Acer AL1931, AM939 Manual

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Acer AL1931, AM939 Manual | Manualzz

AL1931(AM939) TFT LCD MONITOR

CONTENTS

1.

INTRODUCTION .......................................................................................................................................... 2

1.1

Scope .................................................................................................................................................... 2

1.2

Description ............................................................................................................................................ 2

2.

ELECTRICAL REQUIREMENTS................................................................................................................. 3

2.1

Standard Test Conditions ..................................................................................................................... 3

2.2

LCD monitor General specification ....................................................................................................... 3

2.3

LCD Panel Specification ....................................................................................................................... 4

2.4

Input Signals ....................................................................................................................................... 11

2.5

CONTROLS ........................................................................................................................................ 16

2.6

White Color Temperature ................................................................................................................... 20

2.7

POWER SUPPLY ............................................................................................................................... 21

2.8

Plug & Play (EDID) ............................................................................................................................. 23

2.9

Audio Technical specification ............................................................................................................. 24

3.

VL-903 DISPLAY CONTROL BOARD...................................................................................................... 25

3.1

Description .......................................................................................................................................... 25

3.2

Features .............................................................................................................................................. 25

3.3

BLOCK DIAGRAM .............................................................................................................................. 26

3.4

Connector Locations ........................................................................................................................... 27

3.5

Connector Type .................................................................................................................................. 27

3.6

Connector pin assignment .................................................................................................................. 28

4.

VK-903 Function Control key Board....................................................................................................... 31

4.1

Description .......................................................................................................................................... 31

4.2

Connector and Switch Locations ........................................................................................................ 31

4.3

Connector type ................................................................................................................................... 31

4.4

Connector pin Assignment .................................................................................................................. 31

4.5

Switch definition .................................................................................................................................. 32

4.6

LED definition ...................................................................................................................................... 32

5.

TROUBLESHOOTING............................................................................................................................... 33

5.1

Main Procedure .................................................................................................................................. 33

6.

MECHANICAL REQUIREMENTS ............................................................................................................. 38

6.1

Vibration and Shock ............................................................................................................................ 38

6.2

Package Drop Specification ............................................................................................................... 38

6.3

Dimension Size and Weight ................................................................................................................ 39

6.4

Gap Spec.

........................................................................................................................................... 39

6.5

Tilt Base Rotation ............................................................................................................................... 41

6.6

Plastic Material .................................................................................................................................... 41

6.7

GAP Spec.

.......................................................................................................................................... 41

7.

Power Line Transient Test (IEC 61000-4-4 Fast Transients/Burst) ..................................................... 41

7.1

Peak Voltage: ...................................................................................................................................... 41

7.2

Polarity : + / ................................................................................................................................ 42

7.3

Repetition Frequency of the impulse : 5 KHz.

.................................................................................... 42

7.4

Rise-Time : 5ns ± 30% ..................................................................................................................... 42

7.5

Impulse Duration: 50 nS ± 30% .......................................................................................................... 42

7.6

Relation to Power Supply: Asynchronous .......................................................................................... 42

7.7

Burst Duration: 15 ms ± 20% .............................................................................................................. 42

7.8

Burst Period: 300 ms ± 20% ............................................................................................................... 42

7.9

Climatic Conditions: ............................................................................................................................ 42

7.10

Test Procedure: .................................................................................................................................. 42

8.

Power Line Surge Test (IEC 61000-4-5 Surge) ...................................................................................... 44

8.1

Climatic Condition ............................................................................................................................... 44

8.2

Test Conditions: .................................................................................................................................. 44

8.7

Display set high-resolution mode, AC input use AC 240V. ................................................................ 44

1

9.

ENVIROMENT REQUIREMENT................................................................................................................ 45

9.1

Operating ............................................................................................................................................ 45

9.2

Storage or Shipment ........................................................................................................................... 45

10.

REGULATION COMPLIANCE .................................................................................................................. 46

10.1

This product comply to the most current revisions of following regulations: ...................................... 46

10.2

Electrostatics Discharge (ESD) .......................................................................................................... 47

11.

QUALITY AND RELIABILITY.................................................................................................................... 48

11.1

Quality Assurance ............................................................................................................................... 48

11.2

Reliability ............................................................................................................................................. 48

Appendix A: Parts Lists ----------------------------------------------------------------------------------------

49

Appendix B: Display Unit Assembly --------------------------------------------------------------------- 53

Appendix C: P.C.B.A ASSEMBLY----------------------------------------------------------------------- 60

1

1. INTRODUCTION

1.1 Scope

This specification defines the requirements for the 19” MICRO-PROCESSOR based

Multi-mode supported high resolution color LCD monitor, Monitor can be directly connected to general 15 pin D-sub VGA connector and DVI-D digital connector, eliminates the requirement of optional special display card. It also supports VESA

DPMS power management and plug & play function. There is a build-in stereo audio amplifier with volume control to drive a pair of speakers. Monitor also can support multi-media function as Composite signal and S-Video signal input.

1.2 Description

The LCD monitor is designed with the latest LCD technology to provide a performance oriented product with no radiation. This will alleviate the growing health concerns. It is also a space saving design, allowing more desktop space, and comparing to the traditional CRT monitor, it consumes less power and gets less weight in addition MTBF target is 20k hours or more.

2

2. ELECTRICAL REQUIREMENTS

2.1 Standard Test Conditions

All tests shall be performed under the following conditions, unless otherwise specified.

Ambient light: 225 lux

Viewing distance : 50 cm in front of LCD panel

Warrn up time

All specifications: 30 minutes

Fully functional: 5 seconds

Measuring Equipment: Chroma 2250 signal generator or equivalent, directly

Connected to the monitor under test.

Minolta CA100 photometer, or equivalent

Control settings

User brightness control: Maximum (unless otherwise specified )

User contrast control: Typical (unless otherwise specified )

User red/white balance,

Green/white balance and

Blue/white balance control: In the center (unless otherwise specified )

Power input :

Ambient temperature :

Analog input mode :

110Vac or 230Vac

20 ± 5 ˚ C ( 68 ± 9 ˚ F)

1280 x1024 /60 Hz

2.1.1 MEASUREMENT SYSTEMS

The units of measure stated in this document are listed below:

1 gamma = 1 nano tesla

1 tesla = 10,000 gauss cm = in x 2.54 lb = kg x 2.2 degrees F = [°C x 1.8] + 32 degrees C = [°F - 32]/1.8 u' = 4x/(-2x + 12y + 3) v' = 9y/(-2x + 12y + 3) x = (27u'/4)/[(9u'/2) - 12v' + 9] y = (3v')/[(9u'/2) - 12v' + 9] nits = cd/(m2) = Ft-L x 3.426 lux = foot-candle x 10.76

2.2 LCD monitor General specification

Panel Type : 19 “ active matrix color TFT LCD

1). FUJITSU FLC48SXC8V

2). SANYO TM190SX-70N01

Display size : 376.32mm(H) x 301.056mm(V)

Display mode : VGA 720 X 400 (70 Hz)

VGA 640 X 480 (60/70/75 Hz)

SVGA 800 X 600 (60/70/75 Hz)

XGA 1024 X 768 (60/70/75 Hz)

3

resolution

SXGA 1280 X 1024 (60/70/75 Hz) standard

Pixel pitch : 0.098x3mm(H) x 0.294mm(V)

Display Dot : 1280 x (RGB) x 1024

Pixel Clock : 25.2 – 135.0MHz

Contrast ratio: θ = 0 ˚ FUJITSU 500: 1, SANYO 700:1, AU 600:1 (conditions = typical).

Brightness: FUJITSU 300 cd/m ² , SANYO 250 cd/m ² , AU 250 cd/m ²

(conditions= typical).

Response time (Tr/Tf): FUJITSU:(15/10), SANYO:(19/6), AU:(15/10)(conditions

Ta=25 ℃ ).

Display color : FUJITSU: 16.7M, SANYO: 16.7M, AU: 16.7M (8 bite color)

Viewing angle: FUJITSU, SANYO, AU

L / R ≧ 85 / ≧ 85 ( ≧ 160 degrees horizontal typical)

U / D ≧ 85 / ≧ 85 ( ≧ 160 degrees vertical typical)

Luminance Uniformity : > 75 %

Pc interface: 1). Video : RGB analog 0.7V peak to peak

Sync : TTL positive or negative

2). Digital : TMDS

3). Audio : 3.5 mm stereo audio jack (Audio)

Signal connector : 15 pin Mini D type, (standard VGA video)

DVI-D connector

Audio power : 1Wrms + 1Wrms ( 300Hz – 10kHz (S.P.L. – 10 dB))

Front control : power on/off with LED select (up, down) adjustment (+,-)

Interface frequency

Horizontal Frequency 30KHz --80KHz(analog), 31.5– 64KHz(digital)

Vertical Frequency 56Hz ----75Hz

Plug & play : Support VESA DDC2B functions

Power Input voltage : Single phase, 50/60HZ, 100VAC to 240VAC ± 10%

Total output power : 56 Watt max.

2.3 LCD Panel Specification

2.3.1 LCD Panel Model (FUJITSU FLC48SXC8V)

• Display Type

Resolution

• Display Area active matrix color TFT LCD

1280 x 1024 pixels

376.32mm(W) x 301.056mm(H)

4

• Sub Pixel Pitch

Pixel Pitch

0.098mm(W) x 0.294mm(H)

0.294 (RGB) mm(W) x 0.294mm(H)

• Display Color

• Lamp Voltage

Lamp Current

16.7M(8 bite color)

750 Vrms (typ)

7 mArms ( typ)

• Weight 2500g ( MAX)

• Optical Specifications

The following items are measured under stable conditions. The optical characteristics should be measured in a dark room or equivalent state with the methods shown in Note(4).

Measuring equipment : TOPCON BM-5A, BM-7, PHOTO RESEARCH

PR650

(Inverter Freq. : 54kHz) *Ta =25 ± 2 ° C, VDD=5V, fv=60 Hz, fDCLK=54 MHz, IL= 6.5mArms

Response time

Rising

Falling

Specification

Min. Typ.

Max.

Unit Remark

T

T

R

F

θ = 25/0 ˚

15/50 30/100

10/50 25/100

Contrast Ratio CR θ = 0 ˚ 400 600 - Note

Brightness (center of screen)

White Uniformity

Y

L

θ = 0 ˚

White Chromaticity

δ w

Wx 0.283

0.313

0.343

Wy 0.309

0.329

0.349

Red Chromaticity

Note 1, 4

Green Chromaticity

Blue Chromaticity

Up

Vertical

Viewing Angle

Down

By 0.130

Θ

U

CR ≥ 10 85 _ -

Θ

D

CR ≥ 10 85 - -

Left

Horizontal

Viewing Angle

Right

Crosstalk (in 75Hz)

Θ

L

CR ≥ 10 85 - -

Θ

R

CR ≥ 10 85 - -

- % Note 8

5

2.3.2 LCD Panel Model (AU M190EN02)

• Display Type

• Resolution

Display Area

• Sub Pixel Pitch

• Pixel Pitch

Display Color

• Lamp Voltage

• Lamp Current

Weight

• Optical Specifications active matrix color TFT LCD

1280 x 1024 pixels

376.32 mm x 301.056 mm

0.098mm(W) x 0.294mm(H)

0.294mm(W) x 0.294mm(H)

16.7M(8 bite color)

720 Vrms (typ)

7.0 mArms ( typ)

2700g ( typ)

I

L

= 6.5mA (RMS) Ta = 25 ± 2 ° C V

DD

= 5V F

V

= 60Hz F

DCLK

= 54MHz

Contrast Ratio

(Center of screen)

Condition UNIT

CR

- 600 -

Response

Time at Ta

Rising T

R

Falling T

F

Luminance of white

(Center of screen)

Y

L

φ =0,

θ =0

200 250 -

(total) msec cd/m

2

Color

Chromaticity

(CIE)

Viewing

Angle

Red

Green

Blue

White

Hori.

Vert.

Brightness Uniformity

R

R

X

Y

G

X

G

Y

B

B

X

B

Y

W

X

W

θ

L

φ

φ

L

Y

H

θ

R

Normal

Viewing

0.603

0.633

0.663

0.324

0.354

0.384

0.262

0.292

0.322

0.568

0.115

0.598

0.145

0.628

0.175

0.077

0.107

0.137

0.280

0.310

0.340

UNI

CR ≥ 10

Flicker F

0.308

0.338

0.368

- 85 -

- 85 -

- 85 -

- 85 -

Degrees

Cross talk C

T

6

2.3.3 LCD Panel Model (SANYO TM190SX-70N01)

• Display Type

Resolution

• Display Area

• Sub Pixel Pitch

Pixel Pitch active matrix color TFT LCD

1280 x 1024 pixel

376.32 mm x 301.056 mm

0.098mm(W) x 0.294mm(H)

0.294mm(W) x 0.294mm(H)

• Display Color

• Lamp Voltage

Lamp Current

16.7M(8 bite color)

730 Vrms (typ)

6.5 mArms ( typ)

• Weight 2700g ( typ)

• Optical Specifications

I

L

= 8mA (RMS) Ta = 25 ± 2 ° C V

DD

= 5V F

V

= 60Hz F

DCLK

= 54MHz

Contrast Ratio

(Center of screen)

Condition UNIT

CR

- 700 -

Response

Time at Ta

Rising T

R

Falling T

F

Luminance of white

(Center of screen)

Y

L

φ =0,

θ =0

-

200

16

9

250

-

-

(total) msec cd/m

2

Color

Chromaticity

(CIE)

Viewing

Angle

Red

Green

Blue

White

Hori.

Vert.

Brightness Uniformity

R

R

X

Y

G

X

G

Y

Normal

Viewing

0.605

0.635

0.665

0.324

0.354

0.384

0.265

0.295

0.325

0.570

0.600

0.630

B

X

B

Y

0.110

0.140

0.170

0.050

0.080

0.110

W

W

θ

L

X

Y

0.280

0.310

0.340

0.300

0.330

0.360

- 85 -

- 85 - Degrees

B

θ

φ

R

H

φ

L

UNI

CR ≥ 10

Flicker F

- 85 -

- 85 -

Cross talk C

T

7

*For Edge shadow will follow limit sample to check.

Note 1) Definition of Viewing Angle: Viewing angle range (10 ≤ CR)

Note 2) Definition of Contrast Ratio (CR): Ratio of gray max(Gmax),gray min(Gmin) at the center point of panel.

Luminance with all pixels white (Gmax)

CR= 

Luminance with all pixels black (Gmin)

Note 3) Definition of Response time: Sum of T

R

, T

F

Note 4) After stabilizing and leaving the panel alone at a given temperature for 30 min, the measurement should be executed .Measurement should be executed n a stable, windless ,and dark room.30 min after lighting the backlight. This should be measured in the center of screen. Dual lamp

8

current :13.0mA(6.5mA x2)(Refer to the note(1) in the page 14 for more information ).

Environment condition :Ta=25 ± 2 ° C

Optical characteristics measurement setup

9

Notes 5) Definition of Luminance of White : measure the luminance of white at center point.

Notes 6)Definition of 9 points brightness uniformity (Measuring points: Refer to the

Note 5)

Bmin

B

UNI

=100 ∗ 

Bmax

Bmax: Maximum brightness

Bmin: Minimum brightness

Notes 7) Definition of Flicker level

Flicker Voltage

F =

LMD Voltage dc pp

 x 100 %

♦ One maximum value of three estimated values.

♦ For this test ,an LMD(Light Measurement Device)is needed with adequate response time to track any visible rate flicker component and with a voltage level output proportional

To luminance intensity.

♦ Test Pattern: For dot inversion Driving(Gray levels of foreground dots on the test panel

Are G22,G32,and G45)

♦ Test Point :Center point of the display area

10

Note 8) Definition of Crosstalk (Refer to the VESA STD)

The calculation for shadowing is made from the 2 luminance measurements Gbkg and Lsh, as follows:

C

T

-Lmin

=  x100 %

Lmin

Where Lmax is the larger value of Gbkg or Lsh , and Lmin is the smaller of the two.

♦ To determine background and foreground levels (colors),first set the background to any gray scale or color level suitable for shadowing determination.(Note that it may take several iterations of adjusting background level and box levels to determine the proper value for the background .Next display the box levels to determine the proper value for the background level. Look for shadowing in any direction from box E. Independently vary the gray level (or color) of the background and box E until the worst case shadowing is observed. This defines the background (Gbkg) and foreground (Gfg) levels to be maintained for the remainder of the test.

♦ One point only (the target) will be measured. To determine that point proceed as follows

Using the background and foreground gray levels of step1 (Gbkg and Gfg). Turn on each box at a time. Look for the case with the worst shadowing. The box causing the worst case is the shadowing source, or Bsrc. Use Bsrc and the box opposite from it that lies directly in the shadow path. That is the target box, or Btgt. Note that box Eight be either Bsrc or Btgt, depending on the shadowing conditions, but typically Bsrc and Btgt will be a pair of opposite boxes, A&C or B&D. Btgt will only be displayed for aligning the LMD. It will be turned off for the actual measurement.

♦ The target box point (Btgt) will be measured with the source box (Bsrc) turned on then off.

(Btgt is for alignment purpose only) Display the background only at level Gbkg. Display

Btgt determined in step 2 above. Using the correct distance, angle, and measurement aperture, align the LMD to the center of the Btgt. Turn off Btgt. With Gbkg set to its proper level, measure the luminance (or color). Next,turn on the source box Bsrc. Again measure at the center point of Btgt (without Btgt present.). In this case the LMD will be measuring the shadowing level, Lsh.

2.4 Input Signals

2.4.1 Video input

• Type Analog R, G, B., Digital TMDS

• Input Impedance 75 ohm +/- 2 %

11

Polarity Positive

Amplitude 0 - 0.7 +/- 0.05 Vp

Display Color same as LCD panel

2.4.2 Sync input

Signal

Polarity separate horizontal and vertical sync, or composite sync which are TTL compatible positive and negative.

2.4.3 Interface frequency

The following frequency range is generalized by supported timing. If the entered mode does not match the supported timing the display optimization will not be assured.

Horizontal Frequency 30KHz --80KHz(analog), 31.5– 64KHz(digital)

Vertical Frequency 56Hz ---------75Hz

DISPLAY MODES

MONITOR

MODE NO.

SCREEN

RESOLUTION

HORIZONTAL

SYNC RATE

VERTICAL

SYNC RATE

VIDEO CLK

(MHz)

STANDAR

D

1 640X480

(kHz)

31.5 -

(Hz)

60.0 - 25.0 Defacto

2 640X480 37.86- 72.80- 31.5 VESA

3 640X480 37.5- 75.0- 31.5 VESA

4 720X400 31.5 - 70.0 + 28.0 Text

5 800X600 37.8 + 60.0 + 40.0

Defacto

VESA

6 800X600 48.07 + 72.18 + 50.0 VESA

7 800X600 46.87+ 75.0+ 49.5 VESA

8

9

10

11

12

1024X768

1024X768

1024X768

1280X1024

1280X1024

48.4 -

56.47 -

60.0 +

64.0 +

80.0 +

60.0 -

70.07 -

75.0 +

60.0 +

75.0 +

65.0

75.0

78.75

108.5

135.0

VESA

VESA

VESA

SXGA

SXGA

12

Supported Timing

TIMING FH(KH SYNC TOTAL ACTIVE SYNC FRONT BACK PIXEL

Z)

FV(HZ) (DOT/LINE) WIDTH

(DOT/LINE) (DOT/LINE)

VESA-480-72Hz 72.809 – 520 480 3 1 20

640x480 37.5

VESA-480-75Hz 75 – 500 480 3 1 16

VGA-400-TEXT 70.087 + 449 400 2 12 35

VESA-600-60Hz 60.317 + 628 600

VESA-600-72Hz 72.188 + 666 600

VESA-600-75Hz 75 + 625 600

4

6

3

1

37

1

23

23

21

VESA-768-70Hz 70.069 –

VESA-768-75Hz 75.029 +

VESA-1024-60Hz 60 +

806

800

768

768

1066 1024

6

3

3

3

1

1

29

28

38

VESA-1024-75Hz 75 + 1066 1024 3 1 38

If the input timing is not a supported timing listed above but within the supported frequency range (Horizontal: 80KHz,Vertical: 75Hz), this monitor will select a closest mode instead. But the display quality may not be optimized.

If the input timing over the supported frequency range, a message “Input Signal Out of

Range” will be shown.

2.4.4 Support Modes

There will be 12 total support modes to accommodate the above mode and other video modes within the frequency range of the monitor.

Analog R, G, B. MAX supports range 1280x1024 75Hz.

Digital TMDS MAX supports range 1280x1024 60Hz.

13

2.4.5 85Hz refresh rate Support

Monitor should display 85Hz refresh rate mode as emergency mode.

Monitor should display “Out of Range” warning menu at this mode.

2.4.6 Analog Video input Connector

Analog Video input Connector: 15pins mini D-Sub

Table 2.4.5. Pin assignment for D-sub connector

PIN

NO.

Separate Sync

4 GROUND

5 GROUND

9 PC5V (+5V DDC)

11 GROUND

12 SDA

13 H.SYNC

14 V.SYNC

15 SCL

Color of plastic parts: Blue

5

15

10

1

11

6

14

Digital Video input Connector: DVI-D (T.B.D)

Table 4-3-3. Pin assignment for DVI-D (24pin) connector

Pin – Assignment of DVI –D connector :

1 TX2-

2 TX2+

3 Shield (TX2 / TX4)

4 NC

5 NC

6 DDC-Serial Clock

7 DDC-Serial Data

8 No Connect

9 TX1-

10 TX1+

11 Shield (TX1 / TX3)

12 NC

13 NC

14 +5V power *)

15 Ground (+5V)

16 Hot plug detect

17 TX0-

18 TX0+

19 Shield (TX0 / TX5)

20 NC

21 NC

22 Shield (TXC)

23 TXC+

24 TXC-

*) In case, the power of the PC unit is switched off and the power of the monitor is switched on,

no voltage may occur at pin 14.

Composite Video : Monitor rear side RCA female (Yellow).

AV1-input

S-Video (Y/C): Monitor rear side 4 Pin Mini-DIN female.

S-Video

2.4.7 Support Composite Video & S – Video Input:

JV3 for Composite Video RCA female (Yellow)

JV4 for S-Video female (Black)

Composite/S-VIDEO INPUTS

Level 0.7Vpp

15

Impedance

Composite Video Type

75 ohm terminated

Composite

Level 0.7Vpp

: NTSC/PAL

Impedance 75 ohm terminated

2.5 CONTROLS

A brief description and the location of all LCD Monitor functions controls and indicators:

5 4 3 2 1

Figure 2-1

1 Stereo Speakers PC Audio Stereo output.

2

4

Soft Power Switch

(DC Power-On

Indicator)

3 Auto

Function Select and

Adjustment Control

Buttons

5 Menu

1. Press the soft power switch to switch the monitor ON/OFF.

2. LED lights Blue color --- Power is ON.

3. LED lights Yellow --- Monitor is in "Power Saving Mode".

4. LED is off --- Power is OFF.

1. Press the Auto Buttons Monitor will Auto-Adjusting.

2. Press the Auto Buttons over 2 second the Monitor Searching next source.

1. Direct press either left or right control button can adjusting speaker Volume control.

2. When press after Menu buttons then Press either left or right control button for OSD first menu (left side) function selection.

1. When selection you want adjusting function then press Menu buttons again for OSD second menu (right side) function selection. You can Press the left button to decrease the OSD setting and press the right button to increase the OSD setting.

1. Press the Menu will show OSD (On Screen Display) Function

Menus table.

2. When OSD (On Screen Display) Menus display press Menu

Buttons will enable selection function.

16

2.5.1 Adjusting the Monitor’s Display

The monitor has four function control buttons to select among functions shown on OSD menu, designed for easy user-viewing environments.

OSD Function Menu

To access OSD Main menu, simply press one of the

Function Select control buttons, and the menu diagram will pop up on the screen as shown on Fig. 2-2:

Continue pressing the Function Select buttons to scroll through the entire menu items ,then press Adjustment

Control buttons to adjust content of selected item.

Figure 2-2

2.5.2 Function Description

2.5.2.1.1.1 Analog RGB / Digital RGB

Picture

Auto adjust

Brightness

Contrast

H-position

V-position

Phase

Clock

Advanced

Exit

Sharpness

Press > button, auto adjust the display mode to its utmost performance according to VGA setting.

Adjust the overall image and background screen brightness.

Adjust the image brightness in relation to the background.

To move the picture image horizontally left or right.

To move the picture image vertically up or down.

To improve focus clarity an image stability.

To increase or decrease the horizontal size of image.

To exit the main menu.

Adjusts the picture sharpness.

Color

Cool

Natural

Warm

You have 4 kinds of options.

This control adjusts the color temperature of the screen image, this item are preset by factory, you can not adjust these setting, The performance is bluer and brighter.

This performance is reddish and closer to paper white.

This performance is yellowish and closer to paper white.

User

You can adjust the individual color intensity by yourself. Increase or decrease red, green or blue depending upon which is selected

User red Increase or decrease red.

User green Increase or decrease green.

User blue Increase or decrease blue.

Exit To exit the main menu.

Audio

Options

Volume

Base

Treble

ATTL

ATTR

Loudness

Mute

Exit

This features adjusts < to decrease volume and > to increase volume.

This features adjusts < to decrease base and > to increase base.

This features adjusts < to decrease treble and > to increase treble.

This features adjusts < to decrease left speaker volume and > to increase left speaker volume.

This features adjusts < to decrease right speaker volume and > to increase right speaker volume.

This features choose on or off to get loudness.

This features choose on or off to mute the sound.

To exit the main menu.

OSD To move the OSD image.

OSD H-position To move the OSD image horizontally left or right.

17

Utilities

OSD V-position To move the OSD image vertically up or down.

Language

Exit

You can choose one of the nine languages you need.

To exit the main menu.

OSD timeout

You can select how long the monitor waits after the last adjust of the key to shut off the OSD menu. The time setting choices are from 5 to 60 seconds.

Reset

OSD background You can select opaque or translucent to change OSD background.

Source icon You can select on or off to display OSD icon.

Exit To exit the main menu.

Exit

Memory recall

Exit

Reset the currently highlight control to the factory setting. User must be using factory preset video mode to use this function.

To exit the menu.

To exit the OSD menu.

Composite Video / S-Video

Picture

Brightness

Contrast

Saturation

Hue

Sharpness

Advanced

Scaling

Exit

Adjust the overall image and background screen brightness.

Adjust the image brightness in relation to the background.

Adjusts the color saturation of the screen image.

Adjusts the color hue of the screen image.

Adjusts the picture sharpness.

Adjusts the picture size full screen or 16:9 screen.

To exit the main menu.

Sharpness

Color

Cool

Adjusts the picture sharpness.

You have 4 kinds of options.

This control adjusts the color temperature of the screen image, this item are preset by factory, you can not adjust these setting, The performance is bluer and brighter.

This performance is reddish and closer to paper white. Natural

Warm This performance is yellowish and closer to paper white.

You can adjust the individual color intensity by yourself. Increase or

User decrease red, green or blue depending upon which is selected

User red Increase or decrease red.

User green Increase or decrease green.

User blue Increase or decrease blue.

Exit To exit the main menu.

Audio

Options

Volume

Base

Treble

ATTL

ATTR

Loudness

Mute

Exit

This features adjusts < to decrease volume and > to increase volume.

This features adjusts < to decrease base and > to increase base.

This features adjusts < to decrease treble and > to increase treble.

This features adjusts < to decrease left speaker volume and > to increase left speaker volume.

This features adjusts < to decrease right speaker volume and > to increase right speaker volume.

This features choose on or off to get loudness.

This features choose on or off to mute the sound.

To exit the main menu.

18

Utilities

OSD To move the OSD image.

OSD H-position To move the OSD image horizontally left or right.

OSD V-position To move the OSD image vertically up or down.

Language

Exit

You can choose one of the nine languages you need.

To exit the main menu.

OSD timeout

You can select how long the monitor waits after the last adjust of the key to shut off the OSD menu. The time setting choices are from 5 to 60 seconds.

Reset

OSD background You can select opaque or translucent to change OSD background.

Source icon

Exit

You can select on or off to display OSD icon.

To exit the main menu.

Exit

Memory recall

Exit

Reset the currently highlight control to the factory setting. User must be using factory preset video mode to use this function.

To exit the menu.

To exit the OSD menu.

Sharpness : Adjust the scale-up effect(smoother or sharper.)

OSD Transparency: Adjust the transparency level of OSD. The range is from 0 to 100 scales.

Comment:

1280x1024:

60 HZ:

VER 1.00:

Other features:

Current mode resolution.

Current mode vertical frequency±1Hz.

Firmware revision.

Intellectual-Auto AM939 can start the Auto-Adjustment automatically when input a new display mode at first time less then 4 sec to finish. After the adjustment,

AM939 will remember this mode and switch to optimized condition automatically for this mode whenever encounter this mode again.

The 640 × 400, 720 × 400 mode can do graph/ text select on OSD Advanced function.

Total 13 recent used modes are recorded into EEPROM. If other support modes input to monitor EEPROM will cancel by first in first out motion.

After finishing adjustment from OSD, the data need 3 sec to save NVRAM memory.

VESA DPMS Functionality When signaled by the host CPU, AM939 show a black screen about 5 seconds. If no further signal, then it shows “No Signal” and enter power saving mode.

19

2.6 White Color Temperature

White color temperature is 4 preset as 9300, 7500,6500 and User,

Default value of user color should be user which is maximum setting for panel.

Target of color setting

Color Temp. Color Coordinate Tolerance Color Coordinate Tolerance

x y u’ v’

Cool (9300K)

Natural (6500K)

0.281

0.313

0.311

0.329

Warm (5000K) 0.345 0.350

User - - -

*) TCO’0X A.2.6.1 requirement

User should follow “Microsoft Windows Color Quality Specification for Liquid Crystal Display OEM’s”.

( http://www.microsoft.com/hwdev/tech/color/ColorTest.asp

)

20

2.7 POWER SUPPLY

(PK10V000000, LAE LAD6019AB5 BLK)

(PK10V000010, LAE LAD6019AB5 IVO)

(PK100005000, LSE9901B1260 BLK)

(PK100005010, LSE9901B1260 IVO)

2.7.1 Input Voltage Range

The monitor shall operate within specification over the range of 90 to 265 VAC power supply.

2.7.2 Input Frequency Range

Input power frequency range shall be from 47.5 to 63 Hz over the specified input voltage range.

2.7.3 Quick specification review

Input current 1.2A (max) at 90VAC input and full load ,

0.6A (max) at 264 VAC input and full load.

Inrush current @ cold start

30A(0-peak)@ 110Vac ,50A(0-peak) @ 220Vac

(measured when switched off for at least 10 mins.)

• Output

Output Volt

+12Vdc

-

± 5%

MIN

Current

Volt Tolerance

MAX

• Total output power: 60 Watt max.

• Withstanding voltage : 1.5Kvac or 2.2KVdc for 1 minute.

• Leakage current : < 0.25mA/100Vac , <3.5mA/230Vac

• Efficiency : 80% min. @115V/230VAC, maximum load.

2.7.4 Power Management

2.7.4.1 Meet VESA DPMS proposal

The monitor must comply with the Microsoft On Now specification, with a minimum of three power management states, as defined by the VESA DPMS document. The front panel of the monitor must appropriately display the DPMS state, For example:

DPMS ON :

DPMS OFF :

The power LED is Blue

The power LED is Amber

2.7.5 Power Consumption

On mode

Off mode

DC power off

55 Wmax

5 Wmax

5 Wmax

Green

Amber

Dark

Dark (DC power off)

Amber (DC power on)

Power saving states are measured with speakers attached but not worked.

The recovery time from stand by /suspend/off mode to on mode is 7 seconds maximum.

21

2.7.6 Power Connector

All units shall have an IEC/CEE-22 type male power receptacle.

2.7.7 Inverter & DC/DC Board (VP-903)

1. Fujustu /FLC48SXC8V-10 (Condition:Ta=25 )

No. Item Sym

1 Input Voltage Vin

Condition Min

11.4 12 12.6

2 Lamp Voltage VLamp Vin=12V,ILAMP= 7.5mA - 750 -

3 Luminance Bmax

4

Brightness adjustable range

Minimum Luminance ÷

Maximum Luminance

5 Working Frequency

6 Lamp Current

Fo

ILAMP

7

Backlight ON/OFF

Control OFF Shutdown (Lamp off)

8

Brightness control range(positive adjustment)

9 Lamp Current Balance IL1-IL2

10 Open Lamp Volt. Vopen Vin=12V, 0degC 1600

+/-0.5

- --

V

Vrms

- 60 - %

40

4

50

7.4

60

7.9

1.5 3.3

0 1.0

KHz mA

V

V

0 - 3.3 V mA

Vrms

11 Efficiency - %

12 Strike Lamp time

13

Delay Time for Open

Lamp Protection

/each lamp

14 Audible Noise

Ts Vin=12V, ON/OFF=0V

Topen

Vin=12V, each lamp is disconnected

30mm upon the part

40 60 80 ms

-- 1000 ms

34 dBm

22

2. Pin Assignments

2-1 Output Connector#1 (J802 / E&T 4500-09 / 9P P2.0)

Pin No. Symbol Description

1

2

3,4

5

+5Vaudio

GND/Audio

GND

Brightness

+5Vdc for Audio ckt

Ground for Audio ckt

Common Ground

Brightness adjustable range: 0 V<min> ~ 3.3V<max>

7,8

9

Vcpu

Vcc

+5Vdc supply to micro-P, always on.

+12 Vdc supply to mainboard.

2-2. Output Connector#2 (for CCFLs, J940,J980,J941,J981)

Connector type: ACES 88225-0211 P8.0 or alternative

Pin No. Symbol Description

2.8 Plug & Play (EDID)

The monitor will be capable of sending a VESA standardized EDID file through the DDC

(pins 12, 15 of the VGA connector).

23

2.9 Audio Technical specification

2.9.1 General Description:

Output power : 1Wrms + 1Wrms maximum

Total harmonic distortion : Less than 1 % (except speakers distortion)

Input signal sensitivity : 0.5 Vrms for full output

Input impedance : 47 Kohm +/- 5 %

Frequency response range : 20Hz – 20kHz (except speakers response)

Difference of L and R output : Less than 2 dB

2.9.2 Electrical characteristics (Tamb=25

°

)

Audio amplifier(USE Panasonic VP-7723A Audio Analyzor. )

Input Voltage(V)

Input Current(m A)

Audio Voltage Gain

Frequency Response

Signal to Noise ratio

Total harmonic distortion

Cross talk

Output Watt.

Volume Control

2.9.3 Speakers

500m Vrms 1KHz

500m Vrms 300Hz-

20KHz

500m Vrms 1KHz

500m Vrms 1KHz

500m Vrms 1KHz

500m Vrms 1KHz

Spec.

Min. Typ.

Max.

-

-

-

-10dB

-

-

-

-

-

-

-

-

Comment

5

500

-

800

- 6 d B Volume Max.,load 8 Ω

- +10d B Volume Max.,load 8 Ω

-40dB Volume Max.,load 8 Ω

1% except speakers distortion

-30dB Volume Max.,load 8 Ω

1W Volume Max.,load 8 Ω

- Analog

Maximum power

Impedance

: 2 W speaker(max)

: 8 ohm +/- 15 % @ 1kHz 1.0Hz

Frequency response range : 350 Hz – 15 kHz (S.P.L. – 10 dB)

Total harmonic distortion : Less than 5 % @ 0.125 W 1kHz

24

3. VL-903 DISPLAY CONTROL BOARD

3.1 Description

The VL-903 display control board is design to directly convert the analog RGB signals from standard VGA display card to optimum LCD timing signals so as to construct a high display quality LCD monitor.

3.2 Features

• On board embedded micro-processor to detect display timings and control user functions.

Using PixelWorks PW131 design to generate optimum LCD timings.

Using E

2

PROM to memorize every adjusted parameter.

Support up to 13 display modes from VGA to SXGA.

Offer full screen expansion function on non-SXGA mode (automatic).

Flexible color temperature selection function including Cool = 9300, Natural =

6500, Warm = 7500 and user mode color temperature.

• Support OSD functions.

• Support VESA DPMS function.

• Support DDC2B functions.

• Support 8 languages for OSD description.

• The longest time for mode change is 7 seconds.

25

3.3 BLOCK DIAGRAM

26

3.4 Connector Locations

3.5 Connector Type

Location

CN1

Type

24P Female V/DVI-D

CN2 15P Female V/D-Sub

CN3 4300-04

CN5 98210-4011

CN6 4500-09

CN8 4300-05

CN10 4300-08

Maker

Foxconn

E&T

E&T

E&T

E&T

E&T

E&T

Number of pins

24

15

04

40

09

05

08

27

3.6 Connector pin assignment

Terminal No.

36,37,38

1

5

7

2

4

14

16

17

19

8

10

11

13

20

22

23

25

26

28

29

03,06,09, 12

15, 18, 21, 24

27, 30, 34, 35

3.6.1 CN2

Pin NO. Signal Comment

1

2

3

R-Video

G-Video

B-Video

Red Video Input.

Green Video Input.

Blue Video Input.

5 Ground Ground.

6 Ground Ground.

7 Ground Ground.

8 Ground Ground

9 5VCC DDC Power Input.

10 PCDETECT PCDETECT

11 NC

12 SDA

NC

DDC

13

14

HS

VS

15 SCL

Horizontal Sync Input.

Vertical Sync Input.

3.6.2 CN5

Symbol

VDD

TXE0-

TXE0+

TXE1-

TXE1+

TXE2-

TXE2+

TXECLK-

TXECLK+

TXE3-

TXE3+

TXO0-

TXO0+

TXO1-

TXO1+

TXO2-

TXO2+

TXOCLK-

TXOCLK+

TXO3-

TXO3+

GND

GND

GND

Function

5V POWER SUPPLY

LVDS EVEN OUTPUT DATA PAIRS

LVDS EVEN OUTPUT DATA PAIRS

LVDS EVEN OUTPUT DATA PAIRS

LVDS EVEN OUTPUT DATA PAIRS

LVDS EVEN OUTPUT DATA PAIRS

LVDS EVEN OUTPUT DATA PAIRS

LVDS EVEN OUTPUT DATA PAIRS

LVDS EVEN OUTPUT DATA PAIRS

LVDS EVEN OUTPUT DATA PAIRS

LVDS EVEN OUTPUT DATA PAIRS

LVDS ODD OUTPUT DATA PAIRS

LVDS ODD OUTPUT DATA PAIRS

LVDS ODD OUTPUT DATA PAIRS

LVDS ODD OUTPUT DATA PAIRS

LVDS ODD OUTPUT DATA PAIRS

LVDS ODD OUTPUT DATA PAIRS

LVDS ODD OUTPUT DATA PAIRS

LVDS ODD OUTPUT DATA PAIRS

LVDS ODD OUTPUT DATA PAIRS

LVDS ODD OUTPUT DATA PAIRS

Ground

Ground

Ground

28

3.6.3 CN8

Pin NO.

1

2

Signal

L+

L-

5

3 GND

4 R+

R-

3.6.4 CN6

Pin NO.

1

2

Signal

+12 V

+5V

3 +5V

4 BKLON

Comment

Audio Left + Channel Output

Audio Left – Channel Output

Audio GND

Audio Right + Channel Output

Audio Right - Channel Output

Comment

12V Power Input

+5V Power Input

+5V Power Input

Black Light ON

6 GND GND

7 GND

8 Audio GND

9 Audio VDD

GND

Audio GND

Audio +5V Power Input

3.6.5 CN3

Pin NO.

1

2

Signal

+5 V

RXD

3 TXD

4 GND

Comment

5V Power Input

Data Transmission

Data Receive

GND

29

3.6.6 CN10

Pin NO.

1

2

8

9

6

7

Signal

LED-Y

LED-G

4 GND

5 KEY-POWER

KEY-AUTO

KEY-MENU

KEY-UP

KEY-DOWN

Comment

Power saving mode

Monitor is ON

GND

Power ON/OFF key

Auto Adjusting and Channel Selection

Function Selection enable

Function select and Adjust UP

Function select and Adjust Down

3.6.7 CN1 Digital Video input Connector: DVI-D

Pin-Assignment of DVI-D(24 pin) connector

1 TX2- 9 TX1-

2 TX2+ 10 TX1+

17 TX0-

18 TX0+

3 Shield (TX2 /

TX4)

11 Shield (TX1 / TX3) 19 Shield (TX0 / TX5)

4 NC 12 NC 20 NC

5 NC 13 NC

6 DDC-Serial Clock 14 -5V Power *)

7 DDC-Serial Data 15 Ground (+5V)

21 NC

22 Shield (TXC)

23 TXC-

8 No Connect 16 Hot plug detect 24 TXC+

*)In case, the power of the PC unit is switched off and the power the monitor is switched on, no voltage may occur at pin 14.

30

4. VK-903 Function Control key Board

4.1 Description

The VK-903 is designed to offer a user interfaced control panel which passes and receives signals to and from VL-903 display control board.

4.2 Connector and Switch Locations

4.3 Connector type

Location Type Maker Number of pins

J1 4500-5 E&T 5

J4 4500-8 E&T 8

4.4 Connector pin Assignment

4.4.1 J1

Pin NO.

1

2

Signal

L+

L-

3 GND

4 R+

5 R-

4.4.2 J4

Pin NO.

1

2

Signal

LED-Y

LED-G

4 GND

5 KEY-POWER

8

9

6

7

KEY-AUTO

KEY-MENU

KEY-UP

KEY-DOWN

Comment

Audio Left + Channel Output

Audio Left – Channel Output

Audio GND

Audio Right + Channel Output

Audio Right - Channel Output

Comment

Power saving mode

Monitor is ON

GND

Power ON/OFF key

Auto Adjusting and Input Mode Selection

Function Selection enable

Function select and Adjust UP

Function select and Adjust Down

31

4.5 Switch definition

Location Definition

S1, S2

S3

S5

S6

S4

Power ON/OFF

Auto Adjusting and Input Mode selection

Function selection Enable

Function select and Adjust UP

Function select and Adjust Down

4.6 LED definition

Location Definition

D5 Blue for ON mode; Yellow for OFF mode; yellow for Power Saving mode; Dark for DC power OFF mode.

32

5. TROUBLESHOOTING

5.1 Main Procedure

33

5.1.1 Power Circuit Troubleshooting

34

5.1.2 Backlights Troubleshooting

35

5.1.3 Performance Troubleshooting

36

5.1.4 Function Troubleshooting

37

6. MECHANICAL REQUIREMENTS

6.1 Vibration and Shock

All testing shall be done in each of three mutually perpendicular axes, referenced to the position of the system as it is in front of the user (i.e., front-to back, side-to-side, and top-to-bottom).

6.1.1 Non-Operating

The unit should suffer minimal visible cosmetic damage or damage that presents a safety hazard, or impairs the setup and operation of the system after testing.

Sinusoidal Vibration: 0.75 G zero-to-peak, 10 to 500Hz, 0.5 octave / minute sweep rate. This requires one sweep, 10 to 500 to 10Hz, along each of the three axes.

Random Vibration: 0.008 G 2 /Hz, 10 to 500 Hz, nominal 2 GRMS. The test shall be for one hour for each of the three axes.

Half Sine Wave Shock: 120 G peak, half sine pulse, 2 ms pulse duration. Testing shall consist of one shock in each direction in each axis, for a total of 6 shock inputs.

Square Wave Shock: 40 G peak acceleration, 160 inches / second velocity change. There shall be one shock in each direction in each axis, for a total of 6 shock inputs.

6.2 Package Drop Specification

Listed below are standards of drop heights for monitor product

6.2.1 Drop Test Sequence

Drop Order

3

4

1

2

Drop point

Right Front Bottom Corner

Right Bottom Edge

Right Front Edge

Front Bottom Edge

Drop Times

1

1

1

1

1

1

1

1

1

38

1

6.3 Dimension Size and Weight

Dimension size 433 (W) x 447 (H) x 235 (D)

Net Weight

Gross Weight

6.5Kg

9 Kg

6.4 Gap Spec.

6.4.1 The step between front bezel and back cover shall be within specification.

Top and Bottom

Back cover & Bezel concavity

0.3mm ≤ A ≤ 0.8 mm

Left and Right

Back cover & Bezel concavity

0.3mm ≤ A ≤ 0.8 mm

Back Cover & Hinge Cover concavity

0.4mm ≤ B ≤ 1.2mm

LAM939-E01

39

LAM939-E02

6.4.2 LCD Horizontally

The angle between front bezel and LCD unit in bottom side should not large than

1.0mm.

LAM939-E03

The distance of the LCD display unit from left side to right should not large than

4.0mm

.

40

LAM939-E03

6.5 Tilt Base Rotation

Tilt up 25 ± 2 ° / down 5 ± 2 °

6.6 Plastic Material

Front Bezel ABS 94HB

Back Cover ABS 94HB

The Others ABS 94HB

6.7

GAP Spec.

Gap between panel with bezel is 0 mm < gap < 1.5 mm

CM870-E18

7. Power Line Transient Test (IEC 61000-4-4 Fast

Transients/Burst)

TEST CONDITIONS & PROCEDURE: (Follow IEC 61000-4-4)

Test Condition :

The condition is base on operating with 50 Ω load.

7.1 Peak Voltage:

2 KV (applies the Level 3 typical Industrial Environment” of IEC

61000-4-4)

41

7.2 Polarity : + / -

7.3 Repetition Frequency of the impulse : 5 KHz.

7.4 Rise-Time : 5ns

±

30%

7.5 Impulse Duration: 50 nS

±

30%

7.6 Relation to Power Supply: Asynchronous

7.7 Burst Duration: 15 ms

±

20%

7.8 Burst Period: 300 ms

±

20%

7.9 Climatic Conditions:

- Ambient Temperature: 15 ° C to 35 ° C

- Relative Humidity: 45% to 75%

- Atmospheric Pressure: 86 kPa to 106 kPa

7.10 Test Procedure:

The monitor Display set high-resolution mode, AC input use AC 240V.

Note :

7.10.1

IEC 61000-4-4 defines that power supply, I/O line, and control line all shall be performed the transient test, but the I/O line and control line is applied with only half of peak voltage (1 KV).

7.10.2

For the comparison of wave-shape generated by different generator, so the test must uses a scope with at least 400 MHz bandwidth, and coupled to 50

to monitor the rise-time, impulse, duration, and repetition rate of the impulses within one burst.

42

WAVESHAPE

43

8. Power Line Surge Test (IEC 61000-4-5 Surge)

8.1 Climatic Condition

The climatic conditions shall be within the following ranges:

8.1.1 Ambient Temperature: 15

°

C to 35

°

C

8.1.2 Relative Humidity: 10% to 75%

8.1.3 Atmospheric Pressure 86kPa(860 mbar)to 106kPa (1060mbar)

Note: The temperature and relative humidity should be recorded in the test report.

8.2 Test Conditions:

8.2.1 Wave-shape of the current surge: (refer to IEC 61000-4-5)

Open circuit voltage: (1.2 / 50 µ s)

Short circuit current: (8 / 20 µ s)

8.2.2 Polarity: positive / negative

8.2.3 Phase shifting:in a range between 0º to 270º versus the AC line phase angle

8.2.4 Repetition rate:at least 1 per minute

8.2.5 Number of tests: at least 5 positive and 5 negative at the selected points.

8.3

The surge will be applied between lines and between lines and ground.

8.4

If not otherwise specified, the surge to power supply circuits shall be applied synchronized to the voltage phase at the zero crossing and the peak value of the

AC voltage wave. (Positive and negative)

8.5

The surge voltage for test is from 1 KV and increases 1 kV for each step.

8.6

The recommended severity levels for the surge voltage test is 2.0 KV, and without any degradation or loss of function that is not recoverable due to damage of component or software allowed.

8.7 Display set high-resolution mode, AC input use AC 240V .

44

9. ENVIROMENT REQUIREMENT

9.1 Operating

Temperature 5 ° C ~ 40 ° C

Relative Humidity 20% to 80%

Altitude Sea level to 8000ft

9.2 Storage or Shipment

Temperature -20 ° C ~ +60 ° C

Relative Humidity 5% to 85%

Altitude Sea level to 40,000ft

9.2.1 TEST PROCEDURE:

Put in temperature chamber under 60 ° C Time:24 hours

Back to room temperature Time: 4 hours

Put in temperature chamber under -20 ° C Time:24 hours

Back to room temperature

The process repeat 2 times.

Time:4 hours

45

10. REGULATION COMPLIANCE

10.1 This product comply to the most current revisions of following regulations:

UL/CUL

{ UL 1950/ CSA C22.2

NO950 }

EN 60950/CB Scheme

Standard for Safety of Information Technology Equipment including Electrical Business Equipment

MPR 1990:8

Safety of Information Technology Equipment including

Electrical Business Equipment

Test methods for visual display units.

MPR 1990:10

ISO 9241-3:

ISO 9241-7:

ISO 9241-8:

NUTEK/EPA

TCO 1999 (option)

TUV/GS

FCC 47 CFR, Chapter 1,

Subchapter A, Part 15,

Subpart B

CISPR 22

CE LVD Directive (73/23/EEC)

CE EMC Directive

(89/336/EEC)

IEC 61000-4

VCCI (option)

BSMI (option)

User handbook for evaluation visual display units.

Ergonomic requirements for office work with visual display terminals (VDTs)-Visual display requirements.

Ergonomic requirements for office work with visual display terminals (VDTs)-Requirements for display with reflections.

Ergonomic requirements for office work with visual display terminals (VDTs)-Requirements for displayed colours.

Requirements of power saving according to NUTEK Spec.

803299/94/96, EPA Energy star.

Requirements for Environmental Labeling of Personal

Computers. Test methods for Ergonomic, Emission, Energy

Efficiency, safety.

Safety regulation for displays work places in the office sector.

A digital device that is marketed for use in a residential environment not withstanding use in commercial, business and industrial environments.

Limits and methods of measurements of radio interference characteristics of information technology equipment.

Safety: EN60950

EMI: EN55022 class B

Harmonics: EN61000-3-2

Voltage Fluctuation/Flicker: EN61000-3-3

Immunity: EN55024

IEC 61000-4-2 Electrostatic Discharge

IEC 61000-4-3 Radiated Electromagnetic Field

IEC 61000-4-4 Fast Transients/Burst

IEC 61000-4-5 Surge

IEC 61000-4-6 Conducted Disturbance, Induced by Radio

Frequency Fields

IEC 61000-4-8 Power Frequency Magnetic Field

IEC 61000-4-11 Voltage DIP/Interruption

Specification for limits and methods of measurement of radio interference characteristics of information technology equipment. Class B conformity verification report from the

VCCI

CNS 13438, Class B

46

10.2 Electrostatics Discharge (ESD)

E.S.D Test

This test follow the IEC 61000-4-2

Discharge Voltage Level :

Criteria

Class

C

Class

B

Contact Discharge (KV) Air Discharge(KV)

±4 ±4

±6 ±8

Class

A

±8 ±15

Class A : Temporary degradation or loss of function or performance which requires operator Intervention or system reset.

Class B : Temporary degradation or loss of function or performance which is self- recoverable

Class C : Normal performance within the specification limits

Discharge times: 20 times for each discharge point, time interval 1 second.

In the case of acceptance tests, the test program and the interpretation of the test results are subject to agreement between manufacturer and user.

The test documentation shall include the test conditions and the test results.

47

Ambient temperature : 15°C to 35°C

Relative humidity : 30% to 60%

11. QUALITY AND RELIABILITY

11.1 Quality Assurance

Unless otherwise specified in this specification or the applicable purchase order, the supplier shall be responsible for maintaining a statistical process program or performing inspections that are sufficient to assure that the parts supplied meet the requirements specified herein.

11.2 Reliability

The product shall have a designed MTBF of greater than 20,000 hours during its useful life.

48

APPENDIX A: PARTS LISTS

49

A. FRU Board

A-1 454AA030001 –PCBA Key Board (VK-903)

50

A-2 461AA030001–Firmware CTRL Board (VL-903)

51

A-3 455AA030001–PCBA D/D-INV Board (Vp-903)

52

Appendix B: DISPLAY Assembly

53

54

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

==========

QUANTITY REQUIRED DWG.NO. LAM939 REV. 0A

C NO. PART NO. DESCRIPTION SPECIFICATION ------------------ --------------------------------------

F0

001 REMARKS

- ---- ----------- ------------------------ ------------------------------ --- --- --- --- --- ----- ----- ----- ----- ----- -----

# LAM939F0001 LAM939F ABO UR+TCO99 MCG28/MSV16 19"FUJ

1 GA050000400 POWER CORD SET SP305X1.8MXIS14 SVT BLK 1 - - - - 302

2 DC190021010 CB ASY AM939 SIG LIMPID 1.8M DVI-DVI 1 - - - - 303

3 DC190021020 CB ASY AM939 AUDIO LIM 1.8M BLU-GRN 1 - - - - 304

4 DC190021030 CB ASY AM939 RCA LIM 1.8M V/T-R/A RWY 1 - - - - 305

5 DC190021040 CB ASY AM939 SIG LIMPID 1.8M BLUSCREW 1 - - - - 306

6 PK100005000 AC ADAP LSE SLS9901B12320 12V/5A 1 - - - - 307

7 58290530001 DIS UNIT ABO LAM939F TCO99 19"FUJ 1600X1200 1 - - - - 351

8 68008930001 PACKING ABO (AL932) LAM939F UR+TCO99 1 - - - - 352

9 X66AN430001 MEC PACKING ABO LAM939F MSV16 1 - - - - 353

End of Report

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

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

QUANTITY REQUIRED DWG.NO. 680089

REV. 0A

C NO. PART NO. DESCRIPTION SPECIFICATION ------------------ --------------------------------------

30

001 REMARKS

- ---- ----------- ------------------------ ------------------------------ --- --- --- --- --- ----- ----- ----- ----- ----- -----

# 68008930001 PACKING ABO (AL932) LAM939F UR+TCO99

6 HGTCO990400 TCO99 LABEL TCO99 FOR CARTON 40X40 1 - - - - 007

7 HK3CM870100 PE BAG CM870-K001 FOR MAC LCDMONITOR 1 - - - - 008

8 FCTLP2S0116 HANDLE FOR CARTON 1 - - - - 009

End of Report

1 EJ4AM939000 RATING NP N-AM939-ABO UFGC 99 WW 1 - - - - 001

2 HB4AM939000 CARTON C-AM939-ABO W/W 1 - - - - 002

3 HDABOAM3900 USER'S MANUAL U-AM939-ABO EFGSIDPJC/CS 99 1 - - - - 003

4 HF6TCO99000 TCO99 (NOTICE SHEET) FOR TCO99 1 - - - - 004

5 HGTCO990000 TCO99 LABEL TCO99 FOR BEZEL/MANUAL 1 - - - - 006

55

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

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

QUANTITY REQUIRED DWG.NO. X66AN4

REV. 0A

C NO. PART NO. DESCRIPTION SPECIFICATION ------------------ --------------------------------------

30

001 REMARKS

- ---- ----------- ------------------------ ------------------------------ --- --- --- --- --- ----- ----- ----- ----- ----- -----

# X66AN430001 MEC PACKING ABO LAM939F MSV16

1 FJAM9318000 EPS FOAM(L) POLYLON 1 - - - - 201

2 FJAM9319000 EPS FOAM(R) POLYLON 1 - - - - 202

3 EBAM9321000 STAND BASE(ASSY) AM9321 BASE+SCREW+MSV16 1 - - - - 203

End of Report

56

57

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

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

QUANTITY REQUIRED DWG.NO. 582905

REV. 0A

C NO. PART NO. DESCRIPTION SPECIFICATION ------------------ --------------------------------------

30

001 REMARKS

- ---- ----------- ------------------------ ------------------------------ --- --- --- --- --- ----- ----- ----- ----- ----- -----

# 58290530001 DIS UNIT ABO LAM939F TCO99 19"FUJ 1600X1200

1 AC600022710 LCD MODU FLC48SXC8V-10 19" FUJITSU 1 - - - - 301

2 DA3M939V000 FPC AM939 VF-903 REV0A 1 - - - - 302

3 DC020154800 H-CON SET AM939 D/D-INV-B-D 9P 1 - - - - 303

4 DC020154900 H-CON SET AM939 INV-INV 2P 75mm 2 - - - - 304 304

5 DC020155000 H-CON SET AM939 KEY-AUDIO 5P 1 - - - - 305

6 DC020200420 H-CON SET CM999 CTRL-DC 7P 1 - - - - 306

7 DC020200460 H-CON SET AM999 DC J804-SW IVO 1 - - - - 307

8 DC020200900 H-CON-SET JM777 KEY-CTRL 8P 1 - - - - 308

9 CG10021V500 SPK SET 2W 1SPK 8ohm AM939 R 1 - - - - 309

10 CG10021V510 SPK SET 2W 1SPK 8ohm AM939 L 1 - - - - 310

11 NA200800200 NET SET 4.3DX80X4.3D 144C/.12 TUBE 1 - - - - 311

12 454AA030001 PCBA KEY/B VK-903 LAM939F 1 - - - - 351

13 455AA030001 PCBA D/D-INV.BOARD VP-903 LAM939F 1 - - - - 352

14 461AA030001 FIRMWARE CTRL/B VL-903 LAM939F ABO 1 - - - - 353

15 X66AN530001 MEC PARTS ABO LAM939F T99 MCG28/MSV16/MBK17 1 - - - - 354

End of Report

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

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

QUANTITY REQUIRED DWG.NO. X66AN5

REV. 0A

C NO. PART NO. DESCRIPTION SPECIFICATION ------------------ --------------------------------------

30

001 REMARKS

- ---- ----------- ------------------------ ------------------------------ --- --- --- --- --- ----- ----- ----- ----- ----- -----

# X66AN530001 MEC PARTS ABO LAM939F T99 MCG28/MSV16/MBK17

1 EBAM9317000 STAND NECK AM9317 AL_ALLOY+MSV16 1 - - - - 001

2 ECAM931B000 CHASSIS(ASSY) AM931B SECC 0.8t+MYLAR 1 - - - - 002

3 ECAM9331000 HINGE ASSY AM9331 K7 1.5t 1 - - - - 003

4 EEAM9315000 EMI COVER AM9315 SECC 0.8t 1 - - - - 004

5 FAAM9313000 BEZEL(AM939) ASSY AM9313 ABS94HB MCG28/MSV16 1 - - - - 005

6 FAAM931A000 BACK COVER(AM939) ASSY A,931A ABS94HB MBK17 1 - - - - 006

7 MAA00001300 SCREW M4X0.7+4I-ZK_T1 2 - - - - 007 007

8 MAA00020300 SCREW M4X0.7+8I-ZK-T1 4 - - - - 008 008 008 008

9 MAA20105430 SCREW M4X0.7+10P-NI 2 - - - - 009 009

10 MAA70057206 SCREW M3X0.5+6C-NI 12 - - - - 010/ 010/010/ 010/010/010

010 010 010 010 010 010

11 MAAA0052200 SCREW 4#-40UNC-9L 4 - - - - 011 011 011 011

12 MAB00001300 SCREW TPB-4+15I-ZK-T1 2 - - - - 012 012

13 MAB20074201 TAPING SCREW TPP-4.0+10P-NI 2 - - - - 013 013

14 MAB7T002401 SCREW TPB-4+8C-MC 4 - - - - 014 014 014 014

15 MAB80007400 SCREW TPP2X3+12B-MC 3 - - - - 015 015 015

End of Report

58

Appendix C: PCBA Assembly

60

61

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

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

QUANTITY REQUIRED DWG.NO. 454AA0

REV. 0B

C NO. PART NO. DESCRIPTION SPECIFICATION ------------------ --------------------------------------

30

001 REMARKS

- ---- ----------- ------------------------ ------------------------------ --- --- --- --- --- ----- ----- ----- ----- ----- -----

# 454AA030001 PCBA KEY/B VK-903 LAM939F 0B

1 BC40HZ6B2T7 ZENER DIODE HZ6B-2 4 - - - - D1 D2 D3 D4

2 BC5K2093000 LED LYSBK2093 YEL/BLU 3D 3P LIMPID 1 - - - - LED

* 3 DA1M939V002 PCB AM939 VK-903 REV0B 1 - - - - ZZZ

4 DC030040000 WAFER CONN ACES 87502-0200 2P P2.25 2 - - - - J2 J3

5 DC03E000400 WAFER CONN. E&T 96113-0813 8P P1.25 1 - - - - J4

6 DC03E000600 WAFER CONN. E&T 96113-0513 5P P1.25 1 - - - - J1

7 DE611000607 SWITCH PT-002-B2 6 - - - - S1 S2 S3 S4 S5 S6

* 8 FCAM9300100 LCD HOLDER LED307_D3_L7 1 - - - - &LED

End of Report

62

63

64

65

66

67

68

69

70

71

72

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

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

QUANTITY REQUIRED DWG.NO. 461AA0

REV. 0A

C NO. PART NO. DESCRIPTION SPECIFICATION ------------------ --------------------------------------

30

001 REMARKS

- ---- ----------- ------------------------ ------------------------------ --- --- --- --- --- ----- ----- ----- ----- ----- -----

# 461AA030001 FIRMWARE CTRL/B VL-903 LAM939F ABO

1 451AA030001 PCBA CTRL/B VL-903 LAM939F 1 - - - - ZZZ

2 BEAM939F000 EDID EDID AM393FABO-0.DAT 1 - - - - ZZZ

3 BFAM93F0000 FIRMWARE FW AM939F V1.00AF 1 - - - - ZZZ

End of Report

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

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

QUANTITY REQUIRED DWG.NO. 451AA0

REV. 0B

C NO. PART NO. DESCRIPTION SPECIFICATION ------------------ --------------------------------------

30

001 REMARKS

- ---- ----------- ------------------------ ------------------------------ --- --- --- --- --- ----- ----- ----- ----- ----- -----

# 451AA030001 PCBA CTRL/B VL-903 LAM939F 0B

1 431AA030001 SMT CTRL/B VL-903 LAM939F 1 - - - - ZZZ

* 2 BD114P3M020 CRTSTAL 14.31818MHZ HC-49/S +-30PPM 20 1 - - - - Y2

* 3 BD124P57010 CRYSTAL 24.576MHZ HC-49/US +-20PPM 18P 1 - - - - Y1

4 CB01003M110 ELE CAP 10U 16V M A P1.5 L4.5 4X7 1 - - - - C125

5 CB02203M200 ELE CAP 22U 16V M A P1.5 L4.5 4X7 1 - - - - C212

6 CB100034C01 CAPACITOR 100U 16V M A P2.5 (H7) 9 - - - C120/C122/C126/C128/C20/C218

C8 C84 C94

7 CB22003M200 CAPACITOR 220U 16V M A P3.5 (H7) 8 - - - C108/ C110/ C112/ C113 /C130/ C134

C140 C82

8 DC03E000300 WAFER CONN. E&T 96113-0803 8P P1.25 1 - - - - CN10

9 DC03E0026B0 WAFER E&T 4500-09 9P P2.0 1 - - - - CN6

10 DC03E003140 WAFER E&T 4300-04 4P P1.25 2 - - - - CN3 CN39

11 DC03E003150 WAFER E&T 4300-05 5P P1.25 1 - - - - CN8

* 12 DC060014050 D-CONN 24P FEMALE QH0112X-DXX V/TDVID 1 - - - - CN1

* 13 DC060015200 D-CONN 15P FEMALE 1208-15-1V/T ENTERY 1 - - - - CN2

* 14 DC230000300 CONN (ST) SC SCN-570-4P V/T BLK 4PIN 1 - - - - JV4

15 DC230304500 CONN SC SCJ353P00XS0U04 V/T 3P 1 - - - - CN7

* 16 DC232100300 CONN. SC SCP606UNT4T0000 V/T RCA YEL 1 - - - - JV3

17 DC232100310 CONN. SC SCP606UNT3T0000 V/T RCA WHT 1 - - - - JV2

* 18 DC232100320 CONN. SC SCP606UNT2T0000 V/T RCA RED 1 - - - - JV1

73

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

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

QUANTITY REQUIRED DWG.NO. 451AA0

REV. 0B

C NO. PART NO. DESCRIPTION SPECIFICATION ------------------ --------------------------------------

30

001 REMARKS

- ---- ----------- ------------------------ ------------------------------ --- --- --- --- --- ----- ----- ----- ----- ----- -----

# 431AA030001 SMT CTRL/B VL-903 LAM939F

1 DA4M939V002 PCB AM939 VL-903 REV0B 1 - - - - ZZZ

* 2 SA001310000 S IC PW131 PQFP-208 ZOOM SCALER 1 - - - - U7

3 SA010840210 SM IC AIC 1084-33CM TO263 REG 3.3V 1 - - - - U14

4 SA011170210 S IC APL1117-1.8V SOT223 1 - - - - U18

5 SA011170300 S IC APL1117-33VC-TR SOT-223 3.3V 1 - - - - U17

6 SA023140000 S IC PT2314 SOP28 AUDIO DECODER 1 - - - - U201

7 SA024160008 SM IC EE 16K SO-8 C 1 - - - - U6

8 SA024210300 SM IC EE 128X8 SOP-8 24LC21A 2 - - - - U1 U2

9 SA048380000 SM IC LM4838 TSSOP-28 AUDIO 1 - - - - U19

10 SA058850000 S IC APL5885-1.8V SOT89 1 - - - - U16

11 SA071140000 S IC SAA7114H LQFP-100 VIDEO DECODE 1 - - - - U4

12 SA071810000 S IC NT7181F TSSOP-56L LVDS 2 - - - - U12 U13

13 SA074140400 SM IC SN74LVC14 SOP-14 INV. 1 - - - - U3

14 SA298000000 S IC MBM29LV800BA-90PFTN FLASH FUJI 1 - - - - U5

* 15 SA742730204 SM IC SN74HCT273PW TSSOP20 Q-SW 1 - - - - U9

16 SA745410100 S IC LVC74541 TSSOP-20 1 - - - - U10

* 17 SB0390400T5 SM TRANSISTOR MMBT3904 (S0T-23) 3 - - - - Q4 Q6 Q7

18 SB3241100T8 SM TRANSISTOR 2SC2411K (SOT-23) 1 - - - - Q3

19 SBX94350109 SM TRANSISTOR SI9435 (SO-8) 2 - - - - U11 U15

20 SC1LC208000 S DIO DALC208SC6 SOT23-6L ESD 1 - - - - ZD1

21 SC4LZ56B0T5 SM ZENER DIODE RLZ5.6B (LL-34) 6 - - - - D2 D3 D5 D6 D7 D8

22 SC4LZ91B000 S ZEN DIO RLZ9.1B LL-34 1 - - - - D201

23 SC6BAV70000 S DIO ROW BAV70 3P C/C SOT-23 2 - - - - D1 D4

* 24 SD0010000T4 CHIP RES. 1/8W 0 +5% 1206 11 - - - - R102 R104 R107 R120 R121 R152

R39 R50 R70 R72 R88

* 25 SD0011000T9 CHIP RES. 1/8W 100 +-5% 1206 1 - - - - R209

* 26 SD0014700T1 CHIP RES. 1/8W 470 +-5% 1206 S7 1 - - - - R74

* 27 SD0130000T4 CHIP RES. 1/16W 0 +5% 0603 10 - - - - R102 R104 R107 R120 R121 R39

R50 R70 R72 R88

* 28 SD0131000T9 CHIP RES. 1/16W 100 +-5% 0603 S9 8 - - - - R201 R202 R21 R22 R25 R26

R37 R78

29 SD0131002T3 CHIP RES. 1/16W 10K +-5% 0603 S9 16 - - - - R1 R106 R33 R36 R38 R4

R41 R49 R63 R64 R65 R66

R67 R68 R87 R9

30 SD0131003T1 CHIP RES. 1/16W 100K +-5% 0603 S9 1 - - - - R103

31 SD013150401 CHIP RES. 1/16W 1.5M +-5% 0603 S9 1 - - - - R54

32 SD013180A09 CHIP RES. 1/16W 18 +-5% 0603 4 - - - - R27 R31 R34 R77

33 SD0132002T8 CHIP RES. 1/16W 20K +-5% 0603 S9 5 - - - - R108 R154 R89 R93 R97

34 SD0132201T1 CHIP RES. 1/16W 2.2K +-5% 0603 S9 7 - - - - R203 R204 R205 R206 R23 R24

R76

74

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

===========

QUANTITY REQUIRED DWG.NO. 451AA0 REV. 0B

C NO. PART NO. DESCRIPTION SPECIFICATION ------------------ --------------------------------------

30

001 REMARKS

- ---- ----------- ------------------------ ------------------------------ --- --- --- --- --- ----- ----- ----- ----- ----- -----

35 SD0133301T1 CHIP RES. 1/16W 3.3K +-5% 0603 S9 6 - - - - R40 R44 R45 R46 R55 R82

36 SD013430000 CHIP RES. 1/16W 430 +-5% 0603 1 - - - - R53

37 SD0134701T8 CHIP RES. 1/16W 4.7K +-5% 0603 S9 6 - - - - R115 R117 R118 R42 R83 R84

* 38 SD0134702T5 CHIP RES. 1/16W 47K +-5% 0603 S9 4 - - - - R10 R11 R2 R3

39 SD0135601T7 CHIP RES. 1/16W 5.6K +-5% 0603 S9 2 - - - - R207 R208

* 40 SD013750AT3 CHIP RES. 1/16W 75 +-5% 0603 S9 4 - - - - R18 R19 R20 R73

* 41 SD014220AT8 CHIP RES. 1/16W 22 +-1% 0603 3 - - - - R12 R14 R15

* 42 SD014392204 CHIP RES. 1/16W 39.2K +-1% 0603 S9 2 - - - - R91 R92

* 43 SD014560A00 CHIP RES. 1/16W 56 +-1% 0603 12 - - - - R13 R17 R28 R29 R30 R32

R35 R5 R6 R7 R75 R8

44 SD302470A06 CHIP NETWORK RES. 1/16W 47 +-5% 8P-4R SA 14 - - - - RP1 RP10 RP11 RP12 RP13 RP14

RP2 RP3 RP4 RP5 RP6 RP7

RP8 RP9

* 45 SE024101JT8 CHIP CERAMIC CAP. 100P 50V +-5% NPO 0603 S8 6 - - - - C149 C150 C205 C206 C6 C7

* 46 SE024180Z01 CHIP CERAMIC CAP. 18P 50V Z NPO 0603 8 - - - - C145 C146 C147 C32 C33 C44

C45 C99

47 SE024680JT8 CHIP CERAMIC CAP. 68P 50V +-5% NPO 0603 S8 2 - - - - C133 C143

48 SE025103KT4 CHIP CERAMIC CAP. .01U 50V +-10% X7R 0603 S8 8 - - - - C105 C107 C111 C83 C85 C86

C96 C98

49 SE025272K07 CHIP CERAMIC CAP. 2700P 50V K X7R 0603 S8 2 - - - - C211 C217

50 SE025392K00 CHIP CERAMIC CAP. 3900P 50V K X7R 0603 1 - - - - C38

51 SE026393K00 CHIP CERAMIC CAP. .039U 16V K X7R 0603 1 - - - - C39

* 52 SE026473K06 CHIP CERAMIC CAP. .047U 16V K X7R 0603 S8 11 - - - - C24 C25 C26 C27 C28 C29

C30 C31 C40 C41 C43

* 53 SE027104NT0 CHIP CERAMIC CAP. .1U 16V -20+80% Y5V 0603 S8 92 - - - - C1 C10 C100 C101 C102 C104

C106 C109 C11 C114 C115 C116

C117 C119 C12 C121 C123 C124

C127 C129 C13 C131 C132 C135

C136 C14 C15 C16 C17 C18

C19 C2 C208 C209 C21 C210

C214 C215 C216 C219 C22 C23

C3 C35 C36 C37 C4 C46

C47 C48 C49 C5 C50 C51

C52 C53 C54 C55 C56 C57

C58 C59 C60 C61 C62 C63

C64 C65 C66 C67 C68 C69

C70 C71 C72 C73 C74 C75

C76 C77 C78 C79 C80 C81

C88 C89 C9 C90 C91 C92

C95 C97

54 SE053475Z05 CHIP CERAMIC CAP. 4.7U 10V Z Y5V 0805 10 - - - - C141 C201 C202 C203 C204 C207

C213 C220 C221 C87

55 SE092334K00 S CER CAP .33U 10V +-10% X7R 0805 2 - - - - C137 C139

56 SM010013700 S SUPPRE TAI-TECH FCM1608K-102T02 0603 4 - - - - L16 L17 L5 L6

* 57 SM010017500 S SUPPRE KC FBM-L10-160808-300LMI 1608 3 - - - - L2 L3 L4

* 58 SM01V000200 S SUPPRE_ STEWARD HI0805N310R-00 (0805) 13 - - - - L1 L10 L11 L12 L13 L14

L15 L18 L19 L20 L21 L7

L8

75

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

===========

QUANTITY REQUIRED DWG.NO. 451AA0 REV. 0B

C NO. PART NO. DESCRIPTION SPECIFICATION ------------------ --------------------------------------

30

001 REMARKS

- ---- ----------- ------------------------ ------------------------------ --- --- --- --- --- ----- ----- ----- ----- ----- -----

* 59 SP02E002100 S W-CONN E&T 98210-4011 40P 1 - - - - CN5

End of Report

76

77

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

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

QUANTITY REQUIRED DWG.NO. 455AA0

REV. 0B

C NO. PART NO. DESCRIPTION SPECIFICATION ------------------ --------------------------------------

30

001 REMARKS

- ---- ----------- ------------------------ ------------------------------ --- --- --- --- --- ----- ----- ----- ----- ----- -----

# 455AA030001 PCBA D/D-INV.BOARD VP-903 LAM939F 0B

1 435AA030001 SMT D/D-INV.BOARD VP-903 LAM939F 1 - - - - ZZZ

2 BC1SB1401T0 DIO SB140 DO-41 PANJIT 4 - - - - D980 D981 D982 D983

3 CA001EMJ000 CER CAP 10P 3KV +-5% SL P7.5 4 - - - - C966 C967 C970 C971

4 CA056FMJ000 CER CAP 56P 3KV +-5% SL P7.5 4 - - - - C964 C965 C968 C969

5 CB10012M5T0 ELE CAP 1000U 10V M B P5 (L-ESR) 1 - - - - C804

6 CB22004M200 CAPACITOR 220U 25V M B P5 L10.5 (L-ESR) 2 - - - - C930 C930A

7 CB47003M300 CAPACITOR 470U 16V M B P5 L10.5 (L-ESR) 2 - - - - C803 C806

8 DC03E0026B0 WAFER E&T 4500-09 9P P2.0 1 - - - - J802

9 DC230203400 CONN SC SCD437CCS D2.0mm 1 - - - - J801

10 DG100016700 X'FORMER AM939 POWER EEA-17 INV 2 - - - - T940 T941

78

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

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

QUANTITY REQUIRED DWG.NO. 455AA0

REV. 0B

C NO. PART NO. DESCRIPTION SPECIFICATION ------------------ --------------------------------------

30

001 REMARKS

- ---- ----------- ------------------------ ------------------------------ --- --- --- --- --- ----- ----- ----- ----- ----- -----

# 435AA030001 SMT D/D-INV.BOARD VP-903 LAM939F

1 DA2M939P002 PCB AM939 VP-903 REV0B 1 - - - - ZZZ

2 SA025760000 S IC LM2576SX-5.0 TO-263 REG. 1 - - - - U801

3 SA097000000 S IC STAC9700 TQFP-48 AC97 CODEC 1 - - - - U901

4 SB544100008 SM TRANSISTOR SI4410DY-T1-A 1N SO-8 2 - - - - U920 U920A

5 SB570020105 SM TRANSISTOR RK7002 N-CHANNEL SOT-23 2 - - - - Q901 Q902

6 SB944350001 SM TRANSISTOR SI4435DY 1P SO-8 W/D 2 - - - - U960 U960A

7 SC4LZ62B000 S AEN DIO RLZ 6.2B LL-34 3 - - - - ZD801 ZD922 ZD962

8 SC4LZ91B000 S ZEN DIO RLZ9.1B LL-34 1 - - - - ZD901

9 SC6BAV99100 S DIO POW BAV99(JE) 2P SOT-23 12 - - - - D940 D940A D941 D941A D942

D943

D944 D944A D945 D945A D946 D947

10 SCSSR240000 S SCH DIO SR24 D0-214AC PANJIT 2A 40V 2 - - - - D803 D804

11 SD0020000T8 CHIP RES. 1/10W 0 +5% 0805 1 - - - - F901

12 SD0131002T3 CHIP RES. 1/16W 10K +-5% 0603 S9 3 - - - - R918 R922 R962

13 SD0131003T1 CHIP RES. 1/16W 100K +-5% 0603 S9 3 - - - - R911 R912 R914

14 SD0131004T8 CHIP RES. 1/16W 1M +-5% 0603 S9 1 - - - - R916

15 SD013220AT4 CHIP RES. 1/16W 22 +-5% 0603 S9 1 - - - - R903

16 SD014220300 CHIP RES. 1/16W 220K +-1% 0603 1 - - - - R901

17 SD014470200 CHIP RES. 1/16W 47K +-1% 0603 2 - - - - R902 R904

18 SD014510100 CHIP RES. 1/16W 5.1K +-1% 0603 4 - - - - R945 R945A R947 R947A

19 SD014511000 CHIP RES. 1/16W 511 +-1% 0603 4 - - - - R940 R940A R946 R946A

20 SD014511203 CHIP RES. 1/16W 51.1K +-1% 0603 S9 1 - - - - R915

21 SD014576208 CHIP RES. 1/16W 57.6K +-1% 0603 S9 2 - - - - R906 R948

22 SE001221JT7 CHIP CERAMIC CAP. 220P 50V +-5% NPO 0805 S6 1 - - - - C909

23 SE023102NT2 CHIP CERAMIC CAP. 1000P 50V -20+80% Y5V 0603 1 - - - - C902

24 SE025103KT4 CHIP CERAMIC CAP. .01U 50V +-10% X7R 0603 S8 1 - - - - C907

25 SE025222KT3 CHIP CERAMIC CAP. 2200P 50V +-10% X7R 0603 S8 4 - - - - C982 C982A C985 C985A

26 SE026183K00 S CER CAP .018U 16V K X7R 0603 4 - - - - C981 C981A C984 C984A

27 SE026222KT7 CHIP CERAMIC CAP. 2200P 16V +-10% X7R 0603 S8 1 - - - - C908

28 SE026473K06 CHIP CERAMIC CAP. .047U 16V K X7R 0603 S8 2 - - - - C924 C963

29 SE027104NT0 CHIP CERAMIC CAP. .1U 16V -20+80% Y5V 0603 S8 7 - - - - C801 C802 C805 C807 C914 C925

C927

* 30 SE030105K08 CHIP CERAMIC CAP. 1U 16V K X7R 0805 3 - - - - C905 C905A C906

* 31 SE052105Z00 CHIP CERAMIC CAP. 1U 10V Z Y5V 0603 1 - - - - C904

32 SE056475K00 CHIP CERAMIC CAP. 4.7U 25V K X7R 1210 3 - - - - C921 C922 C923

33 SH122101M00 CHIP COIL 100uH +-20% AX98-50101 1 - - - - L802

34 SM01V000300 S SUPPRE_ STEWARD MI0805M221R-00 (0805) 6 - - - - L803 L804 L805 L806 L807

L900

35 SM01V000800 S SUPPRE_ NWE F32D-471 (1206) 1 - - - - L801

36 SP02E001000 SM WAFER CONN. E&T 85219-0208 2P P7.5 4 - - - - J940 J941 J980 J981

End of Report

79

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