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39
Transcript 
Acer AL2032W
Service Guide
Service guide files and updates are available on the
CSD web: for more information,
Please refer to http://csd.acer.com.tw/
-1-
Copyright
Copyright © 2004 by Acer Incorporated. All rights reserved. No part of this publication may be reproduced,
transmitted, transcribed, stored in a retrieval system, or translated into any language or computer language, in
any form or by any means, electronic, mechanical, magnetic, optical, chemical, manual or otherwise, without the
prior written permission of Acer Incorporated.
Disclaimer
The information in this guide is subject to change without notice. Acer Incorporated makes no representations or
warranties, either expresses or implied, with respect to the contents hereof and specifically disclaims any
warranties of merchantability or fitness for any particular purpose, Any Acer Incorporated software described in
this manual is sold or licensed “as is ”. Should the programs prove defective following their purchase, the buyer
(and not Acer Incorporated, its distributor, of its dealer) assumes the entire cost of all necessary servicing, repair,
and any incidental or consequential damages resulting from any defect in the software.
Acer is a registered trademark of Acer Corporation.
Intel is a registered trademark of Intel Corporation.
Pentium and Pentium II/III are trademarks of Intel Corporation.
Other brand and product names are trademarks and/or registered trademarks of their respective holders.
-2-
Conventions
The following conventions are used in this manual:
Screen messages
Denotes actual messages that appear on
screen
Note
Gives bits and pieces of additional information
related to the current topic.
Warning
Alerts you to any damage that might result
from doing or not doing specific actions.
Caution
Gives precautionary measures to avoid
possible hardware or software problems.
Important
Reminds you to do specific actions relevant to
the accomplishment of procedures.
-3-
Preface
Before using this information and the product it supports, please read the following general information.
1. this Service Guide provides you with all technical information relating to the BASICCONFIGURATION
decided for Acer’s “global” product offering. To better fit local market requirements and enhance product
competitiveness, your regional office MAY have decided to extend the functionality of a machine (e.g.
add-on card, modem, or extra memory capability). These LOCALIZED FEATURES will NOT be covered
in this generic service guide. In such cases, please contact your regional offices or the responsible
personnel/channel to provide you with further technical details.
2. please not WHEN ORDERING FRU PARTS, that you should check the most up-to-date information
available on your regional web or channel. If, for whatever reason, a part number change is made, it will
not be noted in the printed Service Guide, for ACER-AUTHORIZED SERVICE PROVIDERS, your Acer
office may have a DIFFERENT part number code to those given in the FRU list of this printed Service
Guide. You MUST use the list provided by your regional Acer office to order FRU parts for repair and
Service of customer machines.
-4-
WARNING: (FOR FCC CERTIFIED MODELS)
NOTE: this equipment has been tested and found to comply with the limits for a Class B digital device,
pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful
interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy,
and if not installed and used in accordance with the instructions, may cause harmful interference to radio
communications. However, there is no guarantee that interference will not occur in a particular installation. If this
equipment does cause harmful interference to radio or television reception,
Which can be determined by turning the equipment off and on, the user is encouraged to try to correct the
interference by one or more of the following measures:
1. Reorient or relocate the receiving antenna.
2. Increase the separation between the equipment and receiver.
3. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
4. Consult the dealer or an experienced radio/TV technician for help.
NOTICE:
1. The changes or modifications not expressly approved by the party responsible for compliance could void
the user’s authority to operate the equipment.
2. Shielded interface cables and AC power cord, if any, must be used in order to comply with the emission limits.
3. The manufacturer is not responsible for any radio or TV interference caused by unauthorized modification to
this equipment. It is the responsibility of the user to correct such interference.
As an ENERGY STAR® Partner our company has determined that this product meets the ENERGY STAR®
guidelines for energy efficiency.
WARNING:
To prevent fire or chock hazard, do not expose the monitor to rain or moisture. Dangerously high voltages are
present inside the monitor. Do not open the cabinet. Refer servicing to qualified personnel only.
-5-
PRECAUTIONS
Do not use the monitor near water, e.g. near a bathtub, washbowl, kitchen sink, laundry tub,
Swimming pool or in a wet basement.
Do not place the monitor on an unstable trolley, stand, or table. If the monitor falls, it can injure a person and
cause serious damage to the appliance. Use only a trolley or stand recommended by the manufacture or
sold with the monitor. If you mount the monitor on a wall or shelf, use a mounting kit approved by the
manufacture and follow the kit instructions.
Slots and openings in the back and bottom of the cabinet area provided for ventilation. To ensure reliable
operation of the monitor and to protect it from overheating, be sure these openings are not blocked or
covered. Do not place the monitor on a bed, sofa, rug or similar surface. Do not place the monitor near or
over a radiator or heat register. Do not place the monitor in a bookcase or cabinet unless proper ventilation
is provided.
The monitor should be operated only from the type of power source indicated on the label. If you are not
sure of the type of power supplied to your home, consult your dealer or local power company.
The monitor is equipped with a three-pronged grounded plug, a plug with a third (grounding) pin. This plug
will fit only into a grounded power outlet as a safety feature. If your outlet does not accommodate the
three-wire plug, have an electrician install the correct outlet, or use an adapter to ground the appliance
safely. Do not defeat the safety purpose of the grounded plug.
Unplug the unit during a lightning storm or when it will not be used for long periods of time. This will protect
the monitor from damage due to power surges.
Do not overload power strips and extension cords. Overloading can result in fire or electric shock.
Never push any object into the slot on the monitor cabinet. It could short circuit parts causing a fire or
electric shock. Never spill liquids on the monitor.
Do not attempt to service the monitor yourself; opening or removing covers can expose you to dangerous
voltages and other hazards. Please refer all servicing to qualified service personnel.
To ensure satisfactory operation, use the monitor only with UL listed computers which have appropriate
configured receptacles marked between 100-240V AC, Min. 3.5A.
The wall socket shall be installed near the equipment and shall be easily accessible.
For use only with the attached power adapter (output 12V DC) which have UL,CSA listed license
-6-
SPECIAL NOTES ON LCD MONITORS
The following symptoms are normal with LCD monitor and do not indicate a problem.
NOTES
Due to the nature of the fluorescent light, the screen may flicker during initial use. Turn off the Power Switch
and then turn it on again to make sure the flicker disappears.
You may find slightly uneven brightness in the screen depending on the desktop pattern you use.
The LCD screen has effective pixels of 99.99% or more. It may include blemishes of 0.01% or less such as a
missing pixel or a pixel lit all of the time.
Due to the nature of the LCD screen, an afterimage of the previous screen may remain after switching the
image, when the same image is displayed for hours. In this case, the screen is recovered slowly by changing
the image or turning off the Power Switch for hours.
-7-
Table of contents
Chapter 1 MONITOR FEATURE
………………………………………………………….9
Chapter 2 OPERATING INSTRUTION …………………………………………………….15
Chapter 3 Machine assembly ……………………………………………………………21
Chapter 4 TROBLE SHOOTING ………………………………………………………….27
Chapter 5 CONNECTOR INFORMATION
……………………………………………….29
Chapter 6 FRU LIST ………………………………………………………………………..30
Chapter 7 SCHEMATIC DIAGRAM …………………………………………………………31
-8-
Chapter 1
Monitor Feature
LCD Panel
Input
Driving system
TFT Color LCD
Size
20.1” wide
Pixel pitch
0.258 mm
Viewable angle
178(H) x 178 (V) degree
Brightness
LG panel: 300 cd/m2(typ)
Contrast Ratio
600:1 (typ)
Response time
16ms (Tr+Tf)
Video
R,G,B Analog & DVI box (optional)
Separate Sync
H/V TTL
H-Frequency
31-81KHZ
V-Frequency
50-75HZ
Display Color
16.7 million Colors
Maximum Dot Clock ®
162MHz
Max Resolution
1680X1050@60HZ
Plug & Play
VESA DDC2B
EPA ENERGY STAY
ON Mode
<75W
OFF Mode
<3W
Audio output
Rated Power 5.0W rms(Per channel)
Input Connector
D-Sub 15 pin, or DVI-D cable
Input Video Signal
Analog : 0.7Vp-p,75OHM
Horizontal : 433.4mm
Screen Size (Active)
Vertical : 270.9mm
Power Source
90~240 Vac, 50~60HZ
Environmental
Considerations
Operating Temp : 5 to 40 degree ;
Weight (N.W.)
6.8kg
Dimension
510.3(W) x 443.9(H) x 206.6D) mm
Storage Temp : -20 to 60 degree ;
Operating Humidity : 15% to 85%
-9-
Switch
Function
External Controls :
Regulatory Compliance
* Power Switch
* MENU/ENTER
*
/ Volume
*
/ Volume
* Auto Adjust KEY
* Contrast/brightness
* Focus
* Clock
* H.Position
* W.Position
* Language
* OSD Color temperature
* OSD Position & Timeout
* Auto Config
* Input
* Information
* Reset
* Exit
cUL, FCC, TUV, CE, ISO13406-2
Timeings
The product has 29 memory modes in total. 19 modes are preset and 10 modes
are user definable.
MODE NO.
1
2
3
4
RESOLUTION
720 x 400
640 x 480
640x480
640 x 480
Dot clock(MHz)
28.321
25.175
30.24
31.5
fh
31.469kHz
31.469kHz
35.0kHz
37.861kHz
H-Total ( us )
31.78(900dots)
31.778 (800 dots)
28.571(864 dots)
26.413 (832 dots)
H-Sync ( us )
3.813(108dots)
3.813 (96 dots)
2.116 (64 dots)
1.270(40 dots)
H-B-P ( us )
1.907(54dots)
1.907 (48 dots)
3.175 (96 dots)
4.064(128 dots)
H-Active ( us )
25.42(720dots)
25.422 (640 dots)
21.164 (640 dots)
20.317(640 dots)
H-F-P ( us )
0.636(18dots)
0.636 (16 dots)
2.116 (64 dots)
0.762(24 dots)
- 10 -
fv
70Hz(70.087)
60Hz (59.940)
66.7 HZ (66.667)
72.809Hz
V-Total (ms )
14.27(449 lines)
16.683 (525 lines )
15.000 (525 lines )
13.735(520 lines)
V-Sync ( ms )
0.064(2 lines)
0.064 (2 lines )
0.086 (3 lines )
0.079(3 lines)
V-B-P (ms )
1.112(35 lines)
1.049 (33 lines )
1.114 (39 lines )
0.739(28 lines)
V-Active ( ms )
12.71(400 lines)
15.253 (480 lines )
13.714 (480 lines )
12.678(480 lines)
V-F-P ( ms )
0.384(12 lines)
0.317 ( 10 lines)
0.086 (3 lines )
0.237(9 lines)
SYNC. H/V
-/+
-/-
+/+
-/-
POLARITY
Or -/-
SEP . SYNC
Y
Y
Y
Y
MODE NO.
5
6
7
8
RESOLUTION
640 x 480
800 x 600
800 x 600
800 x 600
Dot clock(MHz)
31.5
36
40
49.5
fh
37.500kHz
35.16kHz
37.879kHz
46.875kHz
H-Total ( us )
26.667(840 dots)
28.44(1024 dots)
H-Sync ( us )
2.032 (64 dots)
2.00(72 dots)
H-B-P ( us )
3.810 (120 dots)
3.56(128 dots)
H-Active ( us )
20.317 (640 dots)
22.22(800 dots)
20.00 ( 800 dots)
16.162 (800 dots)
H-F-P ( us )
0.508 (16 dots)
0.67(24 dots)
1.000 (40 dots)
0.323 (16 dots)
fv
75Hz (75)
56.25
60Hz (60.316)
75Hz (75.000)
V-Total (ms )
13.333 (500 lines)
17.78(625 lines)
16.58 (628 lines)
13.333 (625lines)
V-Sync ( ms )
0.080 (3 lines)
0.06(2 lines)
0.106 (4 lines)
0.064 (3 lines)
V-B-P (ms )
0.427 (16 lines)
0.63(22 lines)
0.607 (23 lines)
0.448 (21 lines)
V-Active ( ms )
12.80 (480 lines)
17.07(600 lines)
15.84 (600 lines)
12.80 (600lines)
V-F-P ( ms )
0.027 ( 1 line )
0.03( 1 line)
0.026 (1 line )
0.021 (1 line )
SYNC. H/V
-/-
+/+
+/+
+/+
SEP . SYNC
Y
Y
Y
Y
MODE NO.
9
10
11
12
RESOLUTION
800 x 600
832 x 624
1024 x 768
1024 x 768
Dot clock(MHz)
50
57.283
65
75
26.40 (1056 dots) 21.333 (1056dots)
3.200 (128 dots)
2.200 ( 88 dots)
1.616 (80 dots)
3.232 (160 dots)
POLARITY
- 11 -
fh
48.077kHz
49.72kHz
48.363kHz
56.48kHz
H-Total ( us )
20.80 (1040dots)
20.11(1152 dots)
20.677(1344 dots)
17.71(1328 dots)
H-Sync ( us )
2.400 ( 120 dots)
1.12(64 dots)
2.092(136 dots)
1.81(136 dots)
H-B-P ( us )
1.280 (64 dots)
3.91(224 dots)
2.462(160 dots)
1.92(144 dots)
H-Active ( us )
16.00 (800 dots)
14.52( 832 dots )
15.754(1024 dots)
13.65(1024 dots)
H-F-P ( us )
1.120 (56 dots)
0.56(32 dots )
0.369(24 dots)
0.32(24 dots)
fv
72Hz (72.188)
74.55Hz
60.004Hz
70.07Hz
V-Total (ms )
13.85 (666 lines)
13.41(667 lines)
16.666(806 lines)
14.27(806 lines)
V-Sync ( ms )
0.125 (6 lines)
0.06(3 lines)
0.124(6 lines)
0.11(6 lines)
V-B-P (ms )
0.478 (23 lines)
0.78(39 lines)
0.600(29 lines)
0.51(29 lines)
V-Active ( ms )
12.48 (600 lines)
12.55 (624 lines)
15.880(768 lines)
13.60(768 lines)
0.02(1 line)
0.062(3 lines)
0.05(3 lines)
+/+
+/+
-/-
-/-
SEP . SYNC
Y
Y
Y
Y
MODE NO.
13
14
15
16
RESOLUTION
1024 x 768
1280 x 1024
1280 x 1024
1152 x 864
Dot clock(MHz)
78.75
108
135
108
fh
60.02kHz
63.981kHz
79.976KHz
67.5 KHz
H-Total ( us )
16.66(1312 dots)
15.630 (1688 dots)
H-Sync ( us )
1.22 (96 dots)
1.037 (112 dots)
1.067 (144 dots)
1.185(128 dots)
H-B-P ( us )
2.23 (176 dots)
2.296 (248 dots)
1.837 (248 dots)
2.370(256 dots)
H-Active ( us )
13.00 (1024 dots)
11.852 (1280 dots)
9.481 (1280dots)
10.667(1152 dots)
H-F-P ( us )
0.20 (16 dots)
0.444 (48 dots)
0.119 (16 dots)
0.593(64 dots)
fv
75.03Hz
60.020Hz
75.025 Hz
75.06 Hz
V-Total (ms )
13.33 (800 lines)
V-Sync ( ms )
0.05 (3 lines)
0.047 ( 3 lines)
0.038 (3 lines)
0.044(3 lines)
V-B-P (ms )
0.47 (28 lines)
0.594 ( 38 lines)
0.475 (38 lines)
0.474(32 lines)
V-Active ( ms )
12.80 (768 lines)
16.005 (1024 lines)
12.804(1024 lines)
12.800(864 lines)
V-F-P ( ms )
0.02 (1 lines)
0.016 (1 line )
0.013 (1 lines)
0.015(1 lines)
V-F-P ( ms )
SYNC. H/V
0.770 ( 37
line )
POLARITY
12.504 (1688 dots) 14.815(1600 dots)
16.661 (1066 lines) 13.329 (1066 lines)
- 12 -
13.333(900 lines)
SYNC. H/V
-/-
+/+
+/+
+/+
Y
Y
Y
Y
MODE NO.
17
18
19
20
RESOLUTION
1280 x 960
1600 x 1200
1280 x 720
Dot clock(MHz)
108
162
74.176
fh
60.000 KHz
75.000 KHz
44.955KHz
H-Total ( us )
16.667 (1800dots)
13.333 (2160 dots)
22.244 (1650dots)
H-Sync ( us )
1.037 ( 112 dots)
1.185 ( 192 dots)
0.539 ( 40 dots)
H-B-P ( us )
2.889 (312 dots)
1.877 (304 dots)
2.966 (220 dots)
H-Active ( us )
11.852 (1280 dots)
9.877 (1600 dots)
17.256 (1280 dots)
H-F-P ( us )
0.889 (96 dots)
0.395 (64 dots)
1.483 (110 dots)
fv
60.00Hz
60.00 Hz
59.94Hz
POLARITY
SEP . SYNC
17"
V-Total (ms )
16.667 (1000 lines) 16.667 (1250 lines)
16.683 (750 lines)
V-Sync ( ms )
0.050 (3 lines)
0.040 (3 lines)
0.111 (5 lines)
V-B-P (ms )
0.600 (36 lines)
0.613 (46 lines)
0.445 (20 lines)
V-Active ( ms )
16.000 (960 lines)
16.000 (1200 lines)
16.016 (720 lines)
V-F-P ( ms )
SYNC. H/V
0.017 ( 1
line )
0.013 ( 1
line )
0.111 (5 lines)
+/+
+/+
+/+
Y
Y
HDTV
POLARITY
SEP . SYNC
- 13 -
Monitor Block Diagram
+3.3V_I/O_MALIBU +2.5V_DDR +3.3V_LVDSA
+1.8V_CORE
+3.3V_LBADC
+3.3V_LVDSB
+1.8V_DVI
+3.3V_LVDS
+1.8V_ADC
+3.3V_DVI
+3.3V_PLL
+3.3V_ADC
DIGITALDDC
24AA02 (U12)
SDA/SCL
DVI INPUT
( CN8)
RX2, RX1, RX0 , RXC
ANALOGDDC
24AA02 (U10)
VGAINPUT
( CN7 )
GM1601 (U5)
SDA/SCL
RESET
/RESET
MAX809_1(U8)
MSTRSCL/SDA
I2C
24LC32SN(U7)
RED, GREEN, BLUE, SDA/SCL
FSDATA,FSADDR,FSBKSEL0/1
FSCLK-/+,FSDQM
MEMORYI/F
39VF020( XU1)
TXA0+/-, TXA1+/-, TXA2+/-,TXA3+/-, TXAC+/TXB0+/-,TXB1+/-, TXB2+/-, TXB3+/-, TXBC+/-
OCMADDR[0..19],OCMDATA[0..7]
LBADC_RETURN/ IN1 / IN2 / IN3
MUTE
PWM1
VOLUME
AUDIOIN( L/R)
POWERSWITCH
AIC1563(U2)
(U3) +2.5V
(U4) +3.3V
+12VFROM
(U6) +1.8V
POWERBOARD
AUDIO
TPA3002D2( U9)
SPKR0+/SPKL0+/-
- 14 -
SPEAK
( CN6)
FRAMESTORE
MT46V2M32LG-4( U1)
TOPANEL
(CN2)
KEYCONTROL
(CN4)
PCB CONDUCTOR VIEW
Main Board
- 15 -
Button Board
- 16 -
Chapter 2
OPERATING INSTRUCTIONS
Front Panel Definition
This Section defines the front panel User Interface for Led Indictor and Key function.
Key Definition:
There are five keys defined in this system and described bellows.
*
Adjusting display settings
External Controls
Power on/off
1
○
POWER
Blue: power on
Orange: in sleep mode
2
○
3
○
4
○
5
○
OSD
Function
Press to view OSD.
Press again to enter a selection in OSD.
If OSD is active, press to select or adjust OSD options. If OSD
UP/ PLUS is inactive, press once, then press the buttons marked
or
to adjust the volume.
DOWN /
MINUS
If OSD is active, press to select or adjust OSD options. If OSD
is inactive, press once, then press the buttons marked
or
to adjust the volume.
AUTO
If OSD is active, press to exit a selection in OSD. If OSD is
inactive, press and the monitor will automatically optimize the
position, focus and clock of your display.
- 17 -
OSD Menu
Picture
Brightness:
This adjusts the brightness of the picture on the screen.
Contrast:
This adjusts dark and light shades of color relative to each other to
achieve a comfortable contrast.
Color temp. :
There are three ways of adjusting color:
Warm (Reddish white)
Cool (Bluish white)
User : You can adjust the colors red, green and blue to the intensity
you desire.
Focus:
This removes any horizontal distortion and makes the picture clear
and sharp.
Clock:
If there are any vertical stripes seen on the background of the screen
this renders them less noticeable by minimizing their size. It also
changes the size of the horizontal screen.
H-Position:
This adjusts the horizontal screen position.
V-Position:
This adjusts the vertical screen position.
Audio
Volume: Adjusts the volume.
Mute : on /off
- 18 -
Option
Auto Config. :
System runs auto-configuration.
Reset:
Recall to default settings.
Information:
This shows brief information on the screen.
Setting
Language:
Select the OSD menu language from
English, French, German, Italian, Spanish, Simplified Chinese,
Traditional Chinese, Japanese and Russian.
OSD H. Position
OSD V. Position
OSD Time-out
This changes the position of the OSD window on the screen and staying
time.
LED Definition
The system equips one dual color (blue/amber) led to indict system status and defined as bellows :
LED Color
System Status
Blue
System in normal operation mode
Amber
System in power-saving mode
Dark
System in power-off mode
- 19 -
LOGO :
When the monitor is power on, the LOGO will be showed in the center, and disappear slowly.
HOW TO OPTIMIZE THE DOS-MODE
Plug and play
Plug & play DDC2B feature
This monitor is equipped with VESA DDC2B capabilities according to the VESA DDC STANDARD. It allows the
monitor to inform the host system of its identity and, depending on the level of DDC used, communicate
additional information about its display capabilities. The communication channel is defined in two levels, DDC2B.
The DDC2B is a bi-directional data channel based on the I2C protocol. The host can request EDID information
over the DDC2B channel.
THIS MONITOR WILL APPEAR TO BE NON-FUNCTIONAL IF THERE IS NO VIDEO INPUT SIGNAL. IN
ORDER FOR THIS MONITOR TO OPERATE PROPERLY, THERE MUST BE A VIDEO INPUT SIGNAL.
This monitor meets the Green monitor standards as set by the Video Electronics Standards Association(VESA)
and/or the United States Environmental Protection Agency (EPA) and The Swedish Confederation Employees
(NUTEK). This feature is designed to conserve electrical energy by reducing power consumption when there is
no video-input signal present. When there is no video input signal this monitor, following a time-out period, will
automatically switch to an OFF mode. This reduces the monitor’s internal power supply consumption. After the
video input signal is restored, full power is restored and the display is automatically redrawn. The appearance is
similar to a “Screen Saver” feature except the display is completely off. The display is restored by pressing a key
on the keyboard, or clicking the mouse.
- 20 -
USING THE RIGHT POWER CORD
The accessory power cord for the Northern American region is the wallet plug with NEMA 5-15 style and is UL
listed and CSA labeled. The voltage rating for the power cord shall be 125 volt AC.
Supplied with units intended for connection to power outlet of personal computer: Please use a cord set
consisting of a minimum No. 18 AWG, type SJT or SVT three conductors flexible cord. One end terminates with a
grounding type attachment plug, rated 10A, 250V,CEE-22 male configuration. The other end terminates with a
molded-on type connector body, rated 10A, 250V, having standard CEE-22 female configuration.
Please note that power supply card needs to use VDE 0602, 0625, 0821 approval power cord in European
counties.
- 21 -
Chapter 3
Machine assembly
This chapter contains step-by-step procedures on how to assemble the monitor for
maintenance and trouble shooting
NOTE : 1. The screws for the different components vary in size. During the disassembly process, group the
screws with the corresponding to avoid mismatch when putting back the components.
2. Note : The monitor surface is susceptible to scratching! Therefore, lay the monitor on a soft surface
when mounting or removing the base.
3. Wear gloves.
Front View :
( unit : mm )
- 22 -
Real View :
Top View :
- 23 -
Side View :
( unit : mm )
Assembly process
Picture
Description
1. Get the panel and put it on the table
carefully.
1. Fix left and right bracket (BKT) on the
panel.
- 24 -
1. Get bezel and put it on the table
2. Assemble panel into bezel
1. Lock screw * 3 pcs to fasten bezel and
left side bracket (BKT)
.
2. Lock screw * 3 pcs to fasten bezel and
right side bracket (BKT).
1. Insert LCD cable in panel connector
1. Assemble speaker on the bezel
1. Tidy speaker cable as picture shows.
1. Assemble PCB BKT on the L/R of BKT
2. Tidy cable as picture shows
- 25 -
1. Get inverter and insert cable
2. Insert button cable in main board
connector
1. Lock 4*pcs screw to fasten m/b and
PCB BKT
1.
First to lock 4*pcs screw to fasten
Inverter board on the PCB BKT
2. Get m/b and insert speaker cable, then
assemble it on the
1. Lock 4 pcs screw to fasten m/b on the
pcb BKT
1. Insert INV-M/B cable, then tidy button
cable and inv-m/b
- 26 -
1.
Lock screw*2pcs to fasten panel hold
1.
insert LCD cable in m/b connector
1. Assemble shielding and pcb BKT
2. Lock 7pcs screw to fasten shielding
3. Insert ccft cable L/R of into inverter/b
connector
1. Stick al foil *2pcs on ccft connector of
pcb shielding
1. Lock io nut 2pcs in VGA connector
1. Assemble button/b and back cover
- 27 -
1. Insert button/b cable in button/b
connector
1. Assembly back cover and bezel
2. Lock screw * 6 pcs
to fasten and back
cover
1. Lock screw*2 pcs to fasten bezel and
PCB shielding.
2. Assembly DVI box, if necessary.
1. Assembly stand base and back cover.
2. lock screw *6 pcs to fix it.
1. Assembly VESA cover and back cover.
- 28 -
Chapter 4
TROUBLE SHOOTING
This chapter provides trouble shooting information forAL2032
1. No Power
No Power
Check Adaptor Power
NO
Output =18V
Change Adaptor Power
Board
OK
Check Scalar Module
Output
NO
L4 =5V?
Change Scalar Module Board
U4 #2 = 3.3V ?
L 13 = 1.8V ?
OKKK
NO
Check Power Button
From Scalar/B(CN5)
Check Cable Yes
Open ?
Change Cable
to Button/B(CN1)
NO
Change Switch or Button Board
- 29 -
2. No Characters , Missing one color
NoCharacters
Missing one color
Check CN4
No
Change Adaptor
12Vdc Output
OK
Check L4
No
5Vdc Output
Check or Change
U2 , Q6 , D3
OK
Check U6(pin2)
No
1.8Vdc Output
Check or Change
U6
OK
Check U4(pin2)
No
3.3Vdc Output
Check or Change
U4
OK
Change Inverter Board
No
Check Inverter From
Check CN2 to Panel
Scaler board OK ?
Signal Output
No
OK
Check or Change
Check X Tal
Cable Or Panel
14.318 Mhz ?
OK
No
Change VGA Cable
Check H , V
SYNC ?
OK
Change U5
- 30 -
No
Change X1
3. No audio
No Audio
No
Check Input source
Check Input Signal
Or Change CN9
CN9 OK ?
OK
No
Check CN6 to Speaker
Change Speaker or
CN6(Cable)
OK ?
OK
No
Check U12(Pin9)
Change U12 or U9
& U9 OK ?
OK
Check U9Pin1(Mute)
No
Change Q9 or U9
& Q10 & U9 OK ?
- 31 -
Chapter 5
Connector Information
Phonejack stereo
PIN1. AC power cord
: CEE22 typed connector
PIN2. Audio cable
PIN3. Audio
: Line-in receptacle
J1
1
2
3
PHONEJACK STEREO
1
6
2
7
3
8
4
9
5
10
Video signal connector 15P Mini D-Sub connector x 1
CN6
DB15HD
16
15
14
13
12
11
17
PIN
MNEMO
SIGNAL
1
RV
Red Video
2
GV
Green Video
3
BV
Blue Video
4
NC
None
5
GND
Ground(DDC return)
6
RG
Red GND
7
GG
Green GND
8
BG
Blue GND
9
+5V
+ 5V (for DDC)
10
SG
Sync GND
11
NC
None
12
SDA
DDC Data
13
HS
Horizontal Sync
14
VS
Vertical Sync
15
SCL
DDC Clock
- 32 -
Proprietary connecting of DVI box
The 44 pin of proprietary DVI box is defined as follows:
1
RX2-
23
SCART_FUNC
2
RX2+
24
KEY3
3
RX1-
25
SCART
RGB_CON
4
RX1+
26
SCL5V
5
RX0-
27
nYCOEN
6
RX0+
28
SDA5V
7
RXC-
29
NVDSW_SEL
8
RXC+
30
HSCL
9
GND
31
REST
10
GND
32
HSDA
11
Y0
33
DVI_ DETECT
12
Y1
34
CORD_ RESET
13
Y2
35
CORD_DETECT
14
Y3
36
ADO_L
15
Y4
37
DETECT
16
Y5
38
AGND
17
Y6
39
IR0
18
Y7
40
ADO_R
19
LLC VPC
41
V51R
20
KEY1
42
GND
21
GND
43
V12
22
KEY2
44
V12
- 33 -
Chapter 6
FRU (Field Replaceable Unit) list
This chapter gives you the FRU (Field Replaceable Unit) listing in global configurations of AL2032W. Refer to this
chapter whenever ordering for parts to repair or for RMA (Return Merchandise Authorization).
NOTE : Please note WHEN ORDERING FRU PARTS, that you should check the most up-to-date information available on
your regional web or channel(http://aicsl.acer.com.tw/spl/). For whatever reasons a part number change is made, it
will not be noted in the printed Service Guide. For ACER-AUTHORIZED CERVICE PROVIDERS, your Acer
office may have a DIFFERENT part number code to those given in the FRU list of this printed Service Guide. You
MUST use the local FRU list provided by your regional Acer office to order FRU parts repair and service of
customer machines.
NOTE: To scrap or to return the defective parts, you should follow the local government ordinance or regulations on how
best to dispose it, or follow the rules set by your regional Acer office on how to return it.
- 34 -
AL2032W Exploded Diagram
35
Chapter 6
Chapter 7
SCHEMATIC DIAGRAM
Main Board Circuit
+1.8V_CORE
V
5
2/
F
u
8 2
5 2
C
6/
F
u
7 1
4 .
1 0
C
V
5
2/
F
u
7 22
5
C
6/
F
u
11
4 .
10
C
6/
F
u
0 1
5 .
1 0
C
6/
F
u
41
5 0.
1
C
6/
F
u
51
3 .
10
C
6/
F
u
8 1.
3
1 0
C
6/
F
u
0 1
4 0.
1
C
6/
F
u
9 1.
3
10
C
6/
F
u
7 1
3 .
1 0
C
6/
F
6/
u
61
F
3 .
u
1 0 2 1.
2 0
C
1
C
6/
F
u
51
4 0.
1
C
6/
F
u
3 1
5 .
1 0
C
6/
F
u
61
4 .
10
C
+3.3V_LBADC
+2.5V_DDR
GND
V
5
2/
F
u
7 22
3
C
GND
V
5
2/
6 Fu
4
C 22
V
5
2/
F
u
5 22
4
C
6/
F
u
4 1
2 0.
1
C
6/
F
u
3 1
2 0.
1
C
6/
F
u
51
2 0.
1
C
6/
F
u
4 1.
6
1 0
C
V
5
2/
5 Fu
5
C 22
6/
F
u
7 1.
6
10
C
6/
F
u
0 1.
2
10
C
6/
F
u
1 1
2 0.
1
C
6/
F
u
1.
4 0
3
1
C
6/
F
u
3 1.
70
1
C
6/
F
u
2 1.
7 0
1
C
GND
+1.8V_DVI
6/
F
u
1 1.
6 0
1
C
6/
F
u
9 1.
2
10
C
6/
F
u
01
3 0.
1
C
6/
F
u
9 1
1 0.
1
C
6/
F
u
1.
70
1
1
C
6/
F
u
1.
5 0
1
1
C
6/
6/
F
6/
6/
F 8 1u.
F
F
u
6 1 2 0 7 1u 6 1u
1 . 1
2 0. 2 0.
1 0 C
1
1
C
C
C
+3.3V_I/O_MALIBU
6/
F
u
1.
10
5
1
C
6/
F
u
1.
8 0
5
1
C
6/
F
u
51
5 .
10
C
6/
F
u
2 1.
6 0
1
C
6/
F
u
0 1.
4 0
C
6/
F
u
8 1.
10
1
C
+1.8V_CORE
6/
F
u
2 1.
4 0
C
7 71 11 6 6 7 1 0 6 1 61 01 1 3
12
1
1111111
K UU L T T L K K T U U KK
6/
F
u
1.
3 0
6
1
C
6/
F
u
1.
00
6
1
C
R170 0/6/NC
R171 0/6/NC
RX0+
RX0RX1+
RX1RX2+
RX2RXC+
RXC-
+3.3V_DVI
6/
F
u
91
5 .
10
C
6/
F
u
6 1
5 .
1 0
C
6/
F
u
21
5 .
10
C
6/
F
u
7 1
5 .
1 0
C
V
5
2/
4F
5u
C 22
GND
6/
F
u
3 1.
40
1
C
6/
F
u
9 1
4 .
1 0
C
+3.3V_DVI
+3.3V_PLL
+3.3V_PLL
22pF/6
C67
C68
22pF/6
B1
B2
C1
C2
D1
D2
C3
A1
N2
N1
L4
L3
R4
3 BLUE3 BLUE+
3
3
3
3
3
R132 0/6
RXD
X1
249R/6 1%
R131 0/6
TXD
GND
R54
N4
N3
A8
B8
A9
B9
A10
B10
A6
B6
D5
C5
B11
3 VGA_SCL
3 VGA_SDA
GREENGREEN+
REDRED+
SOG
3 AHS
3 AVS
14.318MHz
R77
3K3/6
ACS_RSET_HD
C19
B19
A19
D18
C18
B18
A18
C17
GND
R78
10K/6
A23
C22
B22
A22
D21
C21
B21
A21
GND
B25
A25
D24
C24
B24
A24
C23
B23
R37
10K/6
GND
7 PWM0
7 PWM1
SCART_FUNC
SCART_RGB_CON
GND
CN3
PWM0
PWM1
T105
T106
GND
Y0
Y1
Y2
Y3
Y4
Y5
Y6
Y7
+5V
1
2
3
4
TXD
RXD
T101
T103
4606-04-04P-R/NS
T102
GND
T104
LLC_VPC
0
7 3 C4 C6 C8 C1 22 A4 4 B4 4 31
1 2
D D A A A A D AWA YC
3. 3. 3. 3. 3. 3. 3. 3. 3. 3. 3. 3
3_ 3_ 3_ 3_ 3_ 3_ 3_ 3_ 3_ 3_ 3_ 3D
OI OI OI OI OI OI OI OI OI OI OI C
A
B
L
+2.5V_DDR
+3.3V_LVDSB +3.3V_LVDSA +3.3V_LVDS FSVREF
333
3 3 32 3 3 3 3 32 3 2 2 2 23 3 3
22 2 2 2 2 2ABC 2 2
H J M P L T V R Y A A AWF E
5. 5. 5. 5. 5. 5. 5. 5. 5. 5. 5. 5. 5. 5. 5.
2_ 2_ 2_ 2_ 2_ 2_ 2_ 2_ 2_ 2_ 2_ 2_ 2_ 2_ 2_
SSSSSSSSSSSSSSS
FFFFFFFFFFFFFFF
2 23
1 11
CDD
AAA
3. 3. 3.
3_ 3_ 3_
BBB
SSS
DDD
VVV
L LL
021
222
DCC
AAA
7
1
E
A
3. 3. 3.
3_ 3_ 3_
AAA
SSS
DDD
VVV
L LL
S
D
V
L_
3
3
D
CN8
+1.8V_DVI
+3.3V_DVI
+1.8V_ADC+3.3V_ADC
4 52
2
JW
FF
EE
RR
VV
SS
FF
0
6 8 91
DDDD
8. 8. 8. 8.
1_ 1_ 1_ 1_
I I I I
VVVV
DDDD
D
D
V
10
11986
CCCCC
3. 3. 3. 3. 3.
3_ 3_ 3_ 3_ 3_
I I I I I
VVVVV
DDDDD
34
AA
8. 8.
1_ 1_
CC
DD
AA
23 3 3
ABDE
3. 3. 3. 3.
3_ 3_ 3_ 3_
CCCC
DDDD
AAAA
4 21 31 31
F FGHH J J
BLUEBLUE+
GREENGREEN+
REDRED+
SOG
NO_CONNECT
VGA_SCL
VGA_SDA
AHSYNC
AVSYNC
EXTCLK
/RESET
IR1
IR0
GND
MSTR_SCL
FSADDR0
FSADDR1
FSADDR2
FSADDR3
FSADDR4
FSADDR5
FSADDR6
FSADDR7
FSADDR8
FSADDR9
FSADDR10
FSADDR11
VRED0
VRED1
VRED2
VRED3
VRED4
VRED5
VRED6
VRED7
VGRN0
VGRN1
VGRN2
VGRN3
VGRN4
VGRN5
VGRN6
VGRN7
FSCLKp
FSCLKn
FSDQS
FSDQM0
FSDQM1
FSDQM2
FSDQM3
FSWE
FSCAS
FSRAS
FSCKE
FSBKSEL0
FSBKSEL1
VBLU0
VBLU1
VBLU2
VBLU3
VBLU4
VBLU5
VBLU6
VBLU7
A20
B20 VCLK
C20 VODD
D19 VVS
D20 VHS_CSYNC
B17 VDV
VCLAMP
C26
C25 PWM0
D26 PWM1
D25 PWM2
OCM_TIMER1
A12
B12 LBADC_IN3
C12 LBADC_IN2
D12 LBADC_IN1
LBADC_RETURN
C16
B16 SVDATA0
A16 SVDATA1
D15 SVDATA2
C15 SVDATA3
B15 SVDATA4
A15 SVDATA5
D14 SVDATA6
SVDATA7
A17
A14 SVDV
B14 SVODD
C14 SVVSYNC
D16 SVHSYNC
SVCLK
GPIO_G06_B0
GPIO_G06_B1
GPIO_G06_B2
GPIO_G06_B3
A3+
A3AC+
ACGPIO_G05_B0
GPIO_G05_B3
A2+
A2A1+
A1A0+
A0GPIO_G04_B0
GPIO_G04_B1
GPIO_G04_B2
GPIO_G04_B3
GPIO_G04_B4
GPIO_G04_B5
GPIO_G04_B6
GPIO_G04_B7
GPIO_G07_B0
GPIO_G07_B1
GPIO_G07_B2
GPIO_G07_B3
GPIO_G07_B4
GPIO_G07_B5
GPIO_G07_B6
GPIO_G07_B7
K1
M4 /RESET
M3 IR1
P4 IR0
MSTR_SCL
MSTR_SDA
MSTR_SCL
MSTR_SDA
P3
R3
R2
R1
L1
L2
P2
P1
T4
/OCM_WE
/OCM_RE
T107/OCM_CS
6 /OCM_WE
6 /OCM_RE
6 /ROM_CS
T108
T109
T110
T111
FSVREF
0.1uF/6
C39
0.1uF/6
0.1uF/6
0.1uF/6
+3.3V_ADC
GND
C168
22uF/25V 0.1uF/6
OCMADDR19 T3
OCMADDR18 T2
OCMADDR17 T1
OCMADDR16 U4
OCMADDR15 U3
OCMADDR14 U2
OCMADDR13 U1
OCMADDR12 V4
OCMADDR11 V3
OCMADDR10 V2
OCMADDR9 V1
OCMADDR8 W3
OCMADDR7 W2
OCMADDR6 W1
Y3
OCMADDR5
Y2
OCMADDR4
Y1
OCMADDR3
OCMADDR2 AA3
OCMADDR1 AA2
OCMADDR0 AA1
C62
C63
GND
C70
C175
C171
C169
0.1uF/6
0.1uF/6
0.1uF/6
+3.3V_PLL
GND
C77
6/
F
22uF/25V u1
7
7 0.
25V
1
C
6/
F
u
4 1.
7
1 0
C
6/
F
u
61
7 .
10
C
GND
6/
F
u
8 1
7 .
1 0
C
6/
F
u
5 1.
6
10
C
6/
F
u
0 1
7 .
1 0
C
6/
F
u
61
6 .
10
C
+3.3V_LVDSA
C44
C131
22uF/25V 0.1uF/6
25V
C133
0.1uF/6
C144
22uF/25V 0.1uF/6
25V
KEY1
KEY2
KEY3
RIGHT
LEFT
+3.3V_LVDS
C132
6 OCMDATA[0..7]
C142
C148
0.1uF/6
0.1uF/6
T113
OCMDATA7
OCMDATA6
OCMDATA5
OCMDATA4
OCMDATA3
OCMDATA2
OCMDATA1
OCMDATA0
0.1uF/6
0.1uF/6
T112
T114
C47
+3.3V_LVDSB
GND
C52
LVDS_SHIELD[0]
LVDS_SHIELD[1]
LVDS_SHIELD[2]
LVDS_SHIELD[3]
B3+
B3BC+
BC-
/OCM_WE
/OCM_RE
/ROM_CS
/OCM_INT2
/OCM_INT1
/OCM_CS2
/OCM_CS1
/OCM_CS0
LVDS_SHIELD[4]
LVDS_SHIELD[5]
B2+
B2B1+
B1B0+
B0-
6 OCMADDR[0..19]
+1.8V_ADC
C38
GND
AB3
AB2
AB1
AC3
AC2
AC1
AD1
AE1
AF1
AD2
AE2
AF2
AD3
AE3
AF3
AD4
OCMADDR19
OCMADDR18
OCMADDR17
OCMADDR16
OCMADDR15
OCMADDR14
OCMADDR13
OCMADDR12
OCMADDR11
OCMADDR10
OCMADDR9
OCMADDR8
OCMADDR7
OCMADDR6
OCMADDR5
OCMADDR4
OCMADDR3
OCMADDR2
OCMADDR1
OCMADDR0
+5V
DCLK
GPIO_14/DHS
GPIO_15/DVS
GPIO_16/DEN
GPIO_G08_B5/JTAG_RESET
GPIO_G08_B4/JTAG_TDO
GPIO_G08_B3
GPIO_G08_B2/JTAG_TDI
GPIO_G08_B1/JTAG_MODE
GPIO_G08_B0/JTAG_CLK
GPIO_G09_B5
GPIO_G09_B4
GPIO_G09_B3
GPIO_G09_B2
GPIO_G09_B1
GPIO_G09_B0
PPWR
PBIAS
NO_CONNECT
OEXTR
D_GND
R151
SSS
DDD S
D
D D D VL VL VL D
SS DDDDDDD
N
N N N _ _ _ VL S S N
NNNNNN
G
G_ G_ G_ A A A _ VF FV G
GGGGGG D DD DD DD _
33 3 3
BBB 3 3 3 3 EE DAADAAA NNNNNNN C
S S S A A A D R R _ _ _ _ _ _ _ G_ G_ G_ G_ G_ G_ G_ D
D D D S S S S V V C C C C C C C VI VI VI VI VI VI VI A
VVV SSS S SS DDDDDDD
B
L L L VVV V F F AAAAAAA DDDDDDD L
34 5 90 9 7
11 1 12 1 1 64
3
11
CCC CCD D 2 2 4 4 2 5 1 4 4 7 7 7 7 1 1 5 1
A A A A A A A KW B D E A E C E A B C D A D B D
GND
10K/6
6/
K
3
43
5
1
R
10K/6
LED_G
LED_R
R152
4K7/6
R153 4K7/6 2
2
3
1
3
Q12
MMBT3904L
Q13 1
MMBT3904L
MENU
SEL
PWR
DOWN
UP
RIGHT
LEFT
6/
F
u
81
9 0.
C
6/
6/
K
K
3
5 3 6 33
5
5
1
1
R
R
6/
F
u
3 1.
9
1 0
C
6/
6/
K
K
3
3
7 3 83
5
5
1
1
R
R
6/
6/
F
F
u
4 1. 5 1u.
9
1 0 19 0
C
C
Junction from A
change to B
6/
F
u
6 1.
9
10
C
U24
U23
L26
T25
U25
U26
T24
V26
V25
V24
W26
Y25
Y26
FSDATAU0
FSDATAU1
FSDATAU2
FSDATAU3
FSDATAU4
FSDATAU5
FSDATAU6
FSDATAU7
FSDATAU10
FSDATAU11
FSDATAU9
FSDATAU8
FSDATAU14
FSDATAU15
FSDATAU12
FSDATAU13
FSDATAU16
FSDATAU17
FSDATAU18
FSDATAU19
FSDATAU20
FSDATAU21
FSDATAU22
FSDATAU23
FSDATAU28
FSDATAU26
FSDATAU25
FSDATAU24
FSDATAU29
FSDATAU30
FSDATAU31
FSDATAU27
RN11 1
33 2
3
4
RN12 1
33 2
3
RN74 1
33 2
3
4
8
7
6
5
8
7
6
58
7
6
5
RN6 1
33 2
3
RN134 1
33 2
3
4
RN9 1
33 2
3
4
8
7
6
58
7
6
5
8
7
6
5
RN5 1
33 2
3
RN44 1
33 2
3
4
8
7
6
58
7
6
5
FSADDRU6
FSADDRU5
FSADDRU4
FSADDRU9
FSBKSELU1
FSBKSELU0
FSADDRU8
FSADDRU7
FSADDRU0
FSADDRU1
FSADDRU2
FSADDRU3
FSADDRU4
FSADDRU5
FSADDRU6
FSADDRU7
FSADDRU8
FSADDRU9
FSADDRU10
FSADDRU11
RN3 1
2
33
3
4
RN2 1
33 2
3
4
FSADDRU0
FSADDRU1 RN8
FSADDRU11
FSADDRU10 33
FSADDRU3
FSADDRU2
FSCLK+
FSCLK-
FSCLKU+
FSCLKU-
R34
FSDQSU
FSDQMU0
FSDQMU1
FSDQMU2
FSDQMU3
/FSWEU
/FSCASU
/FSRASU
FSCKEU
FSBKSELU0
FSBKSELU1
8
7
6
5
8
7
6
5
R36
R35
1
2
3
4
FSDATA[0..31] 5
FSDATA0
FSDATA1
FSDATA2
FSDATA3
FSDATA4
FSDATA5
FSDATA6
FSDATA7
FSDATA10
FSDATA11
FSDATA9
FSDATA8
FSDATA14
FSDATA15
FSDATA12
FSDATA13
FSDATA16
FSDATA17
FSDATA18
FSDATA19
FSDATA20
FSDATA21
FSDATA22
FSDATA23
FSDATA28
FSDATA26
FSDATA25
FSDATA24
FSDATA29
FSDATA30
FSDATA31
FSDATA27
V5IR
V12
AGND
FSADDR[0..11] 5
FSCLK+ 5
FSCLK- 5
FSDQS 5
/FSWE
/FSRAS
/FSCAS
FSCKE
FSDQM0
FSDQM3
FSDQM1
FSDQM2
8
7
6
5
8
7
6
5
Place Series term ination resistors on all address and
control lines (RN601,RN603,RN605) very close to U600
/FSWE
5 5
/FSRAS
/FSCAS 5
FSCKE 5
Unloaded trace im pedance on this interface is 90 Ohm
Loaded trace im pedace w ith DRAM load is 65 Ohm (for 2.5 inch total trace
length)
Max trace length on this interfce is 2.5 inches
Minim ize trace length difference betw een DQS and data and
am ong the data lines
TXA3+
TXA3TXAC+
TXAC-
AD21
AD22
AE21
AF21
AE22
AF22
AE23
AF23
R603, R604 very close to U600
FSCLK+, FSCLK- should be routed like a differentail pair
+3.3V_DIG
TXA2+
TXA2TXA1+
TXA1TXA0+
TXA0-
AD23
AD24
AE24
AF24
AF25
AF26
AE25
AE26
R173
MENU
SEL
PWR
DOWN
UP
LED_G
LED_R
ADO_C
+3.3V_DIG
ADO_C 8
AE8
nYCOEN
AF8 nVDSW_SEL
AC9
nRESET
AD9
AE9
AF9
CARD_RESET
AD10
AE10 TUNER12V_KEY
R128
R33
10K/6
10K/6
R172
10K/6
DVI DETECT
CARD DETECT
TVBOX_DETECT
TUNER12V_KEY 7
AF10
AC11
AD11
AE11
AF11
AF12
AE12
AF13
TXB3+
TXB3TXBC+
TXBC-
AE13
AD14
AF14
AE14
AF15
AE15
AF16
AE16
TXB2+
TXB2TXB1+
TXB1TXB0+
TXB0-
CN2
T115
T116
AC7
AF17
AD16
AD7
+3.3V_DIG
10K/6
R48
+3.3V_DIG
0/6
R59
R52
JTAG_TRST
10K/6
MUTE
TXB1TXB2TXBCTXB3-
R15
10K/6/NC
+5V
R129
+3.3V_DIG
VGA_CAB 3
OEXTR
R42
R175
0/6
0/6/NC
R81
2K7/6
2K7/6
MSTR_SCL
MSTR_SDA
GND
R84
U7
8
7 VCC
6 WP
5 SCK
SI
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
TXA0+
TXA1+
TXA2+
+3.3V_LVDS
TXAC+
TXA3+
TXB0+
TXB1+
TXB2+
TXBC+
TXB3+
C
N/
64/
K1
R01
LCDVCC
LCDVCC
3
1
R
1841 30P
PANEL_VCC
GND
3K3/6
0/6/NC
GND
GND
0/6/NC
R174
PPWR 7
PBIAS 7
R82
AC17
AC16
AD15
R130
LCDVCC
R16
VGA_CAB
PPWR
PBIAS
0/6/NC
10K/6
T117
A26
B26
TXACTXA3TXB0-
+3.3V_LVDS
+3.3V_DIG
R63
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
TXA0TXA1TXA2-
MUTE 8
2K7/6
TT_I2CSDA
TT_I2CSCL
SSS
L LSD
L L LD DD
P L PDDDD
R_ P_ F_ S_ S_ D_ D_
33 33 33 3
33 33 33 3
ADAADAD
SSSSSSS
SSSSSSS
VVVVVVV
324 24 24
FGHH J J K
GND
Place Series term ination resistors on bidirectional lines-DATA and DQS
(RN600,RN602,RN604,RN606,R605) m idw ay betw een U600 anf U700
AC18
AD18
AE18
AF18
AE19
AF19
AE20
AF20
AD8
AF7
AE7
AF6
AE6
AD6
AF5
AE5
AD5
AC5
AF4
AE4
ADO_R 8
1841 44P
GND
FSDQM[0..3] 5
/FSWEU
/FSRASU
/FSCASU
FSCKEU
FSDQMU0
FSDQMU3
FSDQMU1
FSDQMU2
KEY1
KEY2
KEY3
MSTR_SCL
MSTR_SDA
TT_I2CSCL
TT_I2CSDA
CARD_RESET
ADO_L 8
FSADDR0
FSADDR1
FSADDR11
FSADDR10
FSADDR3
FSADDR2
33R/6
RN10 1
33 2
3
4
RN1 1
2
33
3
4
RX2+
RX1+
RX0+
RXC+
Y1
Y3
Y5
Y7
FSBKSEL0 5
FSADDR6
FSADDR5
FSADDR4
FSADDR9
FSBKSEL1
FSBKSEL0
FSADDR8
FSADDR7
33R/6
33R/6
8
7
6
5
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
FSBKSEL1 5
+3.3V_DIG
GND
less R94 to CN6 pin 11
R101,R103 net swap
6/ 6/
K K
3 3
9 30 3
5 6
1 1
R R
AD25
AD26
AC24
AC25
AB26
AA24
AA25
AA26
Y24
AB25
AC26
AB24
FSDATA[0..31]
FSDATAU0
FSDATAU1
FSDATAU2
FSDATAU3
FSDATAU4
FSDATAU5
FSDATAU6
FSDATAU7
FSDATAU8
FSDATAU9
FSDATAU10
FSDATAU11
FSDATAU12
FSDATAU13
FSDATAU14
FSDATAU15
FSDATAU16
FSDATAU17
FSDATAU18
FSDATAU19
FSDATAU20
FSDATAU21
FSDATAU22
FSDATAU23
FSDATAU24
FSDATAU25
FSDATAU26
FSDATAU27
FSDATAU28
FSDATAU29
FSDATAU30
FSDATAU31
GND
+3.3V_ADC
R150
E24
E25
E26
G26
G24
H26
H24
J25
T26
R25
P24
P26
N24
N26
M25
L24
L25
M26
M24
N25
N23
P25
R26
R24
K24
J26
H25
G23
G25
F24
F25
F26
GND
DDDDDDDDDDDDDDDDDDDD
NNNNNNNNNNNNNNNNNNNN
G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_
DDDDDDDDDDDDDDDDDDDD
45556662 33 34 410777 0
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 17
T K N T MN RR K P UMR PMMP R P L
1
3
5
7
9
11
13
15
17
19
21
SCART_FUNC
23
SCART_RGB_CON
25
nYCOEN
27
nVDSW_SEL
29
nRESET
31
DVI DETECT
33
CARD DETECT
35
TVBOX_DETECT 37 37
39
IR1
41 39
43 41
43
Y0
Y2
Y4
Y6
LLC_VPC
+3.3V_DIG
OCMDATA15
OCMDATA14
OCMDATA13
OCMDATA12
OCMDATA11
OCMDATA10
OCMDATA9
OCMDATA8
OCMDATA7
OCMDATA6
OCMDATA5
OCMDATA4
OCMDATA3
OCMDATA2
OCMDATA1
OCMDATA0
L
L
D_
D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D 18
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNA
G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ G_ S
S
DDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDV
3 4 55 55 511167 00 22 32 22 22 33303044443 5
1 1 11 11 111111 11 11 11 11 11 11111111111 2
N
N
P
R
P
N
L
U
K
T
K
T
L
R
N
R
L
L
M
MNP TU L
MP RUMN
BK
A
GND
FSDATA0
FSDATA1
FSDATA2
FSDATA3
FSDATA4
FSDATA5
FSDATA6
FSDATA7
FSDATA8
FSDATA9
FSDATA10
FSDATA11
FSDATA12
FSDATA13
FSDATA14
FSDATA15
FSDATA16
FSDATA17
FSDATA18
FSDATA19
FSDATA20
FSDATA21
FSDATA22
FSDATA23
FSDATA24
FSDATA25
FSDATA26
FSDATA27
FSDATA28
FSDATA29
FSDATA30
FSDATA31
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
RX2RX1RX0RXC-
GM1601
416PBGA
LL LSSSS
LL L
D
PPPDDD
DD
R_ 3_ F_ DS SD D
D
33 3_ __ _
3A33 33 3
A D A A3 A3 A3 A3
DDD
DD
DVDDDD
D
V V DV D
VVV
M1
M2 OCM_UDO
OCM_UDI
MSTR_SDA
+3.3V_PLL
U5
G4
G3 XTAL
F1 TCLK
K3 NO_CONNECT
K2 NO_CONNECT
ACS_RSET_HD
XTAL
TCLK
Route (VIN1/ADC_IN1, ADC1_RETURN) and
(VIN2/ADC_IN2, ADC2_RETURN) as differential
tracks close to each other and ground the
return track of each pair very close to the
Malibu D12 ball and ground pin
Optional Filter Caps in between a pair on LBADC differential tracks close
to the Malibu chip
8. 8. 8. 8. 8. 8. 8. 8. 8. 8. 8. 8. 8. L
1_ 1_ 1_ 1_ 1_ 1_ 1_ 1_ 1_ 1_ 1_ 1_ 1_ DL
EEEEEEEEEEEEE_
R R R R R R R R R R R R R 81
OOOOOOOOOOOOOA
CCCCCCCCCCCCCD
DVI_SCL
D
V
DVI_SDA
RX0+
RX0RX1+
RX1RX2+
RX2RXC+
RXCNO_CONNECT
NO_CONNECT
REXT
+3.3V_I/O_MALIBU
C
N/
6/
0
GND
PANEL_VCC
0/6
1
A0 2
A1 3
A2 4
VSS
24LC32-SN
SOIC8
R85
GND
I2C address: A2H and A3H
0/6/NC
V
5
2/
F
u
2 2
1 2
C
6/
F
u
11
1 0.
C
GND
GND
+5V
3
C80
C76
C78
0.1uF/6
0.1uF/6
GND
0.1uF/6
C
C
1
V OUT
D
N
G
2
/RESET
/RESET
U8
MAX809_0
GND
CN5
R161
R162
R163
R164
R165
R166
R167
R168
R169
6/ 6
F F/
u
7 1. 8 1u.
9
1 09 0
C C1
1K/6
1K/6
1K/6
1K/6
1K/6
1K/6
1K/6
220R/6
220R/6
10
9
8
7
6
5
4
3
2
1
4501-10-10P-R
TO BUTTON BOARD
GND
PROJECT : M0TW
2.0mm pitch
90° E&T
4607-11Pin
Quanta Computer Inc.
Title
04. gm1601
- 36 -
Size
Document Number
Date:
04. gm1601
Tuesday , September 14, 2004
Rev
A
M0TW
Sheet
4
of
8
+12V
12V_A
L20
C204 0.1uF/6
CX000800000/1206
SPKRO+
SPKRO-
C205 0.1uF/6
CN9
12V_A
1
5
4
3
2
ZD005D100
lef t_inR109
R110
6/
3 F
1 p
1 0
C 2
2
AGND
0/6
6/
4 F
1 p
1 0
C 2
2
AGND AGND
+12V
C
N/
6/
K
1.
5
4
1
1
R
AGND
6/
F
p
0
2 2
0 2
1
C
6/
F
p
0
1 2
0 2
1
C
4K7/6 2
3
AGND
0M
1
QM
6/
K
0
1
6
7
R
1
AGND
AGND
LIN
C75
1u/8
2
C79
1u/8
3
C83
1u/8
4
C85
1u/8
5
C95
1u/8
6
7
10
11
6/
F
u
1.
0
9
9
1
C
AGND
L36
CX000800000/1206
LIN_L C202 1u/8
6/
F
u
1.
0
0
0
2
C
AGND
U12
1
2
3
4
ADO_L
LIN
4 ADO_L
12
6/
F
u
1.
0
+5V
5
6
7
8
2Y 1
2Y 0
3Y 1
3Z
VCC
2Z
1Z
1Y 1
3Y 0
E
VEE
GND
1Y 0
S1
S2
S3
16
15
14
13
7
9
C
RIN
ADO_R
C201 1u/8
12
11
10
9
5
4
R
C
C
V
P
+
T
U
O
R
4
4
+
T
U
O
R
6/
F
p
0
0
0
4
1
6
C
3
4
6
0
2
1/
0
0
0
0
0
8
0
7 0
0
1 X
L
C74
C
6/
F
p
0
0
0
5
1
6
C
0
4
1
4
2
4
R
D
N
G
P
T
U
O
R
R
D
N
G
P
T
U
O
R
12V_A
6/
F
u
3 1.
7 0
C
9
3
8
3
R
C
C
V
P
7
3
R
C R
S
C B
V
P VCLAMPR
RIN+
MODEB
RIN-
MODE
V2P5
AVCC
LIN-
VAROUTR
LIN+
VAROUTL
NC
VREF
AVDD
VARDIFF
COSC
VARMAX
ROSC
VOL
AGND
VCLAMPL
+
L
S
B
AGND
3
1
L
C
C
V
P
5
1
4
1
+
T
U
O
L
6
1
+
T
U
O
L
7
1
C103 0.01uF/6
6
0
2
1/
0
0
0
0
0
8
0
0
4
0
2
X
L
C
6/
F
u
1.
0
4
0
1
C
12V_A
V
5
2/
9 F
0 u
1 2
C 2
ADO_R 4
L
C
C
V
P
ADO_C 4
74HCT4053
L
D
N
G
P
L
D
N
G
P
8
1
9
1
T
U
O
L
0
2
T
U
O
L
1
2
V
5
2/
6 F
u
6 2
C 2
0.01uF/6
AGND
RIN_R
ADO_C
R
C
C
V
P
6
0
2
1/
0
0
0
0
0
6 8
1 0
L 0
0
X
C
AVDDREF
9
VOLUME
6
4
7
4
+
R
S
B
SDZ
8
7 VOLUME
C71
0.01uF/6
1
RIN
2
7
C
U9 8
4
AGND AGND
L
4
0
9
3
T
B
6/
F
u
1.
0
V
5
2/
1 F
u
8 2
C 2
RIN_R
AGND
10K/6
R75
MUTE
LIN_L
L23
CX000800000/1206
C
N/
6/
K
1.
5
3
1
1
R
R79
4 MUTE
L22
CX000800000/1206
0/6
L
C
C
V
P
2
2
L
C
C
V
P
3
2
36 C82
1u/8
35
34
12V_A
33
32
6/
F
u
4 1
8 0.
C
31
30
29 C87
0.1uF/6
28 C96
220pF/6
27 R87
L21
CX000800000/1206
120K/6
GND
26
25
V
5
2/
6 F
8 u
C 2
2
AGND
C99
AGND
1u/8
L
S
B
4
2
TPA3003D2
C106 0.01uF/6
5
2
L
6/
F
p
0
0
0
1
1
1
C
6
0
2
1/
0
0
0
0
0
8
0
0
0
6/ X
C
F
p
0
0
0
2
1
1
C
6/
F
u
1.
0
5
0
1
C
12V_A
CN6
SPKRO+
SPKROSPKLO+
SPKLO-
V
5
2/
0 F
1 u
1 2
C 2
1
2
3
4
4501-04-04P-R
PROJECT : M0TW
SPKLOSPKLO+
Quanta Computer Inc.
Title
AGND
08. Audio
Size
Document Number
Date:
08. Audio
Tuesday , September 14, 2004
Rev
A
M0TW
Sheet
8
of
8
+2.5V_DDR
V
5
0 2
2 /
C F
u
2
2
V
5
4 2
2 /
C F
u
2
2
6
/
9 F
2 u
.
C 1
0
6
/
0 F
3 u
.
C 1
0
6
/
5 F
C u
1
.
0
6
/
1 F
3 u
.
C 1
0
6
/
4 F
C u
1
.
0
6
/
3 F
C u
1
.
0
6
/
2 F
C u
1
.
0
6
/
3 F
1 u
.
C 1
0
6
/
F
u
7 1
.
2 0
C
6
/
F
u
8 1
.
2 0
C
6
/
7 F
1 u
.
C 1
0
6
/
9 F
1 u
.
C 1
0
6
/
F
u
8 1
.
1 0
C
6
/
6 F
C u
1
.
0
GND
4 FSDATA[0..31]
FSVREF
+2.5V_DDR
U1
4 2 9 7 3
6 5
2 8 1 2 5 6 7 9
7 8 9
4 FSADDR[0..11]
FSADDR0
FSADDR1
FSADDR2
FSADDR3
FSADDR4
FSADDR5
FSADDR6
FSADDR7
FSADDR8
FSADDR9
FSADDR10
FSADDR11
4 FSBKSEL0
4 FSBKSEL1
4 FSCLK4 FSCLK+
4 FSCKE
4 /FSRAS
4 /FSCAS
4 /FSWE
4 FSDQS
4 FSDQM[0..3]
GND
31
32
33
34
47
48
49
50
51
45
36
37
FSBKSEL0
FSBKSEL1
29
30
FSCLKFSCLK+
FSCKE
54
55
53
28
27
26
25
94
/FSRAS
/FSCAS
/FSWE
DQS
FSDQM0
FSDQM1
FSDQM2
FSDQM3
23
56
24
57
38
39
40
41
42
43
44
87
88
89
90
91
93
A0
A1
A2
A3
A4
A5
A6
A7
A8/AP
A9
A10
A11
QQ Q QQ QQ Q QQ
D D D D D D D D D D
D D D D D D D D D D
V V V V V V V V V V
8
5 5 5
1 3 6 6
9 5
D D D D F
D D D D E
V V V V R
V
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
BA0
BA1
CLK
CLK
CKE
CS
RAS
CAS
WE
DQS
DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
DM0
DM1
DM2
DM3
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
DNC
QQ Q QQ QQ Q Q
NC
S S S S S S S S S
S S S S S S S S S
V V V V V V V V V
MT46V2M32LG-4
1 9 2 0 6 2 2 9
5 1 1 6 7 7 8 9 9
TQFP-100
97
98
100
1
3
4
6
7
FSDATA0
FSDATA1
FSDATA2
FSDATA3
FSDATA4
FSDATA5
FSDATA6
FSDATA7
60
61
63
64
68
69
71
72
FSDATA8
FSDATA9
FSDATA10
FSDATA11
FSDATA12
FSDATA13
FSDATA14
FSDATA15
9
10
12
13
17
18
20
21
FSDATA16
FSDATA17
FSDATA18
FSDATA19
FSDATA20
FSDATA21
FSDATA22
FSDATA23
+2.5V_DDR
FSVREF
R3
10K/6 1%
FSVREF
C1
R1
10K/6 1%
0.1uF/6
GND
GND
FSCLK+
R4
140R/6 1%
FSCLKDQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31
S S S S
S S S S
V V V V
6 6 6 5
1 4 6 8
74
75
77
78
80
81
83
84
FSDATA24
FSDATA25
FSDATA26
FSDATA27
FSDATA28
FSDATA29
FSDATA30
FSDATA31
Place R704 termination close to
corresponding U600 Pins
PROJECT : M0TW
L
C
M
2
5
Quanta Computer Inc.
Place series termination resistors very
close to U600
GND
- 37 -
Title
05. Frame Store
Size
Document Number
Date:
05. Frame Store
Thursday , September 02, 2004
Rev
A
MOTW
Sheet
5
of
8
+1.8V_CORE
+1.8V_DVI
+3.3V_ADC
L12
CX000800000/1206
L14
CX000800000/1206
+3.3V_PLL
+3.3V_LVDSA
+3.3V_LVDS
L18
CX000800000/1206
L6
CX000800000/1206
L9
CX000800000/1206
L11
+3.3V_LBADC
+3.3V_DVI
+3.3V_DIG
CX000800000/1206
+3.3V_LVDSB
L19
CX000800000/1206
L7
CX000800000/1206
L10
CX000800000/1206
L26
CX000800000/1206
H6
H5
2
3
4
5
2
3
4
5
9
8
7
6
1
1
GND
GND
+3.3V_I/O_MALIBU
H1
9
8
7
6
2
3
4
5
MTH276D126
MTH276D126
GND
9
8
7
6
1
MTH276D126
GND
GND
GND
H2
2
3
4
5
H4
1
9
8
7
6
2
3
4
5
MTH276D126
VGA_SCL
100R/6
VGASCL
1
R102
DAN202U
100R/6VGASDA
2
5
10
4
9
3
8
2
7
1
6
12
11
3
DB15 HD
C88
R86
A0
A1
A2
GND
VCC
WP
SCL
SDA
8
7
6
5
GND
GND
GND
A-HS
1
1
GND GND
%
1
6/
R
5
7
0
0
1
R
4
0
1
R
3
0
1
R
20R/6 1%
R97
MTH276D126
9
8
7
6
MTH276D126
AGND GND
GND
0.01uF/6
0.01uF/6
C91
C92
C69
C94
C93
0.47uF/6
0.01uF/6
0.01uF/6
0.01uF/6
0.01uF/6
%
1
6/
R
6
5
%
1
6/
R
6
5
9
8
R
3
8
R
2
9
R
0/6/NC
BLUE+ 4
BLUE- 4
SOG 4
GREEN+ 4
GREEN- 4
RED+ 4
RED- 4
RGB SIGNAL GNDs at 2-mm from respective
RGB series Capacitors
GNDGND GND
R95
22R/6
C89
C90
%
1
6/
R
6
5
0/6
R94
AHS 4
AVS 4
0/6
U11
D6
5.6V/NC
5.6V/NC
ANALOG DDC
%
1
6/
R
5
7
Near VGA pins
A-VS
D7
%
1
6/
R
5
7
GNDGNDGND
10K/6
3
3
20R/6 1%
20R6 1%
R93
A-RED
GND
24C02
20R/6 1%
R90
R91
A-GREEN
A-VS
R98
10K/6
U10
1
2
3
4
R88
A-BLUE
6
1
0.1uF/6
R106
GND
7
1
13
D8
1
VGA_CAB 4
VGA_5V
15
14
+5V
VGA_5V
1
2
3
4
5
VGA_SCL 4
VGA_SDA 4
CN7
R101
H3
9
8
7
6
GND AGND
GND
VGA_SDA
+1.8V_ADC
A-HS
R96
1
2
3
4
22R/6
3
3
S
N/
5 6/
0 R
1 0
R 1
5
1
C
N/
V
6
4 5.
D
1
C
N/
V
6
5 .
D 5
6/
F
p
7
4
0
0
1
C
6/
F
p
7
4
8
0
1
C
5
6
8
9
1A
1Y
2A
2Y
6A
6B
5A
5B
3A
3Y
4Y
4A
VCC
GND
13
12
11
10
+3.3V
14
7
SN74LVC14A/NC
GND
6/
F
u
7 1.
0 0
1
C
GNDGND
PROJECT : M0TW
Quanta Computer Inc.
Title
03. Graphic Inputs
- 38 -
Size
Document Number
Date:
03. Graphic Inputs
Friday , September 10, 2004
Rev
A
M0TW
Sheet
3
of
8
+3.3V_DIG
R40
R43
R67
OCMADDR18
OCMADDR17
OCMADDR16
OCMADDR15
OCMADDR14
OCMADDR13
OCMADDR12
OCMADDR11
OCMADDR10
OCMADDR9
OCMADDR8
OCMADDR7
OCMADDR6
OCMADDR5
OCMADDR4
OCMADDR3
OCMADDR2
OCMADDR1
OCMADDR0
6/
F
u
9 1.
5 0
C
V
5
2/
0 F
6 u
C 2
2
/OCM_WE
/OCM_RE
/OCM_CS
4 /OCM_WE
4 /OCM_RE
4 /ROM_CS
Socke t for a X8 Flash (64/128/256/512K) and
PROM JETm em ory Em ulator
+3.3V_DIG
10K/6/NC
10K/6
10K/6
GND
1
30
2
3
29
28
4
25
23
26
27
5
6
7
8
9
10
11
12
OCMADDR[0..19]
4 OCMADDR[0..19]
A18
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
21
20
19
18
17
15
14
13
DQ7
DQ6
DQ5
DQ4
DQ3
DQ2
DQ1
DQ0
OCMDATA7
OCMDATA6
OCMDATA5
OCMDATA4
OCMDATA3
OCMDATA2
OCMDATA1
OCMDATA0
/ROM_CS
/OCM_RE
/OCM_WE
22
24
31
CE#
OE#
WE#
+3.3V_DIG
32
VCC
16
VSS
GND
A28F001
29LV040B
OCMDATA[0..7]
4 OCMDATA[0..7]
XU1
+3.3V_DIG
R68
R69
R70
R62
R55
R47
R50
10K/6
10K/6
10K/6/NC
10K/6/NC
10K/6/NC
10K/6
10K/6/NC
OCMADDR8
OCMADDR9
OCMADDR13
OCMADDR14
OCMADDR15
OCMADDR16
OCMADDR18
OCMADDR17
OCMADDR19
OCMADDR10
OCMADDR11
OCMADDR12
R56
R51
R61
R64
R73
Firmware_By pass
DDC2BI
Serial_Interf ace_Debug1
Serial_Interf ace_Debug2
Serial_Interf ace_Debug3
INT_OSC
8-BIT_FLASH2
R65
10K/6
R80
10K/6
R41
10K/6
R46
10K/6
R71
10K/6
10: LOW (Use TCLK)
11: LOW (s et all dis play output to '0')
12: LOW
13: LOW(disable s erial inte rface de bug)
14: LOW
15: LOW
16: HIGH (use crystal)
17: LOW (8bit bus w ith OCM acces s e xte rnal ROM )
18: HIGH
19: LOW
10K/6
10K/6/NC
10K/6
10K/6
10K/6
8-BIT_FLASH1
8-BIT_FLASH3
TCLK
OUTPUTS_ZERO
OUTPUTS_ZERO
GND
GND
PROJECT : M0TW
Quanta Computer Inc.
Title
06. Memory I/F
D1
6
0
2
1/
0
+18V
18V
7
6
6/
F
p
7 0
0 2
2 1
C
6/
F
u
8 1.
C 0
6/
F
p
8 0
0 2
2 1
C
+
+
5
1
C
V
5
2/
u
0
0
1
4
1
C
V
5
2/
u
0
0
1
Date:
06. Memory I/F
Thursday , September 02, 2004
5
6/
F
u
1 1
2 0.
C
BOOST
DC
IS
DE
VCC
CF
FB
GND
1
R18
R22
GND
1SS355
6/
F
p
2 0
3 2
C 1
GND
GND
R24
%
1
6/
K
3 0
2 4
R 2
3K/6 1%
C33
D2
4
AIC1563
6
2
C
GND
O
S
/
A
0
1
4
9
6 S
QD
N
47R/6
330K/6
2200pF/6
2
0
2
R
R25
Q7
1
4 3 2 1
+12V
CX000800000/1206
3
L3
1
1
2
R147
3
2
4K7/6
C192
0.1uF/6
V
6
1/
1 u
9 0
1 3
C 3
1
GND
GND
GND
GND
6/
F
u
1.
5 0
3
C
6/
4 F
3 p
C 0
0
0
1
RB081L-20
2
C190
0.1uF/6
SI9435
Q20
MMBT3904L
V12
CX000800000/1206
0/6/NC
+5V
L4
CX000800000/1206
47UH
D3
GND
20268-04
1
2
3
4
5
8
L31
8
7
6
5
1
2
3
4
R149
4K7/6
4 TUNER12V_KEY
6/
K
1
Q21
C189
1u/8
R148
18V
CN4
of
6
L30
C22
0.1uF/6
2N3906
1K/6 1%
6
7
8
9
Sheet
1SS355
2
3
8/
u
1
GND
6
7
8
9
Rev
A
M0TW
5 6 7 8
1
2
R
CX000800000/1206
Document Number
U2
8
L2
Size
V
6
1/
V
6
6 u
1/
3 0
u
C 3
3 3
0 0
2 3
3
GND C
GND
GND
GND
L37 CX000800000/1206
GND
D20
+5V
18V
L35
CX000800000/1206
4500-07
7
6
5
4
3
2
1
CN1
6
0
2
1/
0
V5IR
+18V
8
0
4
1
R
ADJ
ON/OFF
+
GND
6/
F
p
9 0
0 2
2 1
C
0
8
1
C
6/
F
p
0 0
1 2
2 1
C
7
6
V
5
2/
u
0 6
0 /
1 F
u
1 1.
8
1 0
C
5
U6
L15
CX000800000/1206
3
1
+
V
5
2/
1 u
6 0
C 0
1
+3.3V_ADC
R11
ADJ/GND
330R/6 1%
+
6
5
C
R74
148R/6 1%
DE
VCC
CF
FB
GND
8/
u
1
5 6 7 8
1
R143
2
3
R144
4
R142
D21
1SS355
4 0
8 2
1 1
C
%
1
6/
5 K
0
4 4
1 2
R
GND
R9
6
4
1
R
2200pF/6
R141
+12V
6/
K
1
L34 2
953R/6 1%
V
5
2/
u
0
0
1
C188
0.1uF/6
MMST3906
1
1
L32
CX000800000/1206
47UH
V
6
1/
6/
7 u
F
8 0
u
6/
1 3
1
C 3
5 F
6 0.
8 p
8
1 0
1
C 0
C
0
1
GND GND
GND
D22
RB081L-20
GND
2
GND
0/6
R12
4K7/6/NC
2
100K/6
VOLUME 8
6/
F
u
1.
Q3
0
MMBT3904L/NC
3
+5V
R127
GND
GND
L33 CX000800000/1206/NC
1K/6/NC
0
1
C
1
+5V
+18V
CX000800000/1206
3
VIN
1
4K7/6/NC
R7
Q2
CX000800000/1206/NC
L29
+12V
R57
200/6 1%
R58
PANEL_VCC
CX000800000/1206
+
3
5
C
330/6 1%
ON/OFF
0/6
L28
2
VOUT
ADJ/GND
AIC1084/TO252
+
V
5
2/
8 u
4 0
0
C 1
+5V
R6
+3.3V_ADC
U4
GND
L8
V
5
2/
u
0
0
1
C23
1u/8
R19
GND
4 PPWR
R29
4K7/6
0/6/NS
2
3
Q5
MMBT3904L
Q4
R17
4K7/6
L1
8
7
6
5
1
2
3
4
CX000800000/1206
C25
0.1uF/6
SI9435
C9
330uF/16V
C16
0.1uF/6
+
GND
MMST3906/NC
1
4 PBIAS
4 3 2 1
Q22
8K2/6 1%
C183
O
S
/
A
0
1
4
9
3 S
2 D
Q N
47R/6
330K/6
6/
F
p
GND
GND
L13
CX000800000/1206
R72
DC
IS
GND
R126
PWM1
2
VOUT
AIC1084/TO252
10K/6/NC
4 PWM1
+1.8V_CORE
VIN
BOOST
AIC1563
2
8
1
C
GND
+5V
GND
1SS355
U20
R10
GND
GND
25V
GND
4K7/6/NC
GND
U3
+5V
L5
+5V
R8
4 PWM0
PWM0
R2
R5
1K/6
4K7/6
2
3
1
GND
10K/6
Q1
MMBT3904L
6/
F
u
1.
0
7
C
CX000800000/1206
3
1
ADJ
+V
5
2/
u
0
1 0
4 1
C
VIN
0.8A Max
VOUT
+2.5V_DDR
2
R38
ADJ/GND
LT1117/TO223
R39
200/6 1%
200/6 1%
+V
5
2/
u
0
3 0
4 1
C
PROJECT : M0TW
GND
Quanta Computer Inc.
GND
Title
- 39-
POWER
Size
Document Number
Date:
07. Power
Tuesday , September 14, 2004
Rev
A
M0TW
Sheet
7
of
8
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