Philips 220V3SB/00, 220V3SB/00(AP), 220V3AB/00, 220V3SB/93, 220V3AB/01 Service Manual

...

Description Page

Important Safety Notice--------------------------------------2 Technical Data--------------------------------------------- -3~4 Installation-------------------------------------------------------5

On Screen Display-----------------------------------------8~9

Lock/unlock, Aging,Factory mode-------------------------10

---------------------------------11 Mechanical Instructions ------------------------------12~16

Color adjustment --------------------------------------------17

Electrical instruction ----------------------------------20~21

DDC Instructions & Serial Number -----------------24~30 DDC DATA -----------------------------------------------31~32

------------------------33~36

Philips Pixel Defect Policy

FAQs (Frequently Asked Questions)---------------18~19

Firmware Upgrade for CPU-

Horizontal frequencies

30-83kHz

TABLE OF CONTENTS

Description Page

-----------------------------------37

Wiring Diagram----------------------------------------------38 Block Diagram------------------------------------------------39

Power Control Diagram & C.B.A. -----------------------------47~48

Failure Mode Of Panel -

SAFETY NOTICE

Chassis:

REFERTO BACK COVER FOR

IMPORTANT SAFETY GUIDELINES

ANY PERSON

ATTEMPTING TOSERVICE THIS CHASSIS

MUST FAMILIARIZE

HIMSELF

WITH THE

CHASSIS

AND BE AW ARE OF THE NECESSAR Y SAFETY PRECAUTIONS

TO BE USED WHEN

SERVICING ELECTRONIC

EQUIPMENT CONTAINING

HIGH VOLTAGES.

CAUTION:

USE

A SEPARATE

ISOLATION TRANSFORMER FOR THIS UNIT WHEN SERVICING.

Published by Philips Consumer Lifestyle Copyright reserved Subject to modification JDec. 09 2011

Scaler Diagram & C.B.A. ------------------------------40~43

MERIDIAN 3

Troubleshooting---------------------------------------------6~7

Service Tool-----------------------------------------------22~23

220V3SB/00

inch

General product specification------------------------49~73 Exploded View -----------------------------------------------74

Spare/ arts List-------------------------75

Recommended P

PCBA photos---------------------------------------------------76

Repair tips-------------------------------------------------77~78 Repair Flow chart----------------------------------------79~80 Safety Test Requirments------------------------------------81

WSXGA

LCD Colour Monitor

TFT

Diagram & C.B.A.

------------------------------44~46

220V3SB/00(AP) 220V3SB/01 220V3SB/62 220V3SB/93 220V3AB/00 220V3AB/00(AP)

220V3AB/01

Auto Color & User reset

--------------------------------82~83

Important Safety Notice

Proper service

operation of all Philips Consumer Electronics Co

mpany

equipment. The service procedures

commended by

Phil

ips and

described in this service manual a

re eff

ect

ive method

sof

performing service ope

rations

.Someof

these servic

operations require the useof tools speciall y designed

for the

purpose. The spe

cial tools should be used w

hen and as

recomm ended.

It is im portant to note t hat this m anual c ontains various

CAUTI ON

S and NOTICES which should be

carefully read in

order to m inimize the risk of personal injury to servic

personnel . The possibility exists th

at im

proper

servi

methods may damage the equipment

. It is also important t

underst and that these CAUTIONS and NOTICES ARE NOT

EXHAUSTIVE. Phil

ips

could not possibly know, evaluate and

advise the servic etrade of all conceivable ways i n w

hic

service might be done or of the possible hazardous

consequences of each way. Consequently,Philips has not

undertaken any suc

h broad evalua

on. Accordingly

who uses a servi ce procedure or tool which is not

recommended by Philipsmust f

irst sati

sfy

himself thoroughly that

neither his saf ety nor the safeoperation of the equipment will

be jeopardized by the servi

ce method sel

ect ed.

* * Hereafter throughout this manu

al,

PhilipsConsumer

Electronics Company will be referred to as Philips

Critical components havingspecial safety characteristics are

identified with a by the Ref. No. in the parts list and

enclosed within a broken line

(where several critical co

mponents are grouped in

one area)

along with t

he safe

ty s

mbol on the schem atics

exploded vie

ws.

Use of substitute replacement parts w hich do no

t have the

same speci fied safety characteristic s may create

shock,

fire,

or other hazards .

Under no cir cumstances should th

e original

design be

modified or altered without written permission from Philip

Philips assumes no liabilit

y, express or implied, arising

out of

any unauthorized modification of design.

Servicer assumes all liability.

WARNING

Take care during handling the LCD module with backlight

unit

- Must mount the module using mounting holes arranged in four

corners.

- Do not press on the panel, edge of the frame strongly or electric

shock as this will result in damage to the screen.

- Do not scratch or press on the panel with any sharp objects, such

as pencil or pen as this may result in damage to the panel.

- Protect the module from the ESD as it may damage the electronic

circuit (C -MOS).

Make certain that treatment body are grounded through

wrist band.

- Do not leave the module in high temperature and

in areas of high

humidity for a long time.

- Avoid contact with water as it may as hort circuit within the module.

If the surface of panel become dirty

, please wi

pe it off with a soft

material. (Cleaning with a dirty or rough cloth may damage the

panel.)

FOR PRODUCTS CONTAINING LASER :

DANGER - Invisible laser radiation when open.

AVOID DIRECT EXPOSURE T

O BEAM.

CAUTION - Use of controls or adjustments or

performance of procedures other than

those specified herein may result

hazardous radiation exposure.

CAUTION - The use of optical instruments with this

product will increase eye hazard.

TO ENSURE THE CONTINUED RELIABILITY

OF THIS

PRODUCT, USE ONLYORIGINAL

MANUF

ACTURER'S

REPLACEMENT PAR TS, WHICH ARE LISTED WITH THEIR P

ART

NUMBERS IN THE PAR

TS LIST SECTION OF

THIS

SERVICE MANUAL.

and repair is important

to the sa

fe,

reliable

2 220V3 LCD

220V3 LCD 3

Technical Data

LGD

Type NR.

: LGD LM220WE1 TLP1

Resolution

: 1680x1050

Outside dimensions

: 493.7(H) *320.1(V) * 14.5 (D) mm(Typ.)

Pitch (mm) : 0.282mm x 0.282mm

Color pixel arrangement

: 1680 horizontal By 1050 vertical PVV9C ixels. RGB stripe arrangement.

Display surface

: Hard coating (3H), Anti-glare treatment of the front polarizer

Color depth

: 16.7 M colors 6-bit with H-FRC,

16.7M colors

Backlight : 2CCFL

Active area (W x H)

: 473.76mm x 296.10mm

View angle (CR=10) : >=160 Right/Left (Typ)

: >=160 Up/Down (Typ)

Contrast ratio

: >=700:1 (Typ)

White luminance

: 250 cd/m2(Typ. Center 1 point)

Gate IC

:LDI

Color gamut : >=72% Response time : 5 ms (Typ) Vertical frequency

range

:50~75 Hz

Scanning frequencies

Hor.: 30 – 60 K Hz

Ver.: 56 - 63 Hz

Video dot rate: < 210 MHz for VGA and < 170 MHz for DVI

Power input: 90-264 V AC, 50/60 r 2 Hz

Power consumption: Normal on: < 30 W (max)

Functions: (1) D-SUB analog R/G/B separate inputs, H/V sync

separated, Composite (H+V) TTL level, SOG sync.

(2)SOG sync: a. Sync select: H + V b. Sync select: SERR

(3) DVI digital Panel Link TMDS inputs, HDCP supported.

Ambient temperature: 0

C-40qC

Power input connection

Power cord length : 1.5 M

Power cord type : 3 leads power cord with protective earth plug.

Power management

Mode HSYNC VSYNC Video Pwr-cons. Indication

Power-On On On Active

<25W (typ.)

<32W(max.)

CCFL(220V3)

<30W (typ.)

<37W(max.)

CCFL(220V3A)

Standby Off Off Blanked < 0.5W

Blinking white

LED

Period 3ec

on, 3sec off

DC Power

Off

N/A < 0.5 W LED Off

PIN No. SIGNAL PIN No. SIGNAL

1 Red 9 DDC +3.3V or +5V 2 Green/ SOG 10 Logic GND 3 Blue 11 Sense (GND) 4 Sense (GND) 12 Bi-directional data 5 Cable Detect (GND) 13 H/H+V sync 6 Red GND 14 V-sync 7 Green GND 15 Data clock 8 Blue GND

Susceptibility of display to external environment

Operating

- Temperature : 0 to 40 degree C

- Humidity : 80% max

- Altitude : 0-3658m

- Air pressure : 600-1100 mBAR

Storage

- Temperature : -20 to 60 degree C

- Humidity : 95% max

-Altitude :0-12192m

- Air pressure : 300-1100 mBAR

Note: recommend at 5 to 35qC, Humidity less than 60 %

Pin No. Description

1 T.M.D.S. data2-

2 T.M.D.S. data2+

3 T.M.D.S. data2 shield

4 No Connect

5 No Connect

6 DDC clock

7 DDC data

8 No Connect

9 T.M.D.S. data1-

10 T.M.D.S. data1+

11 T.M.D.S. data1 shield

12 No Connect

13 No Connect

14 +5V Power

15 Ground (for +5V)

16 Hot plug detect

17 T.M.D.S. data0-

18 T.M.D.S. data0+

19 T.M.D.S. data0 shield

20 No Connect

21 No Connect

22 T.M.D.S clock shield

23 T.M.D.S. clock+

24 T.M.D.S. clock-

4 220V3 LCD

Technical Data

SEC

Type NR.

: SEC LTM220MT05

Resolution

: 1680x1050

Outside dimensions

: 493.7(H) *320.1(V) * 17 (D) mm(Typ.)

Pitch (mm) : 0.282mm x 0.282mm

Color pixel arrangement

: 1680 horizontal By 1050 vertical PVV9C ixels. RGB stripe arrangement.

Display surface

: Hard coating (3H), Anti-glare treatment of the front polarizer

Color depth

: 16.7 M colors 6-bit with H-FRC,

16.7M colors

Backlight : 2CCFL

Active area (W x H)

: 473.76mm x 296.10mm

View angle (CR=10) : >=160 Right/Left (Typ)

: >=160 Up/Down (Typ)

Contrast ratio

: >=700:1 (Typ)

White luminance

: 250 cd/m2(Typ. Center 1 point)

Gate IC

:LDI

Color gamut : >=72% Response time : 5 ms (Typ)

Scanning frequencies

Hor.: 30 – 60 K Hz

Ver.: 56 - 63 Hz

Video dot rate: < 210 MHz for VGA and < 170 MHz for DVI

Power input: 90-264 V AC, 50/60 r 2 Hz

Power consumption: Normal on: < 30 W (max)

Functions: (1) D-SUB analog R/G/B separate inputs, H/V sync

separated, Composite (H+V) TTL level, SOG sync.

(2)SOG sync: a. Sync select: H + V b. Sync select: SERR

(3) DVI digital Panel Link TMDS inputs, HDCP supported.

Ambient temperature: 0

C-40qC

Power input connection

Power cord length : 1.5 M

Power cord type : 3 leads power cord with protective earth plug.

Power management

Mode HSYNC VSYNC Video Pwr-cons. Indication

Power-On On On Active

<25W (typ.)

<32W(max.)

CCFL(220V3)

<30W (typ.)

<37W(max.)

CCFL(220V3A)

Standby Off Off Blanked < 0.5W

Blinking white

LED

Period 3ec

on, 3sec off

DC Power

Off

N/A < 0.5 W LED Off

PIN No. SIGNAL PIN No. SIGNAL

Susceptibility of display to external environment

Operating

- Temperature : 0 to 40 degree C

- Humidity : 80% max

- Altitude : 0-3658m

- Air pressure : 600-1100 mBAR

Storage

- Temperature : -20 to 60 degree C

- Humidity : 95% max

-Altitude :0-12192m

- Air pressure : 300-1100 mBAR

Note: recommend at 5 to 35qC, Humidity less than 60 %

Pin No. Description

1 T.M.D.S. data2-

2 T.M.D.S. data2+

3 T.M.D.S. data2 shield

4 No Connect

5 No Connect

6 DDC clock

7 DDC data

8 No Connect

9 T.M.D.S. data1-

10 T.M.D.S. data1+

11 T.M.D.S. data1 shield

12 No Connect

13 No Connect

14 +5V Power

15 Ground (for +5V)

16 Hot plug detect

17 T.M.D.S. data0-

18 T.M.D.S. data0+

19 T.M.D.S. data0 shield

20 No Connect

21 No Connect

22 T.M.D.S clock shield

23 T.M.D.S. clock+

24 T.M.D.S. clock-

220V3 LCD 5

Installation

Front View Product Description

Rear View

Accessory Pack

Unpack all the parts

Connecting to Your PC

1) Connect the power cord to the back of the monitor firmly. (Philips has pre-connected VGA cable for the first installation.

6 220V3 LCD

Troubleshooting

220V3 LCD 7

Troubleshooting

8 220V3 LCD

On-Screen Display

Description of the On Screen Display

What is the On-Screen Display?

On-Screen Display (OSD) is a feature in all Philips LCD monitors. It allows an end user to adjust screen performance or

select functions of the monitors directly through an on-screen instruction window. A user friendly on screen display

interface is shown as below :

Basic and simple instruction on the control keys.

In the OSD shown above users can press

buttons at the front bezel of the monitor to move the cursor, to

confirm the choice or change.

220V3 LCD 9

On-Screen Display

The OSD Tree

Below is an overall view of the structure of the On-Screen Display. You can use this as a reference when you want to work

your way around the different adjustments later on.

10 220V3 LCD

Lock/Unlock,Aging,Factory Mode

To lock/unlock OSD FUNCTION(User Mode)

The OSD function can be locked by pressing"OK"button(1) for more than 10 seconds, the screen shows following windows for 4 seconds. Every time when you press"OK" button, this message appears on the screen automatically .

Unlock OSD function

Unlocked OSD function can be released by pressing "OK" button for more than 10 seconds again.

Access Factory Mode

1). Turn off monitor.

2). [Push "EXIT" & "MENU" buttons at the same time and hold them]+[Press "power" button until comes out "Windows screen" ] => then release all buttons

3).Press "MENU" button, wait until the OSD menu with Characters " MERIDIAN 220V3 V1.0 11-10-13” (below OSD menu) come on the Screen of the monitor.

Factory Mode indicator

Factory Menu

Cursor can move on gray color area Hot key function: by pressing " UP " and " DOWN " key Simultaneously at User Mode (or Factory Mode) (PS: The Of fset R G B function can be used on reduce or eliminate snowy noise on the background when the resolution of video signal is 1680*1050vertical 60Hz. Slightly increase or decrease the value until snowy noise completely disappear .

Access Aging Mode

Step 1 : Access Factory Mode then enter Factory Menu. Step 2 : By pressing " UP" and " DOWN " key to Burning Icon. Press "MENU then press " UP" and "DOWN " key to turn on Aging Mode.

Step 3 : Disconnect interface cable between Monitor and PC.

After 3 seconds, bring up:

repeatly Connect Signal cable again=> go back to normal display

220V3 LCD 11

Philips Pixel Defect Policy

Philips' Flat Panel Monitors Pixel Defect Policy

Philips strives to deliver the highest quality products. We use some of the industry's most advanced manufacturing processes and practice stringent quality control. However, pixel or sub pixel defects on the TFT LCD panels used in flat panel monitors are sometimes unavoidable. No manufacturer can guarantee that all panels will be free from pixel defects, but Philips guarantees that any monitor with an unacceptable number of defects will be repaired or replaced under warranty. This notice explains the different types of pixel defects and defines acceptable defect levels for each type. In order to qualify for repair or replacement under warranty, the number of pixel defects on a TFT LCD panel must exceed these acceptable levels. For example, no more than 0.0004% of the sub pixels on a 19" XGA monitor may be defective. Furthermore, Philips sets even higher quality standards for certain types or combinations of pixel defects that are more noticeable than others. This policy is valid worldwide.

Pixels and Sub pixels

A pixel, or picture element, is composed of three sub pixels in the primary colors of red, green and blue. Many pixels together form an image. When all sub pixels of a pixel are lit, the three colored sub pixels together appear as a single white pixel. When all are dark, the three colored sub pixels together appear as a single black pixel. Other combinations of lit and dark sub pixels appear as single pixels of other colors.

Types of Pixel Defects

Pixel and sub pixel defects appear on the screen in different ways. There are two categories of pixel defects and several types of sub pixel defects within each category.

Bright Dot Defects Bright dot defects appear as pixels or sub pixels that are always lit or 'on'. That is, a bright dot is a sub-pixel that stands out on the screen when the monitor displays a dark pattern. There are the types of bright dot defects:

One lit red, green or

blue sub pixel

Two adjacent lit sub

pixels:

- Red + Blue =

Purple

- Red + Green =

Yellow

- Green + Blue =

Cyan (Light Blue)

Three adjacent lit sub

pixels (one white

pixel)

A red or blue bright dot must be more than 50 percent brighter

than neighboring dots while a green bright dot is 30 percent

brighter than neighboring dots.

Black Dot Defects Black dot defects appear as pixels or sub pixels that are always dark or 'off'. That is, a dark dot is a sub-pixel that stands out on the screen when the monitor displays a light pattern. These are the types of black dot defects:

One dark sub pixel Two or three adjacent dark sub pixels

Proximity of Pixel Defects

Because pixel and sub pixels defects of the same type that are near to one another may be more noticeable, Philips also specifies tolerances for the proximity of pixel defects.

Pixel Defect Tolerances

In order to qualify for repair or replacement due to pixel defects during the warranty period, a TFT LCD panel in a Philips flat panel monitor must have pixel or sub pixel defects exceeding the tolerances listed in the following tables.

BRIGHT DOT DEFECTS

ACCEPTABLE

LEVEL

MODEL

220V3(L)(A)

1 lit subpixel 3

2 adjacent lit subpixels 1

3 adjacent lit subpixels (one white pixel) 0

Distance between two bright dot defects* >15mm

Total bright dot defects of all types 3

BLACK DOT DEFECTS

ACCEPTABLE

LEVEL

MODEL

220V3(L)(A)

1 dark subpixel 5 or fewer

2 adjacent dark subpixels 2 or fewer

3 adjacent dark subpixels 0

Distance between two black dot defects* >15mm

Total black dot defects of all types 5 or fewer

TOTAL DOT DEFECTS

ACCEPTABLE

LEVEL

MODEL

220V3(L)(A)

Total bright or black dot defects of all types

5 or fewer

Note:

* 1 or 2 adjacent sub pixel defects = 1 dot defect

220V3 LCD

Mechanical Instruction

Preparation before disassemble

1.Clean the room for disassemble

2.Identify the area for monitor

3.Check the position that the monitors be placed and the quantity of the monitor ;prepare the area for material flow;

according to the actual condition plan the disassemble layout

4.Prepare the implement, equipments, materials as bellow:

1) Press-fixture

2) working table

3) Screw-driver

4) knife*1

5) glove

6) cleaning cloth

7) ESD protection

item picture Operation Tool Notes

Press the locking clips to

detach the base stand

away from the base

column.

1 Presses the button, at the

same tine remove the

CLMN BTM.

220V3 LCD

2 Remove CVR Hinge knife

3 Disassemble the screws,

and then remove ASSY

CLMN

Screw-driver

4 Turn over the monitor,

break BZL and RC apart.

And Turn over the

monitor again, remove

RC.

Follow the

order of the

picture

Pull out the SPK wire

Disassemble the SPK.

220V3A,220V3LA

220V3 LCD

Remove the tapes,

remove the

AL-Tape

unlock lamp wire, CTRL

BD wire from PCBA,

unlock LVDS FFC wire

from Panel.

7 Break SHD and BZL

apart.

Be careful :

do not break

the rib and

column

220V3L

220V3

220V3 LCD

Remove Panel, and then

disassemble CTRL BD

from the BZL.

Disassemble CTRL BD

wire.

Be careful :

do not break

the rib on

the CTRL

BD .

Disassemble screw mach

steel˖

1A˖2pcs,

1A1D˖4pcs

Screw-driver

Turn over the SHD

Diassemble 6 crews

Screw-driver

234

220V3 LCD

11 Take PCBA out from

SHD.

Unlock power BD wire

from IF BD, unlock LVDS

FFC wire from IF BD

220V3 LCD 17

Color Adjustment

Alignment procedure

1. Turn on the LCD monitor

2. Turn on the Timing/pattern generator. See Fig.1

3. Preset LCD color Analyzer CA-1 10

-Remove the lens protective cover of probe CA-A30.

-Set measuring/viewing selector to measuring position for reset analyzer .(zero calibration) as Fig.2

- Turn on the color analyzer (CA-1 10)

-Press 0-CAL button to starting reset analyzer .

Fig. 1 Fig.2

4. Access Factory Mode

1). Turn off monitor.

2). [Push "AUTO" & "MENU" buttons at the same time and hold them]

+[Press "power" button untill comes out "Windows screen" ] => then release all buttons

3).Press "MENU button, wait until the OSD menu with Characters " MERIDIAN 220V3 V1.0 11-10-13” (below OSD menu) come on the Screen of the monitor as shown in Fig3.

Factory Mode indicator

Fig. 3

4). Press button, then select factory mode indicator by "MENU" "LEFT" or "RIGHT" button .Press"MENU" button to bring up submenu windows as below:

Fig. 4

Fig.5

5.Display Press "UP" or "DOWN" button to select . Change the value by "UP" or "DOWN" key until the X, Y co-ordinates as below

5.1

Color temperature adjustment There are six factory preset white color 11500K, 9300K, 8200K, 7500K, 6500K, sRGB, 5000K Align by Philips PerfecTune (also called FGA) function. Apply full white pattern, with brightness in 100 % position and the contrast control at 50 % position. The 1931 CIE Chromaticity (color triangle) diagram (x , y) coordinate for the screen center should be:

Product specification

CIE coordinates

(x,y)

11500K x = 0.270 ± 0.02

= 0.281 ± 0.02

PerfecTune II

9300K x = 0.283 ± 0.02

= 0.297 ± 0.02

PerfecTune II

8200K x = 0.291 ± 0.02

= 0.306 ± 0.02

PerfecTune II

7500K x = 0.298 ± 0.02

= 0.314 ± 0.02

PerfecTune II

6500K/sRGB x = 0.313 ± 0.02

= 0.329 ± 0.02

PerfecTune II

sRGB x = 0.313 ± 0.02

= 0.329 ± 0.02

PerfecTune II

5000K x = 0.345 ± 0.02

= 0.357 ± 0.02

PerfecTune II

Production alignment spec

CIE

coordinates

(x,y)

11500K x = 0.270 ± 0.006

= 0.281 ± 0.006

PerfecTune II

9300K x = 0.283 ± 0.006

= 0.297 ± 0.006

PerfecTune II

8200K x = 0.291 ± 0.006

= 0.306 ± 0.006

PerfecTune II

7500K x = 0.298 ± 0.006

= 0.314 ± 0.006

PerfecTune II

6500K/sRGB x = 0.313 ± 0.006

= 0.329 ± 0.006

PerfecTune II

sRGB x = 0.313 ± 0.006

= 0.329 ± 0.006

PerfecTune II

5000K x = 0.345 ± 0.006

= 0.357 ± 0.006

PerfecTune II

Quality Inspection specification

CIE

coordinates

(x,y)

9300K x = 0.283 ± 0.015

= 0.297 ± 0.015

6500K/sRGB x = 0.313 ± 0.015

= 0.329 ± 0.015

sRGB x = 0.313 ± 0.015

= 0.329 ± 0.015

18 220V3 LCD

FAQs (Frequently Asked Questions)

220V3 LCD 19

FAQs (Frequently Asked Questions)

20 220V3 LCD

Electrical Instructions

Electrical characteristics

1. Interface signals

1.1 D-Sub Analog Input signal: Video, Hsync., Vsync Video: 0.7 Vp-p, input impedance, 75 ohm @DC Sync.: Separate sync TTL level , input impedance 2.2k ohm terminate

Hsync Positive/Negative Vsync Positive/Negative

Composite sync TTL level, input impedance 2.2k ohm terminate (Positive/Negative)

Sync on green video 0.3 Vp-p Negative (Video 0.7 Vp-p Positive)

1.2 DVI-D Digital Input signal: Single TMDS link (Three channels: RX0-/+, RX1-/+, RX2-/+)

2. Interface

2.1 D-Sub Cable Length : 1.5 M +/- 50 mm Fix with monitor when packing, with transplant pin protective cover. Connector type : D-Sub male with DDC2B pin assignments.

Blue connector thumb-operated jack screws

2.2 DVI Cable

The input signals are applied to the display through DVI-D cable.

Length : 1.8 M +/- 50 mm

Connector type : DVI-D male with DDC-2B pin assignments White connector thumb-operated jackscrews With transplant pin protective cover.

3. Timing requirement

3.1 Factory Preset mode definitions:

3.1.1 Perfect FOS while presenting those timings.

3.1.2 Will specify those timing in User's Manual

3.2 Preset mode definition:

3.2.1 Need to support those timings.

3.2.2 Perfect FOS after auto adjustment.

3.3 User mode

3.3.1 Can save those timing that not in Preset mode and can be showed (not over scalar or Panel spec.)

3.3.2 It needs to reserve the 10 timings space in memory size.

3.3.3 Factory modes and preset modes are defined in the enclosed timing table file

Preset mode Timing

Factory Preset

mode

Timing

Preset mode Timing

Factory Preset

mode

Timing

Preset mode Timing

Factory

Preset mode Timing

res et

mod

Preset mode

Timing

Factory Preset

mode Timing

57 17 57 16 53 15 54 16 5

DOS 640x350/70

25.18 31.47 70.09 449 p / n * * * *

DOS 720x400/70

28.3231.4770.09449n / p******** *

DMT 4:3 640x480/60

25.1831.4759.94525n / n******** *

MAC 640x480/67

30.2435.0066.67525n / n*******

DMT 4:3 640x480/72

31.5037.8672.81520n / n*******

DMT 4:3 640x480/75

31.5037.5075.00500n / n*******

DMT 4:3 640x480/85

36.00 43.27 85.01 509 n / n

DMT 4:3 800x600/56

36.00 35.16 56.25 625 p / p * * * *

DMT 4:3 800x600/60

40.0037.8860.32628p / p******** *

DMT 4:3 800x600/72

50.00 48.08 72.19 666 p / p * * * *

DMT 4:3 800x600/75

49.5046.8875.00625p / p*******

DMT 4:3 800x600/85

56.25 53.67 85.06 631 p / p

MAC 832x624/75

57.28 47.73 74.55 667 n / n * * * *

960x720/60

57.58 44.74 59.97 746 n / p

960x720/75

72.42 56.40 75.00 752 n / p

WVGA 1024X600/60

****

DMT 4:3 1024x768/60

65.0048.3660.00806n / n******** *

DMT 4:3 1024x768/70

75.00 56.48 70.07 806 n / n * * * *

DMT 4:3 1024x768/75

78.7560.0275.03800p / p*******

IBM 1024x768/76

83.10 61.10 76.00 803 p / p * * * *

DMT 1024x768/85

94.50 68.68 85.00 808 p / p

1152x864/60

79.90 54.00 60.00 900 p / p * * * *

1152x864/70

94.50 63.90 70.00 912 p / p * * * *

DMT 1152x864/75

108.00 67.50 75.00 900 p / p * * * *

MAC 1152x870/75

100.00 68.68 75.06 915 n / n * * * *

SUN 1152x900/66

92.94 61.80 65.95 937 p / p * * * *

SUN 1152x900/76

105.56 71.71 76.05 943 p / p * * * *

CVT 16:9 1280x720/60

74.50 44.77 59.86 748 n / p * * * *

1280x720/70

89.04 52.50 70.00 750 n / p * * *

CVT 16:9 1280x720/75

95.75 56.46 74.78 755 n / p * * *

CVT 16:9 1280x720/85

110.25 64.40 84.85 759 n / p

CVT 15:9 1280x768/60

79.50 47.78 59.87 798 n / p * * * *

CVT 15:9 1280x768/75

102.25 60.29 74.89 805 n / p * * * *

CVT 15:9 1280x768/85

117.50 68.63 84.84 809 n / p

CVT 1280x800/60

83.50 49.70 59.81 831 n / p * * * *

CVT 1280x800/75

106.50 62.80 74.93 838 n / p * * * *

CVT 1280x800/85

122.50 71.55 84.88 843 n / p

DMT 4:3 1280x960/60

108.00 60.00 60.00 1000 p / p * * *

CVT 4:3 1280x960/75

130.00 75.23 74.86 1005 n / p * * *

DMT 4:3 1280x960/85

148.50 85.94 85.00 1011 p / p

DMT 5:4 1280x1024/60

108.00 63.89 60.02 1066 p / p *******

SUN 5:4 1280x1024/66

117.00 71.70 67.00 1067 p / p * * * *

DOS 5:4 1280x1024/72

130.22 76.00 72.00 1064 p / p * * * *

DMT 5:4 1280x1024/75

135.00 79.98 75.03 1066 p / p *******

SUN 5:4 1280x1024/76

138.01 81.10 76.00 1066 n / n * * * *

DMT 5:4 1280x1024/85

157.50 91.15 85.02 1072 p / p

DMT 16:9 1360x768/60

85.50 47.71 60.02 795 p / p *

CVT 16:9 1360x768/75

109.00 60.29 74.89 805 n / p

CVT 16:9 1366x768/60

85.50 47.71 59.79 798 p / p * *

CVT 4:3 1400x1050/60_RB

101.00 64.74 59.94 1080

CVT 4:3 1400x1050/75

156.00 82.28 74.87 1099

CVT 4:3 1400x1050/85

179.50 93.88 84.96 1105

CVT 1440x900/60_RB

88.75 55.47 59.90 926 p / n * * * *

CVT 1440x900/60

106.50 55.94 59.89 934 n / p *******

CVT 1440x900/75

136.75 70.64 74.98 942 n / p *******

CVT 1440x900/85

157.00 80.43 84.84 948 n / p

VDMTREV 1600x900/60

108.00 60.00 60.00 *

1600x900/75

75.00

1600x1000/60

DMT 4:3 1600x1200/60

162.00 75.00 60.00 1250 p / p * * * *

CVT 16:10 1680x1050/60_RB

119.00 64.67 59.88 1080 p / n * * * * *

CVT 16:10 1680x1050/60

146.25 65.29 59.95 1089 n / p *******

CVT 16:10 1680x1050/75

187.00 82.31 74.90 1099 *

CVT 16:9 1920x1080/60_RB

138.50 66.59 59.93 1111 p / n * * * *

CVT 16:9 1920x1080/60_RB

148.50 67.50 60.00 1125 p / p * * * *

CVT 16:9 1920x1080/60

173.00 67.16 59.96 1120 ****

CVT 16:10 1920x1200/60_RB

154.00 74.04 59.95 1235 p / n * * * *

CVT 16:10 1920x1200/60

193.25 74.56 59.89 1245 n / p * * *

480i

*****

480p

*****

720p

*****

1080i

*****

1080p

*****

576i

*****

576p

*****

720p

*****

1080i

*****

1080p

*****

1080p

Video Timing VGA,DVI,HDMI and DisplayPort need to do internal firmware support

00X

Resolution

Pixel Rate

( MHz )

Horizont

( KHz )

Vertical

( Hz )

V_Total

( Line )

50Hz

1366X768 Note book panel

24Hz

Polarity ( H / V )

1920X1200 1920X1080 1680X1050

60Hz

220V3 LCD 21

Electrical Instructions

White color adjustment

There are three factory preset white color 9300K, 6500K, sRGB. Apply full gray64 pattern, with brightness in 100 % position and the contrast control at 50 % position.The 1931 CIE Chromaticity (color triangle) diagram (x ,y) coordinate for the screencenter should be:

Product specification

CIE coordinates (x,y)

11500K x = 0.270 ± 0.02

y = 0.281 ± 0.02

PerfecTune II

9300K x = 0.283 ± 0.02

y = 0.297 ± 0.02

PerfecTune II

8200K x = 0.291 ± 0.02

y = 0.306 ± 0.02

PerfecTune II

7500K x = 0.298 ± 0.02

y = 0.314 ± 0.02

PerfecTune II

6500K/sRGB x = 0.313 ± 0.02

y = 0.329 ± 0.02

PerfecTune II

sRGB x = 0.313 ± 0.02

y = 0.329 ± 0.02

PerfecTune II

5000K x = 0.345 ± 0.02

y = 0.357 ± 0.02

PerfecTune II

Production alignment spec.

CIE coordinates (x,y)

11500K x = 0.270 ± 0.006

y = 0.281 ± 0.006

PerfecTune II

9300K x = 0.283 ± 0.006

y = 0.297 ± 0.006

PerfecTune II

8200K x = 0.291 ± 0.006

y = 0.306 ± 0.006

PerfecTune II

7500K x = 0.298 ± 0.006

y = 0.314 ± 0.006

PerfecTune II

6500K/sRGB x = 0.313 ± 0.006

y = 0.329 ± 0.006

PerfecTune II

sRGB x = 0.313 ± 0.006

y = 0.329 ± 0.006

PerfecTune II

5000K x = 0.345 ± 0.006

y = 0.357 ± 0.006

PerfecTune II

Quality Inspection specification:

CIE coordinates (x,y)

9300K x = 0.283 ± 0.015

y = 0.297 ± 0.015

6500K/sRGB x = 0.313 ± 0.015

y = 0.329 ± 0.015

sRGB x = 0.313 ± 0.015

y = 0.329 ± 0.015

22 220V3 LCD

Service tool-Hardware

PCM code 12NC

5E.L8215.001 996510019769

1. (For DDC update)

2. (For FW update)

RTD USB ISP BD

220V3 LCD 23

Service tool-Software

FW writing tool :

RTD_Customer_Tool_V2.1_Beta3_Install_20110701.exe

24 220V3 LCD

DDC Instructions

DDC Data Re-programming

In case the DDC data memory IC or main EEPROM which storage all factory settings were

replaced due to a defect, the serial numbers have to be re-programmed "Analog

DDC IC, Digital DDC IC & EEPROM".

It is advised to re-soldered DDC IC and main EEPROM from the old board onto the new

board if circuit board have been replaced, in this case the DDC data does not need to be

re-programmed.

Additional information

Additional information about DDC (Display Data Channel) may be obtained from Video

Electronics Standards Association (VESA).

Extended Display Identification Data(EDID) information may be also obtained from

VESA.

Configuration and procedure

"PI-EDID" The software is provided by IMS to upgrade the firmware of CPU.

PI-EDID Tools is for the interface between "Parallel Port of PC" and "15 pin-D-SUB

connector of Monitor".

It is a windows-based program, which cannot be run in MS-DOS.

System and equipment requirements

1. An Pentium (or above) personal computer or compatible.

2. Microsoft operation system Windows 95/98/2000/XP and Port95NT.exe.

3. EDID Software "QEDID.exe"

4. ISP boardas shown in Fig. 1

And I2C Board Jump wire should follow J10 (short), J9 (open), J5/J6/ (1and 2 pin short)

J7/J8 (1 and 2 pin short)

Connected to print cord and PC

Connected to Display Signal Cable

1 2

3 2

Fig.1

220V3 LCD 25

DDC Instructions

5. Connect and Mains cord to Monitor as shown in Fig.2.

Fig.2

Pin assignments :

A. 15-pin D-Sub Connector

B. Input DVI Connector pin

Pin Signal Assignment Pin Signal assignment

TMDS RX2-

13 Floating

2TMDS RX2+ 14 +5V Power

3 TMDS Ground 15

Self-test (Cable

detector) 4 Floating 16 Hot Plug Detect 5 Floating 17 TMDS RX06 DDC Clock 18 TMDS RX0+ 7 DDC Data 19 TMDS Ground 8 Floating 20 Floating 9TMDS RX1- 21 Floating

10 TMDS RX1+ 22 TMDS Ground 11 TMDS Ground 23 TMDS Clock+ 12 Floating 24 TMDS Clock-

PIN No. SIGNAL PIN No. SIGNAL

26 220V3 LCD

DDC Instructions

6. Setup the Philips-IMS EDID Tools program

Step 1: Open Q-EDID V030 Software into your folder as shown in Fig.3. and Fig.4.

Fig.3

Fig.4

220V3 LCD 27

DDC Instructions

Step 2: Press “Open File” then choose

220V3L_EDID_VGA.ddc or 220V3L _EDID_DVI.ddc as shown in Fig. 5 .

Fig.5

28 220V3 LCD

DDC Instructions

Step 3 : Load DDC file success as shown in Fig. 6 .

Fig.Step 4 : update Serial number and press enter to correct S/N number

shown as Fig.7 .

Fig.7

220V3 LCD 29

DDC Instructions

Step 5 : Press “RUN” to write EDID and serial number shown as Fig.8 .

Fig.8

Step 6 : EDID and serial number update success shown as Fig.9

Fig.9

30 220V3 LCD

DDC Instructions

8. Press “Read EDID” to read EDID and serial number shown as Fig.10 . and check

Serial number is the same as we set.

Note: If not the same, please rewrite EDID S/N again.

Fig.10

Serial Number Definition

220V3 LCD 31

DDC DATA

Analog DDC //////////Displaying Monitor EDID//////////

****************************************************************** **** EDID Data (128 bytes) ****************************************************************** ****

00 FF FF FF FF FF FF 00

41 0C 92 C0 01 00 00 00

20 15 01 03 6E 31 20 78

2A E0 6C AB 5D 54 A4 2D

19 57 5C BF EF 80 81 00

81 80 01 01 01 01 01 01

01 01 01 01 01 01 21 39

90 30 62 1A 1E 40 68 B0

33 00 DA E6 10 00 00 1E

00 00 00 FF 00 43 53 30

41 31 30 30 30 30 30 30

30 31 00 00 00 FC 00 50

68 69 6C 69 70 73 20 32

32 30 56 0A 00 00 00 FD

00 38 4C 1E 53 11 00 0A

20 20 20 20 20 20 00 30

32 220V3 LCD

DDC DATA

DVI DDC

//////////Displaying Monitor EDID////////// ****************************************************************** **** EDID Data (128 bytes) ****************************************************************** ****

00 FF FF FF FF FF FF 00

41 0C 92 C0 01 00 00 00

20 15 01 03 80 31 20 78

2A E0 6C AB 5D 54 A4 2D

19 57 5C BF EF 80 81 C0

81 80 01 01 01 01 01 01

01 01 01 01 01 01 21 39

90 30 62 1A 1E 40 68 B0

33 00 DA E6 10 00 00 1E

00 00 00 FF 00 43 53 30

41 31 30 30 30 30 30 30

30 31 00 00 00 FC 00 50

68 69 6C 69 70 73 20 32

32 30 56 0A 00 00 00 FD

00 38 4C 1E 53 11 00 0A

20 20 20 20 20 20 00 5E

220V3 LCD 33

Firmware Upgrade for CPU

1. Hardware Requirement:

Step 1: Prepare following items

a. PC with 2K or XP system

b. USB cable x1

c. D-sub cable x2

d. Power cord x1

e. RTD USB ISP BD

Step 2: Connect the cables to PC, Monitor and RTD USB ISP BD

a. Connect USB cable between PC and RTD USB ISP BD

b. Connect one D-sub cable between PC and RTD USB ISP BD

c. Connect one D-sub cable between Monitor and RTD USB ISP BD

d. Connect the power cord firmly to the Monitor and the electrical outlet

VGA VGA

34 220V3 LCD

Firmware Upgrade for CPU

2. Software prepare Step 1:

Un-zip Port95nt and install into your computer.

Step 2:

Un-zip ISP application tool (

RTD_Customer_Tool_V2.1_Beta3_Install_20110701.rar) and install.

Step 3:

1. Click on “RTD Customer Tool” to run the program

Select USB item, then press “ISP” button and RTD Serial Flash type to execute firmware program

application.

3. Select “Serial Flash” sub-sheet and press “ISP Option” to set appropriate setting for Monitor

220V3 LCD 35

Firmware Upgrade for CPU

Step 4:

1. Select “Flash Protect” sheet and choose ““Auto Detect Flash Protect Pin”

2. For “Basic Setting” sheet, select “Bin” in File Type option. And exit ISP Option.

Step 5: Press “BigBin” button to read FW bin file.

36 220V3 LCD

Step 6: Press button to upgrade FW.

In Progress ~

Step 7: When finish, it will show PASS

Failure Mode Of Panel

Failure description

Phenomenon

Vertical block defect

Vertical dim lines

Vertical lines defect (Always bright or dark)

Horizontal block defect

Horizontal dim lines

Horizontal lines defect (Always bright or dark)

Has bright or dark pixel

Polarizer has bubbles

Foreign material inside polarizer . It shows liner or dot shape.

Concentric circle formed

Bottom back light of LCD is brighter than normal

Back light un-uniformity

Backlight has foreign material. Black or white color, liner or circular type

Quick reference for failure mode of LCD panel

this page presents problems that could be made by LCD panel. It is not necessary to repair circuit board. Simply follow the mechanical instruction on this manual to eliminate failure by replace LCD panel.

220V3 LCD 37

38 220V3 LCD

Wiring Diagram

220V3 LCD 39

Block Diagram

Scalar Diagram & C.B .A

40 220V3 LCD

A A

C C

D D

RED+

RED-

SOG

G R EEN-

GREEN +

BLUE+

BLUE-

RAI+

RAI-

BAI-

GAI+

GAI-

BAI+

RED+

RED-

SOG

GREEN -

GREEN +

BLUE+

BLUE-

VGA_D ET

V_Sync

H_Sync

VGA_SDA

VGA_SCL

VGA_PC _5V

VGA_PC_5V

VGA_PC_5V+3.3V

VGA_3.3V

A_Detect

VGA_

PC_5V

VGA_3.3V

EDID_W P

R33 :

10K J ʈ 47K J

0.43 mA ʈ 0.09 mA

for Low power

Hiko 2009.10.02

R35:20KJʈ 47K J

BJT can work on 1:5

Hiko 2009.10.02

R26 , R29 (Dxx Solution)

2010.11.08

<< For SOG signal >>

SMT:R9=1KJ

SMT : C5 = 0.022 U KJ

U2: DSN is 7B.02402.E01. BOM is 7B.02402.C01

R33

47K J

75 J

TP2

AZ C 099-04S

I/O 1

GND

I/O 3

VDD5I/O 4

I/O 2

Z60

R31

10K J

R10

100 J

R35

47K J

TP3

75 J

C5 0.022U K

Z60

TP4

C1 NC _0.1U Z

1K J

R12

150 J

NC _75 J

R24

47 J

TP8

AZ C099-04S

I/O 1

GND

I/O 3

VDD

I/O 4

I/O 2

C15 0.047U 16V

R20

100 J

NC _4.7P C

R11

NC _1M J

AT 24 C02N -10SU-1.8

GND

VCC

SCL

SDA

75 J

R15

150 J

R14

NC _75 J

R25

47 J

TP10

TP5

R18

12K J

R36

NC _20K

R22

NC _75 J

TP9

C17

22P J

R32

10K J

47P J

75 J

C2 0.047U 16V

R16

100 J

C8 0.047U 16V

C11 0.047U 16V

R19

12K J

2N3904S

E C

R17

100 J

47P J

2K24012B 15

283

131415

G1G2

R13

75 J

C4 0.047U 16V

R26 0J

TP1

R27

1K J

C10 0.047U 16V

R34

NC_10K J

C14

NC _0.1U Z

C12

NC _4.7P C

TP7

R21

75 J

NC _4.7P C

C13

0.1U Z

C16

22P J

75 J

TP6

R29 0J

Z60

R30

1K J

R23

100 J

DN1

BAV70LT1G

100 J

R28

10K J

A A

B B

C C

D D

Scalar Diagram & C.B .A

220V3 LCD 41

RXOC-

RXO3+

SPI_DO

RXE0+

SPI_CLK

RXE2-

RXO0+

RXO3-

VGA _CABLE_DET

RXO1+

RXE2+

RXO2-

RXE1-

RXE3-

RXO1-

RESETB

DVI_CABLE_DET

RXO2+

RXE0-

SPI_DI

RXE1+

RXO0-

RXOC+

RXE3+

SPI_CE

V_Sync

H_Sync

RX2+

RX2-

RX1-

RX1+

RX0-

RX0+

RXC-

RXC+

Pow er_LED

VGA_SDA

VGA_SCL

DVI_SDA

DVI_SCL

Low _Power

BL_EN

BL_A DJ

DVI_HPD

IR _ O N

Function_LED

Pow er_Key

ADC_KEY1

ADC_KEY2

DVI_DET

VGA_DET

VO L_ADJ

MUTE

IR_ADJ

PAN EL_+5V

T2_+5V

Present_O UT

KEY_PO WER

USB_detect

Pivot

Pivot_ON_OFF

BLUE-

BLUE+

GRE EN-

GREEN+

RED-

RED+

SOG

VC C _1V 2

+3.3V

TMDS_VDD

+3.3V

AV DD_3V3

SDRAM_VDD

Crystal_VDD

AV DD_3V3

TMDS_VDD

AV DD_3V3

SDRAM_VDD

+3.3V

VC C _1V 2

AD C _1V 2

Crystal_VDD

+3.3V +3.3V

+3.3V

TM D S_VDD

VC C _1V 2

VCC_1V2

+3.3V

AD C _1V 2

SDRAM_VDD

+3.3V

RXEIN1+

RXEIN0-

RXEIN1-

RXEIN0+

RXEIN3+

RXEIN3-

RXEIN2+

RXEIN2-

RXECKIN-

RXECKIN+

RXOIN1+

RXOIN0+

RXOCKIN+

RXOIN2+ RXOIN2-

RXOIN1-

RXOIN0-

RXOCKIN-

RXOIN3+ RXOIN3-

EDID_WP

Pin 118

PW ON Latch

\ :

Internal MCU :Pull High

External MCU :Pull Low

226 1W / 227 1W / 2281W-->L6

L17 (No Support 1.2V)(3.3V-->1.2VLDO

C70 C71 )

2261 / 2271 / 2281-->L6

L17

(Support 1.2V)

2271RW / 2

281RW -->L6

L17

(Support 1.2V)

SOT-223

RL6 138 Digital Port0 ( pin2~11) must be reserved

Pin 119

Pull up- normal mode

Pull down- scan mode

-p

ull up,

GPIO ,

outp

(Touch IC Alert)

(PWM4)

(PWM1)

(PWM0)

(PWM2)

(PWM5)

EMI Solution 2010.11.03 - Hiko

Flash clock :

--- C34 : NC ʈ 10P(10P=0.01n=0.00001U)

--- L8 : Z220 ʈ Z120

--- C38 : 10U NC ʈ10P

Flash Vcc :

--- Add L1 5 Z 600 Before C47

--- C47 : 1U NC ʈ 0.1U

2010.11.12

=== ==== ========================

Cha nge C39/C40 from 33P to 27P

for XTAL test

Change 0J.47612.089 to 0J.47622.18B

(Beacause the Height limit of C27 and C44

need under 9mm) willi_2011.01.18

Change 0J.47612.089 to 0J.47622.18B

(Beacause the Height limit of C27 and C44

need under 9mm) willi_2011.01.18

U8: DSN is 7A.02281.00E. BOM is 7A.02261.W0E

U10: DSN is 7B.02520.B01. BOM is 7B.02520.G01

C35: Change 0J.47612.089 to 0J.47622.18B

willi_2011.02.20

C46: Change 0J.47612.089 to 0J.47622.18B

willi_2011.02.20

C47: Change 7H.10422.2B1 to 7H.10491.4F1

willi_2011.02.20

C24: Change 7H.10610.5B1 to 7H.10611.511

willi_2011.02.20

C42: Change 7H.10610.5B1 to 7H.10611.511

willi_2011.02.20

R85

100K J

R87

NC _6.2K

C26

0.1UZ

R62

10K J

C34

10PJ

C33

0.1UZ

Z30

R80

560

C47

0.1U Z

RTD 2271RW -GR

TMDS_VDD/DP_VDD

TMDS_REXT

RX 2P_0 /LAN E0P

RX 2N_0 /LAN E0N

RX 1P_0 /LAN E1P

RX 1N_0 /LAN E1N

RX 0P_0 /LAN E2P

RX 0N_0 /LAN E2N

RX CP_0 /LAN E3P

RX CN_0 /LAN E3N

TMDS_GND/DP_GND

RX 2P_1 /LAN E0P

RX 2N_1 /LAN E0N

RX 1P_1 /LAN E1P

RX 1N_1 /LAN E1N

RX 0P_1 /LAN E2P

RX 0N_1 /LAN E2N

RX CP_1 /LAN E3P

RX CN_1 /LAN E3N

TMDS_VDD/DP_VDD

AVS0

AHS0

ADC_VDD

B0-

B0+

G0-

G0+

SOG0

R0-

R0+

G PI/G PO /V 8_7

G PI/G PO /V 8_6

ADC_GND

G PI/G PO /V 8_1

G PI/G PO /V 8_2

G PI/G PO /V 8_3

G PI/G PO /V 8_4

G PI/G PO /V 8_5

AUD IO_S OU TL /V8_3/SC K/GP IO

SPD IF3 /AUD IO _REF /V8_4/W S/G PIO

A-ADC0/VCLK/GPIO

A-ADC 1/GPIO

USB_DDCSCL1/A-ADC2/GPIO52USB_DDCSDA1/A-ADC3/GPIO

GPIO

TCON[0][5]/PWM1/PWM5/GPIO_USB

TCON[1][4]/IICSCL/GPIO

V8_7 /GPIO

TCON[9][11]/IICSDA/GPIO

TCON[7][10]/DDCSCL1/GPIO

TCON[3][5]/DDCSDA1/GPIO

VCCK

PGND

PVCC

DVI_CTRL_OUT1/TCON[1][8]/PWM2/GPIO

SD0/SPDIF0/TCON[0][7]/GPIO /PWM0

AUDIO_HOUTL/V8_1 /SD0 /GPIO

AUDIO_HOUTR/V8 _0/PW M0/GPIO

SC K /TC ON [4][2]/G PIO /BLU7

M CK /TC ON [5][9]/G PIO /B LU6

SD 0/S PD IF0 /TCO N[13][3]/GP IO /B LU5

LIN E_IN L /V8_6/IIC SCL /GPIO

SP DIF1 /SD1 /TCO N[7][3]/GP IO /IIC SCL /BLU4

SP DIF2 /SD2 /TCO N[9][11]/GP IO /IIC SDA /BLU 3

BCLKP/SPDIF3/SD3/TCON[10][8]/G PI/G PO /PWM 1/PWM5 /BLU2

BC LKN /TCO N[6][12]/GP I/GPO /P W M3

VCCK

BLU 7/B LU1 /GP I/GP O /TXO 3+_8b /IIS_SD 0(SP DIF 0)

BLU 0/B LU6 /GP I/GP O /TXO 3-_8b/IIS _M CK (SP DIF1)

G RN 7/G PI/G PO /B LU5/T XOC +_8b

G RN 6/G PI/G PO /B LU4/T XOC -_8b

AUD IO_S OU TR /V8_2/MC K /GPIO

PVCC

PGND

RE D7 /G RN 3/TX E3+_8b

LIN E_IN R /V8_5 /IICSDA /GPIO

G P IO / P W M 3 /T C O N [11 ][6 ]

VCLK /GPIO

LS_AD C_VD D

MCK/TCON[7]/GPIO /AUX_OE

108

GP IO /V8_0

127

128

W S /TCO N[7][1]/GPI/G PO /P WM 1

G RN 5/G PI/G PO /B LU3/T XO2+ _8b/IIS _SC K (SPD IF2)

G RN 4/G PI/G PO /B LU2/T XO2-_8b /IIS_W S (S PDIF3)

G RN 3/G PI/G PO /G RN7 /TXO 1+_8b

G RN 2/G PI/G PO /G RN6 /TXO 1-_8b

G RN 1/G PI/G PO /G RN5 /TXO 0+_8b

G RN 0/G PI/G PO /G RN4 /TXO 0-_8b

RED6/GRN2/TXE3-_8b

RED5/RED7/TXEC+_8b

RED4/RED6/TXEC-_8b

RED3/RED5/TXE2+_8b

RED2/RED4/TXE2-_8b

RED1/RED3/TXE1+_8b

RED0/RED2/TXE1-_8b

DE NA /TXE 0+_8b

DHS /TXE0-_8b

DC LK /G PI/G PO /PW M 0

DVS /GPIO /PWM 1

GPIO/PWM2

G P IO / P W M 4 /T C O N [12 ][3 ]

100

GPI/GPO/PWM5/TCON[0]

101

SD 3/S PD IF3 /TCO N[10]/GP IO /P W M0

102

SD 2 /SPDIF2/TCO N[8]/GP IO /IICSC L /PW M1 /DVI_C TR L_OU T2

103

SD1/SPDIF1/TCON[5]/GPIO /IRQB /IICSDA

104

SD0 /SPDIF0/TCON[9]/GPIO /TXDATA

105

PVCC

106

PGND

107

SC K /TCO N[3]/GPIO /AUX_D 1

109

WS(SD1)/TCON[2][6][7]/GPIO

110

S D 0 / S P D IF 0 / T C O N [4 ][7 ] / G P IO

111

SD 1(W S)/SP DIF1/TCO N[5][9]/GPIO

112

SD 2(SC K)/SPD IF2 /TCON [1][11]/GP IO /AUX_D 2

113

SD3(MCK)/SPDIF3/TCON[0][13]/PW M4/GPIO

114

SPI_SCLK /SDIO

115

SI/MCU_SCLK

116

SO /SCSB

117

CEB/IRQB

118

GPO /PW M5/SPDIF1

119

VCCK

120

DDCSCL3/GPIO /AUX_CH_P1

121

DD C SDA3 /GPIO /AUX_C H _N1

122

DDCSCL2/GPIO /AUX_CH_P0

124

DDCSDA2/GPIO /AUX_CH_N0

123

RESETB

125

G P IO / P W M 1 / S P D IF 2

126

R86

6.2K

R69

NC_10KJ

L10

NC _Z30

U9 A T24C16N-10SI-1.8

A01A12A2

GND

VCC

WP7SCL6SDA

C36

0.1UZ

R74

33K

Z30

R63

10K J

C27

<Spec>

47U 25V M

C44

<Spec>

47U 25V M

R60

4.7K J

C43

.1U

C35

<Spec>

47U 25V M

U10

W 25X20VSNIG

CE#

SO2WP#3VSS

SCK

HOLD#

VDD

Z30

U11 NC _RM 2101B0LA

GND

VOU T

VIN

GND

R58

10K J

R71 0 J

R64

10K J

C25 0.1UZ

R73

10K

C46

<Spec>

47U 25V M

1 2

C29 0.1U Z

R83

NC _20K

C24

10U M

C41 0.1U

C39

27PJ

14.31818MHZ

R66

NC _4.7K

C37 0.1U Z

C42

10U M

R78

47K J

C38

NC_10PJ

R68

NC _4.7K J

R82

NC_10KJ

R77

4.7K

C40

27PJ

R72 0 J

R67

NC _4.7K

C30

0.1UZ

C48

NC_10UF M

R59

4.7K J

C28

1U K

R75 0 J

Z120

Z30

C32

0.1U

R61

10K J

R84

100K J

R70

NC_10K

R65

10K J

NC _Z30

C45

0.1U

R76 0 J

R79

NC _10K J

C31

0.1U Z

R81

Scalar Diagram & C.B .A

42 220V3 LCD

A A

B B

C C

D D

LCD _5V _POW ER

T2_+5V

PANEL_+5V

GND GND

+5V

GND

RXOIN0+

RXOIN0-

RXOIN1-

RXOIN2-

RXOIN1+

RXOCKIN-

RXOIN2+

RXOCKIN+

RXOIN3+

RXOIN3-

RXEIN0+

RXEIN0-

RXEIN1+

RXEIN1-

RXECKIN-

RXEIN2+

RXEIN2-

RXECKIN+

RXEIN3+

RXEIN3-

RXOIN2-

RXOIN2+

RXOCKIN+

RXOCKIN-

RXOIN3-

RXOIN3+

RXOIN0+

RXOIN0-

RXOIN1+

RXOIN1-

S crew H o les

Optical Points

G(1)

S(2)

D(3)

U9 spec.

Vds=-30V, Vgs=+/-12V

Id=-3.5A when ambient temp.=70 degre

ForS ingle ChannelLVD S

7D.00697.E3B

J8: DSN is 2K.K2254.030 . BOM is 2K.K2085.030

Change 0J.47612.089 to 0J.47622.18B

willi_2011.02.20

C73 : Change 7H.10422.2B1 to 7H.10491.4F1

willi_2011.02.20

C75 : add 7H.10521.2B1

willi_2011.02.24

R138 : add 6C.15334.1D1

willi_2011.02.24

NC RC circuit willi_2011.02.24

R136 : Change 6C.20334.1D1 (20K)(0402) to

6C.47234.1D1 (4.7K)(0402)

willi_2011.02.24

R132 : Change 6C.10434.1D1 (100K)(0402) to

6C.47234.1D1 (4.7K)(0402)

willi_2011.02.24

Add RC circuit willi_2011.02.24

TP50

TP57

TP67

C74

0.1U Z

TP51

R130

NC_0J

TP58

TP52

R136

30K

C72

<Spec>

NC _47U 25VM

R132

100K J

R131

NC _20K J

U13

AO 3401L

TP61

HOLE-V8

234

678

R134

10K J

TP59

TP53

R127 N C _ 0 J

TP68

TP60

U12

N C _G 697L483T 1U F

/RESET

VCC

GND

R128 N C_0J

TP54

Fiducial_M ark

2N3904S

E C

C75

10U M

HOLE-V8

234

678

TP62

C71

NC _47P J

N C _2K K2254030

445

Fiducial_M ark

TP47

R129 N C _ 0 J

TP55

TP48

TP63

R135

20K

TP65

R137

15K

TP49

R133

NC _2.2M J

C73

0.1U Z

TP56

TP69

2KK 2254030

1122334

889

252526

TP64

HOLE-V8

234

678

Fiducial_M ark

TP66

TP70

220V3 LCD 43

Scalar Diagram & C.B .A

Power Diagram & C.B .A

44 220V3L LCD

5 4

A A

B B

C C

D D

D602_K

D701_K

+21VSW

IC702_K

IC602_3

Q703_D

Q702_D

Q703_Vg

PWR_SAV

3.3V

21V

PWR_SAV

3.3V

BRT_ADJ

VOL_ON

VOL_ADJ

BLT_ON

GND PAD

IC602

TOP26 7KG-TL

X2V

L701

2.7U

R722

220

TP702

C716

0.1U K

R711

R726

10K F

R610

100K J

C722

47U 50V

R712

36K

C711

330U 35V

RC1.21A

TR601

NTC 8OHM

C605

68U 500V

C609

0.001U J

R725

10K F

R715

470

LTV-817M-B

IC610

TP606

R615

6.8 J

D710

1N5819-LF

A K

TP705

C611

47U 50V

R609

100K J

R701

C705

1000P K

ZD711

BZV55-C20

A K

C601

0.1U K

R713

330

Q702

APM2305BAC-TRG

TP707

C703

220U 25V M

RC640

BD601

2KBP06M-LF

TP704

C620

0.1U 50V

C604

1000P M

R723

D711

UG4D-E3/73

A K

IC710

RM2101D0BA

GND

VOUT

VIN

C615

1000P M

R717

470

TP706

R724

3.3K

TP708

C714

1000P K

TP601

TP703

HSink

GC1

3D05402001

F601

250V 2A

C710

10U K

TP603

R601

R616

100

TP701

C704

1000P K

D601

UF4007-LF

A K

TP602

D701

RK306

R718

100K F

R603

TP605

R612

100

L601

45MH

R716

470

R720

100K F

R613

60.4K F

C701

330U 35V

RC1.21A

R602

T601

1.57MH

R710

10K F

R608

100K J

R614

10K

R719

330

C715

1000P K

C603

1000P M

R607

100K J

R714

470

C724

0.1U K

C702

330U 35V

RC1.21A

CN601

D702

RK306

A K

IC702

LM431BCZ

A K

C616

47U 50V

Q703

2N7002K

CN701

2K61185112

234

D602

UF4007-LF

Q711

KTC200-Y/P

E C

Power Diagram & C.B .A

220V3 LCD 45

A A

B B

C C

D D

Vol_on_IC

VDC

INR

INL

Audio_GND

V-Audio

Audio_GND

Audio_in_GND

Audio_GND

-OUTL

+OUTL

+OUTR

-OUTR

Audio_GND

VOL_ON

VOL_ADJ

VOL_ON:

On: 3.3V

Off: 0V

VOL_ADJ:

Max: 3.3V

Min: 0V

C563

220P J

L557

Z120

M551

2B10254032

21011

R555

L552 Z500

TP558

C554

1U K

C555

1U K

L558

Z45/100MHZ

C567

0.47U K

C564

220P J

L553 Z500

R553

10K F

C568

0.47U K

C556

1U K

C557

1U K

TP552

L554 Z500

ZD551

PESD5V0S1BA

R554

10K F

C559

220P J

C566

2.2U K

TP553

TP555

IC551

PAM8603MDER

+OUTL

PGNDL

-OUTL3PVDDL4MUTE

VDD

INL

VDC

+OUTR

PGNDR

-OUTR

PVDDR

SHDN

GND

INR

VOLUME

VREF

R552

11.5K F

C560

220P J

R550

100K F

ZD552

PESD5V0S1BA

TP556

R556

330

C569

0.1U 50V

TP551

CN551

2K62244104

22334

R551

11.5K F

C565

2.2U K

L551 Z500

TP554

C561

220P J

R557

330

C558

1U K

C553

1U K

L560

Z45/100MHZ

C562

220P J

L556

Z120

TP557

L559

Z45/100MHZ

C551

220U 10V

1 2

C552

220U 10V

1 2

220V3 LCD46

Power Diagram & C.B .A

220V3A

220V3

A A

B B

C C

D D

Control Diagram & C.B .A.

220V3 LCD 47

KEY_MENU

KEY_AUTO

KEY_RIGHT

KEY_LEFT

KEY_POWER

Optical Points

᎞߈ LED

᎞߈connector

TP2

2KK2321008

TP1

SW2

6B40110001

0.1U K

OP1

0.1U K

OP4OP2

SW3

6B40110001

0.1U K

10K J

OP3

0.1U K

ZD1 UDZS 6.2B

LED1

WHITE

OP6

0.1U K

OP5

10K J

C8 220P K

TP3

SW5

6B40110001

100K J

SW1

6B40110001

TP4

SW4

6B40110001

TP5

100K J

Control Diagram & C.B .A.

48 220V3 LCD

220V3 LCD

0.1 220V3 series 22”W LCD Monitor

2011/08/31 PHILIPS 49 of 25

V3 Series

GENERAL PRODUCT

SPECIFICATION

Issued by: Wenchih Wang/Paul Tsai

Revision History

Ver. Date (yy.mm.dd) Author Brief Description

0.1 2011.08.31 UC Hsu Initial version

Blue: Changes than last version

Red: TBD

Quick Specification table:

V3_QSG.xlsx

220V3 LCD

Quick Specification table:

Model Input Feature

V3 L 1A1D

V3 LA 1A1D + Audio

Smart features

SmartImage NO

SmartResponse NO

SmartPower NO

SmartTouch NO

SmartControl Yes(Lite)

Pixel Orbiting NO

220V3 LCD

0.1 220V3 series 22”W LCD Monitor

2011/08/31 PHILIPS 51 of 25

.CONTENTS

1 FOREWORD ................................................................................................................................53

2PRODUCT PROFILE..................................................................................................................53

2.1 EDID

HEADER ......................................................................................................................... 53

2.2 S

CANNING FREQUENCIES ......................................................................................................55

2.3 A

MBIENT TEMPERATURE:....................................................................................................... 55

2.4 P

OWER RANGE .......................................................................................................................55

3 ELECTRICAL CHARACTERISTICS ......................................................................................55

3.1 I

NTERFACE SIGNALS................................................................................................................56

3.2 I

NTERFACE ..............................................................................................................................58

3.3 T

IMING REQUIREMENT ...........................................................................................................61

3.4 OSD/K

EYPAD FUNCTIONS....................................................................................................61

3.5 H

ORIZONTAL SCANNING.......................................................................................................62

3.6 V

ERTICAL SCANNING ............................................................................................................. 62

3.7 P

OWER INPUT CONNECTION ................................................................................................62

3.8 P

OWER MANAGEMENT...........................................................................................................62

3.9 VGA D

ISPLAY IDENTIFICATION ...........................................................................................63

3.10 DVI D

ISPLAY IDENTIFICATION .............................................................................................63

3.11 USB

SUPPORT ........................................................................................................................63

3.12 DDC /CI SUPPORT AND SMART MANAGE/CONTROL .......................................................63

3.13 P

IVOT FUNCTION(AUTO PIVOT) .......................................................................................... 63

3.14 HOT-KEY DEFINITION ............................................................................................................63

3.15 S

MART IMAGE.......................................................................................................................... 63

3.16 PERFECTTUNE II (FORMERLY FGA, FACTORY GAMMA ALIGNMENT)................................... 64

3.17

AUDIO...................................................................................................................................64

3.18 P

OWER SENSOR (OPTION).......................................................................................................65

3.19 SMART POWER (OPTION , REFER TO QUICK SPECIFICATION TABLE) ...................................... 68

220V3 LCD

4 VISUAL CHARACTERISTICS................................................................................................. 68

4.1 T

EST CONDITIONS .........................................................................…………………………68

4.2 B

RIGHTNESS............................................................................................................................68

4.3 C

OLOR TEMPERATURE ADJUSTMENT....................................................................................68

5 MECHANICAL CHARACTERISTICS ...................................................................................70

5.1 C

OSMETIC - ………………………………………………………………………………..70

5.2 M

ECHANICAL DATA FILES - ………………………………………………………………..70

5.3 L

OCATION OF PHILIPS LOGO - …………………………………………………………..70

5.4 G

AP BETWEEN PANEL AND FRONT BEZEL……………………………………………........70

5.5

SLANT - ………………………………………………………………………………….….70

5.6

LOCATION OF CONTROL ICONS - ………………………………………………….……….70

5.7 C

OLOR FOR RESIN/PAINT - ……………………………………………………….……….70

5.8 F

IRE ENCLOSURE REQUEST ………………………………………………………….…….70

5.9 R

ESINS ………………………………………………………………………….………….70

5.10 I

F PAINT IS USED …………………………………………………………………………..70

5.11 P

LASTIC MOLD TOOLING ………………………………………………………………..70

5.12 P

LASTICS FLAMMABILITY ………………………………………………………………..71

5.13 T

EXTURE/GLOSSING OF HOUSING ……………………………………………………..71

5.14 T

ILT AND SWIVEL BASE ………………………………………………………………..71

5.15

KENSINGTON LOCK ……………………………………………………………………..71

5.16

PRODUCT DIMENSION /WEIGHT (REFER TO PHILIPS APPROVED SHT 191/SHT560 ) ...71

5.17

TRANSPORTATION …………………………………………………………………………..71

5.18

PALLET /CONTAINER LOADING (REFER TO PHILIPS APPROVED SHT 560) ……………….. 72

6 ENVIRONMENTAL CHARACTERISTICS...........................................................................70

6.1 S

USCEPTIBILITY OF DISPLAY TO EXTERNAL ENVIRONMENT ..............................................73

6.2 T

RANSPORTATION TESTS...................................................................................................... 73

6.3 D

ISPLAY DISTURBANCES FROM EXTERNAL ENVIRONMENT................................................ 73

6.4 D

ISPLAY DISTURBANCES TO EXTERNAL ENVIRONMENT ....................................................73

220V3 LCD

0.1 220V3 series 22”W LCD Monitor

2011/08/31 PHILIPS 53 of 25

1 FOREWORD

This specification describes a multi-scan color TFT LCD monitor.

All optical characteristics are determined according to panel specification after warming up

longer than 30 minutes.

2PRODUCT PROFILE

2.1 EDID header

Data for EDID & .inf file

1 User visible strings on .inf file Philips 220V (22inch Wide LCD MONITOR 220V3)

2 Manufacturer ID ( EDID data) PHL

3 Product ID, "xxxx" 4 codes MSB(byte 12): C0

LSB (byte 11): 92 4 maximum resolution 1680x1050

5 Horizontal Frequency Range 30~83 KHz

6 Vertical Frequency Range 56~76Hz

7 Monitor Name (13 characters max.) Philips 220V

LCD

Suppliers to offer panel specifications. Panel incoming specification: Follow Philips’ specification.

220V3/220V3A (2CCFL)

LGD

Type NR. : LGD LM220WE1 TLP1 Resolution : 1680x1050 Outline dimensions : 493.7(H) *320.1(V) * 14.5 (D) mm(Typ.) Pixel Pitch ( mm ) : 0.282mm x 0.282mm Color pixel arrangement :1680 horizontal By 1050 vertical PVV9C ixels. RGB stripe

arrangement

Display surface treatment : Hard coating (3H), Anti-glare treatment of the front polarizer Color depth : 16.7 M colors 6-bit with H-FRC, 16.7M colors Backlight : 2CCFL Active area (W x H) : Vertical 473.76mm x Horizontal 296.10mm View angle (CR>10) : >=160 for H/V Contrast ratio : 700:1(Typ.) White luminance : 250 nit(Typ.) Color gamut : >=72%

Gate IC : LDI

220V3 LCD

Source IC : N/A

Response time : 5 ms

Vertical frequency range : 50~75 Hz

SEC

Type NR. : SEC LTM220MT05 Resolution : 1680x1050 Outline dimensions : 493.7(H) *320.1(V) * 17 (D) mm(Typ.) Pixel Pitch ( mm ) : 0.282mm x 0.282mm Color pixel arrangement :1680 horizontal By 1050 vertical PVV9C ixels. RGB stripe

arrangement

Color gamut : >=72% Gate IC : LDI Source IC : N/A Response time : 5 ms

220V3L/220V3LA (WLED)

SEC

Type NR. : SEC LTM220MT09

Resolution : 1680x1050

Outline dimensions : 493.7(H) *320.1(V) * 10.7 (D) mm(Typ.)

Pixel Pitch ( mm ) : 0.282mm x 0.282mm

Color pixel arrangement :1680 horizontal By 1050 vertical PVV9C ixels. RGB stripe

arrangement

Display surface treatment : Hard coating (3H), Anti-glare treatment of the front polarizer

Color depth : 16.7 M colors 6-bit with H-FRC, 16.7M colors

Backlight :

WLED Active area (W x H) : Vertical 473.76mm x Horizontal 296.10mm View angle (CR>10) : >=160 for H/V Contrast ratio : 1000:1(Typ.) White luminance : 250 nit(Typ.) Color gamut : >=72%

Gate IC : LDI Source IC : N/A Response time : 5 ms

Vertical frequency range : 50~75 Hz

CMI

Type NR. : M220ZGE-L20 Resolution : 1680x1050 Outline dimensions : 493.7(H) *320.1(V) * 11 (D) mm(Typ.) Pixel Pitch ( mm ) : 0.282mm x 0.282mm Color pixel arrangement :1680 horizontal By 1050 vertical PVV9C ixels. RGB stripe

arrangement

Display surface treatment : Hard coating (3H), Anti-glare treatment of the front polarizer Color depth : 16.7 M colors 6-bit with H-FRC, 16.7M colors Backlight : WLED

220V3 LCD

0.1 220V3 series 22”W LCD Monitor

2011/08/31 PHILIPS 55 of 25

Active area (W x H) : Vertical 473.76mm x Horizontal 296.10mm View angle (CR>10) : >=160 for H/V Contrast ratio : 1000:1(Typ.) White luminance : 250 nit(Typ.) Color gamut : >=72%

Gate IC : LDI Source IC : N/A Response time : 5 ms

Vertical frequency range : 50~75 Hz

2.2 Scanning frequencies

Hor. : 30 – 60 K Hz

Ver. : 56 - 63 Hz

Video dot rate: < 210 MHz for VGA and < 170 MHz for DVI

, warning message must be

displayed while over 165 MHz (supplier to provide accurate scaler bandwidth number)

Power input: 90-264 V AC, 50/60 r 2 Hz Functions: (1) D-SUB analog R/G/B separate inputs, H/V sync separated, Composite (H+V) TTL level, (2) SOG sync: a. Sync select: H + V b. Sync select: SERR (3) DVI digital Panel Link TMDS inputs, HDCP supported.

2.3 Ambient temperature:

0 qC - 40 qC

2.4 Power Range

FULL RANGE POWER SUPPLY 90 – 264 VAC

3 Electrical characteristics

Scaler should be capable of below items.

1) Scaler must support color engine for Image enhancement feature (SmartImage)

2) Scaler must have enough memory to support PerfecTune feature and Philips OSD

3) Scaler must support SmartContras,ᶨ䘦ᶯ:1 DCR preferred

4) VGA signal Auto adjustment:

Monitor automatically adjusts and optimizes resolution and frequency based on input signal defined

by “Source” function. “NO VIDEO INPUT” message to be displayed on screen while no signal is

detected. Monitor will automatically optimize resolution and frequency whenever connected to

different signal source. When press the “Auto”, the screen also show a status bar. During

adjustment period, a status bar will show on screen from 0% to 100% to indicate the progress of

adjustment.

Auto auto adjustment : new timing & preset modes ( non- factory preset mode) should do auto

adjustment at first time detection and save the related date into memory.

Resolution ʀ 800x600 , do not do auto auto adjustment.

220V3 LCD

3.1 Interface signals

1). D-Sub Analog Input signal : Video, Hsync., Vsync

Video : 0.7 Vp-p, input impedance, 75 ohm @DC Sync. : Separate sync TTL level , input impedance 2.2k ohm terminate

Hsync Positive/Negative Vsync Positive/Negative

Composite sync TTL level, input impedance 2.2k ohm terminate (Positive/Negative)

Sync on green video 0.3 Vp-p Negative (Video 0.7 Vp-p Positive)

2). DVI-D Digital

Input signal: Single TMDS link (Three channels: RX0-/+, RX1-/+, RX2-/+)

3). HDMI ( option , refer to Quick specification table) Follow HDMI 1.4

specification

TMDS channel:

¾ Carries audio, video and auxiliary data. ¾ Signaling method: According to DVI 1.0 specification.

Single-link (Type A HDMI).

¾ Video pixel rate: 25 MHz to 165 MHz (Type A) ¾ Pixel encodings: RGB 4:4:4, YCbCr 4:2:2, YCbCr 4:4:4. ¾ Audio sample rates: 32 kHz, 44.1 kHz, 48 kHz ¾ Audio channels: 2.

DDC channel:

¾ Allows source to interrogate capabilities of sink. ¾ I²C signaling with 100 kHz clock. ¾ E-EDID data structure according to EIA/CEA-861D and

VESA Enhanced EDID.

Content protection:

According to High-Definition Content Protection (HDCP)

Specification 1.10.

HDMI video input should support timing defined in CEA 861-D

specification with extended EDID blocks

Video Timing Support :

Format Resolution Type Vertical frequency

480i 720 x 480 SD 60Hz

480p 720 x 480 SD 60Hz

576i 720 x 576 SD 50Hz

576p 720 x 576 SD 50Hz

720p 1280 x 720 HD 50Hz , 60Hz

220V3 LCD

0.1 220V3 series 22”W LCD Monitor

2011/08/31 PHILIPS 57 of 25

1080i 1920 x 1080 HD 50Hz , 60Hz

1080p 1920 x 1080 HD 50Hz, 60Hz

x Picture centering - +9IRU79LSLSSLS

Over Scan -

1. RGB signal : OFF (no this function)

2. YUV signal : (Video timming) ON (Be use and set ON/OFF)

(But only 1080p define is OFF )

PC timing: to follow PC timing table

TMDS/+5V/DDC/HPD/CEC Signals

(TMDS Signal)

Termination Supply Voltage AV

:3.3V±5% Differential Voltage Level : 150mV – 1200mV Common Mode Voltage : (AV

– 300mV) – (AVCC– 37.5mV) Differential Sensitivity : 150mVp-p Maximum differential Voltage : 1560mVp-p

(+5V Power) Power Supply Voltage : 4.7V – 5.3V Maximum Current Consumption : 50mA (DDC Signal) Maximum Capacitance : 50pF (HPD Signal) High Voltage Level : 2.4V – 5.0V Low Voltage Level : 0 – 0.4V Output Resistance : .ƻ

(CEC Signal, not supported by this model) Input Low Voltage : < 0.8V Input High Voltage : > 2.0V Output Low Voltage: 0 – 0.4V Output High Voltage: 2.5V – 3.6V Pull-up Resistor: .ƻ Leakage Current in standby/off : < 1.8uA Maximum Capacitance: 100pF

220V3 LCD

4). DisplayPort ( option , refer to Quick specification table) Follow DisplayPort 1.1

specification.

5). USB Hub 2.0 (option , refer to Quick specification table)

USB port (1 upstream, 2 or 4 downstream)

6). Audio in ( option , refer to Quick specification table)

Input signal: 1Vrms Loudspeaker: stereo of RMS Power Frequency range: (WAIT FOR SUPPLIER INPUT) Headphone connection will mute speaker

7). USB PLUG (option , refer to Quick specification table)

USB port (1 upstream, 1 downstream), black jack color

8). HDMI audio out (headphone): (option, refer to Quick specification table) Stereo, > 50mVrms for headphone of 32:

3.2 Interface

3.2.1 D-Sub Cable

Length : Please refer to M3 cable bundle summary file

Fix with monitor when packing, with transplant pin protective cover.

Connector type : D-Sub male with DDC2B pin assignments.

Blue connector thumb-operated jack screws

Pin assignments:

PIN No. SIGNAL

1Red 2 Green/ SOG 3 Blue 4 Sense (GND) 5 Cable Detect (GND) 6 Red GND 7 Green GND 8 Blue GND

9 DDC +3.3V or +5V 10 Logic GND 11 Sense (GND) 12 Bi-directional data 13 H/H+V sync 14 V-sync 15 Data clock

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3.2.2 DVI Cable

The input signals are applied to the display through DVI-D cable.

Length : Please refer to

cable bundle summary file

Connector type : DVI-D male with DDC-2B pin assignments White connector thumb-operated jackscrews With transplant pin protective cover.

Pin Assignment:

Pin No. Description

1 T.M.D.S. data22 T.M.D.S. data2+ 3 T.M.D.S. data2 shield 4 No Connect 5 No Connect 6 DDC clock 7 DDC data 8 No Connect

9 T.M.D.S. data110 T.M.D.S. data1+ 11 T.M.D.S. data1 shield 12 No Connect 13 No Connect 14 +5V Power 15 Ground (for +5V) 16 Hot plug detect 17 T.M.D.S. data018 T.M.D.S. data0+ 19 T.M.D.S. data0 shield 20 No Connect 21 No Connect 22 T.M.D.S clock shield 23 T.M.D.S. clock+ 24 T.M.D.S. clock-

3.2.3 DisplayPort cable

Length : Please refer to cable bundle summary file

Connector type : DisplayPort 1.1 External cable-connector

Pin Assignment:

Pin No. Description

1 Lane 0 (positive)

2Ground

3Lane 0 (ne

ative) 4 Lane 1 (positive) 5Ground 6 Lane 1 (negative)

220V3 LCD

7 Lane 2 (positive) 8Ground 9 Lane 2 (negative)

10 Lane 3 (positive) 11 Ground 12 Lane 3 (negative) 13 connected to Ground 14 connected to Ground 15 Auxiliary Channel (positive) 16 Ground 17 Auxiliary Channel (negative) 18 Hot Plug Detect 19 Return for Power 20 Power for connector

3.2.4 HDMI cable

Length : Please refer to cable bundle summary file

Connector type : HDMI 1.4 type A cable-connector

Pin Assignment:

Pin No. Description

1 TMDS Data2+ 2 TMDS Data2 Shield 3 TMDS Data2– 4 TMDS Data1+ 5 TMDS Data1 Shield 6 TMDS Data1– 7 TMDS Data0+ 8 TMDS Data0 Shield 9 TMDS Data0–

10 TMDS Clock+ 11 TMDS Clock Shield 12 TMDS Clock– 13 CEC 14 Reserved (HDMI 1.0-1.3c), HEC Data-

(Optional, HDMI 1.4+ with Ethernet) 15 SCL (I²C Serial Clock for DDC) 16 SDA (I²C Serial Data Line for DDC) 17 DDC/CEC/HEC Ground 18 +5 V Power (max 50 mA) 19 Hot Plug Detect (All versions) and HEC Data+

(Optional, HDMI 1.4+ with Ethernet)

3.2.5 3.5mm Audio Jack cable

Length : Please refer to cable bundle summary file

Connector type : 3.5mm stereo audio jack (TRS) connector

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3.3 Timing requirement

Factory Preset mode definition:

1. Perfect FOS while presenting those timings.

2. Will specify those timing in User's Manual

Preset mode definition:

1. Need to support those timings.

2. Perfect FOS after auto adjustment.

User mode

1. Can save those timing that not in Preset mode and can be showed (not over scaler or Panel spec.)

2. It needs to reserve the 10 timings space in memory size.

3.3.1 Mode storing capacity

Factory preset modes : Refer to Timing table preset modes : Refer to Timing table User modes : Refer to Timing table

Timing pixel clock over H/W limitation do not support.

1. Factory preset modes and preset modes are defined in the enclosed timing table file

01. M3 Timing

table_20110609-1.

3.4

OSD/Keypad functions

ITEM 1 OSD/keypad definition

M3 MICON

SPEC_20110414.doc

PS: M3 OSD Button definition.xlsx put on the other file.

Reset -

No: Exit

Yes: Auto adjustment for displaying timing mode and recall factory preset

2 OSD Translation

OSD_String_M3_201

10322.xls

English, French, German, Spanish, Italian, Russian, Simplified Chinese, Portuguese, Turkish (9)

3 Power On logo

Philips_Logo_1920x

1080.bmp

Power On Logo: Power On Æ Show up Philips logo 3 seconds Æ Change to input signal. This picture is reference only. The official drawing will send out by PM.

220V3 LCD

3.5 Horizontal scanning

Sync polarity : Positive or Negative Scanning frequency : 30 –60 K Hz

PS : Item 3.4 and 3.5 , as far as possible to be display (another Horizontal and Vertical)

3.6 Vertical scanning

Sync polarity : Positive or Negative Scanning frequency : 56 - 63Hz

3.7 Power input connection

Power cord length :please refer to M3 cable bundle summary file

Power cord type : 3 leads power cord with protective earth plug.

3.8 Power management

The monitor must comply with the Microsoft On Now specification, and meet EPA requirements.

Mode HSYNC VSYNC Video Pwr-cons. Indication Rec. time

Power-On On On Active

<25W (typ.),<32W(max.) CCFL(220V3)

<20W (typ.),<27W(max.) White LED(220V3L)

<30W (typ.),<37W(max.) CCFL(220V3A)

<28W (typ.),<33W(max.) White LED(220V3LA)

Standby (Sleep

mode)

Off Off Blanked < 0.5W

Blinking white LED

Period 3ec on, 3sec

off

Note 1 Note 2

DC Power Off N/A < 0.5W LED Off

PS: SmartImage Economy mode: < EPA5.0 spec. (Brightness=20%) EPA 5.0 spec. as below

Panel size Native resolution Max. Power (W) 16"(16:9) 1366x768 14.5

17"(4:3) 1280x1024 21.9

17"(16:10) 1440x900 21.2

18.5"(16:9) 1366x768 16.6 19"(16:10) 1440x900 22.7

19"(4:3) 1280x1024 23.6

20"(16:10) 1680x1050 28

20"(16:9) 1600x900 24.5

22"(16:10) 1680x1050 30

22"(16:9) 1920x1080 31.6 23"(16:9) 1920x1080 32.9

24"(16:10) 1920x1200 36.8

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24"(16:9) 1920x1080 34

Note 1 :

a. D-SUB mode,

Normal node to Power saving mode: 15/s (typ.) Power saving mode to Normal: 4/s(typ.)

b. DVI mode,

Normal node to Power saving mode: 15/s(typ.) Power saving mode to Normal: 3.8s(typ.)

Note 2 :

Measurement power Saving.

measurement of

power saving.pdf

Power consumption

measure the way -090

3.9 VGA Display identification

In accordance with VESA Display Channel Standard Ver.1.0 and DDC 2B capability

3.10 DVI Display identification

In accordance with DVI requirement (DDWG digital Visual Interface revision 1.0) use DDC-2B, DDC/CI, and EDID V1.3

3.11 USB support

Connect the upstream port of the monitor to host PC’s USB port via USB cable. Then attach external device to the downstream port of the monitor. Check if the device can work properly.

3.12 DDC /CI Support and Smart Manage/Control

In accordance with VESA DDC/CI and MCCS ver.2.0, the monitor should be workable with , Philps SmartManage, SmartControl V6.1, and Protrait Display Tune at least.

3.13 Pivot function(Auto pivot)

It needs to support AUTO PIVOT function with SmartControl PC application tool.

3.14 Hot-key definition

M3 OSD Button

definition _ 2011082

3.15 Smart image

Smart Image.doc

220V3 LCD

3.16 PerfectTune II (formerly FGA, FACTORY GAMMA Alignment)

A. PerfectTune must be done after warming 30 minutes at least. B. PerfectTune must be performed after Auto Color. C. PerfectTune must be conducted through DVI or scaler embedded patterns. D. Delta E < 2.5

3.17 audio

3.17.1 Frequency Response

The amplifier and speaker combination shall provide a frequency response of 300 Hz

to 20 kHz, with +/- 3 dB variation over the entire response range.

3.17.2 Total Harmonic Distortion

Total harmonic distortion shall be limited to 5% THD at the maximum wattage

speaker rating specified in section 1.3, at 1 kHz, when the input is 1.0Vrms.

3.17.3 Power Handling

Each speaker transducer shall accept up to the specified Wattage of audio power

without damage or exceeding the frequency response and total harmonic distortion

specifications.

3.17.4 Audio Amplifier

The amplifier shall provide two channels of audio up to 1.5 Watts per channel from

100 Hz

to 20 kHz, based upon an audio signal input of 1.0V RMS per channel.

3.17.5 Volume Control

For monitors with a manual volume control, the direction (at the bottom) of the

bezel volume control is “-“ key for Minimum volume and “+” key for Maximum

volume. The default shipping position of the Volume Control shall be approximately

80%.

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3.17.6 Speaker Sensitivity

The speakers shall support a minimum sensitivity of 75 dB +/- 3 dB at 2W/1m at 1 kHz.

3.17.7 Maximum Audio Card Output

The monitor audio amplifier shall accept a maximum input voltage of 1.5 Vrms and

meet the following requirements at the maximum monitor volume setting:

1. The ratings of the audio amplifier may not be exceeded.

2. The ratings of the speakers may not be exceeded.

3. There must not be any clipping of the audio amplifier output signal.

Voltage dividers may be used to reduce the input signal level.

3.17.8 Monitor Audio Amplifier Input Impedance

The monitor audio amplifier shall have minimum 10K Ohm AC input impedance

3.18 Power sensor (option)

UNCTIONAL Requirements for the front detection

For the presence sensor functionality, the following requirements are defined:

x Two IRs be used for user present detections, one IR is for transmission signals, the other one is

for receiving reflection IR signals

220V3 LCD

z User must be detected in the following range:

40 up to 100 cm (+ 20cm).

z Detection angle:

+- 35 degree (for IR LED )

z SENSOR key control,

Adjust detection distances (0~4 scales), default is 3 , tolerance : (±10cm)

0 : 0FF

1 : 90 cm 2 : 100 cm 3 : 110 cm 4 : >130 cm

z SENSOR distance measure :

1. Cotton material color : black

2. Monitor center straight distance (90 deg)

3. Body width : about 40cm

4. Body horizontal move : Monitor center +- 5cm

z Anti-interference between two monitors,

Monitors must have anti-interference methods(coding ..etc) to prevent monitors to talk to each other

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z power sensor Functional behavior

Time Period 60sec 60sec ~ 180sec 180sec ~

PowerSensor No ACTION

Lower down backlight

brightness

Backlight & LCD panel

shutdown

Power Saving 0 50% 80%

z The following set-up’s will be supported

Monitor 1

Monitor 2

Top view

User 1

User 2

Fig. 2: 2 monitors standing back to back.

The monitors may influence each other. So Monitor 1 may produce unexpected brightness-switches in monitor 2 (and vice versa). Furthermore, user 1 could perhaps (via monitor 1) influence the powersensor readout on monitor 2.

Monitor 1

Monitor 2

Monitor 3

220V3 LCD

Fig. 3: set up of multiple monitors under an angle

3.19 Smart Power (option , refer to Quick specification table)

To reduce the power by adjusting backlight , contrast and color.

Algorithm is provided by Supplier.

4 Visual characteristics

4.1 Test conditions

Unless otherwise specified, this specification is defined under the following conditions.

(1) Input signal : As defined in 3.3, follow panel resolution

, signal sources must have 75 ohm output

impedance.

(2) Luminance setting : controls to be set to 250 nits(except 166V3 220 nits) with full screen 100 %

duty cycle white signal

(3) Warm up: more than 30 minutes after power on with signal supplied.

(4) Ambient light: 400 -- 600 lux.

(5) Ambient temperature: 20 ± 5 qC

4.2 Brightness

Follow Panel specification.

4.3 Color temperature adjustment

There are three factory preset white color 9300K, 6500K, sRGB.

Apply full white pattern, with brightness in 100 % position and the contrast control at 50 % position.

The 1931 CIE Chromaticity (color triangle) diagram (x ,y) coordinate for the screen center should be:

Product specification

CIE coordinates (x,y)

11500K x = 0.270 ± 0.02

y = 0.281 ± 0.02

PerfecTune II

9300K x = 0.283 ± 0.02

y = 0.297 ± 0.02

PerfecTune II

8200K x = 0.291 ± 0.02 PerfecTune II

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y = 0.306 ± 0.02

7500K x = 0.298 ± 0.02

y = 0.314 ± 0.02

PerfecTune II

6500K/sRGB x = 0.313 ± 0.02

y = 0.329 ± 0.02

PerfecTune II

sRGB x = 0.313 ± 0.02

y = 0.329 ± 0.02

PerfecTune II

5000K x = 0.345 ± 0.02

y = 0.357 ± 0.02

PerfecTune II

Production alignment spec.

CIE coordinates (x,y)

11500K x = 0.270 ± 0.006

y = 0.281 ± 0.006

PerfecTune II

9300K x = 0.283 ± 0.006

y = 0.297 ± 0.006

PerfecTune II

8200K x = 0.291 ± 0.006

y = 0.306 ± 0.006

PerfecTune II

7500K x = 0.298 ± 0.006

y = 0.314 ± 0.006

PerfecTune II

6500K/sRGB x = 0.313 ± 0.006

y = 0.329 ± 0.006

PerfecTune II

sRGB x = 0.313 ± 0.006

y = 0.329 ± 0.006

PerfecTune II

5000K x = 0.345 ± 0.006

y = 0.357 ± 0.006

PerfecTune II

Quality Inspection specification:

CIE coordinates (x,y)

9300K x = 0.283 ± 0.015

y = 0.297 ± 0.015

6500K/sRGB x = 0.313 ± 0.015

y = 0.329 ± 0.015

sRGB x = 0.313 ± 0.015

y = 0.329 ± 0.015

220V3 LCD

5 Mechanical characteristics

5.1 Cosmetic -

Philips ID

5.2 Mechanical data files -

ProE files required

5.3 Location of Philips logo -

Per Philips make-up sheet

5.4 Gap between panel and front bezel

15"~19": <0.8mm, 19"W:<1.0mm, 20”W~23"W: <1.2mm, 24"W: <1.4mm, 27”W:<1.5mm

5.5 Slant -

17"~19"W,20" : <3mm , ʁ20"W :<4mm for SB,CEB Pivot angle : -0.5q~-4.5q , 90.5q~94.5q for SEB

5.6 Location of Control icons -

Per Philips Graphic sheet

5.7 Color for resin/paint -

Per Philips make-up sheet

5.8 Fire enclosure request

Shielding Cover should fulfill international standard

5.9 Resins

x RoHS required

x WEEE required.

x Resin type/selection refer to Project Book Section 7.2 Plastic material.

5.10 If paint is used

x RoHS required

x WEEE require

x If new painting type need to implement, refer to UN-D 1235.

5.11 Plastic mold tooling

x Tooling to be designed to minimize cosmetic defects induced by molding process (sink, blush,

weld lines, gate marks, ejector marks, etc.). Refer to “TYV61-90007”.

x Painting to cover up cosmetic defects due to molding is strongly discouraged.

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x China RoHS mark requested.

5.12 Plastics flammability

x All Plastics to be Flame Retardant UL 94-HB or Better.

x Base / Pedestal to be Flame Retardant UL 94-HB.

x All major plastic parts (bezel, back cover) need to be molded from same resin.

x Plastic resin type selection should be referred to “plastic-Philips Pool monitor”.

5.13 Texture/Glossing of housing

x The texture area and texture no should follow Philips make-up sheet.

x The exterior surfaces shall have a uniform texture.

x Philips must approve the mold texturing.

x Detail document for texture refer to “UN-D249”, “UN-D 600”.

x < = 20 gloss units

5.14 Tilt and swivel base ( Refer to Quick Specification table )

5.15 Kensington Lock

x Must meet Kensington_slot.spec “TYE-M0004”.

x MMD request metal plate in Kensington hole.

5.16 Product dimension / Weight ( Refer to Philips approved SHT 191/SHT560 )

5.17 Transportation

Transportation standards refer to UAN-D1534/00/01/02.

5.17.1 Transportation packages

x Net weight Packaging and wrapping shall be sufficient to protect the product against damage

or loss during shipment from the supplier to the destination specified in the purchase order.

All packaging materials are subject to test and evaluation per UAN-D1534/00/01/02.

x The cushion material shall be constructed using EPS material.

x The doggy hole is requested.

5.17.2 Transportation Test

Overall tests refer to UAN-D1534/00/01/02.

Vibration, drop test should be performed at ambient temperature (20°C to 23

C) and relative

humidity (40% to 65%).

A. Transportation test specification for all regions

x Package test

1. Random Vibration test

220V3 LCD

2. Drop test

3. Cold Drop test (for design reference)

x Un-package test

1. Half sine shock test (non operation)

B. Transportation test specification for China/India

x Package test

1. Random Vibration test

2. Drop test

3. Cold Drop test (for design reference)

x Un-package test

1. Sine vibration (operating)

2. Half sine shock test (non operation)

5.18 Pallet / Container loading (Refer to Philips approved SHT 560)

Transportation standards refer to TYE-M0002 ,UAN-D1534 and UAW-0309.

x Air shipment -

x Sea container 20'(pallet/slip sheet)

x Sea container 40'(pallet/slip sheet)

x Sea container 40' High Cube (pallet/slip sheet)

x Land 45‘ Truck and Trailer (800X1200mm pallet)

x Land 45‘ Truck and Trailer (1000X1200mm pallet) for UK

x Truck shipment-

Transportation request for all regions except China/India

Air shipment

B. 20’/40’/40’HQ Container loading for WW

Transportation request for China and India

Container loading for China and India

B. Truck loading

Transportation request for EU

Land 45‘ Truck and Trailer (800X1200mm pallet)

B. Land 45‘ Truck and Trailer (1000X1200mm pallet) for UK

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6 Environmental characteristics

The following sections define the interference and susceptibility condition limits that might occur

between external environment and the display device.

6.1 Susceptibility of display to external environment

Operating

- Temperature : 0 to 40 degree C

- Humidity : 80% max

- Altitude : 0-3658m

- Air pressure : 600-1100 mBAR Storage

- Temperature : -20 to 60 degree C

- Humidity : 95% max

- Altitude : 0-12192m

- Air pressure : 300-1100 mBAR

Note: recommend at 5 to 35qC, Humidity less than 60 %

6.2 Transportation tests

Refer to 5.15.2

6.3 Display disturbances from external environment

According to IEC 801-2 for ESD disturbances

6.4 Display disturbances to external environment

Exploded View

74 220V3 LCD

Spare / Recommended Parts List

220V3 LCD 75

Model:220V3 (A)

ϨSp

areparts changerule:

Graycolor: oldparts can be ALTto newparts

Gra

color withdelete line: oldparts can not beused to this model

ϨSp

areparts upgrade rule: last number +1 --> Latestversionparts number

Example old : 6K.0QC01.011 /

new :6K .0QC01.012

Panel+PCBAStyling

Model

20V3SB/00

20V3SB/00(AP)

20V3SB/01

20V3SB/93

20V3SB/62

20V3AB/00

20V3AB/00(AP)

20V3AB/01

Panel+PCBAStyling

9J.1N9**.***

29PCS 71.LB1 71.SB1 71.LB5 71.SB5 71.LBM 71.SBm 71.LB4 71.SBM 71.L28 71.S28 A1.LB1 A1.SB1 A1.LB5 A1.SB5 A1.LBM A 1.SBM

location Descri

tion PCM c ode P hilips 12NC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC

MAIN

(

I/F)BOARD ASS'Y

5E.1N901.001

VVVVVVVV

MAIN

(

I/F)BOARD ASS'Y(Aonl

5E.1N901.002

MAIN

(

I/F)BOARD ASS'Y(220V3A

)

5E.1N901.003

VVVVVV

POWER BOARD ASS'Y

5E.1N902.001

VVVVVVVVVV

POWER BOARD ASS'Y

(

220V3A

)

5E.1N902.006

VVVVVV

7 CTRL BD ASS'Y

5E.1N803.M01

VVVVVVVVVVVVVVVV

LCDM22W LM220WE1-TLP1 Z

(

LGD)5F.LLBP0.011

VVVVVVVV

LCDM22W LTM220MT05 8MA P/G

(

SEC)5F.LSBPP.011

VVVVVVVV

FFC CABLE 30P

5K.1N909.CP1

VVVVVVVVVVVVVVVV

<ALT>FFC CABLE 30P

5K.1N909.0C1

VVVVVVVVVVVVVVVV

Mechanical Styling

Model

20V3SB/00

20V3SB/00(AP)

20V3SB/01

20V3SB/93

20V3SB/62

20V3AB/00

20V3AB/00(AP)

20V3AB/01

Mechanical Styling

location Description PCM c ode P hilips 12NC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC

5 BASE ASS'Y

6K.1N932.001

VVVVVVVVVVVVVVVV

4 CLMN ASS'Y

6K.1N931.001

VVVVVVVVVVVVVVVV

20 C LMN BTM ABS DB39A 196V3

6K.1N827.001

VVVVVVVVVVVVVVVV

FRONT BEZEL ASS'Y

6K.1N902.001

VVVVV

FRONT BEZEL ASS'YSEC

6K.1N901.001

VVVVV

FRONT BEZEL ASS'Y(220V3A)

6K.1N902.011

VVV

FRONT BEZEL ASS'Y(220V3A) SEC

6K.1N901.011

VVV

REAR COVER ASS'Y

3J.1N903.011

VVVV

REAR COVER ASS'YSEC

3J.1N906.011

VVVV

REAR COVER ASS'Y(A only)

3J.1N904.011

REAR COVER ASS'Y(A only) SEC

3J.1N907.011

REAR COVER ASS'Y(220V3 A)

3J.1N905.011

VVV

REAR COVER ASS'Y(220V3 A) SEC

3J.1N908.011

VVV

6 CVRHINGE ABS DB39A 196V3

4B.1N901.011

VVVVVVVVVVVVVVVV

SPK*2 1.5W5.25OHM 170/325MM 2C.41AY0.101

VVVVVV

Packing Styling

Model

20V3SB/00

20V3SB/00(AP)

20V3SB/01

20V3SB/93

20V3SB/62

20V3AB/00

20V3AB/00(AP)

20V3AB/01

Packing Styling

location Description PCM c ode P hilips 12NC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC

4G.1N901.001 VVVVVV VVVVVVVV 4G.1N903.001 VV 4G.1N902.001 VVVVVV VVVVVVVV 4G.1N904.001 VV 4D.1N901.001

VVVVVV VVV

4D.1N902.001

4D.1N901.031

VVVVV

110

100

Accessory Styling

120 CARTON

CUSHION BTM

CUSHION TOP

Model

20V3SB/00

20V3SB/00(AP)

20V3SB/01

20V3SB/93

20V3SB/62

20V3AB/00

20V3AB/00(AP)

20V3AB/01

Accessory Styling

location Description PCM c ode P hilips 12NC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC

200

SG PHILIPS M3220VQ1Q220V3/L 4J.1N901.001

VVVVVVVVVVVVVVVV

210

CD PHILIPS M3220V1

220V3 5B.1N901.001

VVVVVVVVVVVVVVVV

CORD H05VV-3G 10A250V 1500 EUR

2G.02718.051 VVVVVV VVVVVVVV

<ALT>CORD H05VV-3G 10A250V 1500 EU

2G.02718.05H VVVVVV VVVVVVVV CORD H05VV-F 13A250V 1.5M UK 2G.03131.031 CORD SVT125V WO/SH 1.5M US 2G.01111.031 CORD VCTF 2P W/G PSE 1.5M JAP 2G.03513.031 CORD H05VV 250V 1.8M BLK INDIA 2G.04133.001 CORD 3ASL/75DU-IN 250V1.5M AUS 2G.01343.031 <ALT>CORD 3ASL/75DU-IN 250V1.5M AUS 2G.01343.061 CORD RVV300/500 10A25V1.5MM 3C 2G.03745.001 VV <ALT>CORD RVV300/500 10A25V1.5MM 3

2G.03745.00H VV

CABLE SIGNAL 5COAX OD 5.5 1.5M

5K.0JF05.503 VVVVVVVVVVVVVVVV

CABLE AUDIO 577C/577C 1.8M

5K.L1S11.511 VVVVVV

Critical components

Model

20V3SB/00

20V3SB/00(AP)

20V3SB/01

20V3SB/93

20V3SB/62

20V3AB/00

20V3AB/00(AP)

20V3AB/01

Critical components

location Description PCM c ode P hilips 12NC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC LGD SEC

#IC CTRL RTD2271W-CG QFP 128P 7A.02271.C0E

VVVVVVVVVVVVVVVV

Scaler IC

U10 #IC FLASH W25X20BVSNIG SON 8P 7B.02026.001

VVVVVVVVVVVVVVVVPutinFirmware

;

U6 #IC EEPROM M24C02RMN6TP SON8P 7B.02402.E01

VVVVVVVVVVVVVVVVDDCforD-suborDVI

U9 #IC EEPROM AT24C16BN-SH-T SON8 7B.02416.R01

VVVVVVVVVVVVVVVVDDCforD-suborDVI

T601 XFORM 1.57MH EFD-25 ST2410B 1J.20329.031

VVVVVVVVVVV

Power transfor mer

C605 CAP68U450VRC600BC7.516*36 0J.686

1M.L

VVVVVVVVVVVVVVVV

Filter Ca

acitor

IC602 IC PWR SW T OP265KG-TLESOP 12P 7D.00265.090

VVVVVVVVVVV

Power IC

T801 XFORM INV 900/280MH EEL19 P190 1J.26049.191

VVVVVVVVVVVVVVVV

LED Driver IC

IC801 IC CCFL CTRL MP10091ES-LF-Z 7D.10091.071

VVVVVVVVVVVVVVVV

Power IC

IC601 #IC PWR SW TOP267KG-TL ESOP 12 7D.00267.090

VVVVVV

Power IC

IC501 #IC PWR AMP PAM 8603MDER SOP 18 7D.08603.0KD

VVVVVV

Audioam

lifier

Panel & PCBA photos

76 220V3 LCD

ITEM PCM Description

1 5F.LLBP0.011

LCDM22W LM220WE1TLP1 Z(LGD)

2 5E.1N901.001 MAIN (I/F) BOARD ASS'Y

5E.1N902.001 SPS BD ASS'Y

4 5E.1N902.006 SPS BD ASS'Y

5E.1N803.M01 ASSY CTRL BD

Repair Tips

0. Warning

All ICs and many other semi -conductors are susceptible to electrostatic discharges (ESD). Careless handling during repair can reduce life drastically . When repairing, make sure that you are connected with the same potential as the mass of the unit via a wrist wrap with resistance. Keep components and tools also at the same potential!

1. Servicing of SMDs (Surface Mounted Devices)

1.1 General cautions on handling and storage

- Oxidation on the terminals of SMDs results in poor soldering. Do not handle SMDs with bare hands.

- Avoid using storage places that are sensitive to oxidation such as places with sulphur or chlorine gas, direct sunlight, high temperatures or a high degree of humidity. The capacitance or resistance value of the SMDs may be affected by this.

- Rough handling of circuit boards containing SMDs may cause damage to the components as well as the circuit boards. Circuit boards containing SMDs should never be bent or flexed. Different circuit board materials expand and contract at different rates when heated or cooled and the components and/or solder connections may be damaged due to the stress. Never rub or scrape chip components as this may cause the value of the component to change. Similarly, do not slide the circuit board across any surface.

1.2 Removal of SMDs

- Heat the solde r (for 2-3 seconds) at each terminal of the chip. By means of litz wire and a slight horizontal force, small components can be removed with the soldering iron. They can also be removed with a solder sucker (see Fig. 1A)

While holding the SMD with a pair of tweezers, take it off gently using the soldering iron's heat applied to each terminal (see Fig. 1 B).

- Remove the excess solder on the solder lands by means of litz wire or a solder sucker (see Fig. 1C).

While holding the SMD with a pair of tweezers, take it off gently using the soldering iron's heat applied to each terminal (see Fig. 1 B).

- Remove the excess solder on the solder lands by means of litz wire or a solder sucker (see Fig. 1C).

1.3 Caution on removal

- When handling the soldering.iron. use suitable pressur e and be careful.

- When removing the chip, do not use undue force with the pair of tweezers.

- The soldering iron to be used (approx. 30 W) should preferably be equipped with a thermal control (soldering temperature: 225 to 250 C).

- The chip, once removed, must never be reused.

1.4 Attachment of SMDs

- Locate the SMD on the solder lands by means of tweezers and solder the component on one side. Ensure that the component is positioned correctly on the solder lands (see Fig.2A).

- Next complete the soldering of the terminals of the component (see Fiq. 2B).

2. Caution when attaching SMDs

- When soldering the SMD terminals, do not touch them directly with the soldering iron. The soldering should be done as quickly as possible, care must be taken to avoid damage to the terminals of the SMDs themselves.

- Keep the SMD's body in contact with the printed board when soldering.

- The soldering iron to be used (approx. 30 W ) should preferably be equipped with a thermal control (soldering temperature: 225 to 250 C).

- Soldering should not be done outside the solder land.

- Soldering flux (of rosin) may be used, but should not be acidic.

- After soldering, let the SMD cool down gradually at room temperature.

- The quantity of solder must be proportional to the size of the solder land. If the quantity is too great, the SMD might crack or the solder lands might be torn loose from the printed board (see Fig. 3).

220V3 LCD 77

Repair Tips

3. Lead-free product identification

You can identify lead-free product by Philips-lead-free logo on PCB.

4. Lead-free product repair instruction

4.1 Use only lead-free Solder Alloy 0622 149 00106(1.2mm SAC305) or 0622 14900108(1.0mm SAC305). Remark: For lead free soldering material, please visit www.alphametals.com

website for details. This is recommended by Philips.

4.2 Use only adequate solder tools applicable for lead-free soldering-tin. The solder tool must be able to reach at least a solder-temperature of 400, to stabilize the adjusted temperature at the solder-tip and to exchange solder-tips for different applications. Small Passives/Actives to be removed with thermal tweezers Automated system for IC and BGA repair (Microscope, Camera, Beam split optics, Computer, Programmer, Heat controllers, Vacuum system, Laser pointer) Solder Hand-Tool (Adjustable in temperature height, Temperature shall be held constant, Flexible tips)

4.3 Adjust your solder tool so that a temperature around 360 -380 is reached and stabilized at the solder joint. Heating-time of the solder-joint should not exceed ~ 4 sec. Avoid temperatures above 400 otherwise wear-out of tips will rise drastically and flux-fluid will be destroyed. Corrosion of Tool-Spikes can be avoided when using SAC305 and a temperature of less than 400.

4.4 Mix of lead-free solder-tin/parts with leaded soldering-tin/parts is possible but not recommended. If not to avoid clean carefully the solder-joint from old tin and re-solder with new tin.

4.5 Use only original spare-parts listed in the Service-Manuals. Standard-material (consumables) can also be purchased at external companies.

4.6 Special information for lead-free BGA-ICs: this ICs will be delivered in so-called dry-packaging to protect the IC against moisture and with lead-free logo on it. This packaging may only be opened shortly before it is used (soldered). Otherwise the body of the IC gets wet inside and during the heating time the structure of the IC will be destroyed due to high (steam-) pressure. If the packaging was opened before usage the IC has to be heated up for some hours (around 90 ) for drying (Take attention for ESD-protection!)

5. Rework on BGA (Ball Grid Array) ICs

General Although (LF)BGA assembly yields are very high, there may still be a requirement for component rework. By rework, we mean the process of removing the component from the PWB and replacing it with a new component. If an (LF) BGA is removed from a P WB, the solder balls of the component are deformed drastically so the removed (LF)BGA has to be discarded.

Device Removal As is the case with any component that, it is essential when removing an (LF) BGA, the board, tracks, solder lands, or surrounding components are not damaged. To remove an (LF)BGA, the board must be uniformly heated to a temperature close to the reflow soldering temperature. A uniform temperature reduces the chance of warping the PWB. To do this, we recommend that the board is heated until it is certain that all the joints are molten. Then carefully pull the c

omponent off the board with a

vacuum nozzle. For the appropriate temperature profiles, see the IC data sheet.

Area Preparation When the component has been removed, the vacant IC area must be cleaned before replacing the (LF) BGA. Removing an IC often leaves varying amounts of solder on the mounting lands. This excessive solder can be removed with either a solder sucker or solder wick. The remaining flux can be removed with a brush and cleaning agent. After the board is properly cleaned and inspected, apply flux on the solder lands and on the connection balls of the (LF)BGA Note: Do not apply solder paste, as this has shown to result in problems during re-soldering.

Device Replacement The last step in the repair process is to solder the new component on the board. Ideally, the (LF) BGA should be aligned under a microscope or magnifying glass. If this is not possible, try to align the (LF)BGA with any board markers. To reflow the solder , apply a temperature profile according to the IC data sheet. So as not to damage neighbouring components, it may be necessary to reduce some temperatures and times.

More Information For more information on how to handle BGA devices, visit this URL: http://www.atyourservice.ce.philips.com (needs subscription). After login, select Magazine, then go to Workshop Information. Here you will find Information on how to deal with BGA-ICs.

78 220V3 LCD

Repair Flow Chart

220V3 LCD 79

1. No Display or display is unstable on analog ,digital or video port:

Turn o n power

No picture or

picture unstable

Power

Does D-sub/DVI

cable plugs in

connector?

Does power stable?

Replace Panel

Check D-sub/DVI

connection

Check Power core or power board or

AC so urc e

Does crystal work

correctly ?

Check Crystal Y1 CKT or replace it

Is Interface Board

work normally ?

Replace Inter face

Board

YES

2. BUTTON function:

OSD is not working

Yes

Is control BD connecting? No Plug control BD then retry

Yes

Is botton key normally? Yes Replace control BD then retry

Replace Control BD

Is OSD working??

Check Interface BD

3. OSD function:

OSD doesn’t work

Is control BD working? No Replace control

Check interface BD

Repair Flow Chart

80 220V3 LCD

4. Power no output troubleshooting

No No

Yes

Check IC602 whether the C pin and

output normally

Check the IC602 related signal

Check D711 whether the output keep +17V.

The power cord is good.

Replace the power board

Replace the power cord

Detach power board from the monitor and

if the +17V of the power board output

normally

If the +17V of power board output normally

Check the D711, input signal and

en-short

Change interface board

Check connector whether .it is tilted

5. Inverter & LED driver no work troubleshooting

Yes

Check PIN 6 of CN701 whether the

voltage is +3.3V

Check PIN 7&8 of CN701 whether the

voltage is +5V

Check the interface and power

board

Check the power board

Replace the power board

Safety Test Requirements

All units that are returned for service or repair must pass the original manufactures safety tests. Safety testing requires both Hipot and Ground Continuity testing.

HI-POT TEST INSTRUCTION

1.Application requirements

1.1 All mains operated products must pass the Hi-Pot test as described in this instruction.

1.2 This test must be performed again after the covers have been refitted following the repair , inspection or modification of the product.

2. Test method

2.1 Connecting conditions

2.1.1 The test specified must be applied between the parallel blade plug of the main scord and all accessible metal parts of the product.

2.1.2 Before carrying out the test, reliable conductive connections must be ensured and thereafter be maintained throughout the test period.

2.1.3 The mains switch(es) must be in the "ON" position.

2.2 Test Requirements All products should be HiPot and Ground Continuity tested as follows:

Condition

Hi-Pot Test for products where the mains input is 220V AC

Hi-Pot Test for products where the mains input is 110V AC

Ground Continuity Test requirement

Test voltage

2820VDC (2000VAC)

1700VDC (1200VAC)

Test time 3 seconds 1 seconds

Trip current (Tester)

Set at 100uA for Max limit; Set at 0.1uA for Min limit.

5mA

Ramp time (Tester)

Set at 2 seconds

Test current: 25A, AC Test time: 3 seconds Resistance required: <=0.09+Rohm, R is the resistance of the mains cord. 91 220CW9 LCD

2.2.1 The minimum test duration for Quality Control Inspector must be 1 minute.

2.2.2 The test voltage must be maintained within the specified voltage + 5%.

2.2.3 There must be no breakdown during the test.

2.2.4 The grounding blade or pin of mains plug must be conducted with accessible metal parts.

3. Equipments and Connection

3.1. Equipments For example :

- Zentech 9032 PROGRAMMABLE AUT O SAFETY TESTER

3.2. Connection

* Turn on the power switch of monitor before Hipot and Ground Continuity testing.

4. Recording Hipot and Ground Continuity testing records have to be kept for a period of 10 years.

220V3 LCD 81

Philips M3/M4 Series Auto Color SOP

Step 1:

Setup input timing (1280*1024@75Hz) and enter factory mode (press “Menu ” & “ Down” & “ Power” b uttons at the same time to turn on monitor).

Step 2:

Move cursor into “Burn-in Mode” and select “ Yes ” to enable burn-in mode.

Move cursor into “Auto Level” and press “Menu ” button. It will show “ ok” meaning “AUT O COLOR” OK

Step 3: Before you leave the factory mode, please remember to move cursor into “Burn-in Mode” and select “ No”

82 220V3 LCD

Philips M3/M4 Series User reset SOP

Step 1:

Turn on Monitor and Press “Menu ” button to enter into user mode

Choose “Setup” ->”Reset” ->” Yes”.

Step 2: Run “Auto Adjustment”

83220V3 LCD

Philips 220V3SB/00, 220V3SB/00(AP), 220V3AB/00, 220V3SB/93, 220V3AB/01 Service Manual

Specifications and Main Features

Frequently Asked Questions

User Manual