagram division code
SDM-X82(E)
3-6
1 A
2
3
4
5
6
7
8
9
10
11
12
13
14
15
+3.5V
df27 df26
B
df28
+3.3V
C
df29
+3.3V
df30
D
df31
+3.3V
E
cd19 df32
bd5
+2.5V
IC401 GM5020 SCALER
F
cd17
de33
G
+2.5V
H
+3.3V
df20 dh21 dg22 dg23 dg24
de34
I
+2.5V
dg25 de35 de36 de37
J
· Divided circuit diagram One sheet of A board are circuit diagram is divided into eight sheets, each having the code A-a to A-h. For example, the destination
A-d
(SCALER)
B-SS3627-A..-P4
K
ab1 on the code A-a sheet is connected to ab1 on the A-b sheet. a b 1 Ref. No. Circuit diagram division code
SDM-X82(E)
3-7
1 A
2
3
4
5
6
7
8
9
10
11
12
13
14
15
+3.3V
+3.3V
+3.3V
B
de34
C
de33
D
SDRAM SDRAM SDRAM
de35
E
de36 de37
F
G
H
A-e
(SDRAM)
I
· Divided circuit diagram One sheet of A board are circuit diagram is divided into eight sheets, each having the code A-a to A-h. For example, the destination ab1 on the code A-a sheet is connected to ab1 on the A-b sheet. a b 1
B-SS3627-A..-P5
J
Ref. No. Circuit diagram division code
SDM-X82(E)
3-8
1 A
2
3
4
5
6
7
8
9
10
11
12
13
14
15
+12V
+5V
TO LCD
B
fg38
C
af3 afg2
D
+3.3V
+3.3V
E
df30
IC501 THC63LVDM83A LVDS
IC502 THC63LVDM83A LVDS
df27 df20
df31
df28
F
df32 df29
G
df26
H
A -f
(LVDS)
I
· Divided circuit diagram One sheet of A board are circuit diagram is divided into eight sheets, each having the code A-a to A-h. For example, the destination ab1 on the code A-a sheet is connected to ab1 on the A-b sheet.
B-SS3627A..-P6
J
a b 1 Ref. No. Circuit diagram division code
SDM-X82(E)
3-9
1 A
2
3
4
5
6
7
8
9
10
11
12
13
14
15
dg24
dg25 afg2
B
MCU
bg4
C
bg10 bg9 cg11 fg38 cg14 cg16
+5V
ag1 cg13 cg15
cg18 cg12
D
gh39
E
EEPROM
F
TO H BOARD CN901
G
+5V
dg22 dg23 gh40
I/F
TO I BOARD CN01
H
bg7
I
J
· Divided circuit diagram One sheet of A board are circuit diagram is divided into eight sheets, each having the code A-a to A-h. For example, the destination
A -g
(MCU)
B-SS3627 - A..-P7
K
ab1 on the code A-a sheet is connected to ab1 on the A-b sheet. a b 1 Ref. No. Circuit diagram division code
SDM-X82(E)
3-10
1 A
2
3
4
5
6
7
8
9
10
11
12
13
14
15
INPUT2 AUDIO I N
B
AUDIO SW
AUDIO AMP
C
dh21
5.8 5.8
5.8 5.7
TO U BOARD CN851
5.7 5.8
0
gh39
D
gh40
E
INPUT1 AUDIO I N
A-h
(AUDIO AND EARPHONE)
B-SS3627 - A..-P8
F
· Divided circuit diagram One sheet of A board are circuit diagram is divided into eight sheets, each having the code A-a to A-h. For example, the destination ab1 on the code A-a sheet is connected to ab1 on the A-b sheet. a b 1
G
Ref. No. Circuit diagram division code
H
I
J
SDM-X82(E)
3-11
A
[MAIN CPU,SYSTEM IC,COLOR DEC,A/D CONV,3D COMB FILTER]
-- A BOARD --
1
2
3
4
1
2
3
4
A
A
B
B
C
SDM-X82(E)
3-12
(2) Schematic Diagram of H Board
1 A
2
3
4
5
6
7
8
9
10
11
TO A(g)BOARD CN303
B
C
H
(KEY)
B-SS3633-H..
D
E
F
SDM-X82(E)
3-13
H
[KEY]
-- H BOARD --
SDM-X82(E)
3-14
(3) Schematic Diagrams of I Board
1 A
2
3
4
5
6
7
8
9
10
11
12
13
CN01 7PIN ICT56
VIN VCC VCC GND GND GND OFF ADJ 1 2 3 4 6 5 7
D
F01 2A 63V ICT19
VIN
ICT18
+
Q10 BC817-25 R41 2k ICT54 R42 1k ICT55 R04 10 ICT57
P_C
C33 220u 35v
TO A (g) BOARD CN202
B
ICT53
5V
Q11 BC807-25
ICT39 R12 47k ICT34 D21 R03 10k R08 100 Q06 5V BC817-25 R09 22 ICT40 ICT37 ICT31 ICT23 ICT22 R18 20
NDRV_B N_B
T01 ICT1 YST-A186490
1 7 2 4 5 N_D 6
CN02 2PIN ICT3 CY01 22p
B
ICT9
1
ICT38
TO LCD BACK LIGHT
2
Q1 2N7002LTA
R13 27k
R17 30k
R43 20
NDRV_D
ICT25
VP1 VP2
D14 1SS226 R22 ICT5 560
FB1
OP1
PDRV_C
ICT35 ICT28 IC01 OZ9601S
1 2 20 19 18 17 16 15 14 13 12 11 PDRV_C NDRV_D NDRV_B PDRV_A
ICT21
ICT20
1 N_B
IC02 8958
C39 10u ICT2 T02 YST-A186490 ICT6 1
7
ICT4
R23 390 CN03 2PIN
1
C
VIN
R10 10k ZD01 UDZSTE-175.6B
ENA
ICT26
C12 220p
ICT27
P_A
3 4
R45 2k ICT58
Q16 BC817-25 R15 ICT59 10
P_A
R21 62k J01 C13 0.01u C14
ICT24 IC03 8958
1 N_D
VP1
2 4 5 6
TO LCD BACK LIGHT
CY02 22p
B 2
R11 100k ICT43
C05 0.01u
C04 1u
C08 1u
5
C09 1u
2.5V
6 7 8 9 10
5V
R46 1k
Q17 BC807-25
ICT42
FB
R14 681k C10 0.1u
D15 1SS226 R24 560
FB2
OP2
C15 0.1u
ICT7
P_C
R25 390
ICT17
D
PDRV_A
Q8 2N7002LTA ICT60
D01 BAS32
OP1
ICT51
Q02 2N7002LTA Q03 2N7002LTA
C06 0.01u ICT44 R39 33k D07 0
C38 0.0015u ICT45 ICT46
ICT29 CN04 2PIN
1 7 2 4
C21 0.1u
5V FB
R05 1M
ICT48
ICT33
VP1
T03 YST-A186490
1
D02 BAS32
OP2
ICT50 Q04 2N7002LTA C22 0.1u R06 1M
CY03 22p
ICT11
2 B
TO LCD BACK LIGHT
R50 100k
C19 333p
6
Q24 2N7002LTA
E
OP11
ICT49 C11 0.01u Q05 2N7002LTA R16 51k R01 C07 R20 15k ICT8
C
D PBC
VP2
5
D06 BAS32
Q25 2N7002LTA C23 0.1u R28 1M
OP4
D04 BAS32
OP22
C03 0.1u Q26 2N7002LTA C24 0.1u R29 1M
R07 1M
D09 1SS355 D10 1SS355
FB1
B
D03 BAS32
ICT52
R19 1M D08 1SS355
ICT15 ICT14
OP4
D16 1SS226 R26 560 R27 390
ICT12 D20 1SS226
FB2
CN05 2PIN ICT36 CY04 22p
B
T04 1YST-A186490
7 2
ICT47
1
TO LCD BACK LIGHT
2
F
OP44
D05 BAS32
Q27 2N7002LTA
VP11
T06 YST-A186490
1 7 2 4 5 6
CN07 2PIN ICT63 CY06 22p D19 1SS226
B
F02 2A 63V
+
C36 220u
4 5
6
ICT13
1 VP11 2 VP22
D17 1SS226 R31 ICT10 560
FB11
OP11
C25 0.1u
R30 1M
IC04 C40 8958 10u
1
ICT30 ICT16 T05 YST-A186490
7
R32 390 CN06 2PIN
VP22
R35 560
OP44
ICT65
N_B
P_A
1 2 4 5
ICT41 CY05 22p
B
ICT32
1
G
D11 1SS355
FB11
ICT64
R36 390
TO LCD BACK LIGHT
2
VP11
I (INVERTOR)
H
D12 1SS355
PBC N_D
IC05 8958
1
6
D18 1SS226 R33 ICT67 560
FB22
OP22
ICT68
FB22 P_C
R34 390
D13 1SS355
ICT66
B-SS3627 - I..
SDM-X82(E)
3-15
I
[INVERTER]
-- I BOARD --
SDM-X82(E)
3-16
(4) Schematic Diagrams of G Board
1 A
2
3
4
5
6
7
8
9
10
11
12
13
14
15
+5V
B
AC IN 100V 50/60Hz
TO A (a) BOARD CN201
C
D
E
F
G
H
G(POWER)
I
B-SS3633 - G..
J
SDM-X82(E)
3-17
G
[POWER SUPPLY]
--G BOARD --
SDM-X82(E)
3-18
(5) Schematic Diagram of U Board
1 A
2
3
4
5
6
7
8
9
10
11
TO A (h)BOARD CN801
B
C
HEAD PHONE
D
U
(EARPHONE)
E
B-SS3627-U..
F
G
SDM-X82(E) 3-19
U
[EARPHONE
-- U BOARD --
SDM-X82(E)
3-20
SECTION 4 EXPLODED VIEWS
· Items with no part number and no description are not stocked because they are seldom required for routine service. · The construction parts of an assembled part are indicated with a collation number in the remark column. · Items marked " * " are not stocked since they are seldom required for routine service. Some delay should be anticipated when ordering these items.
The components identified ! marked are critical for safety. Replace only with the part number specified.
Les composants identifiés par la marque ! sont critiques pour la sécurité. Ne les remplacer que par une pièce portant le numéro spécifié.
SDM-X82(E)
4-1
4-1. CHASSIS
13
+PWH 3X6 +PWH 3X6 +PWH 3X6
12 9 8
+PWHTP 3X6 +PTP 3X10 +P 3X6 +RKTP 4X10 +P 3X4 +P 3X6
+PWH 3X6
+PWH 3X6
4
+P 3X6
+P 3X6
10
11
14
7
+PTP 3X10
+RKTP 4X10 +B 3X8 +PSW 4X10 +PTP 3X8 +P 3X6
15
+KTP 3X10 +B 3X8 +PSW 4X10
5 4
+PTP 3X10 +PWHTP 3X6
6
+PWH 3X12
2
+BVTP 3X16
3
+PTP 3X10 +P 4X10
1
+BVTP 3X16
SDM-X82(E)
4-2
REF.NO. PART NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 4-089-713-01 4-089-713-11 4-089-923-01 4-089-923-11 X-4040-578-1 X-4040-616-1 1-825-215-11 1-761-610-11 X-4040-577-1 X-4040-617-1 1-761-611-11 1-804-967-11 ! 1-786-460-11 1-761-613-11 ! 1-417-301-11 1-761-615-11 1-761-614-11 X-4040-579-1 X-4040-618-1 4-089-996-01 4-089-996-11
DESCRIPTION COVER, REAR(GRAY) COVER, REAR(BLACK) COVER, MINI DIN(GRAY) COVER, MINI DIN(BLACK) ASSY, CABINET(GRAY) ASSY, CABINET(BLACK) BOX, SPEAKER H BOARD, MOUNT(KEY BOARD)
REMARK
2 2
ASSY, BEZEL(GRAY) ASSY, BEZEL(BLACK) U BOARD, MOUNT(EARPHONE BOARD) PANEL, LCD (LM181E05) SWITCH, POWER I BOARD, MOUNT(INVERTOR BOARD) INLET, AC G BOARD, MOUNT(POWER BOARD) A BOARD, MOUNT(I/F BOARD) STAND ASSY(GRAY) STAND ASSY(BLACK) COVER (REAR), ARM(BLACK) COVER (REAR), ARM(GRAY)
15 15
SDM-X82(E)
4-3
4-2. PACKING MATERIALS
REF.NO. PART NO. 51 52 53 54 55 56 57 58 59
53
DESCRIPTION
REMARK
54 55 56 57 58 59 60 61
* 4-089-781-01 * 4-089-788-01 * 4-089-958-01 * 4-378-262-21 * 4-089-957-01 1-765-718-11 1-765-719-11 1-824-596-11 1-824-597-11 1-824-598-11 4-089-157-11 4-089-157-21 1-796-496-11
INDIVIDUAL CARTON(GRAY) INDIVIDUAL CARTON(BLACK) CUSHION (LOWER) BAG, PROTECTION CUSHION (UPPER) CORD SET, POWER(UC, CND) CORD SET, POWER(AEP) CABLE, D-SUB CABLE, AUDIO CABLE, DVI-D MANUAL, INSTRUCTION(US, CND) MANUAL, INSTRUCTION(AEP) DISC, CD-ROM
60 61
* 4-089-708-12 LABEL, INFORMATION(GRAY) * 4-089-708-21 LABEL, INFORMATION(BLACK)
52
51
SDM-X82(E)
4-4
SECTION 5 ELECTRICAL PARTS LIST
NOTE:
The components identified ! marked are critical for safety. Replace only with the part number specified.
Les composants identifiés par la marque ! sont critiques pour la sécurité. Ne les remplacer que par une pièce portant le numéro spécifié.
· All variable and adjustable resistors have characteristic curve B, unless otherwise noted.
· Items marked " * " are not stocked since they are seldom required for routine service. Some delay should be anticipated when ordering these items. RESISTORS · All resistors are in ohms · F : nonflammable
When indicating parts by reference number, please include the board name.
SDM-X82(E)
5-1
No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
#
Board A A A A A A A A A A A A G G G G G G I I I I I I I H H H H H H
Type FUSE IC IC IC IC IC IC IC IC IC IC IC DIODE DIODE DIODE IC IC TRANSISTOR FUSE FUSE IC IC IC IC IC SWITCH SWITCH SWITCH SWITCH SWITCH SWITCH
! /* !
Ref.No. F201 IC201 IC204 IC205 IC206 IC208 IC301 IC303 IC304 IC401 IC603 IC801 D130 D201 D202 IC101 IC251 Q101 F1 F2 IC1 IC2 IC3 IC4 IC5 S901 S903 S903 S904 S905 S906
Part No. 0-550-337-00 0-554-021-00 0-554-038-00 0-554-037-00 0-554-020-00 0-554-038-00 0-554-044-00 0-554-048-00 0-554-048-00 0-554-045-00 0-554-046-00 6-702-887-01 8-719-510-51 0-759-996-00 0-759-996-00 0-554-004-00 0-554-003-00 0-554-002-00 1-576-410-21 1-576-410-21 0-554-051-00 6-702-915-01 6-702-915-01 6-702-915-01 6-702-915-01 1-786-426-11 1-786-426-11 1-786-426-11 1-786-426-11 1-786-426-11 1-786-426-11
Descrption FUSE 4A 125V IC BA9741F IC XC6203E332PR IC SI-3033KS-TL IC LD1085TD IC XC6203E332PR IC MTV412MV IC M24C02-WMN6T IC M24C02-WMN6T IC GM5020 IC M52758P IC TDA7496L DIODE D3SB60F DIODE STPS20H100CT DIODE STPS20H100CT IC DAP008ADR2 IC DAS01A TRANSISTOR STB9NC60-1 FUSE, CHIP FUSE, CHIP IC OZ960S IC SI4532DY IC SI4532DY IC SI4532DY IC SI4532DY SWITCH, TACTILE SWITCH, TACTILE SWITCH, TACTILE SWITCH, TACTILE SWITCH, TACTILE SWITCH, TACTILE
Remarks-1
Remarks-2
Difference
! !
SDM-X82(E)
5-2
No. 32
#
Board H
Type SWITCH
! /*
Ref.No. S907
Part No. 1-786-426-11
Descrption SWITCH, TACTILE
Remarks-1
Remarks-2
Difference
SDM-X82(E)
5-3
9-978-741-01
Sony EMCS Corporation Ichinomiya Tec
English 2002IL08-Data Made in Japan 2002. 9
SDM-X82(E)
44