Sony kdl 32ex301 kdl 32ex500 kdl 46ex400 kdl 32ex400 kdl 40ex500 kdl 46ex500 kdl 40ex400 kdl 40ex501 by Portal da Eletrônica

Training Manual

KDL-40EX500

Models: AZ1K Chassis KDL-32EX301 KDL-32EX500 KDL-32EX400 KDL-40EX500 KDL-40EX400 KDL-40EX501 KDL-40EX401

Triage and Troubleshooting Guide Course: CTV-61

KDL-46EX400 KDL-46EX500 KDL-46EX501

Table of Contents Section 1 - AZ1K Chassis Models Overview ..................... 3

Normal Operation .............................................................. 12

AZ1K Chassis Models Covered....................................... 5 Model Introduction ........................................................... 5 AV Input & Output Descriptions ....................................... 5

Failure Symptoms .............................................................. 12 No Power/Dead Set (No RED Standby LED) .............. 12

HDMI/DVI Video Input and DVI Video ................................. 6

32” & 40” Power Supply System Block Diagram ........... 14 G2LE-Board & G2HE-Board Connector Diagram ......... 15 46” Power Supply System Block Diagram ..................... 16 GD2-Board Connector Diagram .................................... 17 Protection Mode Symptom Troubleshooting.................. 18

PC Video & Audio Input (and DVI Audio) ............................. 6

Failure Symptoms .............................................................. 18

USB 2.0 Side Connection - Photos & Music ........................ 6

2X Blink - Main Power Error ........................................ 18

Audio Outputs .................................................................. 7

3X Blink- Audio Error ................................................... 18

Fixed Analog Audio Output .................................................. 7

4X Blink - Balancer Failure (46” Models ONLY) .......... 19

Digital Audio Output (Optical) .............................................. 7

5X Blink - TCON & HFR Failure .................................. 19

32’” & 40” Models Overall PCB Block Diagram ............... 8 46” Models Overall PCB Block Diagram.......................... 9

6X Blink - Backlight System Failure (32” & 40” Models)19

PCB and Component Descriptions ................................ 10

7X Blink - Temperature Failure .................................... 20

RF Input ............................................................................... 5 Composite Video & Audio Inputs ......................................... 5 Component/Composite Video & Audio Inputs...................... 6

A-Board ............................................................................. 10 G2LE-Board (32") or G2HE-Board (40")............................ 10 GD2-Board (46") ................................................................ 10 Backlight Inverter Board (32" & 40") .................................. 10 H2-Board ........................................................................... 10 Switch Unit ......................................................................... 10

6X Blink - Backlight System Failure (46” Models) ........ 19

32” & 40” Models Protection Mode System Block Diagram 21 46” Models Protection Mode System Block Diagram .... 22 All Models Power Board Protection Circuits Block Diagram........................................................................... 23 Video Symptom Troubleshooting ................................... 24

LCD Panel Assembly ..........................................................11

Normal Operation .............................................................. 24

Section 2 - Troubleshooting Procedures ......................... 12 Power Symptom Troubleshooting.................................. 12

Missing or Distorted Video (Individual Inputs) ................... 24

CTV-61

Troubleshooting ................................................................. 24 Missing Video (All Inputs) .................................................. 25

Table of Contents

Skewing LVDS Connector Troubleshooting Method .... 25

chart ........................................................................... 35

Distorted Video (All Inputs) ................................................ 25

Protection Mode 6X(46”) & 7X Troubleshooting Flowchart 36 Video Troubleshooting Flowchart .................................. 37 Audio Troubleshooting Flowchart .................................. 38

WIDE Mode Button (Aspect Ratio) Troubleshooting Method ................................................................... 25 Unique Main Video Board (A-Board) or LVDS Cable Effects ....................................................................... 26 Unique TCON/HFR Board Effects ............................... 27 Unique LCD Panel Assembly Effects ........................... 27 Common Main Video Board (A-Board) and LCD Panel Assembly Effects ................................................... 27

Video System Block Diagram ........................................ 28 Audio Symptom Troubleshooting................................... 29 Normal Operation .............................................................. 29

Appendix............................................................................. 39 LCD Panel Distortion Pictures ....................................... 39 TCON/HFR Board Distortion Pictures ........................... 40 TCON/HFR Board Distortion Pictures Continued .......... 41 Video Board Distortion Pictures ..................................... 42 Video Board Distortion Pictures Continued ................... 43

Failure Symptoms .............................................................. 29 Missing or Distorted Main Speaker Audio - All Inputs .. 29 Missing or Distorted Main Speaker Audio - Individual Inputs ..................................................................... 29

Audio System Block Diagram ........................................ 30 Section 3 - Service Mode .................................................. 31 Service Mode Access .................................................... 31 Section 4 - Triage & Troubleshooting Flowcharts .......... 32 Triage Flowchart ............................................................ 32 Power-ON Troubleshooting Flowchart........................... 33 Protection Mode 2X, 3X, & 4X Troubleshooting Flowchart 34 Protection Mode 5X & 6X(32”, 40”) Troubleshooting FlowCTV-61

Section 1 - AZ1K Chassis Models Overview

TCON Board

Backlight Inverter Board

G2LE-Board (32") G2HE-Board (40")

LVDS Cable

A-Board

Switch Unit

H2-Board

32" & 40" Models

32” & 40” OVERALL PCB LOCATION DIAGRAM FIGURE 1-1 CTV-61

AZ1K Chassis Models Overview

TCON Board

Balancer Board

LVDS Cable

GD2-Board

A-Board Switch Unit H2-Board

46" Models

46” OVERALL PCB LOCATION DIAGRAM FIGURE 1-2 CTV-61

AZ1K Chassis Models Overview

AZ1K Chassis Models Covered KDL-32EX301

KDL-32EX500

KDL-46EX400

KDL-32EX400

KDL-32EX501

KDL-46EX500

KDL-40EX400

KDL-40EX500

KDL-46EX501

KDL-40EX401

KDL-40EX501

AV Input & Output Descriptions USB

Composite

Model Introduction

All models, except the KDL-32EX301, contain a Full High-Deﬁnition 1920 X 1080 resolution panel. The KDL-32EX301 contains a 1280 X 720 resolution panel. The backlight is produced using a Cold Cathode Fluorescent Lamp (CCFL) light system for all models. All models have the Advanced Contrast Enhancer (ACE) feature and Dynamic Backlighting. The Dynamic Contrast Ratio (DCR) for the 400 series is 140,000:1 and for the 500 series it is 2150,00:1. All models contain the BRAVIA Engine™ 2 digital video processor for superior resolution. Plus, 7 HD inputs (4 HDMI™, 2 component and 1 PC) are provided to connect all of your HD devices including PLAYSTATION®3, Blu-ray Disc™ player and laptop or desktop.

HDMI Input

Component/Composite Input Component Input PC Input

Digital Audio Output (Optical)

The BRAVIA Engine 2 fully digital video processor uses a collection of unique Sony technologies to signiﬁcantly reduce noise, enhance overall image detail, and optimize contrast so every scene produces sharp, vibrant, life-like images and color. The EX500 series models contain the Motionﬂow™ 120Hz frame rate technology which enhances sharpness and delivers smooth motion for fast-action sports and movies. The EX300 and EX400 series models contain the standard 60Hz frame rate. Sony® HDTVs exceed Energy Star 3.0 requirements. In addition, they incorporate advanced power saving features such as Light Sensor® technology that adjusts backlight intensity based on ambient room lighting conditions and Dynamic Backlight Control that adjusts backlight intensity based on the brightness of the image on the screen.

CTV-61

PC & DVI Audio Input

RF Input

HDMI/DVI Input

Analog Audio Output (FIXED)

HDMI Input

RF Input This is a 75 ohm connection for either terrestrial NTSC and ATSC (8VSB) or cable QAM64 and QAM256 signals.

Composite Video & Audio Inputs Yellow Jack - Composite Video Input Red & White Jacks - Right & Left Audio Input NOTE: The second composite input is shared with one of the component inputs. Reference the description of the component inputs for details on activating the composite input.

AZ1K Chassis Models Overview

Component/Composite Video & Audio Inputs

HDMI/DVI Video Input and DVI Video

Red, Blue, & Green Jacks - Component Video Inputs

Both the HDMI and DVI formats contain digital video. In the case of the HDMI format the audio is also digital and is part of the video and audio data stream over the single HDMI connection. In contrast, the DVI format contains only digital video in its data stream. The audio is sent over a separate Stereo Mini Jack audio connection. Furthermore, a DVI to HDMI adapter is required to connect the DVI connector to the HDMI connector.

Red & White Jacks - Right & Left Audio Input NOTE: Composite video can be applied to the component input label “VIDEO IN”. The yellow composite video connector is connected to the green component connector. The audio is connected to the same component audio inputs. IMPORTANT: For automatic signal detection make sure the User Menu item is set to “AUTO. “ Reference the below for the speciﬁc menu item. The input can also locked to Video 1 (composite) or Component 1 (component) signal. However, the input will only process the chosen signal type. If the other signal type is connected the picture will be lost or black & white.

PC Video & Audio Input (and DVI Audio) All EX models have a Personal Computer Input (PC-IN), which connects directly to the PC 15 pin DIN connector (HD15 connector). Once connected the TV functions as a video monitor and audio output (separate Stereo Mini Plug) for the PC audio. There is a complete table of PC Input Signal Compatibility in the Owners Manual for each model. The Stereo Mini Plug is also used for a DVI audio connection at HDMI 1 video input. The DVI video is connected through an adapter to HDMI 1 input and the DVI audio to connected to the Stereo Mini Jack.

Select the appropriate input for the input signal type. Auto – Auto Detection Video 1 – Composite Component 1 - Component

USB 2.0 Side Connection - Photos & Music Connect a camera, USB-Enabled MP3 player, or USB storage device directly to this side USB input to view JPG photos and MPEG1 & MPEG2 videos on the screen or listen to MP3 music ﬁles. This USB connection is also used for TV Software updates using a USB drive device.

CTV-61

AZ1K Chassis Models Overview

Audio Outputs Fixed Analog Audio Output This audio output can be used to listen to the TV audio through an external AV stereo system. The audio level at the output is set to a ďŹ xed level and cannot be turned off or adjusted.

Digital Audio Output (Optical) Connects to the optical audio input of any digital audio equipment that is PCM/Dolby digital compatible. The following table shows the audio inputs and the audio format which are present at the Optical Audio Output per input format.

Audio Input Source Digital Tuner 5.1 (ATSC) HDMI 5.1 All Analog Audio Inputs Analog Tuner (NTSC) SACD Format (HDMI) DVD Audio Format (HDMI)

CTV-61

Optical Output 5.1 Dolby 5.1 Dolby 2CH PCM 2CH PCM No Output No Output

AZ1K Chassis Models Overview

32’” & 40” Models Overall PCB Block Diagram Switch Unit  

Power Key Function Keys

 

LEDs IR Sensor

H2-Board

A-Board

Keys

Power/ SIRCS

Optical Digital Audio Output

Analog Audio Output

RF Input

 

1 Composite Input 2 Component Inputs (Composite can be applied to Component 1) 1 PC Input

   

3 HDMI Inputs

1 USB 2.0

TV Microprocessor MT5388: Video Processing HDMI Processing HDCP Processing IP (Image Processor) Scan Converter (Scalar) HDMI Switcher ATSC/NTSC Tuner Temperature Sensor Audio Output Amplifier

R L *High Frame Rate (120HZ)

LCD Panel Assembly LVDS

Power

TCON/HFR

LCD Panel

G2LE-Board (32") G2HE-Board (40")

LCD PANEL

Control

Power

AC Input

CTV-61

 

Main Power Supply Standby Power Supply

Power

Backlight Inverter Board Control



Power



CCFL Backlight HV Inverter Circuits Backlight System Error Circuits

Power/Drive

CCFL Backlight System

32” & 40” OVERALL PCB BLOCK DIAGRAM FIGURE 1-3 8

AZ1K Chassis Models Overview

46” Models Overall PCB Block Diagram Switch Unit

 

Power Key Function Keys

 

LEDs IR Sensor

H2-Board

A-Board

Keys

Power/ SIRCS Optical Digital Audio Output

RF Input

Analog Audio Output

 

1 Composite Input 2 Component Inputs (Composite can be applied to Component 1) 1 PC Input

   

3 HDMI Inputs 1 USB 2.0

TV Microprocessor MT5388: Video Processing HDMI Processing HDCP Processing IP (Image Processor) Scan Converter (Scalar) HDMI Switcher ATSC/NTSC Tuner Temperature Sensor Audio Output Amplifier

R L *High Frame Rate (120HZ)

LCD Panel Assembly LVDS Power

TCON/HFR

LCD Panel

GD2-Board

LCD PANEL

Control Power

AC Input

   

Main Power Supply Standby Power Supply AC Relay Backlight HV Inverter Circuits

Power

Control HV

CTV-61

Power/Drive

Balancer Board

CCFL Backlight System

46” OVERALL PCB BLOCK DIAGRAM FIGURE 1-4 9

AZ1K Chassis Models Overview

PCB and Component Descriptions Reference Figures 1-3

A-Board The circuits located on the A-Board perform all Video and Audio processing functions. It also contains all the microprocessor control circuits. The following circuits are included on this board. • TV Microprocessor

GD2-Board (46") Except for some regulator circuits on the A-Board, the GD2-Board is the power supply system board for the 46” models, which includes the following components and circuits. •

o •

• MT5388 Processor

AU12V (Audio Amp)

3.3V for standby circuits

Standby Power Supply

•

Backlight High Voltage Inverter Power Supply

•

- Scan Converter

Main/Inrush AC Input Relay

•

Power Factor Control Circuit (PFC)

• Audio Ampliﬁer

Backlight Inverter Board (32" & 40")

• Temperature Sensor

The 24V developed in the Main Power Supply on the G2LE-Board or G2HE-Board powers the Backlight Inverter Board. The Inverter Board takes that 24V and develops approximately 2KVrms to initially ignite the lamps and 1KVrms to drive the backlight Cold-Cathode-Fluorescent Lamps (CCFL) in normal operation.

Except for some regulator circuits on the A-Board, the G2LE-Board or G2HE-Board is the power supply system board for the 32” and 40” models, which includes the following components and circuits. Main Power Supply •

12V

•

AU12V (Audio Amp)

•

24V (Backlight Inverter)

Standby Power Supply •

•

- HDMI Signal Processing

G2LE-Board (32") or G2HE-Board (40")

•

12V

- Video Signal Processing

- HDCP Processing

•

Main Power Supply

3.3V for standby circuits

H2-Board •

IR Sensor

Switch Unit •

Power Key

•

Function Keys

Power Factor Control Circuit (PFC)

CTV-61

AZ1K Chassis Models Overview

LCD Panel Assembly The LCD Panel Assembly includes the LCD Panel, TCON Board (300 & 400 series models), TCON/HFR Board (500 series models), and CCFL Backlight system. The LCD Panel contains the actual liquid crystals, color ﬁlters, and polarizers. The liquid crystals are manipulated by the applied voltage to pass a speciﬁc amount of light - from the backlight- depending on the level of voltage applied. The TCON performs all the control, timing, charge, and discharge functions driving the operation of the LCD Panel. The HFR (High Frame Rate) section performs the 60Hz to 120Hz frame refresh rate conversion. A replacement LCD Panel assembly from parts will include the following items. 32” & 40” Models: 1) LCD Panel and Backlighting Components 2) TCON/HFR Board 3) Inverter Board 46” Models: 1) LCD Panel and Backlighting Components 2) TCON/HFR Board 3) Balancer Board

CTV-61

Section 2 - Troubleshooting Procedures Power Symptom Troubleshooting Normal Operation

Failure Symptoms Reference Figures 2-1, 2-2, 2-3, and 2-4

Reference Figure 2-1 and 2-2

No Power/Dead Set (No RED Standby LED)

110VAC is applied to the G2LE-Board, G2HE-Board, or GD2-Board it can be measured at CN6101 or CN6003. In the standby mode the AC power passes through the main fuse F6101 or F6001. The is no main relay on the G2LE & G2HE-Board so the AC power is applied directly to the Main & Standby Power supply. The GD2-Board does have a Main AC Relay. The AC power passes through R6003 (Inrush resistor), and D6001 and is applied to the Main DC/DC Converter IC6501 and the Standby DC/DC Converter IC6201. IC6501 is not active in the standby mode. However, IC6201 is active in standby mode and outputs STBY 3.3Vdc as long as AC power is applied to the TV. The Standby 3.3Vdc is supplied to the TVMicroprocessor, Switch Unit (Power Key), and HSR-Board (IR Sensor) in the standby mode.

In a dead set condition there will be No RED Standby LED illumination in the Standby Mode (TV plugged into an active AC Outlet).

Once a ON command is received form the remote controller or the power button on the Switch Unit the TV-Microprocessor outputs the Power-ON signal. The Power-On signal is applied to the G2LE-Board, G2LE-Board, or GD2-Board. On the power supply board the Power-On signal switches the 19V from the standby power supply to activate the PFC and Main Power supply IC6501. No relay click will be heard on the 32” or 40” models because there is not a main relay. However, on the 46” models there is a main relay and one relay click is heard at power-on. The relay engages to bypass the inrush resistor R6003 during the ON state.

The ﬁrst step in troubleshooting a “No Power/Dead Set” condition is to conﬁrm that 110ACV power from an active AC outlet is applied to the G2LE-Board, G2LE-Baord, or GD2-Board. AC power is applied to, and can be measured at CN6101 on the G2BE-Board or G2CE-Board and at CN6003 on the GD2-Board.

The main power supply IC6501 is now active and outputting all secondary supplies. The 12Vdc secondary is the supply voltage for all the voltage regulators on the A-Board. The AU12V is the supply voltage for the audio output ampliﬁer. The 32” and 40” models power supply will also output 24V which is the supply voltage for the backlight inverter board. The GD2-Board in the 46” models will develop and output the backlight high-voltage (1KV) to the Balancer board and the CCFL backlights.

CTV-61

The following bullet list gives the possible failures for a “No Power/Dead Set” condition. • Loss of AC Power • Loss of AC-OFF-DET • Loss of Standby 3.3Vdc • Loss of REG12V • Loss of Power-On • Defective Main Microprocessor

Next, check for the presence of the AC-OFF-DET voltage at CN6401/pin 2 or CN6150/pin 2. If the AC-OFF-DET circuit is working properly 3V should be measured. If the 3V is not present replace the G2BE-Board, G2CEBoard, or GD2-Board. If the 3V in not present either the main fuse or the main power supply IC6501 is defective. In either case, replace the power supply board. After confirming the AC power and AC-OFF-DET, check for a defective Standby 3.3Vdc power supply IC6201. To confirm a defective IC6201 check the 3.3V secondary voltage at CN6401/pin 1 or CN6150/pin 1. As long as AC power is applied to the TV IC6201 should be active and outputting 3.3Vdc. If the 3.3V is not present then IC6201 is defective. Replacing the power supply board will fix the problem.

AZ1K Chassis Models Overview Finally, a “Dead Set” condition can be caused by a defective microprocessor IC400. The microprocessor outputs the Power-On signal which activates the switch Q6301 and IC6301 on the power supply board and passes the 19V from the Standby power supply to active the relay (46” models), PFC, and Main Power Supply IC6501. If the Power-On signal is not output after receiving the Power-ON command the power supply board circuits remain inactive and a “Dead Set” condition exists. The Power-On signal can be checked at CN6401/pin 3 or CN6150/pin 3. It should measure approximately 3.3Vdc If the measurement is 0Vdc before shut-off the TV microprocessor is defective. Replace the A-Board. If the power-on voltage is 3V before shutdown then the switch circuit on the power supply board is defective. Replace the power supply board.

CTV-61

AZ1K Chassis Models Overview

32” & 40” Power Supply System Block Diagram G2LE-Board (32") G2HE-Board (40")

CN6402 24V

IC6301 Main Power Supply & PFC CN6101

F6101

D6301

R6342 D6308 0.1ohm

TH6301 L6302

Q6302 Q6303

CN6401

AU12V

R6302

L6303

CN201 F1

12V

AC_DET

IC266 5V Reg

IC231 5V Reg

PS6401

To Tuner

CN6403 12V

To USB To Optical Out

Q6403

12V

TCON ON

STBY 3.3V

3V CN6401

IC267 3V Reg

IC268 1.25V Reg

IC269 1V Reg

To Micro

To Micro To DDR

HFR on EX500 Series Only

A-Board

Power ON

EX500 Series ONLY EX400 Series No Connection

19V IC902 Standby 3.3V Power Supply

CTV-61

TCON 12V

To CN6401 3V 15 PH6103

Panel 12V

TCON/ HFR

CN201

To Micro

ON/OFF

R6107 10ohm

LVDS Cable

IC232 1V Reg

19V

LCD Panel

LVDS 12V

AC_DET

Switch Circuit Q6101 Q6102

CCFL Backlights

LCD PANEL

IC8301 Line Out Amp

From Q6403

PFC_OUT

VCC

1.1KV (~2KV Strike Voltage)

IC8151 Audio Output Amp

PS6402

VSense D6302

A-Board

Q6304

AC Input

LCD Panel Assembly

Backlight HV Inverter Board

IC400 MT5388

AC-OFF-DET

32” & 40” POWER SUPPLY SYSTEM DIAGRAM FIGURE 2-1 14

AZ1K Chassis Models Overview

G2LE-Board & G2HE-Board Connector Diagram 1 – UNREG24V 2 – UNREG24V 3 – UNREG24V 4 – UNREG24V 5 – UNREG24V 6 – Ground 7 – Ground 8 – Ground 9 – Ground 10 – Ground 11 – BL-ERR 12 – BL-ON 13 – NC 14 - Dimmer

CN6402

CN6401

15 – TCON-ON 14 – TCON 12V 13 – NC 12 – DIMMER 11 – BL-ON 10 – BL-ERR 9 – REG12V 8 – REG12V 7 – Ground 6 – Ground 5 – Ground 4 – AU12V 3 – POWER -ON (3V) 2 – AC-OFF-DET (3V) 1 – STBY 3.3V

G2LE-Board (32") G2HE-Board (40")

AC Input CN6101

G2LE-BOARD & G2HE-BOARD CONNECTOR DIAGAM FIGURE 2-2 CTV-61

AZ1K Chassis Models Overview

46” Power Supply System Block Diagram GD2-Board

LCD Panel Assembly

CN6704 HV

Backlight Inverter High Voltage Circuits IC6601 Q6601 Q6602 19V

1.1KV (~2KV Strike Voltage)

Balancer Board

HV CN6705

400V

LCD PANEL

A-Board CN6150

R6003 CN6003

D6001

F6001

R6536 L6501 D6502 0.1ohm Q6502

AC Input

RY6002

AU12V

IC6501 Main Power Supply & PFC

R6013

R6301

CN201 F1

IC8151 Audio Output Amp

12V

From Q6151

PFC_OUT

12V

AC_DET

IC266 5V Reg

IC231 5V Reg

To Tuner

PS6151

To USB To Optical Out

To Micro

19V

Q6151

R6201 10ohm

CN6151 12V

To CN6150 3V 15 PH6300

TCON ON

IC267 3V Reg

IC268 1.25V Reg

IC269 1V Reg

To Micro

To Micro To DDR

A-Board

Power ON

19V IC6201 Standby 3.3V Power Supply

STBY 3.3V

3V CN6150

CTV-61

TCON 12V

TCON/ HFR

CN201

IC232 1V Reg

ON/OFF

Switch Circuit IC6301 Q6301

LVDS Cable

LVDS 12V

AC_DET

VCC

LCD Panel

IC8301 Line Out Amp

VSense D6002

CCFL Backlights

IC400 MT5388

AC-OFF-DET

46” POWER SUPPLY SYSTEM DIAGRAM FIGURE 2-3 16

AZ1K Chassis Models Overview

GD2-Board Connector Diagram HV 1.1KV HV 1.1KV

5 - LD 4 – Ground 3 – Ground 2 – FB 1 – 12V

CN6704

CN6705

CN6151 CN6158

CN6150

GD2-Board

6 - NC 5 - Ground 4 – Ground 3 – TCON 12V 2 – TCON 12V 1 – NC

AC Relay

F6001

CN6003 AC Input

GD2-BOARD CONNECTOR DIAGAM FIGURE 2-4 CTV-61

AZ1K Chassis Models Overview

Protection Mode Symptom Troubleshooting

• Excessive 24V Level (OVP) (32” & 40” models)

Reference Figures 2-5 and 2-6

• Excessive PFC Voltage (OVP)

The KDL-32S5100 and KDL-32XBR9 include the following protection mode blink patterns (or self-diagnostics).

• Excessive PFC Temperature (OTP)

Protect Description

Blink Pattern

Main Power Error

Audio Error

Balancer Error (46” Only)

TCON Error

HFR Error

Backlight Error

Temperature Error

Possible Error Location G2LE, G2HE, GD2Board, or A-Board A-Board or G2LE, G2HE, GD2-Board LCD Panel, A-Board, or GD2-Board TCON/HFR Board or A-Board TCON/HFR Board or A-Board Inverter Board (32”, 40”), G2LE, G2HE, GD2-Board, LCD Panel, or A-Board Ventilation or A-Board

NOTE: All red protection mode LED blink patterns occur using the Standby-LED at the lower left front of the TV.

Failure Symptoms 2X Blink - Main Power Error A 2X protection mode blink pattern can be activated due one of the following defects on the G2LE-Board, G2HE, GD2-Board.. • Loss of AU12V (LVP)* • Excessive AU12V Level (OVP)*

CTV-61

*Low Voltage Protection (LVP) *Over Voltage Protection (OVP) A loss or excessive condition of the AU12Vdc secondary voltage from the main power supply IC6501 will cause a 2X blink pattern on the StandbyLED. The 12Vdc can be checked at CN6401/pin 4. The If the measurement is 0V or rises above 12Vdc (approaches 15V) before the TV shutdown the G2LE-Board, G2LE, GD2-Board is defective. If approximately 12Vdc is present and remains below 12Vdc before shutoff then the A-Board is defective. An excessive 24Vdc (32” & 40” models) secondary voltage from the main power supply IC6501 will also cause a 2X blink pattern on the StandbyLED. The 24Vdc can be measured at CN6402/pin 3 before TV shutdown. If the voltage rises above the 24V level (approaches 27) before TV shutdown then the power supply is defective, replace the G2LE, G2HE , GD2-Board to ﬁx the problem. Finally, there are PFC protection circuits on the power supply board that when activated will cause a 2X blink protection mode (reference Figure 27). The PFC circuit is monitor for both over-voltage and over-temperature. Therefore, if the AU12V and 24V circuits checkout okay, there could still be a problem on the power supply board in the PFC circuit causing the 2X blink. Replace the G2LE, G2HE, GD2-Board to ﬁx this condition.

3X Blink- Audio Error The Audio error can occur due one of the following error conditions. • Shorted or Damaged Speaker Connections • Defective Audio Ampliﬁer (A-Board) • Loss of AU12V (Open F1 on A-Board) The ﬁrst thing to check when a 3X blink protection mode occurs is the physical condition of the speakers and speaker connections. The speakers

AZ1K Chassis Models Overview should measure 8 ohms. Shorted speakers or connections can cause a 3X blink protection mode.

•

Defective Panel Lamp(s)

If the speakers and connections check okay, then the defective component is on the A-Board. Either a open F1 or defective audio ampliﬁer will cause a 3X blink protection mode. In either case, replace the A-Board to ﬁx this condition.

•

Defective Backlight Inverter Board

•

Defective TV Microprocessor

•

Defective 24V Power Supply

4X Blink - Balancer Failure (46” Models ONLY) In most cases, a 4X protection mode indicates a defective lamp or lamps. Therefore, replace the LCD panel to ﬁx this condition. If the 4X protection is still present after replacing the LCD panel, there could be a problem on the A-Board or GD2-Board. First replace the A-Board then the GD2Board.

5X Blink - TCON & HFR Failure The 5X blink protection mode indicates a communications error between the TCON/HFR board and the MT5388 microprocessor on the A-Board. First replace the TCON/HFR Board if the 5X protection mode blink pattern occurs. If the TCON/HFR Board does not repair the problem then replace the A-Board.

6X Blink - Backlight System Failure (32” & 40” Models) NOTE: All models will make three attempts to power up before a 6X error is activated. The SONY logo (Backlight) will display on the screen and the tones (with Volume up) will be heard three times. After the third attempt the TV will turn off and the Standby LED will blink a 3X protection mode. In most cases, if the backlight momentarily illuminates and the TV shuts off and a 6X is activated than one or more of the backlight lamps are defective. The LCD Panel assembly panel must be replaced for a defective lamp. If a 6X blink pattern is activated than a defect has occurred in one of the following areas.

CTV-61

When troubleshooting a 6X backlight system failure it is key to notice if the backlights illuminate before the TV shuts off. The following list shows the possible backlight status and blink pattern and the possible failed components. 1) Momentary Backlight and 6X a) Defective Lamp(s) b) Defective Backlight Inverter Board 2) No Backlight and 6X a) Defective TV Microprocessor b) Defective 24V Power Supply c) Defective Backlight Inverter Board IMPORTANT: Before replacing the LCD Panel assembly check the backlight Inverter Board outputs. A failure of one of the inverter outputs will also cause this same symptom (Momentary Backlight & 6X). If there is no backlight before the TV shuts off and activates a 6X, than check the “Backlight ON” signal from the TV microprocessor and the 24V power supply from the G2LE, G2HE, GD2-Board. If the “Backlight ON” and 24V power supply are okay than the Backlight Inverter board has failed and must be replaced. This will be a rare occurrence but the Inverter board can cause a “No Backlight” condition and must be considered.

6X Blink - Backlight System Failure (46” Models) The 46” models have both a 4X and 6X blink protection mode. The 4X blink will, in most cases, be caused by a defective lamp. Because all the Backlight HV Inverter circuits are located on the GD2Board, a 6X blink protection mode will be ﬁxed, in most cases, by replacing the GD2-Board. If the GD2-Board does not repair the problem replace the A-Board. The BL-ON and Dimmer signals come from the

AZ1K Chassis Models Overview microprocessor on the A-Board. A shorted or open BL-ON signal will cause this 3X condition. Also a shorted Dimmer will cause this 3X condition.

failed.

7X Blink - Temperature Failure

In either case the A-Board must be replaced to ﬁx the problem.

•

Main Microprocessor IC3002 (A-Board)

•

Temperature Sensor IC3502 (A-Board)

These models do not display a temperature warning OSD dialogue box before shutting-off and going into a 7X Standby-LED blink pattern. It will just shut-off and activate a 7X without any usually warning on the screen. The main objective when a 7X blink pattern occurs is to determine which of the following possible defects is causing the excessive temperature condition. •

Excessive Ambient Room Temperature

•

Dust or Debris Blocking the TV Ventilation Apertures

•

Defective Temperature Sensor microprocessor (A-Board)

IC4305

MT5388

The ﬁrst step is to notice how long it takes the TV to shut-off and trigger a 7X blink protection mode. If the TV has an actual excessive temperature condition it will take a considerable period of time to shut-off and indicate a 7X blink protection mode. This is because it will take time for the TV to heat up and for the temperature sensor to detect the excessive temperature and shut the TV off If the TV takes a considerable period of time to shut-off check the following items: •

The TV should not be located too close to any heating elements.

•

The TV should have at least 4 inches of clearance around all sides to ensure adequate ventilation.

•

Check that all vented areas on the TV are clear of all Dust and Debris.

If the TV shuts-off immediately (Not an Actual Excessive Temperature Condition) after Power-ON then one of the following components has

CTV-61

AZ1K Chassis Models Overview

32” & 40” Models Protection Mode System Block Diagram

AC Input

A-Board

G2LE-Board (32") G2HE-Board (40") CN6000

CN6401

Main PS & PFC

RECT RECT

12V

CN201

24V

Interface Circuit

DC_Detect

IC400 MTK5388

CN6402

CN6401

STBY PS SW

3.3V

1V to 3V 3V 0V

13 12 11

Protection Circuit Q8153, Q8155 Q8158, Q8160, Q8156

HV Inverter Board CN001 24V 6 Dimmer 1 BL_ON 2 BL_ERR 3

Standby 3.3V

Power ON Dimmer BL_ON BL_ERR

IC4305 Temp Sensor 70C

INV_ERR

Temp_ERR

Audio_ERR

IC8151 Audio Amp LCD Panel Assb

CN8151 CN8152

CN4152

Backlight Inverter High Voltage Corcuits

TCON BL*

SDA (I2C)

HFR

TCON_ERR

HFR_ERR

*BL - Backlight

PROTECTION CIRCUITS DIAGRAM FIGURE 2-5 CTV-61

AZ1K Chassis Models Overview

46” Models Protection Mode System Block Diagram

A-Board

GD2-Board

AC Input

CN6003

Main PS & PFC

RECT

CN6150

12V

CN201

Power ON

1V to 3V 3V 0V

Protection Circuit Q8153, Q8155 Q8158, Q8160, Q8156 CN6150

LCD Panel Assb

LD 12V CN6702

Dimmer BL_ON BL_ERR IC4305 Temp Sensor 70C

BL_ERR

4X & 6X

Temp_ERR

Audio_ERR

IC8151 Audio Amp

Dimmer 12 BL_ON 11 BL_ERR 10

Standby 3.3V

CN1004

3.3V

13 12 11

DC_Detect

IC400 MTK5388

STBY PS

Backlight Inverter High Voltage Circuits

Interface Circuit

B A L A N C E R

CN8151 CN8152

CN4152

TCON

BL*

SDA (I2C)

HFR

TCON_ERR

HFR_ERR

*BL - Backlight

PROTECTION CIRCUITS DIAGRAM FIGURE 2-6 CTV-61

AZ1K Chassis Models Overview

All Models Power Board Protection Circuits Block Diagram

G2LE-Board (32") G2HE-Board (40") GD2-Board (46")

CN6101

CN6402

Reg 24V

D6301

AC Input

32" 40" Models ONLY

IC6301 Reg 12V Main Power Supply & PFC

PFC OVP D6302

OTP

PFC OTP

30V Zener 24V OVP

To Inverter Board

To A-Board

G2HE-Board & G2LE-Board Protection circuits will cause a 2X blink pattern

15V Zener 12V OVP

Latch Circuit Q6202, 6203

19V

Switch Circuit Q6101, 6102

Pulls Power_ON Low

CN6401

Power-ON From A-Board

OVP – Over Voltage Protection OTP – Over Temperature Protection

PROTECTION CIRCUITS DIAGRAM FIGURE 2-7 CTV-61

AZ1K Chassis Models Overview

Video Symptom Troubleshooting Reference Figure 1-8

Normal Operation All video processing is performed by IC400 (MT5388) on the A-Board. The RF input is first processed by the RF Tuner and is then applied to IC400. Both the ATSC and NTSC signal are processed by IC400. All four HDMI inputs are first applied to a HDMI switch circuit (IC6601). The switch circuit applies the selected input to IC400. IC6601 also contains the EDID (Extended Display Identification Data), which is part of the HDMI handshake process. All other inputs (Composite, Component, PC, and USB) are connected directly to IC400 inputs. The USER, White Balance, and Gamma data is stored in IC4302. Both the USER Menu and Service Mode screen are generated by, and output from IC400. IMPORTANT: 1) Confirm the TV has the most recent Software Version installed. Go to the User Menu for the present TV software revision and the ASC web site for the most recent software version. 2) Before proceeding with the following video troubleshooting procedures it is assumed that the TV is turning on with the Green Power-LED illuminated, Backlight is illuminated (brightened raster), and the Audio is present.

Troubleshooting When a video problem occurs you will experience one of the two following symptoms. Input Status: •

Missing or Distorted Video (Individual Inputs)

•

Missing or Distorted Video (All Inputs)

CTV-61

Video Anomaly: •

Poor Detail

•

Moving Video Distortion (e.g. Bars)

•

Static H/V Lines (Any Color)

•

Static Missing Pixels (Any Color)

•

Static Bars (Solid Black or White, Transparent Color)

•

White Balance

•

Gamma

The main objective when troubleshooting one of the previously listed symptoms is to determine if the defect exists in the following sections of the TV system. •

LCD Panel Assembly

•

TCON/HFR Board

•

A-Board

Missing or Distorted Video (Individual Inputs) The primary objective is to locate the defective component through activating each individual video input and checking for any abnormal symptoms on the screen. If the video distortion appears only in one or two video inputs then the next step is to eliminate the possibility of a defective or improperly connected external device such as, a STB, DVR or DVD player. The quickest way to troubleshooting the external devices is to swap the suspect device with a known good device at the input in question. If the external device or connections are defective then the TV is okay and the external device and connections need to be serviced. If the external devices and their connections are okay, then the next step is to troubleshoot the problem by accessing and displaying each video input. The rationale behind this troubleshooting method is that each of these video inputs takes an altogether or somewhat different path through the video processing system. This fact enables you to determine the defect,

AZ1K Chassis Models Overview in some cases, down to the component level, and in almost all cases, down to at least the board level. For example, if the distortion appears in a HDMI input but not in any other inputs (e.g. composite or component) then most likely the HDMI Switcher (IC6601) is causing the distortion. The reason for this conclusion is because the HDMI signals are the only signals to pass through IC6601 before being applied to IC400. All other input signals bypass IC6601. The composite and component signals go directly to the video processor IC400. Although all the individual input circuits are located on a single board (ABoard), the previously described troubleshooting procedure can still serve as a reliable conﬁrmation of a defective component on the A-Board before replacing the board. The same deductive reasoning can be applied when troubleshooting video defects using the other video inputs shown on the ﬂowchart (Section 4). This method simply involves knowing the path the input signal must take through the video processing system to reach the display. With this knowledge you can effectively divide the video system into distinct areas, and therefore, isolate the defect.

Missing Video (All Inputs) If the video is completely missing you will ﬁrst use the User Menu (OnScreen-Display - OSD) in an attempt to isolate the defect to the A-Board or the TCON/HFR Board. If the OSD can be displayed then the TCON/HFR Board is okay, and you can safely assume the defect exists on the A-Board. However, if the OSD cannot be displayed you need to do further troubleshooting because either IC400 on the A-Board is not sending the OSD or the TCON/HFR Board is not able to process the OSD and display it on the LCD Panel. If the OSD cannot be displayed then the LVDS signal levels must be checked to reliably determine whether the A-Board or the TCON/HFR Board is defective. 1) Check for USER Menu OSD Display a) USER Menu Displays. Replace A-Board b) USER Menu Does Not Display. Go to Step 2

CTV-61

2) Check for TCON 12V at CN4152/pins 4 - 10 & CN6151/pin 2 a) No 12V. Check connections between A-Board & Panel b) 12V Present. Go to Step 3 3) Check LVDS Cable Video Signal Levels at CN4152 a) LVDS Video Signal(s) Low or Missing. Replace A-Board b) LVDS Video Signal(s) Okay. Replace TCON/HFR Board

Skewing LVDS Connector Troubleshooting Method It maybe difficult or impossible to check the LVDS signal while in the field. Therefore, a quick and somewhat reliable method of checking the TCON/ HFR operation is to skew the LVDS connector out of the its mount at the TCON/HFR Board. When performing this method it is important to keep the 12V end of the connector connected while dislodging the LVDS video connections. Therefore, find the 12V using a voltmeter. The 12V is usually on one end of the connector (usually left-side on bottom mount or top on side mount connect). When skewing the connector if color flashing occurs on the screen then the TCON/HFR Board is most likely okay and the A-Board is defective. If the is no video reaction on the screen while skewing the connector then the TCON/HFR Board is defective.

Distorted Video (All Inputs) The following paragraphs describe the unique and common effects the LCD Panel Assembly, TCON/HFR Board, and A-Board have on the displayed video concerning possible distortions. Knowing how each component affects the displayed video can be very helpful in troubleshooting a distorted video condition. NOTES: Reference Appendix for picture examples of unique distortions for the LCD Panel, TCON/HFR Board, and the A-Board

WIDE Mode Button (Aspect Ratio) Troubleshooting Method A quick test to determine if the A-Board, TCON/HFR, or LCD Panel is causing the distortion is to change the panel aspect ratio (or picture size).

AZ1K Chassis Models Overview The aspect ratio can be easily changed using the “WIDE” key on the remote controller. If the distortion follows the video then the A-Board is causing the distortion. If the distortion remains stationary after changing the aspect ratio then the LCD Panel assembly is causing the distortion.

•

Color Distortion - A color distortion can be caused by a defective IC400 or LVDS cable. The individual color signals are spread out over the LVDS twist pair wires. For example, the Red signal may be broken up into three components and sent over three different LVDS twisted pairs. Therefore, this distortion will display as a poor reproduction of a particular color not an overall loss of one color. Use a Red, Green, and Blue raster generator to conﬁrm a poor reproduction of a single color.

•

Loss of a Single Color - A loss of a single color can only be caused by a defective MT5388 (IC400). Use a Red, Green, and Blue raster generator to conﬁrm a complete loss of a single color.

•

RF Signal Distortion - A weak video signal from the antenna or cable connection can cause RF video distortions. The signal strength of the Digital Signals can be checked in the USER menu. Go to the Product Support and Signal Diagnostic item to check signal strength and errors. NOTE: This is only for digital channels. No information will display for analog channels. The SNR should be in the range of 25db to 30db and there should be zero Errors.

WIDE Mode Button

WIDE Mode Function

Unique Main Video Board (A-Board) or LVDS Cable Effects A video distortion that has soft edges and/or is moving through the video is most likely caused by a defect in the video processing circuitry. All video processing circuitry is located on the A-Board. Therefore, replace the ABoard if the video distortion has soft edges and/or is moving through the video on the screen. Macro-Blocking (digital picture breakup) is a good example of this type of distortion. Be careful though, macro-blocking can also be caused by a weak RF signal when the TV is in the tuner mode. •

Poor Picture Detail - Loss of overall picture detail. A loss of information on the LVDS lines from IC400 will cause poor overall picture detail.

•

Abnormal Picture Size or Geometry- The video signal scaler circuit is located on the main video board A-Board. Therefore, if either the picture size or geometry is abnormal the A-Board is defective. Only the A-Board can cause such a distortion.

CTV-61

Signal Diagnostics

Product Support

Signal Diagnostics Screen 26

AZ1K Chassis Models Overview Unique TCON/HFR Board Effects •

2” Vertical Transparent Colored Bar- The bar will be approximately 2" because this is the area that is controlled by a single drive IC that is located across the top of the LCD Panel assembly.

•

Video Timing - The Video Timing distortion may appear as a double image or ghosting type distortion.

•

Loss of Half Screen Video - Half the screen will have live video and the other half will be a white raster.

•

Half or Full Screen Video Distortion - In this case, the key distinguishing factor is the presence of undistorted video behind the color distortion. The distortion is basically an overlay (transparent color half-screen or bar) in front of the good video coming from the A-Board.

•

White or Colored Blooming - The bloomings may come down from the top of the screen and vary in size.

•

GAMMA Irregularity - A GAMMA distortion will appear as a overall brightness problem or a localized area color distortion.

Unique LCD Panel Assembly Effects •

Line(s) of Pixels (Fixed Position) - Poor physical connection (or bonding) between the LCD Panel and the ﬂex cables will cause a loss of line(s) of pixels. The pixel drive lines can be open (no drive) or shorted (drive all the time). Depending on the type of failure the line(s) or pixel(s) will be black, white, or colored (red, green, or blue). These lines and pixels will also be very sharp in detail.

•

Random Line(s) of Pixels (Random Movement) - The TCON board controls the charging and timing of the pixels. If the TCON Board is partially defective random lines and/or pixels will be seen ﬂashing across the screen. These lines and pixels will be very sharp in detail, like a speciﬁc line of pixels are randomly turned off and on.

CTV-61

•

2” Vertical Solid White or Black Bar- The bar will be approximately 2" because this is the area that is controlled by a single drive IC that is located across the top of the LCD Panel assembly.

•

Horizontal Bar- Any horizontal bar of any color will be caused by a defective LCD Panel assembly

Common Main Video Board (A-Board) and LCD Panel Assembly Effects •

White Balance (WB) Irregularity - A WB irregularity will show up as an overall poor reproduction of white. A white raster can be used to determine if a WB or gamma irregularity has occurred. WB will cover the complete picture, where as, gamma will be in specific zones or specific color areas in the picture. WB adjustment data is stored in the EEPROM IC4302 on the A-Board. The WB data stored in IC4302 is set to the middle value of the data span. The TCON/HFR Board also contains WB data, which is specifically set for the associated LCD Panel.

•

GAMMA Irregularity - Gamma Correction affects the overall picture brightness level and individual color (RGB) brightness levels. Gamma adjustment data is stored in the EEPROM IC4702 The TCON/HFR Board also contains GAMMA data, which is specifically set for the associated LCD Panel. The data may become corrupted causing irregular gamma adjustment. Therefore, a gamma distortion can show up as a color brightness irregularity in specific zones or specific color areas in the picture, as well as an irregularity in overall picture brightness.

AZ1K Chassis Models Overview

Video System Block Diagram

A-Board

RF Input

TM701 NTSC/ATSC Tuner

User Menu

IC4302 NAND FLASH User Data White Balance GAMMA

Video 1 (Component & Composite) Video 2 (Composite / S-Video)

Video 3 (Component)

LVDS Cable CN4152

PC Input HDMI IN 1

HDMI IN 2

HDMI IN 3

IC6601 HDMI Switch (EDID)

Service Mode

1 / 49

IC400 MTK5388 (HDCP)

LVDS 12V

4 / 10

LCD Panel Assembly LCD Panel

TCON/ HFR

HDMI IN 4

TCON 12V

12V

LCD Panel

CCFL Backlight System

From Power Supply Board

USB 2.0

IC303 Sub Micro

VIDEO SYSTEM FIGURE 2-8 CTV-61

AZ1K Chassis Models Overview

Audio Symptom Troubleshooting

Missing or Distorted Main Speaker Audio - All Inputs

Normal Operation

In this case, the most likely defective is the A-Board. Before you replace the A-Board perform the following test procedures to conﬁrm the actual defective component.

Reference Figure 2-9

The HDMI digital audio signal is first applied to the HDMI Receiver/Switch IC6601 and then to the MT5388 on the A-Board. The RF input is first applied to the Tuner and then to the IC400. The Tuner outputs the ATSC and NTSC signals as an IF signal to IC400. All other audio inputs are applied directly to IC400. The MT5388 IC400. outputs the audio signal as a SPDIF signal for the Optical output. The FIXED analog audio output passes through an amplifier IC8301 and then is applied to CN8301. The main speaker audio comes from IC400 and passes through amplifier IC8151 and then to CN8151 and CN8152 speaker connections.. The AU12V from the G2LE, G2HE, or GD2-Board is the power supply for the audio output amplifier IC8151. IMPORTANT: •

Conﬁrm the TV has the most recent Software Version installed. Go to the User Menu for the present TV software revision and the ASC web site for the most recent software version.

Failure Symptoms The ﬁrst step when a “Missing or Distorted Audio” defect occurs is to determine if audio is missing or distorted on all audio input sources or only on one or a select number of audio input sources. Input Status: •

Missing or Distorted Audio on All Inputs

•

Missing or Distorted Audio on Individual Inputs

CTV-61

1) Check for audio at the Analog FIX or DIGITAL Audio Outputs a) No or Distorted Audio (Replace A-Board) b) Audio Present & Undistorted. Go to Step 2 2) Check for AU12V at CN201/pin 1 on A-Board a) No AU12V - Check connections between the Power Supply board and the A-Board b) AU12V Present replace A-Board

Missing or Distorted Main Speaker Audio - Individual Inputs If only one or a select number of input sources are experiencing a problem, then the individual inputs must be checked separately. The external devices and their associated cables connected to the faulty input should be checked ﬁrst. Substitute a known good device and cable on the suspected faulty input. Connect the device and cable at separate times to determine if the device or cable is causing the problem. Replace the device or cabling if found to be defective. However, if the external device and cables are okay, then the next step is to replace the common board or module associated with that particular input source. For example, consider the symptom of all HDMI inputs are faulty. Logically the only device that could cause this symptom is the HDMI switcher IC6601 on the A-Board. In this case, replace the A-Board.

AZ1K Chassis Models Overview

Audio System Block Diagram A-Board

HDMI IN 1

IC6601 HDMI Receiver/ Switch (EDID)

HDMI IN 2 HDMI IN 3 HDMI IN 4

TM701 NTSC/ATSC Tuner

RF Input

Digital Audio

I2S CN8302

SPDIF

Digital Audio Output (Optical)

IC400 MTK5388

USB 2.0

LR Audio

LR Audio LR Audio

Video 2 (Composite/S-Video)

LR Audio

Video 3 (Component)

LR Audio

PC IN

LR Audio

Audio IN (DVI)

CN8151

LR Audio

G2LE-Board (32") G2HE-Board (40") GD2-Boad (46")

IC8151 Output Amplifier

R CN8152

CN6401 (32", 40") CN6150 (46") AU12V

FIXED Analog Audio Output

(HDCP)

Video 1 (Component & Composite)

CN8301 IC8301 Amp

CN201 1

PS6401

AUDIO SYSTEM FIGURE 2-9 CTV-61

Section 3 - Service Mode Service Mode Access

Service Mode Access Display > 5 > Volume + > Power

Reset Self Check, Press 8 > 0 keys

Panel operation time by hour (max 99999 ) (Reset Panel operation Time , Press 7 > 0 keys )

Boot count (max 99999 )

Total operation time by hour (max 99999 )

SERVICE MODE FIGURE 3-1 CTV-61

Section 4 - Triage & Troubleshooting Flowcharts Triage Flowchart Triage Flowchart A (AZ1K 32", 40", & 46" Models)

A Start Triage

Is RED “Standby” LED ON?

Go to “No Standby LED” Triage Sheet Replacement Parts

GO TO Power-ON Troubleshooting Flowchart B

Yes

Is “Standby” LED Flashing Red?

Yes

Go to “Protect Blink Code” Triage Sheet Suggested Parts

GO TO Protection Mode Troubleshooting Flowcharts C1, 2, 3, 4

Is Video Missing or Distorted ?

Yes

Go to “Video” Triage Sheet Suggested Parts

GO TO Missing or Distorted Video Troubleshooting Flowchart D

Go to “Audio” Triage Sheet Suggested Parts

GO TO Missing or Distorted Audio Troubleshooting Flowchart E

Is Audio Missing or Distorted ?

Yes

No Problem Found Unit Fully Operational

CTV-61

Triage & Troubleshooting Flowcharts

Power-ON Troubleshooting Flowchart Power-ON Troubleshooting Flowchart B (AZ1K 32", 40", 46" Models)

Check STBY 3.3V at CN6401/pin 1 (In STBY Mode)

CN6150 - 46"

NOTE: Confirm all connections between circuit boards before replacing

Is voltage 3.3V Present?

Unit will Not Power-ON (All Models)

Replace G2LE-Board G2HE-Board GD2-Boad

Yes

Press TV & Remote POWER Button

Check Power_ON at CN6401/pin 3 (In STBY Mode)

CN6150 - 46"

Confirm Remote Control Operation

Is “Standby” LED illuminated RED?

What is the State of the “Power” & “Standby” LEDs?

Yes

Confirm Unit is securely plugged into an active AC Outlet

GO TO FlowCharts C1, 2, 3 Protection Modes

Repair AC Outlet or Replace AC-Power Cord

CN6003 - 46"

Yes

CTV-61

Initial Power -ON OK Troubleshoot Video, Backlight, Panel, or Audio Problem

Check SW_12V at CN6401/pin 9 (In STBY Mode)) CN6150 - 46"

Is voltage 12V Present?

Replace A-Board

Cycle AC power while checking for 12V. Unplug and Plug AC Power Cord .

Yes Check AC_OFF_DET at CN6401/pin 2 CN6150 - 46"

Check Main Fuse F6101 (0 ohms)

Is Fuse Open?

Yes

“Standby” Red LED Blink Pattern

Is 110VAC Present at CN6101?

“Power” Glows Steady Green

Is voltage 3.3V Present?

Replace G2LE-Board G2HE-Board GD2-Boad

IP3N-Board F6001 - 46"

Yes

Replace G2LE-Board G2HE-Board GD2-Boad

Is voltage 3V Present?

Yes

Replace A-Board

Triage & Troubleshooting Flowcharts

Protection Mode 2X, 3X, & 4X Troubleshooting Flowchart NOTES: 1) All Red Blink patterns will occur on the Front Panel Red “Standby” LED 2) All voltage are measured prior to unit shutdown 3) Confirm all connections between circuit boards before replacing

C1 Unit Shuts OFF RED LED Blinking

Is voltage 12V Present?

CN6150 - 46"

Replace G2LE-Board G2HE-Board GD2-Boad

Yes Check SW12V at CN6401/pin 9 *Before Shutdown

(>) Greater Than (~) Approximately (Does not exceed)

Is Voltage ~12V or >12V ? ~12V

Replace A-Board

CTV-61

CN6150 - 46"

Replace G2LE-Board G2HE-Board GD2-Boad

46" Models ONLY

Check Speakers & Connections

Do Speakers Measure 8 ohms ? Yes

>12V

4X Blink Pattern Balancer

3X Blink Pattern Audio

2X Blink Pattern AU12V LVP & SW12V OVP

Check AU12V at CN6401/pin 4 *Before Shutdown

Protection Mode Troubleshooting Flowchart C 1 (AZ1K 32" & 40" Models)

Replace A-Board

Check LD Volatge CN6702/pin 5

■ Replace

Is voltage 0V or 12V Present?

Replace LCD Panel

Replace A-Board

Speaker(s) 12V

Replace G2LE-Board G2HE-Board GD2-Boad

Is Problem Solved? Yes

Problem Sloved

Triage & Troubleshooting Flowcharts

Protection Mode 5X & 6X(32”, 40”) Troubleshooting Flowchart NOTES: 1) All Red Blink patterns will occur on the Front Panel Red “Standby” LED 2) All voltage are measured prior to unit shutdown 3) Confirm all connections between circuit boards before replacing

Protection Mode Troubleshooting Flowchart C 2 (AZ1K 32", 40", 46" Models)

Unit Shuts OFF RED LED Blinking Check 24V at CN6402/pin 3 *Before Shutdown

6X Blink Pattern (No Backlight)

5X Blink Pattern TCON/HFR Error

Is “SONY” logo Displayed and Tones Heard?

Check LVDS connection between LCD Panel (TCON) & A Brds

Is connection OK?

Check TCON 12V supply CN6403/pins 1 & 2

Repair Connection

Are Yes Select outputs missing?

CN6151 - 46"

Yes

Replace TCON/HFR Brd

Is Issue Resolved ?

Replace LCD Panel Assembly No

Replace A-Board

CTV-61

Replace G2LE-Board G2HE-Board

Check Backlight-ON signak at CN201/pin 12 *Before Shutdown

Replace Inverter Board

Is voltage 3V Before Shutdown ?

Yes Check Dimmer signal at CN201/pin 13 *Before Shutdown

Is voltage 1V to 3V Before Shutdown ?

Check for Open or Short

Replace A-Board

Check for Short

Replace A-Board

Yes

Issue Resolved

Yes

Check Inverter HV Outputs *Before Shutdown

Replace G2LE-Board G2HE-Board GD2-Boad

Is Backlight ON Before Shut Down? Yes

Yes

Is 12V Present ?

Is voltage 24V Before Shutdown ?

32" & 40" Models ONLY

Replace Inverter Board

Triage & Troubleshooting Flowcharts

Protection Mode 6X(46”) & 7X Troubleshooting Flowchart NOTES: 1) All Red Blink patterns will occur on the Front Panel Red “Standby” LED 2) All voltage are measured prior to unit shutdown 3) Confirm all connections between circuit boards before replacing

Protection Mode Troubleshooting Flowchart C 3 (AZ1K 32", 40", 46" Models)

C3 Unit Shuts OFF RED LED Blinking

Temperature Threshold Ambient 80°C

6X Blink Pattern (No Backlight)

7X Blink Pattern Temperature Error

46" Models ONLY

Check HV at CN6704 & CN6705 *Before Shutdown

Is voltage HV Before Shutdown ?

Yes

Does unit Shut-Down Immediately after Power ON ? No

Clear unit ventilation areas and confirm adequate local room temperature

Replace GD2-Board

Yes

Check Backlight-ON signak at CN201/pin 12 *Before Shutdown

Is voltage 3V Before Shutdown ? Yes

Does unit still shutdown (7X)?

Check Dimmer signal at CN201/pin 13 *Before Shutdown

Issue Resolved

Yes

Check for Open or Short

Replace A-Board

Is voltage 1V to 3V Before Shutdown ? Yes

Check for Short

Replace A-Board

Replace GD2-Board

CTV-61

Triage & Troubleshooting Flowcharts

Video Troubleshooting Flowchart Video Troubleshooting Flowchart D (AZ1K 32", 40", 46" Models)

D Missing or Distorted Video All Video Inputs : Composite Component HDMI PC IN ATSC/NTSC (Tuner) USB

NOTE : Confirm all connections between circuit boards before replacing

Is Video Missing or Distorted on All Inputs ?

Check External Device and Connections Swap Devices and connections

Is External Device & connection OK ?

Yes

Replace A-Board

Yes

Is Video Missing or Distorted ?

Repair External Device

Distorted

Is Distortion Present in User Menu OSD ?

Missing

Is Backlight ON ?

Go To Flowchart C 2

Replace A-Board

Yes Yes

Sharp Horizontal or Vertical Lines

Can User Menu be Displayed ?

Yes

Replace A-Board

Or check LVDS cable Video & Clock Signal Levels at CN4152/pins 1 - 49 using an Oscilloscope .

Yes

Skew (or Rock) the LVDS connector from its socket at the TCON/HFR Brd. (Reference TM for Details)

Replace LCD Panel

TM â&#x20AC;&#x201C; Training Manual

Are Flashes of color displayed ?

Yes

Replace TCON/HFR Board

CTV-61

Is Single Pixels or Complete Line of Pixels missing?

Replace A-Board

Replace LVDS Cable If Damaged

Check LVDS cable for Physical Damage

Cable OK

Perform WIDE Mode Test (Reference TM for Dertails)

Does Distortion follow picture size when changing WIDE mode ?

Yes

Replace A-Board

Replace TCON/HFR Board

Triage & Troubleshooting Flowcharts

Audio Troubleshooting Flowchart Audio Troubleshooting Flowchart E (AZ1K 32", 40", 46" Models)

NOTE: Confirm all connections between circuit boards before replacing

Missing or Distorted Audio (Speaker Outputs ) All Video Inputs : Composite Component HDMI PC IN ATSC/NTSC (Tuner) USB

Is Audio Missing or Distorted on All Inputs ?

Check External Device and Connections Swap Devices and connections

Yes

Replace A-Board

Repair External Device

Check Fix Audio Output

Is Audio Present?

Is External Device & connection OK ?

Replace A-Board

Yes

Check Voltage from Power Supply at CN6401/pin 4

Is 12V Present? Yes

CN6150 - 46"

Replace G2LE-Board G2HE-Board GD2-Boad

Check Speaker Resistance at CN8301 & CN8302 (across Speakers) & Connections

8 ohms & Connections OK?

Replace Speaker(s)

Yes

Replace A-Board

CTV-61

Appendix LCD Panel Distortion Pictures

The following distortions and anomalies where ďŹ xed by replacing the LCD Panel.

2' Solid Black Bar Distortion

CTV-61

Timing Distortion

Double Image Distortion

Ghosting Distortion

2" Solid White Bar Distortion

Sharp Lines & Missing Pixels

Appendix

TCON/HFR Board Distortion Pictures The following distortions and anomalies where ďŹ xed by replacing the TCON/HFR Board.

CTV-61

Large Blooming Distortion

Two Small Blooming Distortions

GAMMA Type Distortion

2" Transparent Colored Bar Distortion

Complete Washout Distortion

2" Transparent Colored bar Distortion

Appendix

TCON/HFR Board Distortion Pictures Continued The following distortions and anomalies where ďŹ xed by replacing the TCON/HFR Board.

2" White Bar w/ Random Colored Lines

Exact Half-Screen Distortion

Complete Washout w/ Colored Lines

CTV-61

Appendix

Video Board Distortion Pictures

The following distortions and anomalies where ďŹ xed by replacing the Video Board.

CTV-61

Green Carpet Raster

Multi-Colored Carpet Raster

Text Bleed Lines

Random Size Vertical Bars

Overall Red Tinting

Solarization

Appendix

Video Board Distortion Pictures Continued

The following distortions and anomalies where ďŹ xed by replacing the Video Board.

Partial Washout w/ Random Video Bar

Overall Blue Tinting w/ Soft Vertical Lines

Green Raster

Overall Green Tinting w/ Video Ghosting

Overall Red Tinting

CTV-61

and i.Link are trademarks of Sony Electronics

CTV610110

03/30/10