Acer | AL1716W | Service manual | Acer AL1716W Service manual

ACER
ACER_LCD_AL1716W_SM070510V1
Service
Model ID: T17ANHW-G1
Service Manual
Table of Contents
Important Safety Notice------------------------------------------------------------------------------------- 01
01. Product Specification--------------------------------------------------------------------------------- 02
02. Flat Panel Specification-------------------------------------------------------------------------------07
03. Exploded Diagram ------------------------------------------------------------------------------------- 12
04. Troubleshooting----------------------------------------------------------------------------------------14
05. Spare Parts List-----------------------------------------------------------------------------------------23
06. Schematics and Layouts------------------------------------------------------------------------------ 31
07. Assembly and Disassembly-------------------------------------------------------------------------- 41
Appendix : User’s Manual
Safety Notice
Any person attempting to service this chassis must familarize with the chassis and be aware of the
necessary safety precautions to be used when serving electronic equipment
containing high voltage.
Published by LITE-ON Service Printed in Taiwan © All rights reserved Subject to modification
10th-May-2007
Important Safety Notice
ACER AL1716W
Go to cover page
Product Anouncement:
This product is certificated to meet RoHS Directive and
! Using Lead-Free solder to well mounted the parts.
Lead-Free produced definition. Using approved critical
! The fusion point of Lead-Free solder requested in the
components only is recommended when the situation
to replace defective parts. Vender assumes no liability
express or implied, arising out of any unauthorized
modification of design or replacing non-RoHS parts.
Service providers assume all liability.
Qualified Repairability:
Proper service and repair is important to the safe,
reliable operation of all series products. The service
providers recommended by vender should being
aware of notices listed in this service manual in order
to minimize the risk of personal injury when perform
service procedures. Furtermore, the possibile existed
improper repairing method may damage equipment or
products. It is recommended that service engineers
should have repairing knowledge, experience, as well
as appropriate product training per new model before
performing the service procedures.
NOTICE:
! To avoid electrical shocks, the products should be
connect to an authorized power cord, and turn off the
master power switch each time before removing the
AC power cord.
! To prevent the product away from water or explosed
in extremely high humility environment.
! To ensure the continued reliability of this product,
use only original manufacturer’s specified parts.
! To ensure following safty repairing behavior, put the
replaced part on the components side of PWBA, not
solder side.
! To ensure using a proper screwdriver, follow the
torque and force listed in assembly and disassembly
procedures to screw and unscrew screws.
degree of 220 ° C.
1
2
ACER AL1716W
1. Product Specification
Go to cover page
1.1 Scope:
1.2.3 Electrical
This document defines the design and performance
This section describes the electrical requirement of
requirements for the Liteon standard 17” wide flat
the monitor. The block diagram in Figure 1 illustrates
panel monitor. The display element shall be a 17” inch
the various electrical sub–system.
diagonal, WXGA (1440 x 900) resolution, TFT-LCD
(Thin Film Transistor Liquid Crystal Display). Video
LCD Panel
Inverter Output
input signals are Analog D-sub with non-interlaced
+5V & DIM & Enable
signaling. Power saving function complies with the
5V
Function Key Board
+5V Vcc
LVDS
DPMS (Display Power Management Standard).
Power & Inverter
DIM & Enable
1.1.1 General display parameters
Display Area
Resolution
Display Color Number
Display Type
Contrast Ratio
Brightness
Response Time
Pixel Pitch
Vertical Viewing
Horizontal Viewing
17” diagonal,367.2(H)x229.5(V)
1440 x 900 pixels
16.2M colors
a-Si TFT active-matrix
500 : 1 typ.
2
250cd/m typ.
(Ton + Toff) 8 ms typ.
0.255mm x 0.255mm RGB Vertical Stripes
130 degrees typ,
CR>10
140 degrees typ,
CR>10
1.1.2 Optical Characteristics
SST25VF01
Regulator
5V ~ 3.3V
5V ~ 1.8V
Scaler IC
GM5726H
XTAL
14.318MHz
R.G.B & Hs, Vs
EEPROM
24CL16
AC 110/220V
Input
EEPROM
24C02
D-SUB
Analog Video
Input
The LCD monitor will contain an interface board, a
Power/Inverter board, and a function key board. The
The panel model name is HSD170MGW1-A
interface block will house the flat panel control logic,
supplied by Hannstar.
brightness control logic, and DC-DC conversion to
supply the appropriate power to the whole board and
LCD panel, and transmitting LVDS signals into LCD
Module to drive the LCD display circuit. The inverter
block will drive the two CCFLs (Cold Cathode
fluorescent Tube). The power block will provide the
DC power to interface board and LCD panel. The
function key block will provides the OSD control
signal, power ON/OFF and LED indicator to the
interface board.
ITEM
Frequency Ranges
1.2 General Requirements:
Analog Signal Input
1.2.1 Test Condition
Brightness level at max & contrast level at default
full white pattern test mode following spec. Warm
Connectors
Max Pixel clock
RGB Input Level
RGB Input Impedance
Sync Input Signal
Sync Input Impedance
AC power
Input connectors
AC IN 90~264V
up more than 30min, ambient light < 1 Lux,
Normal Operation
Luminance meter CA210 or BM7 or compatible
Power Consumption
equipment.
1.2.2 Test Equipment
The reference signal source is a calibrated
Chroma 2326 or Quantum 801GD video
generator. The use of other signal generators
during qualification and production is acceptable
provided the product complies with this
specification.
User’s Control
Dimming control range
(max-min/max) x 100%
Pre-Defined Timing
Plug and Play
Power Saving
Input Signal Counter tolerance
Standby, Suspend,
Active Off
Power Off
Front Panel Buttons
SPEC
H 31kHz ~ 83kHz
V 56Hz ~ 76Hz
205MHz
0.7Vp-p
75Ω
Separate SYNC, Composite Sync
50Ω
AC 100V ~ AC 220V ± 10% 50/60Hz, 3 pin
AC power cord
D-SUB 15 pin
35W Max
< 2W
< 1W @ (90VAC~240VAC)
POWER, MENU, SELECT, + , 35% typical
18
VESA DDC2B
DPMS
H ±1kHz, V ±1 Hz
ACER AL1716W
1. Product Specification (continued)
3
Go to cover page
1.3 Interface Connectors:
1.4 Input Signals (Analog RGB Signal Input):
1.3.1 The AC inlet connector shall have an IEC/CEE22
type male power receptacle for connection to
mains power. The power cord exact type to be
supplied in the appropriate Option Kit, shall be
black have length of 1.8+/- 0.05 meters.
1.3.2 Signal connectors and cable: The analog signal
cable shall be black and 1800 mini-meters; at the
No.
1
2
3
4
5
6
Symbol
Fh
Fv
Fclk
Vih
Vil
Video
Item
Horizontal Frequency
Vertical Frequency
Locked Pixel Clock Frequency
Hi Level Input
Low Level Input
RGB Analog Video Level
Min Normal Max
31
83
56
76
135
2
5
0
0.8
0
0.735
Unit
kHz
Hz
MHz
V
V
V
Remark
Minimum range
Minimum range
Note 1)
Note 1)
75Ω to Ground
Note 1: 2.2k to Ground, Schmitt-Triggers Input,
Supported 3.3V device H & V sync. output.
end of the analog cable shall be a molded-over,
1.4.1 Video Signal Amplitudes
shielded, triple row, blue color D subminiature ,
15 positions connector. The CPU connection
The three video inputs consist of Red, Green,
shall have captive screw locks, which will be
and Blue signals, each with its own coaxial cable
adequate for hand tightening. The monitor
terminated at the monitor. These video signals
connection may use small screws.
are analog levels, where 0V corresponds to
black, and 735 mV is the maximum signal
1.3.3 Connector pin assignment:
amplitude for the respective color, when each
D-SUB
Pin
1
2
3
4
5
Signal
Red-Video
Green-Video
Blue-Video
GND
Self Test
Pin
6
7
8
9
10
Signal
Red-GND
Green-GND
Blue-GND
+ 5V
DDC-GND
Pin
11
12
13
14
15
Signal
signal is terminated by a nominal 75.0 ohm. For
GND
DDC-SDL
H-SYNC
V-SYNC
DDC-SCL
a given monitor luminance levels are measured
using this defined video amplitude driving a
monitor meeting the termination requirements.
The signal amplitude is not to be readjusted to
Power Board Connector
Pin
1
2
3
4
5
6
7
8
9
Signal
compensate for variations in termination
GND
GND
GND
5.2V
5.2V
5.2V
5.2V
BKLT-EN
BKLT-ADJ
Flat Panel Connector
Terminal
Symbol
no.
1
GND
2
VDD
3
VDD
4
NC
5
NC
6
NC
7
NC
8
Odd_Rin09
Odd_Rin0+
10 GND
11 Odd_Rin112 Odd_Rin1+
13 GND
14 Odd_Rin215 Odd_Rin2+
16 GND
17 Odd_ClkIN18 Odd_ClkIN+
19 GND
20 Even_Rin021 Even_Rin0+
22 GND
23 Even_Rin124 Even_Rin1+
25 GND
26 Even_Rin227 Even_Rin2+
28 GND
29 Even_ClkIN30 Even_ClkIN+
impedance.
1.4.2 Video Signal Termination Impedance
This analog video signal termination shall be 75
ohm +/- 2% which shall be resistive with a
negligible reactive component.
1.4.3 Synchronization (Sync) Signals
Function
Ground
Power supply: +0.5V
Power supply: +0.5V
Reserved for supplier test point
Reserved for supplier test point
Reserved for supplier test point
Reserved for supplier test point
- LVDS differential data input (R0-R5, G0)
+ LVDS differential data input (R0-R5, G0)
Ground
- LVDS differential data input (G1-G5, B0-B1)
+ LVDS differential data input (G1-G5, B0-B1)
Ground
- LVDS differential data input (B2-B5, NC, NC, DE)
+ LVDS differential data input (B2-B5, NC, NC, DE)
Ground
- LVDS differential clock input
+ LVDS differential clock input
Ground
- LVDS differential data input (R0-R5, G0)
+ LVDS differential data input (R0-R5, G0)
Ground
- LVDS differential data input (G1-G5, B0-B1)
+ LVDS differential data input (G1-G5, B0-B1)
Ground
- LVDS differential data input (B2-B5, NC, NC, DE)
+ LVDS differential data input (B2-B5, NC, NC, DE)
Ground
- LVDS differential clock input
+ LVDS differential clock input
Note
The Horizontal Sync (HS) TTL signal is used to
initiate the display of a horizontal line. HS may
be either active high or active low, depending
upon the timing. The Vertical Sync (VS) TTL
signal is used to initiate the display of a new
(2)
(2)
frame. VS may be either active high or active
low, depending on the timing.
(2)
(2)
(2)
(2)
(2)
(2)
1.4.4 Sync Signal Levels
The monitor must accept sync signals from both
3.3V and 5V TTL logic families. The inputs shall
sense a logic 0 when the input is 0.8V or less and
shall sense a logic 1 when the input is 2.0V or
greater. In addition to these level requirements,
there shall also be a minimum of 0.3V hysteresis
provided for noise immunity (typically by using a
Schmitt Trigger input). That is, the input level at
which the monitor actually detects a logic 0 shall
be at least 0.3V lower than the level at which it
actually detects a logic 1.
4
ACER AL1716W
1. Product Specification (continued)
Go to cover page
If the monitor sync processing circuits are
1.5.4 Key Function Overview: All functions are controllable
designed around the 3.3 volt logic family, then
by OSD using five buttons including Power button,
the sync inputs must be 5 volt tolerant.
Menu/Exit, Select, Left, and Right on the front bazel.
P o w e r B u tto n
M e n u /E xit B u tto n
S e le ct B u tto n
1.4.5 Sync Signal Loading
TTL input loading shall be equivalent to one TTL
input load. When logic 0 is asserted by a sync
L e ft B u tto n
input, the maximum current source from any
single monitor sync input to the driver is 1.6 mA.
R ig h t B u tto n
When logic 1 is asserted, the maximum current
source from the driver to any single monitor sync
C h o o se th e n e xt O S D M e n u Ite m .
T o in cre a se th e va lu e o f th e p a ra m e te r in th e
a d ju st b a r, w h ich h a s b e e n se le cte d fo r
a d ju stm e n t.
A ct a s A u to A d ju stm e n t H o t-K e y w h e n O S D is
n o t d isp la ye d .
input is 400 mA.
1.4.6 Abnormal Signal Immunity
T o tu rn O N o r O F F th e P o w e r.
T o e n te r o r e xit O S D M e n u .
T o m o ve d o w n w a rd in th e O S D Ite m .
A ct a s D D C e n a b le a n d d isa b le sw itch in g H o tK e y w h e n O S D is n o t d isp la y.
C h o o se th e p re vio u s O S D M e n u Ite m .
T o d e cre a se th e va lu e o f th e p a ra m e te r in th e
a d ju st b a r, w h ich h a s b e e n se le cte d fo r
a d ju stm e n t.
1.5.5 Menu Operation
The monitor shall not be damaged by improper
Pressing the MENU button the first time brings up the
sync timing, pulse duration, or absence of sync,
first menu level. The (MENU) button is used to enter
or abnormal input signal amplitude (video and/or
and exit the OSD menu.
sync too large or too small), or any other
anomalous behavior of a graphics card video
generator when changing modes or when any
1.5.6 OSD Function- Normal Mode
Icon
Item
Function Description
Brightness
Adjust the background screen brightness by using backlight inverter.
Contrast
Adjust the image contrast by controlling analog signal gain.
combination of input signals is removed or
replaced. Additionally, under these conditions,
the monitor shall not cause damage to the driving
source.
1.5 User Controls and Indicators:
Press ‘Right’ or ‘Left’ to select sRGB, Reddish, Bluish and User preset.
Color Temperature Only when selecting User, you can make adjustment to the R/G/B
content, otherwise not.
Adjust the horizontal Image Size. When the value is increased, the
Horizontal Size
width of display image wider, and when the value is decreased, the
width becomes narrows.
Fine
To increase or decrease the snow noise of image. Adjust the delay of internal
clock to control the display focus.
power control switch visible and accessible on
Left/Right
Adjust the horizontal Image Position.
the front of the monitor. The switch shall have no
Down/Up
Adjust the Vertically Image Position
Auto Adjust
Press ‘Right Key’ to turn on this function. The Auto-Adjust will automatically
adjust H-Position, V-Position, H-Size and Fine to the optimal value, the whole
process takes about 3 seconds.
Language
Select a language of OSD Menu. User can select language from 11 Languages;
they are English, French, German, Spanish, Japanese, Simple Chinese,
Traditional Chinese, Korean, Portuguese and Russian, Turkish.
Factory Reset
Reset all users setting to factory preset value except language selection.
OSD Timeout
Select OSD Menu turn off time. when “30 seconds” is selected,
OSD shall be turned off automatically after 30
Seconds from the last key operation.
OSD Left/Right
To move the OSD position horizontally on the screen. When the
‘Right’ Key is pressed, the OSD control menu to move to the
right side of sreen.Likewise, when the ‘Left’ key is pressed, the
OSD control menu to move to the left side of screen.
OSD Down/Up
To move the OSD position vertically on the sreen.when the ‘Right’ Key is
pressed, the OSD control menu to move to the up side of sreen.Likewise, when
the ‘Left’ key is pressed, the OSD control menu to move to the down side of
screen.
Information
Indicates the current resolution.
1.5.1 Power On / Off Switch: The monitor shall have a
effect on the operation of the AC/DC converter.
Instead, it shall interrupt the DC supply to the
monitor.
1.5.2 Power Indicator LED: The monitor shall make
use of a LED type indicator located on the front of
the monitor. The LED color shall indicate the
power states as given in Table 1.
Table 1
Power-ON Mode
Power Saving Mode
LED Color
Green
Amber
1.5.3 On-Screen Display: The On Screen Display
system shall be used, controlled by a select
button (SELECT), a menu button (MENU), a plus
(+) button and a minus (-) button. If the buttons
remain untouched for OSD turn off time while
displaying a menu, the firmware shall save the
current adjustments and exit. Also, if the video
controller changes video mode while the OSD is
active, the current settings shall be saved
immediately, the OSD turned off, and the new
mode is displayed.
5
ACER AL1716W
1. Product Specification (continued)
Go to cover page
1.5.7 OSD Function (Abnormal Mode)
No VGA Signal Menu
The function gives a warning when selected input signal is not
active. When the Monitor determines that the VGA is not input H/V
sync signal as the OFF¡ Bsuspend or standby model, or the V-sync
frequency is under 36.5Hz , the Monitor shall display a message,
No VGA Signal” for 3 seconds and the LED shall be green, to
alert the user that input signal is not active. After the message is
displayed about 3 seconds, the monitor shall go into sleep mode
and the LED shall be Amber. If the monitor is in Sleep mode,
pressing any OSD button shall cause the OSD message to be
displayed for another 3 seconds.
1.6.2 Factory Assigned Display Modes: There are 18
factory pre-set frequency video modes. These modes
have a factory pre-set for all characteristics affecting
front-of-screen performance. When the system is
powered-on, previously stored screen parameters for
a pre-defined mode will be recalled if the operating
mode is one of those stored in memory. If the
operating mode is not one of those stored in memory,
Out of range Menu
Check VGA cable Menu
This function gives warning about input resolution or refresh rate
that the monitor cannot display. An input signal which is outside the
normal range of operation defined in Section 3.2 and the input sync
signal frequency for the below condition shall cause the monitor to
display for 3 seconds the Out of Range” message, and the LED
shall be green:
1.
V-sync frequency : 36.5Hz<=Fv<=55
2.
V-sync frequency : FV >=76Hz
3.
H-sync frequency : FH >=83KHz
This function gives warning about the VGA cable not connection.
When the Monitor determines that the VGA is not connected, the
Monitor shall display a message, Check VGA Cable” for 3 seconds
and the LED shall be green, to alert the user that the video cable is
not be plugged into the CPU or a Monitor signal connector. The
monitor shall use a method of a pull-up resistor on a ground pin to
determine if the video cable is connected to the PC. If the monitor
is in Sleep mode, pressing any OSD button shall cause the OSD
message to be displayed for another 3 seconds.
the monitor CPU will select the PRESET timing for a
mode that is the next lowest in horizontal scanning
frequency to the mode being currently used. The
screen parameters may be adjusted by the use of the
front bezel controls and then may be saved as a user
defined mode. The monitor shall include all the
preset video timings shown in the following page.
Preset Timing Chart
FH
No Chroma Timing
Pixel Rate Sync Polarity
Timing Modes, FV(Hz)
H
V
1
102
VGA
720 x 400 70Hz
31.47
28.322
-
+
2
103
VGA
640 x 480 60Hz
31.47
25.175
-
-
3
182
MAC
640 x 480 67Hz
35
30.24
-
-
4
173
VGA
640 x 480 72Hz
37.86
31.5
-
-
controls shall have the following factory default
5
109
VESA
640 x 480 75Hz
37.5
31.5
-
-
6
104
VESA
800 x 600 56Hz
35.16
36
-
-
values:
7
116
VESA
800 x 600 60Hz
37.88
40
+
+
8
117
VESA
800 x 600 72Hz
48.08
50
-
-
9
110
VESA
800 x 600 75Hz
46.88
49.5
+
+
B. Contrast=50(range 0 – 100)
10
108
MAC
832 x 624 75Hz
49.73
57.28
-
-
11
118
VESA
1024 x 768 60Hz
48.36
65
-
-
C. Volume=90(range 0 – 100)
12
157
VESA
1024 x 768 70Hz
56.48
75
-
-
13
141
VESA
1024 x 768 75Hz
60.02
78.75
+
+
14
203
MAC
1152 x 870 75Hz
68.68
100
-
-
15
339
1280 x 720 60Hz
44.772
74.5
-
+
16
394
106.22
-
-
290
70.635
136.75
-
+
18
289
1280 x 800 75Hz
WXGA 1440 x 900 75Hz
WXGA 1440 x 900 60Hz
62.63
17
55.935
106.5
-
+
1.5.8 OSD Control Factory Default Values: The OSD
A. Brightness=100(range 0 – 100)
D. Color Temperature=Normal(sRGB)
E. Language= English
F. Horizontal OSD position=50(range 0 – 100)
G. Vertical OSD position=50(range 0 – 100)
H. OSD Timeout=30(range 5– 60)
I. Horizontal size: no default value
J. Fine: no default value
K. Left/Right: no default value
L. Down/up: no default value
(KHz)
(MHz)
NOTE: (1) 76Hz<=FV: Monitor can display but does
not guarantee.
(2) FH>=85KHz, or Fv>=80Hz: Power Save
(OSD warning invalid mode).
1.6.3 Mode Recognition Pull-in:
The monitor shall recognize preset modes within a
1.6 Monitor Modes and Timing Capability:
1.6.1 Format and Timing
The monitor shall synchronize with any vertical
frequency from 56 to 76 Hz, and with any
horizontal frequency from 31 to 83 KHz. If the
input frequency is beyond the specified range, the
monitor shall display a warning screen indicating
that the input frequency is out of range. Under no
circumstances shall any combination of input
signals cause any damage to the monitor.
range of +/- 1 KHz whichever is less for horizontal;
and within +/- 1Hz for vertical.
6
ACER AL1716W
1. Product Specification (continued)
Go to cover page
1.7 Controller Requirements:
1.7.1 General Requirements: The monitor shall
include a controller capable of converting the
Table 2. AC TO DC Converter Requirements
The operating range shall be from 90 to 240 VAC
Input Voltage Range
sinusoidal for all models specified.
Input power frequency range shall be from 47.5 to 63Hz
Input Frequency Range
over the specified input voltage range.
analog RGB signal from a standard WXGA
resolution video controller in the CPU to a signal
Power Consumption
Power consumption for the monitor shall be less than
75W over the specified voltage and frequency ranges. In
power off mode the power consumption will be less than
1W (at 90VAC~240VAC).
Line Fuse
The AC input shall be fused and become electrically open
as a result on an unsafe current level. The fuse may not
be user replaceable.
Initial Cold Start
The power supply shall start and function properly when
under full load, with worst case conditions of input
voltage, input frequency, operating temperature, and cold
backlight lamps.
Inrush Current
The inrush current must be limited to 42A when operated
at 120VAC, and 80A when operated at 220VAC. In - rush
current is measured at an ambient temperature of 25° C,
with the unit temperature stabilized in the power - off
Hot Start Cycle
The power supply shall not be damaged when switched
ON for one second and OFF for one second for seven
consecutive times after operating for one hour at full load,
25°C, and nominal input line voltage.
Under Voltage
The power supply shall contain protection circuitry such
that the application of an input voltage below the
minimum specified in this table shall not cause damage
to the power supply unit nor cause failure of the input
Line Transient
The power supply shall operate within IEC 801-4 (±1KV)
and IEC 801 -5 (±2KV) for the domestic U.S. Version.
The UPS power supply shall operate and comply with CE
mark.
which can be displayed on the panel. The
controller will include a PLL, A/D converters,
and other circuitry necessary to perform its
function. The PLL shall be stable enough to
ensure that a static image from the CPU is
placed in the same physical location on the flat
panel in each frame.
1.7.2 Video Stretching: The monitor shall contain
provisions to “stretch” the video signal, so that
an input signal from the computer in any
resolution smaller than 1440 x 900 is
automatically expanded to fill the entire screen.
1.7.3 Panel Timing and Interface: The controller
supplied with the monitor shall control all
panel timing. This controller shall adequately
insulate the monitor from the computer, so that
no possible combination of input signals from the
computer shall cause damage to the flat panel or
any other component of the monitor. The LCD
panel interface shall support the TFT standard.
1.8 DC - AC Inverter Requirements:
1.10 Display Communications Channel:
The monitor assembly shall provide a display
communications channel that conforms to VESA
The frequencies used by the DC-AC inverter used to
DDC2B hardware requirements. This configuration
power the backlight shall be chosen so as to prevent
shall contain the 256-byte EDID file as specified by
any noticeable effects on the flat panel (such as a
VESA E-EDID Standard. The monitor contains a
rolling effect).
separate EEProm for each video input to store EDID
1.9 Power Supply Requirements:
information. Once the EDID is programmed there is a
The AC to DC converter power supply for the monitor
write protection that is enabled so that the EEPROM
shall be an integrated power supply. This power supply
cannot be overwritten.
shall have an IEC receptacle for mains power input and
provide sufficient power for the monitor, the backlight
assembly and the “Dell Sound bar”, and shall meet all
requirements specified in Table 2.
ACER AL1716W
2. Flat Panel Specification
7
Go to cover page
2.1 General Information
HannStar, HSD170MGW1-A00 which display model
2.5 Defects:
2 .5.1 Visual Inspection: The LCD panel shall be
is a color active matrix thin film transistor (TFT) liquid
inspected with all pixels set to white, black, red,
crystal display (LCD) that uses amorphous silicon TFT
green, and blue. The color variation, brightness
as a switching device. This model is composed of a
variation, and overall appearance must not be
TFT LCD panel, a driving circuit and a back light
perceived as poor quality by Lite - On. Areas and
system. This TFT LCD has a 17.0 inch diagonally
/or parameters considered questionable shall be
measured active display area with XGA resolution (900
subjected to detailed measurements.
vertical by 1440 horizontal pixel array) and can display
2 .5.2 Display Degradation: Over the life of the product,
up to 262,144 colors. .
variation of the parameters specified in panel
2.2 Panel Timings:
specification shall be maintained within
The controller included with the monitor shall translate
reasonable limits. The panel must not exhibit any
all video timings from the CPU that meet the timing
significant defects while in operation (excluding
requirements listed in panel specification into timings
the CCFL operation). This does not in any way c
appropriate for the panel. Under no circumstances
change the warranty given by the panel vender.
may the controller supply the panel with timings that
2 .5.3 Light Leakage: Except for the active display area,
may result in damage. The controller shall insulate the
there shall be no light emission visible from any
panel from the CPU, so that the panel shall always be
angle from any other part of the display. For this
driven per it's own specification regardless of the
test, the ambient illumination will follow the panel
timings being sent from the CPU.
specification 300 to 700 lux.
2,3 Polarizer Hardness:
2 .5.4 Allowable Defects: No cosmetic defects are
The outer face of the front polarizer panel shall be
allowed except those specified below. The
covered with a coating with a 3H hardness value.
conditions of visual inspections are as follows:
2.4 Backlight Requirements:
- Viewing distance is to be approximately 35~50
2.4.1 General Requirements: The backlight assembly
cm.
shall be designed to support field replacement at
- Ambient illumination is to be 300 to 700 lux.
the customer site or authorized service center.
- Viewing angle range shall be 160 degrees
The lamps shall have a continuous operating life
Horizontal and 160 degrees vertical typically.
of at least 30,000hrs at 25 degree C. The
- Defects not apparent within one minute shall be
operating life is defined as having ended when
the illumination of light has reached 50% of the
ignored.
2.5.5 Defect Terminology: Table 3 gives the descriptive
initial value. The lamps shall extend a sufficient
terms used in classifying defects.
amount from the edge of the light guide that
Dark Spots/Lines
Spots or lines that appear dark in the display patterns and are usually the
result of contamination. Defects do not vary in size or intensity (contrast)
when contrast voltage is varied. Contrast variation can be achieved
through the use of varying gray shade patterns.
Bright Spots/Lines
Spots or lines that appear light in the display patterns. Defects do not vary in
size or intensity (contrast) when contrast voltage is varied. Contrast variation
can be achieved through the use of varying gray shade patterns.
sputtering over the life of the lamps shall not
cause degradation of the luminance uniformity
(such as non-illuminated bands along the edges
of the display).
2.4.2 Lamps Startup Time: The backlight lamps shal
start within 3sec. of the time the monitor power
Polarizer Scratch
switch is pressed or the monitor is restarted from
a power - down mode .The starting time shall stay
Polarizer Dent
When the unit lights, lines appear light (white) with display patterns dark and
do not vary in size. Physical damage to the polarizer does not damage the
glass.
When the unit lights, spots appear light (white) with display patterns dark
and do not vary in size. Physical damage to the polarizer that does not
damage the glass.
Horizontal or diagonal lines that appear gray with the display patterns dark
and may have resulted from an 'out of control' rubbing process on the
polyimide or 'waves'“ on the BEFs or prism sheets .
The 'rainbow' effect caused by non-uniform cell thickness.
When the unit lights, variation / non – uniformity (splotchiness) appears light
(white) with the display and might vary in size.
When the unit lights, line(s) in the minor (vertical) or major (horizontal) axis
appear dim, but not completely on or off.
below 3 sec. for the minimum expected life of the
Rubbing Line
lamps. Test conditions are as follows:
Newton Ring
Ambient Light ----------------------< 1.0 lux.
Mottling
Temperature------------------------10degreeC
Dim Line
Inactive Time -----------------------> 24 hours
Cross Lines Off
When the unit lights , lines in both the minor and major axis do not appear.
Bright/Dark Dot
A sub - pixel (R, G, B dot) stuck off / on (electrical).
8
ACER AL1716W
2. Flat Panel Specification (continued)
Go to cover page
2.5.6 Smudges, Streaks and Smears: When viewing
Brightness uniformity ≧7 0%
the panel oriented so as to max. reflected light,
Remark: The black luminance non-uniformity are
there shall be no visible smudging, streaking,
no defined by panel spec, therefore, we don't
smearing or other non-uniformity from
define the specification for black luminance
non-uniformity.
contaminants, fingerprints, or defects in any of
the visible surfaces. This is independent of
by using a photometer (CA-210) to measure the
whether the unit is operating or off.
2.5.7 LCD Inspection: Put LCD panel on inspection
table and illuminate the panel with a daylight
fluorescent lamp located above the panel
surface such that the luminance at the LCD panel
is between 1000 lux. and 1500 lux. Defect limits
maximum and minimum luminance in front of monitor
after at least 30 minutes warm up. It shall be test at
1440x900, 60Hz mode and full white and full black
square pattern with contrast and brightness in
default value whcih specified are at an approximate
distance 20cm from the LCD surface and at 0 viewing
are given in Table 4.
Table 4. Descriptive Terms
Average Diameter
Smaller of (L+W)/2 or L/20 + 2W
< 0.1mm
0.1mm- 0.3mm
0.31mm- 0.5mm
0.51mm- 1.25mm
1.26mm- 2.5mm
2.51mm- 0.3mm
Greater than 3.75mm
2.6.2 Contrast ratio (CR): The contrast ratio is determined
angle. The contrast ratio is calculated as below.
CR=(Max. full white luminance)/(Max. full black
Acceptable Number
Non countable
10
10
5
3
3
None
MinimumSeparation
N/ A
15mm
15mm
15mm
25.4mm
25.4mm
Not applicable
luminance)
CR = 500: 1(ty)
2.6.3 Response time: The response time is defined as
below.
Allowable distance between spots of two sizes is
the minimum separation number for the smaller
spot. Therefore, if there are two spots including
1.30mm and 0.4mm in diameter, they must be at
least 15mm apart.
2.6 Optical Characteristics:
2.6.1 Brightness uniformity: The uniformity is
determined by using a photometer (CA-210) to
measure the 9 points luminance in front of
Tr + Tf : 8 msec typ.
monitor after at least 30 minutes warm up. It shall
Remark: optical response time vs gray scale, test
be test at 1440x900/60Hz mode and full white
condition for brightness set to max. and contrast set
square pattern with contrast / brightness in
default value. The values specified are at an
approximate distance 20 cm from the LCD
to default.
2.6.4 Viewing angles: The viewing angles are measured at
CR>10 as below.
surface and at 0 viewing angle. The 9 test points
are defined as below.
The brightness uniformity is calculated as below:
Horizontal Left: 70 degrees typ. (HSD170MGW1-A);
Right: 70 degrees typ. (HSD170MGW1-A);
Vertical
Up:65 degrees typ. (HSD170MGW1-A);
Down:65 degrees typ. (HSD170MGW1-A);
9
ACER AL1716W
2. Flat Panel Specification (continued)
Go to cover page
2.6.5 Chromaticity: The color chromaticity is measured by
a photometer (CA-210) at 1440x900/60Hz mode and
full white square pattern with contrast/brightness in
default value. The x and y co-ordinates for sRGB,
Reddish, Bluish and User preset mode shall be as
below:
2.6.6 Brightness: The uniformity is determined by using a
photometer (CA-210) to measure luminance on the
center of screen after at least 30 minutes warm up. It
shall be test at 1440x900/60Hz mode and the
brightness and contrast OSD setting for 100%. The
2.7 Panel General Information
Item
Outline Dimension
Display Area
Number of Pixel
Pixel Pitch
Pixel Arrangement
Display Color
Display Mode
Surface Treatment
Weight
Backlight
Input Signal
Specification
389.2x254.5x11.5 (Typ)
367.2 (H) x 229.5 (V)
1440 (H) x 900 (V)
0.255 (H) x 0.255 (V)
RGB Vertical Stripe
6 bits/262,144
Normally white
Antiglare (3H)
1370
2-CCFLs, Top&Bottom edge side
2-ch LVDS
Logic System 2.4
Power Consumption
B/L System
9.8
Min.
388.7
254.0
11.2
-
Item
Horizontal (H)
Vertical (V)
Module Size
Depth (D)
Weight (Without inverter)
Torque of customer screw hole
2.7.2 Electrical Absolute Rating
20cm from the LCD surface and at 0 viewing angle.
TFT LCD Module
color temperature shall be 250 cd/m typ. and
200cd/m2 minimum (HSD170MGW1-A), and full
screen black luminance center max. luminance <1
cd/m2.
2.6.7 Environmental Requirements:
A. Temperature Ranges:
Item
Power supply voltage
Logic input voltage
g
W
W
Symbol
VDD
VIN
Typ.
389.2
254.5
11.5
1370
-
Min.
-0.3
-0.3
Max.
389.7
255.0
11.8
1500
3.0
Max.
6.0
VDD+0.3
Unit
mm
mm
mm
g
Kgf•Cm
Unit
V
V
Note
(1) (2)
(1) (2)
Backlight Unit
Item
Lamp current
Lamp frequency
Symbol
IL
fL
Min.
3
30
Max.
9.0
80
Unit
mA
KHz
Note
(1) (2)
(1) (2)
Note (1)Permanent damage may occur to the LCD
module if beyond this specification.
- Operating Temperature (guaranteed functional
Functional operation should be restricted to
performance): 0~50 degreeC
the conditions described under normal
- Operating Temperature (guaranteed optical
operating conditions.
performance): 5~ 35 degreeC
- Shipping Temperature: -20oC to 60oC
colors
2.7.1 Mechanical Information
values specified are at an approximate distance
The full screen white center luminance at user mode
Unit
mm
mm
pixels
mm
(2) Ta =25 degree C
- Storage Temperature: -20oC to 60oC
B. Humidity:
- Operating (non-condensing): 10% to 80%
- Shipping (non-condensing): 10% to 90%
- Storage (non-condensing): 10% to 90%
2.7.3 Optical Specification
Item
Contrast
Responsetime
Whiteluminance(Center)
2.6.8 Shipping and Packing: Packaging and wrapping shall
be sufficient to protect the product against damage or
Color chromaticity(CIE1931)
loss during shipment from the supplier to the
destination specified in the purchase order. All
packaging materials are subject to test and
Viewingangle
evaluation. The container loading is 2160sets/40'.
The outside dimension of carton box is 482(L)x
Viewingangle
127(W) x 423(H) mm.
Brightnessuniformity
Symbol
Condition
CR
TR
TF
YL
YL
Rx
Red
Θ=0view angle
Ry
Gx
Green
Gy
Bx
Blue
By
Wx
White
Wy
ΘL
Hor
ΘR
CR>10
ΘU
Ver
ΘD
ΘL
Hor
ΘR
CR>5
ΘU
Ver
ΘD
BUNI
Θ=0
Rising
Falling
Min.
400
200
(180)
0.595
0.315
0.295
0.525
0.125
0.115
0.280
0.300
65
65
60
60
75
75
75
75
70
Typ.
500
3
5
250
(230)
0.625
0.345
0.325
0.555
0.155
0.145
0.310
0.330
70
70
65
65
80
80
80
80
75
Max.
5
7
0.655
0.375
0.355
0.585
0.185
0.175
0.340
0.360
-
Unit
msec
Note
(1)(2)
(1)(3)
cd/m*2 (1)(4)(5) (IL=8.0mA)
cd/m*2 (IL=7.5mA)
(1)(4)
%
(6)
ACER AL1716W
10
2. Flat Panel Specification (continued)
Go to cover page
TFT LCD Module
2.7.4 Block Diagram
TC O N w ith
LV D S R eceiver
X -driver IC
Y-driver IC
Connector CN1
TFT LCD Module
D C /D C
C onverter
Liquid C rystal
P anel 1440x900
pixels
G am m a
R eference
V oltage
G enerator
Backlight Unit
Terminal no.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
Symbol
GND
VDD
VDD
NC
NC
NC
NC
Odd_Rin0Odd_Rin0+
GND
Odd_Rin1Odd_Rin1+
GND
Odd_Rin2Odd_Rin2+
GND
Odd_ClkINOdd_ClkIN+
GND
Even_Rin0Even_Rin0+
GND
Even_Rin1Even_Rin1+
GND
Even_Rin2Even_Rin2+
GND
Even_ClkINEven_ClkIN+
Function
Ground
Power Supply : +5.0V
Power Supply : +5.0V
Reserved for supplier test point
Reserved for supplier test point
Reserved for supplier test point
Reserved for supplier test point
- LVDS differential data input (R0-R5, G0)
+ LVDS differential data input (R0-R5, G0)
Ground
- LVDS differential data input (G1-G5, B0-B1)
+ LVDS differential data input (G1-G5, B0-B1)
Ground
- LVDS differential data input (B2-B5,NC,NC,DE)
+ LVDS differential data input (B2-B5,NC,NC,DE)
Ground
- LVDS differential clock input
+ LVDS differential clock input
Ground
- LVDS differential data input (R0-R5, G0)
+ LVDS differential data input (R0-R5, G0)
Ground
- LVDS differential data input (G1-G5, B0-B1)
+ LVDS differential data input (G1-G5, B0-B1)
Ground
- LVDS differential data input (B2-B5,NC,NC,DE)
+ LVDS differential data input (B2-B5, NC, NC, DE)
Ground
- LVDS differential clock input
+ LVDS differential clock input
Note
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
Note (1) Please connects NC pin to nothing. Don’t
connect it to ground nor to other signal input.
(NC pin should be open.)
Note (2) The module used a100ohm resistor between
2.7.5 Pixel Format
positive and negative data lines of each
receiver input.
2.7.7 Electrical Characteristics
TFT LCD Module
Item
Voltage of power supply
Current of power supply
Vsync frequency
Hsync frequency
Frequency
Input rush current
Symbol
VDD
White
IDD0
V-Color IDD1
Mosaic IDD2
fV
fH
fDCLK
IRush
Min.
4.5
260
370
515
56
55.469
44.375
-
Typ.
5.0
360
470
615
60
55.935
53.25
-
Note (1) White and V-color
2.7.6 Interface Pin Connection
Backlight Unit
Terminal No.
1
2
3
Symbol
Function
VL
CCFL power supply (high voltage)
NC
No connection
GL
CCFL power supply (low voltage)
Mosaic: Dot checker image
Max.
Unit
5.5 V
460 mA
570 mA
715 mA
75 Hz
70.635KHz
68.375MHz
1.5 A
Note
(1)
(1)
(1)
ref 6.5 t1
ref 6.5 t4
ref 6.5 t7
(2)
2. Flat Panel Specification (continued)
ACER AL1716W
11
Go to cover page
Note (2) Input Rush Current measurement condition
Note (5) The voltage over specified value (Vs) should
be applied to the lamp more than 1 second
after startup. Otherwise, the lamp may not be
turned on. The used lamp current is the lamp
typical current.
Note (6) The output voltage waveform and current
waveform of the inverter must be symmetrical
(Unsymmetrical ratio is less than 10%).
Please do not use the inverter which has
unsymmetrical voltage and current waveform,
and spike waveform. The inverter design
which can provide the best optical
performance, power efficiency, and lamp life
2.8 Back-Light Unit
should under the following conditions.
The back- light system is an edge-lighting type with 2
CCFL. The characteristic of the lamp is shown in the
following tables.
Item
Lamp current
Lamp voltage
Frequency
Operating lamp life time
Startup voltage
a. The asymmetry rate of the inverter
waveform should be less than 10%.
b. The distortion tae of the waveform should
Symbol
IL
VL
fL
Hr
Hr
Vs
Min.
3.0
30
30,000
40,000
1200
1400
Typ.
8.0
610
-
Max.
9.0
80
-
Unit
mA(rms)
V(rms)
KHz
Hour
Hour
V(rms)
Note
(1)(6)
(6) IL=8.0mA
(2)
(3) IL=8.0mA
(3) IL=7.5mA
(4)(5) at 25oC
(4)(5) at 0oC
be within
c. The inverter output waveform should be
better similar to the ideal sine wave.
Note (1) Lamp current is measured with current meter
for high frequency as shown below. Specified
valued are for single lamp.
2.9 Switching Characteristics for LVDS Receiver
Note (2) Lamp frequency may produce interference
with horizontal synchronous frequency and
this may cause ripple noise on the display.
Therefore lamp frequency shall be kept away
from the horizontal synchronous frequency
and its harmonics as far as possible in order
to avoid interference. *Suggest the inverter
frequency avoid fL=51~59KHz
Note (3) Lamp life time (Hr) can be defined as the time
in which it continues to operate under the
condition: Ta=25 3 oC, typical IL value
indicated in the above table and fL=52kHz
until the brightness becomes less than 50%.
Note (4) CCFL inverter should be able to provide a
voltage over specified value (Vs) in the above
table. Lamp units need at least Vs value
shown above to ignition.
12
ACER AL1716W
Go to cover page
3.1 Packing Exploded Diagram
3. Exploded Diagram
ACER AL1716W
3. Exploded Diagram (continued)
13
Go to cover page
3.2 Product Exploded Diagram
14
5
15
1
16
3
6
8
7
9
18
17
2
19
4
10
11
12
13
14
ACER AL1716W
4. Troubleshooting
Go to cover page
4.1 Power board
Check output
voltage +5V and +22V whether if
correct supply
OK
It is not power board problem.
NG
Turn switch on.
NG
Connect the cables whether to be correct connected.
NG
Check F801, T801, R802, D801 whether to be damaged.
NG
Check R807, D804, I801 whether to be damaged.
NG
Check peripheral component of I801 whether to be damaged.
NG
Check Q803, R813, R814, D806 whether to be damaged
NG
Check D804 and R807 whether to be damaged
NG
Check D809, D810, C818, C824, C823, C822, T802 whether to
be damaged.
NG
Check power switch whether if turn on
OK
Check power cord
P801, signal cable P302, P103, P104
is correct connected
OK
Check C805 value is about
140Vdc -330Vdc
OK
Check C807 is greater than 11V
OK
Check I801 pin6 has same pulse
OK
Check T802 PIN1 has same pulse or
not
OK
Check peak voltage of R811 triangle
pulse is up to 0.52V or not
OK
Check D809, D810,
C818, C824, C823, C817, C822, T802
have same short circuit or the output
+5V/+22V is over load
OK
Check feedback circuit around I802, I803 and
the other components and repair them
4. Troubleshooting (continued)
ACER AL1716W
Go to cover page
4.2 Inverter circuit on power board
Check C106 pin is
greater than 0.55V Brightness pin is
an external PWM.
OK
It is not inverter board problem.
NG
Check R105, ZD101, or C102 whether to
be damaged. And, printed wire between
them is opened.
NG
Check CCFL and repair them. Reconnect
P103 and P104 in tightly.
NG
Check D121, D120, R130, C128, C111
and repair them if be damaged.
NG
Repair Q105
NG
Check pin2 of I101 is 5V
OK
Check if
P103 and P104 are connected
correctly.
OK
Check pin5 of I101, there’s around
1.25V from output detection.
OK
Check SW MCS Q105 whether to
work properly.
OK
Check the prepherial components and repair
them
15
16
ACER AL1716W
4. Troubleshooting (continued)
Go to cover page
4.3 No . display of screen ( Screen is black , color of LED is amber )
Does OSM display when you press
‘MENU’ button?
When a signal is not being input, it indicates with
‘VIDEO INPUT’. It indicates with ‘Out of Range’ at the
time of the frequency that it cannot distinguished.
NG
Proceed to ‘No OSM display’ section
YES
Check if the sync signal
from computer is output and if the
video cable is connected normally.
OK
Proceed to ’Checking the resolution
change IC movement’ section
NG
Input the sync signal of computer or
change the cable
ACER AL1716W
4. Troubleshooting (continued)
17
Go to cover page
4.4 Nothing display on screen (screen is black, color of LED is blue)
Is backlight lit?
NG
Proceed to ‘Checking the backlight unit’ section.
OK
Check the video cable for failure. Check the host for
output signal with all black only.
Does computer output RGB video
signals?
1. Change pattern of video signal output on the host
computer.
2. Reconnect the video cable.
3. Change the video cable.
NG
OK
Check if the
LCD module signal cable
is connected between the
Interface Board and LCD
Module.
NG
Check OSD
menu to display on the screen when
you press ‘MENU’ key.
NG
The LVDS cable is disconnected.
OK
OK
Check the 3V3 power
supplied to I306
Proceed ‘Abnormal screen detection’ section
NG
OK
Check if the
voltage on I309 pin8 that is
power DC at 5V
NG
I309 may be damaged.
OK
Check the 1V8 power are
supplied on I306
Failure Point: I306 is defected.
NG
OK
Check the 5V
power is supplied on P306
pin28, pin29, pin3 to the
LCD panel
NG
Check if the voltage
on I301 pin3 that is DC
power at 5V
OK
OK
Check the P306 all
LVDS signals
Check if the TTL
level on Q302 pin2 and TTL
level is low
OK
OK
Failure Point:
Q302 is failure
NG
Failure Point:
1. The LVDS cable beoke
between P306 and LCD module.
2. LCD module is failure.
Failure Point:
Check if the voltage on I306
pin1 that is power DC 3V3
NG
Failure Point:
1. I301 is open.
2. Printed wire is broken
between P306 pin28, pin29
and FB303.
Failure Point:
1. Printed wire broke between
I307 pin3 and I306 pin1
2. L336 is open
OK
Failure Point:
I306 is failure
NG
Check the PANEL
ENABLE signal of the
rectangle input Q302 pin2 at
TTL high level.
OK
Failure Point:
1. Printed wire broke between
P306 and I306 LVDS signals.
2. I306 is defected.
NG
Failure Point:
1. Printed wire broke between Q302 pin2,
I306 pin127.
2. I303 is failure
NG
Failure Point:
Q302 is failure
18
ACER AL1716W
4. Troubleshooting (continued)
Go to cover page
4.5 Abnormal screen for VGA source
Check the R.G.B video signals from
computer input on P302 of video connector
NG
Failure Point:
1. No R.G.B video signals output from host computer. Check the computer.
2. VGA video signal cable disconnected
NG
Failure Point:
In the case of the RED signal. (Green and Blue signals are the same path, too.)
1. Video cable is failure.
2. l306 is damaged.
3. FB305, FB307, FB309, FB308, FB306, FB310,
R310~R318, C317~C320, C324,C325 is Open
4. R313, R314, R315 is short.
OK
Check VGA R.G.B input
video signals on I306 pin99, pin96, pin93
respectively that their level is
0.5Vp-p to 0.7Vp-p
OK
Check all LVDS signals being
output to P306 from I306?
OK
Proceed ‘Checking the resolution changed IC
movement’ section
NG
Failure Point:
Printed wire is open between I306 and P306.
4. Troubleshooting (continued)
ACER AL1716W
Go to cover page
4.6 Abnormal OSM display adjust problem
Check the input TTL level whether to
change when press the function keys on the P307
pin3, pin4 (normal is high level when to press button,
the level will be changed.)
NG
Failure Point:
1. Function key wire is disconnected.
2. Function key wire is defected.
3. Function key board is defected.
NG
Failure Point:
1. Printed wire broken between P307 pin2 and I306 pin114.
2. Printed wire broken between P307 pin3 and I306 pin115.
3. R368 C382 R369 C383 C387,C388,C391 or
C392 is short.
4. R380,R383,R378 or R379 is open.
OK
Check the input TTL level whether to
change when press the function keys on I306 pin114
and pin115.
OK
Failure Point:
I306 is failure
19
20
ACER AL1716W
4. Troubleshooting (continued)
Go to cover page
4.7 Abnormal plug and play for VGA
Confirm the host computer supplies DDC2
mode.
NG
Failure Point:
The host computer is not communicating in DDC2 mode.
NG
Failure Point:
The VGA video cable is defected.
NG
Failure Point:
1. Printed wire is broken between P302 pin9 and I304 pin8
2. D307 or D308 is damaged.
OK
Check the voltage on P302 pin10
that is power DC 5V.
OK
Check the voltage on I304 pin8
that is power DC 5V.
OK
Check the voltage on
P302 pin12, pin15 that are serial
data and clock signal.
NG
Failure Point:
The VGA video cable is damaged. If I304 pin5, pin6 LOW,
the I304 may be failure.
OK
Check the output signal of serial data and
clock signal I304 pin5 and pin6
OK
Failure Point:
1. R328, R329, R326, R327 is open.
2. D309, D310 is short.
3. C331, C332 is short.
NG
Failure Point:
I304 is defected.
7. Troubleshooting (continued)
ACER AL1716W
Go to cover page
4.8 Checking the control circuit of vertical sync pulse for VGA
Check the vertical sync signal on P302
pin14 TTL level
NG
Failure Point:
VGA video cables is failure.
OK
Check the vertical sync
signal on I306 pin90 TTL level
OK
Proceed ‘Checking the resolution change IC
movement’ section
NG
Failure Point:
1. Printed wire is open between P302 pin14 and I306
pin90.
2. FB312 and R322 may be open.
3. R323 and C327 may be short.
4. D305, D306 is short.
21
22
ACER AL1716W
4. Troubleshooting (continued)
Go to cover page
4.9 Checking the resolution change IC movement
1. Check +3V3 supplied on I306
pin2, pin25, pin53, pin47, pin74,
pin82, pin91, pin92, pin101. pin110,
pin116
2. Check +3V3 supplied on I309
pin8.
NG
Proceed ‘Checking the DC/DC converter circuit’ section
NG
Proceed ‘Checking the DC/DC converter circuit’ section
NG
Failure Point:
1. Printed wire broke between X301 and I306 pin108
and pin109
2. C362 or C373 may be short or open.
3. X301 is damaged.
NG
Failure Point:
1. Printed wire broke between I306 pin111 and I307
pin2.
2. C375 is short.
3. I307 or I306, Q305 is damaged.
4. R349, R348 is open.
NG
Failure Point:
1. Printed wire broke between I309 pin5, pin6 and
I306 pin61, pin62.
2. I306, I309 is defected.
3. R362,R364,R365,R366,R359,R360 or R361
is open.
OK
1. Check +1V8 supplied on I306
pin55, pin87, pin17, pin118, pin70,
pin78, pin104, pin106.
2. Check +1V8 supply on I305 pin46,
pin53, pin86, and pin122.
OK
Check X301 14.318MHz clock input to I306
pin108 and pin109 at TTL level
OK
Check I306 pin111 RSTB signal is high level at
normal operation.
OK
1.Check I309 pin8, pin3, pin5, pin6.
2.Check I308 pin5, pin6, pin7, pin8.
OK
Failure Point:
I306 is defected.
5. Spare Parts List
Model Name: ACER_AL1716W
Model Number: 4793102913P
Description: T17ANHW-G1(99)~E91(C)_ACER_AL1716W
ACER AL1716W
23
Go to cover page
BOARD ASSY'S
CKT_ID
0
0
0
0
0
Component
5113102243P
5113301738P
5113800899P
5114300839P
5112403872P
Description
T17ANHW-G1(99)_ACER_LCD ASSY
T17ANHW-G1(99)_ACER_INTERFACE BD
T17BNHW-G1(99)_ACER_FUNCTION KEY BD
T17BNHW-G1(99)_ACER_POWER BD
T17ANHW-G1(99)_ACER_PACKING ASSY
Pri
Description
CAP.ALU_uF_22_50V_T_105C_5x11_SK/SUSCON
CAP. CD_pF_1000_50V_K_T_X7R
CAP. PER_uF_0.047_50V_J_T_EUR
CAP. PEM_uF_0.047_50V_J_T
CAP. CD_pF_1000_50V_K_T_X7R
CAP. PER_pF_1000_50V_J_T_EUR
CAP. PEM_uF_0.001_50V_J_T
CAP.CD_pF_10_3000V_J_L3.0P7.5_NPO_SUCCES S
CAP. CD_pF_10_3000V_K_F_P=7.5_SL_TDK
CAP.CD_pF_5_3000V_K_L4P7.5_SL_TDK
CAP.CD_pF_5_3000V_K_L4P7.5_SL_SUCCESS
CAP. PER_pF_3300_50V_J_T_EUROPTRONIC
CAP. PEM_uF_0.0033_50V_J_T
CAP.ALU_uF_470_35V_T_105C_10x20_MF/SUSCO
CAP. PER_uF_0.047_50V_J_T_EUR
CAP. PEM_uF_0.047_50V_J_T
CAP.ALU_uF_470_35V_T_105C_10x20_MF/SUSCO
CAP.ALU_uF_470_35V_T_105C_10x20_MF/SUSCO
CAP. PER_pF_1000_50V_J_T_EUR
CAP. PEM_uF_0.001_50V_J_T
CAP. PER_pF_1000_50V_J_T_EUR
CAP. PEM_uF_0.001_50V_J_T
CAP. CD_PF_220_50V_K_T_Y5P
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.ALU_uF_100_25V_L3.5P2.5_105C_6.3x11_ SK/SUSCON
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON
CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON
CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON
CAP.ALU_uF_100_25V_L3.5P2.5_105C_6.3x11_ SK/SUSCON
CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON
CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON
CAP.ALU_uF_100_25V_L3.5P2.5_105C_6.3x11_ SK/SUSCON
CAP. MC_uF_0.01_50V_M_X7R_
CAP. MC_uF_0.01_50V_M_X7R_
CAP. MC_uF_0.01_50V_M_X7R_
CAP. MC_uF_0.01_50V_M_X7R_
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP. MC_uF_0.01_50V_M_X7R_
CAP. MC_uF_0.01_50V_M_X7R_
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP. MC_pF_100_50V_J_NPO_SMD 0603
CAP. MC_pF_47_50V_J_NPO_SMD 060
CAP. MC_pF_47_50V_J_NPO_SMD_603_SMD
Pri
CAPACITORS
CKT_ID
C102
C104
C106
C106
C107
C111
C111
C116
C116
C118
C118
C119
C119
C125
C128
C128
C134
C135
C142
C142
C144
C144
C152
C301
C302
C305
C306
C307
C308
C309
C309
C310
C310
C311
C312
C312
C313
C313
C314
C315
C315
C316
C317
C318
C319
C320
C321
C322
C323
C324
C325
C326
C327
C328
C328
Component
6311522045P20
6338110215P
6355147355P
6357147355P
6338110215P
6355110255P
6357110255P
6334110052P30
6334910082P20
6334950912P20
6334950912P30
6355133255P
6357133255P
6311447185P20
6355147355P
6357147355P
6311447185P20
6311447185P20
6355110255P
6357110255P
6355110255P
6357110255P
6335122115P
6373410486P01
6373410486P01
6373410486P01
6373410486P01
6311310142P20
6373410486P01
6373210416P
6373210416P40
6311210069P10
6311210069P20
6373410486P01
6373210416P
6373210416P40
6311210069P10
6311210069P20
6311310142P20
6311210069P10
6311210069P20
6311310142P20
6371210306P01
6371210306P01
6371210306P01
6371210306P01
6373410486P01
6373410486P01
6373410486P01
6371210306P01
6371210306P01
6373410486P01
6371110156P
6371147056P
6371147056P01
50
51
50
51
50
51
51
50
50
51
50
51
50
51
50
51
50
51
51
50
50
51
51
50
51
50
50
51
ACER AL1716W
24
5. Spare Parts List (continued)
Go to cover page
CAPACITORS
CKT_ID
C328
C329
C330
C331
C332
C348
C348
C349
C349
C350
C350
C351
C351
C352
C352
C353
C354
C354
C355
C355
C356
C356
C357
C357
C358
C359
C360
C361
C362
C363
C363
C364
C364
C365
C365
C366
C367
C367
C368
C368
C369
C370
C371
C372
C373
C374
C375
C376
C376
C377
C379
C379
C380
C380
C382
C383
C385
C386
C387
C387
C388
C388
C391
C392
C392
C601
Component
6371147056P40
6373410486P01
6373410486P01
6371147056P
6371147056P
6311210069P10
6311210069P20
6373210416P
6373210416P40
6373210416P
6373210416P40
6373210416P
6373210416P40
6373210416P
6373210416P40
6373410486P01
6373210416P
6373210416P40
6311210069P10
6311210069P20
6373210416P
6373210416P40
6311210069P10
6311210069P20
6373410486P01
6373410486P01
6373410486P01
6373410486P01
6371110056P01
6311210069P10
6311210069P20
6373210416P
6373210416P40
6373210416P
6373210416P40
6373410486P01
6373210416P
6373210416P40
6311210069P10
6311210069P20
6373410486P01
6373410486P01
6373410486P01
6373410486P01
6371110056P01
6373410486P01
6371110156P
6373210416P
6373210416P40
6373410486P01
6373210416P
6373210416P40
6373210416P
6373210416P40
6373410486P01
6373410486P01
6373410486P01
6373410486P01
6373210416P
6373210416P40
6373210416P
6373210416P40
6373410486P01
6373210416P
6373210416P40
6373210412P
Description
CAP.MC_pF_47_50V_J_NPO_0603_SAMSUNG
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP. MC_pF_47_50V_J_NPO_SMD 060
CAP. MC_pF_47_50V_J_NPO_SMD 060
CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON
CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON
CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON
CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP. MC_pF_10_50V_J_NPO_SMD_603_SMD
CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON
CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON
CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP. MC_pF_10_50V_J_NPO_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP. MC_pF_100_50V_J_NPO_SMD 0603
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMD
CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB
CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG
CAP. MC_uF_0.1_25V_K_X7R_SMD 0805
Pri
52
51
50
50
51
50
51
50
51
50
51
50
51
51
50
50
51
51
50
51
50
50
51
50
51
50
51
51
50
50
51
50
51
50
51
50
51
50
51
50
51
5. Spare Parts List (continued)
ACER AL1716W
25
Go to cover page
CAPACITORS
CKT_ID
C602
C801
C802
C802
C805
C805
C806
C807
C809
C810
C811
C812
C815
C816
C818
C819
C820
C821
C822
C823
C824
C825
C827
C827
C828
C829
Component
6373210412P
6328833419P
6302433262P
6302433262P01
6312710141P60
6312710149P22
6336510305P
6311510045P20
6338547215P30
6338522115P
6335122115P
6335110215P
6336510305P
6338410215P
6311447185P20
6328833419P
6302422212P01
6338210215P
6311210245P22
6311210245P22
6311210245P22
6302422212P01
6355110355P
6357110355P
6311547945P20
6338547215P30
Description
CAP. MC_uF_0.1_25V_K_X7R_SMD 0805
CAP. X2_MPP_uF_0.33_275V_K_P=15_HJC
CAP. CD_pF_3300_250V_M_F_10_SYI_P/O
CAP. CD_pF_3300_250V_M_F_P=10_SY1_SEC
CAP. ALU_uF_100_450V_LF15P7.5_105C
18*35.5_PAG NIPPON CHEMI-CON
CAP.ALU_uF_100_450V_90DP7.5R_105C_18x35 SE_SUSCON
CAP. CD_uF_0.01_1000V_M_T_Z5U
CAP.ALU_uF_10_50V_T_105C_5x11_SK/SUSCON
CAP. CD_pF_4700_1000V_K_T_X7R_SEC
CAP. CD_pF_220_1000V_K_T_X7R
CAP. CD_PF_220_50V_K_T_Y5P
CAP. CD_PF_1000_50V_K_T_Y5P
CAP. CD_uF_0.01_1000V_M_T_Z5U
CAP. CD_pF_1000_500V_K_T_X7R
CAP.ALU_uF_470_35V_T_105C_10x20_MF/SUSCO
CAP. X2_MPP_uF_0.33_275V_K_P=15_HJC
CAP. CD_PF_2200_250V_M_F_10_SY1
CAP. CD_pF_1000_100V_K_T_X7R
CAP.ALU_uF_1000_16V_T_105C_10x20_HG
/SUSCON
CAP.ALU_uF_1000_16V_T_105C_10x20_HG
/SUSCON
CAP.ALU_uF_1000_16V_T_105C_10x20_HG
/SUSCON
CAP. CD_PF_2200_250V_M_F_10_SY1
CAP. PER_uF_0.01_50V_J_T_EUROPTRONIC
CAP. PEM_uF_0.01_50V_J_T
CAP.ALU_uF_4.7_50V_T_105C_5x11_SK/SUSCON
CAP. CD_pF_4700_1000V_K_T_X7R_SEC
Pri
50
51
51
50
50
51
COILS, TRANSFORMER, AND FILTERS
CKT_ID
FB301
FB302
FB303
FB304
FB305
FB306
FB307
FB308
FB309
FB310
FB311
FB312
FB313
FB314
FB315
FB316
FB317
FB323
L802
L803
T102
T102
T801
T802
Component
6881603578P
6881603578P
6881603578P
6881603578P
6881604078P
6881601578P
6881604078P
6881601578P
6881604078P
6881601578P
6881604238P10
6881604238P10
6881603878P
6881603878P
6881603878P
6881603878P
6881603878P
6881603878P
6881008005P
6881001507P
6131022300P
6131022310P
6138003000P
6131053702P
Description
CORE_BEAD_PBY160808T_600Y_S_SMD_CHILISIN
CORE_BEAD_PBY160808T_600Y_S_SMD_CHILISIN
CORE_BEAD_PBY160808T_600Y_S_SMD_CHILISIN
CORE_BEAD_PBY160808T_600Y_S_SMD_CHILISIN
CORE_BEAD_SBK160808T 110YS_SMD 0603
CHILISIN
CORE_BEAD_SBK160808T_300Y_S
CORE_BEAD_SBK160808T 110YS_SMD 0603
CHILISIN
CORE_BEAD_SBK160808T_300Y_S
CORE_BEAD_SBK160808T 110YS_SMD 0603
CHILISIN
CORE_BEAD_SBK160808T_300Y_S
CORE_BEAD_SBK160808T_451Y_N_SMD_CHILISIN
CORE_BEAD_SBK160808T_451Y_N_SMD_CHILISIN
CORE_BEAD_PBY160808T_301Y_S_SMD0604
CHILISIN
CORE_BEAD_PBY160808T_301Y_S_SMD0604
CHILISIN
CORE_BEAD_PBY160808T_301Y_S_SMD0604
CHILISIN
CORE_BEAD_PBY160808T_301Y_S_SMD0604
CHILISIN
CORE_BEAD_PBY160808T_301Y_S_SMD0604
CHILISIN
CORE_BEAD_PBY160808T_301Y_S_SMD0604
CHILISIN
CORE_BEAD_C8B RH3.5xL6x1(W)X2+TP
CORE_BEAD_W5 RH3.5x6x1.0T
XFRMER_POWER_TPW 1137_EEL_19B_LSE
XFRMER_POWER_TPW_1137_EEL19_DARFON TK202 4M101
LINE FILTER_TLF_1030_mH_10.5_ET
XFRMER_POWER_TPW-1128_ER28(ADD1Ts)_LSE PLI6008AL
Pri
50
51
CABLES AND CONNECTORS AND PLUGS
CKT_ID
GND1
P103
P103
P104
P104
P301
P302
P302A
P306
P306
Component
6714010601P25
6613050030P
6613050030P80
6613050030P
6613050030P80
6613090020P
6642150411P
6715011603P00
6640030005P20
6640030007PD0
Description
HARNESS-1P-120mm-CG601-21 LENGTH-1.8/TIN 10
PLUG_5P/2P_2.0mm_62047_TAIWAN KING PIN
PLUG_5P/2P_2.0mm_M24211P5R-D_STM
PLUG_5P/2P_2.0mm_62047_TAIWAN KING PIN
PLUG_5P/2P_2.0mm_M24211P5R-D_STM
PLUG_9P_2.0mm_JWT_A2001WR2_09
CONNECTOR_D_SUB_15P_P03_A004_199_NTK 401MAKER
CABLE_VIDEO_DSUBx2_1800mm_BLK_20276#30 (3+6)OD=6_JCE
CONN_FFC_30P_1.0_CF25302D0R0-10_CVILUX
CONN_FFC_30P_1.0_AFN300-N2G11_P-TWO
Pri
51
50
51
50
51
50
ACER AL1716W
26
5. Spare Parts List (continued)
Go to cover page
CABLES AND CONNECTORS AND PLUGS
CKT_ID
P306A
P307
P307
P307A
P601
P801
P801
P802
S601
S601
S602
S602
S603
S603
S604
S604
S605
S605
Component
6712300067PC0
6613005003P20
6613050020P
6711050010P00
6610005002P00
6621030150PS0
6621030151P91
6711100003P90
6853001100P
6853001120P
6853001100P
6853001120P
6853001100P
6853001120P
6853001100P
6853001120P
6853001100P
6853001120P
Description
HARNESS_FFC_30P(1.0)_200mm_20696_P-TWO
PLUG_5P_2.0mm_CI0105P1VK0_CVILUX
PLUG_5P_2.0mm_A2001WV2_05_JWT
HARNESS_5P_220mm_1571#28_JCE
PLUG_5P_1.25mm_A1251WR0-5P_JWT
AC INLET_3P_INALWAYS_0707-1-C7C
AC INLET_3P_DLK_CDJ_3H
HARNESS_10P/9P_100mm_1007#24_ETC
SWITCH_TACT_SKHHAK2510_BLK 5mm
SWITCH_TACT_100gf_BLK_DANG NAN
SWITCH_TACT_SKHHAK2510_BLK 5mm
SWITCH_TACT_100gf_BLK_DANG NAN
SWITCH_TACT_SKHHAK2510_BLK 5mm
SWITCH_TACT_100gf_BLK_DANG NAN
SWITCH_TACT_SKHHAK2510_BLK 5mm
SWITCH_TACT_100gf_BLK_DANG NAN
SWITCH_TACT_SKHHAK2510_BLK 5mm
SWITCH_TACT_100gf_BLK_DANG NAN
Pri
Component
6412001704P
6412025504P
6412001704P
6412025504P
6412001704P
6412025504P
6412001704P
6412025504P
6412001704P
6412025504P
6412001704P
6412025504P
6412019518P
6412027818P10
6412019518P
6412027818P10
6412019518P
6412027818P10
6414056038P
6414056108P
6414056038P
6414056108P
6414056038P
6414056108P
6413030038P
6414056038P
6414056108P
6414056038P
6414056108P
6414056038P
6414056108P
6418004600P
6418004610P
6417001010P
6417002100PF0
6417002300PH0
6413150007PA0
6413150027P
6412026604P
6412012337P
6412001707P
6412025507P
6412000020P00
6412027820PG0
6413060000P
Description
DIODE_SWITCHING_1N4148 T_77_T2
DIODE_SWITCHING_IN4148E_T26_GRANDE
DIODE_SWITCHING_1N4148 T_77_T2
DIODE_SWITCHING_IN4148E_T26_GRANDE
DIODE_SWITCHING_1N4148 T_77_T2
DIODE_SWITCHING_IN4148E_T26_GRANDE
DIODE_SWITCHING_1N4148 T_77_T2
DIODE_SWITCHING_IN4148E_T26_GRANDE
DIODE_SWITCHING_1N4148 T_77_T2
DIODE_SWITCHING_IN4148E_T26_GRANDE
DIODE_SWITCHING_1N4148 T_77_T2
DIODE_SWITCHING_IN4148E_T26_GRANDE
DIODE_SWITCHING_MMBD7000_7_75V_SOT23_4nS DII
DIODE_BAV99-7-F_SOT23_DIODES
DIODE_SWITCHING_MMBD7000_7_75V_SOT23_4nS DII
DIODE_BAV99-7-F_SOT23_DIODES
DIODE_SWITCHING_MMBD7000_7_75V_SOT23_4nS DII
DIODE_BAV99-7-F_SOT23_DIODES
DIODE_ZNR_RLZ TE_11 5.6B LL_34
DIODE_ZENER_MMSZ5232B_7_5.6V_SOD123_DII
DIODE_ZNR_RLZ TE_11 5.6B LL_34
DIODE_ZENER_MMSZ5232B_7_5.6V_SOD123_DII
DIODE_ZNR_RLZ TE_11 5.6B LL_34
DIODE_ZENER_MMSZ5232B_7_5.6V_SOD123_DII
DIODE_SCHOTTKY_BAT54C_7_0.2A/30V_SOT23 5nS_DII
DIODE_ZNR_RLZ TE_11 5.6B LL_34
DIODE_ZENER_MMSZ5232B_7_5.6V_SOD123_DII
DIODE_ZNR_RLZ TE_11 5.6B LL_34
DIODE_ZENER_MMSZ5232B_7_5.6V_SOD123_DII
DIODE_ZNR_RLZ TE_11 5.6B LL_34
DIODE_ZENER_MMSZ5232B_7_5.6V_SOD123_DII
LED_LTL_1_BEDJP1_1(Y)3(G)_BULK_LITEON
LED_GP32032M/R003_ZY_01_YELLOW/GREEN 1(G 3(Y)_DIP_G&P
DIODE_BRIDGE_U4KB80R_4A/800V_SHINDENGEN
DIODE_BRIDGE_SINGLE_GBU4K_4A/800V_GBU_VI SHAY
DIODE_BRIDGE_SINGLE_GBU406_4A/800V_GBU TSC
DIODE_SCHOTTKY_P6KE150AT/B_T52_MCC
DIODE_SCHOTTKY_P6KE150AT/B_T52_PANJIT
DIODE_FAST RECOVERY_PG108R_1A/800V_DO_41 500nS_PANJIT
DIODE_SWITCHING_UF4005G_1A/600V_T52_75nS PANJIT
DIODE_SWITCHING_1N4148 T_72_T5
DIODE_SWITCHING_1N4148_T_T52_GRANDE
DIODE_SWITCHING_STPF1020CT_10A/200V_TO- 220AB_30nS_LITEON
DIODE_SWITCHING_URF1020_10A/200V_35NS ITO-220AB_MOSPEC
DIODE_SCHOTTKY_SB1060F_10A/60V_PANJIT
Pri
51
50
51
50
51
50
51
50
51
50
51
50
51
50
51
50
51
50
50
51
50
51
50
51
51
50
50
51
51
50
51
50
51
50
51
50
51
50
DIODES
CKT_ID
D103
D103
D109
D109
D118
D118
D119
D119
D120
D120
D121
D121
D301
D301
D302
D302
D303
D303
D304
D304
D305
D305
D306
D306
D307
D308
D308
D309
D309
D310
D310
D601
D601
D801
D801
D801
D802
D802
D803
D804
D806
D806
D809
D809
D810
50
51
50
51
50
51
50
51
50
51
52
50
51
51
50
50
51
50
5. Spare Parts List (continued)
ACER AL1716W
27
Go to cover page
DIODES
CKT_ID
D810
D811
D811
ZD101
ZD801
Component
6413060010P00
6414240014P
6414240014PB0
6414068004PB0
6414220024P
Description
DIODE_SCHOTTKY_SBF1060CT_10A/60V_TO-220 AB_LITEON
DIODE_ZNR_MTZJ T_77 24B_T26
DIODE_ZENER_GDZJ24C_T26_GRANDE
DIODE_ZNR_GDZJ6.8B_T26_GRANDE
DIODE_ZNR_MTZJ T_77 22D DO_34_T26
Pri
51
51
50
Component
6442044900P
6444014708P
6442023326P
6442023348P
6442043308P
6442043318P
6448018208P
Description
IC_LINEAR_OZ9936DN_8P_DIP_O2
IC_CMOS_AO3401_3P_SOT23_ALPHA&OMEGA
IC_LINEAR_AIC1084_33PM_3P_TO263_AIC
IC_LINEAR_AP1084K33LA_3P_TO263_ATC
IC-LINEAR-AIC1117-18PETR-3P-TO252-AIC IC
IC_LINEAR_AP1117D18L_3P_TO252_ATC
IC_CPU_24LC02BT/SN_8PIN_SOIC_MICROCHIP
Pri
Component
6448018218P
6447009006P21
6442045108P
6448016508P
6448016518P
6448029528P19
6448029596P20
6442048350P05
6442014000P
6442041005P
6444023100P
Description
IC_CPU_M24C02_WMN6T_8PIN_SO8_ST
IC_ASIC_GM5726H-LF-AB_128P_PQFP_GENESIS DIGITAL
IC_LINEAR_STL8110GNL463_3P_SO_23_SENTELI C
IC_CPU_24LC16BT/SN_8PIN_SOIC
IC_CPU_M24C16_WMN6T_8PIN_SO8_ST
IC_CPU_PM25LV020_100SCE_8PIN_SOIC_PMC DIGITAL
IC_CPU_SST25LF020A-33-4C-SAE_8P_SOIC_SST DIGITAL
IC_LINEAR_SG5841JDZ_8_DIP_SG_DIGITAL
IC_Linear_LTV_817D_4P_PDIP
IC_LINEAR_AP431VLA_3P_TO 92_ANACHIP
IC-CMOS-AOP607-8P-DIP-AOS
Pri
50
Description
RES. CF_KOHM_100_1/4W_J_T26_MIN
RES. CF_KOHM_100_1/4W_J_T26_MIN
RES. CF_KOHM_10_1/4W_J_T26_MINI
RES. MF_KOHM_102_1/4W_F_T26
RES. CF_OHM_22_1/4W_J_T26_MINI
RES. CF_KOHM_1_1/4W_J_T26_MINI
RES. CF_KOHM_750_1/4W_J_T26_MINI
RES. CF_KOHM_100_1/4W_J_T52_MINI
RES. CMF_MOHM_3_1/4W_J_T52_KAMAYA:RNV600 V
RES. MF_KOHM_3.65_1/4W_F_T26
RES. MF_OHM_340_1/4W_F_T26
RES. CF_OHM_10_1/4W_J_T26_MINI
RES. CF_KOHM_2_1/4W_J_T26_MINI
RES. CF_OHM_10_1/4W_J_T26_MINI
RES. CF_KOHM_1.5_1/4W_J_T26_MIN
RES. CF_KOHM_1_1/4W_J_T26_MINI
RES. CHIP_R_KOHM_1_1/10W_J_603
RES. CHIP_R_KOHM_10_1/10W_J_603
RES. CHIP_R_KOHM_4.7_1/10W_J_603
RES. CHIP_R_OHM_100_1/10W_J_603
RES. CHIP_R_KOHM_10_1/10W_J_603
RES. CHIP_R_KOHM_47_1/10W_J_603
RES.CHIP-R_KOHM_2.4_1/10W_J_0603
RES. CHIP_R_OHM_68_1/10W_J_603
RES. CHIP_R_OHM_100_1/10W_J_603
RES. CHIP_R_OHM_68_1/10W_J_603
RES. CHIP_R_OHM_75_1/10W_F_603
RES. CHIP_R_OHM_75_1/10W_F_603
RES. CHIP_R_OHM_75_1/10W_F_603
RES. CHIP_R_OHM_100_1/10W_J_603
RES. CHIP_R_OHM_68_1/10W_J_603
RES. CHIP_R_OHM_100_1/10W_J_603
RES. CHIP_R_KOHM_10_1/10W_J_603
RES. CHIP_R_KOHM_1_1/10W_J_603
RES. CHIP_R_OHM_100_1/10W_J_603
Pri
ICS
CKT_ID
I101
I301
I302
I302
I303
I303
I304
51
51
50
51
50
51
ICS
CKT_ID
I304
I306
I307
I308
I308
I309
I309
I801
I802
I803
Q105
51
50
51
50
51
RESISTORS
CKT_ID
R101
R102
R103
R104
R105
R112
R113
R118
R125
R126
R130
R131
R132
R133
R134
R164
R301
R302
R304
R305
R307
R308
R309
R310
R311
R312
R313
R314
R315
R316
R317
R318
R319
R320
R321
Component
6212110454P
6212110454P
6212110354P
6224610234P
6212122054P
6212110254P
6212175454P
6212110457P
6213230557P
6224636514P
6224634004P
6212110054P
6212120254P
6212110054P
6212115254P
6212110254P
6252100156P
6252100256P
6252470156P
6252100056P
6252100256P
6252470256P
6252240156P00
6252680956P
6252100056P
6252680956P
6252750946P
6252750946P
6252750946P
6252100056P
6252680956P
6252100056P
6252100256P
6252100156P
6252100056P
ACER AL1716W
28
5. Spare Parts List (continued)
Go to cover page
RESISTORS
CKT_ID
R322
R323
R324
R325
R326
R327
R328
R329
R330
R348
R349
R350
R351
R356
R357
R358
R359
R360
R362
R363
R364
Component
6252100056P
6252240156P00
6252240156P00
6252100256P
6252120256P
6252120256P
6252470956P
6252470956P
6252240156P00
6252240156P00
6252100946P
6252250046P
6252240156P00
6252240156P00
6252240156P00
6252240156P00
6252470156P
6252470156P
6252100256P
6252240156P00
6252100256P
Description
RES. CHIP_R_OHM_100_1/10W_J_603
RES.CHIP-R_KOHM_2.4_1/10W_J_0603
RES.CHIP-R_KOHM_2.4_1/10W_J_0603
RES. CHIP_R_KOHM_10_1/10W_J_603
RES. CHIP_R_KOHM_12_1/10W_J_603
RES. CHIP_R_KOHM_12_1/10W_J_603
RES. CHIP_R_OHM_47_1/10W_J_603
RES. CHIP_R_OHM_47_1/10W_J_603
RES.CHIP-R_KOHM_2.4_1/10W_J_0603
RES.CHIP-R_KOHM_2.4_1/10W_J_0603
RES. CHIP_R_OHM_10_1/10W_F_603
RES. CHIP_R_OHM_250_1/10W_F_603
RES.CHIP-R_KOHM_2.4_1/10W_J_0603
RES.CHIP-R_KOHM_2.4_1/10W_J_0603
RES.CHIP-R_KOHM_2.4_1/10W_J_0603
RES.CHIP-R_KOHM_2.4_1/10W_J_0603
RES. CHIP_R_KOHM_4.7_1/10W_J_603
RES. CHIP_R_KOHM_4.7_1/10W_J_603
RES. CHIP_R_KOHM_10_1/10W_J_603
RES.CHIP-R_KOHM_2.4_1/10W_J_0603
RES. CHIP_R_KOHM_10_1/10W_J_603
Pri
Description
RES. CHIP_R_OHM_100_1/10W_J_603
RES. CHIP_R_OHM_100_1/10W_J_603
RES. CHIP_R_KOHM_820_0.1W_J_TAPING
RES. CHIP_R_KOHM_820_0.1W_J_TAPING
RES.CHIP-R_KOHM_2.4_1/10W_J_0603
RES.CHIP-R_KOHM_2.4_1/10W_J_0603
RES. CHIP_R_OHM_100_1/10W_J_603
RES. CHIP_R_OHM_100_1/10W_J_603
RES.CHIP-R_KOHM_56_1/10W_F_0603_COMPOSTA
RES.CHIP-R_KOHM_56_1/10W_F_0603_COMPOSTA
RES. CHIP_R_OHM_100_1/10W_J_603
RES. CHIP_R_OHM_100_1/10W_J_603
RES. CHIP_R_KOHM_56_1/8W_F_805
RES.CHIP-R_KOHM_15_1/8W_F_0805
RES. CHIP_R_KOHM_56_1/8W_F_805
RES.CHIP-R_KOHM_30_1/8W_F_0805
RES.CHIP-R_KOHM_15_1/8W_F_0805
RES. MGF_MOHM_1_1/4W_J_AT52
THERMISTOR_OHM_8_3A_P=5_SCK_083_TKS
RES. MGF_MOHM_2_1/4W_J_T52
RES. CF_OHM_3.3_1/4W_J_T26_MINI
RES. MF_KOHM_30.1_1/4W_F_T26
RES. MOF_OHM_0.39_2W_J_HOR
RES. MOF_OHM_100_1/4W_J_AT52
RES. MOF_OHM_22_1/4W_J_AT52
RES. MOF_OHM_220_1/4W_J_AT52
RES. CF_KOHM_51_1/4W_J_T26_MINI
RES. CF_OHM_270_1/4W_J_T26_MINI
RES. MF_KOHM_33_1/4W_F_T26
RES. CF_KOHM_1_1/4W_J_T26_MINI
RES. CF_KOHM_1_1/4W_J_T26_MINI
RES. MF_KOHM_33_1/4W_F_T26
RES. CF_KOHM_1_1/4W_J_T26_MINI
RES. MF_KOHM_3.65_1/4W_F_T26
Pri
Description
FET_P-CHNL_AO3419_3P_SOT23_AOS
FET_N_CHNL_2N7000TA_200mA/60V_F
TRANSISTOR_NPN_KTC945_P_AT_KEC
TRANSISTOR_NPN_2SC945P_TO_92_B/
TRANSISTOR_PNP_KTA733_P_AT_TO
TRANSISTOR_PNP_2SA733P_T0_92_B/
Pri
50
RESISTORS
CKT_ID
R365
R366
R368
R369
R372
R374
R375
R376
R378
R379
R380
R383
R601
R602
R603
R604
R605
R801
R802
R804
R807
R808
R811
R813
R814
R815
R817
R823
R824
R825
R826
R827
R828
R851
Component
6252100056P
6252100056P
6252820356P
6252820356P
6252240156P00
6252240156P00
6252100056P
6252100056P
6252560246P00
6252560246P00
6252100056P
6252100056P
6253560242P
6253150242P00
6253560242P
6253300242P00
6253150242P00
6228110557P
6201080012P
6228120557P
6212133954P
6224630124P
6221239852P
6221010157P
6221022057P
6221022157P
6212151354P
6212127154P
6224633024P
6212110254P
6212110254P
6224633024P
6212110254P
6224636514P
TRANSISTOR
CKT_ID
I301
Q101
Q102
Q102
Q103
Q103
Component
6427000018P50
6426008505P
6421000525P
6421000535P
6423000215P
6423000225P
50
51
50
51
5. Spare Parts List (continued)
ACER AL1716W
29
Go to cover page
TRANSISTOR
CKT_ID
Q105
Q106
Q106
Q107
Q107
Q108
Q108
Q301
Q301
Q301
Q302
Q302
Q302
Q303
Q303
Q303
Q306
Q306
Q306
Q308
Q308
Q308
Q803
Q803
Component
6428000010P50
6421000525P
6421000535P
6421000525P
6421000535P
6421000525P
6421000535P
6422000018P20
6422007318P
6422007328P
6422000018P20
6422007318P
6422007328P
6422000018P20
6422007318P
6422007328P
6422000018P20
6422007318P
6422007328P
6422000018P20
6422007318P
6422007328P
6426000190PF0
6426014260P70
Description
FET_AOP609_8P_DIP_AOS
TRANSISTOR_NPN_KTC945_P_AT_KEC
TRANSISTOR_NPN_2SC945P_TO_92_B/
TRANSISTOR_NPN_KTC945_P_AT_KEC
TRANSISTOR_NPN_2SC945P_TO_92_B/
TRANSISTOR_NPN_KTC945_P_AT_KEC
TRANSISTOR_NPN_2SC945P_TO_92_B/
TRANSISTOR_NPN_PMBS3904_SOT23_PHILIPS
TRANSISTOR_NPN_MMBT3904_7_SOT23_DII
TRANSISTOR_NPN_LMBT3904LT1G_SOT23_LRC
TRANSISTOR_NPN_PMBS3904_SOT23_PHILIPS
TRANSISTOR_NPN_MMBT3904_7_SOT23_DII
TRANSISTOR_NPN_LMBT3904LT1G_SOT23_LRC
TRANSISTOR_NPN_PMBS3904_SOT23_PHILIPS
TRANSISTOR_NPN_MMBT3904_7_SOT23_DII
TRANSISTOR_NPN_LMBT3904LT1G_SOT23_LRC
TRANSISTOR_NPN_PMBS3904_SOT23_PHILIPS
TRANSISTOR_NPN_MMBT3904_7_SOT23_DII
TRANSISTOR_NPN_LMBT3904LT1G_SOT23_LRC
TRANSISTOR_NPN_PMBS3904_SOT23_PHILIPS
TRANSISTOR_NPN_MMBT3904_7_SOT23_DII
TRANSISTOR_NPN_LMBT3904LT1G_SOT23_LRC
FET_N-CHNL_STP9NK65ZFP_6.4A/650V_ST
FET_N-CHNL_KHB7D0N65F1_7A/650V_KEC
Pri
50
50
51
50
51
50
51
51
52
50
51
52
50
51
52
50
51
52
50
51
52
50
51
50
Description
CARTON_ ACER_T17AN_AL1716W_2160SETS
CUSHION FOAM_EPS_ACER-AL1716W_2160SETS_ L<(>&<)>R_472x117x398(H)
BAG_LDPE+EPE_ORDINARY_ALL MODEL_L680x W550mmxH0.55mm
BAG_LLDPE_ORDINARY_ALL MODEL_W500mm*H0.
BAG_LLDPE_FILM STRETCH WRAP_ALL MODEL_W
BAG_PE_ORDINARY_FOR ACER_L300xW300xT0.05 mm
TAPE_PACKING_50mx65mmx0.055mm_ACER
TAPE_PACKING_914Mx60mmx0.065mm_FOR ACER
TAPE_MASKING_PACKING_25mm(w)x45m_LITEON
TAPE_PACKING_250Mx15mmx0.95mm_ALL MODEL
BOARD_CORNER PAPER_2100x50x3mm_HP
BOARD_CORNER PAPER_850x50x3mm
BOARD_CORNER PAPER_1050*50*3mm_H
PAPER BOARD_1120*900*4mm_H
LABEL_MOD_#6360_89.5x49.5_ACER_NON-TCO
LABEL_PACKING LB_WHITE_100x80_ACER_ALL
LABEL_VISTA(WORKS)_CMYK_65x28.6_ALL
LABEL_PACKING LB_WHT_152.4x101.6_ALL
ID DATE CODE LABEL
LABEL_IC LABEL_ALL_ART PAPER_3x2mm
ID DATE CODE LABEL
ID DATE CODE LABEL
MODEL LABEL_WHITE
ID DATE CODE LABEL
TAPE_PACKING_114x36x0.25mm_FOR ACER R20 BUNW
LABEL_VISTA(WORKS)_CMYK_25.4x11.2_LENOVO T15AN
TAPE_PACKING_86x28x0.25mm_FOR ACER R20BU
ID DATE CODE LABEL
TAPE_PVC
Pri
Description
RC ASSY_#6800_ABS 94V0_ACER_T17ANHW
RC_#6800_ABS 94V0_ACER_T17ANHW
BRACKET ASSY_CHASSIS_ACER T17ANHW_SECC T=0.8mm
BRACKET_CHASSIS_ACER T17ANHW_SECCT=0.8mm
RUBBER CUSHION_COVER_NBR_BLK_L6.5xW4.5xH 0.8mm
FC ASSY_#6790/#6810_ABS94V0_ACER_T17BNHW
FC_#6790#6810P_ABS 94HB_ACER_R17BNHW
Pri
PACKING ASSYS
CKT_ID
1P11
1P21
1P31
1P33
1P34
1P37
1P41
1P42
1P43
1P44
1P51
1P52
1P53
1P56
2B01
2P01
2P04
2P09
2U01
2U02
2U03
2U04
2U04
3U01
6BB1
8C01P
8CC2
8U01
TAP1
Component
7749206234P0A
7749106560P0A
7749003210P0A
7749001360P0B
7749001370P0A
7749003190P0A
7749600730P0A
7749600850P0A
7749600200P0A
7749600650P0A
7749406860P0A
7749401590P0A
7749404900P0A
7749401870P0A
7735432480P0A
7735431081P0A
7735431688P0A
7735421811P0A
1241000205P
1241000208P
1241000205P
1241000205P
1241000400P
1241000205P
7749600940P0A
7735431685P0A
7749600950P0A
1241000205P
1120000700P
MICHANICAL PARTS
CKT_ID
6B01
6BA1
6D01
6DA1
6DB1
6F01
6FA1
Component
7737616800P0A
7742243050P0A
7737816630P0A
7748716910P0A
7742005160P0A
7737517400P0A
7742243000P0A
ACER AL1716W
30
5. Spare Parts List (continued)
Go to cover page
MICHANICAL PARTS
CKT_ID
6FB1
6FC1
6L01A
6L01B
6L01C
6L01D
6L01E
6L01F
6L01G
6L01H
6L01I
8C01
8C03
8C04
8CA2
D809N
D810N
G801
Q803N
Component
7742807870P0A
7742807880P0A
7742613400P0A
7111230061P
7116240081P0A
7110330052P0A
7140330083P0A
7110730082P0A
7140130061P0A
7115240121P0A
7110330052P0A
7742612091P0A
7738001840P0A
7140340162P0A
7740412200P0A
7110430081P
7110430081P
7748000190P0A
7110430081P
Description
PUSH BUTTON_#6780#6790_ABS_UL94HB_ACER_ R20BUNW-M1
PUSH BUTTON_KEY PW_#6780#6790_ABS_UL94HB ACER_R20BUNW-M1
COVER_HINGE_#6800_ABS_UL94HB_ACER_R20BUN W-M1
SCREW-MACHINE-Flat Washer-Pan-M3-6-Zn
SCREW-MACHINE-Star Washer-Pan-M4-8-Zn
SCREW-MACHING-FLAT HEAD-M3-5-NI
SCREW-DOUBLE THREAD-NO WASHER-FLAT HEAD
SCREW_MACHINE_NONE_HEX WASHER HEAD_M3_8m m_Fe NI
SCREW_MACHINE_WITHOUT_NINDING_M3_6L_BLA
SCREW_M4*12_DOUBLE WASHIER
SCREW-MACHING-FLAT HEAD-M3-5-NI
STAND_COVER_#6800_ABS 94HB_ABS 94HB_ACER R17BNW
HINGE_STAND_WHT_SUS430 T=2.0mm_ACER_ T17AN/BNHW
SCREW_DOUBLE THREAD_NONE_FLAT HEAD_M4x16 mm_NI
STAND_BASE_ACER_AL1717_#6800_ABS 94HB ACER 17
SCREW-MACHINE-Binding-M3-8-Zn
SCREW-MACHINE-Binding-M3-8-Zn
GROUNDING_CONNECTOR_MTS_C150AT_PHOSPHOR
SCREW-MACHINE-Binding-M3-8-Zn
Pri
PARTS & MISCELLANEOUS PARTS
CKT_ID
6F01T
6FD1
8C02
8CB2
D809M
F801
F801E
PC01
Component
7742005280P0A
7742302790P0A
7737717850P0A
7742004160P0A
7746402831P0A
6851002050P00
6622050010P
6716004833P
Description
SPONGE_GASKET FORM_WHT_W10xH10xL40mm
LENS_KEY_CLEAR_PC_UL94HB_ACER_R20BUNW-M1
BASE ASSY_#6800_ABS 94V0_ACER_T17BNHW
RUBBER CUSHION_FOOT PAD_SILICONE_BLACK
HEAT SINK_HEAT SINK_B17MTF_AL_CLEA
FUSE_TIME LAG_2A/250V_215002MXP_LITTELFU SE
FUSE CLIP_FC
CABLE_POWER_1800mm_CPQ:268246/HP&
CPQ:8121-0731_BLACK_LONGWELL
Pri
PARTS & MISCELLANEOUS PARTS
CKT_ID
Q803M
V200
X301
Y001
Y002
Y0A1
Y0B1
Y0C1
Y0E1
Y0F1
Component
7746402681P0A
6814175010P14
6449006400P
7730303323P0A
7730203550P0A
7730203572P0A
7730203573P0A
7730203132P0D
7730203431P0B
7730203451P0A
Description
HEAT SINK_K17ANU_AL_6063
LCD_17"W_HSD170MGW1-A00(LTC) _HSD_1370g
CRYSTAL_14.318MHz_AT_49_TOPICS
MANUAL ASSY_ACER_T17AN_AL1716W_EMEA_27L
CARD_SCREEN PROTECTOR_ACER_T17AA_AL1716W
CD_MANUAL_ACER_T17AN_AL1716W
CARD_QSG_ACER_T17AN_AL1716W_EMEA
CARD_WARRANTY CARD_ACER_R17AA_AL1717 _ACER_19L
CARD_OOBE BOOKLET_ACER
CARD_SP LEAFLET_ACER_ALL MODELS_EMEA
Pri
1
F801
3.15AL250V
C801
0.33U/275V
5
4
2
I801
R801
1M
1/4W
MGF
3
7
2
SG5841
1
8
6
T801
ET-20
C812
1000P
GND-1
3
+
C820
2200P/250V
4
+
R815
200/MOF
GND
8
7
6
5
R826
1K
2
C
1
A
1
GND-1
5
D801
GBU4K
4
+
1N4148
2
C805
100U/450V
D806
1
1
ZD101
22B
R827
33K
R824
33K
R813
100/MOF
22
R133
+
C102
22UF/50V
R105
22
GND
0.01UF
C827
R823
270
R814
22/MOF
R825
1K
3
R
I803
AP431
GND
GND
C104
1000P
R103
10K
BRI
C809
1000P/1KVX7R
R802
SCK103
GND
C825
2200P/250V
1
ZD801
22D
I802
LTV817
1
VDDA
DRV1
C828
4.7U/50V
4
ISEN
2
I101 OZ9936
ENA_SST_CMP
RT
GNDA
DRV2
DIM
3
GND-1
C819
0.1U/275V
C807
10UF/50V
C811
220P
1
2
3
4
-
1
3
2
GND
R808
33.2K 1%
+5V
R102
100K
Q107
C945
R104
110K
GND
+
6. Schematics and Layouts:
L
G
N
P801
ON-OFF
R118
100K
2
Q106
C945
C106
0.047UF
4
Q108
C945
R113
750K
2
3
6.1 ACER_LCD_AL1716W_SCHEMATICS_POWER BOARD
A
B
C
D
2
R101
100K
2
2
C107
1000PF
C111
1000PF
GND
5
C815
0.01UF
1KV
GND-1
R807
3.3
R851
3.6K
6
R804
2M
1/4W
MGF
1
R132
2K
R134
1K
2
Q101
2N7000
GND
6
2
3
3
GND
VS
4
3
1
1
2
3
1
2
3
1
1
R112
1K
2
Q103
A733
1
Q102 3
C945
Q803
8N60C
2
2
1
3
GND
7
C806
0.01U/1KV
D803
PG108R
1
3
T802
ER28
C832
NC
1
2
3
8
10
9
8
7
6
GND
+22V
+20V
Q105
3
D809
ER1002FCT
1
C816
1000P
500V X7R
8
7
6
5
R130
470 1%
9
2
9
GND
C821
1000P
100V X7R
D810
SRF1045C
3
1
D2
D1
D2
S1
D1
S2
AOP607
GND
C128
0.022UF
PEM
VS
G1
8
+
C125
470UF/35V
4
G2
C802
3300P/250V
D802
P6KE150A
1
2 4
5
GND
GND
C152
220PF
GND-1
D804
L803
1N4937
BEAD/6mm
C810
220P
1KV X7R
R811
0.39/2W
GND-1
R131
22
7
2
+
C135
470UF/35V
+
C134
470UF/35V
D109
C818
470U/35V
10
+
GND
10U
L802
C144
C824
1000U/10V
+
7
GND
T102
2
1000PF
D103
1N4148
4
5
6
10
EEL19-B
1
2
3
+
C822
1000U/10V
GND
1
1N4148
10
GND
11
C851
0.1UF
R817
51K
GND
2
D119
1N4148
D120
2
1N4148
1
1N4148
D118
1
+
C823
1000U/10V
GND
C116
10P/3KV
R125
3M 1/4W
GND
R126
3.65K 1%
11
1
2
1
2
1
2
E
F
G
1
12
C118
5P/3KV
C119
3300P
PEM
GND
12
1
+22V
R828
1K
D811
24B
GND
+5V
GND
GND
GND
13
BRI
ON-OFF
1
2
3
4
5
6
7
8
9
10
P103
2P
P104
2P
R164
2K
2
1
2
1
P802
1
2
1
2
GND
D121
1N4148
GND
13
6832182700P0A
C142
1000P
GND
PCB No.
1
2
1
2
1
2
3
1
3
1
A
B
C
D
E
F
G
ACER AL1716W
Go to cover page
31
VCC5V
VCC5V
VDD
1
3.VGA & DDC INTERFACE
VCC5V
RIN
GNDR
GIN
GNDG
BIN
GNDB
HS_IN
VS_IN
DDC_SCL_VGA
DDC_SDA_VGA
DDC_WPn
VGA_DETn
2
3.VGA & DDC INTERFACE
HDCP_HPDN
DDC_WPn
DVI_DETn
4.DVI & DDC INTERFACE
VCC5V
RX2+
RX2RX1+
RX1RX0+
RX0RXC+
RXC-
DDC_SCL_DVI
DDC_SDA_DVI
VOLUME
AUDIO_EN
4.DVI & DDC INTERFACE
6.AUDIO
VDD
7.AUDIO
2
3
4
DDC_SCL_VGA
DDC_SDA_VGA
RIN
GNDR
GIN
GNDG
BIN
GNDB
DDC_SCL_VGA
DDC_SDA_VGA
DVI_DETn
DDC_WPn
VGA_DETn
DDC_WPn
DVI_DETn
VOLUME
AUDIO_EN
DDC_SCL_DVI
DDC_SDA_DVI
RX2+
RX2RX1+
RX1RX0+
RX0RXC+
RXC-
DVI_DETn
VOLUME
AUDIO_EN
DDC_SCL_DVI
DDC_SDA_DVI
RX2+
RX2RX1+
RX1RX0+
RX0RXC+
RXC-
DVI_DETn
DDC_WPn
VGA_DETn
RIN
GNDR
GIN
GNDG
BIN
GNDB
4
HS_IN
VS_IN
3
HS_IN
VS_IN
6.2 ACER_LCD_AL1716W_SCHEMATICS_INTERFACE_TOP
A
B
C
D
E
F
G
1
5
5.SCALER GM5726H
RIN
GNDR
GIN
GNDG
BIN
GNDB
HS_IN
VS_IN
DDC_SCL_VGA
DDC_SDA_VGA
DDC_WPn
VGA_DETn
DVI_DETn
HDCP_HPDN
RX2+
RX2RX1+
RX1RX0+
RX0RXC+
RXC-
DDC_SCL_DVI
DDC_SDA_DVI
AUDIO_EN
VOLUME
5
6
6
7
7
8
CH3P_LV_E
CH3N_LV_E
CH2P_LV_E
CH2N_LV_E
CH1P_LV_E
CH1N_LV_E
CH0P_LV_E
CH0N_LV_E
CLKP_LV_E
CLKN_LV_E
CH3P_LV_O
CH3N_LV_O
CH2P_LV_O
CH2N_LV_O
CH1P_LV_O
CH1N_LV_O
CH0P_LV_O
CH0N_LV_O
CLKP_LV_O
CLKN_LV_O
LED_B
LED_A
LBADC_IN1
LBADC_IN2
NC
BKLT_ADJ
BKLT_EN
PANELVCC_EN
VCC5V
VCC3V3
VCC1V8
5.SCALER GM5726H
8
CH2P_LV_E
CH2N_LV_E
CH1P_LV_E
CH1N_LV_E
CH0P_LV_E
CH0N_LV_E
CLKP_LV_E
CLKN_LV_E
CH2P_LV_O
CH2N_LV_O
CH1P_LV_O
CH1N_LV_O
CH0P_LV_O
CH0N_LV_O
CLKP_LV_O
CLKN_LV_O
LED_B
LED_A
LBADC_IN1
LBADC_IN2
BKLT_ADJ
BKLT_EN
PANELVCC_EN
VCC5V
VCC3V3
9
VCC1V8
9
10
10
CH2P_LV_E
CH2N_LV_E
CH1P_LV_E
CH1N_LV_E
CH0P_LV_E
CH0N_LV_E
CLKP_LV_E
CLKN_LV_E
2.POWER
BKLT_ADJ
BKLT_EN
PANELVCC_EN
12
12
2.POWER
VDD
VLCD
VCC1V8
VCC3V3
VCC5V
VCC5V
VCC3V3
13
VLCD
VLCD
VDD
6832175000P01
13
VCC1V8
VCC3V3
VCC5V
6.KEY & PANEL INTERFACE
LED_B
VCC5V
LED_A
LBADC_IN1 VCC3V3
LBADC_IN2
NC
VLCD
CH3P_LV_O
CH3N_LV_O
CH2P_LV_O
CH2N_LV_O
CH1P_LV_O
CH1N_LV_O
CH0P_LV_O
CH0N_LV_O
CLKP_LV_O
CLKN_LV_O
CH3P_LV_E
CH3N_LV_E
CH2P_LV_E
CH2N_LV_E
CH1P_LV_E
CH1N_LV_E
CH0P_LV_E
CH0N_LV_E
CLKP_LV_E
CLKN_LV_E
6.KEY & PANEL INTERFACE
11
CH2P_LV_O
CH2N_LV_O
CH1P_LV_O
CH1N_LV_O
CH0P_LV_O
CH0N_LV_O
CLKP_LV_O
CLKN_LV_O
LED_B
LED_A
LBADC_IN1
LBADC_IN2
BKLT_ADJ
BKLT_EN
PANELVCC_EN
11
PCB No.
A
B
C
D
E
F
G
ACER AL1716W
Go to cover page
32
1
T3
VDD
3
100uF/16V(NC)
C303
4
C302
T1
0.1uF
4
10uF/16V
C313
VCC5V
2K4
R309
5
6
C307
VDD
100uF/16V
VCC5V
C306
R307
10K
T14
0.1uF
2
C305
T17
VOUT
4
2
C
6
B
Q302
MMBT3904
VIN
TAB
I302
TO-263
3
1
ADJ
AIC1084-33CM
5
18K(NC)
R303
7
C304
T4
0.1uF(NC)
R306
T8
C308
10K(NC)
T15
0.1uF
T11
C309
0.1uF
8
R302
10K
C310
10uF/16V
VCC3V3
T5
D
9
S
1
3
VCC5V
R301
1K
2
VOUT
4
2
11
R304
4K7
R305
100
FB304
T7
T9
T13
12
BKLT_ADJ
BKLT_EN
VLCD
C312
PBY160808T-600Y-S
0.1uF
VCC1V8
VCC1V8
C311
T19
C316
100uF/16V
11
PCB No.
12
0.1uF
T12
T6
10
VIN
TAB
10
AIC1117-18PE
ADJ
I303
SOT-252
3
Q301
MMBT3904
G
9
I301
AO3401
2
C315
VCC3V3
10uF/16V
8
C314
7
100uF/16V
VCC3V3
R308
47K
T18
E
0.1uF
PBY160808T-600Y-S
FB303
VCC5V
C301
T16
T10
PBY160808T-600Y-S
PBY160808T-600Y-S
0.1uF
Note: VDD for the audio power
2
6.3 ACER_LCD_AL1716W_SCHEMATICS_INTERFACE POWER
A
T2
FB301
FB302
BACKLIGHT_ADJ
BACKLIGHT_EN
VCC5V
PANELVCC_EN
3
3
1
P301
10
9
8
7
6
5
4
3
2
1
JWT-A2001WV2-10P
PANELVCC_EN
2
1
B
C
D
E
F
G
1
3
1
13
BKLT_ADJ
BKLT_EN
VLCD
13
6832175000P01
A
B
C
D
E
F
G
ACER AL1716W
Go to cover page
33
T21
VCC5V
5
D303
MMBD7000
3
T22
6
T23
T24
7
T25
FB306
8
SBK160808T-600Y-S RED_IN
9
SBK160808T-600Y-S GREEN_IN
0
FB308
FB305
0
R315
FB307
R314
75/1%
SBK160808T-600Y-S BLUE_IN
R313
75/1%
10K
R319
VCC5V
75/1%
FB310
T47
T26
T33
T38
R310
10
68
100
T27
11
C317
C318
10nF
10nF
12
T28
RIN
GNDR
GIN
R311
10nF
GNDG
T32
C319
10nF
T31
68
C320
T30
R312
100
T29
R316
BIN
T37
10nF
T36
C324
T35
68
GNDB
T34
R317
10nF
T40
C325
T39
VGA_DETn
100
100pF
C328
T57
DDC_SCL_VGA
DDC_SDA_VGA
12
PCB No.
13
RIN
GNDR
GIN
GNDG
BIN
GNDB
VGA_DETn
HS_IN
VS_IN
DDC_WPn
DDC_SCL_VGA
DDC_SDA_VGA
13
6832175000P01
R318
T45
T48
T54
HS IN
T53
100
C327
10K
R325
100pF
T51
2
2K4
11
DDC_WPn
R321
DDC5V_A
I304
VCC
WP
SCL
SDA
Q303
MMBT3904
R330
VS IN
8
7
6
5
24C02
10
T56
100
T49
8
9
R322
1
2
3
4
0
T42
R324
C326
2K4
0.1uF
D306
D304
MMSZ5232B
MMSZ5232B
R323
A0
A1
A2
GND
FB309
T44
2K4
C329
D305
D308
MMSZ5232B
R327
DDC_SCL_VGA
DDC_SDA_VGA
DDC_SCL_VGA
DDC_SDA_VGA
R326
C332
0.1uF
100pF
MMSZ5232B
C331
12K
100pF
7
12K
D310
6
MMSZ5232B
D307
BAT54C
C323
0.1uF
VCC5V
T50
C330
0.1uF
5
MMSZ5232B
D309
2
4
C322
0.1uF
1K
FB311
VGA_5V
1
3
T20
4
47
47
SBK160808T-451Y-S
SBK160808T-451Y-S
FB312
R320
VCC5V
D302
MMBD7000
3
2
2
C321
0.1uF
T41
T43
T46
VCC5V
R328
R329
1
1
D301
MMBD7000
VCC5V
T55
T52
VGA_CONn
3
2
VGA_RED
VGA_5V
VGA_GREEN
VGA_CONn
VGA_BLUE
VGA_SDA
VGA_HSYNC
VGA_SCL
VGA_VSYNC
VGA_SCL
VGA_SDA
1
P302
1
9
2
10
3
11
4
12
5
13
6
14
7
15
8
CONNECTOR DB15
2
3
6.4 ACER_LCD_AL1716W_SCHEMATICS_INTERFACE BD_VGA & DDC INTERFACE
A
B
C
D
E
F
G
1
3
1
17
16
A
B
C
D
E
F
G
ACER AL1716W
Go to cover page
34
2
DVI_RX2DVI_RX2+
DVI_SCL
DVI_SDA
DVI_RX1DVI_RX1+
DVI_5V
DVI_CONn
DVI_HP
DVI_RX0DVI_RX0+
DVI_RXC+
DVI_RXC-
T58
3
T65
T66
T67
T72
T76
T68
VCC5V
R346
R347
VCC5V
5
C334
0.1uF
1K
5
VCC5V
C344
0.1uF
T70
T73
T176
MMSZ5232B
D323
DDC5V_D
Q305
MMBT3904
2
R337
D312
MMBD7000
1
4
C333
0.1uF
D311
MMBD7000
T63
DVI_5V
C343
0.1uF
T69
VCC5V
D320
BAT54C
MMSZ5232B
D322
DVI_5V
47
47
2
3
6.5 ACER_LCD_AL1716W_SCHEMATICS_INTERFACE BD_DVI & DDC INTERFACE
1
P303
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
C1
C2
C3
C4
C5
T82
T83
1
4
VCC5V
6
C335
0.1uF
VCC5V
D313
MMBD7000
C339
0.1uF
D316
MMBD7000
12K
R342
100pF
C347
12K
R343
2K4
C346
R361
100pF
6
C336
0.1uF
7
D314
MMBD7000
R336
C341
0.1uF
8
10K
VCC
WP
SCL
SDA
24C02
9
10
11
T60
T61
12
T62
RX2RX2+
T59
10/1%
10/1%
PCB No.
12
DDC_SCL_DVI
DDC_SDA_DVI
DDC_WPn
HDCP_HPDN
RXC+
RXC-
RX0RX0+
DVI_DETn
R332
R333
T75
DVI_RX2DVI_RX2+
T71
T74
2K4
T77
RX1RX1+
C338
T84
T85
T81
10/1%
10/1%
D315
0.1uF
10/1%
R338
R339
10/1%
R344
10K
2
Q304
MMBT3904
10
T80
MMSZ5232B
10/1%
10/1%
T64
R345
R334
R335
VCC5V
D319
MMBD7000
DVI_RX0DVI_RX0+
R340
R341
1
2
3
4
T79
DDC5V_D
A0
A1
A2
GND
9
11
DVI_RX1DVI_RX1+
C342
0.1uF
R331
VCC5V
VCC5V
1K
100uF/16V(NC)
C337
VCC5V
VCC5V
DVI_CONn
C340
0.1uF
T101
T78
8
7
6
5
8
I305
DVI_RXC+
DVI_RXC-
D318
MMBD7000
C345
D317
MMBD7000
D321
0.1uF
DDC_SCL_DVI
DDC_SDA_DVI
DDC_SCL_DVI
DDC_SDA_DVI
MMSZ5232B
7
1
RX2RX2+
GND
RX4RX4+
SCL
SDA
VS
RX1RX1+
GND
RX3RX3+
5V
GND
HP
RX0RX0+
GND
RX5RX5+
GND
RXC+
RXCRED
GRN
BLU
HS
GND
DVI_SCL
DVI_SDA
3
2
3
1
A
27
29
31
32
30
28
DVI-D
2
2
3
1
1
2
3
2
3
1
1
2
3
2
3
B
C
D
E
F
G
1
3
1
3
1
2
3
13
RX2RX2+
RX1RX1+
DVI_DETn
RX0RX0+
RXC+
RXC-
HDCP_HPDN
DDC_WPn
DDC_SCL_DVI
DDC_SDA_DVI
13
6832175000P01
A
B
C
D
E
F
G
ACER AL1716W
Go to cover page
35
VCC3V3
1
3V3_RPLL
2
T87
VCC3V3
3
C359
0.1uF
C360
0.1uF
C361
4
C358
0.1uF
T88
C357
0.1uF
5
FB313
C352
0.1uF
C353
0.1uF
C354
7
0.1uF
6
C351
T86
0.1uF
3V3_DVDD
C350
FB323
8
X301
14.318MHZ
64
65
9
9
3V3_AVDD
3V3_RPLL
gm5726H
PQFP-128
SPI_CSn
SPI_CLK
SPI_DI
SPI_DO
GPO_5/PWM1
GPO_4/PWM0
GPO_3
GPO_2
GPO_1/PWM3
GPO_0/PWM2
REXT
RX2+
RX2RX1+
RX1RX0+
RX0RXC+
RXC-
DDC_SCL_DVI/GPIO_18
DDC_SDA_DVI/GPIO_19
DDC_SCL_VGA/GPIO_16
DDC_SDA_VGA/GPIO_17
RVDD_33
RESETn
HSYNC
VSYNC
RED+
REDGREEN+
GREENBLUE+
BLUE-
XTAL
TCLK
I306
3V3_DVDD1
108
109
99
100
96
97
93
94
XTAL
TCLK
RIN
GNDR
GIN
GNDG
BIN
GNDB
89
90
10pF
T91
PBY160808T-301Y-S
0.1uF
3V3_RPLL
C362
C373
HS_IN
VS_IN
T92
RIN
GNDR
GIN
GNDG
BIN
GNDB
IC_RESETn
DDC_SCL_VGA
DDC_SDA_VGA
63
111
HS_IN
VS_IN
C376
3V3_DVDD
0.1uF
DDC_SCL_VGA
DDC_SDA_VGA
66
67
T96
DDC_SCL_DVI
DDC_SDA_DVI
R350
59
60
61
62
119
50
58
57
56
51
69
DDC_SCL_DVI
DDC_SDA_DVI
3V3_DVDD1
REXT
72
73
75
76
80
81
83
84
VCC3V3
3V3_AVDD
250/1%
RX2+
RX2RX1+
RX1RX0+
RX0RXC+
RXC-
C377
RX2+
RX2RX1+
RX1RX0+
RX0RXC+
RXC-
10nF
IC_RESETn
C375
10pF
C349
C372
0.1uF
0.1uF
C348
C371
10uF/16V
0.1uF
T90
PBY160808T-301Y-S
VCC3V3
1V8_AVDD
10uF/16V
3V3_AVDD
FB315
C356
FB314
C355
0.1uF
PBY160808T-301Y-S
10uF/16V
VCC1V8
C370
1V8_CVDD
FB317
0.1uF
PBY160808T-301Y-S
C369
VCC1V8
0.1uF
R348
RX2+
RX2RX1+
RX1RX0+
RX0RXC+
RXC-
DDC_SCL_DVI
DDC_SDA_DVI
DDC_SCL_VGA
DDC_SDA_VGA
HS_IN
VS_IN
RIN
GNDR
GIN
GNDG
BIN
GNDB
C368
C374
2K4
VCC3V3
10uF/16V
VCC5V
0.1uF
RESETn
VCC5V
T97
R358
0.1uF
2K4
R352
R357
2K4(NC)
2K4
GPO_5
BKLT_ADJ
UART_DO
UART_DI
VOLUME
AUDIO_EN
R356
R351
BKLT_ADJ
VOLUME
AUDIO_EN
2K4
2K4
VOLUME
AUDIO_EN
R355
C378
T98
T99
2K4
H: Use ATMEL SPI ROM, L: Use Standard SPI ROM.
SPI_CSn
SPI_CLK
SPI_DI
SPI_DO
R354
H: J-TAG port disable, L: J-TAG port enable.
T95
PIN 50
H: Use OSC, L: Use Xtal.
10/1%
2K4
R362
T102
R349
R353
C380
SPI_HOLDn
PIN 51
H: Internal ROM off, L: Internal ROM on.
SPI_DO
PIN 56
Set to low.
8
2K4(NC)
0.1uF(NC)
BKLT_ADJ
8
7
6
5
R363
I309
VCC
HOLD#
SCK
SI
T108
PIN 57
T109
PIN 58
7
H: UART on GPO, L: UART on DDC.
6
PIN 119
SST25VF010
CE#
SO
WP#
GND
10K
1
2
3
4
0.1uF
SPI_CSn
SPI_DI
SPI_WPn
5
2K4
T100
UART_DO
UART_DI
T103
10K
R364
3V3_DVDD
4
T94
C367
3
0.1uF
VCC
T107
SCL
SDA
JWT-A2001WV2-04(NC)
1
2
3
4
P304
1
2
C366
VCC5V
I307
T106
MIC809MU
GND
RST
0.1uF
R360
C365
4K7
0.1uF
R359
C364
4K7
0.1uF
VCC3V3
C379
T105
R365
R366
0.1uF
T104
3
100
100
C363
8
7
6
5
10uF/16V
T89
PBY160808T-301Y-S
VCC1V8
FB316
I308
A0
A1
A2
GND
VCC
WP
SCL
SDA
VCC3V3
PBY160808T-301Y-S
1
2
3
4
24LC16B
2
LBADC_IN2
LBADC_IN1
10
10
3V3_DVDD
LBADC_IN2
LBADC_IN1
11
1V8_CVDD
11
1V8_AVDD
106
104
LBADC_IN1/GPIO_20
LBADC_IN2/GPIO_21
LBADC_IN3/GPIO_22
LBADC_VSS
VBUFC_RPLL
PPWR
PBIAS
GPIO_24
GPIO_25
GPIO_26
GPIO_27
GPIO_28
IR_IN/GPIO_29
PD16/GPO36
PD17/GPO37
PD18/GPO38
PD19/GPO39
CH3P_LV_O/PD20
CH3N_LV_O/PD21
CLKP_LV_O/PD22
CLKN_LV_O/PD23
CH2P_LV_O/DEN
CH2N_LV_O/DHS
CH1P_LV_O/DVS
CH1N_LV_O/DCLK
CH0P_LV_O
CH0N_LV_O
PD10/V_FIELD
PD11
GPIO_30
GPIO_31
PD12/GPO32
PD13/GPO33
PD14/GPO34
PD14/GPO35
VCLK_IN
VHS_IN
VVS_IN
VDE_IN
CH3P_LV_E/PD0
CH3N_LV_E/PD1
CLKP_LV_E/PD2
CLKN_LV_E/PD3
CH2P_LV_E/PD4
CH2N_LV_E/PD5
CH1P_LV_E/PD6
CH1N_LV_E/PD7
CH0N_LV_E/PD8
CH0N_LV_E/PD9
GPIO_8/VDATA[0]
GPIO_9/VDATA[1]
GPIO_10/VDATA[2]
GPIO_11/DATA[3]
GPIO_12/VDATA[4]
GPIO_13/VDATA[5]
GPIO_14/VDATA[6]
GPIO_15/VDATA[7]
VDD_RPLL_18
2
25
47
6.6 ACER_LCD_AL1716W_SCHEMATICS_INTERFACE BD_SCALER_GM5726H
A
B
C
D
E
F
G
1
CRVSS
CRVSS
CRVSS
CRVSS
CRVSS
18
52
54
88
117
AVDD_ADC_18
78
70
AVDD_DVI_18
AVDD_DVI_18
118
87
55
17
CVDD_18
CVDD_18
CVDD_18
CVDD_18
AVSS_BIAS
1
116
LBADC_VDD_33
VSS_OUT
VSS_OUT
26
48
53
91
RVDD_33
RVDD_33
AVSS_RPLL
107
AVSS_DVI
AVSS_DVI
AVSS_DVI
AVSS_DVI
68
71
77
79
VDD_OUT_33
VDD_OUT_33
VDD_OUT_33
95
98 AVSS_ADC
AVSS_ADC
102
AVSS_ADC
103
AVSS_ADC
82
74
AVDD_DVI_33
AVDD_DVI_33
101
92
AVDD_ADC_33
AVDD_ADC_33
110
AVDD_RPLL_33
12
120
121
122
123
124
125
126
128
3
4
5
6
7
8
9
10
11
12
13
14
15
16
19
20
85
86
21
22
23
24
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
127
49
105
DVI_DETn
VGA_DETn
SCL
SDA
DDC_WPn
LED_A
LED_B
CLKP_LV_E
CLKN_LV_E
CH2P_LV_E
CH2N_LV_E
CH1P_LV_E
CH1N_LV_E
CH0P_LV_E
CH0N_LV_E
HDCP_HPDN
CLKP_LV_O
CLKN_LV_O
CH2P_LV_O
CH2N_LV_O
CH1P_LV_O
CH1N_LV_O
CH0P_LV_O
CH0N_LV_O
PANELVCC_EN
BKLT_EN
13
DVI_DETn
VGA_DETn
DDC_WPn
LED_A
LED_B
CLKP_LV_E
CLKN_LV_E
CH2P_LV_E
CH2N_LV_E
CH1P_LV_E
CH1N_LV_E
CH0P_LV_E
CH0N_LV_E
HDCP_HPDN
CLKP_LV_O
CLKN_LV_O
CH2P_LV_O
CH2N_LV_O
CH1P_LV_O
CH1N_LV_O
CH0P_LV_O
CH0N_LV_O
C383
PANELVCC_EN
BKLT_EN
R369
0.1uF
LBADC_IN1
LBADC_IN2
C382
820K
115
114
113
112
R368
0.1uF
8817500000P0A
13
820K
12
PCB No.
A
B
C
D
E
F
G
ACER AL1716W
Go to cover page
36
1
LED_B
LED_A
LBADC_IN1
LBADC_IN2
2
LED_B
T133
T141
T147
2K4
R374
3
3
VCC5V
T131
2K4
R372
T134
2
4
Q308
MMBT3904
VCC5V
T132
VCC5V
4
6.7 ACER_LCD_AL1716W_SCHEMATICS_INTERFACE BD_KEY & PANEL INTERFACE
A
LED_A
LBADC_IN1
LBADC_IN2
2
2
3
5
Q306
MMBT3904
CLKP_LV_E
CLKN_LV_E
CH2P_LV_E
CH2N_LV_E
CH1P_LV_E
CH1N_LV_E
CH0P_LV_E
CH0N_LV_E
CLKP_LV_O
CLKN_LV_O
CH2P_LV_O
CH2N_LV_O
CH1P_LV_O
CH1N_LV_O
CH0P_LV_O
CH0N_LV_O
6
T136
7
CLKP_LV_E
CLKN_LV_E
CH2P_LV_E
CH2N_LV_E
CH1P_LV_E
CH1N_LV_E
CH0P_LV_E
CH0N_LV_E
CLKP_LV_O
CLKN_LV_O
CH2P_LV_O
CH2N_LV_O
CH1P_LV_O
CH1N_LV_O
7
T110
T125
KEY_POWER
56K 1%
R378
56K 1%
R379
8
T111
T124
8
T112
T123
9
T113
T122
T114
T121
KEY_MENU
9
100
100
0.693V(15Kohm)
R375
R376
3V3_DVDD1
LED_GREEN
LED_AMBER
0.576V
1.641V(56Kohm)
CH0P_LV_O
CH0N_LV_O
ADC1_IN
T148
T142
ADC2_IN
100
T135
100
0.1uF
C388
R380
0.1uF
C387
R383
6
LBADC_IN1
5
LBADC_IN2
1
B
C
D
E
F
G
1
3
1
T115
T120
10
T116
T119
T117
VLCD
T118
KEY_DOWN
1.632V(56Kohm)
10
11
VLCD
P306
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
12
STM-MSKF240430
USE FFC WIRE FOR LVDS INTERFACE
KEY_UP
0.498V
1.14V(30Kohm)
0.846V
T139
0.1uF
C386
T138
C385
C392
12
AMBER LED
GREEN_LED
0.1uF
0.1uF
T146
C391
T145
0.1uF
11
PCB No.
13
SELECT
JWT-A2001WV2-05
0.694V(15Kohm)
5
4
3
2
1
P307
13
A
B
C
D
E
F
G
ACER AL1716W
Go to cover page
37
1
2
P309
PH-JACK-3P (Green)
3
2
1
D324
T157
FB324
T167
3
C395
10nF
R392
T174
R395
3
D325
VDD
2
2
Q310
MMBT3904
T175
T168
4
FB318
PBY160808T-301Y-S
MMBT3906
R393
1K
4
T150
5
1K
1K
6
AUDIO_IN_L
R389
AUDIO_IN_R
R388
47K
C405
6
47K
T166
C400
0.1uF
R396
0.1uF
T173
100K
100
R387
R386
T151
5
47K
R391
T159
R394
T172
T165
FB319
PBY160808T-301Y-S
C396
47K
R390
10nF
VDD
Q309
VDD
EGA10603V05A1(NC)
2K4
2K4
EGA10603V05A1(NC)
PBY160808T-301Y-S
VOLUME
AUDIO_EN
COLOR IS GREEN
AUDIO_EN
VOLUME
2
T149
6.8 ACER_LCD_AL1716W_SCHEMATICS_INTERFACE BD_AUDIO
A
B
C
D
E
F
G
1
1
3
3
1
VDD
7
T156
T160
FB321
PBY160808T-600Y-S
7
C393
0.47uF
0.47uF
0.47uF
0.47uF
C394
C397
C398
T169
AMP_5V
8
T152
T158
0.3V~3.6V
10
OUT_L+
OUT_L-
9
12
LOUT+
10
LOUT-
I310
7
LIN8
LIN+
OUT_R+
OUT_R-
T153
AMP_IN_LAMP_IN_L+
20
ROUT+
2
ROUT-
FADE
SE/BEL
SHUTDOWN
VOL
BYPASS
NC
13
15
19
5
RIN4
RIN+
14
16
FB322
TPA6021A4
6
17
VDD
AGND
3
1
PVDD PW_GND
9
11
PVDD PW_GND
T170
PBY160808T-600Y-S
10
T171
AMP_IN_RAMP_IN_R+
9
AMP_PASS
AMP_VOLUME 18
T163
AMP_STBY
T164
C399
0.47uF
C402
C404
C401
0.47uF 0.47uF 0.47uF
C403
100uF/16V
8
11
T154
T161
11
T155
T162
12
OUT_L+
OUT_LOUT_ROUT_R+
12
1
2
3
4
P310
JWT-A2001WV2-04
PCB No.
13
13
A
B
C
D
E
F
G
ACER AL1716W
Go to cover page
38
2
POWER BOARD-TOP SILK
1
6.9 ACER_LCD_AL1716W_LAYOUTS_POWER BOARD
A
3
4
5
6
7
8
9
POWER BOARD-BOTTOM SILK
10
11
12
13
13
A
B
12
B
11
C
10
C
9
D
8
D
7
E
6
E
5
F
4
F
3
G
2
G
1
PCB No.
ACER AL1716W
Go to cover page
39
6.10 ACER_LCD_AL1716W_LAYOUTS_INTERFACE BOARD
2
3
4
5
6
7
8
9
10
11
12
13
A
1
A
13
B
12
B
11
C
10
C
9
D
8
D
7
E
6
E
5
F
4
F
3
G
2
G
1
PCB No.
ACER AL1716W
Go to cover page
40
3
1
4
Photo
Interface
Board
FFC
3
2
P802
Bracket Chassis Base
4
Power
Board
2
7. Assembly and Disassembly Procedures
1
7.1 Assembly Procedures
Steps
S1
S2
S3
S4
S5
ACER AL1716W
1
1
1
Screw Size=M3x6; Torque:=7~9KGF.CM
Screw Size=M4x8; Torque:=7~9KGF.CM
-
-
Go to cover page
BRACKET ASSY_CHASSIS_ACER T17ANHW_SECC
T=0.8mm
3
-
Remark
7737816630P0A
T17BNHW-G1(99)_ACER_POWER BD
-
-
Q'ty
7116240081P0A SCREW-MACHINE-Star Washer-Pan-M4-8-Zn
5114300839P
SCREW-MACHINE-Flat Washer-Pan-M3-6-Zn
-
Screw Size=M3x6; Torque:=7~9KGF.CM
Spare Parts List
Part Name
7111230061P
T17ANHW-G1(99)_ACER_INTERFACE BD
4
-
Part Number
6712300067PC0 HARNESS_FFC_30P(1.0)_200mm_20696_P-TWO
5113301738P
SCREW-MACHINE-Flat Washer-Pan-M3-6-Zn
1
Procedures
7111230061P
Tape PVC
Take a Bracket Chassis Base on a protective cushion and
stick a insulator on the specific position.
Use a Phillips-head screwdriver screwed the No.1~4 screws
till that Interface board and Bracket Chassis base firmly
attached.
1120000700P
Take a Interface board and connect FFC, P802, and key
function cables to connectors of Interface board. Tear off the
tape sticked on the FFC cable.
Take a Power board and turn it over. Then, put it on the
specific positions of Bracket Chassis Base. Use a Phillipshead screwdriver screwed the No.1~4 screws till that Power
board and Bracket Chassis base firmly attached.
Fix the Key Function cable with a PVC tape
41
7. Assembly and Disassembly Procedures (continued)
Spare Parts List
Part Name
Q'ty
1
Part Number
6814175010P14 LCD_17"W_HSD170MGW1-A00(LTC) _HSD_1370g
1
P ro ced u res
7742005280P0A SPONGE_GASKET FORM_WHT_W10xH10xL40mm
-
P h o to
P ut a panel on a protective cushion and exam e the surface
see if has any unexpect dust or scratch.
-
-
S tep s
T urn over the panel and stick a G asket form on the position
A.
-
-
S6
S7
M ove the B racket C hassis M odule on the top of the LC D
panel and connect F F C cable to LC D panel.
-
-
A
S8
T ake lam p cables out from the holes show n as the photo.
-
3
2
4
P anel Lam p cables
-
S9
P lug 4 lam p cables to the connectors of P ow er B oard.
4
3
7110330052P0A SCREW-MACHING-FLAT HEAD-M3-5-NI
1
U se a P hillips-head screw driver screw ed the N o.1~ 4 screw s
on both side and assem ble the LC D panel and B racket
C hassis m odule.
S 10
4
-
ACER AL1716W
Go to cover page
Remark
Screw Size=M3x5; Torque:=2~3KGF.CM
42
Photo
Part Number
Spare Parts List
Part Name
Q'ty
Go to cover page
ACER AL1716W
Remark
43
Screw Size=M3x8; Torque=5~6KGF.CM
Procedures
7. Assembly and Disassembly Procedures (continued)
Steps
2
2
7140330083P0A SCREW_DOUBLE THREAD_NONE_FLAT HEAD_M3_8
1
Use a Phillips-head screwdriver screwed the No.1~2 screws.
Screw Size=M3x8; Torque=4.5~6.5KGFKGF.CM
S11
2
Screw Size=M3x5; Torque=5~7KGFKGF.CM
4
7110730082P0A
1
-
3
Use a Hex-head screwdriver screwed the D-Sub connectors
No.3~4 Hex Nut to fix it.
7110330052P0A SCREW-MACHING-FLAT HEAD-M3-5-NI
1
Turn over the panel module (screen faced up), and then
press down on the number 1~3 positions of both sides till
two assembled parts firmly attached.
5113800899P
2
1
Screw Size=M3x6; Torque=6~8KGF.CM
-
T17BNHW-G1(99)_ACER_FUNCTION KEY BD
7140130061P0A SCREW_MACHINE_WITHOUT_NINDING_M3_6L_BLA
-
-
-
-
SCREW_MACHINE_NONE_HEX WASHER HEAD_M3_8m
m_Fe NI
Use a Phillips-head screwdriver fixed Heat-sink on the
Bracket Chassis module.
7737616800P0A RC ASSY_#6800_ABS 94V0_ACER_T17ANHW
S12
S13
Put a Rear Bezel (inner side faced up) on the table and
move the assembled panel module on its top.
-
2
Key Function cable
D-Sub Cable
S14
1
1
3
2
1
Connect the Function Key cable to connector located on the
Function Key board.
Use a Phillips-head screwdriver screwed number 1~2
screws and fixed the Function Key board on the Front
Bezel.
7737517400P0A FC ASSY_#6790/#6810_ABS94V0_ACER_T17BNHW
3
2
Put a Front Bezel on the table
S15
S16
S17
S18
1
7. Assembly and Disassembly Procedures (continued)
Part Number
Spare Parts List
Part Name
Q'ty
ACER AL1716W
Go to cover page
Remark
Screw Size=M4x12; Torque=12~14KGF.CM
Procedures
4
-
Photo
1
-
Steps
7115240121P0A SCREW_M4*12_DOUBLE WASHIER
1
-
S19
7740412200P0A STAND_BASE_ACER_AL1717_#6800_ABS 94HB
2
-
S21
S22
Line 1
Turn over the LCD module (screen faced down), then take a
Stand Base and put it on specific positions as photo left. Use
a Phillips-head screwdriver assembled the Stand base to
LCD module with 4 screws.
7749600200P0A TAPE_MASKING_PACKING_25mm(w)x45m_LITEON
1
-
2
7730203550P0A CARD_SCREEN PROTECTOR_ACER_T17AA_AL1716W
1
-
Stick a Screen Card on the Front Bezel with two tapes.
CUSHION FOAM_EPS_ACER-AL1716W_2160SETS_
L<(>&<)>R_472x117x398(H)
2
1
-
-
7749106560P0A
-
STAND_COVER_#6800_ABS 94HB_ABS 94HB_ACER
R17BNW
LABEL_VISTA(WORKS)_CMYK_25.4x11.2_LENOVO
T15AN
1
Take two cushion foams; one is held the left side of LCD
monitor, and another is held the right side.
4
7742612091P0A
7735431685P0A
BAG_LDPE+EPE_ORDINARY_ALL
MODEL_L680xW550mmxH0.55mm
Lock the stand cover according to the order of the number
1~2 till two parts firmly attached.
Stick a Vista label on the rear side of Front Bezel (nearby
Stand Base).
7749003210P0A
1
Take a LDPE+EPE bag (L680xW550mmxH0.55mm) to
cover the LCD monitor.
7749003190P0A BAG_PE_ORDINARY_FOR ACER_L300xW300xT0.05 mm
S20
S23
Take a PE bag (L300xW300xT0.05 mm) to cover the Stand
Base.
Line 2
S24
S25
7749600200P0A TAPE_MASKING_PACKING_25mm(w)x45m_LITEON
44
Photo
Vista Labels
Packing Labels
Packing the carton.
Procedures
Move previous assembled parts into the carton and stick
Vista tables on the front and rear sides of carton. Then
Put accessories on the specific positions and fix the Stand
Base and User's Manuals with two tapes as photo left.
7. Assembly and Disassembly Procedures (continued)
Steps
S26
S27
S28
S29
S30
1
1
1
1
-
-
-
-
-
Q'ty
6715009019P00 DVI cable
2
-
SparePartsList
Part Name
7749206234P0A CARTON_ACER_T17AN_AL1716W_2160SETS
2
-
Part Number
7735431081P0A Packinglabel
6716004833P
LABEL_VISTA(WORKS)_CMYK_25.4x11.2_LENOVO
T15AN
-
7730303323P0A MANUALASSY_ACER_T17AN_AL1716W_EMEA_27L
7735431685P0A
-
Power cable
-
ACER AL1716W
Go to cover page
Remark
45
1
2
6715009019P00
6716004833P
7730303323P0A
7740412200P0A
7735431685P0A
7735431081P0A
7749206234P0A
CUSHION FOAM_EPS_ACER-AL1716W_2160SETS_ L<(>&<)>R_472x117x398(H)
DVI cable
Power cable
MANUAL ASSY_ACER_T17AN_AL1716W_EMEA_27L
STAND_BASE_ACER_AL1717_#6800_ABS 94HB
LABEL_VISTA(WORKS)_CMYK_25.4x11.2_LENOVO T15AN
Packing label
CARTON_ ACER_T17AN_AL1716W_2160SETS
1
2
1
1
1
1
2
2
1
-
-
-
-
-
-
-
-
Q'ty
7749106560P0A
BAG_LDPE+EPE_ORDINARY_ALL MODEL_L680xW550mmxH0.55mm
1
-
Part Name
Spare Parts Usage
7749003210P0A
BAG_PE_ORDINARY_FOR ACER_L300xW300xT0.05 mm
1
-
Part Number
7749003190P0A
CARD_SCREEN PROTECTOR_ACER_T17AA_AL1716W
1
-
Open the carton with a proper tool.
Move the returned LCD monitor to a working table, then
remove cushion foams and LDPE+EPE bag.
7730203550P0A
STAND_COVER_#6800_ABS 94HB_ABS 94HB_ACER R17BNW
1
Disassemble the stand cover.
Take out all accessories and returned product with cushion
foams from the carton. (Optional: it depends on whether if end
users return the accessories.)
Tear off tapes to remove the screen protector card. Turn over
the LCD monitor (screen faced down),
7742612091P0A
HINGE_STAND_WHT_SUS430 T=2.0mm_ACER_T17AN/BNHW
Procedures
7. Assembly and Disassembly Procedures (continued)
Photo
7.2 Disassembly Procedures
Steps
S1
S2
S3
S4
7738001840P0A
Go to cover page
ACER AL1716W
Remark
46
7. Assembly and Disassembly Procedures (continued)
ACER AL1716W
Go to cover page
Remark
Screw Size=M4x12; Torque=12~14KGF.CM
Q'ty
4
-
Part Name
Spare Parts Usage
SCREW_M4*12_DOUBLE WASHIER
1
-
Part Number
7115240121P0A
STAND_BASE_ACER_AL1717_#6800_ABS 94HB
-
-
Procedures
7740412200P0A
-
-
Photo
-
-
Steps
Turn over the LCD monitor (screen faced up).
-
-
Use a Phillips-head screwdriver unscrew 4 screws to release
the stand base.
S6
Place cloth on the panel where you are working on to protect
the panel. Continuely, wedge your finger between the front
bezel and the panel, then pry up on the front bezel to
disengage the locking mechanism.
-
S5
S7
-
-
-
1
-
Work your way along the front bezel to disengage all the
locking mechanism.
1
S8
T17BNHW-G1(99)_ACER_FUNCTION KEY BD
FC ASSY_#6790/#6810_ABS94V0_ACER_T17BNHW
5113800899P
Screw Size=M3x6; Torque=6~8KGF.CM
7737517400P0A
Key Function cable
2
2
Once all the locking mechanisms are release from front bezel;
remove the bezel carefully.
1
Use a Phillips-head screwdriver unscrewed number 1~2 screws
to release the Key Function board from the Front Bezel.
SCREW_MACHINE_WITHOUT_NINDING_M3_6L_BLA
S9
S10
7140130061P0A
47
7. Assembly and Disassembly Procedures (continued)
Go to cover page
ACER AL1716W
Remark
-
Q'ty
1
Screw Size=M3x5; Torque=5~7KGFKGF.CM
Part Name
Spare Parts Usage
RC ASSY_#6800_ABS 94V0_ACER_T17ANHW
1
Part Number
7737616800P0A
SCREW-MACHING-FLAT HEAD-M3-5-NI
Procedures
Use both hand to remove the LCD panel module and put Rear
Bezel aside.
7110330052P0A
Screw Size=M3x8; Torque=5~6KGF.CM
Photo
S11
Use a Phillips-head screwdriver unscrewed the screw to
release the Heat-sink.
2
Steps
S12
SCREW_DOUBLE THREAD_NONE_FLAT HEAD_M3_8
2
7140330083P0A
1
Use a Phillips-head screwdriver unscrewed the number 1~2
screws to disassemble the power plug.
S13
4
Screw Size=M3x8; Torque=4.5~6.5KGFKGF.CM
3
2
D-Sub Cable
Use a Hex-head screwdriver unscrewed the No.3~4 Hex Nut to
release the D-Sub connectors .
SCREW_MACHINE_NONE_HEX WASHER HEAD_M3_8m m_Fe NI
2
7110330052P0A
7110730082P0A
S14
1
Use a Phillips-head screwdriver unscrewed the No.1~4 screws
to disassemble the LCD panel and Bracket Chassis module.
Screw Size=M3x5; Torque:=2~3KGF.CM
-
4
3
-
SCREW-MACHING-FLAT HEAD-M3-5-NI
S15
4
Unplug 4 lamp cables (No. 1~4).
-
4
-
S16
3
48
1
Photo
Interface
Board
FFC Cable
4
3
1
3
P802
FFC
2
Power
Board
4
2
Use a Phillips-head screwdriver unscrewed the No.1~4 screws
to disassemble the power board.
Disconnect the FFC, P802, and key function cables to
connectors of Interface board.
Use a Phillips-head screwdriver unscrewed the No.1~4 screws
to release the interface board.
Disconnect the FFC cable to the connector of panel.
Procedures
7. Assembly and Disassembly Procedures (continued)
Steps
S17
S18
S19
S20
Bracket Chassis Base
ACER AL1716W
Go to cover page
-
Remark
-
-
Q'ty
1
Screw Size=M4x8; Torque:=7~9KGF.CM
Part Name
Spare Parts Usage
T17BNHW-G1(99)_ACER_POWER BD
1
Screw Size=M3x6; Torque:=7~9KGF.CM
Part Number
5114300839P
SCREW-MACHINE-Star Washer-Pan-M4-8-Zn
3
-
-
7116240081P0A
SCREW-MACHINE-Flat Washer-Pan-M3-6-Zn
-
-
7111230061P
T17ANHW-G1(99)_ACER_INTERFACE BD
-
5113301738P
1
Screw Size=M4x8; Torque:=7~9KGF.CM
-
T17BNHW-G1(99)_ACER_POWER BD
1
Screw Size=M3x6; Torque:=7~9KGF.CM
-
5114300839P
SCREW-MACHINE-Star Washer-Pan-M4-8-Zn
3
HARNESS_FFC_30P(1.0)_200mm_20696_P-TWO
7116240081P0A
SCREW-MACHINE-Flat Washer-Pan-M3-6-Zn
6712300067PC0
7111230061P
49
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