Funai LH7-M32BB Schematic

SERVICE MANUAL

This Service Manual is for the LH7-M32BB (A93F0FP) / LH7-M32BB (A93F2EP) model. For the LH7-M32BB (A93F0FP) / LH7-M32BB (A93F2EP) model, the letter (A93F0FP) / (A93F2EP) is printed on the Serial Number Label on the back of the unit. Refer to the Serial Number Label below.

Serial No. Label Serial No. Label

"A93F0FP" "A93F2EP"

32″ COLOR LCD TELEVISION

LH7-M32BB

32″ COLOR LCD TELEVISION

LH7-M32BB

TABLE OF CONTENTS

Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1

Important Safety Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1

Standard Notes for Servicing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1

Cabinet Disassembly Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1

Electrical Adjustment Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1

How to Initialize the LCD Television. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1

Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1

Block Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1

Schematic Diagrams / CBA and Test Points . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1

Waveforms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-1

Wiring Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-1

Exploded View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-1

Mechanical Parts List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-1

Electrical Parts List. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-1

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.

SPECIFICATIONS

< TUNER >

VHS/UHF Input ----------- 75Ω unbal., IEC Connector Center IF ------------------- SECAM-L 38.9MHz, SECAM-L’ 33.9MHz

Description Condition Unit Nominal Limit

1. Video S/N 80 dB --- 40

2. Audio S/N --- dB --- 40/40

< LCD PANEL >

Description Condition Unit Nominal Limit

1. Number of Pixels

2. Viewing Angle

<DVB-T>

Description Condition Unit Nominal Limit

RECEIVED FREQ.RANGE (-60dBm, 45ch.) *1, *2

2. INPUT DYNAMIC RANGE (mix./max)

3. C/N PERFORMANCE

(-50dBm)

4. MULTIPATH (-50dBm)

a. Performance with

short delay echoes

b. Performance with

long delay echoes

Horizontal

Ver t i cal

Horizontal

Ver t i cal

c:*1 VHF HIGH 8ch.

UHF 45ch.

d:*2 VHF HIGH 8ch.

UHF 45ch.

c:*1 VHF HIGH 8ch.

UHF 45ch.

d:*2 VHF HIGH 8ch.

UHF 45ch.

c:*3 d:*4 c:*3 d:*4

pixels pixels

kHz kHz

dBuV dBuV

dB dB

dB dB dB dB

1366

768

° °

-88 to 88

1000

900

25/101 25/101

18/101 18/101

15 15

11 11

18.7

14.0

19.1

13.0

---

500 167

28/98 29/98

21/98 21/98

≦18 ≦18

≦14 ≦14

≦23 ≦20 ≦23 ≦18

*1: modulation parameters = [8k 64QAM CR=2/3 GI=1/32] *2: modulation parameters = [8k 16QAM CR=3/4 GI=1/8] *3: modulation parameters = [2k 64QAM CR=2/3 GI=1/32] *4: modulation parameters = [2k 16QAM CR=3/4 GI=1/32]

< VIDEO >

Description Condition Unit Nominal Limit

1. Over Scan

2. Color Temperature

3. Resolution

4. Brightness AT 100% WHITE FIELD cd/m

Horizontal

Ver t i cal

AT 70% WHITE FIELD

x y

Horizontal

Ver t i cal

1-1 A93F0SP

line line

% %

°K 9200

5 5

0.286

0.295

400 350

300 ---

---

--±0.008 ±0.008

---

< AUDIO >

All items are measured across 16 Ω load at speaker output terminal.

Description Condition Unit Nominal Limit

1. Audio Output Power 10% THD: Lch/Rch W 5.0/5.0 4.0/4.0

2. Audio Distortion 500mW: Lch/Rch % 1.5/1.5 3.0/3.0

3. Audio Freq. Response

6dB: Lch

6dB: Rch

Hz Hz

70 to 10 k 70 to 10 k

---

4. Audio S/N Lch/Rch dB ---

Note: Nominal specifications represent the design specifications. All units should be able to approximate these.

Some will exceed and some may drop slightly below these specifications. Limit specifications represent the absolute worst condition that still might be considered acceptable. In no case should a unit fail to meet limit specifications.

≧45/45

1-2 A93F0SP

IMPORTANT SAFETY PRECAUTIONS

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 Circuit

1. 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 LCD module 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 230 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.

READING SHOULD NOT BE ABOVE 0.5 mA

LEAKAGE

DEVICE

BEING

TESTED

TEST ALL EXPOSED METAL SURFACES

ALSO TEST WITH PLUG REVERSED USING AC ADAPTER PLUG AS REQUIRED

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 LCD module.

3. Design Alteration Warning - Do not alter or add to the mechanical or electrical design of this LCD 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.

CURRENT

TESTER

EARTH GROUND

2-1 LTVP_ISP

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.

2-2 LTVP_ISP

Precautions during Servicing

A. 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

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.

2-3 LTVP_ISP

Safety Check after Servicing

Examine 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

AC Line Voltage Clearance Distance (d), (d’)

220 to 240 V

Note: This table is unofficial and for reference only. Be sure to confirm the precise values.

≥ 3mm(d)

≥ 8mm(d’)

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.).

Chassis or Secondary Conductor

Primary Circuit

d' d

Exposed Accessible Part

AC Voltmeter (High Impedance)

Fig. 1

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

AC Line Voltage Load Z Leakage Current (i)

2kΩ RES.

Connected in

parallel

220 to 240 V

50kΩ RES.

Connected in

parallel

Note: This table is unofficial and for reference only. Be sure to confirm the precise values.

i≤0.7mA AC Peak

i≤2mA DC

i≤0.7mA AC Peak

i≤2mA DC

One side of

Power Cord Plug Prongs

One side of power cord plug

prongs (B) to:

Antenna terminals

A/V Input, Output

Fig. 2

RF or

2-4 LTVP_ISP

STANDARD NOTES FOR SERVICING

Circuit Board Indications

1. The output pin of the 3 pin Regulator ICs is indicated as shown.

Top View

Out

2. For other ICs, pin 1 and every fifth pin are indicated as shown.

Pin 1

3. The 1st pin of every male connector is indicated as shown.

Pin 1

Input

Bottom View

Pb (Lead) Free Solder

Pb 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.

Pb free mark

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)

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)

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.

Hot-air Flat Pack-IC Desoldering

CBA

Masking Tape

Tweezers

3-1 TVP_SN

Machine

Flat Pack-IC

Fig. S-1-2

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)

Flat Pack-IC

Desoldering Braid

Soldering Iron

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)

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.

Sharp Pin

Fine Tip Soldering Iron

4. Release the flat pack-IC from the CBA using tweezers. (Fig. S-1-6)

Fig. S-1-4

To Solid Mounting Point

CBA

Hot Air Blower

Iron Wire

Soldering Iron

Fig. S-1-5

Fine Tip Soldering Iron

Flat Pack-IC

Tweezers

Fig. S-1-6

3-2 TVP_SN

2. Installation

1. 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 “●” 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.

Example :

Pin 1 of the Flat Pack-IC is indicated by a " " mark.

Fig. S-1-7

Instructions for Handling Semiconductors

Electrostatic 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.

CBA

Presolder

Flat Pack-IC

Fig. S-1-8

1MΩ

CBA

Grounding Band

1MΩ

CBA

Conductive Sheet or Copper Plate

3-3 TVP_SN

CABINET DISASSEMBLY INSTRUCTIONS

1. Disassembly Flowchart

This flowchart indicates the disassembly steps for the cabinet parts, and the CBA in order to gain access to item(s) to be serviced. When reassembling, follow the steps in reverse order. Bend, route and dress the cables as they were.

[1] Stand

Assembly

[11] Junction CBA

[2] Rear Cabinet

[3] Inverter CBA

[4] Tuner Shield

[5] Power Supply CBA

[6] Jack Holder

[7] Shield Box

[8] Digital Main CBA Unit

[14] LCD Module Assembly

[9] Speaker Holder(s) [L,R]

[10] Speaker(s)

[12] IR Sensor CBA

[13] Function CBA

Removal

Step/

Loc.

No.

Part

Fig.

Remove/*Unhook/

Unlock/Release/

No.

Unplug/Unclamp/

Note

Desolder

3(S-10), 2(S-11),

[7] Shield Box D2

5(S-12), 2(H-1), *CN3901

Digital Main

[8]

CBA UnitD2D4

2(S-13), Connector IC Card OSU

Speaker

[9]

Holder(s)

D3 8(S-14), *Hook ---

[L,R]

[10] Speaker(s) D3 --------------- ---

[11]

[12]

[13]

Junction CBA

IR Sensor CBA

Function CBA

Desolder ---

2(S-15), *CL103A ---

3(S-16) ---

LCD

[14]

Module

D3 (S-17) ---

Assembly

Front

[15]

↓

(1)

Cabinet

↓

(2)

D3 --------------- ---

↓

(3)

↓

(4)

---

↓

(5)

[15] Front Cabinet

2. Disassembly Method

Removal

Step/

Loc.

Part

No.

Stand

[1]

Assembly

Rear

[2]

Cabinet

Inverter

[3]

CBA

Tuner

[4]

Shield

Power

[5]

Supply CBA

[6] Jack Holder D2 2(S-9) ---

Remove/*Unhook/

Fig.

No.

Unlock/Release/

Unplug/Unclamp/

Desolder

D1 4(S-1) ---

13(S-2), 2(S-3),

3(S-4), (S-5)

6(S-6), *CN1001,

*CN1003, *CN1050,

*CN1100, *CN1150, *CN1200, *CN1900

D2 2(S-7) ---

6(S-8), *CN101, *CN401, *CN402,

*CN403, *CN404,

*CN801, *CN802, Jack Holder (HP)

Note

---

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. N = Nut, L = Locking Tab, S = Screw, H = Hex Screw, CN = Connector * = Unhook, Unlock, Release, Unplug, or Desolder e.g. 2(S-2) = two Screws (S-2), 2(L-2) = two Locking Tabs (L-2)

(5) Refer to the following "Reference Notes in the

Ta bl e ."

4-1 A93F0DC

(S-4)

(S-2)

[2] Rear Cabinet

[1] Stand Assembly

(S-5)

(S-2)

(S-4)

(S-2)

(S-3)

(S-2)

(S-1)

Fig. D1

4-2 A93F0DC

(S-12)

[3] Inverter CBA

(S-6)

[5] Power Supply CBA

Jack Holder (HP)

Connector IC Card OSU

(S-13)

[8] Digital Main CBA Unit

(S-9)

[7] Shield Box

(S-10)

[6] Jack Holder

(H-1)

(S-11)

(S-8)

(S-7)

[4] Tuner Shield

Fig. D2

4-3 A93F0DC

[15] Front Cabinet

[14] LCD Module Assembly

Hook

[11] Junction CBA

(S-14)

[10] Speaker

[9] Speaker Holder [L]

(S-17)

Hook

[9] Speaker Holder [R]

[12] IR Sensor CBA

(S-15)

(S-14)

[10] Speaker

[13] Function CBA

(S-16)

Fig. D3

4-4 A93F0DC

TV Cable Wiring Diagram

Digital Main CBA Unit

CN3704

CN3401

CN3702

CN3703

CN3701

CN3901

To LCD Module Assembly

IR Sensor CBA

CL102B

CL103A

Power Supply CBA

CN401

CN404

CN403

CN402

CN101

Junction CBA

CN801

CN1901 CL102A

CN802

To Speaker

Function CBA

CL103B

CN405

CN600

AC CORD

Inverter CBA

CN1001

CN1900

CN1003

To LCD Module Assembly

CN1050

CN1100

CN1150

CN1200

Fig. D4

4-5 A93F0DC

ELECTRICAL ADJUSTMENT INSTRUCTIONS

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 Required

1. DC Voltmeter

2. Pattern Generato

3. Color Analyzer

How to make the Service remote control unit:

Cut “A” portion of the attached remote control unit as shown in Fig. 1.

service button

1. Purity Check Mode

This 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 pressing [7] button on the service remote control unit, the display changes as follows.

Purity Check Mode

White mode

[7] button

Black mode

Fig. 1

How to set up the service mode:

Service mode:

1. Use the service remote control unit.

2. Turn the power on.

3. Press the service button on the service remote control unit as shown in Fig.1.

[7] button

Red mode

[7] button

Green mode

[7] button

Blue mode

[7] button

White 20% mode

Note:

When entering this mode, the default setting is White mode.

5-1 A93F0EA

2. VCOM Adjustment.

4. Auto Calibration [PC]

Test Point

Screen

M. EQ. Spec.

Color analyzer

Figure

To avoid interference from ambinent light, this adjustment should be performed in a dark room.

Perpendicularity

L = 3 cm

Color Analyzer

1. Operate the unit for more than 20 minutes.

2. Set the color analyzer and bring the optical receptor to the center on the LCD-Panel surface after zero point calibration as shown above. Note: The optical receptor must be set perpendicularly to the LCD Panel surface.

3. Enter the Service mode.

4. Press [3] button on the service remote control unit.

5. Press [P / ] buttons on the service remote control unit so that the color analyzer value becomes minimum.

Adj. Point

[P / ]

buttons

See below

Purpose: To bring the color adjustment of PC into standard alignment.

Symptom of Misadjustment: If this adjustment is incorrect, PC signals do not reproduce the corresponding color.

1. Input SVGA 100% White signal.

2. Enter the service mode.

3. To enter the Auto Calibration adjustment mode, press [5] button on the service remote control unit.

4. To start auto adjustment, press [P ] button on the service remote control unit.

- In the auto adjustment mode, “Calibration Check”

appears on the screen.

- Upon completion, “OK” appears on the screen.

3. Auto Calibration [Component]

Purpose: To bring the color adjustment of each

component into standard alignment.

Symptom of Misadjustment: If this adjustment is incorrect, component signals do not reproduce the corresponding color.

1. Input 720P 100% Color Bar signal.

2. Enter the service mode.

3. To enter the Auto Calibration adjustment mode, press [6] button on the service remote control unit.

4. To start auto adjustment, press [P ] button on the service remote control unit.

- In the auto adjustment mode, “Calibration Check”

appears on the screen.

- Upon completion, “OK” appears on the screen.

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The following adjustment normally are not attempted in the field. Only when replacing the LCD Panel then adjust as a preparation.

5. White Balance Adjustment

[Video/Component/PC]

Purpose: To mix red, green and blue beams correctly

for pure white.

Symptom of Misadjustment: White becomes bluish or reddish.

Test Point

Screen

Adj. Point Mode Input

[P / ]

buttons

M. EQ. Spec.

[VIDEO]

C/D

White Raster

(APL 70%)

(APL 40%)

4. Enter the Service mode. Press [ -] button on the service remote control unit and select “C/D” mode.

5. [CUTOFF] Press [3] button to select “COB” for Blue Cutoff adjustment. Press [1] button to select “COR” for Red Cutoff adjustment.

[DRIVE]

Press [6] button to select “DB” for Blue Drive adjustment. Press [4] button to select “DR” for Red Drive adjustment.

6. In each color mode, press [P / ] buttons to adjust the values of color.

7. Adjust Cutoff and Drive so that the color temperature becomes 9200°K (x ±0.005).

8. Change the video signal input in step 2 and repeat from step 3.

0.286 / y= 0.295

Pattern Generator,

Color analyzer

Figure

To avoid interference from ambinent light, this adjustment should be performed in a dark room.

Perpendicularity

L = 3 cm

INPUT: WHITE 70%, 40%

1. Operate the unit for more than 20 minutes.

2. [VIDEO input] Input the White Raster (70%=70IRE, 40%=40IRE). [Component input] Input the 720P White Raster (70%=70IRE, 40%=40IRE). [PC input] Input the SVGA White Raster (70%=70IRE, 40%=40IRE).

x= 0.286 ± 0.005 y= 0.295 ± 0.005

Color Analyzer

INPUT SIGNAL

40%=40IRE

3. Set the color analyzer to the CHROMA mode and bring the optical receptor to the center on the LCD-Panel surface after zero point calibration as shown above. Note: The optical receptor must be set perpendicularly to the LCD Panel surface.

70%=70IRE

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HOW TO INITIALIZE THE LCD TELEVISION

How to initialize the LCD television:

1. Turn the power on.

2. To enter the service mode, press the service button on the service remote control unit. (Refer to page 5-1.)

- To cancel the service mode, Press [ ] button on

the remote control unit.

3. Press [ ] button on the service 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 complete.

6-1 A93F0INT

FLOW CHART NO.1

The power cannot be turned on.

TROUBLESHOOTING

Is the fuse (F601) normal?

Ye s

Is normal state restored when once unplugged power cord is plugged again several seconds?

Ye s

Is the P-ON+5V line voltage normal?

Ye s

Check each rectifying circuit of the secondary circuit and service it if defective.

FLOW CHART NO.2

The fuse blows out.

Check the presence that the primary component is leaking or shorted and service it if defective.

After servicing, replace the fuse (F601).

FLOW CHART NO.3

When the output voltage fluctuates.

See FLOW CHART No.2 <The fuse blows out.>

Check if there is any leak or short-circuiting on the primary circuit component, and service it if defective. (IC607, Q601, Q602, D609, D610, D611, D612, T601, R601)

Check the presence that the rectifying diode or circuit is shorted in each rectifying circuit of secondary side, and service it if defective.

Does the photocoupler circuit on the secondary side operate normally?

Ye s

Check IC607, D614, D615 and their periphery, and service it if defective.

FLOW CHART NO.4

When buzz sound can be heard in the vicinity of power circuit.

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. (D504, D511, D514, D523, D524, D525, D539, Q405, Q

Check IC607, Q513, Q522 and their periphery, and service it if defective.

501, Q503, Q509, Q510, Q517, Q518, Q521)

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FLOW CHART NO.5

INV+16V is not output.

Is approximately 16V voltage supplied to the collector of Q501?

Ye s

Is approximately 16V voltage supplied to the base of Q501?

Ye s

Replace Q501.

FLOW CHART NO.6

AL+3.3V is not output.

Is approximately 7V voltage supplied to the collector of Q521?

Ye s

Is approximately 4V voltage supplied to the base of Q521?

Ye s

Replace Q521.

Check D504, D505, C503 and their periphery circuit, and service it defective.

Check D506, D507 and their periphery circuit, and service it defective.

Check D525, C516 and their periphery circuit, and service it if defective.

Check D552 and their periphery circuit, and service it if defective.

FLOW CHART NO.7

P-ON+5V is not output.

Is approximately 7V voltage supplied to the collector of Q518?

Ye s

Is approximately 6V voltage supplied to the base of Q518?

Ye s

Replace Q518.

Check D525, C516 and their periphery circuit, and service it if defective.

Check Q520, D543 and their periphery circuit, and service it if defective.

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FLOW CHART NO.8

LCD+24V is not output.

Is approximately 36V voltage supplied to the cathode of D514?

Ye s

Is approximately 36V voltage outputted to the collector of Q504?

Is approximately 24V voltage supplied to the emitter of Q405?

Ye s

Check Q404, Q405 and their periphery circuit, and service it if defective.

FLOW CHART NO.9

LCD+16V is not output.

Is approximately 16V voltage supplied to the cathode of D504?

Ye s

Is approximately 16V voltage supplied to the base of Q503?

Ye s

Replace Q503.

Ye s

Check D514, D516, C511 and their periphery circuit, and service it if defective.

Check Q504, Q505, P-ON-H1 line and their periphery circuit, and service it if defective.

Check D508, D512 and their periphery circuit, and service it if defective.

Check D504, D505, C503 and their periphery circuit, and service it if defective.

Check D506, D507 and their periphery circuit, and service it if defective.

FLOW CHART NO.10

LCD-6.8V is not output.

Is approximately -7V voltage supplied to the anode of D522?

Ye s

Is approximately -6V voltage supplied to the base of Q509?

Ye s

Replace Q509.

Check D522, C514 and their periphery circuit, and service it if defective.

Check D513, R530 and their periphery circuit, and service it if defective.

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