Acer AL1911 Manual


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Acer AL1911 Manual | Manualzz

AL1911 TFT LCD MONITOR

CONTENTS

1.

INTRODUCTION................................................................................................................................ 3

1.1

Scope ............................................................................................................................................................................ 3

1.2

Description .................................................................................................................................................................. 3

2.

ELECTRICAL REQUIREMENTS......................................................................................................... 4

2.1

Standard Test Conditions ......................................................................................................................................... 4

2.2

LCD monitor General specification ......................................................................................................................... 4

2.3

LCD Panel Specification ........................................................................................................................................... 5

2.4

Input Signals .............................................................................................................................................................10

2.5

Controls .....................................................................................................................................................................14

2.6

White Color Temperature .......................................................................................................................................16

2.7

Power Management .................................................................................................................................................17

2.8

Plug & Play(EDID) ...................................................................................................................................................18

2.9

Audio Technical specification .................................................................................................................................18

3.

VL-901 DISPLAY CONTROL BOARD............................................................................................... 19

3.1

Description ................................................................................................................................................................19

3.2

Features .....................................................................................................................................................................19

3.3

Block Diagram ..........................................................................................................................................................19

3.4

Connector Locations ................................................................................................................................................21

3.5

Connector Type .........................................................................................................................................................21

3.6

Connector pin assignment ......................................................................................................................................21

4.

VK906 Control Panel Board............................................................................................................ 24

4.1

Description ................................................................................................................................................................24

4.2

Connector and Switch Locations ............................................................................................................................24

4.3

Connector type ..........................................................................................................................................................24

4.4

Connector pin Assignment ......................................................................................................................................24

4.5

Switch definition .......................................................................................................................................................25

4.6

LED definition ...........................................................................................................................................................25

5.

POWER SUPPLY (VI-902) ............................................................................................................... 26

5.1

Electrical specification ............................................................................................................................................26

5.2

Pin Assignments ........................................................................................................................................................27

6.

VM-902 AUDIO BOARD................................................................................................................... 28

6.1

Description ................................................................................................................................................................28

6.2

Connector Locations ................................................................................................................................................28

7.

TROUBLESHOOTING ..................................................................................................................... 30

7.1

Main Procedure ........................................................................................................................................................30

8.

MECHANICAL REQUIREMENTS...................................................................................................... 36

8.1

Vibration and Shock ................................................................................................................................................36

8.2

Package Drop Specification ...................................................................................................................................36

8.3

Dimension Size and Weight ....................................................................................................................................37

8.4

Gap Spec.

...................................................................................................................................................................37

8.5

Tilt Base Rotation .....................................................................................................................................................39

8.6

Swivel Base Rotation ...............................................................................................................................................39

8.7

Plastic Material ........................................................................................................................................................40

8.8

GAP Spec.

..................................................................................................................................................................40

9.

Power Line Transient Test (IEC 61000-4-4 Fast Transients/Burst).................................................. 40

9.1

Peak Voltage .............................................................................................................................................................40

9.2

Polarity .....................................................................................................................................................................40

9.3

Repetition Frequency of the impulse ....................................................................................................................40

9.4

Rise-Time ..................................................................................................................................................................41

9.5

Impulse Duration ......................................................................................................................................................41

9.6

Relation to Power Supply ........................................................................................................................................41

9.7

Burst Duration ..........................................................................................................................................................41

9.8

Burst Period ..............................................................................................................................................................41

9.9

Climatic Conditions .................................................................................................................................................41

1

10.

9.10

Test Procedure ..........................................................................................................................................................41

Power Line Surge Test (IEC 61000-4-5 Surge)..................................................................... 43

10.1

Climatic Condition ...................................................................................................................................................43

10.2

Test Conditions: .......................................................................................................................................................43

11.

ENVIROMENT REQUIREMENT............................................................................................. 44

11.1

Operating ..................................................................................................................................................................44

12.

11.2

Storage or Shipment ................................................................................................................................................44

REGULATION COMPLIANCE ............................................................................................... 45

12.1

This product comply to the most current revisions of following regulations: ................................................45

12.2

Electrostatics Discharge (ESD) ..............................................................................................................................46

13.

QUALITY AND RELIABILITY................................................................................................. 47

13.1

Quality Assurance ....................................................................................................................................................47

13.2

Reliability ..................................................................................................................................................................47

Appendix A: Parts Lists -------------------------------------------------------------------------------------------------- 47

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

Appendix C: P.C.B.A ASSEMBLY --------------------------------------------------------------------------------------- 61

2

1. INTRODUCTION

1.1 Scope

This specification defines the requirements for the 19” MICRO-PROCESSOR based Multimode supported high resolution color LCD monitor, This monitor can be directly connected to general 15 pin D-sub VGA 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.

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 50k hours or more.

3

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:

User contrast control:

User red/white balance,

Green/white balance and

Maximum (unless otherwise specified )

Typical (unless otherwise specified )

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-10

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

Display mode : VGA 720 X 400 (70 Hz)

VGA 640 X 480 (60/66/70/72/75 Hz)

SVGA 800 X 600 (60/70/72/75 Hz)

4

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

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

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° 700 : 1 (typical)

Brightness: 300 cd/m

2

(typical)

Response time (Tr/Tf) : 15 /10 msec

Display color : 16777216 (8 bite color)

Viewing angle: L / R ≧ 85 / ≧ 85 ( ≧ 170 degrees horizontal typical)

U / D ≧ 85 / ≧ 85 ( ≧ 170 degrees vertical typical)

Luminance Uniformity : > 70 %

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

Sync : TTL positive or negative

Signal connector :

Audio power :

Front control :

Interface frequency

15 pin Mini D type, (standard VGA video)

1Wrms + 1Wrms ( 300Hz – 10kHz (S.P.L. – 10 dB)) power on/off with LED select (up, down) adjustment (+,-)

Ÿ

56Hz ----75Hz

Plug & play : Support VESA DDC2B functions

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

±

10%

Total output power : 55 Watt max.

2.3 LCD Panel Specification

2.3.1 LCD Panel Model (FUJITSU FLC48SXC8V-10)

Display Type

Resolution

Display Dot

Display Area

Pixel Pitch

Display Color

Lamp Voltage active matrix color TFT LCD

1280 x 1024 pixels

1280 x (RGB) x 1024

376.32mm(H) x 301.056mm(V)

0.098x3mm(H) x 0.294mm(V)

16777216

750 Vrms typ.

5

Lamp Current

Weight

Optical Specifications

7mA rms.( typ). 4 Lamp

2500g .

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). w

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

Item Symbol Condition Min. Typ. Max. Unit Note

Contrast Ratio

(Center of screen)

Response

Time

Rising

Falling

Luminance of White

(Center of screen)

Color

Chromaticity

(CIE 1931)

Viewing

Angle

Red

Green

Blue

White

Hor.

Ver.

CR

T

R

T

F

Y

L

Bx

By

Wx

Wy

θ

L

θ

R

φ

H

φ

L

Rx

Ry

Gx

Gy

Normal

φ

= 0°

θ

= 0°

Viewing

Angle

CR

10

400 700

-

-

TYP.

-0.03

85

85

85

85

15

10

240 300

0.648

0.349

0.292

0.596

0.148

0.125

0.313

0.329

-

-

-

-

Brightness Uniformity

(9 points)

B

UNI 75 -

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

CR)

-

30

25

-

TYP.

+0.03

-

-

-

-

- msec cd/m2

Degrees

%

(1)(2)(4)

BM-5A

(1)(3)

BM-7

(5)

BM-5A

(1)(4)

PR650

(1)(4)

BM-5A

(6)

BM-5A

6

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

7

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 back-light. This should be measured in the center of screen. Dual lamp 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

8

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 pp

F =



x 100 %

LMD Voltage dc

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

9

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:

Lmax -Lmin

C

T

=



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

10

Type

Input Impedance

Polarity

Amplitude

Display Color

2.4.2 Sync input

Signal

Analog R, G, B.

75 ohm +/- 2

%

Positive

0 - 0.7 +/- 0.05 Vp same as LCD panel

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 24KHz --80KHz

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

DISPLAY MODES

MONITOR

MODE NO.

5

6

7

8

9

1

2

3

4

14

15

16

17

18

19

10

11

12

13

20

21

SCREEN

RESOLUTION

640x350

640X400

640X400

640X400

640X480

640X480

640X480

640X480

720X400

832X624

800X600

800X600

800X600

800X600

1024X768

1024X768

1024X768

1024X768

1024x768

1280X1024

1280X1024

HORIZONTAL

SYNC RATE

(kHz)

31.5 +

24.83 -

31.5-

31.5-

31.5 -

35.0-

37.86-

37.5-

31.5 -

49.72-

35.16+

37.8 +

48.07 +

46.87+

48.4 -

53.96 +

56.47 -

60.0 +

60.24-

64.0 +

80.0 +

VERTICAL

SYNC RATE

(Hz)

70.0 -

56.4 -

70.0+

70.1-

60.0 -

66.67-

72.80-

75.0-

70.0 +

74.55 -

56.25+

60.0 +

72.18 +

75.0+

60.0 -

66.13 +

70.07 -

75.0 +

75.02-

60.0 +

75.0 +

VIDEO CLK

(MHz)

25.0

21.05

25.0

25.19

25.0

30.24

31.5

31.5

28.0

57.28

36.0

40.0

50.0

49.5

65.0

71.66

75.0

78.75

80.0

108.5

135.0

STANDARD

VGA

NEC

VGA

NEC

Defacto

MAC

VESA

VESA

Text Defacto

MAC

SVGA

VESA

VESA

VESA

VESA

XGA

VESA

VESA

MAC-768

SXGA

Defacto

11

2.4.4 Supported Timing

TIMING

640x350

VGA-350

640x400

NEC PC9801

640x400

FH(KHZ)

FV(HZ)

VGA-GRAPH

640x400

NEC PC9821

640x480

VGA-480

640x480

APPLE MAC-

480

640x480 37.861

VESA-480-72Hz 72.809

640x480 37.5

VESA-480-75Hz

720x400

75

31.469

VGA-400-TEXT 70.087

832x624 49.725

74.55 APPLE MAC-

800

800x600 35.156

31.469

70.087

24.83

56.42

31.469

70.087

31.5

70.15

31.469

59.94

35.00

66.67

SYNC

+

+

TOTAL

POLARITY (DOT/LINE) (DOT/LINE)

+ 800 640

449

848

350

640

440

800

400

640

+

449

800

449

800

525

864

525

400

640

400

640

480

640

480

832

520

840

500

900

449

1152

667

1024

ACTIVE

640

480

640

480

720

400

832

624

800

SVGA

800x600

56.25

37.879

VESA-600-60Hz 60.317

800x600 48.077

VESA-600-72Hz 72.188

800x600 46.875

VESA-600-75Hz

1024x768

75

48.363

XGA

1024x768

60.004

53.964

COMPAQ-XGA 66.132

1024x768 56.476

VESA-768-70Hz 70.069

1024x768 60.023

VESA-768-75Hz 75.029

1024x768 60.24

75.02 APPLE MAC-

768

1280x1024 64

VESA-1024-60Hz

1280x1024

VESA-1024-75Hz

60

80

75

+

+

+

+

+

+

+

+

+

+

+

+

+

+

+

625

1056

628

1040

666

1056

625

1344

806

1328

816

1328

806

1312

800

1328

803

1688

1066

1688

1066

1280

1024

1280

1024

768

1024

768

1024

768

1024

768

600

800

600

800

600

800

600

1024

768

1024

SYNC

72

2

128

4

120

6

80

3

136

6

176

4

136

6

96

3

96

3

40

3

64

3

108

2

64

3

24

37

16

1

24

1

40

1

56

3

16

8

24

3

16

1

32

3

128

22

88

23

64

23

160

21

160

29

112

36

144

29

176

28

176

29

PIXEL

WIDTH PORCH PORCH

(DOT/LINE) (DOT/LINE) (DOT/LINE)

FOREQ.(MHZ)

96 16 48 25.175

2

64

37

64

60

80 21.05

8

96

7

16

25

48 25.175

2

64

2

96

2

64

3

12

16

13

16

10

64

3

35

80

34

48

33

96

39

25.197

25.175

30.24

112

3

144

3

FRONT

16

1

16

1

18

12

32

1

48

1

16

1

BACK

120

20

120

16

54

35

224

39

248

38

248

38

31.5

31.5

28.322

57.2832

108

135

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.

75

78.75

80

36

40

50

49.5

65

71.664

12

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 Video input Connector

9

10

11

12

5

6

7

8

13

14

15

1

2

3

4

Analog Video input Connector: 15pins mini D-Sub

Table 2.4.5. Pin assignment for D-sub connector

PIN

NO.

Separate Sync

RED VIDEO

GREEN VIDEO

BLUE VIDEO

GROUND

GROUND

RED GROUND

GREEN GROUND

BLUE GROUND

PC5V (+5V DDC)

CABLE DETECTION

GROUND

SDA

H.SYNC

V.SYNC

SCL

Color of plastic parts: Blue

(PC99)

5 1

15

10

11

6

D-sub connector

13

2.5 CONTROLS

2.5.1 Control panel (monitor front panel)

1. Power LED, will be green when monitor is on; be amber when in power saving mode.

2. Adjust decrease.

3. Adjust increase.

4. Function select counter-clockwise.

5. Function select clockwise.

6. Power ON/OFF switch, push to ON and push to OFF. (toggle switch)

7. Ear phone jack.

8. Volume Control.

Note: When OSD Menu is off, press button 2 can activate “Auto Adjustment” immediately.

2.5.2 OSD Functions

OSD Format:

OSD Border:

Refer to following figure.

Cyan color

OSD Tunable Item: The 16 icons that around the border.

Selected Item:

Comment:

Yellow background

Magenta foreground, Blue background page format :

14

Description:

Brightness:

Contrast:

H. Position:

V. Position:

Brightness adjustment, the range from 0 to 100.

Contrast adjustment, the range from 0 to 100.

Horizontal position adjustment.

Vertical position adjustment.

Phase:

OSD position:

Focus adjustment, the range from 0 to 31,32 steps.

OSD position adjustment.

Auto Adjustment: This feature will automatically adjust size, position, clock and phase.

It takes 3-5 seconds to finish. When auto start, it shows “Auto

Adjusting… .” message.

Clock: Frequency tracking adjustment. The max range from -48 to +48, but some modes the range will be limited.

Graph Text:

Language:

640x400(GRAPH) or 720x400(TEXT) mode select.

5 kinds of language for description, including (English, German,

French, Spanish, Italian)

Recall:

Color Temp:

§ User:

Recall the default value.

Color temperature for standard 9300,6500, 7500 or user defined.

User R: Red signal gain by user defined.

User G: Green signal gain by user defined.

User B:

§

7500:

§

6500:

§

9300:

Exit:

Blue signal gain by user defined.

Set CIE coordinate at 7500

°

K color temperature.

Set CIE coordinate at 6500

°

K color temperature.

Set CIE coordinate at 9300

°

K color temperature.

Exit OSD menu function.

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:

Current mode resolution.

Current mode vertical frequency±1Hz.

Firmware revision.

15

n Intellectual-Auto (AM969) can start the Auto-Adjustment automatically when input a new display mode at first time. After the adjustment, (AM999) will remember this mode and switch to optimized condition automatically for this mode whenever encounter this mode again. Total 21 recent used modes are recorded into (AM969) n VESA DPMS Functionality When signaled by the host CPU, (AM969) show a black screen about 3 seconds. If no further signal, then it shows “No Signal” and enter power saving mode.

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

9300K

7500K

6500K

User x

0.281

0.300

0.315

- y

0.311

0.315

0.325

-

+0.03

+0.03

+0.03 u’

0.189

0.194

0.198

- v’

0.446

0.459

0.469

- u’v’ < 0.01* u’v’ < 0.01* u’v’ < 0.01*

-

*) 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)

16

2.7 Power Management

2.7.1 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 : The power LED is Green

DPMS OFF : The power LED is Amber

2.7.2 Power Consumption

On mode

Off mode

DC power off disconnection

55 Wmax

3 Wmax

3 Wmax

3 Wmax

Green

Amber

Dark

Dark (power off)

Amber (power on)

AC power off 1 Wmax Dark u

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

The recovery time from off mode to on mode is 3 seconds maximun.

2.7.3 Power Connector

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

17

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).

2.9 Audio Technical specification

2.9.1 General Description:

+ 1W maximum

Output power

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. )

: 1W

Item Audio Input Freq. Spec.

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

Maximum power

Impedance

: 2 W per speaker(max)

: 4 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

2.9.4 Headphone output

Output power : 1.6 mW for 32 ohms Headphone

Comment

Min. Typ. Max.

-

-

5

500

-

800

500m Vrms 1KHz - - 6 d B Volume Max.,load 4 ?

500m Vrms 300Hz-20KHz -10dB - +10d B Volume Max.,load 4 ?

500m Vrms 1KHz

500m Vrms 1KHz

500m Vrms 1KHz

500m Vrms 1KHz

-

-

-

-

-

-

-

-

-40dB Volume Max.,load 4 ?

1% except speakers distortion

-30dB Volume Max.,load 4 ?

1W Volume Max.,load 4 ?

- Analog

18

3. VL-901 DISPLAY CONTROL BOARD

3.1 Description

The VL-901 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 Genesis gm5120 design to generate optimum LCD timings.

Using E

2

PROM to memorize every adjusted parameter.

• support up to 22 display modes from VGA to SXGA.

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

• flexible color temperature selection function including 9300,6500,7500 and user mode.

Support OSD functions.

Support VESA DPMS function.

Support DDC2B functions.

Support 5 languages for OSD description.

The longest time for mode change is 3 seconds.

3.3 BLOCK DIAGRAM

19

20

3.4 Connector Locations

3.5 Connector Type

Location

CN1

CN2

CN4

J1

J2

Type

74320-4004

1211-15

6905-40

4300-10

4500-07

3.6 Connector pin assignment

3.6.1 CN2

Pin NO.

6

7

8

9

10

11

12

13

14

15

1

2

3

4

5

3.6.2 CN4

Signal

R-Video

G-Video

B-Video

N. C.

Ground

Ground

Ground

Ground

5VCC

PCDETECT

NC

SDA

HS

VS

SCL

Maker

MOLEX

E&T

E&T

E&T

E&T

Comment

Red Video Input.

Green Video Input.

Blue Video Input.

Ground.

Ground.

Ground.

Ground

DDC Power Input.

PCDETECT Input.

NC

DDC 2B

Horizontal Sync Input.

Vertical Sync Input.

DDC 2B

21

Number of pins

24

15

40

10

07

14

16

17

19

8

10

11

13

Terminal No.

36,37,38

1

2

4

5

7

20

22

23

25

26

28

29

03,06,09, 12

15, 18, 21, 24

27, 30, 34, 35

39,40

TXO1+

TXO2-

TXO2+

TXOCLK-

TXOCLK+

TXO3-

TXO3+

GND

GND

GND

GND

Symbol

VDD

TXE0-

TXE0+

TXE1-

TXE1+

TXE2-

TXE2+

TXECLK-

TXECLK+

TXE3-

TXE3+

TXO0-

TXO0+

TXO1-

3.6.3 J2

Pin NO.

1,2

3,4,5

Signal

5 VCC

GND

6 BLON

7 BRIGHT

5V POWER SUPPLY

LVDS EVEN OUTPUT DATA PAIRS

Function

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

Ground

Comment

5V Power Input

GND

Bright Light ON/OFF.

Brightness Adjustment.

22

3.6.4 J1

Pin NO.

1

2

3

4

5

6

7

8

9

10

Signal

NC

LED-Y

LED-G

GND

KEY-POWER

KEY-DOWN

KEY-R

KEY-L

KEY-UP

GND

Comment

NC

Power saving mode

Monitor is ON

GND

Power ON/OFF key

Function select counter-clockwise key

Adjust up key

Adjust down key

Function select counter-clockwise key

GND

23

4. VK906 Control Panel Board

4.1 Description

The VK-906 is designed to offer a user interfaced control panel which passes and receives signals to and from VL-901 display control board.

4.2 Connector and Switch Locations

4.3 Connector type

Location Type

J1

J6

J3

J4

J2

4500-10

4500-11

87502-0200

87502-0200

SCJ-0348-C

4.4 Connector pin Assignment

4.4.1 J1

Pin NO.

7

8

9

10

1

2

3

4

5

6

4.4.2 J6

Pin NO.

4

5

6

1

2

3

Signal

MUTE

LED-Y

LED-G

GND

KEY-POWER

KEY-DOWN

KEY-R

KEY-L

KEY-UP

GND

Signal

+5V

VR

L+

L-

MUTE

HP-S

Maker

E&T

E&T

ACER

ACER

SC

Number of pins

10

11

2

2

9

Comment

Audio mute control

Power saving mode

Monitor is ON

GND

Power ON/OFF key

Function select counter-clockwise key

Adjust up key

Adjust down key

Function select counter-clockwise key

GND

Comment

VDD for Audio Volume Adjustment

Audio Volume Adjustment

Speaker Out L +

Speaker Out L -

Audio mute control

EAR phone output control

24

7

8

9

10

11

HP-L

HP-R

GND

R+

R-

EAR Phone Out L

EAR Phone Out R

GND

Speaker Out R+

Speaker Out R-

4.5 Switch definition

Location Definition

S5

S1

S4

S3

S2

Power ON/OFF

Function select by clockwise direction

Function select by counter-clockwise direction

Adjust up

Adjust down

4.6 LED definition

Location

D1

Definition

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

25

5. POWER SUPPLY (VI-902)

5.1 Electrical specification

5.1.1 AC/DC CKT:

1. Input Voltage: 100 ~ 240 ±10 % Vac

2.

3.

4.

5.

Input Frequency: 47 ~ 63Hz

Input Current: 1.2 Arms Max. @ 100Vac

Efficiency: 75% Min.

Inrush Current:

Cold Start Up: Less than 30A0-p

Hot Start Up: Less than 42Ao-p and must be met the stress required for all concerned parts (@Ta=40 degree)

6. Hold Up Time: 20mS Min. @ full load & 100Vac input condition (@Normal working loading)

7. DC Outputs:

Output Voltage

+5Vdc (Vcc)

+13Vdc (Vinverter)

+5V audio

Total Regulation*¹ Output Current

--- MIN. TYP. MAX.

+-5%

+25%/-10%

+-5%

0.05A 1.4A 1.5A

0.0A 1.8A 2.2A

0.0A 1A 1A

*¹ Total Regulation includes (1) Line Regulation (2) Load Regulation

8. Ripple and Noise: Ripple is less than 1%, Noise is less than 3%

Measured at DC output terminals which are paralleled with a 10uf Ecap & a 0.1uf

Cermic cap.

9. Protection Function: Auto-recovery design is acceptable, but input power must be less than 5W

SCP: Short circuit protection must be acted on both outputs

OVP, OCP: No function

OPP: Should be protected when input power consumption is within 60W ~ 80W

10. Input power consumption: Less than 1W @ minimum load (no connected with I/F board)

11. Over / Under Shoot: Less than +/- 5% of nominal value @ power line on/off

12. Dynamic Load Regulation: Less than +/- 5%

* 0% ~ 100% or 100% ~ 50% load change of any DC output @ 50% duty

of 1Khz <Min.>

13. Turn –On Time: 1 Sec Max.

14. Rise Time & Initial Cold Start: The rise time of +5Vdc output shall be less than msec and power circuit shall start and function properly when under full load, with worst case conditions of input voltage / frequency, operating temperature.

15. Output setting voltage of +5Vdc: +5.02 ~ 5.05V

16. Leakage Current: 0.2mA @ 100Vac

17. Insulation Resistance: more than 3M ohms while withstanding a voltage of 500Vac

18. Hi-Pot: 3Kvac with using 5mA cut off current

19.AC Inlet: HUAJIE / SA-4S-066 or equivalent

26

5.1.2 Inverter CKT:

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

No. Item

1 Input Voltage

Sym

Vin

Condition Min

11.7

Typ.

13

2 Lamp Voltage

3 Luminance

4

Brightness adjustable range

5 Working Frequency

VLamp Vin=13V,ILAMP= 7.5mA

Bmax

Fo

Center of screen, 7mA for each lamp.

Minimum Luminance

÷

Maximum Luminance

-

240

-

50

750

300

40

55

6 Lamp Current ILAMP

ON Normal Operation

7

Backlight ON/OFF

Control

OFF

8

Brightness control range(positive adjustment)

9 Lamp Current Balance IL1-IL2

Shutdown (Lamp off)

7.5

0

3.2

0

7.7

0.1

3.3

-

Max. Unit

16.25 V

-

-

Vrms cd/m^2

-

60

7.9

0.2

3.3

3.3

%

KHz mA

V

V

V

+/-0.5 mA

10 Open Lamp Volt.

11 Efficiency

Vopen Vin=13V, 0degC

-

1600

Vin=13V,maximum brightness 75

-

-

--

-

Vrms

%

12 Strike Lamp time

13

Delay Time for Open

Lamp Protection

/each lamp

14 Audible Noise

5.2 Pin Assignments

Ts

Topen

Vin=13V, ON/OFF=0V

Vin=13V, each lamp is disconnected

30mm upon the part

40

--

-

60

1000

-

80

34 ms ms dBm

5.2.1 Output Connector#1 (P803 / DC020155100 CM998F POW-LOG-AUD 10P P2.0)

Pin No.

3,4,5

7

6

1,2

8

9

10

Symbol Description

GND Common Ground

Brightness adjustable range:

Brightness

For Fujutsu pane :

0V<min> ~ 3.3V<max>

Enable Backlight ON/OFF control

OFF:-0.3~1.0V, ON:2.0~5.5V

Vcc

NC

+5Vdc supply to mainboard

NC

GND GND for Audio

+5Vaud +5Vaud for Audio

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

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

Pin No. Symbol Description

1

2

HV

LV

High Voltage

Low Voltage

27

5.2.3 Reliability Requirements:

1. MTBF: 60,000 hours

2. Abnormal protections: Should meet NMV’s requirement

3. Operational Environment: 0 ~ 40 degC, Humidity: 20 ~ 80%

5.2.4 Safety, EMI & Ergonomic Requirements:

1. Safety: UL /C-UL, TUV/GS, CE

2. EMI: FCC Class B, CE, VCCI Class B, BSMI

6. VM-902 AUDIO BOARD

6.1 Description

The Vm-906 audio board is design to amplify audio signals.

6.2 Connector Locations

6.2.1 Connector type for VM-906

Location Type Maker Number of pins

J1 4500-02 E&T 2

J2 96113-1113 E&T 11

J3 SCJ-0345-1-X-S SC 3

6.2.2 Connector pin Assignment

6.2.3 J1 DC +5V Input

Pin No

Pin 1

Pin 2

Signal

+5V

GND

Comment

From Power board +5V output

GND

28

6.2.3 J2 TO Speaker

Pin No

Pin 1

Pin 2

Pin 3

Pin 4

Pin 5

Pin 6

Pin 7

Pin 8

Pin 9

Pin 10

Pin 11

6.2.3 J3 FOR Audio input

Pin No

Pin 1

Pin 2

Pin 3

Signal

GND

Audio IN (1)

Audio IN (2)

Signal

+5V

VR

L+

L-

Mute

HP-S

HP-L

HP-R

GND

R+

R-

Comment

VDD for audio volume adjustment

Audio volume adjustment

Speaker out L+

Speaker out L-

Audio mute control

EAR phone output control

EAR phone out L

EAR phone out R

GND

Speaker out R+

Speaker out R-

Comment

GND

From Audio output (1)

From Audio output (2)

29

7. TROUBLESHOOTING

7.1 Main Procedure

AM969

30

31

7.1.1 Power Circuit Troubleshooting

32

7.1.2 Backlights Troubleshooting

VI-902

33

7.1.3 Performance Troubleshooting

34

7.1.4 Function Troubleshooting

35

8. MECHANICAL REQUIREMENTS

8.1 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-tobottom).

8.1.1 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.

8.2 Package Drop Specification

Listed below are standards of drop heights for monitor product

Product Weight height Specs

<9.1 kg 0.76 m

9.2~18.2 kg 0.66 m

18.3~27.2 Kg 0.61 m

27.3~45.4 Kg 0.46 m

7

8

5

6

3

4

1

2

9

10

8.2.1 Drop Test Sequence

Drop Order Drop point

Right Front Bottom Corner

Right Bottom Edge

Right Front Edge

Front Bottom Edge

Bottom Side

Top Side

Front Side

Back Side

Left Side

Right Side

36

Drop Times

1

1

1

1

1

1

1

1

1

1

8.3 Dimension Size and Weight

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

Net Weight 6.5Kg

Gross Weight 9 Kg

8.4 Gap Spec.

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

Back Cover & Bezel Gap

0.8 mm

A

1.2 mm

Back Cover & Bezel Alignment

0 mm

D

0.8 mm

Back Cover & Cable Cover Gap

0.8 mm

B

1.2 mm

37

Back Cover & Cable Cover Gap

0.8 mm

B

1.2 mm

Base Cover & Neck Cover Gap

0.8 mm

C

1.2 mm

38

8.4.2 LCD Horizontally

The angle between front bezel and LCD unit in bottom side should not large than 1.0mm.

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

∣ E - F ∣ <=4.0mm.

8.5 Tilt Base Rotation

Tilt up 25 ± ° ± °

8.6 Swivel Base Rotation

Swivel Right 45 ± ° ± °

39

8.7 Plastic Material

Front Bezel ABS 94HB, 94V-0

Back Cover ABS 94HB, 94V-0

The Others ABS 94HB

TCO’ 99(Optional)

Front Bezel PC + ABS 94 - V0

BACK COVER PC + ABS 94 – V0

The others ABS 94 HB

8.8 GAP Spec.

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

9. 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

load.

9.1 Peak Voltage:

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

61000-4-4)

9.2 Polarity : + / -

9.3 Repetition Frequency of the impulse : 5 KHz.

40

9.4 Rise-Time : 5ns

±

30%

9.5 Impulse Duration: 50 nS

±

30%

9.6 Relation to Power Supply: Asynchronous

9.7 Burst Duration: 15 ms

±

20%

9.8 Burst Period: 300 ms

±

20%

9.9 Climatic Conditions:

- Ambient Temperature: 15 ° C to 35 ° C

- Relative Humidity: 45% to 75%

- Atmospheric Pressure: 86 kPa to 106 kPa

9.10 Test Procedure:

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

Note :

9.10.1

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).

9.10.2

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.

41

WAVESHAPE

42

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

10.1 Climatic Condition

The climatic conditions shall be within the following ranges:

10.1.1 Ambient Temperature: 15

°

C to 35

°

C

10.1.2 Relative Humidity: 10% to 75%

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

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

10.2 Test Conditions:

10.2.1 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)

10.2.2 Polarity: positive / negative

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

10.2.4 Repetition rate:at least 1 per minute

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

10.3

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

10.4

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)

10.5

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

10.6

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.

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

43

11. ENVIROMENT REQUIREMENT

11.1 Operating

Temperature 5

°

C ~ 40

°

C

Relative Humidity 20% to 80%

Altitude Sea level to 8000ft

11.2 Storage or Shipment

Temperature -20

°

C ~ +60

°

C

Relative Humidity 5% to 85%

Altitude Sea level to 40,000ft

11.2.1 TEST PROCEDURE:

Put in temperature chamber under 60

°

C

Back to room temperature

Time:24 hours

Time: 4 hours

Put in temperature chamber under -20

°

C Time:24 hours

Back to room temperature Time:4 hours

The process repeat 2 times.

44

12. REGULATION COMPLIANCE

12.1 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

45

12.2 Electrostatics Discharge (ESD)

E.S.D Test

This test follow the IEC 61000-4-2

Discharge Voltage Level :

Criteria Contact Discharge (KV) Air Discharge(KV)

Class C

Class B

Class A

±4

±6

±8

±4

±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.

46

Ambient temperature : 15°C to 35°C

Relative humidity : 30% to 60%

13. QUALITY AND RELIABILITY

13.1 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.

13.2 Reliability

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

47

Appendix A: Parts list

Note: Please access to the website of http://aicsl.acer.com.tw/spl/

1

Appendix B: DISPLAY Assembly

1

2

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

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

QUANTITY REQUIRED DWG.NO. LAM969

REV. 0A

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

F0

001 REMARKS

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

# LAM969F0001 LAM969F ABO UR+TCO99 WG017 19"FUJ

1 DC190020440 CB ASY CM999 SIG/2CORE 1.8M BLK90DSUB 1 - - - - 301

2 GA0500000C0 POWER CORD SET SP305X1.8MXIS14 SVT OPL 1 - - - - 302

3 DC190013810 CB ASY AM777 AUDIO 1.8M BLK G/B J/EPE 1 - - - - 304

4 58290730001 DIS UNIT ABO LAM969F TCO99 19"FUJ 1600X1200 1 - - - - 351

5 68009530001 PACKING ABO LAM969F UR+TCO99 WG017 1 - - - - 352

6 X66ANF30001 MEC PACKING ABO LAM969F 1 - - - - 353

End of Report

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

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

QUANTITY REQUIRED DWG.NO. 680095

REV. 0A

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

30

001 REMARKS

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

# 68009530001 PACKING ABO LAM969F UR+TCO99 WG017

1 EJ4AM969000 RATING NP N-AM969-ABO UFGC 99 W/W 1 - - - - 001

2 HB4AM999000 CARTON C-AM999-ABO W/W CHN 1 - - - - 002

3 HDABOAM9600 USER'S MANUAL U-AM969-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

6 HGTCO990100 TCO99 LABEL TCO99 FOR CARTON 1 - - - - 007

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

End of Report

3

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

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

QUANTITY REQUIRED DWG.NO. X66ANF

REV. 0A

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

30

001 REMARKS

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

# X66ANF30001 MEC PACKING ABO LAM969F

1 FJCM9917000 EPS FOAM-L CM9917 1 - - - - 201

2 FJCM9918000 EPS FOAM-R CM9918 1 - - - - 202

End of Report

4

5

6

=========

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

=========

QUANTITY REQUIRED DWG.NO. 582907

REV. 0A

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

30

001 REMARKS

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

# 58290730001 DIS UNIT ABO LAM969F TCO99 19"FUJ 1600X1200

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

2 DA3M999V011 FPC CM999 VS-901 REV1A 1 - - - - 302

3 DC020154210 H-CON SET CM998F P802-SW GRY 1 - - - - 303

4 DC020200410 H-CON SET CM999 CTRL-KEY 10P 1 - - - - 304

5 DC020155200 H-CON SET AM969 AUDIO-KEY 11P 1 - - - - 305

6 453A9930021 PCBA POWER/B VI-902 LAM969F 1 - - - - 351

7 454AA530001 PCBA KEY/B VK-906 LAM969F 1 - - - - 352

8 461A9930021 FIRMWARE CTRL/B VL-901 LAM969F ABO 1 - - - - 353

9 X66ANG30001 MEC PARTS ABO LAM969F TCO99 WG017 1 - - - - 354

10 455AA530001 PCBA AUDIO/B VM-906 LAM969F 1 - - - - 355

End of Report

7

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

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

QUANTITY REQUIRED DWG.NO. X66ANG

REV. 0A

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

30

001 REMARKS

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

# X66ANG30001 MEC PARTS ABO LAM969F TCO99 WG017

1 ECCM991H000 CHASSIS ASSY(CM998) CM991H(DISE MOUNT) 1 - - - - 001

2 ECCM9922000 NECK BRACKET CM9922 1 - - - - 002

3 ECCM9925000 BASE BRACKET ASSY CM9925 1 - - - - 003

4 ECCM9933000 HINGE ASSY CM9933 1 - - - - 004

5 ECCM9934000 SWIVEL HINGE CM9934 1 - - - - 005

6 EECM991J100 EMI COVER ASSY (AM969) CM991J 1 - - - - 006

7 FACM9913000 NECK COVER CM9913 ABS94HB WG017 1 - - - - 007

8 FACM9914000 BASE COVER CM9914 ABS94HB WG017 1 - - - - 008

9 FAAM991A300 BEZEL ASSY (AM969) AM991A PC+ABS WG017+KNOB MSV18 1 - - - - 009

10 FACM991E100 BACK COVER ASSY (AM969) CM991E PC+ABS WG017 1 - - - - 010

11 FBCM9921000 CABLE COVER CM9921 ABS94HB WG017 1 - - - - 011

12 MAA70002204 SCREW M4X0.7+10P-NI DIM 8.0 10 - - 013 013 013 013 013 013

013 013 013 013

13 MAA70003100 SCREW M3X0.5+4C-NI (NL) 12 - - 014 014 014 014 014 014

014 014 014 014 014 014

14 MAA70057206 SCREW M3X0.5+6C-NI 2 - - - - 015 015

15 MAAA0019300 SCREW SPECIAL 4#-40UNCX12.7 WASHER D=5.0 2 - - - - 016 016

16 MAB10003400 SCREW TPP-4+10F-MC 5 - - - - 017 017 017 017 017

17 MAB20009200 SCREW TPB-4+12P-NI 6 - - 018 018 018 018 018 018

18 MAB20076200 TAPING SCREW TPP-4.0+16P-NI 4 - - - - 019 019 019 019

19 MAB80007400 SCREW TPP2X3+12B-MC 3 - - - - 020 020 020

20 DC150V00000 CORE KC K5B T 36X6X23-G 1 - - - - 021

21 MAA10022007 SCREW M3X0.5+6F-ZK 2 - - - - 022 022

22 MAA20000103 SCREW M3X0.5+8P-MC 2 - - - - 023 023

End of Report

8

Appendix C: PCBA Assembly

1

2

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

QUANTITY REQUIRED DWG.NO. 455AA5

REV. 0A

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

30

001 REMARKS

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

# 455AA530001 PCBA AUDIO/B VM-906 LAM969F 0A

1 435AA530001 SMT AUDIO/B VM-906 LAM969F 1 - - - - ZZZ

2 CB047A6M300 ECE CAP(NP) 4.7U 50V M A P2.0 L4.5 5X11 1 - - - - C311

3 CB10012M4T0 ELE CAP 1000U 10V M B P5 L-ESR (RXK) 1 - - - - C302

4 CB220024200 ECE CAP 220U 10V M A P2.5 L4.5 6X11 2 - - - - C305 C308

5 DC03E000900 WAFER CONN. E&T 96113-1103 11P P1.25 1 - - - - J2

6 DC03E0026A0 WAFER E&T 4500-02 2P P2.0 1 - - - - J1

7 DC230201200 CONNECTOR SC SCJ-0345-1-X-S 3.6D 1 - - - - J3

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

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

QUANTITY REQUIRED DWG.NO. 455AA5

REV. 0A

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

30

001 REMARKS

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

# 435AA530001 SMT AUDIO/B VM-906 LAM969F

1 DA2M969V001 PCB AM969 VM-906 REV0A 1 - - - - ZZZ

2 SA048380000 SM IC LM4838 TSSOP-28 AUDIO 1 - - - - U301

3 SD0130000T4 CHIP RES. 1/16W 0 +5% 0603 2 - - - - R317 R318

4 SD0131000T9 CHIP RES. 1/16W 100 +-5% 0603 S9 2 - - - - R323 R324

5 SD0131001T6 CHIP RES. 1/16W 1K +-5% 0603 S9 3 - - - - R311 R312 R330

6 SD0131002T3 CHIP RES. 1/16W 10K +-5% 0603 S9 2 - - - - R301 R315

7 SD0131003T1 CHIP RES. 1/16W 100K +-5% 0603 S9 3 - - - - R303 R308 R313

8 SD0131802H0 CHIP RES. 1/16W 18K +-5% 0603 2 - - - - R304 R306

9 SD0132002T8 CHIP RES. 1/16W 20K +-5% 0603 S9 4 - - - - R302 R305 R307 R316

10 SD013220AT4 CHIP RES. 1/16W 22 +-5% 0603 S9 1 - - - - R320

11 SD0134701T8 CHIP RES. 1/16W 4.7K +-5% 0603 S9 1 - - - - R309

12 SE024680JT8 CHIP CERAMIC CAP. 68P 50V +-5% NPO 0603 S8 2 - - - - C301 C310

13 SE027104NT0 CHIP CERAMIC CAP. .1U 16V -20+80% Y5V 0603 S8 3 - - - - C102 C303 C307

14 SE092334K00 S CER CAP .33U 10V +-10% X7R 0805 2 - - - - C304 C306

End of Report

3

4

5

6

7

8

9

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

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

QUANTITY REQUIRED DWG.NO. 461A99

REV. 0C

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

30 30 30

001 011 021 REMARKS

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

# 461A9930001 FIRMWARE CTRL/B VL-901 LCM998F COMPAL

# 461A9930011 FIRMWARE CTRL/B VL-901 LGM998F AGN

# 461A9930021 FIRMWARE CTRL/B VL-901 LAM969F ABO

1 451A9930001 PCBA CTRL/B VL-901 LCM998F 1 1 - - - ZZZ

2 451A9930011 PCBA CTRL/B VL-901 LAM969F - - 1 - - ZZZ

* 3 31A622 SYSTEM EDID,LCM998(C-E),DIGITAL 1 - - - - U1

REVISION:1.3

CHECKSUM:00

* 4 31A633 SYSTEM EDID,LCM998(C-E),ANALOG

REVISION:1.3

CHECKSUM:00

* 5 31A631 SYSTEM EDID,LGM998(DIGITAL)

REVISION:1.3

CHECKSUM:00

* 6 31A632 SYSTEM EDID,LGM998(ANALOG)

REVISION:1.3

CHECKSUM:00

1 - - - - U2

- 1 - - - U1

- 1 - - - U2

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

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

QUANTITY REQUIRED DWG.NO. 451A99

REV. 1E

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

30 30

001 011 REMARKS

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

# 451A9930001 PCBA CTRL/B VL-901 LCM998F 1E

# 451A9930011 PCBA CTRL/B VL-901 LAM969F 1E

1 431A9930001 SMT CTRL/B VL-901 LCM998F 1 - - - - ZZZ

2 431A9930011 SMT CTRL/B VL-901 LAM969F - 1 - - - ZZZ

3 BD114P3M020 CRTSTAL 14.31818MHZ HC-49/S +-30PPM 20 1 1 - - - X1

4 CB68003M010 CAPACITOR 680U 16V M B P5 L10.5 1 1 - - - C60

5 DC03E000200 WAFER CONN. E&T 96113-1003 10P P1.25 1 1 - - - J1

6 DC03E002600 WAFER E&T 4500-07 7P P2.0 1 1 - - - J2

7 DC060014010 CONN. 24P FEMALE 74320-4004 1 - - - - CN1

8 DC060015000 D-CONN 15P FEMALE 1211-15 1 1 - - - CN2

9 SA390100000 S IC EEPROM PLCC-32 SST39SF010-90 1 1 - - - U6

10

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

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

QUANTITY REQUIRED DWG.NO. 451A99

REV. 1E

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

30 30

001 011 REMARKS

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

# 431A9930001 SMT CTRL/B VL-901 LCM998F

# 431A9930011 SMT CTRL/B VL-901 LAM969F

1 DA4M999V010 PCB CM999 VL-901 REV1 1 1 - - - ZZZ

2 SA008090620 SM IC FM809 SOT-23 2.93V RST 1 1 - - - U7

3 SA010850500 S IC APL1085-33CE TO252-3 REG.3A 1 1 - - - U11

4 SA011170200 S IC APL1117-25 SOT-223 2.5V 1 1 - - - U12

5 SA011170300 S IC APL1117-33VC-TR SOT-223 3.3V 1 1 - - - U13

6 SA021200000 S IC GM2120 PQFP-208 - 1 - - - U4

7 SA024160008 SM IC EE 16K SO-8 C 1 1 - - - U5

8 SA024210300 SM IC EE 128X8 SOP-8 24LC21A 1 - - - - U1

1 1 - - - U2

9 SA051200100 S IC GM5120 PQFP-208 1 - - - - U4

10 SA063830000 S IC THC63LVDM83A TSSOP-56 LVDS 2 2 - - - U10 U9

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

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

13 SB7390601T6 SM TRANSISTOR MMBT3906 (SOT-23) 2 2 - - - Q1 Q2

14 SBX94350109 SM TRANSISTOR SI9435 (SO-8) 1 1 - - - U8

15 SC10QS041T4 SM DIODE EC10QS04 1 - - - - D3

2 2 - - - D4 D5

16 SC4LZ56B0T5 SM ZENER DIODE RLZ5.6B (LL-34) 2 - - - - D1 D2

4 4 - - - D6 D7 D8 D9

17 SD0130000T4 CHIP RES. 1/16W 0 +5% 0603 4 4 - - - R26 R63 R64 R65

18 SD0131001T6 CHIP RES. 1/16W 1K +-5% 0603 S9 2 2 - - - R27 R70

19 SD0131002T3 CHIP RES. 1/16W 10K +-5% 0603 S9 1 - - - - R1

13 13 - R24 R25 R28 R31 R36 R37

R38 R39 R48 R57 R60 R66

R67

20 SD0132201T1 CHIP RES. 1/16W 2.2K +-5% 0603 S9 1 1 - - - R23

21 SD0134700T1 CHIP RES. 1/16W 470 +-5% 0603 S9 5 5 - - - R50 R51 R52 R53 R54

22 SD0134702T5 CHIP RES. 1/16W 47K +-5% 0603 S9 3 - - - - R2 R3 R4

5 5 - - - R56 R59 R7 R8 R9

23 SD013750AT3 CHIP RES. 1/16W 75 +-5% 0603 S9 5 5 - - - R18 R19 R20 R58 R61

24 SD014100009 CHIP RES. 1/16W 100 +-1% 0603 S9 10 10 R12 R15 R21 R22 R62 R71

R72 R73 R74 R75

2 - - - - R5 R6

- 1 - - - R55

25 SD014200A00 CHIP RES. 1/16W 20 +-1% 0603 3 3 - - - R10 R13 R16

26 SD014562A00 CHIP RES. 1/16W 56.2 +-1% 0603 3 3 - - - R11 R14 R17

27 SD302220A00 CHIP NETWORK RES. 1/16W 22 +-5% 8P-4R SA 12 12 RP1 RP10 RP11 RP12 RP2 RP3

RP4 RP5 RP6 RP7 RP8 RP9

* 28 SE024100FT1 CHIP CERAMIC CAP. 10P 50V +-1PF NPO 0603 S8 7 7 C53 C54 C55 C56 C57 C59

C74

11

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

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

QUANTITY REQUIRED DWG.NO. 451A99

REV. 1E

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

30 30

001 011 REMARKS

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

29 SE024101JT8 CHIP CERAMIC CAP. 100P 50V +-5% NPO 0603 S8 1 1 - - - C48

30 SE024180Z01 CHIP CERAMIC CAP. 18P 50V Z NPO 0603 3 3 - - - C49 C50 C62

31 SE024221JT3 CHIP CERAMIC CAP. 220P 50V +-5% NPO 0603 S8 2 2 - - - C10 C9

32 SE025103KT4 CHIP CERAMIC CAP. .01U 50V +-10% X7R 0603 S8 12 12 - - - C3 C4 C5 C6 C7

C71

C73 C8 C80 C82 C88 C91

33 SE025471KT3 CHIP CERAMIC CAP. 470P 50V +-10% X7R 0603 S8 2 2 - - - C63 C64

34 SE027104NT0 CHIP CERAMIC CAP. .1U 16V -20+80% Y5V 0603 S8 1 - - - - C1

58 58 - - - C101 C11 C12 C120 C13 C14

C15 C16 C17 C18 C19 C2

C20 C21 C22 C25 C26 C27

C28 C29 C30 C31 C32 C33

C34 C35 C36 C37 C38 C39

C40 C41 C42 C43 C44 C45

C47 C51 C52 C66 C67 C68

C69 C70 C72 C75 C76 C77

C78 C79 C81 C84 C86 C87

C93 C95 C98 C99

35 SF02202M000 CHIP ELE. CAP. 22U 10V M A (4X5.4) 2 2 - - - C24 C46

36 SF04704M000 CHIP ELE. CAP. 47U 25V M B (6.3X5.4) CV-GS7 2 2 - - - C102 C61

37 SF1000340T2 CHIP ELE. CAP. 100U 16V M 85C (6.3X5.4) 9 9 - - - C100 C83 C85 C89 C90 C92

C94 C96 C97

38 SM010006300 CHIP EMI SUPPRESSOR MURATA BLM21P300S (0805) 7 7 - L1 L2 L3 L4 L5 L6

L7

39 SM060000500 CHIP EMI SUPPRESSOR NWE STC222B 1 - - - - L8

40 SP02E002100 S W-CONN E&T 98210-4011 40P 1 1 - - - CN4

41 SP070001600 S SOCKET ACES 85218-3200 PLCC-32 H=3.83 1 1 - - - &U6

End of Report

12

13

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

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

QUANTITY REQUIRED DWG.NO. 454AA5

REV. 0C

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

30

001 REMARKS

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

# 454AA530001 PCBA KEY/B VK-906 LAM969F 0C

1 BC5G2093000 LED LYG2093 YEL/GRN 3D 3P 1 - - - - D1

2 CF150021300 VR RES 3/100W RK10F12U0139-50KBX2(CD) 1 - - - - VR1

3 DA1M969V000 PCB AM969 VK-906 REV0 1 - - - - ZZZ

4 DC030040000 WAFER CONN ACES 87502-0200 2P P2.25 2 - - - - J3 J4

* 5 DC03E000500 WAFER CONN. E&T 96113-1013 10P P1.25 1 - - - - J6

* 6 DC03E001000 WAFER CONN. E&T 96113-1113 11P P1.25 1 - - - - J1

7 DC230201307 CONNECTOR SC SCJ-0348-C 3.65D 1 - - - - J2

8 DE611000607 SWITCH PT-002-B2 5 - - - - S1 S2 S3 S4 S5

9 XX0900T2127 JUMPER WIRE D=0.6MM P7.5 3 - - - - W1 W2 W3

End of Report

14

15

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

===========

QUANTITY REQUIRED DWG.NO. 453A99 REV. 1A

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

30 30 30

001 011 021 REMARKS

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

# 453A9930001 PCBA POWER/B VI-902 LCM998F 1A

# 453A9930011 PCBA POWER/B VI-902 LGM998F 1A

# 453A9930021 PCBA POWER/B VI-902 LAM969F 1A

1 433A9930001 SMT POWER/B VI-902 LCM998F 1 - - - - ZZZ

2 433A9930011 SMT POWER/B VI-902 LGM998F - 1 - - - ZZZ

3 433A9930021 SMT POWER/B VI-902 LAM969F - - 1 - - ZZZ

4 AB008170000 IC LTV-817M-B DIP-4 PHOTO COUPLER 1 1 1 - - U800

5 AB078050300 IC KA78R05 TO-220F-4L - - 1 - - U803

6 BB526450100 TR 2SK2645-54M 1N TO-220F 1 1 1 - - Q801

7 BC1ER100200 DIO ER1002F T0-220F 1 1 1 - - D841

8 BC1ER3020N1 DIODE ER302-F17 DO-201AD P20 - - 1 - - D843

9 BC1ER5020N0 DIO ER502-F 17 DO-201AD P20 1 1 1 - - D842

10 BC3BP08M100 DIO (BR) 2KBP08M PANJIT 1 1 1 - - BD801

11 CA010CEZ000 CER CAP .01U 1KV Z E P7.5 1 1 1 - - C818

12 CA010DBMY00 CERAMIC CAP. (Y1) 1000P 250VAC M Z5U P10 2 2 2 - - C803 C804

13 CA012FMJ000 CER CAP 12P 3KV +-5% SL P7.5 4 4 4 - - C980 C980A C983 C983A

14 CA022DBMYH0 CERAMIC CAP. (Y1) 2200P 250VAC M E P10(X1400VAC) 3 3 3 - - C800 C807 C808

* 15 CA022DEK000 CER CAP 2200P 1KV J Y5P P7.5 L3.2 1 1 1 - - C806

16 CA047FMJ000 CER CAP 47P 3KV +-5% SL P7.5 4 4 4 - - C971 C972 C973 C974

17 CB1000FM1R0 CAPACITOR 100U 400V M B P7.5 90D 1 1 1 - - C805

18 CC008086700 RES NTC 5A 8 +-15% SCK-085 P10 1 1 1 - - RT801

19 CF210010201 TRIMMER RES. 1/10W 1KB VZ068TL1-B1K (HDK) 1 1 1 - - VR801

* 20 CJ033BXMX10 FILM CAP .33u 275VAC M MKP P15 (X2) 2 2 2 - - C801 C802

21 CL300003600 CHOK COIL NM555 2.9uH +-30% R5X15 13.5TS 2 2 2 - - L841 L842

- - 1 - - L861

22 CL900007400 LINE FILT JS555HC 14mH UU10.5 2 2 2 - - L801 L802

23 DC020154300 H-CON SET CM998F POW-LOG 7P P2.0 1 1 - - - P803

24 DC020155100 H-CON SET CM998F POW-LOG-AUDIO 10P P2.0 - - 1 - - P803

25 DC030002220 WAFER CONN. JST B3P-VH 3.96 (W/O PIN 2) 1 - 1 - - P802

26 DC03A001600 WAFER ACES 88225-0211 2P P8.0 90D 4 4 4 - - J940 J941 J980 J981

27 DC040011700 SOCKET POWER SA-4S-066 1 1 1 - - P801

28 DC100001502 FUSE HOLDER CQ-203LR 2 2 2 - - &F801 &F801

29 DG100016400 X'FORMER CM998F POWER EE-30 1 1 1 - - T801

30 DG100016500 X'FORMER CM998F POWER EEA-17 INV 2 2 2 - - T901 T902

31 DX23P1521C0 FUSE 3.15A 250V S SEMKO SLOW 1 1 1 - - F801

32 LC010006009 SHRINK TUBING 4X1000L 1 1 1 - - &P801

33 LCBP3541500 HEATSINK BP3541 L24.6XW9.8XH19mm 2 2 2 - - HS801 HS841

34 MAA20002203 SCREW M3X0.5+8P-NI 2 2 2 - - &D841 &Q801

35 NA100301200 WIRE SET 4.3DX30X10T(2mm) 1015#18 Y/G 1 1 1 - - &P801

16

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

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

QUANTITY REQUIRED DWG.NO. 453A99

REV. 1A

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

30 30 30

001 011 021 REMARKS

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

# 433A9930001 SMT POWER/B VI-902 LCM998F

# 433A9930011 SMT POWER/B VI-902 LGM998F

# 433A9930021 SMT POWER/B VI-902 LAM969F

1 443A9930001 AIS POWER/B VI-902 LCM998F 1 - - - - ZZZ

2 443A9930011 AIS POWER/B VI-902 LGM998F - 1 - - - ZZZ

3 443A9930021 AIS POWER/B VI-902 LAM969F - - 1 - - ZZZ

4 SA009600100 S IC 0Z960G SOP-20 PWM 1 1 1 - - U901

5 SA068410000 S IC SG6841S SO-8 POWER 1 1 1 - - U801

6 SB1103600T3 SM TRANSISTOR 2SA1036K (SOT-23) 1 1 1 - - Q950

7 SB3241100T8 SM TRANSISTOR 2SC2411K (SOT-23) 2 2 2 - - Q951 Q952

8 SB544100008 SM TRANSISTOR SI4410DY-T1-A 1N SO-8 2 2 2 - - U950 U960

9 SB7700200T5 SM TRANSISTOR 2N7002 2 2 2 - - Q901 Q902

10 SB944350001 SM TRANSISTOR SI4435DY 1P SO-8 W/D 2 2 2 - - U920 U930

11 SC11N4148T8 SM DIODE 1N4148 (SM) 1 1 1 - - D906

12 SC4LZ62B000 S AEN DIO RLZ 6.2B LL-34 3 3 3 - - ZD922 ZD952 ZD962

13 SC4LZ82B000 S ZEN DIO RLZ8.2B LL-34 1 1 1 - - ZD901

14 SC6BAV99100 S DIO POW BAV99(JE) 2P SOT-23 12 12 12 - - D931 D932 D933 D934 D941

D942

D943 D944 D945 D946 D947

D948

15 SD011100BT7 CHIP RES. 1/4W 1 +-5% 1206 1 1 1 - - R819

16 SD011200B00 S RES 1/4W 2 +-5% 1206 3 3 3 - - R819A R820 R820A

17 SD011510300 S RES 1/4W 510K +-5% 1206 2 2 2 - - R801 R802

18 SD011680300 S RES 1/4W 680K +-5% 1206 1 1 1 - - R821

19 SD011820300 S RES 1/4W 820K +-5% 1206 1 1 1 - - R822

20 SD0131002T3 CHIP RES. 1/16W 10K +-5% 0603 S9 5 5 5 - - R911 R912 R922 R957 R962

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

22 SD0131500T6 CHIP RES. 1/16W 150 +-5% 0603 S9 1 1 1 - - R846

23 SD0132201T1 CHIP RES. 1/16W 2.2K +-5% 0603 S9 1 1 1 - - R847

24 SD013220AT4 CHIP RES. 1/16W 22 +-5% 0603 S9 2 2 2 - - R923 R924

25 SD013240109 CHIP RES. 1/16W 2.4K +-5% 0603 S9 1 1 1 - - R851

26 SD013270202 CHIP RES. 1/16W 27K +-5% 0603 S9 2 2 2 - - R804 R813

* 27 SD0133301T1 CHIP RES. 1/16W 3.3K +-5% 0603 S9 2 2 2 - - R955 R956

28 SD0133302T9 CHIP RES. 1/16W 33K +-5% 0603 S9 4 4 4 - - R950 R951 R952 R953

29 SD013330AT4 CHIP RES. 1/16W 33 +-5% 0603 S9 1 1 1 - - R903

* 30 SD0134700T1 CHIP RES. 1/16W 470 +-5% 0603 S9 1 1 1 - - R954

31 SD0134701T8 CHIP RES. 1/16W 4.7K +-5% 0603 S9 - - 1 - - R864

32 SD0134702T5 CHIP RES. 1/16W 47K +-5% 0603 S9 1 1 1 - - R914

33 SD013470A07 CHIP RES. 1/16W 47 +-5% 0603 S9 1 1 1 - - R850

34 SD0135102T7 CHIP RES. 1/16W 51K +-5% 0603 S9 1 1 1 - - R915

35 SD014100301 CHIP RES. 1/16W 100K +-1% 0603 S9 1 1 1 - - R907

36 SD014120200 S RES 1/16W 12K +-1% 0603 1 1 1 - - R917

37 SD014365100 CHIP RES. 1/16W 3.65K +-1% 0603 1 1 1 - - R848

38 SD014390200 S RES 1/16W 39K +-1% 0603 1 1 1 - - R905

39 SD014421200 S RES 1/16W 412 +-1% 0603 4 4 4 - - R940 R946 R970 R971

17

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

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

QUANTITY REQUIRED DWG.NO. 453A99

REV. 1A

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

30 30 30

001 011 021 REMARKS

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

40 SD014470200 CHIP RES. 1/16W 47K +-1% 0603 1 1 1 - - R901

41 SD014510100 CHIP RES. 1/16W 5.1K +-1% 0603 4 4 4 - - R945 R947 R972 R973

42 SD014560300 CHIP RES. 1/16W 560K +-1% 0603 1 1 1 - - R913

43 SD014620207 CHIP RES. 1/16W 62K +-1% 0603 1 1 1 - - R906

44 SD014634200 S RES 1/16W 63.4K +-1% 0603 1 1 1 - - R849

45 SD014806203 CHIP RES. 1/16W 80.6K +-1% 0603 S9 1 1 1 - - R902

46 SE001221JT7 CHIP CERAMIC CAP. 220P 50V +-5% NPO 0805 S6 1 1 1 - - C912

47 SE025103KT4 CHIP CERAMIC CAP. .01U 50V +-10% X7R 0603 S8 2 2 2 - - C907 C911

48 SE026104K01 CHIP CERAMIC CAP. .1U 16V K X7R 0603 S8 4 4 4 - - C910 C914 C951 C952

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

50 SE026222KT7 CHIP CERAMIC CAP. 2200P 16V +-10% X7R 0603 S8 5 5 5 - - C908 C982 C982A C985 C985A

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

52 SE027104NT0 CHIP CERAMIC CAP. .1U 16V -20+80% Y5V 0603 S8 2 2 2 - - C851 C906 C862

53 SE030105K08 CHIP CERAMIC CAP. 1U 16V K X7R 0805 2 2 2 - - C903 C950

54 SE030224KT1 CHIP CERAMIC CAP. .22U 16V K X7R 0805 S6 1 1 1 - - C850

* 55 SE056475K00 CHIP CERAMIC CAP. 4.7U 25V K X7R 1210 2 2 2 - - C922 C923

* 56 SE080474K00 S CER CAP .47U 10V K X7R 0603 2 2 2 - - C902 C904

18

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

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

QUANTITY REQUIRED DWG.NO. 453A99

REV. 1A

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

30 30 30

001 011 021 REMARKS

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

# 443A9930001 AIS POWER/B VI-902 LCM998F

# 443A9930011 AIS POWER/B VI-902 LGM998F

# 443A9930021 AIS POWER/B VI-902 LAM969F

1 AB0043101T3 IC KA431Z TO-92 REGULATOR 1 1 1 - - U802

2 BC1PS1010T0 DIO PS1010R DO-51 PANJIT 1 1 1 - - D801

3 BC1PS1040T0 DIO PS104R D0-41 PANJIT 1 1 1 - - D802

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

5 BC2E180A0T0 DIO P6KE180A-DO-15 TVS 1 1 1 - - TVS1

6 CA010C6ZHT0 CERAMIC CAP. .01U 50V Z Y5V P5 1 1 1 - - C810

7 CA010DEK0T0 CERAMIC CAP. 1000P 1KV K Y5P P5 2 2 2 - - C841 C842

- - 1 - - C849

8 CB01006M1T0 ELE CAP 10U 50V M B P5 1 1 1 - - C809

9 CB022A6MHT0 CAPACITOR 2.2U 50V M A P5 1 1 1 - - C905

10 CB047B6MHT0 CAPACITOR .47U 50V M A P5 1 1 1 - - C909

11 CB10013M3T0 ELE CAP 1000U 16V M B P5 (L-ESR) 10X16 1 1 1 - - C847

- - 1 - - C860

12 CB47003M0T4 CAPACITOR 470U 16V M A P5 1 1 1 - - C848

- - 1 - - C861

13 CB47004M3T0 ELE CAP 470U 25V M B P5 (L-ESR) 10X16 5 5 5 - - C843 C844 C845 C846 C930

14 CC002A471T2 RESISTOR (FUSE) 1W .2 +-5% 1 1 1 - - R800

15 CC0100011T8 RESISTOR 1/2W 10 +-5% S1 2 2 2 - - R841 R842

- - 1 - - R844

16 CC0150011T6 RESISTOR 1/2W 15 +-5% S1 1 1 1 - - R807

17 CC4700491T4 RESISTOR (MOF) 1W 470 +-5% 1 1 1 - - R843

* 18 DA1M998P010 PCB CM998F VI-902 REV1 1 1 1 - - ZZZ

19 DC1510009T0 BEAD NWE W5 3.5X6X1.0+T 1 1 1 - - L803

20 XX0900T2119 JUMPER WIRE D=0.6MM P5.0 3 3 3 - - JP5 W32 W46

21 XX0900T2127 JUMPER WIRE D=0.6MM P7.5 4 4 4 - - W16 W23 W27 W31

22 XX0900T2135 JUMPER WIRE D=0.6MM P10 - 1 - - - JP2

16 16 16 - R803 R805 W1 W12 W14 W15

W18 W2 W22 W25 W30 W34

W42 W43 W5 W6

23 XX0900T2143 JUMPER WIRE D=0.6MM P12.5 8 8 8 - - W10 W11 W20 W21 W26

W29

W41 W8

24 XX0900T2151 JUMPER WIRE D=0.6MM P15 4 4 4 - - W13 W24 W40 W45

25 XX0900T2160 JUMPER WIRE D=0.6MM P17.5 2 2 2 - - W19 W47

26 XX0900T2178 JUMPER WIRE D=0.6MM P20 6 6 6 - - W28 W33 W35 W36 W4 W7

27 XX0900T2186 JUMPER WIRE D=0.6MM P25 3 3 3 - - W17 W38 W39

End of Report

19

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