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CHASSIS
SERVICE MANUAL
SPECIFICATIONS
MICROFILM
X-110
CPD-210GS
US ModelCanadian Model
Chassis No. SCC-L27C-A
TRINITRON® COLOR COMPUTER DISPLAY
CPD-210GS/210EST
CRT 0.25 mm aperture grille pitch 17 inches measured diagonally 90-degree deflection
Viewable image size Approx. 327 × 243 mm (w/h) (12 7/8 × 9 5/8 inches) 16.0" viewing image
Resolution Horizontal: Max. 1280 dots Vertical: Max. 1024 lines
Standard image area Approx. 312 × 234 mm (w/h) (12 3/8 × 9 1/4 inches)
Deflection frequency* Horizontal: 30 to 70 kHzVertical: 48 to 120 Hz
AC input voltage/current 100 to 240 V, 50 – 60 Hz, 1.7 – 0.9 APower consumption Max. 110 WDimensions Approx. 406 × 431.5 × 420 mm (w/h/d)
(16 × 17 × 16 5/8 inches)Mass Approx. 18.5 kg (40 lb 13 oz)Plug and Play DDC1/DDC2BSupplied accessories See page 6
* Recommended horizontal and vertical timing condition• Horizontal sync width should be more than 1.0 µsec.• Horizontal blanking width should be more than 3.0 µsec.• Vertical blanking width should be more than 500 µsec.
Design and specifications are subject to change without notice.
CPD-210EST
AEP ModelChassis No. SCC-L27D-A
REVISED
CPD-210GS/210EST
– 2 –
Failure Power LED
HV or H STOP or +B Failure Blink Amber (On 0.5 sec, Off 0.5 sec)
V Stop Failure Blink Amber (On 1.5 sec, Off 0.5 sec)
Aging/Self-Test Blink Amber (On 0.5 sec, Off 0.5 sec) .... Blink Green (On 0.5 sec, Off 0.5 sec)
Out of Range On Green (OSD Indication)
No Input Signal On Green (OSD Indication)
DIAGNOSIS
TIMING SPECIFICATION
PRIMARY MODE PRIMARY
MODE AT PRODUCTION MODE 1 MODE 2 MODE 3 MODE 4 MODE 5 MODE 6 MODE 7 MODE 8 MODE 9
RESOLUTION 640 X 480 640 X 480 720 X 400 800 X 600 800 X 600 832 X 624 1024 X 768 1024 X 768 1280 X 1024
CLOCK 25.175 MHZ 36.000 MHZ 28.322 MHZ 49.500 MHZ 56.250 MHZ 57.283 MHZ 78.750 MHZ 94.500 MHZ 108.000 MHZ
— HORIZONTAL —
H-FREQ 31.469 kHz 43.269 kHz 31.469 kHz 46.875 kHz 53.674 kHz 49.725 kHz 60.024 kHz 68.677 kHz 63.981 kHz
usec usec usec usec usec usec usec usec usec
H. TOTAL 31.778 23.111 31.777 21.333 18.631 20.111 16.660 14.561 15.630
H. BLK 6.356 5.333 6.355 5.172 4.409 5.586 3.657 3.725 3.778
H. FP 0.636 1.556 0.636 0.323 0.569 0.559 0.203 0.508 0.444
H. SYNC 3.813 1.556 3.813 1.616 1.138 1.117 1.219 1.016 1.037
H. BP 1.907 2.222 1.907 3.232 2.702 3.910 2.235 2.201 2.296
H. ACTIV 25.422 17.778 25.422 16.162 14.222 14.524 13.003 10.836 11.852
— VERTICAL —
V. FREQ(HZ) 59.940 Hz 85.008 Hz 70.087 Hz 75.000 Hz 85.061 Hz 74.550 Hz 75.030 Hz 84.997 Hz 60.020 Hz
lines lines lines lines lines lines lines lines lines
V. TOTAL 525 509 449 625 631 667 800 808 1066
V. BLK 45 29 49 25 31 43 32 40 42
V. FP 10 1 12 1 1 1 1 1 1
V. SYNC 2 3 2 3 3 3 3 3 3
V. BP 33 25 35 21 27 39 28 36 38
V. ACTIV 480 480 400 600 600 624 768 768 1024
— SYNC —
INT(G) NO NO NO NO NO NO NO NO NO
EXT(H/V)/POLARITY YES -/- YES -/- YES -/+ YES +/+ YES +/+ YES -/- YES +/+ YES +/+ YES +/+
EXT(CS)/POLARITY NO NO NO NO NO NO NO NO NO
INT/NON INT NON INT NON INT NON INT NON INT NON INT NON INT NON INT NON INT NON INT
98.12.10 VER.
Power mode Power consumption
1 (power) indicator
normal operation
≤ 110 W(CPD-210GS)≤ 105 W(CPD-110GS)
green
1 standby ≤ 15 W green and orange alternate
2 suspend ≤ 15 W green and orange alternate
3 active off* ≤ 5 W orange
power off 0 W off
Power saving functionThis 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 in three stages as shown below.
* When your computer enters the “active off” mode, the input signal is cut and NO INPUT SIGNAL appears on the screen. After 20 seconds, the monitor enters the power saving mode.
CPD-210GS/210EST
– 3 –
LEAKAGE TESTThe AC leakage from any exposed metal part to earth ground
and from all exposed metal parts to any exposed metal part hav-
ing a return to chassis, must not exceed 0.5 mA (500
microampers).
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 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” indica-
tion 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)
WARNING!!NEVER TURN ON THE POWER IN A CONDITION INWHICH THE DEGAUSS COIL HAS BEEN REMOVED.
SAFETY-RELATED COMPONENT WARNING!!COMPONENTS IDENTIFIED BY SHADING AND MARK¡ ON THE SCHEMATIC DIAGRAMS, EXPLODEDVIEWS AND IN THE PARTS LIST ARE CRITICAL FORSAFE OPERATION. REPLACE THESE COMPONENTSWITH SONY PARTS WHOSE PART NUMBERS AP-PEAR AS SHOWN IN THIS MANUAL OR IN SUPPLE-MENTS PUBLISHED BY SONY. CIRCUIT ADJUST-MENTS THAT ARE CRITICAL FOR SAFE OPERATIONARE IDENTIFIED IN THIS MANUAL. FOLLOW THESEPROCEDURES WHENEVER CRITICAL COMPONENTSARE REPLACED OR IMPROPER OPERATION IS SUS-PECTED.
AVERTISSEMENT!!NE JAMAIS METTRE SOUS TENSION QUAND LABOBINE DE DEMAGNETISATION EST ENLEVÉE.
ATTENTION AUX COMPOSANTS RELATIFS À LASÉCURITÉ!!
LES COMPOSANTS IDENTIFIÉS PAR UNE TRAME ETUNE MARQUE ¡ SONT CRITIQUES POUR LA SÉCURITÉ.NE LES REMPLACER QUE PAR UNE PIÈCE PORTANT LENUMÉRO SPECIFIÉ. LES RÉGLAGES DE CIRCUIT DONTL’IMPORTANCE EST CRITIQUE POUR LA SÉCURITÉ DUFONCTIONNEMENT SONT IDENTIFIÉS DANS LEPRÉSENT MANUEL. SUIVRE CES PROCÉDURES LORSDE CHAQUE REMPLACEMENT DE COMPOSANTS CRI-TIQUES, OU LORSQU’UN MAUVAIS FONCTIONNE-MENTEST SUSPECTÉ.
After correcting the original service problem, perform the fol-
lowing safety checks before releasing the set to the customer:
1. Check the area of your repair for unsoldered or poorly-sol-
dered 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 tran-
sistors, that were installed during a previous repair. Point
them out to the customer and recommend their replacement.
5. Look for parts which, though functioning, show obvious
signs of deterioration. Point them out to the customer and
recommend their replacement.
6. Check the line cords for cracks and abrasion. Recommend
the replacement of any such line cord to the customer.
7. Check the B+ and HV to see if they are specified values.
Make sure your instruments are accurate; be suspicious of
your HV meter if sets always have low HV.
8. Check the antenna terminals, metal trim, “metallized”
knobs, screws, and all other exposed metal parts for AC
Leakage. Check leakage as described below.
Fig. A. Using an AC voltmeter to check AC leakage.
SAFETY CHECK-OUT
1.5 kΩ0.15 µFACVoltmeter(0.75 V)
To Exposed MetalParts on Set
Earth Ground
CPD-210GS/210EST
– 4 –
TABLE OF CONTENTS
Section Title Page
1. GENERAL .................................................................. 1-1
2. DISASSEMBLY2-1. Cabinet Removal ................................................. 2-1
2-2. Service Position ................................................... 2-1
2-3. D Board Removal ................................................. 2-1
2-4. Picture Tube Removal .......................................... 2-2
2-5. Harnes Location ................................................... 2-3
3. SAFETY RELATED ADJUSTMENT ............. 3-1
4. ADJUSTMENTS ...................................................... 4-1
5. DIAGRAMS5-1. Block Diagrams
(with Frame Schematic Diagram) ....................... 5-1
5-2. Circuit Boards Location ...................................... 5-5
5-3. Schematic Diagrams and Printed Wiring Boards ... 5-5
(1) Schematic Diagram of D-a Board ......................... 5-6
(2) Schematic Diagram of D-b Board ......................... 5-9
(3) Schematic Diagram of D-c Board ........................ 5-13
(4) Schematic Diagram of A Board ........................... 5-17
5-4. Semiconductors ................................................... 5-20
6. EXPLODED VIEWS6-1. Chassis ................................................................. 6-1
6-2. Packing Materials ................................................ 6-2
7. ELECTRICAL PARTS LIST ............................ 7-1
1-1
SECTION 1GENERAL
The operating instructions mentioned here are partial abstracts from the Operating Instruction Manual. The page numbers of the Operating Instruction Manual remein as in the manual.
4
Precautions
Warning on power connections
• Use the supplied power cord. If you use a different power cord, be sure that it is compatible with your local power supply.
For the customers in the U.S.A.
If you do not use the appropriate cord, this monitor will not conform to mandatory FCC standards.
• Before disconnecting the power cord, wait at least 30 seconds after turning off the power to allow the static electricity on the screen’s surface to discharge.
• After the power is turned on, the screen is demagnetized (degaussed) for about 5 seconds. This generates a strong magnetic field around the screen which may affect data stored on magnetic tapes and disks placed near the monitor. Be sure to keep magnetic recording equipment, tapes, and disks away from the monitor.
Installation
Do not install the monitor in the following places:• on surfaces (rugs, blankets, etc.) or near materials (curtains,
draperies, etc.) that may block the ventilation holes• near heat sources such as radiators or air ducts, or in a place
subject to direct sunlight• in a place subject to severe temperature changes• in a place subject to mechanical vibration or shock• on an unstable surface• near equipment which generates magnetism, such as a
transformer or high voltage power lines• near or on an electrically charged metal surface
Maintenance
• Clean the screen with a soft cloth. If you use a glass cleaning liquid, do not use any type of cleaner containing an anti-static solution or similar additive as this may scratch the screen’s coating.
• Do not rub, touch, or tap the surface of the screen with sharp or abrasive items such as a ballpoint pen or screwdriver. This type of contact may result in a scratched picture tube.
• Clean the cabinet, panel and controls with a soft cloth lightly moistened with a mild detergent solution. Do not use any type of abrasive pad, scouring powder or solvent, such as alcohol or benzene.
Transportation
When you transport this monitor for repair or shipment, use the original carton and packing materials.
Use of the tilt-swivel
This monitor can be adjusted within the angles shown below. To turn the monitor vertically or horizontally, hold it at the bottom with both hands.
The equipment should be installed near an easily accessible outlet.
Example of plug types
for 100 to 120 V AC for 200 to 240 V AC
90˚
5˚
90˚15˚
5
US
Identifying parts and controls
See the pages in parentheses for further details.
1
MENU button (page 9)
This button displays the MENU OSD.
2
ENTER button (page 9)
This button selects the menu and adjustment items.
3
6
(contrast)
+/−
buttons (page 9)
These buttons display the CONTRAST/BRIGHTNESS menu and function as the
+
/
−
buttons when adjusting other items.
4
1
(power) switch and indicator (pages 6, 13, 16)
This button turns the monitor on and off. The power indicator lights up in green when the monitor is turned on, and either flashes in green and orange, or lights up in orange when the monitor is in power saving mode.
5
AC IN connector (page 6)
This connector provides AC power to the monitor.
6
Video input connector (HD15) (page 6)
This connector inputs RGB video signals (0.700 Vp-p, positive) and sync signals.
* DDC (Display Data Channel) is a standard of VESA.
MENU
ENTER
RearFront
Pin No. Signal
1 Red
2 Green
3 Blue
4 ID (Ground)
5 DDC Ground*
6 Red Ground
7 Green Ground
8 Blue Ground
9 –
10 Ground
11 ID (Ground)
12 Bi-Directional Data (SDA)*
13 H. Sync
14 V. Sync
15 Data Clock (SCL)*
1 2 3 4 5876
11 12 13 14 15109
1-2
6
Setup
Before using your monitor, check that the following accessories are included in your carton:• Power cord (1)• Windows Monitor Information Disk (1)• Warranty card (1)• Notes on cleaning the screen’s surface (1)• This instruction manual (1)
Step 1:Connect your monitor to your computer
Turn off the monitor and computer before connecting.
x
Connecting to an IBM PC/AT or compatible computer
x
Connecting to a Macintosh or compatible computer
Step 2:Connect the power cord
With the monitor and computer switched off, first connect the power cord to the monitor, then connect it to a power outlet.
Step 3:Turn on the monitor and computer
First turn on the monitor, then turn on the computer.
The installation of your monitor is complete.If necessary, use the monitor’s controls to adjust the picture.
to video output
IBM PC/AT or compatible computer
You will need a Macintosh adapter (not supplied).
Macintosh or compatible computer
to video output
Macintosh adapter (not supplied)
to AC IN
to a power outlet
power cord (supplied)
7
US
If no picture appears on your screen
• Check that the monitor is correctly connected to the computer.• If NO INPUT SIGNAL appears on the screen, confirm that
your computer’s graphic board is completely seated in the correct bus slot.
• If you are replacing an old monitor with this model and OUT OF SCAN RANGE appears on the screen, reconnect the old monitor. Then adjust the computer’s graphic board so that the horizontal frequency is between 30 – 70 kHz, and the vertical frequency is between 48 – 120 Hz.
For more information about the on-screen messages, see “Trouble symptoms and remedies” on page 14.
For customers using Windows 95/98
To maximize the potential of your monitor, install the new model information file from the supplied Windows Monitor Information Disk onto your PC.This monitor complies with the “VESA DDC” Plug & Play standard. If your PC/graphics board complies with DDC, select “Plug & Play Monitor (VESA DDC)” or this monitor’s model name as the monitor type in the “Control Panel” of Windows 95/98. If your PC/graphics board has difficulty communicating with this monitor, load the Windows Monitor Information Disk and select this monitor’s model name as the monitor type.
For customers using Windows NT4.0
Monitor setup in Windows NT4.0 is different from Windows 95/98 and does not involve the selection of monitor type. Refer to the Windows NT4.0 instruction manual for further details on adjusting the resolution, refresh rate, and number of colors.
Adjusting the monitor’s resolution and color number
Adjust the monitor’s resolution and color number by referring to your computer’s instruction manual. The color number may vary according to your computer or video board. The color palette setting and the actual number of colors are as follows:• High Color (16 bit)
t
65,536 colors• True Color (24 bit)
t
about 16.77 million colorsIn true color mode (24 bit), speed may be slower.
Selecting the on-screen menu language (LANGUAGE/INFORMATION)
English, French, German, Spanish, and Italian versions of the on-screen menus are available. The default setting is English.
1
Press the MENU button.
See page 9 for more information on using the MENU button.
2
Press the
+
/
−
buttons to highlight LANGUAGE/INFORMATION and press the ENTER button.
See page 9 for more information on using the
+
/
−
and ENTER buttons.
3
Press the ENTER button to select (LANGUAGE) and press
+
/
−
buttons to select a language.
• ENGLISH• FRANÇAIS: French• DEUTSCH: German• ESPAÑOL: Spanish• ITALIANO: Italian
To close the menu
Press the MENU button once to return to the main menu, and twice to return to normal viewing. If no buttons are pressed, the menu closes automatically after about 30 seconds.
To reset to English
See “Resetting the adjustments (RESET)” on page 12.
MENU
ENTER
CONTRAST / BR I GHTNE SSH - S I ZE / CENTERV - S I ZE / CENTERP I N / P I N BA L ANCEKEY / KEY BA L ANCEROTAT I ONZOOMCOLORRESETL ANGUAGE / I NFORMAT NOIDEGAUSS / CANCE L MO ERI
MENU EX I T
b
MENU
ENTER
ENGL I SH FRANÇA I SDEUTSCH I TA L I ANOESPAÑOL
SE L ECT EX I T
LANGUAGE / INFORMAT ION
b
1-3
9
US
x
Using the MENU, ENTER, and
+
/
−
buttons
1
Select the menu you want to adjust.
Press the
+
/
−
buttons to highlight the desired menu. Press the ENTER button to select the menu and adjustment items.
2
Adjust the menu.
Press the
+
/
−
buttons to make the adjustment.
3
Close the menu.
Press the MENU button once to return to the main menu, and twice to return to normal viewing. If no buttons are pressed, the menu closes automatically after about 30 seconds.
x
Resetting the adjustments
You can reset the adjustments using the RESET menu. See page 12 for more information on resetting the adjustments.
Adjusting the contrast and brightness (CONTRAST/BRIGHTNESS)
These settings are stored in memory for all input signals.
1
Press either one of the
6
(CONTRAST)
+
/
−
buttons.
The CONTRAST/BRIGHTNESS menu appears on the screen.
2
Press the ENTER button to select
6
(CONTRAST) or (BRIGHTNESS).
3
Press the
+
/
−
buttons to adjust either the contrast (
6
) or brightness ( ).
The menu automatically disappears after about 30 seconds.
MENU
ENTER
MENU
ENTERb
MENU
ENTER
MENU
ENTER
CON T RA S T
2 6
6 0 . 0 k H z / 7 0 . 0H z1 0 2 4 X 7 6 8
SE L ECT EX I T
CONTRAST / BR I GHTNESS
8
Customizing Your Monitor
You can make numerous adjustments to your monitor using the on-screen menu.
Navigating the menu
Press the MENU button to display the main MENU on your screen. See page 9 for more information on using the MENU button.
Use the
+
/
−
and ENTER buttons to select one of the following menus. See page 9 for more information on using the
+
/
−
and ENTER buttons.
x
Displaying the current input signal
The horizontal and vertical frequencies of the current input signal are displayed in the CONTRAST/BRIGHTNESS menu. If the signal matches one of this monitor’s factory preset modes, the resolution is also displayed.
1
CONTRAST/BRIGHTNESS (page 9)
Select the CONTRAST/BRIGHTNESS menu to adjust the picture’s contrast and brightness.
2
H-SIZE/CENTER (page 10)
Select the H-SIZE/CENTER menu to adjust the picture’s horizontal size and centering.
3
V-SIZE/CENTER (page 10)
Select the V-SIZE/CENTER menu to adjust the picture’s vertical size and centering.
4
PIN/PIN BALANCE (page 10)
Select the PIN/PIN BALANCE menu to adjust the curvature picture’s sides.
5
KEY/KEY BALANCE (page 10)
Select the KEY/KEY BALANCE menu to adjust the angle of the picture’s sides.
6
ROTATION (page 11)
Select the ROTATION menu to adjust the picture’s rotation.
CONTRAST / BR I GHTNE SSH - S I ZE / CENTERV - S I ZE / CENTERP I N / P I N BA L ANCEKEY / KEY BA L ANCEROTAT I ONZOOMCOLORRESETL ANGUAGE / I NFORMAT NOIDEGAUSS / CANCE L MO ERI
MENU EX I T
CON T RA S T
2 6
6 0 . 0 k H z / 7 0 . 0H z1 0 2 4 X 7 6 8
SE L ECT EX I T
CONTRAST / BR I GHTNESS
H - S I Z E
2 6
SE L ECT EX I T
H - S I ZE / CENTER
V - S I Z E
2 6
SE L ECT EX I T
V - S I ZE / CENTER
P I N
2 6
SE L ECT EX I T
P I N / P I N BALANCE
K E Y
2 6
SE L ECT EX I T
KEY / KEY BALANCE
ROT A T I ON
2 6
SE L ECT EX I T
ROTAT I ON
7
ZOOM (page 11)
Select the ZOOM menu to enlarge or reduce the picture.
8
COLOR (page 11)
Select the COLOR menu to adjust the picture’s color temperature. You can use this to match the monitor’s colors to a printed picture’s colors.
9
RESET (page 12)
Select the RESET menu to reset the adjustments.
0
LANGUAGE/INFORMATION (page 7, 15)
Select the LANGUAGE/INFORMATION menu to choose the on-screen menu’s language and display this monitor’s information box.
qa
DEGAUSS/CANCEL MOIRE (page 12)
Select the DEGAUSS/CANCEL MOIRE menu to degauss the screen and cancel the moire.
ZOOM
2 6
SE L ECT EX I T
ZOOM
K K KR 5 0G 5 0B 5 0
SE L ECT EX I T
COLOR5000 6500 9300USER
RE S E T
MODE A L L
EX I T
RESET
ENGL I SH FRANÇA I SDEUTSCH I TA L I ANOESPAÑOL
SE L ECT EX I T
LANGUAGE / INFORMAT ION
DEGAUS S
ON
SE L ECT EX I T
DEGAUSS / CANCEL MO I RE
CON T RA S T
2 6
6 0 . 0 k H z / 7 0 . 0H z1 0 2 4 X 7 6 8
SE L ECT EX I T
CONTRAST / BR I GHTNESS
the resolution of the current input signal
the horizontal and vertical frequencies of the current input signal
1-4
10
Adjusting the horizontal size or centering of the picture (H-SIZE/CENTER)These settings are stored in memory for the current input signal.
1 Press the MENU button.The main MENU appears on the screen.
2 Press the +/− buttons to highlight H-SIZE/CENTER, and press the ENTER button.The H-SIZE/CENTER menu appears on the screen.
3 First press the ENTER button to select the desired adjustment item. Then press the +/− buttons to make the adjustment.
Adjusting the vertical size or centering of the picture (V-SIZE/CENTER)These settings are stored in memory for the current input signal.
1 Press the MENU button.The main MENU appears on the screen.
2 Press the +/− buttons to highlight V-SIZE/CENTER, and press the ENTER button.The V-SIZE/CENTER menu appears on the screen.
3 First press the ENTER button to select the desired adjustment item. Then press the +/− buttons to make the adjustment.
Adjusting the curvature of the picture’s sides (PIN/PIN BALANCE)These settings are stored in memory for the current input signal.
1 Press the MENU button.The main MENU appears on the screen.
2 Press the +/− buttons to highlight PIN/PIN BALANCE, and press the ENTER button.The PIN/PIN BALANCE menu appears on the screen.
3 First press the ENTER button to select the desired adjustment item. Then press the +/− buttons to make the adjustment.
Adjusting the angle of the picture’s sides (KEY/KEY BALANCE)
These settings are stored in memory for the current input signal.
1 Press the MENU button.The main MENU appears on the screen.
2 Press the +/− buttons to highlight KEY/KEY BALANCE, and press the ENTER button.The KEY/KEY BALANCE menu appears on the screen.
3 First press the ENTER button to select the desired adjustment item. Then press the +/− buttons to make the adjustment.
Select To
H-SIZE adjust the horizontal size
H-CENTER adjust the horizontal centering
Select To
V-SIZE adjust the vertical size
V-CENTER adjust the vertical centering
Select To
PIN expand or contract the picture sides
PIN BALANCE shift the picture sides to the left or right
Select To
KEY adjust the picture width at the top of the screen
KEY BALANCE shift the picture to the left or right at the top of the screen
11
US
Adjusting the picture’s rotation (ROTATION)This setting is stored in memory for all input signals.
1 Press the MENU button.The main MENU appears on the screen.
2 Press the +/− buttons to highlight ROTATION, and press the ENTER button.The ROTATION menu appears on the screen.
3 Press the +/− buttons to rotate the picture.
Enlarging or reducing the picture (ZOOM)This setting is stored in memory for the current input signal.
1 Press the MENU button.The main MENU appears on the screen.
2 Press the +/− buttons to highlight ZOOM and press the ENTER button.The ZOOM menu appears on the screen.
3 Press the +/− buttons to enlarge or reduce the picture.
NoteAdjustment stops when either the horizontal or vertical size reaches its maximum or minimum value.
Adjusting the color of the picture (COLOR)The COLOR settings allow you to adjust the picture’s color temperature by changing the color level of the white color field. Colors appear reddish if the temperature is low, and bluish if the temperature is high. This adjustment is useful for matching the monitor’s colors to a printed picture’s colors.This setting is stored in memory for all input signals.
1 Press the MENU button.The main MENU appears on the screen.
2 Press the +/− buttons to highlight COLOR and press the ENTER button.The COLOR menu appears on the screen.
3 Press the +/− buttons to select a color temperature.The preset color temperatures are 5000K, 6500K, and 9300K. Since the default setting is 9300K, the whites will change from a bluish hue to a reddish hue as the temperature is lowered to 6500K and 5000K.
4 If necessary, fine tune the color temperature.First press the +/− buttons to select USER. Then press the ENTER button to select R (red), G (green), or B (blue) and press the +/− buttons to make the adjustment.
If you fine tune the color temperature, the new color settings are stored in memory and recalled whenever you select USER.
K K KR 5 0G 5 0B 5 0
USER - G EX I T
COLOR5000 6500 9300USER
1-5
12
Additional settings (DEGAUSS/CANCEL MOIRE)
You can manually degauss (demagnetize) the screen, and cancel the moire.
1
Press the MENU button.
The main MENU appears on the screen.
2
Press the
+
/
−
buttons to highlight DEGAUSS/CANCEL MOIRE and press the ENTER button.
The DEGAUSS/CANCEL MOIRE menu appears on the screen.
3
Press the ENTER button to select the desired adjustment item.
Adjust the selected item according to the following instructions.
Degaussing the screen
The monitor is automatically demagnetized when the power is turned on.
To manually degauss the monitor, first press the ENTER button to select (DEGAUSS). Then press the
+
button.
The screen is degaussed for about 5 seconds. If a second degauss cycle is needed, allow a minimum interval of 20 minutes for the best result.
Cancelling the moire
If elliptical or wavy patterns appear on the screen, adjust the moire cancellation level.
To adjust the amount of moire cancellation, first press the ENTER button to select (CANCEL MOIRE). Then press the
+
/
−
buttons until the moire effect is at a minimum.
*
Moire is a type of natural interference which produces soft, wavy lines on your screen. It may appear due to interference between the pattern of the picture on the screen and the phosphor pitch pattern of the monitor.
Resetting the adjustments (RESET)
This monitor has the following two reset methods. Use the RESET menu to reset the adjustments.
1
Press the MENU button.
The main MENU appears on the screen.
2
Press the
+
/
−
buttons to highlight
0
RESET and press the ENTER button.
The RESET menu appears on the screen.Reset the settings according to the following instructions.
Resetting all of the adjustment data for the current input signal (MODE)
Press the
−
button.
The MODE item is selected. All of the adjustment data for the current input signal is reset. Note that the following items are not reset by this method:• on-screen menu language (page 7)• picture’s rotation (page 11)
Resetting all of the adjustment data to factory preset levels (ALL)
Press the
+
button.
The ALL item is selected. With the exception of the USER settings in the COLOR menu, all of the adjustment data for all input signals is reset to the factory preset levels.
Note
The monitor
’
s buttons will not operate for about 5 seconds when ALL is selected.
Example of moire
13
US
Technical Features
Preset and user modes
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. (See Appendix for a list of the factory preset modes.) For input signals that do not match one of the factory preset modes, the digital Multiscan technology of this monitor ensures that a clear picture appears on the screen for any timing in the monitor’s frequency range (horizontal: 30 – 70 kHz, vertical: 48 – 120 Hz) . If the picture is adjusted, the adjustment data is stored as a user mode and automatically recalled whenever the same input signal is received.
Note for Windows users
For Windows users, check your video board manual or the utility program which comes with your graphic board and select the highest available refresh rate to maximize monitor performance.
Power saving function
This monitor meets the power-saving guidelines set by VESA,
E
NERGY
S
TAR, 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 in three stages as shown below.
* When your computer enters the “active off” mode, the input signal is cut and NO INPUT SIGNAL appears on the screen. After 20 seconds, the monitor enters the power saving mode.
Troubleshooting
Before contacting technical support, refer to this section.
If thin lines appear on your screen (damper wires)
The lines you are experiencing on your screen are normal for the Trinitron monitor and are not a malfunction. These are shadows from the damper wires used to stabilize the aperture grille and are most noticeable when the screen’s background is light (usually white). The aperture grille is the essential element that makes a Trinitron picture tube unique by allowing more light to reach the screen, resulting in a brighter, more detailed picture.
On-screen messages
If there is something wrong with the input signal, one of the following messages appears on the screen. To solve the problem, see “Trouble symptoms and remedies” on page 14.
The input signal conditionOUT OF SCAN RANGE
indicates that the input signal is not supported by the monitor’s specifications.
NO INPUT SIGNAL
indicates that no signal is being input to the monitor.
Power mode Power consumption
1
(power) indicator
normal operation
≤
110 W(CPD-210GS)
≤
105 W(CPD-110GS)
green
1 standby
≤
15 W green and orange alternate
2 suspend
≤
15 W green and orange alternate
3 active off*
≤
5 W orange
power off 0 W off
Damper wires
INFORMATION
OUT OF SCAN RANGE Input signal condition
1-6
14
Trouble symptoms and remediesIf the problem is caused by the connected computer or other equipment, please refer to the connected equipment’s instruction manual.Use the self-diagnosis function (page 16) if the following recommendations do not resolve the problem.
Symptom Check these items
No picture
If the 1 (power) indicator is not lit • Check that the power cord is properly connected.• Check that the 1 (power) switch is in the “on” position.
If the NO INPUT SIGNAL message appears on the screen, or if the 1 (power) indicator is either orange or alternating between green and orange
• Check that the video signal cable is properly connected and all plugs are firmly seated in their sockets (page 6).
• Check that the HD15 video input connector’s pins are not bent or pushed in.
xProblems caused by the connected computer or other equipment• The computer is in power saving mode. Try pressing any key on the computer keyboard.• Check that the computer’s power is “on.”• Check that the graphic board is completely seated in the proper bus slot.
If the OUT OF SCAN RANGE message appears on the screen
xProblems caused by the connected computer or other equipment• Check that the video frequency range is within that specified for the monitor. If you
replaced an old monitor with this monitor, reconnect the old monitor and adjust the frequency range to the following.Horizontal: 30~70 kHzVertical: 48~120 Hz
If no message is displayed and the 1 (power) indicator is green or flashing orange
• Use the Self-diagnosis function (page 16).
If using Windows 95/98 • If you replaced an old monitor with this monitor, reconnect the old monitor and do the following. Install the Windows Monitor Information Disk (page 7) and select this monitor (“CPD-110GS” or “CPD-210GS”) from among the Sony monitors in the Windows 95/98 monitor selection screen.
If using a Macintosh system • Check that the Macintosh adapter (not supplied) and the video signal cable are properly connected (page 6).
Picture flickers, bounces, oscillates, or is scrambled
• Isolate and eliminate any potential sources of electric or magnetic fields such as other monitors, laser printers, electric fans, fluorescent lighting, or televisions.
• Move the monitor away from power lines or place a magnetic shield near the monitor.• Try plugging the monitor into a different AC outlet, preferably on a different circuit.• Try turning the monitor 90° to the left or right.
xProblems caused by the connected computer or other equipment• Check your graphics board manual for the proper monitor setting.• Confirm that the graphics mode (VESA, Macintosh 16" Color, etc.) and the frequency of
the input signal are supported by this monitor (Appendix). Even if the frequency is within the proper range, some video boards may have a sync pulse that is too narrow for the monitor to sync correctly.
• Adjust the computer’s refresh rate (vertical frequency) to obtain the best possible picture.
Picture is fuzzy • Adjust the contrast and brightness (page 9).• Degauss the monitor* (page 12).• Decrease the moire cancellation effect (page 12).
15
US
* If a second degauss cycle is needed, allow a minimum interval of 20 minutes for the best result. A humming noise may be heard, but this is not a malfunction.
Displaying this monitor’s name, serial number, and date of manufacture (INFORMATION)
1 Press the MENU button.The main MENU appears on the screen.
2 Press the +/− buttons to highlight LANGUAGE/INFORMATION and press the ENTER button. The LANGUAGE/INFORMATION menu appears on the screen.
3 Press the ENTER button to select (INFORMATION).This monitor’s information box appears on the screen.
If the problem persists, call your authorized Sony dealer and give the following information.• Model name: CPD-110GS or CPD-210GS• Serial number• Name and specifications of your computer and graphics board.
Picture is ghosting • Eliminate the use of video cable extensions and/or video switch boxes.• Check that all plugs are firmly seated in their sockets.
Picture is not centered or sized properly
• Adjust the size or centering (page 10). Note that some video modes do not fill the screen to the edges.
Edges of the image are curved • Adjust the shape of the picture (page 10).
Wavy or elliptical pattern (moire) is visible
• Cancel the moire (page 12).
xProblems caused by the connected computer or other equipment• Change your desktop pattern.
Color is not uniform • Degauss the monitor* (page 12). If you place equipment that generates a magnetic field, such as a speaker, near the monitor, or if you change the direction the monitor faces, color may lose uniformity.
White does not look white • Adjust the color temperature (page 11).
A hum is heard right after the power is turned on
• This is the sound of the auto-degauss cycle. When the power is turned on, the monitor is automatically degaussed for 5 seconds.
Symptom Check these items
MODE L : CPD - 1 1 0GSSER I A L : 1 2 3 4 5 6 7 8MANUFACTURED : 1 9 9 8 - 5 2
SE L ECT EX I T
LANGUAGE / INFORMATIONExample
1-7
16
Self-diagnosis function
This monitor is equipped with a self-diagnosis function. If there is a problem with your monitor or computer, the screen will go blank and the
1
(power) indicator will either light up green or flash orange. If the
1
(power) indicator is lit in orange, the computer is in power saving mode. Try pressing any key on the keyboard.
If the
1
(power) indicator is green
1
Disconnect the video input cable, or turn off the connected computer.
2
Press the
1
(power) button to turn the monitor off and on.
3
Press and hold the
+
button for 2 seconds before the monitor enters power saving mode.
If all three color bars appear (red, green, blue), the monitor is working properly. Reconnect the video input cables and check the condition of your computer.
If the color bars do not appear, there is a potential monitor failure. Inform your authorized Sony dealer of the monitor’s condition.
If the
1
(power) indicator is flashing orange
Press the
1
(power) button to turn the monitor off and on.
If the
1
(power) indicator lights up green, the monitor is working properly.
If the
1
(power) indicator is still flashing, there is a potential monitor failure. Count the number of seconds between orange flashes of the
1
(power) indicator and inform your authorized Sony dealer of the monitor’s condition. Be sure to note the model name and serial number of your monitor. Also note the make and model of your computer and video board.
1 (power) indicator
MENU
ENTER
CPD-210GS/210EST SECTION 2
DISASSEMBLY
2-1. CABINET REMOVAL
2-3. D BOARD REMOVAL
2-1
2-2. SERVICE POSITION
2
4
3
1 Screw cover
Four screws(+BVTP 4 x 16)
Cabinet
Screw cover
1
2
3
A board
D board
2
3
5
6
8
4
1 A board
Cable stopper
Two screws(+BVTP 3 x 12)
Five screws(+BVTP 3 x 12)
Screw(+BVTT 4 x 8)
Cable bracket
D board7 Two clawsCN603
CN506
GND
GND
GND
CPD-210GS/210EST
3 When one side of the rubber cap isseparated from the anode button, theanode-cap can be removed by turningup the rubber cap and pulling up it inthe direction of the arrow c.
• HOW TO HANDLE AN ANODE-CAP1 Don’t hurt the surface of anode-caps with shartp shaped material!2 Don’t press the rubber hardly not to hurt inside of anode-caps!
A material fitting called as shatter-hook terminal is built in therubber.
3 Don’t turn the foot of rubber over hardly!The shatter-hook terminal will stick out or hurt the rubber.
a
b
Anode Button
c
• REMOVAL OF ANODE-CAPNOTE: 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.
• REMOVING PROCEDURES
1 Turn up one side of the rubber cap inthe direction indicated by the arrow a.
2 Using a thumb pull up the rubber capfirmly in the direction indicated by thearrow b.
2-4. PICTURE TUBE REMOVAL
2-2
1
2
Two screws(+BVTP 4 x 16)
A board
Neck assy
Four screws(Tapping screw 5)
Deflection yoke
Picture tube
Anode cap
Cushion
Bottom cover(D board)
Stand assy
3 Claw
6
Claw
4
5
Two screws(+BVTT 4 x 8)
7
13
12
8
9
Picture tube shield
11
10
Connector(2pin)
CN506 CN501
CN603
GND
GND
CN307
CPD-210GS/210EST
2-5. HARNESS LOCATION
2-3
CN901 CN902
CN504
CN603
CN605
CN301CN310
CN505
CN506
CN501
FBT
Picture tube
Demagnetic coil
D board
A board
CN302
CN
305
CN
303
CN
309
CN304
CN307CN306
CPD-210GS/210ESTSECTION 3
SAFETY RELATED ADJUSTMENT
Part Replaced ([)
RV501HV ADJ
When replacing or repairing the shown below table, thefollowing operational checks must be performed as a
safety precaution against X-rays emissions from the unit.
• HV Protector Circuit CheckConfirm that the voltage between cathode of D521 on Dboard and GND is more than 28.5 V DC and Using ex-
ternal DC Power Supply, apply the voltage shown below
between cathode of D521 and GND, and confirm thatthe HV HOLD DOWN circuite works. (TV Rester dis-
appears)
Standard voltage : Less than 34 V DC
Check Condition• Input voltage : 100 – 120 V AC• Input signal : White Cross hatch at Max fH
• Beam control : CONT : 255, BRT : 80
• Beam Current Protector CheckConnect a variable resistor (250 kΩ or more) and an am-meter in series between FBT pin 1 on D board and
GND. Decrease gradually the resistance of the variableresistor from maximum to minimum, and confirm that
the Beam Current Protector Circuite works (TV Rester
disappears). The current must be within the range shownbelow.
• Standard current : Less than 1.50 mA
Check Condition• Input voltage : 100 – 120 V AC
• Input signal : White Cross hatch at Max fH• Beam control : CONT : 255, BRT : 80
• B+ Voltage CheckStandard voltage : 152 ± 5.0 V DCCheck Condition• Input voltage : 100 – 120 V AC
Note : Use NF power supply or make sure that
distortion factor is 3% or less.• Input signal : White Cross hatch at 64.0 kHz
• Beam control : CONT : 255, BRT : 80
HV RegulatorCircuit Check
HV Hold-downCircuit Check
Beam CurrentProtector CircuitCheck
* Confirm one minute later turning on the power.
3-1
Part Replaced (])
D board IC502, IC503, C501,C535, C553, C597,C598, R592, R593,R596, RV501,T501 (FBT)
D board IC501, D521, C585,C599, R598, R599,R5C7, T501 (FBT)
D board Q533, D592, C590,C591, C598, R5A5,R5C0, R5C3, L502,T501 (FBT)
CPD-210GS/210EST
4 4 1
2
4
4 1
2
B
R1
2R
BB
R
1 2+
R
B1
2 BR
RB
1 2+
1. Receive R.B. cross-hatch.2. Adjust H.STAT and V.STAT at four-pole magnet.
SECTION 4
ADJUSTMENTS
• Landing Rough Adjustment
1. Enter the full white signal.2. Adjust the contrast to the maximum.3. Make the screen monogreen.4. Reverse the DY, and adjust coarsely the purity magnet so
that a green raster positions in the center of screen.5. Moving the DY forward, adjust so that an entire screen be-
comes monogreen.6. Adjust the tilt of DY, and fix lightly with a clamp.
• Landing Fine Adjustment
1. Place the set in the Helmholtz coil.2. Enter a green signal only.3. Degauss the entire screen with hand-degausser.
Then auto degauss it.4. Attach a wobbling coil to the specified position of CRT
neck.5. Attach a landing adjuster sensor on the CRT.6. Using a landing checker, adjust the DY position, purity on
DY, tilt of DY.7. Clamp the DY screw.
Clamping torque: 22 ± 2kgcm (2.2 ± 0.2Nm)
• Convergence Rough Adjustment
1. Enter the white crosshatch signal.2. Adjust roughly the horizontal and vertical convergence at
four-pole magnet.3. Adjust roughly HMC and VMC at six-pole magnet.
Connect the communication cable of the computer to the connector located on the D board on the monitor. Run the service softwareand then follow the instruction.
IBM AT Computeras a Jig
1-690-391-211 A-1500-819-AInterface Unit
2
*The parts above ( ~ ) are necessary for DAS adjustment.1 3
D-sub(9 Pin [female])
mini Din(8Pin)
4 Pin
3-702-691-01Connector Attachment
3
To BUS CONNECTOR
4 Pin 4 Pin
• Convergence Fine AdjustmentSet DY four-pole magnet to mechanical center before adjust-ment.This should be prime mode.
4-1
Allow a 30 minute warm-up period prior to making the following adjustments.
NECK Assy
6Pole Mg(Stable)P.S Mg
DY CRT
4Pole Mg P.S Mg
MechanicCenter
Set thefinger
CPD-210GS/210EST
• Focus AdjustmentAdjust focus (V) and focus(H) for optimum focus.
3. Receive White cross-hatch.4. Adjust HMC and VMC at six-pole magnet.
6 6
6
6
1
2
1
2
G
G
5. Display R and B cross hatch patterns.6. Adjust H STAT and V STAT with 4-pole magnet.7. Display white cross hatch patterns.8. Adjust HMC and VMC with 6-pole magnet.9. Display R and B cross hatch patterns.10. Adjust XCV and XCV roller.11. Adjust XBV and XBV reactor.12. Adjust V.STAT with 4-pole magnet.
Repeat steps 7 to 12 above and make R, G, B of both vertical andhorizontal lines to be overlaid at the center of the x-axis.
13. Adjust H.TILT with TLH Corrector.14. Adjust XCV with XCV core.
Purity Mg
6-pole Mg4-pole Mg
4-pole Mg
XCVYBH
XBVAPH
YCH
TLV
TLH
4-2
15. Adjust V.TILT with TLV VR.
16. Adjust Y.CROSS with YCH VR.
17. Adjust YBH with YBH VR.
18. Paint lock the four-pole magnet, six-pole magnet, XBV re-actor, XCV corrector and TLH corrector handle.
Zero Position NECK Assembly
4-Pole Mg 6-Pole MgPurity
on NA
Purity
on DY
XCV movement
TLV movement
YCH movement
YBH movement
B
R
RB
BR
BR
BR
• Convergence Specification
• Vertical and Horizontal Position and SizeSpecification
A B
312mm234mmA
B
A 0.3mmB 0.4mm
B
A
FBT
Focus volume 1 (H)
Focus volume 2 (V)
5-1 5-2
SECTION 5
DIAGRAMS
5-1. BLOCK DIAGRAMS (with FRAME SCHEMATIC DIAGRAM)
CN301123456789
B GND
SIGNAL-IND-SUB15PIG-TAIL
BLUEG GNDGREENR GNDREDGNDVDHD
CN304
TOMAIN BOARDCN902
TOMAIN BOARDCN9011-4
TOMAIN BOARDCN9015-!¡
1
A
C
2345678
VS OUTHS OUTV BLKGND
BP CLPC SYNC
GNDABL
D
CN3031234567
CSGND
12C SDA12C SCL
GNDHR TRCVR TRC
CN3021234
+5VDDC SCLDDC SDACPU GND
CN3061
B 234
+5VDDC SCLDDC SDACPU GND
+146VS1
23
45678
910
CN305
TOMAIN BOARDFBT
HV
G2CN309
G2
FV
TOMAIN BOARDCN502
TOMAIN BOARDCN504
CRTR.G.B
HI
NC+75VS
GNDH1H2
+5VGND
+12VS
GND
11
IC001 PRE AMP,OSD MIX
6 32
2
SONG BUFFQ008
7
19
15
26
4
9
13
1
13
15
17
12
19
4
20
21
5
6
27
25
24
23
18
?
CLAMP AMPQ001,002
IC004EEP ROM
V BLKQ004
1
5
11
15
6
10
4 149
3 138
2 127
6
5
29
35
9
11
IC002RGB OUT
8
3
1
5
B CUT OFFQ301
G CUT OFFQ201
R CUT OFFQ101
BRIGHTCONTQ006
BRIGHTCONTQ007
V SYNCBUFFQ005
IC003 OSD
VERT
H
CS
R
B OUTB IN B OUTB IN
G OUTG IN
R OUTR IN
G OUTG IN
R OUTR IN
DA4
DA3
DA2
DA1
OSDR
OSDG
OSDB
OSD BLK IN
SCL
SDA
SOGI
CLAMP
ABL IN
SOG OUT
V CLK
SCL
SDA
BLK
G
B
BLK
SCK
SIN
H SYNCBUFFQ003
18
(VIDEO)A
TOMAIN BOARDFBT
B-SS3480-B/D..-P1-24
5-3 5-4
CN9011
+5V
RESETQ901.902
35
27H SYNC/O
46BLANK/O
39 17
18
19
16
15 8
14
D904
D903
H DRV
5OUT
3FLYBACK
13V OUT1
12
IC401V OUT
V OUT2
1HFLB
11EW DRV
5B IN
6B DRV
3BOP
32FOCUS
2XRAY
44OSC//O
45
X90124MHz
OSC/I
19UFB
SWQ534
BOP CONTQ512,513
D509D517
+12V
3
I O
I O
2 1
5 7 2
IC502 HV REGULATION
IC503 HV REGULATION
3
1HV REG
OUTQ510,511
EHTGENERATOR
Q504
G2 CONTROLQ531,532
SWITCHING Q501
B DRIVEQ515,516
H DRIVEQ520,521
H DRIVEOUTQ502
H DRIVE Q523,527
T502HDT
H OUTQ503
T503D516
D515
T501 FBT
RV501HVADJ
IC 501DEFLECTIONCONTROLLERIC901 CPU
H CENTQ519
H CENTDRIVE
Q517,518
L570
L505HLC
D511
L503
D512
D521
D522G2 REG
T504DFT
2
5
11
7
DF AMPQ530
G2 CONTROLQ531.532
Q5147
TILT DRIVEQ5E2,5E3
IC504TILT AMP
IC607+12V REG
IC605+5V REG
6 1
5
3
+15V
OUT 1
OUT2 OUT 1
-V IN2
+V IN2
+V IN1
6H-SIZE
8H-DRV
7TEST5SDA
6SCL
4H/CENTER
5VG2
50
49
51CS0,CS1,CS2
48CS3
12MUTE
S901S902
S903
1TILT
15PMGO
14PMGI
SCL/D
RESET V SYNC
1 H DY(+)CN501
2 H DY(+)3 H DY(-)
4 H DY(-)5 V DY(-)6 V DY(+)
TILT
1 +146V
TONECK BOARDCN305
POWER SUPPLY,DEFLECTION,CPU
CN504
2 GND
3 +78V
4 GND5 +6.3V6 GND7 +5V8 GND9 +12V
10 GND
CN505TILT(ROTATION)
COIL
TILT
7 +V IN
10 HV
12
11
14
13
1
9
3
2
4
5
6
FV2TO CRT
ABL
HVTO CRT ANODE CAP
H.DY
V.DY
FV1TO CRT
CN502 G2 TO CRTCN309
1 -V IN
H SYNC
CLBL
H UNLOCK
SCL
SDA
SCL
SDA
SDA/D
PC/DETCS
H/R INV SYNC/O
3322
28
30
20
3226
SOG
H SYNC/I
V SYNC/I
TEST38SDA
IC902EEP ROM
SCL
25
MENU/ENTER
+VIN 1
+V IN2 -V IN1
OUT2 OUT 1
+V IN1
-V IN 1
+146V
+78V
+15V
-12V
+6.3V
18
FRONT CONTROL
ABL CONTQ528,529
BP CLP CONTQ526
D601AC RECTS601
TH601
LF601LFT
RY601
RELAY DRIVEQ615
A
R
K
IC606
Q606
D610
D609
IC601PWM CONTROL
8
?
Vcc
6SWITCHING
Q602
IC602VOLTAGE
FEEDBACKIC603
VOLTAGEFEEDBACK
RK A
3
V REF
OUT
I SENSE
1 COMP
2 FB FB603
PFC CKT
T601
(P GND)
D603
D602
D605
D626 D604
D615
+15V SWCONTQ610
+6.3V SWCONTQ608
+15V SWQ609
+6.3V SWQ607
T603 PIT
D616
D617
D618
TH602
RIGHT(+)24
LEFT(-)23
ABL7
DEGAUSSING13
B
C
23456789
11
SOG BUFFQ907
H SYNC AMPQ908
V BLKQ401
ABL CONTQ533
SCL
SDA
10
+5VSCL/DSDA/D
PC/DETCS
GNDSDASCLGND
V/R
TO NECK BOARDCN303
DGC
AC IN
TO NECK BOARDCN306
H/R
V/IN
CN902
H/INV BLKGND
BP CLPSOGGNDABL
1234
SDA+5VSCL
1234
GND 5
CN603
CN601F601
1NC 2
DGC1
DGC2
3
CN903
5678
54
34
ATO NECK BOARDCN304
37
36
C
DB-SS3480-B/D..-P2-24
5-5
Note: The components identified by shading and mark! are critical for safety. Replace only with partnumber specified.
Note: Les composants identifiés per un tramé et unemarque ! sont critiques pour la sécurité. Ne lesremplacer que par une pièce portant le numérospécifié.
5-3. SCHEMATIC DIAGRAMS AND PRINTEDWIRING BOARDS
5-2. CIRCUIT BOARDS LOCATION
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 mmRating electrical power 1/4 W (CHIP : 1/10 W)
• All resistors are in ohms.• f : nonflammable resistor.• F : fusible resistor.• ¢ : internal component.• p : panel designation, and adjustment for repair.• All variable and adjustable resistors have characteristic curve B,
unless otherwise noted.• e : earth-ground.• E : earth-chassis.• 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.• s : B + bus.• S : B – bus.• The components identified by [ in this basic schematic diagram
have been carefully factory-selected for each set in order tosatisfy regulations regarding X-ray radiation.Should replacement be required, replace only with the valueoriginally used.
• When replacing components identified by ] , make thenecessary adjustments indicated. (See page 3-1)
• When replacing the part in below table, be sure to perform therelated adjustment.
D
A
HV RegulatorCircuit Check
HV Hold-downCircuit Check
Beam CurrentProtector CircuitCheck
Part replaced ( ] )
D Board IC502, IC503, C501C535, C553, C597C598, R592, R593R596, RV501,T501 (FBT)
D Board IC501, D521, C585C599, R598, R599R5C7, T501 (FBT)
D Board Q533, D592, C590C591, C598, R5A5R5C0, R5C3, L502T501 (FBT)
HV ADJ
Part replaced ( [ )
RV501
• Divided circuit diagramOne sheet of D board circuit diagram is divided into threesheets, each having the code D-a to D-c . For example, the
destination ab1 on the D-a sheet is connected to ab1 on the
D-b sheet.
a b 1
Circuit diagram division code
Ref. No.
5-6
• D BOARD WAVEFORMS
3.0 Vp-p (H)
1
2.0 Vp-p (V)
0
5.0 Vp-p (H)
7
1.2 Vp-p (24MHz)
6
1.2 Vp-p (V)
!£
12.0 Vp-p (H)
!§
3.0 Vp-p (H)
2
4.8 Vp-p (V)
4
5.0 Vp-p (V)
8
12.0 Vp-p (H)
!¡
3
3.4 Vp-p (H)
5
5.0 Vp-p (H)
9
2.8 Vp-p (V)
!™
50.0 Vp-p (V)
!∞
60.0 Vp-p (H)
100 Vp-p (H)
!¶
1k Vp-p (H)
!¢
• Divided circuit diagramOne sheet of D board circuit diagram is divided into threesheets, each having the code D-a to D-c . For example, the
destination ab1 on the D-a sheet is connected to ab1 on the
D-b sheet.
a b 1
Circuit diagram division code
Ref. No.
5-7 5-8
A
B
C
D
E
F
G
H
I
J
2 3 4 5 6 7 8 9 10 11 141312 151
0.5
0.53.3
3.32.7
0.8
0.6 0.6
0
-12.5
0.3
13.1
0.8
0.8
0.4
0
2.9
2.7
5.7
3.4
2.5
1.7
2.7
5.4
0.46.0
5.4
2.4
1.0
2.6
4.5
2.7
3.1
3.2
4.9
5.0
0.2
4.9
5.0
4.9
5.0
0.5
2.1
2.7
1.5
3.0
3.0
2.7
4.3
0.5
0.1
0.1
4.9
4.9
4.9
0.5
-0.6
4.2
5.0
4.9
4.9
4.9
4.6
0.4
0
0.5
4.9
4.9
1.7
5.0
4.1
4.1
5.0
0.9
2.3
2.2
0.1
0.1
2.0
2.0
2.0
2.0
0.7
5.0
5
2
1
4
4.6
-0.1
5.0
0
0.7
7
8
9
10
11
0.1
6
3
2.8
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728 29
3031
3233
3435
3637
3839
4041
4243
4445
4647
4849
5051
5253
5455
561
2
3
4
5
6
7
8
9
10
11
1
2
3
4
5
6
7
8
12
345
67
8
1
2
3
4
5
12
34
56
78
910
1112
1314
151617
1819
2021
2223
2425
2627
2829
3031
32
+
-
FB901
R901
R970
R908
R906
R969
R974
R975 C906
C923
C905
R907
C904
C903
C907
R910
R911
C901
D909
R949
CN901
R964
R979 R978
R962
R954
S903S902
C908
S901
R956
R950 R951
R922
CN902
R921
C930 C910
R918
D911
R926 R924
R963
D908
R965
R955
R968
R967
R927
X901
R923
R925
D903
D904
R972
R930
R929
R928
R973
C502
C503
C504
C505
R503
R501
R506 C508 D501
R571
R500
R513
R522
R510
R511
R919
C914
R960 R959
R931
R932
R936
R934
C917
R933 R935
C406
C405
R404
C408
D402
R405
R408 R410 R409
IC504(2/2)
RN902
RN901
C402
D910 D905D906
R905
R977
R976
C951 C950
R916
R915
R917
R953
C913
CN903
R961
C916
C915
D901
C404
R403
R402
C409
CN505
C512 C513
R508
C509
D520
R505
R502
Q907
Q908
C912
C510
IC501
Q526
IC902
R411 R412
IC901
Q901
Q902
D902
C407
Q401
IC401
C403
C506
C507
R504
R914
IC504(1/2)
R407R401
R406
R971
2UH
1k
4.7k
1k
100
1k
33.2
30.1k 2.250V
2.250V
2.250V
1k
2.2 50V
2.2 50V
1050V
10k
10k
0.150V
HZ5C1
10k
11P
22
100k 100k
22
22
0.150V
1k
10k 10k
4.7k
8P
470
0.150V
1050V
20k
1SS119
22 22
10k
HZ5C1
10k
4.7k
4.7k
8.2k
1M
24MHz
22
22
1SS119
1SS119
4.7k
10k
10k
10k
1k
0.1 63V
0.1 63V
0.01 100V
0.1 63V
4.7k
27k
10k 100p50V
1SS119
10k
10
100
4.7k
100
100
100
1050V
22 22
470
470
180
4.7k
2.250V
4.7k 180
0.0033100V
0.2250V
0.821W
47035V
1N4001
1k
4.7k 3k 10k
LM358H
4.7K
3.3K
47025V
100V
100V
1SS119 HZ5C1HZ5C1
JW
13.3k1%
9.31k1%
1000p50V
1000p50V
1k1%
5.11k1%
1k 1%
JW
100p50V
1k1%
47p 50V
47p 50V
1000 25V
3.3 1/2W
1.78k1%
1000p
100p50V
100p50V
18.2k1%
3300p100V
JW
2.8k1%
22.1k 1%
2N3904SOG BUFF
2N3904H SYNC AMP
100p50V
100025V
TDA4856DEFLECTIONCONTROL
RN1203BPCLP CONT
24LC16EEPROM
6.81k1%
6.81k1%
ST7275CPU
2SC945RESET
2SC945RESET
HZ3C2
0.022100V
2SC945V BLK
TDA8172V OUT
0.022
0.01100V
0.0047100V
1.18k1%
10k1%
LM358HAMP
2201/2W2k
1%
2.4
2k 1%
VG2
PMG1
PMG0
VSYNC/O
HSYNC/O
CS3
CS2
CS1
CS0
HSYNC/O
VSYNC/O
-12V
-12V
H-DRIVER
3
2
1
2
31
8
4
6
57
1
2
3
4
5
67
3
2
1 3
2
1
TITLGND
GND
AUDIO/V
VG2
(PWM0)
(PWM1)
(PWM3)
(PWM4)
(PWM2)
CE
VSS
H-DRVCS2
CS3
NC
(PWM7)
(PWM8)
1D
6C
ABL
H-SIZECS0
CS1
(PWM5)
(PWM6)
4E
2D
PMG1
PMG0U/DP
U/DM
U/GND
U/VCC
OSC/O
VDD
MUTEOSC/I
VFB
GND
SDA/D
DSA/I
SCL/I
PC/DET
SCL/D
VSS
VDD
H/RTN
ORANGE/LED
GREEN/LED
DEGAUSSING
MUTE/LEDAUDIO
VSYNC/I
HSYNC/OHSYNC/I
VSYNC/O
SUB/TILT
RESET
H/CENTER
BLANK/O
+5V
SCL/D
SDA/D
PC/DET
CS
GND
SDA
SCL
GND
H/R
V/R
V/IN
H/IN
GND
BPCLP
SOG
GND
ABL
VCC
TEST
SCL
SDA VSS
+5V
GND
HPLL2
HSMOD
FOCUS
BOP
XRAY
HFLB
VCAP
GNDS
HPLL1
HBUF
DGND
HDRV
PGND
HREF BIN
BSENS
COR
VSOMD
VAGC
VOUT1
VOUT2
EWDRV
VREF VCC
HUNLOCK
SCL
CLBL
HSYNC
SDA VSYNC
S.O.G
VBLK
A0
A1
A2
Q5E2
Q5E3R5F5470
R5F4430
R5F62.21/2W
C5E9
50V
R5F110K
C5E70.0033 100V
C5E80.2250V
R5F32.2
R5F2
1W27
R5E9100
C5E54716V
R5E647K
C5E41050V
R5E751K
C5E60.150V
R5E81.6K
HCAP
BDRV
R5C8
ab1
ab2
ab13
ab11
ab12
ab9
ab10
ab6
ab7
ab8
ab3
ac1
D-a
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
ENTER
MENU
RIGHT+ LEFT-
+15V
+5V
+15V
JW
+12V
ab14
ab5
(DEFLECTION)
TO D-c
TO A BOARD
CN304
TO A BOARD
2SD647
2SB667
TILT DRIVE
TILT DRIVE
0.22
ab4
COIL
TILT(ROTATION)
CN303,CN306
B-SS3480-D..-P1-24
(1) Schematic Diagram of D- a Board
5-9 5-10
(2) Schematic Diagram of D- b Board
1 2 3 4 5 6 7 8 9 10 11 141312
A
B
C
D
E
F
G
H
I
J
15
5.85.9
3.5
3.6
105.3
138.6
16
2.5
0.20.1
3.3
2.9
45.8
4.0
17
47.9
46.8
3.8
6.8 7.1
-0.4
105.5
5.7
6.8
6.6 3.9
4.6
4.7
4.6
4.7
3.9*
4.7
4.7
4.6
4.6
5.8
0.6
00
32.8
00
0.7
00
34.634.1
0.6
1.5
106.2
0.9
106.6107.1
6.1
0.7
0.2
5.5
4.0
3.4
85.3
0.8
0.3
3.5
3.0
78.1
134.5
78.1
15 14
13
12
HV
2
4
5
6
9
10
3
12
11
FV1
FV2
1
14
13
S
S
S
S S S
1
1
2
3
4
8
7
6
5
L502
D502
C556
R524C515
L503
R525
R526
R580
R570
L570
R581
C585R598
C599
D519
C542
D504
D506
R531
C555 R582
R587
R530
R583
R532R527
R528
D511
D512
C549 R535
C548 R536
C547
L506
R553
R552 C531
R551
D515
D516
R565
C554
R579
R544
R538
R539
R545
C528
R549
R547
R546
C529
R550
R548
IC503(2/2)
R562
R560 C537 C546 R559
R563C535
R515 R556
R555
R554
C545 R568
R567
D510
Q514
IC503(1/2)
D509 D518
D517
R517 C541
R518C539
C538
R520
R521
R595 R592
R594 R593
D522
R569 R537C596
SG501
C592
C595 R576 R573
R574
R572
R575C593R577
C594R578
L508
C530
C550
D503
IC502(1/2) IC502(2/2)
D523
D513
D592
C589 C590 C591
FB501
R523
R586C570
T502
C543
R585
C521
R584
T503
R591
T504
R566
C597
D521
L507
CN502
Q528
Q529
Q533
Q530
Q531
D528
Q532
D527
C516R596
T501
R599
C517
C518
RC533
Q501
R540
Q515 Q516
Q520
Q521
Q523
C
Q527
Q517
Q518
Q519
C522
Q509
Q507
R561
C572
Q508Q505
Q524
C560
C536
C533C532
R558
Q512
Q513
R519
C540
Q534
Q511
Q510
C553
D507
C523
D526
Q502
FB502
D508Q504
Q506
CN501
Q503
C598
C501RV501
R588
R589
R590
R529
R516
C584
C524 C525 C526 C527
R557R534
R657
C573
L505
D514
R543
C588C587
100µH
MTZJ15A
100200V
8.2k0.022250V
10mH
10
4.7k
100
68 3W
7µH
68 3W
1000p1kV
24.3k
22050V
PS104R0.022100V
1SS119
1SS119
10k
0.150V
1.2k
4.7k
1.5 3W
1.5 3W
471/2W
10k
220 1/2W
PS104R
PS104R
22016V
1k
22016V
6.8k
0.150V
10mH
10k
100 0.022100V
47k
1SS119
1SS119
1k
2.2160V
221/2W
100k1/2W
4.7k
10k
100k1/2W
0.150V
10k
4.7k
100k1/2W
0.150V
10k
4.7k
LM358H
22
10k 4716V
0.150V
4.7k
100k0.001100V
1k 100k
10k
4.7k
0.150V
2.2k
10k
HZ5C1
2SA733
LM358H
MTZJ9.1C 1SS119
1SS119
5101/4W
22016V
510k0.015100V
0.012100V
7.5k
10k
100k 56k
1M 1k
RPG02-18
2.2M1/2W
1k2200p1kV 1.2KV
1050V
0.1400V
30k2W
430k
430k
10
3.3k0.2250V
62k
2200p2kV 750k
10µH
0.150V
0.1250V
UF5402G
LM393 LM393
1SS119TD
BYV26C
1SS119
150V
0.150V
0.150V
3UH
JW
JW2200p1kV
220p500V
JW
0.00511800V
JW
JW1M1%
3300p 100V
PS104R
1.2mH
BEAD PIN
2SC945PABL CONT
2SC945PABL CONT
2SA733ABL CONT
2SC2688DF AMP
2SC1921G2 CONT
Z10-160B
2SC4632G2 CONT
JW
0.012kV
127k1%
FBT
4.99k
220p3kV
1500p1kV
1.51W
2SJ307SWITCHING
330k1/2W
2SC945B DRIVE
2SA733B DRIVE
2SC945H DRIVE
2SA733H DRIVE
2SD1640QH DRIVE
0.1100V
2SC3209LKH DRIVE
2SD669AH CENT DRIVE
2SB649AH CENT DRIVE
2SC2688H CENT
0.00272kV
2SC945S-CAP CHANGE
F512KM-5S-CAP CHANGE
100UH
22016V
2SC945S-CAP CHANGE
2SC945S-CAP CHANGE
F512KM-5S-CAPCHANGE
0.150V
330p50V
0.47 50V0.015100V
27k
RN1203BOP CONT
2SA733BOP CONT
910
0.022100V
RN1203SW
2SA733HV REG OUT
2SC945HV REG OUT
10016V
SB140
10160V
1SS119
FS10KM-6H DRIVE OUT
0.45UH
DD54RCFS7KM-16A
EHT GENERATOR
F512KM-5S-CAP CHANGE
6P
6
5
4
3
2
1
V DY+
V DY-
H DY-
H DY-
H DY+
H DY+
2SC5387H OUT
0.22100V
0.022100V
100k0.3W
1M1%
1M1%
1M1%
47k
47k
8p2kV
0.02250V
0.1250V
0.22250V
0.12250V
20 2W20 2W
2.71/2W
0.15 250V
RGP10D
2701W
0.15250V
0.22250V
CS0 CS1 CS2
CS3
VG2 235
7 11
3
21
4
8
5
67
5
67
3
21
4
8
21
4 6
H.V
R5C71501/2W
R5C54.7K
R5C482K
R5C26.8K
R5C351K
R5C120K
R5A81M
R5A610K
R5A9470
R5A718K
R5C0120K
R5A5470
R5C6100
R5C9
ab1
ab2
ab3
ab4
ab5
ab6
ab7
ab8
ab9
ab10
ab11
ab13
ab12
+146V
+5V
+78V
+12V
+5V
+12V +12V +12V
+12V
+12V
+12V
+12V
D-b(DEFLECTION)
TO A BOARDCN309
1%
HV ADJ
TO PICTURE TUBE
+12V
ab14
+146V
V.DY
H.DY
1M
B-SS3480-D..-P2-24
FB5033UH
H-DRIVER
V DY-
V DY+
• Divided circuit diagramOne sheet of D board circuit diagram is divided into threesheets, each having the code D-a to D-c . For example, the
destination ab1 on the D-a sheet is connected to ab1 on the
D-b sheet.
a b 1
Circuit diagram division code
Ref. No.
5-11 5-12
A
B
1 2 3 4 5 6
C
D
E
• D BOARDSEMICONDUCTOR LOCATION
IC
IC401 E-3IC501 D-6IC502 D-1IC503 D-1IC504 D-5IC601 A-4IC602 A-4IC603 A-4IC605 A-5IC606 A-4IC607 A-5IC901 B-6IC902 C-6
TRANSISTOR
Q401 E-4Q501 C-2Q502 D-3Q503 D-3Q504 C-2Q505 C-4Q506 D-4Q507 D-4Q508 D-4Q509 D-4Q510 D-1Q511 D-1Q512 D-6Q513 D-5Q514 E-1Q515 D-5Q516 D-5Q517 B-1Q518 C-1Q519 C-1Q520 D-5Q521 D-5Q523 C-4Q524 C-4Q526 E-6Q527 C-4Q528 C-1Q529 C-3Q530 D-1Q531 C-2Q532 C-2Q533 E-1Q534 D-6Q5E2 D-5Q5E3 D-5Q601 A-4Q602 A-3Q607 B-4Q608 A-4Q609 B-5Q610 B-5Q615 B-1Q901 C-6Q902 C-6Q907 C-5Q908 C-5
DIODE
D402 E-4D501 D-5D502 C-2D503 C-2D504 C-4D506 D-3D507 D-3D508 C-3D509 D-5D510 D-1D511 C-1D512 C-1D513 D-1D514 D-4D515 C-3D516 C-3D517 D-6D518 D-5D519 D-5D520 D-6D521 D-1D522 D-2D523 C-4D592 E-1D601 A-2D604 A-3D605 A-3D606 A-3D607 A-2D608 A-4D609 A-4D610 A-3D611 B-1D612 A-4D613 B-3D615 B-3D616 B-4D617 B-4D618 B-4D626 A-3D901 A-6D902 C-6D903 C-6D904 E-6D905 C-5D906 C-5D907 C-5D908 C-5D909 B-5D910 C-5
VARIABLERESISTOR
RV501 E-1
CRYSTAL
X901 C-6
— D BOARD (Component Side) —(d) POWER, DEFLECTION
5-13 5-14
(3) Schematic Diagram of D- c Board
A
B
C
D
E
F
G
H
I
J
1 2 3 4 5 6 7 8 9 10 11 141312
A
B
C
D
E
F
G
H
I
J
0.1
14.9
4.9
0.1
5.5
4.9
0.1
14.3
3.6
2.5
3.6
4.75.0
1.2
123.94.9
0.1
3.7
2.5
0.2
2.2
5.0
4.9
1.7
2.2
0.30.3
17.9
18V
1
2
3
12
34 5
67
8
1
2
3
1
2
3
1
2
3
S
1
2
3
1
2
3
S
L
G
N
1
2
3
4
5
6
7
8
9
10
4 1
23
1 10
3 9
1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16
CN603
TH602
R629
D611
R628C649C648
C618 C619
FB614
FB615
FB617
FB618
FB619
FB616
C601 R601 C602
S601
TH601
R603
C605
C607
C608 D605
D626
T603
FB620
D604
D606
D607
R610
R611
R609
FB602
R615
R614C611 R616
IC606D608 Q601
D609
R623
R621R622 C614 R625R624
R626 C615
R619
R618
C613
D623
D624 D625
R631
R632
C646
R635
R633C645
C616 R620
D601
R642
R640
C622
R641
D618
D610
D617
D616
D615
C636 R650
C632
FB608 D613
C630
C628
C625
C626
R651 R652
L604
L603
C633
R656
C635
R658
C634
C641
R660 C642
R661
IC604Q606
Q605
FB611FB610
D621FB609
C643
FB601
C612
R634
R665
L601
L602
L607
L606
R666
R662
R663
T601
CN601
RY601
F601
R645
R643
L605
Q615R655
R630
C603C604
C610
C606
JW103
JW105
R605
Q602
FB621
R653C620
IC601
R612 JW104
C644
R659
IC602
IC603 R644IC607
IC605
Q610
Q609
Q608
Q607
D619
JW113
R664
FB622
C647
R602
FB605
FB606
FB607
FB604
C651JW116
CN504
FB613
R627
FB603
3P
DGC
NC
DGC9
1k1/4W
1SS119
621/4W
4700p400V
4700p400V
1050V
0.150V
2.3UH
2.3UH
2.3UH
2.3UH
2.3UH
2.3UH LF601
0.47250V
560k1/2W
1.0250V
10
39k2W
4700p400V
4735V
0.1 400V ER106
1SS119
3UH
SR1003
1SS119
HZ18-2
10 1/4W
18 1/4W
2.7k1/4W
3UH
1k1/4W
0.222W
680p50V
6.2k
MCR100-6HZ24-2 2SA733
1SS119
1001/4W
2201/4W
2201/4W
0.150V
10k1/4W 9.1k
1/4W
15k1/4W
10016V
10k1/4W
10k 1/4W
270p50V
1SS119
1SS119 1SS119
75 1/4W
5.6k 1/4W
0.0047 50V
5.1k 1/4W
7501/4W
150V
0.150V
1k
GBU4J
2201/4W
100k 1/4W
2200p50V
4701/4W
SB360
1SS119
UF5402G
UF5402G
BYM26C
1000p 1kV 150 1/2W
47016V
3UH BYM26C
47025V
100025V
220100V
100200V
10k 1k
100µH
100µH
100025V
10k
100010V
10k1/4W
100016V
47016V
1.3k1/4W
47016V
1.5k1/4W
TL4312SA733
IRFI9620G
3UH3UH
30DF23UH
47025V
3UH
0.01100V
241/4W
10k
100µH
100µH
100µH
100µH
1.5k
1k1/4W
1k1/4W
PCF CKT
AC-SOCKET 4A250V
JW
88.7k1/4W1%
2SC945PRELAY DRIVE1.6k
1/4W
3.9k1/4W
220p250V 470p
250V
4700p400V
330400V
JW
JW
30k 2W
FS10KM-12SWITCHING
3UH
2202W
220p1kV
µC3842APWM CONTROL
6.49k1%
JW
TLP721VOLTAGEFEED BACK
TL431VOLTAGEFEED BACK
3.01k1/4W
7812+12V REG
7805+5V REG
RN1203+15V SW CONT
2SA966+15V SW
RN1203+6.3V SW CONT
2SA966+6.3V SW
1SS119
0.751W
JW
3UH
470 35V
3UH
3UH
3UH
3UH
3UH
100025V
11/2W
10P
130UHCHOKE
7.32k1%
2UH
-12V
FBT SYNC
PMG0
PMG1
AUDIO
USB+5V
T603
1 2
5 3
6 4
1
2
4
3
COMP
FB
ISENCE
OSC
VAEF
VCC
OUT
GND
+146V
+78V/VIDEO
+6.3V
+5V
+12V
AGND
AGND
AGND
AGND
AGND
SYNC CKT
AUDIO POWER OUTPUT
USB POWER
ac1
+15V
POWER
+6.3V
+78V
+146V
+12V
+15V
IN OUTGND
IN OUTGND
D-c (POWER SUPPLY)
FROM
FROM
TO
TO D-a
DGC
TO A BOARD
CN305
B-SS3480-D..-P3-24
• Divided circuit diagramOne sheet of D board circuit diagram is divided into threesheets, each having the code D-a to D-c . For example, the
destination ab1 on the D-a sheet is connected to ab1 on the
D-b sheet.
a b 1
Circuit diagram division code
Ref. No.
5-15 5-16
• A BOARDSEMICONDUCTORLOCATION
IC
IC001 B–1 B–3IC002 A–1IC003 B–3 B–1IC004 B–1
TRANSISTOR
Q001 C–3 C–1Q002 B–3 B–1Q003 B–3 B–1Q004 C–3 C–1Q005 B–3 B–1Q006 A–3 A–1Q007 B–1 B–3Q008 B–1 B–3Q101 A–2 A–2Q201 A–3 A–1Q301 A–3 A–1
DIODE
D002 C–3D003 B–3 B–1D004 B–3 B–1D005 C–3 C–1D008 B–1 B–2D009 B–1 B–2D010 B–1 B–2D011 B–2 B–2D012 B–1 B–3D013 C–1D016 A–1 A–3D101 B–1 B–2D102 B–1 B–2D103 A–2 A–1D104 A–2 A–2D105 A–2 A–2D201 B–1 B–3D202 B–1 B–3D203 A–3 A–1D204 A–2 A–1D205 A–2 A–1D301 B–1 B–3D302 B–1 B–3D303 A–3 A–1D304 A–3 A–1D305 A–3 A–1
Conductor( )Side
Conductor( )Side Component( )Side
Component( )Side
Conductor( )Side Component( )Side
(a) VIDEO— A BOARD (Conductor Side) — — A BOARD (Component Side) —
• Pattern of the rear side.
A
B
1 2 3
C
Anode
Cathode
D002D013
A
B
1 2 3
C
5-17 5-18
(4) Schematic Diagram of A Board
A
B
C
D
E
F
G
H
I
J
1 2 3 4 5 6 7 8 9 10 11 141312 15 16
7.2
7.9
0.2
0.8
1.1
-0.2
0.1
2.6
0.1
2.9
3.1
0.1
0.1
2.6
4.4
0.6
1
2
4
3
6
5
1.9
2.5
2.5
4.4
1.1
1.8
4.4
0.6
3.1
2.7
3.0
5.0
5.0
0.2
0
0
0
0
3.6
5.0
1.3
5.0
5.0
5.0
4.2
4.1
4.1
5.0
0.8
0.1
4.1
5.2
4.6
123.8
4.6
5.2
129.2
5.2
4.6
131.8
12
11
10
51.3
42.5
50.5 1.9
2.4
1.8
7
8
9
0.8
0.2
5.0
0
4.1
-0.1
4.4
1.7
1.1
1
2
3
4
5
6
7
1
2
3
4
5
6
7
8
9
10
12
34
56
78
910
1112
1314
1516
1718 19
2021
2223
2425
2627
2829
3031
3233
3435
36
12
34
56
78
910 11
1213
1415
1617
1819
201
2
3
4
1
2
3
4
1
2
1
2
1
2
H
G1G2
GMG4
RCV
HG
HV
BGR1
2
3
4
5
6
7
8
9
1
2
3
4
5
6
7
8
12
34
56 7
89
1011
12
12
34 5
67
8
1
1
CN301
D101D102
D201D202
D301D302
C202
C203
C303
C003
C103
R016
C025
CN303
CN304
R046
C024C023
R012
R007
R017
D002
FB001
FB002
FB003
D016
FB004
FB005
C015 C017 C018 C021
CN305
R011
R009
R025
R024 C028
D005
R020
R015D004
R027
R028
R026
D003
R022
C026
R029 C029
R030
R213
C030 C031
R039
C033
C034
C032
C036C035
R018
R019
R014 R013
C304 C204 C104
R006
R005
R303
R304
R204
R104
L001
R004
C005 C006
C012 C011 C010 C009
R314
R214
R114
C008
R008
R010
D103
D105
R111
C107
R108
SG101
C206
C207
R208
SG201
D203
R211
D205
C306
R311
C307
SG301
R308
D303
D305
CN302
CN306
FB008R036 R035
FB009
FB010
R037C039
D008
D009
D010
D011
D013
C013
R034
FB006
R002
C101 C201 C301
C302
C102
C001
C044
R051
C004
C022
D014
C019C020
R103
R203
C038 C037
C040 C041
R040
D012
C106
SG001 FB007
CN308
CN307
CN309
J001
L101
L201
L301C043
R313
R113
CN310
R101 R201 R301
CN311
C014
D104
Q101
D204
Q201
D304
Q301
R307
FB011FB012
Q002
Q008
R049
C002
IC001
Q007
Q004
Q003
L002
Q005
R021C042
IC003
Q006
IC004
FB104
FB204
FB304
Q001
FB103L102
R112R107
R115
R116
FB203
R212R207
R215
L202
IC002
R216
FB303
L302
R312
R316
R315
R032
R031
C016
R048
FB301
FB201
FB101
9P
1SS1191SS119
1SS1191SS119
1SS1191SS119
10 50V
0.150V
0.150V
10010V
0.150V
470
0.150V
7P
8P
1k
0.150V
10010V
1k
100
100
1N4148
2.3UH
2.3UH
2.3UH
PG104
2.3UH
2.3UH
0.1250V
0.1100V
0.150V
4716V
10P
330
1k
2401/4W
1k 0.150V
1SS119
2k1/4W
2401/4W 1SS119
1k
1k
510
MTZJ5.1B
2.2k
2200p50V
1.5k 1000p50V
10k
33
10010V
0.150V
2.4k
4700p 50V
0.150V
1 50V
0.150V
10010V
100
100
4.7k 4.7k
0.150V
0.150V
0.150V
10k
1k
1k1/4W
100
100
100
100µH
100
4716V
0.150V
0.1100V
10100V
0.150V
4716V
12k1/2W
12k1/2W
12k1/2W
0.150V
2.2k
100
BAV20
BAV20
1M
0.1100V
100k
200V
0.1100V
0.1100V
100k1/4W
200V
BAV20
1M
BAV20
0.1100V
1M
0.1100V
200V
100k1/4W
BAV20
BAV20
4P
4P
2.3UH47 47
2.3UH
2.3UH
4.7k0.150V
1SS119
1SS119
1SS119
1SS119
1N4148
0.150V
51k1/2W
2.3UH
100
33p 33p 33p
10 50V
10 50V
1050V
0.1100V
1.5k
0.1100V
560p50V
RD3.3LB1
10010V
0.150V
1k
1k
0.150V
0.150V
220p50V
220p50V
33.21/4W
1SS119
0.1 100V
1.2KV 2.3UH
TAB PIN
TAB PIN
BEAD PIN
CRT_SOKET
0.1µH
0.1µH
0.1µH4.735VN.P
33
33
TAB PIN
75 751%
75
0.01 2kV
BAV20
2SC2688R CUT OFF
BAV20
2SC2688G CUT OFF
BAV20
2SC2688B CUT OFF
10k1W
2.3UH2.3UH
2N3904CLAMP AMP
2N3904SONG BUFF
20k
22016V
M52743BSPPRE AMP/OSD MIX
2SC945BRIGHTCONTROL
2N3904V BLK
2N3904H SYNC BUFF
100UH
RN1203V SYNCBUFF
10k180p50V
M35045-156OSD
BF420BRIGHTCONTROL
24C21EEPROM
2N3904CLAMP AMP
471/2W 0.47µH
1001/2W
16k1W
182k1/4W1%
324 1/4W 1%
471/2W
1001/2W
16k1W
182k1/4W1%
0.47µH
LM2407TRGB OUT
3241/4W1%
471/2W
0.47µH
1001/2W
3241/4W1%
182k1/4W1%
36k
39k
33200V
8871/4W1%
0.45UH
0.45UH
0.45UH
146V
VSYNC
VSYNC
BGND
BLUE
GGND
GREEN
RGND
RED
GND
VD
HD
CS
GND
12CSDA
12CSCL
GND
HRTRC
VRTRC
VSOUT
HSOUT
VBLK
GND
BPCLP
+146VS
NC
+75VS
GND
H1
H2
+5V
GND
+12VS
GND
RIN
VCCR
OSDR
GNDR
GIN
SOGI
VCCG
OSDG
GNDG
BIN
VCCB
OSDB
GNDB
ABLIN
NC
VCC
VCC2
ROUT
EXTFB
GOUT
EXTFB
MBRI
BOUT
EXTFB
BLK
DA1
DA2
DA3
DA4
GND5
SDA
SCL
CLAMPSOG OUT
OSD BLKIN
VDD2
P4
P3/G
P2
P1/R
P0/BK0
VSS
CPOUT
VIR
CS
SCK
SIN
TCK
VDD1