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Service ManualContents
This service manual contains information of different types of models.Make sure to refer to the section describing your model.
All rights reserved. No part of this manual may be reproduced, copied, transmitted, disseminated, transcribed, downloaded or stored in any storage medium, in any form or for any purpose without the express prior written consent of Funai. Furthermore, any unauthorized commercial distribution of this manual or any revision hereto is strictly prohibited.
Information in this document is subject to change without notice. Funai reserves the right to change the content herein without the obligation to notify any person or organization of such changes.
with the design is a registered trademark of Funai Electric Co., Ltd and may not be used in any way without the express written consent of Funai. All other trademarks used herein remain the exclusive property of their respective owners. Nothing contained in this manual should be construed as granting, by implication or otherwise, any license or right to use any of the trademarks displayed herein. Misuse of any trademarks or any other content in this manual is strictly prohibited. Funai shall aggressively enforce its intellectual property rights to the fullest extent of the law.
IMPORTANT SAFETY NOTICE
Proper service and repair is important to the safe, reliable operation of all P&F Equipment. The service procedures recommended by P&F and described in this service manual are effective methods of performing service operations. Some of these service special tools should be used when and as recommended.
It is important to note that this service manual contains various CAUTIONS and NOTICES which should be carefully read in order to minimize the risk of personal injury to service personnel. The possibility exists that improper service methods may damage the equipment. It also is important to understand that these CAUTIONS and NOTICES ARE NOT EXHAUSTIVE. P&F could not possibly know, evaluate and advice the service trade of all conceivable ways in which service might be done or of the possible hazardous consequences of each way. Consequently, P&F has not undertaken any such broad evaluation. Accordingly, a servicer who uses a service procedure or tool which is not recommended by P&F must first use all precautions thoroughly so that neither his safety nor the safe operation of the equipment will be jeopardized by the service method selected.
The LCD panel is manufactured to provide many years of useful life. Occasionally a few non active pixels may appear as a tiny spec of color. This is not to be considered a defect in the LCD screen.
Prior to shipment from the factory, our products are strictly inspected for recognized product safety and electrical codes of the countries in which they are to be sold. However, in order to maintain such compliance, it is equally important to implement the following precautions when a set is being serviced.
Safety Precautions for LCD TV Circuit1. Before returning an instrument to the
customer, always make a safety check of the entire instrument, including, but not limited to, the following items:
a. Be sure that no built-in protective devices are defective and have been defeated during servicing. (1) Protective shields are provided on this chassis to protect both the technician and the customer. Correctly replace all missing protective shields, including any removed for servicing convenience. (2) When reinstalling the chassis and/or other assembly in the cabinet, be sure to put back in place all protective devices, including but not limited to, nonmetallic control knobs, insulating fishpapers, adjustment and compartment covers/shields, and isolation resistor/capacitor networks. Do not operate this instrument or permit it to be operated without all protective devices correctly installed and functioning. Servicers who defeat safety features or fail to perform safety checks may be liable for any resulting damage.
b. Be sure that there are no cabinet openings through which an adult or child might be able to insert their fingers and contact a hazardous voltage. Such openings include, but are not limited to, (1) spacing between the Liquid Crystal Panel and the cabinet mask, (2) excessively wide cabinet ventilation slots, and (3) an improperly fitted and/or incorrectly secured cabinet back cover.
c. Antenna Cold Check - With the instrument AC plug removed from any AC source, connect an electrical jumper across the two AC plug prongs. Place the instrument AC switch in the on position. Connect one lead of an ohmmeter to the AC plug prongs tied together and touch the other ohmmeter lead in turn to each tuner antenna input exposed terminal screw and, if applicable, to the coaxial connector. If the measured resistance is less than 1.0 megohm or greater than 5.2 megohm, an abnormality exists that must be corrected before the instrument is returned to the customer. Repeat this test with the instrument AC switch in the off position.
d. Leakage Current Hot Check - With the instrument completely reassembled, plug the AC line cord directly into a 120 V AC outlet. (Do not use an isolation transformer during this test.) Use a leakage current tester or a metering system that complies with American National Standards Institute (ANSI) C101.1 Leakage Current for Appliances and Underwriters Laboratories (UL) 1410, (50.7). With the instrument AC switch first in the on position and then in the off position, measure from a known earth ground (metal water pipe, conduit, etc.) to all exposed metal parts of the instrument (antennas, handle brackets, metal cabinet, screw heads, metallic overlays, control shafts, etc.), especially any exposed metal parts that offer an electrical return path to the chassis. Any current measured must not exceed 0.5 milli-ampere. Reverse the instrument power cord plug in the outlet and repeat the test.
ANY MEASUREMENTS NOT WITHIN THE LIMITS SPECIFIED HEREIN INDICATE A POTENTIAL SHOCK HAZARD THAT MUST BE ELIMINATED BEFORE RETURNING THE INSTRUMENT TO THE CUSTOMER OR BEFORE CONNECTING THE ANTENNA OR ACCESSORIES.
2. Read and comply with all caution and safety-related notes on or inside the receiver cabinet, on the receiver chassis, or on the Liquid Crystal Panel.
ALSO TEST WITHPLUG REVERSEDUSING ACADAPTER PLUGAS REQUIRED
TEST ALL EXPOSEDMETAL SURFACES
READING SHOULD NOT BE ABOVE 0.5 mA
EARTHGROUND
_
DEVICELEAKAGECURRENT
TESTER
+BEINGTESTED
2-2 LTVN_ISP
3. Design Alteration Warning - Do not alter or add to the mechanical or electrical design of this TV receiver. Design alterations and additions, including, but not limited to circuit modifications and the addition of items such as auxiliary audio and/or video output connections, might alter the safety characteristics of this receiver and create a hazard to the user. Any design alterations or additions will void the manufacturer's warranty and may make you, the servicer, responsible for personal injury or property damage resulting therefrom.
4. Hot Chassis Warning -
a. Some TV receiver chassis are electrically connected directly to one conductor of the AC power cord and maybe safety-serviced without an isolation transformer only if the AC power plug is inserted so that the chassis is connected to the ground side of the AC power source. To confirm that the AC power plug is inserted correctly, with an AC voltmeter, measure between the chassis and a known earth ground. If a voltage reading in excess of 1.0 V is obtained, remove and reinsert the AC power plug in the opposite polarity and again measure the voltage potential between the chassis and a known earth ground.
b. Some TV receiver chassis normally have 85V AC(RMS) between chassis and earth ground regardless of the AC plug polarity. This chassis can be safety-serviced only with an isolation transformer inserted in the power line between the receiver and the AC power source, for both personnel and test equipment protection.
c. Some TV receiver chassis have a secondary ground system in addition to the main chassis ground. This secondary ground system is not isolated from the AC power line. The two ground systems are electrically separated by insulation material that must not be defeated or altered.
5. Observe original lead dress. Take extra care to assure correct lead dress in the following areas: a. near sharp edges, b. near thermally hot parts-be sure that leads and components do not touch thermally hot parts, c. the AC supply, d. high voltage, and, e. antenna wiring. Always inspect in all areas for pinched, out of place, or frayed wiring. Check AC power cord for damage.
6. Components, parts, and/or wiring that appear to have overheated or are otherwise damaged should be replaced with components, parts, or wiring that meet original specifications. Additionally, determine the cause of overheating and/or damage and, if necessary, take corrective action to remove any potential safety hazard.
7. Product Safety Notice - Some electrical and mechanical parts have special safety-related characteristics which are often not evident from visual inspection, nor can the protection they give necessarily be obtained by replacing them with components rated for higher voltage, wattage, etc. Parts that have special safety characteristics are identified by a # on schematics and in parts lists. Use of a substitute replacement that does not have the same safety characteristics as the recommended replacement part might create shock, fire, and/or other hazards. The product's safety is under review continuously and new instructions are issued whenever appropriate. Prior to shipment from the factory, our products are strictly inspected to confirm they comply with the recognized product safety and electrical codes of the countries in which they are to be sold. However, in order to maintain such compliance, it is equally important to implement the following precautions when a set is being serviced.
2-3 LTVN_ISP
Precautions during ServicingA. Parts identified by the # symbol are critical for
safety.Replace only with part number specified.
B. In addition to safety, other parts and assemblies are specified for conformance with regulations applying to spurious radiation. These must also be replaced only with specified replacements.Examples: RF converters, RF cables, noise blocking capacitors, and noise blocking filters, etc.
C. Use specified internal wiring. Note especially:
1) Wires covered with PVC tubing
2) Double insulated wires
3) High voltage leads
D. Use specified insulating materials for hazardous live parts. Note especially:
1) Insulation Tape
2) PVC tubing
3) Spacers
4) Insulators for transistors.
E. When replacing AC primary side components (transformers, power cord, etc.), wrap ends of wires securely about the terminals before soldering.
F. Observe that the wires do not contact heat producing parts (heat sinks, oxide metal film resistors, fusible resistors, etc.)
G. Check that replaced wires do not contact sharp edged or pointed parts.
H. When a power cord has been replaced, check that 11~13 lb (5~6 kg) of force in any direction will not loosen it.
I. Also check areas surrounding repaired locations.
J. Use care that foreign objects (screws, solder droplets, etc.) do not remain inside the set.
K. When connecting or disconnecting the internal connectors, first, disconnect the AC plug from the AC supply outlet.
L. When installing parts or assembling the cabinet parts, be sure to use the proper screws and tighten certainly.
2-4 LTVN_ISP
Safety Check after ServicingExamine the area surrounding the repaired location for damage or deterioration. Observe that screws, parts and wires have been returned to original positions. Afterwards, perform the following tests and confirm the specified values in order to verify compliance with safety standards.
1. Clearance Distance
When replacing primary circuit components, confirm specified clearance distance (d) and (d') between soldered terminals, and between terminals and surrounding metallic parts. (See Fig. 1)
Table 1: Ratings for selected area
Note: This table is unofficial and for reference only. Be sure to confirm the precise values.
2. Leakage Current Test
Confirm the specified (or lower) leakage current between B (earth ground, power cord plug prongs) and externally exposed accessible parts (RF terminals, antenna terminals, video and audio input and output terminals, microphone jacks, earphone jacks, etc.) is lower than or equal to the specified value in the table below.
Measuring Method: (Power ON)
Insert load Z between B (earth ground, power cord plug prongs) and exposed accessible parts. Use an AC voltmeter to measure across both terminals of load Z. See Fig. 2 and following table.
Table 2: Leakage current ratings for selected areas
Note: This table is unofficial and for reference only. Be sure to confirm the precise values.
AC Line Voltage Region Clearance Distance (d), (d’)
110 to 130 V U.S.A. or Canada
≥ 3.2 mm (0.126 inches)
AC Line Voltage Region Load Z Leakage Current (i) Earth Ground (B) to:
110 to 130 V U.S.A. or Canada
0.15 µF CAP. & 1.5 kΩ RES. Connected in parallel i ≤ 0.5 mA rms Exposed accessible
parts
Chassis or Secondary Conductor
Primary Circuit
Fig. 1
d' d
AC Voltmeter (High Impedance)
Exposed Accessible Part
B Earth Ground Power Cord Plug Prongs
Z
Fig. 2
3-1 TVN_SN
STANDARD NOTES FOR SERVICING
Circuit Board Indications1. The output pin of the 3 pin Regulator ICs is
indicated as shown.
2. For other ICs, pin 1 and every fifth pin are indicated as shown.
3. The 1st pin of every male connector is indicated as shown.
Pb (Lead) Free SolderPb free mark will be found on PCBs which use Pb free solder. (Refer to figure.) For PCBs with Pb free mark, be sure to use Pb free solder. For PCBs without Pb free mark, use standard solder.
How to Remove / Install Flat Pack-IC
1. Removal
With Hot-Air Flat Pack-IC Desoldering Machine:
1. Prepare the hot-air flat pack-IC desoldering machine, then apply hot air to the Flat Pack-IC (about 5 to 6 seconds). (Fig. S-1-1)
2. Remove the flat pack-IC with tweezers while applying the hot air.
3. Bottom of the flat pack-IC is fixed with glue to the CBA; when removing entire flat pack-IC, first apply soldering iron to center of the flat pack-IC and heat up. Then remove (glue will be melted). (Fig. S-1-6)
4. Release the flat pack-IC from the CBA using tweezers. (Fig. S-1-6)
CAUTION:
1. The Flat Pack-IC shape may differ by models. Use an appropriate hot-air flat pack-IC desoldering machine, whose shape matches that of the Flat Pack-IC.
2. Do not supply hot air to the chip parts around the flat pack-IC for over 6 seconds because damage to the chip parts may occur. Put masking tape around the flat pack-IC to protect other parts from damage. (Fig. S-1-2)
Top View
Out In
Bottom ViewInput
5
10
Pin 1
Pin 1
Pb free mark
Fig. S-1-1
3-2 TVN_SN
3. The flat pack-IC on the CBA is affixed with glue, so be careful not to break or damage the foil of each pin or the solder lands under the IC when removing it.
With Soldering Iron:
1. Using desoldering braid, remove the solder from all pins of the flat pack-IC. When you use solder flux which is applied to all pins of the flat pack-IC, you can remove it easily. (Fig. S-1-3)
2. Lift each lead of the flat pack-IC upward one by one, using a sharp pin or wire to which solder will not adhere (iron wire). When heating the pins, use a fine tip soldering iron or a hot air desoldering machine. (Fig. S-1-4)
3. Bottom of the flat pack-IC is fixed with glue to the CBA; when removing entire flat pack-IC, first apply soldering iron to center of the flat pack-IC and heat up. Then remove (glue will be melted). (Fig. S-1-6)
4. Release the flat pack-IC from the CBA using tweezers. (Fig. S-1-6)
Hot-airFlat Pack-ICDesolderingMachine
CBA
Flat Pack-IC
Tweezers
Masking Tape
Fig. S-1-2
Flat Pack-IC Desoldering Braid
Soldering Iron
Fig. S-1-3
Fine TipSoldering Iron
SharpPin
Fig. S-1-4
3-3 TVN_SN
With Iron Wire:
1. Using desoldering braid, remove the solder from all pins of the flat pack-IC. When you use solder flux which is applied to all pins of the flat pack-IC, you can remove it easily. (Fig. S-1-3)
2. Affix the wire to a workbench or solid mounting point, as shown in Fig. S-1-5.
3. While heating the pins using a fine tip soldering iron or hot air blower, pull up the wire as the solder melts so as to lift the IC leads from the CBA contact pads as shown in Fig. S-1-5.
4. Bottom of the flat pack-IC is fixed with glue to the CBA; when removing entire flat pack-IC, first apply soldering iron to center of the flat pack-IC and heat up. Then remove (glue will be melted). (Fig. S-1-6)
5. Release the flat pack-IC from the CBA using tweezers. (Fig. S-1-6)
Note: When using a soldering iron, care must be taken to ensure that the flat pack-IC is not being held by glue. When the flat pack-IC is removed from the CBA, handle it gently because it may be damaged if force is applied.
2. Installation1. Using desoldering braid, remove the solder from
the foil of each pin of the flat pack-IC on the CBA so you can install a replacement flat pack-IC more easily.
2. The “ I ” mark on the flat pack-IC indicates pin 1. (See Fig. S-1-7.) Be sure this mark matches the pin 1 on the PCB when positioning for installation. Then presolder the four corners of the flat pack-IC. (See Fig. S-1-8.)
3. Solder all pins of the flat pack-IC. Be sure that none of the pins have solder bridges.
To Solid Mounting Point
Soldering Iron
Iron Wire
or
Hot Air Blower
Fig. S-1-5
Fine TipSoldering IronCBA
Flat Pack-ICTweezers
Fig. S-1-6
Example :
Pin 1 of the Flat Pack-ICis indicated by a " " mark. Fig. S-1-7
Presolder
CBA
Flat Pack-IC
Fig. S-1-8
3-4 TVN_SN
Instructions for Handling Semi-conductorsElectrostatic breakdown of the semi-conductors may occur due to a potential difference caused by electrostatic charge during unpacking or repair work.
1. Ground for Human Body
Be sure to wear a grounding band (1 MΩ) that is properly grounded to remove any static electricity that may be charged on the body.
2. Ground for Workbench
Be sure to place a conductive sheet or copper plate with proper grounding (1 MΩ) on the workbench or other surface, where the semi-conductors are to be placed. Because the static electricity charge on clothing will not escape through the body grounding band, be careful to avoid contacting semi-conductors with your clothing.
<Incorrect>
CBA
Grounding Band
Conductive Sheet orCopper Plate
1MΩ
1MΩ
<Correct>
CBA
4-1 PL11.0-A_DC
CABINET DISASSEMBLY INSTRUCTIONS
1. Disassembly FlowchartThis flowchart indicates the disassembly steps for the cabinet parts and the CBA in order to gain access to items to be serviced. When reassembling, follow the steps in reverse order. Bend, route and dress the cables as they were.
2. Disassembly Method
*1: TYPE A
*2: TYPE B
Note:
(1) Order of steps in procedure. When reassembling, follow the steps in reverse order. These numbers are also used as the Identification (location) No. of parts in figures.
(2) Parts to be removed or installed.
(3) Fig. No. showing procedure of part location
(4) Identification of parts to be removed, unhooked, unlocked, released, unplugged, unclamped, or desoldered. P = Spring, L = Locking Tab, S = Screw, H = Hex Screw, CN = Connectore.g. 2(S-2) = two Screws of (S-2), 2(L-2) = two Locking Tabs of (L-2)
(5) Refer to the following "Reference Notes in the Table."
2(S-8), 8(S-9), CN3902*1, CN3005*2, Jack Holder, Shield Box
---
[7] Speaker D3 4(S-10), Speaker Holder ---
[1] StandAssembly
[2] Rear Assembly [7] Speaker
[3] Inverter CBA
[4] Jack CBA
[6] Digital MainCBA Unit
[5] Power SupplyCBA
[10] LCD ModuleAssembly
[11] FrontCabinet
[8] IR SensorCBA
[9] FunctionCBA
[8] IR Sensor CBA
D3D4 CL103A ---
[9] Function CBA
D3D4
Function Knob, Knob Frame ---
[10]LCD Module Assembly
D3 (S-11) ---
[11] Front Cabinet D3 --------------- ---
↓(1)
↓(2)
↓(3)
↓(4)
↓(5)
Step/Loc. No.
Part Fig. No. Removal Note
4-2 PL11.0-A_DC
[2] Rear Assembly
(S-1)
[1] Stand Assembly
(S-2)
(S-2)
(S-2)
(S-2)
(S-3)
(S-2)
(S-4)
(S-4)
(L-1)
(L-1)
(L-1)(L-1)
Fig. D1
4-3 PL11.0-A_DC
(S-5)
[4] Jack CBA
Jack Holder
[5] Power Supply CBA
[6] Digital Main CBA Unit
[3] Inverter CBA
(S-6)
(S-7)
(S-8)
(S-9)
(S-9)
Shield Box(S-7)
Fig. D2
4-4 PL11.0-A_DC
(S-10)
(S-11)
[10] LCD Module Assembly
[8] IR Sensor CBA
[9] Function CBA
SpeakerHolder
[7] Speaker
[7] Speaker
[11] Front Cabinet
Knob Frame
Function Knob
Fig. D3
4-5 PL11.0-A_DC
TV Cable Wiring Diagram
Power Supply CBA
Jack CBA
CN201CN1001
CN1003
CN3702
CN1100
CN1101
CN1102
Digital Main CBA Unit
CN1901
Inverter CBA
CN802
AC CORD
CL701B
CN302
CL701A
CN801
CN602
CN101CN301
CL103B
CL103A CL102B
FunctionCBA
IR SensorCBA
To LCD Module Assembly
To Speaker
To LCD Module Assembly
TYPE ACN3006TYPE B
CN3701TYPE ACN3002TYPE B
CN3902TYPE ACN3005TYPE B
Fig. D4
5-1 A17F6EA
ELECTRICAL ADJUSTMENT INSTRUCTIONS
[32PFL3506/F7 (Serial No.: DS1, XA1), 32PFL3000/F8 (Serial No.: XA1)]General Note: “CBA” is abbreviation for “Circuit Board Assembly.”Note: Electrical adjustments are required after
replacing circuit components and certain mechanical parts. It is important to perform these adjustments only after all repairs and replacements have been completed. Also, do not attempt these adjustments unless the proper equipment is available.
Test Equipment Required1. NTSC Pattern Generator (Color Bar W/White
Window, Red Color, Dot Pattern, Gray Scale, Monoscope, Multi-Burst)
2. Remote control unit
3. Color Analyzer
How to set up the service mode:
Service mode:1. Turn the power on.
2. Press [MENU] button to display Setup menu.
3. Select “Features”.
4. Select “Current Software Info”.
5. Press [0], [6], [2], [5], [9], [6] and [INFO] buttons on the remote control unit in this order. The following screen appears.
1. Purity Check ModeThis mode cycles through full-screen displays of red, green, blue, and white to check for non-active pixels.
1. Enter the Service mode.
2. Each time the [7] button on the remote control unit is pressed, the display changes as follows.
3. To cancel or to exit from the Purity Check Mode, press [PREV CH] button.
2. VCOM Adjustment
1. Set the color analyzer at the zero point calibration and bring the optical receptor pointing at the center of the LCD-Panel at a distance of 1.18 inches(3cm) away from the LCD-Panel surface.Note: The optical receptor must be set perpendicularly to the LCD Panel surface.
2. Enter the Service mode.
3. Press [2] button on the remote control unit.
4. Press [CH + or -] buttons on the remote control unit so that the color analyzer value becomes minimum within 2minutes from Power-On.
5. To cancel or to exit from the VCOM Adjustment, press [PREV CH] button.
[7] button
Note:When entering this mode, the default setting is White mode.
Purity Check Mode
[7] button
Red mode
Green mode
Blue mode
Black mode
[7] button
White mode
[7] button
[7] button
White 20% mode[7] button
Test Point Adj. Point
Screen [CH + or -] buttons
M. EQ. Spec.
Color analyzer See below
Figure
Color Analyzer
To avoid interference from ambient light, this adjustment should be performed in a dark room.
L = 1.18 inches
Perpendicularity
5-3 A17F6EA
The White Balance Adjustment should be performed when replacing the LCD Panel or Digital Main CBA.
3. White Balance AdjustmentPurpose: To mix red and blue beams correctly for pure white.
Symptom of Misadjustment: White becomes bluish or reddish.
1. Operate the unit for more than 60 minutes.
2. Input the White Raster(70%=70IRE, 40%=40IRE).
3. Set the color analyzer at the CHROMA mode and zero point calibration. Bring the optical receptor pointing at the center of the LCD-Panel at a distance of 1.18 inches(3cm) away from the LCD-Panel surface.Note: The optical receptor must be set perpendicularly to the LCD Panel surface.
4. Enter the Service mode. Press [VOL -] button on the remote control unit and select “C/D” mode.
5. [CUTOFF]Press [1] button to select “COR” for Red Cutoff adjustment. Press [3] button to select “COB” for Blue Cutoff adjustment.[DRIVE]Press [4] button to select “DR” for Red Drive adjustment. Press [6] button to select “DB” for Blue Drive adjustment.
6. In each color mode, press [CH + or -] buttons to adjust the values of color.
7. Adjust Cutoff and Drive so that the color temperature becomes 12000°K (x= 0.272 / y= 0.278 ± 0.005).
8. To cancel or to exit from the White Balance Adjustment, press [PREV CH] button.
Test Point Adj. Point Mode Input
Screen [VOL -]button
[VIDEO1]C/D
White Raster (APL 70%)
or(APL 40%)
M. EQ. Spec.
Pattern Generator, Color analyzer
x= 0.272 ± 0.005y= 0.278 ± 0.005
Figure
Color Analyzer
Perpendicularity
INPUT: WHITE 70%, 40%
To avoid interference from ambient light, this adjustment should be performed in a dark room.
L = 1.18 inches
40%=40IRE 70%=70IRE100IRE100IRE
0IRE 0IRE
INPUT SIGNAL
LowLight
HighLight
5-4 A17FG_HEA
[32PFL3506/F7 (Serial No.: DS2, DS3), 32PFL3000/F8 (Serial No.: XA2)]General Note: “CBA” is abbreviation for “Circuit Board Assembly.”Note: Electrical adjustments are required after
replacing circuit components and certain mechanical parts. It is important to perform these adjustments only after all repairs and replacements have been completed. Also, do not attempt these adjustments unless the proper equipment is available.
Test Equipment Required1. Remote control unit
2. Color Analyzer, CA-310 (KONICA MINOLTA Luminance meter) or measuring instrument as good as CA-310.
How to set up the service mode:
Service mode:1. Turn the power on.
2. Press [MENU] button to display Setup menu.
3. Select “Features”.
4. Select “Current Software Info”.
5. Press [0], [6], [2], [5], [9], [6] and [INFO] buttons on the remote control unit in this order. The following screen appears.
1. Purity Check ModeThis mode cycles through full-screen displays of red, green, blue, and white to check for non-active pixels.
1. Enter the Service mode.
2. Each time the [7] button on the remote control unit is pressed, the display changes as follows.
3. To cancel or to exit from the Purity Check Mode, press [PREV CH] button.
2. VCOM Adjustment
32PFL3506/F7 (Serial No.: DS2), 32PFL3000/F8 (Serial No.: XA2):1. Set the color analyzer at the zero point calibration
and bring the optical receptor pointing at the center of the LCD-Panel.Note: The optical receptor must be set perpendicularly to the LCD Panel surface.
2. Enter the Service mode.
3. Press [2] button on the remote control unit.
4. Press [CH + or -] buttons on the remote control unit so that the color analyzer value becomes minimum.
5. To cancel or to exit from the VCOM Adjustment, press [PREV CH] button.
32PFL3506/F7 (Serial No.: DS3):1. Operate the unit for more than 60 minutes.
2. Set the color analyzer at the zero point calibration and bring the optical receptor pointing at the center of the LCD-Panel.Note: The optical receptor must be set perpendicularly to the LCD Panel surface.
3. Enter the Service mode.
4. Press [3] button on the remote control unit.
5. Press [CH + or -] buttons on the remote control unit so that the color analyzer value becomes minimum within 2minutes from Power-On.
6. To cancel or to exit from the VCOM Adjustment, press [PREV CH] button.
[7] button
Note:When entering this mode, the default setting is White mode.
Purity Check Mode
[7] button
Red mode
Green mode
Blue mode
Black mode
[7] button
White mode
[7] button
[7] button
White 20% mode[7] button
Test Point Adj. Point
Screen [CH + or -]buttons
M. EQ. Spec.
Color analyzer See below
Figure
Color Analyzer
To avoid interference from ambient light, this adjustment should be performed in a dark room.
Perpendicularity
5-6 A17FG_HEA
The White Balance Adjustment should be performed when replacing the LCD Panel or Digital Main CBA.
3. White Balance AdjustmentPurpose: To mix red and blue beams correctly for pure white.
Symptom of Misadjustment: White becomes bluish or reddish.
1. Operate the unit for more than 60 minutes.
2. Enter the Service mode.
3. Press [VOL -] button three times on the remote control unit to select “Drive setting” mode. “Drive” appears on the screen.
4. Set the color analyzer at the CHROMA mode and zero point calibration. Bring the optical receptor pointing at the center of the LCD-Panel.
Note: The optical receptor must be set perpendicularly to the LCD Panel surface.
5. Press [3] button to select the “HDB” for High Drive Blue adjustment. (“HDB” appears on the screen.)
6. Press [MENU] button. The internal Raster signal appears on the screen. (“Internal (Single)” appears on the upper right of the screen as shown below.)
7. Press [CH + or -] buttons to adjust the color temperature becomes 12000°K (x= 0.272 / y= 0.278 ±0.002).
8. Press [1] button to select the “HDR” for High Drive Red adjustment (“HDR” appears on the screen.) and press [CH + or -] buttons to adjust the color temperature.
9. If necessary, adjust the “HDB” or “HDR” again.
10. Press [6] button to select the “LDB” for Low Drive Blue adjustment (“LDB” appears on the screen.) and press [CH + or -] buttons to adjust the color temperature.
11. Press [4] button to select the “LDR” for Low Drive Red adjustment (“LDR” appears on the screen.) and press [CH + or -] buttons to adjust the color temperature.
12. If necessary, adjust the “LDB” or “LDR” again.
13. Press [VOL -] button to shift to the “Debugging Message” mode. If there is no message under “[WB]” section, this adjustment completes. If “Drive settings are NG. Retry.” is displayed, repeat above steps from 5. to 12. Then check “Debugging Message” again. If “Drive settings are NG. Retry.” is displayed, replace the LCD Panel or Digital Main CBA.
14. To cancel or to exit from the White Balance Adjustment, press [PREV CH] button.
ITEM SPECIFICATION
Color temperature x= 0.272 ± 0.002y= 0.278 ± 0.002
Input Signal Internal pattern (40/70% raster)
Measurement point Screen center
M. EQ.
CA-310 (KONICA MINOLTA Luminance meter) or measuring instrument as good as CA-310.
To avoid interference from ambient light, this adjustment should be performed in a dark room.
Internal (Single)
HDB 0
Internal (Single)
LDB 0
6-1 A17F6INT
HOW TO INITIALIZE THE LCD TV
The purpose of initialization is to place the set in a new out of box condition. The customer will be prompted to select a language and program channels after the set has been initialized.To put the program back at the factory-default, initialize the LCD TV using the following procedure.
[32PFL3506/F7 (Serial No.: DS1, XA1), 32PFL3000/F8 (Serial No.: XA1)]1. Turn the power on.
2. Enter the service mode.
- To cancel the service mode, press [ ] button on the remote control unit.
3. Press [INFO] button on the remote control unit to initialize the LCD television.
4. "INITIALIZED" will appear in the upper right of the screen. "INITIALIZED" color will change to green from red when initializing is completed.
[32PFL3506/F7 (Serial No.: DS2, DS3),32PFL3000/F8 (Serial No.: XA2)]1. Turn the power on.
2. Enter the service mode.
- To cancel the service mode, press [ ] button on the remote control unit.
3. Press [FREEZE] button on the remote control unit to initialize the LCD television.
4. "INITIALIZED" will appear in the upper right of the screen. "INITIALIZED" color will change to green from red when initializing is completed.
7-1 PL11.0FW
FIRMWARE RENEWAL MODE
Equipment Requireda. USB storage deviceb. Remote Control Unit
Firmware Update ProcedureNote: There are two states (the User Upgrade and
The identification of User Upgrade and Factory Upgrade are done by the filename.
1. Turn the power off and unplug the AC Cord.
2. Insert the USB storage device to the USB port as shown below.
3. Plug the AC cord in the wall outlet and turn the power on.
4. The update will start and the following will appear on the screen.
Note: If the above screen isn’t displayed, repeat from step 1.
The appearance shown in *1 is described as follows.
5. When the firmware update is completed, the following will appear on the screen.
Remove the USB storage device from the USB port. Turn the power off and turn the power on again.
Note:
When the Factory Upgrade is used, after restarting TV, shift to initial screen menu in service mode. "INITIALIZED" will appear on the upper right of the screen. "INITIALIZED" color will change to green from red when initializing is completed.
User Upgrade Upgrade the firmware only. The setting values are not initialized.
Factory upgrade Upgrade the firmware and initialize the setting values.
*1 Factory Upgrade (Flash upgrade)
Upgrade the firmware and initialize the setting values along with the setting data adjusted at the factory such as White Balance, etc.
USB storage device
Rear Cabinet
Appearance State
Downloading... Downloading the firmware from the USB storage device.
Writing... Writing the downloaded firmware in flash memory.
Checking... Checking the new firmware.
Software upgrade in progress. Please wait.Do not remove the USB storage device or turn the TV off while upgrade is in progress.
Software Upgrade
Downloading...
Current Version:New Version:
*******-***-*-***-***********-***-*-***-****
0%*1
"*" differs depending on the models.
Software Upgrade
The software upgrade is completed.Remove USB storage device, turn TV off then on again.
8-1 PL11.0TR
TROUBLESHOOTING
[ Power Supply Section ]
The power cannot be turned on.
The fuse blows out.
FLOW CHART NO.1
FLOW CHART NO.2
Is normal state restored when once unpluggedpower cord is plugged again after several seconds?
Check if there is any leak or short-circuiting on theprimary circuit component, and service it if defective.(C605, D601, D602, D603, D604, Q601, Q602, Q603, Q604, IC602, T601)
Yes
No
Yes
Is the fuse (F601) normal? See FLOW CHART No.2 <The fuse blows out.>
No
Yes
Is the AL+33V line voltage normal?No
Check each rectifying circuit of the secondarycircuit and service it if defective.
Check the presence that the primary componentis leaking or shorted and service it if defective.
Check the presence that the rectifying diode or circuit is shorted in each rectifying circuit of secondary side, and service it if defective.
After servicing, replace the fuse.
When the output voltage fluctuates.FLOW CHART NO.3
Does the photocoupler circuit on the secondary side operate normally?
No
Yes
Check IC601, D639, D652, D653, Q631 and their periphery circuit, and service it if defective.
When buzz sound can be heard in the vicinity of power circuit.FLOW CHART NO.4
Check if there is any short-circuit on the rectifying diode and the circuit in each rectifying circuit of the secondary side,and service it if defective. (IC631, Q209, Q210, Q211, Q635, Q637, Q640, Q641, Q642, D631, D632, D633, D638, D641, D642, D646, D647)
Check D657, R661 and their periphery circuit, and service it if defective.
AL+33V is not output.FLOW CHART NO.5
Is approximately +35V voltage supplied to thecathode of D638?
No
Yes
Check C638, D638, D639 and their periphery circuit, and service it if defective.
Check IC601, D615, D616, IC602 and their periphery, circuit and service it if defective.
8-2 PL11.0TR
Check Q207, Q208, D205, D207, P-ON-H1 line and their periphery circuit, and service it if defective.
LCD+31.5V is not output.FLOW CHART NO.6
Is approximately +35V voltage supplied to the collector of Q210?
No
Yes
See FLOW CHART No.5<AL+33V is not output>
Replace Q209.
Is approximately +13.5V voltage supplied to thebase of Q209?
Yes
NoCheck Q207, Q208, D203, D204, D211, P-ON-H1 line and their periphery circuit, and service it if defective.
No
LCD+13V is not output.FLOW CHART NO.7
Is approximately +16V voltage supplied to thecollector of Q209?
Yes
Check C631, D631, D635 and their periphery circuit, and service it if defective.
P-ON+7V is not output.FLOW CHART NO.8
Is approximately +7V voltage supplied to thecathode of D646?
Check C644, D646 and their periphery circuit, and service it if defective.
Yes
No
Check for short-circuiting or leak on the load circuit, and service it if defective.
8-3 PL11.0TR
See FLOW CHART No.8 <P-ON+7V is not output.>
See FLOW CHART No.8 <P-ON+7V is not output.>
AL+13V is not output.FLOW CHART NO.11
Yes
NoIs approximately +13V voltage supplied to thecathode of D641 and D642?
Check C639, D641, D642 and their periphery circuit, and service it if defective.
Check for short-circuiting or leak on the load circuit, and service it if defective.
P-ON+5V is not output. (LCD+13V is outputted normally.)FLOW CHART NO.9
Is approximately +6.5V voltage supplied to thecollector of Q641?
Is approximately +6V voltage supplied to the base of Q641?
NoYes
Yes
Check D645 and their periphery circuit, and service it if defective.
No
Replace Q641.
TUNER+5V is not output. (LCD+13V is outputted normally.)FLOW CHART NO.10
Is approximately +6.5V voltage supplied to thecollector of Q640?
Is approximately +6V voltage supplied to the base of Q640?
NoYes
Yes
Check D645 and their periphery circuit, and service it if defective.
No
Replace Q640.
P-ON+3V is not output.FLOW CHART NO.12
Is approximately +3V voltage supplied to thecathode of D647?
Yes
No
Check for short-circuiting or leak on the load circuit, and service it if defective.
Check C645, D647 and their periphery circuit, and service it if defective.
8-4 PL11.0TR
P-ON+3.3V is not output.FLOW CHART NO.13
Is approximately +4.5V voltage supplied to thecathode of D633?
Is the "H" signal (approximately +3.5V) inputted to the base of Q637?
NoYes
Yes
Check C633, D633 and their periphery circuit, andservice it if defective.
Check Q638, Q639, D666, P-ON-H2 line and their periphery circuit, and service it if defective.
No
Replace Q637.
P-ON+9V is not output. (LCD+13V is outputted normally.)FLOW CHART NO.14
Is approximately +13.5V voltage supplied to thecollector of Q642?
Is approximately +10V voltage supplied to thebase of Q642?
Is approximately +5V voltage supplied to Pin(3) of IC631?
NoYes
Yes
Yes
Check D670 and their periphery circuit, and service it if defective.
NoCheck Q635, D659 and their periphery circuit, andservice it if defective.
See FLOW CHART No.5 <AL+33V is not output.>
See FLOW CHART No.11 <AL+13V is not output.> No
No
AL+3.3V is not output.FLOW CHART NO.15
Is approximately +35V voltage supplied to thecollector of Q635?
Yes
Replace IC631.
Replace Q642.
Check C632, D632 and their periphery circuit, and service it if defective.
Check Q207, Q208, D208, D210, P-ON-H1 line and their periphery circuit, and service it if defective.
Replace Q211.
Is approximately -6V voltage supplied to thebase of Q211?
Yes
No
No
LCD-5V is not output.FLOW CHART NO.16
Is approximately -6.5V voltage supplied to theanode of D632?
Yes
8-5 PL11.0TR
[ Video Signal Section ]
No
Is the "L" pulse sent out Pin(1) terminal of remote control receiver (RS101) when the infrared remote control is activated?
Check the line between Pin(1) terminal of remote control receiver(RS101) and Pin(25) of CN301, and service it if defective.
Yes
Is the "L" pulse supplied to Pin(25) of CN301?
Yes
Is 3.3V voltage supplied to Pin(2) terminal of theremote control receiver (RS101)?
No
FLOW CHART NO.2
Operation is possible from the remote control unit.
Check AL+3.3V line and service it if defective.
NoReplace the remote control receiver(RS101) or the remote control unit.
Yes
Replace Digital Main CBA Unit.
When pressing each switches (SW101B, SW103B~SW107B) do the voltage of Pin(29) of CN302 decrease?
Yes
The key operation is not functioning.FLOW CHART NO.1
Are the contact point and installation state of the key switches (SW101B, SW103B~SW107B) normal?
Re-install the switches (SW101B, SW103B~SW107B) correctly or replace the poor switch.
Check the switches (SW101B, SW103B~SW107B) and their periphery, and service it if defective.
Yes
Replace Digital Main CBA Unit.
No
No
No operation is possible from the remote control unit.
Picture does not appear normally.(Video input)FLOW CHART NO.3
Are the video signal inputted to Pin(4) of CN302?
Yes
Check the line between Pin(4) of CN302 and JK752, and service it if defective.
No
Replace Digital Main CBA Unit or LCD ModuleAssembly.
8-6 PL11.0TR
Picture does not appear normally.(S-Video input)FLOW CHART NO.5
Are the video signal outputted to the Pin(6, 8) ofCN302?
Check the line between Pin(6, 8) of CN302 and JK751, and service it if defective.
Check TU301 and their periphery circuit, and service it if defective.
Yes
No
No
Picture does not appear normally.(Tuner input)FLOW CHART NO.4
Are the DIF signal inputted to the Pin(26,28) of CN302?
Yes
Replace Digital Main CBA Unit or LCD ModuleAssembly.
Replace Digital Main CBA Unit or LCD ModuleAssembly.
Pin(6): S-VIDEO-CPin(8): S-VIDEO-Y
Picture does not appear normally.(Y/Pb/Pr input)FLOW CHART NO.6
Are the video signal inputted to the Pin(15, 17, 19) of CN302?
Check the line between Pin(15, 17, 19) of CN302 and input terminals(JK731, JK732, JK733), and service it if defective.
Yes
No
Replace Digital Main CBA Unit or LCD ModuleAssembly.
Many electrical and mechanical parts in this chassis have special characteristics. These characteristics often pass unnoticed and the protection afforded by them cannot necessarily be obtained by using replacement components rated for higher voltage, wattage, etc. Replacement parts that have these special safety characteristics are identified in this manual and its supplements; electrical components having such features are identified by the mark “#” in the schematic diagram and the parts list. Before replacing any of these components, read the parts list in this manual carefully. The use of substitute replacement parts that do not have the same safety characteristics as specified in the parts list may create shock, fire, or other hazards.
Notes:1. Do not use the part number shown on these
drawings for ordering. The correct part number is shown in the parts list, and may be slightly different or amended since these drawings were prepared.
2. All resistance values are indicated in ohms (K = 103, M = 106).
3. Resistor wattages are 1/4W or 1/6W unless otherwise specified.
4. All capacitance values are indicated in µF (P = 10-6 µF).
5. All voltages are DC voltages unless otherwise specified.
6. This schematic diagrams are masterized version that should cover the entire PL11.0 chassis models.Thus some parts in detail illustrated on this schematic diagrams may vary depend on the model within the PL11.0 chassis.Please refer to the parts lists for each models.
7. The Circuit Board layout illustrated on this service manual is the latest version for this chassis at the moment of making this service manual. Depend on the mass production date of each model, the actual layout of each Board may differ slightly from this version.
10-2 PL11.0SC
LIST OF CAUTION, NOTES, AND SYMBOLS USED IN THE SCHEMATIC DIAGRAMS ON THE FOLLOWING PAGES:
1. CAUTION:CAUTION: FOR CONTINUED PROTECTION AGAINST RISK OF FIRE, REPLACE ONLY WITH SAME TYPE_A,_V FUSE.
ATTENTION: UTILISER UN FUSIBLE DE RECHANGE DE MÊME TYPE DE_A,_V.
2. CAUTION: Fixed Voltage (or Auto voltage selectable) power supply circuit is used in this unit. If Main Fuse (F601) is blown, first check to see that all components in the power supply circuit are not defective before you connect the AC plug to the AC power supply. Otherwise it may cause some components in the power supply circuit to fail.
3. Note:1. Do not use the part number shown on the drawings for ordering. The correct part number is shown in the
parts list, and may be slightly different or amended since the drawings were prepared.
2. To maintain original function and reliability of repaired units, use only original replacement parts which are listed with their part numbers in the parts list section of the service manual.
4. Voltage indications on the schematics are as shown below: Plug the TV power cord into a standard AC outlet.:
5. How to read converged lines
6. Test Point Information
2 315.0 5.0
Voltage Indicates that the voltage is not consistent here.
Power on mode(Unit: Volt)
3
2
1
A B C D
1-B1
1-D3
AREA D3
AREA B1
1-D3
Distinction AreaLine Number (1 to 3 digits)
Examples:1. "1-D3" means that line number "1" goes to the line number "1" of the area "D3". 2. "1-B1" means that line number "1" goes to the line number "1" of the area "B1".
: Indicates a test point with a jumper wire across a hole in the PCB.
: Used to indicate a test point with a component lead on foil side.
: Used to indicate a test point with no test pin.
: Used to indicate a test point with a test pin.
The reference number of parts on Schematic Diagrams/CBA can be retrieved by application search function.
10-3
KTC3198-GR-AT/P
Q603
4
3 2
1
IC601TLP781F
330P/2KV
C607
1000P/250VC691
2HOT-GND
CN6021+B
BEADBC601
1500P/100V
C606
SB2150BDD631
2SC2120-YQ209
C2210.01
D203
SB360BHD646
FR104-BD643
0.1C682
1500P/2KVC637
FR154D638
KTA1267-GR-AT/PQ207
KTC3198-Y-AT/PQ208
2SA950-OQ636
FR154D661
KTC3198-Y-AT/P
Q631
FR154D662
KTC3199-GR-AT/PQ634
WIRED648
2200P/100VC646
D208
KTC3198-Y-AT/P
Q211
2SC4881FQ637
FR104-BD632
C651OPEN
KTC3199-GR-AT/P
Q639
KTA1267-GR-AT/PQ638
FR151-B/PD633
SB390D642
OPENC641
KTC3198-Y-AT/PQ642
D410
KTC3198-Y-AT/PQ402
KTC3198-Y-AT/P
Q401
D411
OPENC692
D404
2SC2120-YQ635
5V6BSA-T26D659
6V2BSB-T26D644
1ZB43BBD639
3V3BSB-T26D658
6V2BSB-T26D210
10BSB-T26D670
10BSB-T26D407
24BSB-T26D635
5V6BSB-T26D652
2.7KR229
10R687
1R651
51KR410
11KR232
47KR240
39KR639
22KR404
820R663
1KR648
220R243
OPENR406
22KR241
3.6KR679
12KR242
750R233
2.2KR234
3.9/1/2W
R227
22KR225
22KR673
3.3KR637
3.3kR223
10KR680
10KR675
30KR411
1.2KR689
WIRER638
180R646
47KR659
OPENR666
1.5KR644
47KR403
47KR676
2.7KR649
22KR407
270R677
2.7KR228
2.7MR607
0.47/2W
R613
2.7MR604
1KR674
820R664
24KR652
OPENR694
10R678
WIRER672
47KR405
1.5KR231
15R662
22KR226
27KR224
1000/6.3VC652
220/10VC654
220/50VC638
470/25VC222
10/50VC224
2200/6.3VC633
1000/35VC639
100/16VC656
22/50VC657
1000/25VC631
1/50VC642
3300/16VC644
D666KIA431-AT/P
D204KIA431-AT/P
2.2/5WR603
0.22/300VC602
4A/125VF601
OPENC603
SURGEABSORBER
SA601
OPENC604
AC CORDAC601
0.22/300VC601
2.2/5WR605
1N5406-BUD602
JS603
OPEN
L601LINE FILTER
1N5406-BUD603
JS604
OPEN
JS602
OPEN
1N5406-BUD601
L602LINEFILTER
JS601
OPEN
2.7M/1/2WR601
1N5406-BUD604
OPENR602
470/200V
C605
OPENC694
1000P/250VC693
SB390D641
WIRER653
10KR658
10KR654
WIRER665
OPENR645
OPEND649
10R688
WIRED671
D40910KR408
2200/6.3VC645
SB140D647
D421
D419
390/1/2W
R661
OPENC647
33BSB-T26D657 D412
2.7/1WR696
2.7/1WR697
WIRER667
OPENR695
OPENC402
WIRED665
22KR401
22KR402
39BSB-T26D209
D211
OPENQ501
4.7/1/2W
R247OPENR501
OPENC501
2SC2120-YQ641
OPENR692
OPENR691
OPENR693
22R685
D645KIA431B-AT/P
1.1KR641
10KR642
10KR643
1KR686
OPENC655
2.7R682
2.7R683
2SC2120-YQ640
220/10VC653
D415
KTC3198-Y-AT/PQ210
330R235
10R236
24BSC-T26D205
D206
1.5KR238
OPENR239
8.2KR237
D207
AL+33VTUNER+5V
P-ON+3.3V
LCD+31.5VLCD-5V
INV+13VLCD+13V
AUDIO(L)-OUTAUDIO(R)-OUT
AMP(L)-OUTAMP(R)-OUT
28 BACKLIGHT-ADJ27 NU
12 GND
15 PROTECT2
25 REMOTE
4 AUDIO(R)-OUT
20 P-ON+3.3V
2 AUDIO(L)-OUT
14 P-ON+5V
CN3011 P-ON-H2
11 PROTECT1
3 GND
29 VCOM-PWM
10 P-ON+3V
26 BACKLIGHT-SW
18 GND
13 P-ON+5V
9 P-ON-H1
23 GND
6 AMP(L)-OUT
22 AL+3.3V
17 GND16 P-ON+7V
19 P-ON+3.3V
21 AL+3.3V
24 OE2
5 PROTECT3
7 GND8 AMP(R)-OUT
BACKLIGHT-SW
P-ON-H1OE2
BACKLIGHT-ADJVCOM-PWM
PROTECT3
AL+3.3VP-ON+9V
P-ON+3.3V
RESET
AL+3.3V
P-ON+9VP-ON+5V
AL+13V
REMOTE
0.1C684
D4130.1C681
D414
D420
3V9BSB-T26D417
D405
10KR412
15BSB-T26D4068.2K
R245
1N4005D655
220/25VC632
4A 125V
LCD-P-SAFETY
CN6012AC120V1AC120V
2.2/50VC676
OPEND651
OPENR244
OPEND403
OPENC225
OPEND674
OPENR681
OPEND667
3.9/1/2W
R636
820R660
WIRED676
OPEND637
OPENR698
OPENR246
OPEND201
OPENR254
JS201OPEN
2SA950-OQ213
8.2/1WR250
6.8/1/2WR253
D401
27KR655
10KR668
D653KIA431-AT/PF5
0.022/100VC650WIRED654
2.7KR650
JS630
3.9/1/2W
R635
1C643
4V7BSB-T26D664100/10V
C6480.1C649
D660
1R657
OPEND673
1/50VC640
JS631OPEN
OPENR502
3V9BSB-T26D418
0.1C683
OPENR700
OPENR699
1ZB200-YBBD621
3HOT+15V
47KR606
4.7KR611
180R609
10R610
FR103-B/PD617
OPEND611
BEADBC602
BEADBC603
GD S
KHB1D0N60D-RTFQ602
TK5A50DQ601
SD
G
0.1C611
27BSB-T26D609OPEN
R620
OPENR621
1.2KR622
1000P/100V
C60827BSB-T26D608
0.022C614
33PC613
100KR617
3300PC615
68R612
39BSB-T26D615
10KR623
10KR624
11BSB-T26
D607
FR103-B/PD614
FR103-B/PD622
47/50VC609
D619 15KR626
FR104-BD613
FR104-BD612
WIRER618
WIRER619
KTA1267-GR-AT/P
Q604OPENR627
OPEND606
OPENR625
OPEND620
P-ON-H1PROTECT1
OPENR690
100/50V
C610
D610
22/50VC223
5
6
7
81
4
3
2
IC602FA5571-ND1-TE1
ZCD
GND OUT
VCC
NU
VH
IS
FB
2SA950-OQ643
9
8
7
5
4
11
12
13
14
15
16
17
18
193
POWER TRANST601
1 2 3
MM3123DPREIC631
VIN
VOUT
GND
OPEND650
OPEND416
WIRED621A
1ZB200-YBBD621B
0D607A
0D652A
0D659A
D423
100R409
10/50VC403
2.2/2WR701
2.2/2WR702
1000PC608A
1500PC606A
27BSB-T26D616
100/10VC658
0.022C650A
2200PC646A
2
1
3
4
A B C D E F
POWER SUPPLY CBA
ERRORVOLTAGE DET
(SWITCHING)
SWITCHINGCONTROL
HOT COLD
HOT CIRCUIT. BE CAREFUL.
159.4
0.1
2.8
0
0.7
0.6
00
16.2 12.9
13.5
(SWITCHING)
35.2
34.4
0.1
35.1
0.7
0
35.1
34.1
5.5
0 (SWITCHING)
6.1
00.7
(+3.3V REG.)
34.1
(SWITCHING)
(SW+9V)
9.013.4
9.7
5.36.8
6.5
(SWITCHING)
2.5-0.5
0
(FEED BACK)
(SW+13V)
(RESET) (SW-5V)
(SW+3.3V)
(+5V REG.)
35.2
5.5
5.5
4.6
3.4
4.1
-6.0
-6.7
-6.6
-2.0
0
4.4
6.9
6.1
6.8
(SWITCHING)
TO INVERTERCBA CN1901
(SW+13V)
(SW+5V)(SW+5V)
UNLESS OTHERWISE SPECIFIED:DIODES ARE 1SS133.
CONTINUEPOWER 2
CONTINUEPOWER 4
CONTINUEPOWER 4
CONTINUEPOWER 2
TO DIGITAL MAINCBA UNIT CN3701 or CN3002
CONTINUEPOWER 4
CONTINUEPOWER 3
CONTINUEPOWER 2
CONTINUEPOWER 4
(SW+31.5V)
34.5 31.231.6
0
0.20.7
6.0
6.7 5.3
6.0
6.5 5.3
3.7
5.26.0
0 3.35.2
0.8
3.32.60
2.63.32.60
2.63.23.12.50
5.35.30.36.900
3.3
3.30
0.63.33.2
1.1
3.33.3
(NO CONNECTION)
(SWITCHING)
SWITCHIGCONTROL
0
0.1
0.6
1.0 155.3
15.2
3.3
(SWITCHING)
SW HOT+15V
124.9
0.1
15.2
15.2 15.2
14.5
16.8 13.2
16.2 (SWITCHING)
(SWITCHING)
(SWITCHING)
PL11.0SCP1
Power Supply 1 Schematic Diagram
NOTE:The voltage for parts in hot circuit is measured usinghot GND as a common terminal.
CAUTION !Fixed voltage (or Auto voltage selectable) power supply circuit is used in this unit.If Main Fuse (F601) is blown , check to see that all components in the power supplycircuit are not defective before you connect the AC plug to the AC power supply.Otherwise it may cause some components in the power supply circuit to fail.
For continued protection against risk of fire, replace only with same type 4 A, 125V fuse.
CAUTION ! :
ATTENTION : Utiliser un fusible de rechange de même type de 4A, 125V.4A/125V
The order of pins shown in this diagram is different from that of actual IC3301. IC3301 is divided into five and shown as IC3301 (1/5) ~ IC3301 (5/5) in this Digital Main Schematic Diagram Section.
The order of pins shown in this diagram is different from that of actual IC3301. IC3301 is divided into five and shown as IC3301 (1/5) ~ IC3301 (5/5) in this Digital Main Schematic Diagram Section.
The order of pins shown in this diagram is different from that of actual IC3301. IC3301 is divided into five and shown as IC3301 (1/5) ~ IC3301 (5/5) in this Digital Main Schematic Diagram Section.
The order of pins shown in this diagram is different from that of actual IC3301. IC3301 is divided into five and shown as IC3301 (1/5) ~ IC3301 (5/5) in this Digital Main Schematic Diagram Section.
The order of pins shown in this diagram is different from that of actual IC3301. IC3301 is divided into five and shown as IC3301 (1/5) ~ IC3301 (5/5) in this Digital Main Schematic Diagram Section.
1 NOTE:
10-15
VIDEO SIGNAL
1 STV
3 OE1
6 TP
4 CPV5 POL
2 XA0
CN300524 GND
13 LLV3(+)
10 LLV4(-)
15 LLVCLK(-)16 LLVCNK(+)
12 LLV3(-)
19 LLV2(+)
11 LLV4(+)
18 LLV2(-)
20 LLV1(-)21 LLV1(+)
R15P14P13N16N15P16P15T16T15R14T14R13T13
K15NU
17 GND
14 GND
9 LLV5(+)8 LLV5(-)7 GND
P-ON+3.3V7.5KR3088
RESET-LCD
1 NU
11 NU
3 NU4 NU
7 GND8 NU
24 GND
5 NU
9 NU
2 NU
6 NU
10 NU
25 GND26 GND27 LCD+12V28 LCD+12V29 LCD+12V
CN301131 LCD+12V30 LCD+12V
Q3001OPEN
OPENR3007
OPENR3006
OPENC3002
OPENR3002
OPENR3001
100K
R356
6
OPEN
R356
3
0R3537
R16
*1IC3005(1/6)R8A05011BG-U0
LCD+12V
N14LESET LCD
Q3002OPEN
1 2 3
678
4
5
OPENC3345
19 LLV2(+)20 LLV1(-)21 LLV1(+)
16 LLVCNK(+)17 GND
15 LLVCLK(-)
23 LLV0(+)22 LLV0(-)
14 GND13 LLV3(+)
18 LLV2(-)
12 LLV3(-)
23 LLV0(+)22 LLV0(-)
OPENC3349
OPENC3350
OPENC3351
OPENC3352
OPENC3353
OPENC3354
OPENC3355
L13TPM15POL
M16NU
100K
R356
5
L16CPV
100K
R356
4
L15OE
100K
R356
2
M14STV
M13NU
N13NU
OPENR3552OPENR3553OPENR3554OPENR3555
OPENR3557
OPENR3559OPENR3558
OPENR3556
OPENR3561OPENR3560
OE2L14OE2
1KR3152
100P
C356
710
0KR3
567
K16SM-CLKOPENR3210OPENR3514
K14SM-MOSIJ16SM-MOSO
OPENR3515
F14SM-PU-CONT
CN39011 SM-CLK2 SM-MISO3 NU4 SM-MISI5 GND6 REMOTE
REMOTEAL+3.3VP-ON+5V
D3905OPEN
L3902 OPEN
Q3903OPEN
D3904OPEN
D3903OPEN
D3902OPEN
D3901OPEN
L3901 OPEN
L3903 OPEN
L3904 OPEN
OPENR3902
OPENR3918
OPENC3901
Q3907OPEN
Q3908OPEN
OPENR3917
OPENR3916
OPENR3907
OPENR3909
OPENC3905
Q3906OPEN
P-ON+3.3V
OPENR3904
OPENR3906
OPENR3910
OPENR3911
Q3904OPEN OPEN
R3921OPENR3914
OPENR3925
Q3905OPEN
OPENR3913
OPENR3912
D3907OPEN
OPENR3905
OPENC3904
Q3901OPEN OPEN
R3901
OPENC3903
OPENC3902
OPENR3903
OPENR3920
OPENR3919
D3906OPENOPEN
R3908
IC3901OPEN
1
OE
2
A
3
GND
4
Y
5
VCC
OPENR3915
OPENC3906
DIGITAL SIGNAL PROCESS/MAIN MICRO CONTROLLER
TO LCD MODULEASSEMBLY
LVDSTX
TO DIGITAL MAIN 2IC3005(2/6)
4
1
3
2
DC FA B E
CONTINUEDIGITAL 5
DIGITAL MAIN CBA UNIT
CONTINUEDIGITAL 5
CONTINUEDIGITAL 2
(NO CONNECTION)
(SMART PORT)
CONTINUEDIGITAL 5
PL11.0SCDB1
Digital Main 1 Schematic Diagram [TYPE B]
The order of pins shown in this diagram is different from that of actual IC3005. IC3005 is divided into six and shown as IC3005 (1/6) ~ IC3005 (6/6) in this Digital Main Schematic Diagram Section.
1 NOTE:
10-16
GND7
COM-VIDEO-Y-IN15
GND1
GND9S-VIDEO-Y-IN8
SPDIF2
RESET23
AUDIO-MUTE20
CN3006KEY-IN129
GND25
S-VIDEO-C-IN6
COM-VIDEO-Pr-IN19
GND16COM-VIDEO-Pb-IN17
VIDEO-IN4
33PC3107
33PC3104
33PC3103
33PC3093
33PC3095
33PC3098
1000PC3092
1000PC3074
100R3404
33PC3111
A10C8
B9
B11
C10
D8C9
C11
A9C7
0.1C32020.1C3290
0.1C3284
0.1C3201
0.01C3198
0.1C32000.1C3199
OPENC3196
OPENC3194OPENC3195
DIF-OUT228
DIF-OUT126
IF-AGC24
AUDIO(R)11INPUT012
SCL22SDA21
AUDIO(L)13
33PC3100
SDASCL
AUDIO-MUTE
A12
A16IF-AGC
22R3511
SPDIF
GND3
S-VIDEO-SW5
33PC3105
100R3175
INPUT110
33PC3102
22R3187
100R3171AUDIO(R)
100R3154AUDIO(L)
GND14
GND18
100R3144100R3142100R3138
100R3134
GND27
KEY-IN1
N12S-VIDEO-SW
G1INPUT0D1INPUT1
100PC3099
OPENC3084
P-ON+5V
100PC3101
100PC3112
OPENR3181
OPENR3532
Q30102SC4081UBTLQ
10KR3184
10KR3185
LIGHT-SENSRESET
OPENR3416
OPENR3356 D3049
OPEN
OPENR3364
OPENR3284 1
2
3
4
5
14
13
12
11
15
6
7
8
9
10
JK3001PC-RGB-INOPEN
D3055OPEN
D3053OPEN
OPENR3377
OPENR3285
OPENR3286
OPENR3376D3040
OPEND3027OPEN
OPENR3326
OPENR3333
D3041OPEN
OPENR3321
OPENR3334
D3054OPEN
1
2
3 4
VCC
GND
5
IC3013OPEN
1
2
3 4
VCC
GND
5
IC3014OPEN
OPENC3214
AL+3.3V(2)
B14VGA-VSYNCA14VGA-HSYNC
OPENR3296
OPENR3339
OPENR3347 D3045
OPEN
OPENR3358 D3050
OPEN
OPENR3343
1C33360.1C32860.1C3285
D10NUA11NUB10NU
33P
C3289
33P
C3255
33P
C3256
33P
C3288
33P
C3287
56R340056R3399
56R3398
22R3401
22R3403
22R3402
100R3183
39KR3186
D3056OPEN
RESET-LCD
B12
IC3005(2/6)R8A05011BG-U0
*1
D9NU
OPENR3298
L30220.27uH 33P
C3235
L3024OPEN
L3023OPEN
OPENC3243
OPENR3369
OPENR3361
OPENR3360
OPENC3242
OPENR3368
2.2KR3202
0.1C3178
OPENC3177
47R3091
33PC3089
1000PC3086
33PC3087
10KR3513
10KR3189
100R3156
100R317233P
C3254
OPEN
C3291
OPEN
C3292
OPEN
C3293
0.1C3197
2.2C3335
10PC322510PC3226
VGA-SCLVGA-SDAP-ON+5V(1)
4
JI
3
2
L
1
G H K
DIGITAL MAIN CBA UNIT
TO POWER SUPPLYCBA CN302
DIGITAL SIGNAL PROCESS/MAIN MICRO CONTROLLER
CONTINUEDIGITAL 4
CONTINUEDIGITAL 3
SW
A/DCONVERTER
DEMODULATOR/MPEGDECODER
DIGITALSIGNALPROCESS
TO DIGITAL MAIN 6IC3005(6/6)
TO DIGITAL MAIN 1IC3005(1/6)
CONTINUEDIGITAL 3
TO DIGITAL MAIN 3IC3005(3/6)
(BUFFER GATE)
(BUFFER GATE)
CONTINUEDIGITAL 1
CONTINUEDIGITAL 5
CONTINUEDIGITAL 6
(BUFFER)
PL11.0SCDB2
Digital Main 2 Schematic Diagram [TYPE B]
The order of pins shown in this diagram is different from that of actual IC3005. IC3005 is divided into six and shown as IC3005 (1/6) ~ IC3005 (6/6) in this Digital Main Schematic Diagram Section.
1 NOTE:
10-17
B7A7C5NU
10C3216
A810C3217
AUDIO(L)
B810C3218
AUDIO(R)
D11NU
C12LPF
SPDIF
AUDIO(L)-OUT
OPENR3503
OPENR3504
AUDIO(R)-OUTAMP(L)-OUTAMP(R)-OUT
100R3335100R3336
100PR3500
100PR3499
100R3209
100R3325
100R3322
C6NUD7NU
B16P-ON-H2
VCOM-PWM
P-ON-H2
F2VCOM-PWM
C14REMOTE
REMOTE
A15KEY-IN1
KEY-IN1LIGHT-SENS
A13LIGHT-SENSC13PROTECT1
PROTECT1
D13PROTECT2
PROTECT2
B13PROTECT3
PROTECT3
G13DTV-ON-H2
DTV-ON-H2
F13DTV-ON-H1100R3215
DTV-ON-H1
22R3213
100R3517
22R331522R3313
100R3314
22R3316
22R3233
22R3312
3.3KR3178 100
R3191
RESET
0.1C3106
0.1C3252
56KR3182
32
1 4
IC3009BU4221F
CDVDD
GND OUT
J15RESET-N
0.47C3113
OPENC3116
1000PC3120
AL+3.3V
CPU-RESET-N
OPENR3501
OPENR3502
10KR3340
0.22C3231
P-ON+3.3V(2)
10C321910C3220
A6B6
100PC3229
100PC3227
100PC3341
100PC3338
100R3518
100R3520
1C3337
1C3340
10C3223
10C3224
100KR3498
OPENC3228
N10
IC3005(3/6)R8A05011BG-U0
*1
SPDIF
0R3341
4
PO
3
2
R
1
M N Q
DIGITAL SIGNAL PROCESS/MAIN MICRO CONTROLLER
AUDIOI/F
CONTINUEDIGITAL 2
DIGITAL MAIN CBA UNITCONTINUEDIGITAL 5
TO DIGITAL MAIN 2IC3005(2/6)
TO DIGITAL MAIN 6IC3005(6/6)
CONTINUEDIGITAL 4
CONTINUEDIGITAL 2
CONTINUEDIGITAL 5
(RESET)
CONTINUEDIGITAL 5
Digital Main 3 Schematic Diagram [TYPE B]
PL11.0SCDB3
The order of pins shown in this diagram is different from that of actual IC3005. IC3005 is divided into six and shown as IC3005 (1/6) ~ IC3005 (6/6) in this Digital Main Schematic Diagram Section.
1 NOTE:
10-18
IC3002K4T51163QI-HCF7
*A VDD
J2VREF
E2 NU K2CKEJ8CKK8CKL8CSK7RASL7CASK3WEL1BA2/NCL3BA1L2BA0R2A12P7A11M2A10/APP3A9P8A8P2A7N7A6N3A5N8A4N2A3M7A2M3A1M8A0K9ODT
The order of pins shown in this diagram is different from that of actual IC3005. IC3005 is divided into six and shown as IC3005 (1/6) ~ IC3005 (6/6) in this Digital Main Schematic Diagram Section.
The order of pins shown in this diagram is different from that of actual IC3005. IC3005 is divided into six and shown as IC3005 (1/6) ~ IC3005 (6/6) in this Digital Main Schematic Diagram Section.
1 NOTE:
10-20
16 HDMI-DATA
14 NU
17 GND
13 HDMI-CEC
15 HDMI-CLOCK
16 HDMI-DATA
14 NU
17 GND
13 HDMI-CEC
15 HDMI-CLOCK
0.01C3311
0.01C3313
0.1C3312
10C3316
0.1C3310
L3046BLM21PG221SN1D
P-ON+3.3VAL+3.3V(2)
Q30142SK3018T106
27KR3237
A4
A3B4
B1A1
B3
B2A2
14 NU
9 TMDS-D0(-)10 TMDS-CLOCK(+)
3 TMDS-D2(-)
17 GND
11 C-SHIELD0
7 TMDS-D0(+)
2 D-SHIELD0
JK30031 TMDS-D2(+)
13 HDMI-CEC
8 D-SHIELD2
4 TMDS-D1(+)
6 TMDS-D1(-)5 D-SHIELD1
12 TMDS-CLOCK(-)
15 HDMI-CLOCK16 HDMI-DATA
47KR3278
47KR3275
47KR3274
47KR3276
47KR3273
D3057RB751S-40TE61
82KR3415
13
1
15
14
16
3
6
5
11
4
7
12
10
8 9
2
IC3011BU9883FV-WE2
VCC1
SDA1
WPB
VCC-OUT
SDA0
SCL0
VCC0 VCC3
SCL3
SDA3
GND
NU
SDA2
SCL2
VCC2
SCL1
D14HDMI1-HPD
C15HDMI1-SDA
C16HDMI1-SCL
4.7KR3487
0.1C3191
4.7KR3488
22R3508
G3HDMI-SEL0
22R3509
F1HDMI-SEL1
0.1C3314
0.01C3315
0.1C3333
0.01C3332
0.01C3334
0.1C3331
0.1C3300
0.1C3302
0.1C3304
0.01C3301
0.01C3303
0.01C3307
0.01C3309
0.01C3305
0.1C3308
0.1C3306
4.64KR3486
4.7KR3497
0.1C3190
0.1C3212
0.1C3213
0.1C319210KR3523
100R3282
100R3281
4.7KR3496
100R3405
10KR3489
1C3260
18 +5V
R3375OPEN
R338510K
OPENR3414
R33741K
1KR3406
19 HOT PLUG DETECT
2SC4081UBTLQQ3032
0R3512
0R3477
0R3478
OPENR3476
OPENR3475
B5PLL-XFC-AA5PLL-XFC-P
C4EXT-RES
2.2KR3270
2.2C3187
4700PC3186
3KR3271
2200PC3188
560R3236
0.01C3185
P-ON+3.3V(2)
SCLSDA
10KR3302 Q3301
2SC4081UBTLQ
10KR3304
18 +5VR33701K
R3371OPEN
0R3387
1C3262
R338610K
1KR3408
OPENR3412
19 HOT PLUG DETECTR34112.7K
D30671SS400TE61
R34092.7K
D30651SS400TE61
R33721K
R3373OPEN
19 HOT PLUG DETECT
OPENR3413
2SC4081UBTLQQ3031
0R3388
18 +5VD30661SS400TE61
33KR3301
1KR3407
M12PWR
10KR3293
R338310K
R34102.7K1
C3261
47KR3277
P-ON+5V(1)OPENR3507
HDMI-CEC B15
IC3005(6/6)R8A05011BG-U0
*1
12 TMDS-CLOCK(-)
4 TMDS-D1(+)
8 D-SHIELD2
11 C-SHIELD0
2 D-SHIELD03 TMDS-D2(-)
10 TMDS-CLOCK(+)
7 TMDS-D0(+)6 TMDS-D1(-)
JK30041 TMDS-D2(+)
9 TMDS-D0(-)
5 D-SHIELD1
10 TMDS-CLOCK(+)
JK30021 TMDS-D2(+)
8 D-SHIELD2
4 TMDS-D1(+)3 TMDS-D2(-)
5 D-SHIELD1
12 TMDS-CLOCK(-)
7 TMDS-D0(+)
9 TMDS-D0(-)
2 D-SHIELD0
6 TMDS-D1(-)
11 C-SHIELD0
VGA-SCLVGA-SDA
HDMI SW
IC3018BU16029KV-E2123
GND
456
VCC
789
GND
101112
VCC
131415
GND
16
NU
21
22 GND
23
24
25 VCC
26
27
28 GND
29 SCL-SINK
30 SDA-SINK
31 HOT-PLUG-DETECT-SINK
32 HDMI-SEL0
33
HDMI-
SEL1
34
NU
35
HOT-PLUG-
DETECT1
36 37 38 39 40
VCC
41 42 43
GND
44 45 46
VCC
47 48
49NU
50HOT-PLUG-DETECT2
51
52
53
54
55VCC
56
57
58GND
59
60
61VCC
62
63
64HOT-PLUG-DETECT3
20
19 VCC
18
17
10KR3294
1.5KR3303
DIGITAL SIGNAL PROCESS/MAIN MICRO CONTROLLER
3
2
1
4
EE FF GG HH II JJ
CONTINUEDIGITAL 5
(BUFFER)
HDMII/F
VIDEODECODER
TO DIGITAL MAIN 3IC3005(3/6)
TO DIGITAL MAIN 2IC3005(2/6)
AUDIODECODER
(HDMI SW)
DIGITAL MAIN CBA UNIT
HDMI-CONNECTOR-2
(HDMI SERIAL EEPROM)
HDMI-CONNECTOR-1
CONTINUEDIGITAL 4
(SWITCHING)
CONTINUEDIGITAL 5
(SWITCHING)
CONTINUEDIGITAL 2
(SWITCHING)
HDMI-CONNECTOR-3
2SC4081UBTLQQ3030
(SWITCHING)
Digital Main 6 Schematic Diagram [TYPE B]
PL11.0SCDB6
The order of pins shown in this diagram is different from that of actual IC3005. IC3005 is divided into six and shown as IC3005 (1/6) ~ IC3005 (6/6) in this Digital Main Schematic Diagram Section.
1 NOTE:
10-21
TM601
TM602
1
2
C7A3 A3
TOOL NO.
1 2 3 4 5 6 7 8 9 10
RISK
OF
FIRE
-RE
PLAC
E FU
SE A
S MA
RKED
12
3
BA01F2F0102 7 A
1
2 3
4
BA01F2F0102 7 B
J124
J319
J125
J126
R402
J127J128 GND
R210
J129
R405
JS301
R406
R212
JS302
R407
JS303
J320
J322
J323
J130
J131
R601
J132
J133
R603
J134
J328
J135
R605
CN201
J136 AMP+12V
R606
J137
J139
R609
R223
J330
P-ON-H1
R224
BC841
R227
R610
R228
J141
R611
R229
J142
A-MUTE
R612
J337
J143
R613
J144
J145
J339
J146
J147
R617
J148
R618
J149
R619
J340
J341
Q871
R235
CN601
J342
Q872
R236
J343
Q873
R237
J150
J344
R620
Q874
R238
J345
J151
R621
R239
J346
J152
R622
J347
J153
R623
J154
J348
R624
J349
J155
R625
R819
J156
R626
J157
R627
J158
C204
R240
J159
CN801
CN802
R242
R243
J350
R244
TU301S
J351
R821
R245
J352J353
R247
J160
J354
J355
J161
P-ON+5V
R249
L871
J356
J162
J163
J357
J164
J358
C210
J165
J359
R635
J166
R636
J167 SPDIF
R637
R250
J168
R638
J169
R639
R253
R254
J360
J361
FH601
C601
C219
J362
C602
FH602
J363
C603
J170
J364
C604
J365
AMP+12V
C605
J172
J366
C606
J173
J367
C607
J174
J368
GND
C608
C220
J369
J175
R645
C609
JK841
J176
C222
R646
J177
C223
J178
C224
R649
C225
J370
C610
J371
C611
J372
J373
C613
J180
J374
C614
R650
J375
C615
J182
J376
J183
J377
R653
J378
J184
J185
J379
R655
J186
J187
R657
J188
GND
R658
J189
J380
J381
J382
GND
C816
J383
J384
J190
R660
J385
J191
C819
R661
J192
J386
R662
J387
R663
J194
J388
R664
J195
J389
R665
J196
R666
R667
J199
C823
J390 J391
C631
J392
C632
J393
C633
C827
J394
J395
J396
R672
R673
C637
C638
R674
J399
P-ON-H1
C639
JK871
JK872
R677
R678
C831
C832
C640
C642
C644
C645
C646
R682
C647
R683
R878
C648
D201
R685
D202
R686
D203
R687
R688
D204
D205
R689
D206
D207
C650
C844
D208
D209
C652
C653
C654 C6
55
D401
C656
C657
D403
D404
D210
D211
R695
D405
Q501
D406
D407
R701
R699
D409
D601
L301
D602
D603D410
D604
D411
D412
D606
D413
D608
D414
D415
D609
D416
D417D418
D419
D801
BC301
D802D803
D804
D610
D611
D806
D612
D613
D807
D420
D615
C675
D421
D616
C676
D617
D619
D620
D621A
IC601
D622
T601
C880
C691
136D
D632
C692
C693
D633
J200
C694
D635
J202
J203
D637
J204
D638
J205
D639
J206
J207
J209
D641 D642
D643
J210
D644
J211
D645
J212
D646
J213
D647
J214
D648
J215 D649
J216J217
J218
CL701A
91CL701B
D650
JS201
D651
OE2
JS202
JS203
D653
D654
D655
J222
J223
D657
J224
D658
J225
R501
R502
J226
J227
J228 J229
CN101
D660
D661
D662
J230
R700
D664
D665
J232
D666
J233
D667
J234
J235
CN301
CN302
J237
J238
J239
JK711
D670
D671
D673
D674
J241
D675
Q771
J242
D676
Q772
J246
JK721
JK722
J254
C303
JK731
C306
JK732
JK733
C501
J263
-7V
J264
JS630
JS631
J267
JS633
J268
J269
JK741
JK742
J278
JK751
JK752
JK753
JK754
J284
GND
J286
J288
LCD+3.3V
J289
J290
J291
J292
R763
SA601
J297
J298
J299
R771
Q201
Q202
Q203
Q204
R780
Q205
R781
Q206
Q207
Q208
Q209
D301 D302
D303
R788
Q401
Q402
Q210
Q211
Q212
R790
AC601
R791
Q601
Q603
Q604
Q801
L601
L602
C771
L801
BC601
BC602
L802
BC603
L804L803
BC802BC803
BC804J101
BC805
Q631
J102
J103
J104
AMP+12V
Q634
J105
AMP+12V
Q635
J106
Q636
J107 AMP+12V
Q637
J108
Q638
Q639
J300
J301
J303
J110
Q640
J111
Q641
J306
J112
Q642
J113
J307
J114
J115
J309
J116 GND
J117
J118
J119
R203
R204
Q841
J312
J314
J120
J315
J121
J316
J122
J317
J123
F601
4A/125V
A B C E
3
D
4
F GA B C E
3
D
4
F
CN602
HOT
A B C E
3
D
4
F
HOT
TUNERS
COLD
AGND
GND
GND
GND
GND
GND
GNDGND
GND
GND
GND
GND
GND
GND
TUNER 5V
TUNER 5V
LCD 16V
LCD
16V
LCD -6V
RESET
KEY-IN1
S-Y
V-L
P-ON 9V
SW 9V
PC-L
SW 9V
HDMI
-R
HDMI-L
COMP-L
COMP-Y
COMP-Pr
COMP-Pb
A-OUT-L
A-OUT-R
A-OUT-MUTEOE2
BL-SW
BL-SW
BL-A
DJ
VCOM-PWM 9V
GND
GND
GND
GND
GND
GND
GND
PROTECT3
BL-ADJ
AOUT-R
V-R
V-L
V-R
GND
GND
P-ON 3.3V
SEL-L
OPAMP 9V
OPAMP 9V
A-MUTE
GND
GND
GND
GND
GND
KEY-IN1
P-ON 5
V
GND
GND
PROTECT2
ALL3.3V
6.7V
GND
ALL3.3V
GND
P-ON 3
.3V
PROTECT3
P-ON-H2
PROTECT1
PC-R
GND
INPUT1
INPUT0
VT 31V
TUNER 5V
GND
GND
ALL+3.3V
SPDIF
6.7V
SEL-R
GND
GND
GND
ALL+3.3V
ALL3.3V
P-ON-H2
AOUT-L
GND
AMP 13V
LCD 16V
A-MUTE
PROTECT1
GND
GND
GND
GND
6.7V
3.5Vfor1.8V
LCD 24V
GND
LCD -6V
PROTECT1
GND
GND
GND
+6.7V
+6.7V
GND
GND
GND
GND
+15Vfor13VLCD
+15Vfor13VLCD
FB
DRIVE OUT
IS
HOT+15V
HV
GND
GND
GND
6.7V
GND
GND
GND
GND
GND
+36V
+36V
-7V
GND
GND
GND
GND
VT 31V
GND
GND
P-ON 5V
ALL3.3V
3.5Vfor1.8V
6.7V
GND
GND
LCD+16V
LCD+16V
ALL+3.3V
ALL+6.0V
LOW-VOL PROTECT
LCD+16V
PROTECT2
INV+13V
GND
GND
GND
GND
GND
GND
P-ON 3.3V
HDMI-L
ALL+3.3V
GND
GNDGND
3.5Vfor1.8V
+15Vfor13VLCD
LOW-VOL PROTECT
R697
R696
D614
Q213
C815
C801
C658
D621B
D607
D652
D659
Q643
D423
J140
P-ON 5
V
J171
R702
R691R693
R698
C403
12
1514
9
1
1 5
28
29
1
21
228
29
BA01F2F01027
Power Supply CBA & Jack CBA Top View
NOTE:The voltage for parts in hot circuit is measured usinghot GND as a common terminal.
Because a hot chassis ground is present in the power supply circuit, an isolation transformer must be used when repairing.Also, in order to have the ability to increase the input slowly, when troubleshooting this type of power supply circuit, a variable isolation transformer is required.
CAUTION !Fixed voltage (or Auto voltage selectable) power supply circuit is used in this unit.If Main Fuse (F601) is blown , check to see that all components in the power supplycircuit are not defective before you connect the AC plug to the AC power supply.Otherwise it may cause some components in the power supply circuit to fail.
For continued protection against risk of fire, replace only with same type 4 A, 125V fuse.
CAUTION ! :
ATTENTION : Utiliser un fusible de rechange de même type de 4A, 125V.4A/125V
Jack CBA Power Supply CBA
10-22
J124
J319
J125
J126
R402
J127J128GND
R210
J129
R405
JS301
R406
R212
JS302
R407
JS303
J320
J322
J323
J130
J131
R601
J132
J133
R603
J134
J328
J135
R605
CN201
J136AMP+12V
R606
J137
J139
R609
R223
J330P-ON-H1
R224
BC841
R227
R610
R228
J141
R611
R229
J142
A-MUTE
R612
J337
J143
R613
J144
J145
J339
J146
J147
R617
J148
R618
J149
R619
J340
J341
Q871
R235
CN601
J342
Q872
R236
J343Q873
R237
J150
J344
R620
Q874
R238
J345
J151
R621
R239
J346
J152
R622
J347
J153
R623
J154
J348
R624
J349
J155
R625
R819
J156
R626
J157
R627
J158
C204
R240
J159
CN801
CN802
R242
R243
J350
R244
TU301S
J351
R821
R245
J352J353
R247
J160
J354
J355
J161P-ON+5V
R249
L871
J356
J162
J163
J357
J164
J358
C210
J165
J359
R635
J166
R636
J167SPDIF
R637
R250
J168
R638
J169
R639
R253
R254
J360
J361
FH601
C601C219
J362
C602
FH602
J363
C603
J170J364
C604
J365
C605
J172
J366
C606
J173
J367
C607
J174
J368
GND
C608
C220
J369
J175
R645
C609
JK841
J176
C222
R646
J177
C223
J178
C224
R649
C225
J370
C610
J371
C611
J372
J373
C613
J180
J374
C614
R650
J375
C615
J182
J376
J183
J377
R653
J378
J184
J185
J379
R655
J186
J187
R657
J188
GND
R658
J189
J380
J381
J382GND
C816
J383
J384
J190
R660
J385
J191
C819
R661
J192
J386
R662
J387
R663
J194
J388
R664
J195
J389
R665
J196
R666
R667
J199
C823
J390
J391
C631
J392
C632
J393
C633
C827
J394
J395
J396
R672
R673
C637
C638
R674
J399
P-ON-H1
C639
JK871
JK872
R677
R678
C831
C832
C640
C642
C644
C645
C646
R682
C647
R683
R878
C648
D201
R685
D202
R686
D203
R687
R688
D204
D205
R689
D206
D207
C650
C844
D208
D209
C652
C653
C654
C655
D401
C656
C657
D403
D404
D210
D211
R695
D405
Q501
D406
D407
R701
R699
D409
D601
L301
D602
D603 D410
D604
D411
D412
D606
D413
D608
D414
D415
D609
D416
D417
D418
D419
D801
BC301
D802
D803
D804
D610
D611
D806
D612
D613
D807
D420
D615
C675
D421
D616
C676
D617
D619
D620D621A
IC601
D622
T601
C880
C691
D631
D632
C692
C693
D633
J200
C694
D635
J202
J203
D637
J204
D638
J205
D639
J206
J207
J209
D641
D642
D643
J210
D644
J211
D645
J212
D646
J213
D647
J214
D648
J215
D649
J216J217
J218
CL701A
19CL701B
D650
JS201
D651
OE2
JS202
JS203
D653
D654
D655
J222
J223
D657
J224
D658
J225
R501
R502
J226
J227
J228J229
CN101
D660
D661
D662
J230
R700
D664
D665
J232
D666
J233
D667
J234
J235
CN301
CN302
J237
J238
J239
JK711
D670
D671
D673
D674
J241
D675
Q771J242
D676
Q772J246
JK721
JK722
J254
C303
JK731
C306
JK732
JK733
C501
J263
-7V
J264
JS630
JS631
J267
JS633
J268
J269
JK741JK742
J278
JK751
JK752
JK753
JK754
J284GNDJ286
J288LCD+3.3V
J289
J290AMP+12V
J291
J292
R763
SA601
J297
J298
J299
R771
Q201
Q202
Q203
Q204
R780
Q205
R781
Q206
Q207
Q208
Q209
D301
D302
D303R788
Q401
Q402
Q210
Q211
Q212
R790
AC601
R791
Q601
Q603
Q604
Q801
L601
L602
C771
L801
BC601
BC602
L802
BC603
L803L804
BC802
BC803
BC804 J101
BC805
Q631
J102
J103
J104AMP+12V
Q634
J105AMP+12V
Q635
J106
Q636
J107
AMP+12V
Q637
J108
Q638
Q639
J300
J301
J303
J110
Q640
J111
Q641
J306
J112
Q642
J113
J307
J114
J115
J309
J116GND
J117
J118 J119
R203
R204
Q841
J312
J314
J120
J315
J121
J316
J122
J317
J123
F601
4A/125V
ABCE
3
D
4
FG ABCE
3
D
4
F
CN602
HOT
ABCE
3
D
4
F
HOT
TUNERS
COLD
A
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GNDGND
GND
TUNER 5V
TUNER 5V
LCD 16V
LCD 16V
LCD -6V
RESET
KEY-IN1
S-YV-L
P-ON 9V
SW 9V
PC-L
SW 9VHDMI-R
HDMI-L
COMP-L
COMP-Y
COMP-Pr
COMP-Pb
A-OUT-L
A-OUT-R
A-OUT-MUTE
OE2
BL-SW
BL-SW
BL-ADJ
VCOM-PWM
9V
GND
GND
GND
GND
GND
GND
GND
PROTECT3
BL-ADJ
AOUT-R
V-R
V-L
V-R
GND
GND
P-ON 3.3VSEL-L
OPAMP 9V
OPAMP 9V
A-MUTE
GND
GND
GND
GND
GND
KEY-IN1
P-ON 5V
GND
GND
PROTECT2
ALL3.3V
6.7V
GND
ALL3.3V
GND
P-ON 3.3V
PROTECT3
P-ON-H2
PROTECT1
PC-R
GND
INPUT1
INPUT0
VT 31V
TUNER 5V
GND
GND
ALL+3.3V
SPDIF
6.7VSEL-R
GND
GND
GND
ALL+3.3V
ALL3.3V
P-ON-H2
AOUT-L
GND
AMP 13V
LCD 16V
A-MUTE
PROTECT1
GND
GND
GND
GND
6.7V
3.5Vfor1.8V
LCD 24V
GND
LCD -6V
PROTECT1
GND
GND
GND
+6.7V
+6.7V
GND
GND
GND
GND
+15Vfor13VLCD
+15Vfor13VLCD
FB
DRIVE OUT
IS
HOT+15V
HV
GND
GND
GND
6.7V
GND
GND
GND
GND
GND
+36V
+36V
-7V
GND
GND
GND
GND
VT 31V
GND
GND
P-ON 5V
ALL3.3V
3.5Vfor1.8V
6.7V
GND
GND
LCD+16V
LCD+16V
ALL+3.3V
ALL+6.0V
LOW-VOL PROTECT
LCD+16V
PROTECT2
INV+13V
GND
GNDGND
GND
GND
GND
P-ON 3.3V
HDMI-L
ALL+3.3V
GND
GNDGND
3.5Vfor1.8V
+15Vfor13VLCD
LOW-VOL PROTECT
R697
R696
D614
Q213
C815
C801
C658
D621B
D607
D652
D659
Q643
D423
J140P-ON 5V
J171
R702
R691 R693
R698
C403
1 2
15 14
9
1
15
28 29
1
21
228
29R401
R403
R404
R211
R213
R214
R408
R215
R216 R217
R218
R219R604
R410
R411
R412
R607
R220
R221 R222
R225
R802
R226
R803
R804
R805
R807
R808
R809
R231
R232
R233R234
R812 R813
R814
R815
R816
R817
R818
C201
C202
C203
R241
C206
C207
R820
C208
C209
R246
R248
C402
C212C213C214
C215
1
16
8
9
IC771
C216
C217C218
R641
R642 R643
R644
C221
R647
R648
C803
C804
C805
R841
C806
R842
C807
R843
C808
R844
R651
C809
R845
R846
R652
R847
R654
R848
C810
C811
R659
C814
C817
C818
R668
C820
C821C822
C824
C825
C826 C828C829
R675R676
C830
R679
C834
C835
R871
C641
C836
R872
C643
C837
R873
C838
R680
R874
C839
R875
R681R876
R877
C649
R879
C841
C842
C843
R880
C845
C651
R881
C846
R882
R883
R884
R690
R885
R886
R887
R888
R891
R892
L302
R893
L303
R894
IC201
C871
C872
C873
C874
C681
C875
IC602
C682
C876
C683
C877
C684
C878C879
IC801
C882C883
C884
C885
R301
R302
R303
R304
R305
R306
R307
R308
R309
R310
R311
R711
R712
R713
R714
R715
R716
R721
R722
R723
R724
C301
R725
C302
R726 C304
C305
C307
C308
C309
R731
R732
R733
C310
R734
C311
R735
R736
IC871
C701
C702
C703C704
R741
R742
R743R744
R745
R746
R751R752
R753R754
R755
R756R757
R758R759
C721C722
C723
C724
R760
R761
R762
C731
C732
C733
C734C735
C736
R772
R773
R774
R775
R776
R777
R778
R779
C741
C742C743
C744
R782
R783
R784
R785
R786
R787
R789
C751C752
C753C754
C755
C756
R792
C757
R793
C758R794
R795
Q602
C761
C762C772
C773
C775
C776
R201
R202
R205
R206
R207
R208
R209
IC631
D607A
D406A
D644A
D652A
C650A
C646A
D670A
C606A
C608A
D407A
D659A
D205A
D639A
D639B
R895
R896
R409
R811
14
5 8
121
22
42
4
5 8
1
1 4
8 5
12
3
D
SG
1
23
4
BA01F2F0102 7
WF1PIN 4 OF CN302
WF3PIN 6 OF CN302
WF1PIN 4 OF CN302
WF3PIN 6 OF CN302
WF2PIN 8 OF CN302
WF7PIN 13 OF CN302
WF4PIN 15 OF CN302
WF5PIN 17 OF CN302
WF6PIN 19 OF CN302
Power Supply CBA & Jack CBA Bottom View
BA01F2F01027
Jack CBAPower Supply CBA
NOTE:The voltage for parts in hot circuit is measured usinghot GND as a common terminal.
CAUTION !Fixed voltage (or Auto voltage selectable) power supply circuit is used in this unit.If Main Fuse (F601) is blown , check to see that all components in the power supplycircuit are not defective before you connect the AC plug to the AC power supply.Otherwise it may cause some components in the power supply circuit to fail.
For continued protection against risk of fire, replace only with same type 4 A, 125V fuse.
CAUTION ! :
ATTENTION : Utiliser un fusible de rechange de même type de 4A, 125V.4A/125V
Because a hot chassis ground is present in the power supply circuit, an isolation transformer must be used when repairing.Also, in order to have the ability to increase the input slowly, when troubleshooting this type of power supply circuit, a variable isolation transformer is required.
Inverter CBA, Function CBA & IR Sensor CBA Top View
NOTE:The voltage for parts in hot circuit is measured usinghot GND as a common terminal.
Because a hot chassis ground is present in the power supply circuit, an isolation transformer must be used when repairing.Also, in order to have the ability to increase the input slowly, when troubleshooting this type of power supply circuit, a variable isolation transformer is required.
Inverter CBA, Function CBA & IR Sensor CBA Bottom View
Function CBANot Used IR Sensor CBA
Inverter CBA
NOTE:The voltage for parts in hot circuit is measured usinghot GND as a common terminal.
Because a hot chassis ground is present in the power supply circuit, an isolation transformer must be used when repairing.Also, in order to have the ability to increase the input slowly, when troubleshooting this type of power supply circuit, a variable isolation transformer is required.
WAVEFORMS
LC9NWF11-1
Input: NTSC Color Bar Signal (with 1kHz Audio Signal)
WF1 ~ WF7 = Waveforms to be observed atWaveform check points.(Shown in Schematic Diagram.)
CVBS 0.2V 20µs
WF1 Pin 4 of CN302
S-VIDEO-YS-VIDEO-Y 0.2V
WF2 Pin 8 of CN302
20µs
S-VIDEO-CS-VIDEO-C 0.2V
WF3 Pin 6 of CN302
20µs AUDIO 0.1V 0.5ms
WF7 Pin 13 of CN302
VIDEO-PrVIDEO-Pr 0.2V 20µs
Pin 19 of CN302WF6
VIDEO-Pb VIDEO-Pb 0.2V 20µs
Pin 17 of CN302WF5
VIDEO-YVIDEO-Y 0.2V 20µs
Pin 15 of CN302WF4
PL11.0WI12-1
INV
ER
TE
R C
BA
TU
301
TU
NE
R U
NIT
HD
MI-
A
UD
IO(L
)-IN
HD
MI-
A
UD
IO(R
)-IN
AU
DIO
(L)
-OU
T
AU
DIO
(R)
-OU
T
AC
601
AC
CO
RD
PO
WE
R S
UP
PLY
CB
A
DIG
ITA
L M
AIN
CB
A U
NIT
HD
MI-
CO
NN
EC
TO
R-1
HD
MI-
CO
NN
EC
TO
R-2
HD
MI-
CO
NN
EC
TO
R-3
LC
D M
OD
UL
EA
SS
EM
BLY
CL8
011
CN
801
2S
P(L
)-S
P(L
)+
CL8
021
CN
802
2S
P(R
)-S
P(R
)+
SP
801
SP
EA
KE
RL-
CH
SP
802
SP
EA
KE
RR
-CH
CO
MP
ON
EN
T-Y
-IN
CO
MP
ON
EN
T-P
b-IN
CO
MP
ON
EN
T-P
r-IN
CO
MP
ON
EN
T-
AU
DIO
(L)-
IN
CO
MP
ON
EN
T-
AU
DIO
(R)-
IN
VID
EO
-IN
AU
DIO
(L)
-IN
AU
DIO
(R)
-IN
S-V
IDE
O
-IN
CN
201
CN
1001
151
GN
D14
2IN
V+
13V
(NU
)13
3G
ND
124
BAC
KLI
GH
T-A
DJ
115
BA
CK
LIG
HT-
SW
106
PR
OT
EC
T3
97
GN
D8
8LC
D+
13V
79
LCD
+13
V6
10V
GH
511
GN
D4
12P
-ON
+3.
3V3
13LC
D-5
V2
14V
CO
M1
15G
ND
BA
CK
LIG
HT
CN
1100
21
BA
CK
LIG
HT
CN
1101
21
BA
CK
LIG
HT
CN
1102
21
DIG
ITA
L A
UD
IO-O
UT
(C
OA
XIA
L)
JAC
K C
BA
IR S
EN
SO
R C
BA
FU
NC
TIO
N C
BA
CL7
01A
CL7
01C
L701
B1
1S
-VID
EO
-Y-I
N
33
S-V
IDE
O-C
-IN
22
S-V
IDE
O-S
W
44
GN
D5
5V
IDE
O-I
N
77
AU
DIO
(L)-
IN6
6G
ND
88
GN
D9
9A
UD
IO(R
)-IN
CL1
02C
L103
CN
101
11
GN
D
33
AL+
3.3V
22
RE
MO
TE
44
KE
Y-IN
15
5P
-ON
+9V
CL1
02B
CL1
03B
CL1
03A
33
KE
Y-IN
14
4K
EY-
IN2
22
GN
D1
1A
L+3.
3V
CN
1003 11
GN
D10
VC
OM
9G
ND
8LC
D-5
V7
P-O
N+
3.3V
6P
-ON
+3.
3V5
GN
D4
VG
H3
LCD
+13
V2
LCD
+13
V1
GN
D
CN
3902
24G
ND
23LL
V0(
+)
22LL
V0(
-)21
LLV
1(+
)20
LLV
1(-)
19LL
N2(
+)
18LL
V2(
-)17
GN
D16
LLV
CLK
(+)
15LL
VC
LK(-
)14
GN
D13
LLV
3(+
)12
LLV
3(-)
11LL
V4(
+)
10LL
V4(
-)9
LLV
5(+
)8
LLV
5(-)
7G
ND
6T
P5
PO
L4
CP
V3
OE
12
XA
O1
ST
V
CN
3701
CN
301
2319 2115 17 222018161410 126 8 13119751 3 4
1 53 972 4 6 8 10 1412 181611 13 15 17 19 232120
2P
-ON
-H2
AU
DIO
(L)-
OU
TG
ND
AU
DIO
(R)-
OU
TP
RO
TE
CT
3A
MP
(L)-
OU
TG
ND
AM
P(R
)-O
UT
P-O
N-H
1P
-ON
+3V
PR
OT
EC
T1
GN
DP
-ON
+5V
P-O
N+
5VP
RO
TE
CT
2P
-ON
+7V
GN
DG
ND
P-O
N+
3.3V
P-O
N+
3.3V
AL+
3.3V
AL+
3.3V
GN
D22
2424
OE
225
25R
EM
OT
E26
26B
ACK
LIG
HT-
SW
2727
LED
1(N
U)
2828
BAC
KLI
GH
T-A
DJ
2929
VC
OM
-PW
M
CN
3702
CN
302
2319 2115 17 222018161410 126 8 13119751 3 4
1 53 972 4 6 8 10 1412 181611 13 15 17 19 232120
2G
ND
SP
DIF
GN
DV
IDE
O-I
NS
-VID
EO
-SW
S-V
IDE
O-C
-IN
GN
DS
-VID
EO
-Y-I
NG
ND
INP
UT
1A
UD
IO(R
)IN
PU
T0
AU
DIO
(L)
GN
DC
OM
-VID
EO-Y
-ING
ND
COM
-VID
EO-P
b-IN
GN
DCO
M-V
IDEO
-Pr-I
NA
UD
IO-M
UT
ES
DA
SC
LR
ES
ET
22
2424
IF-A
GC
2525
GN
D26
26D
IF-O
UT
127
27G
ND
2828
DIF
-OU
T2
2929
KE
Y-IN
1
CN
602
CN
1901
4H
OT
+15
V3
HO
T-G
ND
2N
U1
+B
3H
OT
+15
V2
HO
T-G
ND
1+
B
CL3
701
CL2
01
CL1
003
CL3
902
CL3
702
US
B J
AC
K
CN
3002
CN
3006
[TY
PE
A]
[TY
PE
B]
[TY
PE
A]
[TY
PE
B]
CN
3005
[TY
PE
A]
[TY
PE
B]
WIRING DIAGRAM
13-1 PL11.0-A_CEX
EXPLODED VIEWS
Cabinet
A42
See Electrical Parts Listfor parts with this mark.
Digital Main CBA Unit
IR Sensor CBA
Power Supply CBA
Function CBA
A1
B27
L19
LCD1B27
A5
A4
L19B1
B18B18
CL3902
L19
L17
L33
A2S6
L33
L33
L33
L33
L23
B11
L19
A8
L23
B24
CL801
CL802
L19
CL3702
CL1003
CL201
X6
B22
L1
B22
L1
S6
L23
S6A12L15
Stand Assembly
B5
X7
A15
A41
L42
SP801
SP802
L34
L19
L1
Inverter CBA
Jack CBA
L17
B34
B34
AC601
B46
CL3701
32PFL3506/F7 (DS1, XA1),32PFL3000/F8 (XA1)
32PFL3506/F7 (DS2, DS3),32PFL3000/F8 (XA2)
32PFL3506/F7 (DS2, DS3), 32PFL3000/F8 (XA2)
13-2 PL11.0PEX
Packing
FRONT
X1
X14 X2
Tape
X12
S17
S3
S1
S7
S4
Packing Tape
Stand Assembly
Stand Screw Kit
S5
CARTON
Packing Tape
X4
X3
S6
Tape
32PFL3506/F7 (XA1)
2011/10/31 14-1 A17F6CA.fm
TYPE A
PARTS LIST[32PFL3506/F7 (Serial No.: DS1), 32PFL3000/F8 (Serial No.: XA1)]
Mechanical Parts
PRODUCT SAFETY NOTE: Products marked with a # have special characteristics important to safety. Before replacing any of these components, read carefully the product safety notice in this service manual. Don't degrade the safety of the product through improper servicing.
NOTE: Parts that are not assigned part numbers (---------) are not available.
PRODUCT SAFETY NOTE: Products marked with a # have special characteristics important to safety. Before replacing any of these components, read carefully the product safety notice in this service manual. Don't degrade the safety of the product through improper servicing.
NOTES:
1. Parts that are not assigned part numbers (---------) are not available.
2. Tolerance of Capacitors and Resistors are noted with the following symbols.
DIGITAL MAIN CBA UNIT
MPW CBA
POWER SUPPLY CBA
C.....±0.25% D.....±0.5% F.....±1%
G.....±2% J......±5% K.....±10%
M.....±20% N.....±30% Z.....+80/-20%
Ref. No. Description Part No.
DIGITAL MAIN CBA UNIT A17F6MMA-003
Ref. No. Description Part No.
MPW CBAConsists of the following:
A17F6MPW-001
POWER SUPPLY CBA(MPW-A)JACK CBA(MPW-B)
--------------------
Ref. No. Description Part No.
POWER SUPPLY CBA(MPW-A)Consists of the following:
----------
CAPACITORSC201 CHIP CERAMIC CAP.(1608) F Z 0.1µF/25V CHD1EZ30F104
C202 CHIP CERAMIC CAP.(1608) F Z 0.1µF/25V CHD1EZ30F104
C203 CHIP CERAMIC CAP.(1608) F Z 0.1µF/25V CHD1EZ30F104
C204 ELECTROLYTIC CAP. 2.2µF/50V M CE1JMASDL2R2
C207 CHIP CERAMIC CAP.(1608) B K 0.1µF/16V CHD1CK30B104
When you replace one of the below Trans Inverters on this CBA, please replace with the one that has same parts number.Do not mix different parts number’s Trans Inverter.
T1100# TRANS INV TZ.7617A.101 LTZ3PZDAR014
T1101# TRANS INV TZ.7617A.101 LTZ3PZDAR014
T1102# TRANS INV TZ.7617A.101 LTZ3PZDAR014
or
T1100# TRANS INV HVT-325 LTZ3PZ0XB018
T1101# TRANS INV HVT-325 LTZ3PZ0XB018
T1102# TRANS INV HVT-325 LTZ3PZ0XB018
Ref. No. Description Part No.
2011/10/31 14-9 A17F6EL.fm
FUNCTION CBA
IR SENSOR CBA
Ref. No. Description Part No.
FUNCTION CBAConsists of the following:
----------
CAPACITORC108 CAP CERAMIC (AX) 0.1µF/50V/F/Z CA1J104TU062
RESISTORSR108 RES CARBON FILM T 1/4W J 220 Ω RCX4221T1001
R109 RES CARBON FILM T 1/4W G 10k Ω RCX4103T1002
R111 RES CARBON FILM T 1/4W G 4.7k Ω RCX4472T1002
R112 RES CARBON FILM T 1/4W G 2.7k Ω RCX4272T1002
R113 RES CARBON FILM T 1/4W G 4.7k Ω RCX4472T1002
R114 RES CARBON FILM T 1/4W G 8.2k Ω RCX4822T1002
R115 RES CARBON FILM T 1/4W G 18k Ω RCX4183T1002
SWITCHESSW101B TACT SWITCH SKQSAB SST0101AL038
SW103B TACT SWITCH SKQSAB SST0101AL038
SW104B TACT SWITCH SKQSAB SST0101AL038
SW105B TACT SWITCH SKQSAB SST0101AL038
SW106B TACT SWITCH SKQSAB SST0101AL038
SW107B TACT SWITCH SKQSAB SST0101AL038
Ref. No. Description Part No.
IR SENSOR CBAConsists of the following:
----------
CAPACITORSC101 ELECTROLYTIC CAP. 47µF/16V M H7 CE1CMAVSL470
PRODUCT SAFETY NOTE: Products marked with a # have special characteristics important to safety. Before replacing any of these components, read carefully the product safety notice in this service manual. Don't degrade the safety of the product through improper servicing.
NOTE: Parts that are not assigned part numbers (---------) are not available.
Different parts from the original model 32PFL3506/F7 (Serial No. : DS1)
Ref. No. Description Part No.
A12# RATING LABEL A17FCMA ----------
S1 CARTON A17FCMA 1EM436099
S17 CARTON LABEL A17FCMA ----------
X2# OWNERS MANUAL A17FCMA 1EMN28539
2011/11/22 14-11 A17FCEL.fm
Electrical Parts
PRODUCT SAFETY NOTE: Products marked with a # have special characteristics important to safety. Before replacing any of these components, read carefully the product safety notice in this service manual. Don't degrade the safety of the product through improper servicing.
NOTES:
1. Parts that are not assigned part numbers (---------) are not available.
2. Tolerance of Capacitors and Resistors are noted with the following symbols.
Different parts from the original model 32PFL3506/F7 (Serial No. : DS1)
There are no different parts from the original model 32PFL3506/F7 (Serial No : DS1).Refer to the parts list for the original model 32PFL3506/F7 (Serial No : DS1).
C.....±0.25% D.....±0.5% F.....±1%
G.....±2% J......±5% K.....±10%
M.....±20% N.....±30% Z.....+80/-20%
2011/10/31 14-12 A17FGCA.fm
TYPE B
PARTS LIST[32PFL3506/F7 (Serial No.: DS2), 32PFL3000/F8 (Serial No.: XA2)]
Mechanical Parts
PRODUCT SAFETY NOTE: Products marked with a # have special characteristics important to safety. Before replacing any of these components, read carefully the product safety notice in this service manual. Don't degrade the safety of the product through improper servicing.
NOTE: Parts that are not assigned part numbers (---------) are not available.
Different parts from the original model 32PFL3506/F7 (Serial No. : DS1)
Ref. No. Description Part No.
A8 JACK HOLDER A17FGUH 1EM226563
A15 Not used
A42 ENERGY GUIDE LABEL A17F6UH ----------
B1 SHIELD BOX A17F4UH 1EM225624
S1 CARTON A17FGUH 1EM436857
X2# OWNERS MANUAL A17FGUH 1EMN28819
X6 QUICK START GUIDE A17FGUH 1EMN28820
2011/10/31 14-13 A17FGEL.fm
Electrical Parts
PRODUCT SAFETY NOTE: Products marked with a # have special characteristics important to safety. Before replacing any of these components, read carefully the product safety notice in this service manual. Don't degrade the safety of the product through improper servicing.
NOTES:
1. Parts that are not assigned part numbers (---------) are not available.
2. Tolerance of Capacitors and Resistors are noted with the following symbols.
Different parts from the original model 32PFL3506/F7 (Serial No. : DS1)
C.....±0.25% D.....±0.5% F.....±1%
G.....±2% J......±5% K.....±10%
M.....±20% N.....±30% Z.....+80/-20%
Ref. No. Description Part No.
DIGITAL MAIN CBA UNIT A17FGMMA-001
MPW CBA A17FGMPW-001
POWER SUPPLY CBA(MPW-A) ----------
C403 ELECTROLYTIC CAP. 10µF/50V M CE1JMASDL100
C606 Not used
C606A CHIP CERAMIC CAP. B K 1500pF/50V CHD1JK30B152
C608 Not used
C608A CHIP CERAMIC CAP.(1608) B K 1000pF/50V CHD1JK30B102
C646 Not used
C646A CHIP CERAMIC CAP. B K 2200pF/50V CHD1JK30B222
C650 Not used
C650A CHIP CERAMIC CAP.(1608) B K 0.022µF/50V CHD1JK30B223