acer lcd al1716w schematics
TRANSCRIPT
Table of Contents
Important Safety Notice------------------------------------------------------------------------------------- 01
01. Product Specification--------------------------------------------------------------------------------- 02
02. Flat Panel Specification-------------------------------------------------------------------------------07
03. Exploded Diagram
04.
Appendix : User’s Manual
------------------------------------------------------------------------------------- 12
Troubleshooting----------------------------------------------------------------------------------------14
05. Spare Parts List-----------------------------------------------------------------------------------------23
06. Schematics and Layouts------------------------------------------------------------------------------ 31
07. Assembly and Disassembly-------------------------------------------------------------------------- 41
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
Model ID: T17ANHW-G1
Service
ACER ACER_LCD_AL1716W_SM070510V1
Service Manual
Product Anouncement:
This product is certificated to meet RoHS Directive and
Lead-Free produced definition. Using approved critical
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.
!
Using Lead-Free solder to well mounted the parts.!
! The fusion point of Lead-Free solder requested in the
degree of 220 C.°
Important Safety Notice
Go to cover page
1ACER AL1716W
1.1 Scope:
This document defines the design and performance
requirements for the Liteon standard 17” wide flat
panel monitor. The display element shall be a 17” inch
diagonal, WXGA (1440 x 900) resolution, TFT-LCD
(Thin Film Transistor Liquid Crystal Display). Video
input signals are Analog D-sub with non-interlaced
signaling. Power saving function complies with the
DPMS (Display Power Management Standard).
1.1.1 General display parameters
1.1.2 Optical Characteristics
The panel model name is HSD170MGW1-A
supplied by Hannstar.
1.2.3 Electrical
This section describes the electrical requirement of
the monitor. The block diagram in Figure 1 illustrates
the various electrical sub–system.
1.2 General Requirements:
1.2.1 Test Condition
Brightness level at max & contrast level at default
full white pattern test mode following spec. Warm
up more than 30min, ambient light < 1 Lux,
Luminance meter CA210 or BM7 or compatible
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.
The LCD monitor will contain an interface board, a
Power/Inverter board, and a function key board. The
interface block will house the flat panel control logic,
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.
Display Area 17” diagonal,367.2(H)x229.5(V)
Resolution 1440 x 900 pixels
Display Color Number 16.2M colors
Display Type a-Si TFT active-matrix
Contrast Ratio 500 : 1 typ.
Brightness 250cd/m2
typ.
Response Time (Ton + Toff) 8 ms typ.
Pixel Pitch 0.255mm x 0.255mm RGB Vertical Stripes
130 degrees typ,
CR>10
140 degrees typ,
CR>10
Vertical Viewing
Horizontal Viewing
LCD Panel
Function Key Board
Scaler IC
GM5726H
Regulator
5V ~ 3.3V
5V ~ 1.8V
EEPROM
24C02
D-SUB
XTAL
14.318MHz
EEPROM
24CL16
SST25VF01
Power & Inverter
AC 110/220V
Input
Inverter Output
Analog Video
Input
+5V & DIM & Enable
LVDS
DIM & Enable
+5V Vcc
R.G.B & Hs, Vs
5V
SPEC
H 31kHz ~ 83kHz
V 56Hz ~ 76Hz
Max Pixel clock 205MHz
RGB Input Level 0.7Vp-p
RGB Input Impedance 75Ω
Sync Input Signal Separate SYNC, Composite Sync
Sync Input Impedance 50Ω
AC powerAC 100V ~ AC 220V ± 10% 50/60Hz, 3 pin
AC power cord
Input connectors D-SUB 15 pin
AC IN 90~264V
Standby, Suspend,
Active Off
Power Off < 1W @ (90VAC~240VAC)
User’s Control Front Panel Buttons POWER, MENU, SELECT, + , -
18
VESA DDC2B
DPMS
H ±1kHz, V ±1 Hz
Normal Operation
ITEM
Analog Signal Input
Frequency Ranges
Connectors
Power Consumption
35W Max
< 2W
Dimming control range
Power Saving
Input Signal Counter tolerance
(max-min/max) x 100%35% typical
Pre-Defined Timing
Plug and Play
1. Product Specification2
Go to cover page
ACER AL1716W
1.3 Interface Connectors:
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
end of the analog cable shall be a molded-over,
shielded, triple row, blue color D ,
15 positions connector. The CPU connection
shall have captive screw locks, which will be
adequate for hand tightening. The monitor
connection may use small screws.
1.3.3 Connector pin assignment:
subminiature
1.4 Input Signals (Analog RGB Signal Input):
Note 1: 2.2k to Ground, Schmitt-Triggers Input,
Supported 3.3V device H & V sync. output.
1.4.1 Video Signal Amplitudes
The three video inputs consist of Red, Green,
and Blue signals, each with its own coaxial cable
terminated at the monitor. These video signals
are analog levels, where 0V corresponds to
black, and 735 mV is the maximum signal
amplitude for the respective color, when each
signal is terminated by a nominal 75.0 ohm. For
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
compensate for variations in termination
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
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
frame. VS may be either active high or active
low, depending on the timing.
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.
D-SUB
Pin Signal Pin Signal Pin Signal
1 Red-Video 6 Red-GND 11 GND
2 Green-Video 7 Green-GND 12 DDC-SDL
3 Blue-Video 8 Blue-GND 13 H-SYNC
4 GND 9 + 5V 14 V-SYNC
5 Self Test 10 DDC-GND 15 DDC-SCL
Power Board Connector
Pin Signal
1 GND
2 GND
3 GND
4 5.2V
5 5.2V
6 5.2V
7 5.2V
8 BKLT-EN
9 BKLT-ADJ
Flat Panel Connector
Terminal
no.Symbol Function Note
1 GND Ground
2 VDD Power supply: +0.5V
3 VDD Power supply: +0.5V
4 NC Reserved for supplier test point
5 NC Reserved for supplier test point
6 NC Reserved for supplier test point
7 NC Reserved for supplier test point
8 Odd_Rin0- - LVDSdifferential data input (R0-R5, G0) (2)
9 Odd_Rin0+ +LVDSdifferential data input (R0-R5, G0) (2)
10 GND Ground
11 Odd_Rin1- - LVDSdifferential data input (G1-G5, B0-B1) (2)
12 Odd_Rin1+ +LVDSdifferential data input (G1-G5, B0-B1) (2)
13 GND Ground
14 Odd_Rin2- - LVDSdifferential data input (B2-B5, NC, NC, DE) (2)
15 Odd_Rin2+ +LVDSdifferential data input (B2-B5, NC, NC, DE) (2)
16 GND Ground
17 Odd_ClkIN- - LVDSdifferential clock input (2)
18 Odd_ClkIN+ +LVDSdifferential clock input (2)
19 GND Ground
20 Even_Rin0- - LVDSdifferential data input (R0-R5, G0)
21 Even_Rin0+ +LVDSdifferential data input (R0-R5, G0)
22 GND Ground
23 Even_Rin1- - LVDSdifferential data input (G1-G5, B0-B1)
24 Even_Rin1+ +LVDSdifferential data input (G1-G5, B0-B1)
25 GND Ground
26 Even_Rin2- - LVDSdifferential data input (B2-B5, NC, NC, DE)
27 Even_Rin2+ +LVDSdifferential data input (B2-B5, NC, NC, DE)
28 GND Ground
29 Even_ClkIN- - LVDSdifferential clock input
30 Even_ClkIN+ +LVDSdifferential clock input
No. Symbol Item Min Normal Max Unit Remark
1 Fh Horizontal Frequency 31 83 kHz Minimumrange
2 Fv Vertical Frequency 56 76 Hz Minimumrange
3 Fclk Locked Pixel Clock Frequency 135 MHz
4 Vih Hi Level Input 2 5 V Note 1)
5 Vil LowLevel Input 0 0.8 V Note 1)
6 Video RGB Analog Video Level 0 0.735 V 75Ω to Ground
1. Product Specification (continued)
Go to cover page
3ACER AL1716W
If the monitor sync processing circuits are
designed around the 3.3 volt logic family, then
the sync inputs must be 5 volt tolerant.
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
input, the maximum current source from any
single monitor sync input to the driver is 1.6 mA.
When logic 1 is asserted, the maximum current
source from the driver to any single monitor sync
input is 400 mA.
1.4.6 Abnormal Signal Immunity
The monitor shall not be damaged by improper
sync timing, pulse duration, or absence of sync,
or abnormal input signal amplitude (video and/or
sync too large or too small), or any other
anomalous behavior of a graphics card video
generator when changing modes or when any
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:
1.5.1 Power On / Off Switch: The monitor shall have a
power control switch visible and accessible on
the front of the monitor. The switch shall have no
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.
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.
1.5.4 Key Function Overview: All functions are controllable
by OSD using five buttons including Power button,
Menu/Exit, Select, Left, and Right on the front bazel.
1.5.5 Menu Operation
Pressing the MENU button the first time brings up the
first menu level. The (MENU) button is used to enter
and exit the OSD menu.
1.5.6 OSD Function- Normal Mode
Table 1
LED Color
Power-ON Mode Green
Power Saving Mode Amber
Power Button To turn O N or O FF the Power.
M enu/Exit Button To enter or exit O SD M enu.
To m ove downward in the O SD Item .
Act as DDC enable and disable sw itching Hot-
Key when O SD is not display.
Choose the previous O SD M enu Item .
To decrease the value of the param eter in the
adjust bar, which has been selected for
adjustm ent.
Choose the next O SD M enu Item .
To increase the value of the param eter in the
adjust bar, which has been selected for
adjustm ent.
Act as Auto Adjustm ent Hot-Key when O SD is
not displayed.
Select Button
Left Button
R ight Button
Icon Item Function Description
Brightness Adjust the background screen brightness by using backlight inverter.
Contrast Adjust the image contrast by controlling analog signal gain.
Color Temperature
Press ‘Right’ or ‘Left’ to select sRGB, Reddish, Bluish and User preset.
Only when selecting User, you can make adjustment to the R/G/B
content, otherwise not.
Horizontal Size
Adjust the horizontal Image Size. When the value is increased, the
width of display image wider, and when the value is decreased, the
width becomes narrows.
FineTo increase or decrease the snow noise of image. Adjust the delay of internal
clock to control the display focus.
Left/Right Adjust the horizontal Image Position.
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. Product Specification (continued)4
Go to cover page
ACER AL1716W
1.5.8 OSD Control Factory Default Values: The OSD
controls shall have the following factory default
values:
A. Brightness=100(range 0 – 100)
B. Contrast=50(range 0 – 100)
C. Volume=90(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
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.
1.5.7 OSD Function (Abnormal Mode) 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,
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.
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
range of +/- 1 KHz whichever is less for horizontal;
and within +/- 1Hz for vertical.
Preset Timing Chart
FH Pixel Rate
(KHz) (MHz) 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 - -
5 109 VESA 640 x 480 75Hz 37.5 31.5 - -
6 104 VESA 800 x 600 56Hz 35.16 36 - -
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 + +
10 108 MAC 832 x 624 75Hz 49.73 57.28 - -
11 118 VESA 1024 x 768 60Hz 48.36 65 - -
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 1280 x 800 75Hz 62.63 106.22 - -
17 290 WXGA 1440 x 900 75Hz 70.635 136.75 - +
18 289 WXGA 1440 x 900 60Hz 55.935 106.5 - +
No Chroma Timing Timing Modes, FV(Hz)Sync Polarity
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.
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
Check VGA cable Menu 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.
Out of range Menu
1. Product Specification (continued)
Go to cover page
5ACER AL1716W
1.7 Controller Requirements:
1.7.1 General Requirements: The monitor shall
include a controller capable of converting the
analog RGB signal from a standard WXGA
resolution video controller in the CPU to a signal
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:
The frequencies used by the DC-AC inverter used to
power the backlight shall be chosen so as to prevent
any noticeable effects on the flat panel (such as a
rolling effect).
1.9 Power Supply Requirements:
The AC to DC converter power supply for the monitor
shall be an integrated power supply. This power supply
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.
1.10 Display Communications Channel:
The monitor assembly shall provide a display
communications channel that conforms to VESA
DDC2B hardware requirements. This configuration
shall contain the 256-byte EDID file as specified by
VESA E-EDID Standard. The monitor contains a
separate EEProm for each video input to store EDID
information. Once the EDID is programmed there is a
write protection that is enabled so that the EEPROM
cannot be overwritten.
Table 2. AC TO DC Converter Requirements
Input Voltage RangeThe operating range shall be from 90 to 240 VAC
sinusoidal for all models specified.
Input Frequency RangeInput power frequency range shall be from 47.5 to 63Hz
over the specified input voltage range.
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.
1. Product Specification (continued)6
Go to cover page
ACER AL1716W
2.1 General Information
.
2.2 Panel Timings:
The controller included with the monitor shall translate
all video timings from the CPU that meet the timing
requirements listed in panel specification into timings
appropriate for the panel. Under no circumstances
may the controller supply the panel with timings that
may result in damage. The controller shall insulate the
panel from the CPU, so that the panel shall always be
driven per it's own specification regardless of the
timings being sent from the CPU.
2,3 Polarizer Hardness:
The outer face of the front polarizer panel shall be
covered with a coating with a 3H hardness value.
2.4 Backlight Requirements:
2.4.1 General Requirements: The backlight assembly
shall be designed to support field replacement at
the customer site or authorized service center.
The lamps shall have a continuous operating life
of at least 30,000hrs at 25 degree C. The
operating life is defined as having ended when
the illumination of light has reached 50% of the
initial value. The lamps shall extend a sufficient
amount from the edge of the light guide that
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
switch is pressed or the monitor is restarted from
a power - down mode .The starting time shall stay
below 3 sec. for the minimum expected life of the
lamps. Test conditions are as follows:
Ambient Light ----------------------< 1.0 lux.
Temperature------------------------10degreeC
Inactive Time -----------------------> 24 hours
HannStar, HSD170MGW1-A00 which display model
is a color active matrix thin film transistor (TFT) liquid
crystal display (LCD) that uses amorphous silicon TFT
as a switching device. This model is composed of a
TFT LCD panel, a driving circuit and a back light
system. This TFT LCD has a 17.0 inch diagonally
measured active display area with XGA resolution (900
vertical by 1440 horizontal pixel array) and can display
up to 262,144 colors.
2.5 Defects:
.5.1 Visual Inspection: The LCD panel shall be
inspected with all pixels set to white, black, red,
green, and blue. The color variation, brightness
variation, and overall appearance must not be
perceived as poor quality by Lite - On. Areas and
/or parameters considered questionable shall be
subjected to detailed measurements.
.5.2 Display Degradation: Over the life of the product,
variation of the parameters specified in panel
specification shall be maintained within
reasonable limits. The panel must not exhibit any
significant defects while in operation (excluding
the CCFL operation). This does not in any way c
change the warranty given by the panel vender.
.5.3 Light Leakage: Except for the active display area,
there shall be no light emission visible from any
angle from any other part of the display. For this
test, the ambient illumination will follow the panel
specification 300 to 700 lux.
.5.4 Allowable Defects: No cosmetic defects are
allowed except those specified below. The
conditions of visual inspections are as follows:
- Viewing distance is to be approximately 35~50
cm.
- Ambient illumination is to be 300 to 700 lux.
- Viewing angle range shall be 160 degrees
Horizontal and 160 degrees vertical typically.
- Defects not apparent within one minute shall be
ignored.
2
2
2
2
2.5.5 Defect Terminology: Table 3 gives the descriptive
terms used in classifying defects.
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.
Polarizer Scratch
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.
Polarizer Dent
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.
Rubbing Line
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 .
Newton Ring The 'rainbow' effect caused by non-uniform cell thickness.
MottlingWhen the unit lights, variation / non – uniformity (splotchiness) appears light
(white) with the display and might vary in size.
Dim LineWhen the unit lights, line(s) in the minor (vertical) or major (horizontal) axis
appear dim, but not completely on or off.
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).
2. Flat Panel Specification7
Go to cover page
ACER AL1716W
2.5.6 Smudges, Streaks and Smears: When viewing
the panel oriented so as to max. reflected light,
there shall be no visible smudging, streaking,
smearing or other non-uniformity from
contaminants, fingerprints, or defects in any of
the visible surfaces. This is independent of
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
are given in Table 4.
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
monitor after at least 30 minutes warm up. It shall
be test at 1440x900/60Hz mode and full white
square pattern with contrast / brightness in
default value. The values specified are at an
approximate distance 20 cm from the LCD
surface and at 0 viewing angle. The 9 test points
are defined as below.
The brightness uniformity is calculated as below:
Brightness uniformity 0
Remark: The black luminance non-uniformity are
no defined by panel spec, therefore, we don't
define the specification for black luminance
non-uniformity.
2.6.2 Contrast ratio (CR): The contrast ratio is determined
by using a photometer (CA-210) to measure the
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
angle. The contrast ratio is calculated as below.
CR=(Max. full white luminance)/(Max. full black
luminance)
CR = 500: 1(ty)
2.6.3 Response time: The response time is defined as
below.
≧ %7
Tr + Tf : 8 msec typ.
Remark: optical response time vs gray scale, test
condition for brightness set to max. and contrast set
to default.
2.6.4 Viewing angles: The viewing angles are measured at
CR>10 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);
Table4. DescriptiveTerms
AverageDiameter
Smaller of (L+W)/2or L/20+2W
<0.1mm Noncountable N/ A
0.1mm- 0.3mm 10 15mm
0.31mm- 0.5mm 10 15mm
0.51mm- 1.25mm 5 15mm
1.26mm- 2.5mm 3 25.4mm
2.51mm- 0.3mm 3 25.4mm
Greater than3.75mm None Not applicable
AcceptableNumber MinimumSeparation
2. Flat Panel Specification (continued)
Go to cover page
8 ACER AL1716W
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
values specified are at an approximate distance
20cm from the LCD surface and at 0 viewing angle.
The full screen white center luminance at user mode
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:
- Operating Temperature (guaranteed functional
performance): 0~50 degreeC
- Operating Temperature (guaranteed optical
performance): 5~ 35 degreeC
- Shipping Temperature: -20oC to 60oC
- 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%
2.6.8 Shipping and Packing: Packaging and wrapping shall
be sufficient to protect the product against damage or
loss during shipment from the supplier to the
destination specified in the purchase order. All
packaging materials are subject to test and
evaluation. The container loading is 2160sets/40'.
The outside dimension of carton box is 482(L)x
127(W) x 423(H) mm.
2.7 Panel General Information
2.7.1 Mechanical Information
2.7.2 Electrical Absolute Rating
TFT LCD Module
Backlight Unit
Note (1)Permanent damage may occur to the LCD
module if beyond this specification.
Functional operation should be restricted to
the conditions described under normal
operating conditions.
(2) Ta =25 degree C
2.7.3 Optical SpecificationSymbol Condition Min. Typ. Max. Unit Note
CR 400 500 - (1)(2)
Responsetime Rising TR - 3 5 (1)(3)
Falling TF - 5 7
YL 200 250 - cd/m*2 (1)(4)(5) (IL=8.0mA)
YL (180) (230) - cd/m*2 (IL=7.5mA)
Rx 0.595 0.625 0.655
Ry 0.315 0.345 0.375
Gx 0.295 0.325 0.355
Gy 0.525 0.555 0.585
Bx 0.125 0.155 0.185
By 0.115 0.145 0.175
Wx 0.280 0.310 0.340
Wy 0.300 0.330 0.360
ΘL 65 70 -
ΘR 65 70 -
ΘU 60 65 -
ΘD 60 65 -
ΘL 75 80 -
ΘR 75 80 -
ΘU 75 80 -
ΘD 75 80 -
BUNI Θ=0 70 75 - % (6)Brightnessuniformity
msec
(1)(4)
Viewingangle
Viewingangle
Θ=0view angle
CR>10
CR>5
Hor
Ver
Hor
Ver
Item
Contrast
Whiteluminance(Center)
Colorchromaticity(CIE1931)
Red
Green
Blue
White
Item Symbol Min. Max. Unit Note
Lamp current IL 3 9.0 mA (1) (2)
Lamp frequency fL 30 80 KHz (1) (2)
Min. Typ. Max. Unit
Horizontal (H) 388.7 389.2 389.7 mm
Vertical (V) 254.0 254.5 255.0 mm
Depth (D) 11.2 11.5 11.8 mm
- 1370 1500 g
- - 3.0 Kgf•Cm
Module Size
Item
Weight (Without inverter)
Torque of customer screw hole
Specification Unit
389.2x254.5x11.5 (Typ) mm
367.2 (H) x 229.5 (V) mm
1440 (H) x 900 (V) pixels
0.255 (H) x 0.255 (V) mm
RGB Vertical Stripe
6 bits/262,144 colors
Normally white
Antiglare (3H)
1370 g
2-CCFLs, Top&Bottom edge side
2-ch LVDS
Logic System 2.4 W
B/L System 9.8 W
Backlight
Input Signal
Item
Power Consumption
Outline Dimension
Display Area
Number of Pixel
Pixel Pitch
Pixel Arrangement
Display Color
Display Mode
Surface Treatment
Weight
Item Symbol Min. Max. Unit Note
Power supply voltage VDD -0.3 6.0 V (1) (2)
Logic input voltage VIN -0.3 VDD+0.3 V (1) (2)
2. Flat Panel Specification (continued) 9
Go to cover page
ACER AL1716W
2.7.4 Block Diagram
TFT LCD Module
Backlight Unit
2.7.5 Pixel Format
2.7.6 Interface Pin Connection
Backlight Unit
TFT LCD Module
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
positive and negative data lines of each
receiver input.
2.7.7 Electrical Characteristics
TFT LCD Module
Note (1) White and V-color
Mosaic: Dot checker image
Symbol Min. Typ. Max. Unit Note
VDD 4.5 5.0 5.5 V
White IDD0 260 360 460 mA (1)
V-Color IDD1 370 470 570 mA (1)
Mosaic IDD2 515 615 715 mA (1)
fV 56 60 75 Hz ref 6.5 t1
fH 55.469 55.935 70.635KHz ref 6.5 t4
fDCLK 44.375 53.25 68.375MHz ref 6.5 t7
IRush - - 1.5 A (2)
Hsync frequency
Frequency
Input rush current
Item
Current of power supply
Voltage of power supply
Vsync frequency
Terminal no. Symbol Function Note
1 GND Ground
2 VDD Power Supply : +5.0V
3 VDD Power Supply : +5.0V
4 NC Reserved for supplier test point
5 NC Reserved for supplier test point
6 NC Reserved for supplier test point
7 NC Reserved for supplier test point
8 Odd_Rin0- - LVDS differential data input (R0-R5, G0) (2)
9 Odd_Rin0+ + LVDS differential data input (R0-R5, G0) (2)
10 GND Ground
11 Odd_Rin1- - LVDS differential data input (G1-G5, B0-B1) (2)
12 Odd_Rin1+ + LVDS differential data input (G1-G5, B0-B1) (2)
13 GND Ground
14 Odd_Rin2- - LVDS differential data input (B2-B5,NC,NC,DE) (2)
15 Odd_Rin2+ + LVDS differential data input (B2-B5,NC,NC,DE) (2)
16 GND Ground
17 Odd_ClkIN- - LVDS differential clock input (2)
18 Odd_ClkIN+ + LVDS differential clock input (2)
19 GND Ground
20 Even_Rin0- - LVDS differential data input (R0-R5, G0)
21 Even_Rin0+ + LVDS differential data input (R0-R5, G0)
22 GND Ground
23 Even_Rin1- - LVDS differential data input (G1-G5, B0-B1)
24 Even_Rin1+ + LVDS differential data input (G1-G5, B0-B1)
25 GND Ground
26 Even_Rin2- - LVDS differential data input (B2-B5,NC,NC,DE)
27 Even_Rin2+ + LVDS differential data input (B2-B5, NC, NC, DE)
28 GND Ground
29 Even_ClkIN- - LVDS differential clock input
30 Even_ClkIN+ + LVDS differential clock input
Terminal No. Symbol Function
1 VL CCFL power supply (high voltage)
2 NC No connection
3 GL CCFL power supply (low voltage)
Connect
orC
N1
TCON with
LVDS Receiver
DC/DC
Converter
Gamma
Reference
Voltage
Generator
Y-d
rive
rIC
X -driver IC
Liquid Crystal
Panel 1440x900
pixels
2. Flat Panel Specification (continued)10
Go to cover page
ACER AL1716W
Note (2) Input Rush Current measurement condition
2.8 Back-Light Unit
The back- light system is an edge-lighting type with 2
CCFL. The characteristic of the lamp is shown in the
following tables.
Note (1) Lamp current is measured with current meter
for high frequency as shown below. Specified
valued are for single lamp.
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.
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
should under the following conditions.
a. The asymmetry rate of the inverter
waveform should be less than 10%.
b. The distortion tae of the waveform should
be within
c. The inverter output waveform should be
better similar to the ideal sine wave.
2.9 Switching Characteristics for LVDS Receiver
Item Symbol Min. Typ. Max. Unit Note
Lamp current IL 3.0 8.0 9.0 mA(rms) (1)(6)
Lamp voltage VL - 610 - V(rms) (6) IL=8.0mA
Frequency fL 30 - 80 KHz (2)
Hr 30,000 - - Hour (3) IL=8.0mA
Hr 40,000 - - Hour (3) IL=7.5mA
1200 - - (4)(5) at 25oC
1400 - - (4)(5) at 0oCStartup voltage Vs V(rms)
Operating lamp life time
2. Flat Panel Specification (continued) 11
Go to cover page
ACER AL1716W
3.1 Packing Exploded Diagram
3. Exploded Diagram12
Go to cover page
ACER AL1716W
3.2 Product Exploded Diagram
3. Exploded Diagram (continued)
1
14
7
6
8
5
18
17
10
9
15
16
3
2
4
11
19
12
13
13
Go to cover page
ACER AL1716W
4.1 Power board
Check output
voltage +5V and +22V whether if
correct supplyIt is not power board problem.
Check power switch whether if turn on
OK
NG
Turn switch on.NG
Check power cord
P801, signal cable P302, P103, P104
is correct connected
Connect the cables whether to be correct connected.NG
OK
Check C805 value is about
140Vdc -330Vdc
OK
Check F801, T801, R802, D801 whether to be damaged.NG
Check C807 is greater than 11V Check R807, D804, I801 whether to be damaged.
OK
NG
Check I801 pin6 has same pulse Check peripheral component of I801 whether to be damaged.NG
OK
Check T802 PIN1 has same pulse or
notCheck Q803, R813, R814, D806 whether to be damaged
OK
NG
Check peak voltage of R811 triangle
pulse is up to 0.52V or not
OK
Check D804 and R807 whether to be damaged
Check D809, D810,
C818, C824, C823, C817, C822, T802
have same short circuit or the output
+5V/+22V is over load
Check D809, D810, C818, C824, C823, C822, T802 whether to
be damaged.
Check feedback circuit around I802, I803 and
the other components and repair them
OK
OK
NG
NG
4. Troubleshooting
Go to cover page
14 ACER AL1716W
4.2 Inverter circuit on power board
Check C106 pin is
greater than 0.55V Brightness pin is
an external PWM.
It is not inverter board problem.
Check pin2 of I101 is 5V
OK
NG
Check R105, ZD101, or C102 whether to
be damaged. And, printed wire between
them is opened.
NG
Check if
P103 and P104 are connected
correctly.
Check CCFL and repair them. Reconnect
P103 and P104 in tightly.NG
OK
OK
Check pin5 of I101, there’s around
1.25V from output detection.
Check D121, D120, R130, C128, C111
and repair them if be damaged.NG
Check SW MCS Q105 whether to
work properly.
OK
Repair Q105
Check the prepherial components and repair
them
OK
NG
4. Troubleshooting (continued) 15
Go to cover page
ACER AL1716W
4.3 No display of screen Screen is black color of LED is amber. ( , )
Does OSM display when you press
‘MENU’ button?Proceed to ‘No OSM display’ section
Check if the sync signal
from computer is output and if the
video cable is connected normally.
NG
YES
Input the sync signal of computer or
change the cableNG
Proceed to ’Checking the resolution
change IC movement’ section
OK
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.
4. Troubleshooting (continued)
Go to cover page
16 ACER AL1716W
4.4 Nothing display on screen (screen is black, color of LED is blue)
Is backlight lit? Proceed to ‘Checking the backlight unit’ section.
Does computer output RGB video
signals?
NG
OK
1. Change pattern of video signal output on the host
computer.
2. Reconnect the video cable.
3. Change the video cable.
NG
OK
Check the video cable for failure. Check the host for
output signal with all black only.
Check OSD
menu to display on the screen when
you press ‘MENU’ key.
NG
Check if the
LCD module signal cable
is connected between the
Interface Board and LCD
Module.
Proceed ‘Abnormal screen detection’ section
OK
The LVDS cable is disconnected.
NG
Check the 3V3 power
supplied to I306
OK
Check if the
voltage on I309 pin8 that is
power DC at 5V
NG
I309 may be damaged.
NG
OK
OK
Failure Point: I306 is defected.Check the 1V8 power are
supplied on I306
NG
OK
Failure Point:
Check if the voltage on I306
pin1 that is power DC 3V3
Failure Point:
1. Printed wire broke between
I307 pin3 and I306 pin1
2. L336 is open
NG
Failure Point:
I306 is failure
OK
Check the 5V
power is supplied on P306
pin28, pin29, pin3 to the
LCD panel
Check the P306 all
LVDS signals
Failure Point:
1. The LVDS cable beoke
between P306 and LCD module.
2. LCD module is failure.Failure Point:
1. Printed wire broke between
P306 and I306 LVDS signals.
2. I306 is defected.
NG
OK
OK
Check if the voltage
on I301 pin3 that is DC
power at 5V
NG
Failure Point:
1. I301 is open.
2. Printed wire is broken
between P306 pin28, pin29
and FB303.
NG
OK
Check if the TTL
level on Q302 pin2 and TTL
level is low
NG
Failure Point:
Q302 is failure
Check the PANEL
ENABLE signal of the
rectangle input Q302 pin2 at
TTL high level.
NG
Failure Point:
Q302 is failure
Failure Point:
1. Printed wire broke between Q302 pin2,
I306 pin127.
2. I303 is failure
OK
OK
4. Troubleshooting (continued) 17
Go to cover page
ACER AL1716W
4.5 Abnormal screen for VGA source
Check the R.G.B video signals from
computer input on P302 of video connector
Failure Point:
1. No R.G.B video signals output from host computer. Check the computer.
2. VGA video signal cable disconnected
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
NG
OK
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.
NG
OK
Check all LVDS signals being
output to P306 from I306?NG
Proceed ‘Checking the resolution changed IC
movement’ section
OK
Failure Point:
Printed wire is open between I306 and P306.
4. Troubleshooting (continued)
Go to cover page
18 ACER AL1716W
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.)
Failure Point:
1. Function key wire is disconnected.
2. Function key wire is defected.
3. Function key board is defected.
Check the input TTL level whether to
change when press the function keys on I306 pin114
and pin115.
NG
OK
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.
NG
Failure Point:
I306 is failure
OK
4. Troubleshooting (continued) 19
Go to cover page
ACER AL1716W
4.7 Abnormal plug and play for VGA
Confirm the host computer supplies DDC2
mode.
Failure Point:
The host computer is not communicating in DDC2 mode.
Check the voltage on P302 pin10
that is power DC 5V.
NG
OK
Failure Point:
The VGA video cable is defected.NG
OK
Check the voltage on I304 pin8
that is power DC 5V.NG
Failure Point:
1. Printed wire is broken between P302 pin9 and I304 pin8
2. D307 or D308 is damaged.
Check the voltage on
P302 pin12, pin15 that are serial
data and clock signal.
OK
Failure Point:
The VGA video cable is damaged. If I304 pin5, pin6 LOW,
the I304 may be failure.NG
Failure Point:
1. R328, R329, R326, R327 is open.
2. D309, D310 is short.
3. C331, C332 is short.
Check the output signal of serial data and
clock signal I304 pin5 and pin6
Failure Point:
I304 is defected.NG
OK
OK
4. Troubleshooting (continued)
Go to cover page
20 ACER AL1716W
4.8 Checking the control circuit of vertical sync pulse for VGA
Check the vertical sync signal on P302
pin14 TTL level
Failure Point:
VGA video cables is failure.
Check the vertical sync
signal on I306 pin90 TTL level
NG
OK
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.
NG
OK
Proceed ‘Checking the resolution change IC
movement’ section
7. Troubleshooting (continued) 21
Go to cover page
ACER AL1716W
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.
Proceed ‘Checking the DC/DC converter circuit’ sectionNG
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.
Proceed ‘Checking the DC/DC converter circuit’ section
OK
NG
Check X301 14.318MHz clock input to I306
pin108 and pin109 at TTL level
OK
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
Check I306 pin111 RSTB signal is high level at
normal operation.
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
OK
1.Check I309 pin8, pin3, pin5, pin6.
2.Check I308 pin5, pin6, pin7, pin8.
Failure Point:
I306 is defected.
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.
NG
OK
OK
4. Troubleshooting (continued)
Go to cover page
22 ACER AL1716W
Model Name: ACER_AL1716WModel Number: 4793102913PDescription: T17ANHW-G1(99)~E91(C)_ACER_AL1716W
BOARD ASSY'SCKT_ID Component Description Pri
0 5113102243P T17ANHW-G1(99)_ACER_LCD ASSY0 5113301738P T17ANHW-G1(99)_ACER_INTERFACE BD0 5113800899P T17BNHW-G1(99)_ACER_FUNCTION KEY BD0 5114300839P T17BNHW-G1(99)_ACER_POWER BD0 5112403872P T17ANHW-G1(99)_ACER_PACKING ASSY
CAPACITORSCKT_ID Component Description Pri
C102 6311522045P20 CAP.ALU_uF_22_50V_T_105C_5x11_SK/SUSCONC104 6338110215P CAP. CD_pF_1000_50V_K_T_X7RC106 6355147355P CAP. PER_uF_0.047_50V_J_T_EUR 50C106 6357147355P CAP. PEM_uF_0.047_50V_J_T 51C107 6338110215P CAP. CD_pF_1000_50V_K_T_X7RC111 6355110255P CAP. PER_pF_1000_50V_J_T_EUR 50C111 6357110255P CAP. PEM_uF_0.001_50V_J_T 51C116 6334110052P30 CAP.CD_pF_10_3000V_J_L3.0P7.5_NPO_SUCCES S 50C116 6334910082P20 CAP. CD_pF_10_3000V_K_F_P=7.5_SL_TDK 51C118 6334950912P20 CAP.CD_pF_5_3000V_K_L4P7.5_SL_TDK 51C118 6334950912P30 CAP.CD_pF_5_3000V_K_L4P7.5_SL_SUCCESS 50C119 6355133255P CAP. PER_pF_3300_50V_J_T_EUROPTRONIC 50C119 6357133255P CAP. PEM_uF_0.0033_50V_J_T 51C125 6311447185P20 CAP.ALU_uF_470_35V_T_105C_10x20_MF/SUSCOC128 6355147355P CAP. PER_uF_0.047_50V_J_T_EUR 50C128 6357147355P CAP. PEM_uF_0.047_50V_J_T 51C134 6311447185P20 CAP.ALU_uF_470_35V_T_105C_10x20_MF/SUSCOC135 6311447185P20 CAP.ALU_uF_470_35V_T_105C_10x20_MF/SUSCOC142 6355110255P CAP. PER_pF_1000_50V_J_T_EUR 50C142 6357110255P CAP. PEM_uF_0.001_50V_J_T 51C144 6355110255P CAP. PER_pF_1000_50V_J_T_EUR 50C144 6357110255P CAP. PEM_uF_0.001_50V_J_T 51C152 6335122115P CAP. CD_PF_220_50V_K_T_Y5PC301 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC302 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC305 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC306 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC307 6311310142P20 CAP.ALU_uF_100_25V_L3.5P2.5_105C_6.3x11_ SK/SUSCONC308 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC309 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C309 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C310 6311210069P10 CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON 51C310 6311210069P20 CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON 50C311 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC312 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C312 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C313 6311210069P10 CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON 51C313 6311210069P20 CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON 50C314 6311310142P20 CAP.ALU_uF_100_25V_L3.5P2.5_105C_6.3x11_ SK/SUSCONC315 6311210069P10 CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON 51C315 6311210069P20 CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON 50C316 6311310142P20 CAP.ALU_uF_100_25V_L3.5P2.5_105C_6.3x11_ SK/SUSCONC317 6371210306P01 CAP. MC_uF_0.01_50V_M_X7R_C318 6371210306P01 CAP. MC_uF_0.01_50V_M_X7R_C319 6371210306P01 CAP. MC_uF_0.01_50V_M_X7R_C320 6371210306P01 CAP. MC_uF_0.01_50V_M_X7R_C321 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC322 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC323 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC324 6371210306P01 CAP. MC_uF_0.01_50V_M_X7R_C325 6371210306P01 CAP. MC_uF_0.01_50V_M_X7R_C326 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC327 6371110156P CAP. MC_pF_100_50V_J_NPO_SMD 0603C328 6371147056P CAP. MC_pF_47_50V_J_NPO_SMD 060 50C328 6371147056P01 CAP. MC_pF_47_50V_J_NPO_SMD_603_SMD 51
5. Spare Parts List
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23ACER AL1716W
CAPACITORSCKT_ID Component Description Pri
C328 6371147056P40 CAP.MC_pF_47_50V_J_NPO_0603_SAMSUNG 52C329 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC330 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC331 6371147056P CAP. MC_pF_47_50V_J_NPO_SMD 060C332 6371147056P CAP. MC_pF_47_50V_J_NPO_SMD 060C348 6311210069P10 CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON 51C348 6311210069P20 CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON 50C349 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C349 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C350 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C350 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C351 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C351 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C352 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C352 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C353 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC354 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C354 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C355 6311210069P10 CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON 51C355 6311210069P20 CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON 50C356 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C356 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C357 6311210069P10 CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON 51C357 6311210069P20 CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON 50C358 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC359 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC360 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC361 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC362 6371110056P01 CAP. MC_pF_10_50V_J_NPO_SMD_603_SMDC363 6311210069P10 CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON 51C363 6311210069P20 CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON 50C364 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C364 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C365 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C365 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C366 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC367 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C367 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C368 6311210069P10 CAP. ALU_uF_10_16V_F/P=2/L=4_105C_4X7 SK CAPXON 51C368 6311210069P20 CAP.ALU_uF_10_16V_L3.5P2_105C_4x7_SM/SUS SUSCON 50C369 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC370 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC371 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC372 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC373 6371110056P01 CAP. MC_pF_10_50V_J_NPO_SMD_603_SMDC374 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC375 6371110156P CAP. MC_pF_100_50V_J_NPO_SMD 0603C376 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C376 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C377 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC379 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C379 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C380 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C380 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C382 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC383 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC385 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC386 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC387 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C387 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C388 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C388 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C391 6373410486P01 CAP.MC_uF_0.1_25V_Z_Y5V_SMD_603_SMDC392 6373210416P CAP. MC_uF_0.1_25V_K_X7R_SMD 0603 PB 50C392 6373210416P40 CAP.MC_uF_0.1_25V_K_X7R_0603_SAMSUNG 51C601 6373210412P CAP. MC_uF_0.1_25V_K_X7R_SMD 0805
5. Spare Parts List (continued)
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24ACER AL1716W
CAPACITORSCKT_ID Component Description Pri
C602 6373210412P CAP. MC_uF_0.1_25V_K_X7R_SMD 0805C801 6328833419P CAP. X2_MPP_uF_0.33_275V_K_P=15_HJCC802 6302433262P CAP. CD_pF_3300_250V_M_F_10_SYI_P/O 50C802 6302433262P01 CAP. CD_pF_3300_250V_M_F_P=10_SY1_SEC 51C805 6312710141P60 CAP. ALU_uF_100_450V_LF15P7.5_105C 18*35.5_PAG NIPPON CHEMI-CON 51C805 6312710149P22 CAP.ALU_uF_100_450V_90DP7.5R_105C_18x35 SE_SUSCON 50C806 6336510305P CAP. CD_uF_0.01_1000V_M_T_Z5UC807 6311510045P20 CAP.ALU_uF_10_50V_T_105C_5x11_SK/SUSCONC809 6338547215P30 CAP. CD_pF_4700_1000V_K_T_X7R_SECC810 6338522115P CAP. CD_pF_220_1000V_K_T_X7RC811 6335122115P CAP. CD_PF_220_50V_K_T_Y5PC812 6335110215P CAP. CD_PF_1000_50V_K_T_Y5PC815 6336510305P CAP. CD_uF_0.01_1000V_M_T_Z5UC816 6338410215P CAP. CD_pF_1000_500V_K_T_X7RC818 6311447185P20 CAP.ALU_uF_470_35V_T_105C_10x20_MF/SUSCOC819 6328833419P CAP. X2_MPP_uF_0.33_275V_K_P=15_HJCC820 6302422212P01 CAP. CD_PF_2200_250V_M_F_10_SY1C821 6338210215P CAP. CD_pF_1000_100V_K_T_X7RC822 6311210245P22 CAP.ALU_uF_1000_16V_T_105C_10x20_HG /SUSCONC823 6311210245P22 CAP.ALU_uF_1000_16V_T_105C_10x20_HG /SUSCONC824 6311210245P22 CAP.ALU_uF_1000_16V_T_105C_10x20_HG /SUSCONC825 6302422212P01 CAP. CD_PF_2200_250V_M_F_10_SY1C827 6355110355P CAP. PER_uF_0.01_50V_J_T_EUROPTRONIC 50C827 6357110355P CAP. PEM_uF_0.01_50V_J_T 51C828 6311547945P20 CAP.ALU_uF_4.7_50V_T_105C_5x11_SK/SUSCONC829 6338547215P30 CAP. CD_pF_4700_1000V_K_T_X7R_SEC
COILS, TRANSFORMER, AND FILTERS CKT_ID Component Description Pri
FB301 6881603578P CORE_BEAD_PBY160808T_600Y_S_SMD_CHILISINFB302 6881603578P CORE_BEAD_PBY160808T_600Y_S_SMD_CHILISINFB303 6881603578P CORE_BEAD_PBY160808T_600Y_S_SMD_CHILISINFB304 6881603578P CORE_BEAD_PBY160808T_600Y_S_SMD_CHILISINFB305 6881604078P CORE_BEAD_SBK160808T 110YS_SMD 0603 CHILISINFB306 6881601578P CORE_BEAD_SBK160808T_300Y_SFB307 6881604078P CORE_BEAD_SBK160808T 110YS_SMD 0603 CHILISINFB308 6881601578P CORE_BEAD_SBK160808T_300Y_SFB309 6881604078P CORE_BEAD_SBK160808T 110YS_SMD 0603 CHILISINFB310 6881601578P CORE_BEAD_SBK160808T_300Y_SFB311 6881604238P10 CORE_BEAD_SBK160808T_451Y_N_SMD_CHILISINFB312 6881604238P10 CORE_BEAD_SBK160808T_451Y_N_SMD_CHILISINFB313 6881603878P CORE_BEAD_PBY160808T_301Y_S_SMD0604 CHILISINFB314 6881603878P CORE_BEAD_PBY160808T_301Y_S_SMD0604 CHILISINFB315 6881603878P CORE_BEAD_PBY160808T_301Y_S_SMD0604 CHILISINFB316 6881603878P CORE_BEAD_PBY160808T_301Y_S_SMD0604 CHILISINFB317 6881603878P CORE_BEAD_PBY160808T_301Y_S_SMD0604 CHILISINFB323 6881603878P CORE_BEAD_PBY160808T_301Y_S_SMD0604 CHILISINL802 6881008005P CORE_BEAD_C8B RH3.5xL6x1(W)X2+TPL803 6881001507P CORE_BEAD_W5 RH3.5x6x1.0TT102 6131022300P XFRMER_POWER_TPW 1137_EEL_19B_LSE 50T102 6131022310P XFRMER_POWER_TPW_1137_EEL19_DARFON TK202 4M101 51T801 6138003000P LINE FILTER_TLF_1030_mH_10.5_ETT802 6131053702P XFRMER_POWER_TPW-1128_ER28(ADD1Ts)_LSE PLI6008AL
CABLES AND CONNECTORS AND PLUGSCKT_ID Component Description Pri
GND1 6714010601P25 HARNESS-1P-120mm-CG601-21 LENGTH-1.8/TIN 10P103 6613050030P PLUG_5P/2P_2.0mm_62047_TAIWAN KING PIN 51P103 6613050030P80 PLUG_5P/2P_2.0mm_M24211P5R-D_STM 50P104 6613050030P PLUG_5P/2P_2.0mm_62047_TAIWAN KING PIN 51P104 6613050030P80 PLUG_5P/2P_2.0mm_M24211P5R-D_STM 50P301 6613090020P PLUG_9P_2.0mm_JWT_A2001WR2_09P302 6642150411P CONNECTOR_D_SUB_15P_P03_A004_199_NTK 401MAKERP302A 6715011603P00 CABLE_VIDEO_DSUBx2_1800mm_BLK_20276#30 (3+6)OD=6_JCEP306 6640030005P20 CONN_FFC_30P_1.0_CF25302D0R0-10_CVILUX 51P306 6640030007PD0 CONN_FFC_30P_1.0_AFN300-N2G11_P-TWO 50
5. Spare Parts List (continued)
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25ACER AL1716W
CABLES AND CONNECTORS AND PLUGSCKT_ID Component Description Pri
P306A 6712300067PC0 HARNESS_FFC_30P(1.0)_200mm_20696_P-TWOP307 6613005003P20 PLUG_5P_2.0mm_CI0105P1VK0_CVILUX 51P307 6613050020P PLUG_5P_2.0mm_A2001WV2_05_JWT 50P307A 6711050010P00 HARNESS_5P_220mm_1571#28_JCEP601 6610005002P00 PLUG_5P_1.25mm_A1251WR0-5P_JWTP801 6621030150PS0 AC INLET_3P_INALWAYS_0707-1-C7C 50P801 6621030151P91 AC INLET_3P_DLK_CDJ_3H 51P802 6711100003P90 HARNESS_10P/9P_100mm_1007#24_ETCS601 6853001100P SWITCH_TACT_SKHHAK2510_BLK 5mm 51S601 6853001120P SWITCH_TACT_100gf_BLK_DANG NAN 50S602 6853001100P SWITCH_TACT_SKHHAK2510_BLK 5mm 51S602 6853001120P SWITCH_TACT_100gf_BLK_DANG NAN 50S603 6853001100P SWITCH_TACT_SKHHAK2510_BLK 5mm 51S603 6853001120P SWITCH_TACT_100gf_BLK_DANG NAN 50S604 6853001100P SWITCH_TACT_SKHHAK2510_BLK 5mm 51S604 6853001120P SWITCH_TACT_100gf_BLK_DANG NAN 50S605 6853001100P SWITCH_TACT_SKHHAK2510_BLK 5mm 51S605 6853001120P SWITCH_TACT_100gf_BLK_DANG NAN 50
DIODESCKT_ID Component Description Pri
D103 6412001704P DIODE_SWITCHING_1N4148 T_77_T2 51D103 6412025504P DIODE_SWITCHING_IN4148E_T26_GRANDE 50D109 6412001704P DIODE_SWITCHING_1N4148 T_77_T2 51D109 6412025504P DIODE_SWITCHING_IN4148E_T26_GRANDE 50D118 6412001704P DIODE_SWITCHING_1N4148 T_77_T2 51D118 6412025504P DIODE_SWITCHING_IN4148E_T26_GRANDE 50D119 6412001704P DIODE_SWITCHING_1N4148 T_77_T2 51D119 6412025504P DIODE_SWITCHING_IN4148E_T26_GRANDE 50D120 6412001704P DIODE_SWITCHING_1N4148 T_77_T2 51D120 6412025504P DIODE_SWITCHING_IN4148E_T26_GRANDE 50D121 6412001704P DIODE_SWITCHING_1N4148 T_77_T2 51D121 6412025504P DIODE_SWITCHING_IN4148E_T26_GRANDE 50D301 6412019518P DIODE_SWITCHING_MMBD7000_7_75V_SOT23_4nS DII 51D301 6412027818P10 DIODE_BAV99-7-F_SOT23_DIODES 50D302 6412019518P DIODE_SWITCHING_MMBD7000_7_75V_SOT23_4nS DII 51D302 6412027818P10 DIODE_BAV99-7-F_SOT23_DIODES 50D303 6412019518P DIODE_SWITCHING_MMBD7000_7_75V_SOT23_4nS DII 51D303 6412027818P10 DIODE_BAV99-7-F_SOT23_DIODES 50D304 6414056038P DIODE_ZNR_RLZ TE_11 5.6B LL_34 50D304 6414056108P DIODE_ZENER_MMSZ5232B_7_5.6V_SOD123_DII 51D305 6414056038P DIODE_ZNR_RLZ TE_11 5.6B LL_34 50D305 6414056108P DIODE_ZENER_MMSZ5232B_7_5.6V_SOD123_DII 51D306 6414056038P DIODE_ZNR_RLZ TE_11 5.6B LL_34 50D306 6414056108P DIODE_ZENER_MMSZ5232B_7_5.6V_SOD123_DII 51D307 6413030038P DIODE_SCHOTTKY_BAT54C_7_0.2A/30V_SOT23 5nS_DIID308 6414056038P DIODE_ZNR_RLZ TE_11 5.6B LL_34 50D308 6414056108P DIODE_ZENER_MMSZ5232B_7_5.6V_SOD123_DII 51D309 6414056038P DIODE_ZNR_RLZ TE_11 5.6B LL_34 50D309 6414056108P DIODE_ZENER_MMSZ5232B_7_5.6V_SOD123_DII 51D310 6414056038P DIODE_ZNR_RLZ TE_11 5.6B LL_34 50D310 6414056108P DIODE_ZENER_MMSZ5232B_7_5.6V_SOD123_DII 51D601 6418004600P LED_LTL_1_BEDJP1_1(Y)3(G)_BULK_LITEON 50D601 6418004610P LED_GP32032M/R003_ZY_01_YELLOW/GREEN 1(G 3(Y)_DIP_G&P 51D801 6417001010P DIODE_BRIDGE_U4KB80R_4A/800V_SHINDENGEN 50D801 6417002100PF0 DIODE_BRIDGE_SINGLE_GBU4K_4A/800V_GBU_VI SHAY 51D801 6417002300PH0 DIODE_BRIDGE_SINGLE_GBU406_4A/800V_GBU TSC 52D802 6413150007PA0 DIODE_SCHOTTKY_P6KE150AT/B_T52_MCC 50D802 6413150027P DIODE_SCHOTTKY_P6KE150AT/B_T52_PANJIT 51D803 6412026604P DIODE_FAST RECOVERY_PG108R_1A/800V_DO_41 500nS_PANJITD804 6412012337P DIODE_SWITCHING_UF4005G_1A/600V_T52_75nS PANJITD806 6412001707P DIODE_SWITCHING_1N4148 T_72_T5 51D806 6412025507P DIODE_SWITCHING_1N4148_T_T52_GRANDE 50D809 6412000020P00 DIODE_SWITCHING_STPF1020CT_10A/200V_TO- 220AB_30nS_LITEON 50D809 6412027820PG0 DIODE_SWITCHING_URF1020_10A/200V_35NS ITO-220AB_MOSPEC 51D810 6413060000P DIODE_SCHOTTKY_SB1060F_10A/60V_PANJIT 50
5. Spare Parts List (continued)Go to cover page
26ACER AL1716W
DIODESCKT_ID Component Description Pri
D810 6413060010P00 DIODE_SCHOTTKY_SBF1060CT_10A/60V_TO-220 AB_LITEON 51D811 6414240014P DIODE_ZNR_MTZJ T_77 24B_T26 51D811 6414240014PB0 DIODE_ZENER_GDZJ24C_T26_GRANDE 50ZD101 6414068004PB0 DIODE_ZNR_GDZJ6.8B_T26_GRANDEZD801 6414220024P DIODE_ZNR_MTZJ T_77 22D DO_34_T26
ICSCKT_ID Component Description Pri
I101 6442044900P IC_LINEAR_OZ9936DN_8P_DIP_O2I301 6444014708P IC_CMOS_AO3401_3P_SOT23_ALPHA&OMEGA 51I302 6442023326P IC_LINEAR_AIC1084_33PM_3P_TO263_AIC 51I302 6442023348P IC_LINEAR_AP1084K33LA_3P_TO263_ATC 50I303 6442043308P IC-LINEAR-AIC1117-18PETR-3P-TO252-AIC IC 51I303 6442043318P IC_LINEAR_AP1117D18L_3P_TO252_ATC 50I304 6448018208P IC_CPU_24LC02BT/SN_8PIN_SOIC_MICROCHIP 51ICS
CKT_ID Component Description PriI304 6448018218P IC_CPU_M24C02_WMN6T_8PIN_SO8_ST 50I306 6447009006P21 IC_ASIC_GM5726H-LF-AB_128P_PQFP_GENESIS DIGITALI307 6442045108P IC_LINEAR_STL8110GNL463_3P_SO_23_SENTELI CI308 6448016508P IC_CPU_24LC16BT/SN_8PIN_SOIC 51I308 6448016518P IC_CPU_M24C16_WMN6T_8PIN_SO8_ST 50I309 6448029528P19 IC_CPU_PM25LV020_100SCE_8PIN_SOIC_PMC DIGITAL 51I309 6448029596P20 IC_CPU_SST25LF020A-33-4C-SAE_8P_SOIC_SST DIGITAL 50I801 6442048350P05 IC_LINEAR_SG5841JDZ_8_DIP_SG_DIGITALI802 6442014000P IC_Linear_LTV_817D_4P_PDIPI803 6442041005P IC_LINEAR_AP431VLA_3P_TO 92_ANACHIPQ105 6444023100P IC-CMOS-AOP607-8P-DIP-AOS 51
RESISTORSCKT_ID Component Description Pri
R101 6212110454P RES. CF_KOHM_100_1/4W_J_T26_MINR102 6212110454P RES. CF_KOHM_100_1/4W_J_T26_MINR103 6212110354P RES. CF_KOHM_10_1/4W_J_T26_MINIR104 6224610234P RES. MF_KOHM_102_1/4W_F_T26R105 6212122054P RES. CF_OHM_22_1/4W_J_T26_MINIR112 6212110254P RES. CF_KOHM_1_1/4W_J_T26_MINIR113 6212175454P RES. CF_KOHM_750_1/4W_J_T26_MINIR118 6212110457P RES. CF_KOHM_100_1/4W_J_T52_MINIR125 6213230557P RES. CMF_MOHM_3_1/4W_J_T52_KAMAYA:RNV600 VR126 6224636514P RES. MF_KOHM_3.65_1/4W_F_T26R130 6224634004P RES. MF_OHM_340_1/4W_F_T26R131 6212110054P RES. CF_OHM_10_1/4W_J_T26_MINIR132 6212120254P RES. CF_KOHM_2_1/4W_J_T26_MINIR133 6212110054P RES. CF_OHM_10_1/4W_J_T26_MINIR134 6212115254P RES. CF_KOHM_1.5_1/4W_J_T26_MINR164 6212110254P RES. CF_KOHM_1_1/4W_J_T26_MINIR301 6252100156P RES. CHIP_R_KOHM_1_1/10W_J_603R302 6252100256P RES. CHIP_R_KOHM_10_1/10W_J_603R304 6252470156P RES. CHIP_R_KOHM_4.7_1/10W_J_603R305 6252100056P RES. CHIP_R_OHM_100_1/10W_J_603R307 6252100256P RES. CHIP_R_KOHM_10_1/10W_J_603R308 6252470256P RES. CHIP_R_KOHM_47_1/10W_J_603R309 6252240156P00 RES.CHIP-R_KOHM_2.4_1/10W_J_0603R310 6252680956P RES. CHIP_R_OHM_68_1/10W_J_603R311 6252100056P RES. CHIP_R_OHM_100_1/10W_J_603R312 6252680956P RES. CHIP_R_OHM_68_1/10W_J_603R313 6252750946P RES. CHIP_R_OHM_75_1/10W_F_603R314 6252750946P RES. CHIP_R_OHM_75_1/10W_F_603R315 6252750946P RES. CHIP_R_OHM_75_1/10W_F_603R316 6252100056P RES. CHIP_R_OHM_100_1/10W_J_603R317 6252680956P RES. CHIP_R_OHM_68_1/10W_J_603R318 6252100056P RES. CHIP_R_OHM_100_1/10W_J_603R319 6252100256P RES. CHIP_R_KOHM_10_1/10W_J_603R320 6252100156P RES. CHIP_R_KOHM_1_1/10W_J_603R321 6252100056P RES. CHIP_R_OHM_100_1/10W_J_603
5. Spare Parts List (continued)
Go to cover page
27ACER AL1716W
RESISTORSCKT_ID Component Description Pri
R322 6252100056P RES. CHIP_R_OHM_100_1/10W_J_603R323 6252240156P00 RES.CHIP-R_KOHM_2.4_1/10W_J_0603R324 6252240156P00 RES.CHIP-R_KOHM_2.4_1/10W_J_0603R325 6252100256P RES. CHIP_R_KOHM_10_1/10W_J_603R326 6252120256P RES. CHIP_R_KOHM_12_1/10W_J_603R327 6252120256P RES. CHIP_R_KOHM_12_1/10W_J_603R328 6252470956P RES. CHIP_R_OHM_47_1/10W_J_603R329 6252470956P RES. CHIP_R_OHM_47_1/10W_J_603R330 6252240156P00 RES.CHIP-R_KOHM_2.4_1/10W_J_0603R348 6252240156P00 RES.CHIP-R_KOHM_2.4_1/10W_J_0603R349 6252100946P RES. CHIP_R_OHM_10_1/10W_F_603R350 6252250046P RES. CHIP_R_OHM_250_1/10W_F_603R351 6252240156P00 RES.CHIP-R_KOHM_2.4_1/10W_J_0603R356 6252240156P00 RES.CHIP-R_KOHM_2.4_1/10W_J_0603R357 6252240156P00 RES.CHIP-R_KOHM_2.4_1/10W_J_0603R358 6252240156P00 RES.CHIP-R_KOHM_2.4_1/10W_J_0603R359 6252470156P RES. CHIP_R_KOHM_4.7_1/10W_J_603R360 6252470156P RES. CHIP_R_KOHM_4.7_1/10W_J_603R362 6252100256P RES. CHIP_R_KOHM_10_1/10W_J_603R363 6252240156P00 RES.CHIP-R_KOHM_2.4_1/10W_J_0603R364 6252100256P RES. CHIP_R_KOHM_10_1/10W_J_603RESISTORS
CKT_ID Component Description PriR365 6252100056P RES. CHIP_R_OHM_100_1/10W_J_603R366 6252100056P RES. CHIP_R_OHM_100_1/10W_J_603R368 6252820356P RES. CHIP_R_KOHM_820_0.1W_J_TAPINGR369 6252820356P RES. CHIP_R_KOHM_820_0.1W_J_TAPINGR372 6252240156P00 RES.CHIP-R_KOHM_2.4_1/10W_J_0603R374 6252240156P00 RES.CHIP-R_KOHM_2.4_1/10W_J_0603R375 6252100056P RES. CHIP_R_OHM_100_1/10W_J_603R376 6252100056P RES. CHIP_R_OHM_100_1/10W_J_603R378 6252560246P00 RES.CHIP-R_KOHM_56_1/10W_F_0603_COMPOSTAR379 6252560246P00 RES.CHIP-R_KOHM_56_1/10W_F_0603_COMPOSTAR380 6252100056P RES. CHIP_R_OHM_100_1/10W_J_603R383 6252100056P RES. CHIP_R_OHM_100_1/10W_J_603R601 6253560242P RES. CHIP_R_KOHM_56_1/8W_F_805R602 6253150242P00 RES.CHIP-R_KOHM_15_1/8W_F_0805R603 6253560242P RES. CHIP_R_KOHM_56_1/8W_F_805R604 6253300242P00 RES.CHIP-R_KOHM_30_1/8W_F_0805R605 6253150242P00 RES.CHIP-R_KOHM_15_1/8W_F_0805R801 6228110557P RES. MGF_MOHM_1_1/4W_J_AT52R802 6201080012P THERMISTOR_OHM_8_3A_P=5_SCK_083_TKSR804 6228120557P RES. MGF_MOHM_2_1/4W_J_T52R807 6212133954P RES. CF_OHM_3.3_1/4W_J_T26_MINIR808 6224630124P RES. MF_KOHM_30.1_1/4W_F_T26R811 6221239852P RES. MOF_OHM_0.39_2W_J_HORR813 6221010157P RES. MOF_OHM_100_1/4W_J_AT52R814 6221022057P RES. MOF_OHM_22_1/4W_J_AT52R815 6221022157P RES. MOF_OHM_220_1/4W_J_AT52R817 6212151354P RES. CF_KOHM_51_1/4W_J_T26_MINIR823 6212127154P RES. CF_OHM_270_1/4W_J_T26_MINIR824 6224633024P RES. MF_KOHM_33_1/4W_F_T26R825 6212110254P RES. CF_KOHM_1_1/4W_J_T26_MINIR826 6212110254P RES. CF_KOHM_1_1/4W_J_T26_MINIR827 6224633024P RES. MF_KOHM_33_1/4W_F_T26R828 6212110254P RES. CF_KOHM_1_1/4W_J_T26_MINIR851 6224636514P RES. MF_KOHM_3.65_1/4W_F_T26
TRANSISTOR
CKT_ID Component Description PriI301 6427000018P50 FET_P-CHNL_AO3419_3P_SOT23_AOS 50Q101 6426008505P FET_N_CHNL_2N7000TA_200mA/60V_FQ102 6421000525P TRANSISTOR_NPN_KTC945_P_AT_KEC 50Q102 6421000535P TRANSISTOR_NPN_2SC945P_TO_92_B/ 51Q103 6423000215P TRANSISTOR_PNP_KTA733_P_AT_TO 50Q103 6423000225P TRANSISTOR_PNP_2SA733P_T0_92_B/ 51
5. Spare Parts List (continued)Go to cover page
28ACER AL1716W
TRANSISTOR
CKT_ID Component Description PriQ105 6428000010P50 FET_AOP609_8P_DIP_AOS 50Q106 6421000525P TRANSISTOR_NPN_KTC945_P_AT_KEC 50Q106 6421000535P TRANSISTOR_NPN_2SC945P_TO_92_B/ 51Q107 6421000525P TRANSISTOR_NPN_KTC945_P_AT_KEC 50Q107 6421000535P TRANSISTOR_NPN_2SC945P_TO_92_B/ 51Q108 6421000525P TRANSISTOR_NPN_KTC945_P_AT_KEC 50Q108 6421000535P TRANSISTOR_NPN_2SC945P_TO_92_B/ 51Q301 6422000018P20 TRANSISTOR_NPN_PMBS3904_SOT23_PHILIPS 51Q301 6422007318P TRANSISTOR_NPN_MMBT3904_7_SOT23_DII 52Q301 6422007328P TRANSISTOR_NPN_LMBT3904LT1G_SOT23_LRC 50Q302 6422000018P20 TRANSISTOR_NPN_PMBS3904_SOT23_PHILIPS 51Q302 6422007318P TRANSISTOR_NPN_MMBT3904_7_SOT23_DII 52Q302 6422007328P TRANSISTOR_NPN_LMBT3904LT1G_SOT23_LRC 50Q303 6422000018P20 TRANSISTOR_NPN_PMBS3904_SOT23_PHILIPS 51Q303 6422007318P TRANSISTOR_NPN_MMBT3904_7_SOT23_DII 52Q303 6422007328P TRANSISTOR_NPN_LMBT3904LT1G_SOT23_LRC 50Q306 6422000018P20 TRANSISTOR_NPN_PMBS3904_SOT23_PHILIPS 51Q306 6422007318P TRANSISTOR_NPN_MMBT3904_7_SOT23_DII 52Q306 6422007328P TRANSISTOR_NPN_LMBT3904LT1G_SOT23_LRC 50Q308 6422000018P20 TRANSISTOR_NPN_PMBS3904_SOT23_PHILIPS 51Q308 6422007318P TRANSISTOR_NPN_MMBT3904_7_SOT23_DII 52Q308 6422007328P TRANSISTOR_NPN_LMBT3904LT1G_SOT23_LRC 50Q803 6426000190PF0 FET_N-CHNL_STP9NK65ZFP_6.4A/650V_ST 51Q803 6426014260P70 FET_N-CHNL_KHB7D0N65F1_7A/650V_KEC 50
PACKING ASSYS
CKT_ID Component Description Pri1P11 7749206234P0A CARTON_ ACER_T17AN_AL1716W_2160SETS1P21 7749106560P0A CUSHION FOAM_EPS_ACER-AL1716W_2160SETS_ L<(>&<)>R_472x117x398(H)1P31 7749003210P0A BAG_LDPE+EPE_ORDINARY_ALL MODEL_L680x W550mmxH0.55mm1P33 7749001360P0B BAG_LLDPE_ORDINARY_ALL MODEL_W500mm*H0.1P34 7749001370P0A BAG_LLDPE_FILM STRETCH WRAP_ALL MODEL_W1P37 7749003190P0A BAG_PE_ORDINARY_FOR ACER_L300xW300xT0.05 mm1P41 7749600730P0A TAPE_PACKING_50mx65mmx0.055mm_ACER1P42 7749600850P0A TAPE_PACKING_914Mx60mmx0.065mm_FOR ACER1P43 7749600200P0A TAPE_MASKING_PACKING_25mm(w)x45m_LITEON1P44 7749600650P0A TAPE_PACKING_250Mx15mmx0.95mm_ALL MODEL1P51 7749406860P0A BOARD_CORNER PAPER_2100x50x3mm_HP1P52 7749401590P0A BOARD_CORNER PAPER_850x50x3mm1P53 7749404900P0A BOARD_CORNER PAPER_1050*50*3mm_H1P56 7749401870P0A PAPER BOARD_1120*900*4mm_H2B01 7735432480P0A LABEL_MOD_#6360_89.5x49.5_ACER_NON-TCO2P01 7735431081P0A LABEL_PACKING LB_WHITE_100x80_ACER_ALL2P04 7735431688P0A LABEL_VISTA(WORKS)_CMYK_65x28.6_ALL2P09 7735421811P0A LABEL_PACKING LB_WHT_152.4x101.6_ALL2U01 1241000205P ID DATE CODE LABEL2U02 1241000208P LABEL_IC LABEL_ALL_ART PAPER_3x2mm2U03 1241000205P ID DATE CODE LABEL2U04 1241000205P ID DATE CODE LABEL2U04 1241000400P MODEL LABEL_WHITE3U01 1241000205P ID DATE CODE LABEL6BB1 7749600940P0A TAPE_PACKING_114x36x0.25mm_FOR ACER R20 BUNW8C01P 7735431685P0A LABEL_VISTA(WORKS)_CMYK_25.4x11.2_LENOVO T15AN8CC2 7749600950P0A TAPE_PACKING_86x28x0.25mm_FOR ACER R20BU8U01 1241000205P ID DATE CODE LABELTAP1 1120000700P TAPE_PVC
MICHANICAL PARTS
CKT_ID Component Description Pri6B01 7737616800P0A RC ASSY_#6800_ABS 94V0_ACER_T17ANHW6BA1 7742243050P0A RC_#6800_ABS 94V0_ACER_T17ANHW6D01 7737816630P0A BRACKET ASSY_CHASSIS_ACER T17ANHW_SECC T=0.8mm6DA1 7748716910P0A BRACKET_CHASSIS_ACER T17ANHW_SECCT=0.8mm6DB1 7742005160P0A RUBBER CUSHION_COVER_NBR_BLK_L6.5xW4.5xH 0.8mm6F01 7737517400P0A FC ASSY_#6790/#6810_ABS94V0_ACER_T17BNHW6FA1 7742243000P0A FC_#6790#6810P_ABS 94HB_ACER_R17BNHW
5. Spare Parts List (continued)
Go to cover page
29ACER AL1716W
MICHANICAL PARTS
CKT_ID Component Description Pri6FB1 7742807870P0A PUSH BUTTON_#6780#6790_ABS_UL94HB_ACER_ R20BUNW-M16FC1 7742807880P0A PUSH BUTTON_KEY PW_#6780#6790_ABS_UL94HB ACER_R20BUNW-M16L01A 7742613400P0A COVER_HINGE_#6800_ABS_UL94HB_ACER_R20BUN W-M16L01B 7111230061P SCREW-MACHINE-Flat Washer-Pan-M3-6-Zn6L01C 7116240081P0A SCREW-MACHINE-Star Washer-Pan-M4-8-Zn6L01D 7110330052P0A SCREW-MACHING-FLAT HEAD-M3-5-NI6L01E 7140330083P0A SCREW-DOUBLE THREAD-NO WASHER-FLAT HEAD6L01F 7110730082P0A SCREW_MACHINE_NONE_HEX WASHER HEAD_M3_8m m_Fe NI6L01G 7140130061P0A SCREW_MACHINE_WITHOUT_NINDING_M3_6L_BLA6L01H 7115240121P0A SCREW_M4*12_DOUBLE WASHIER6L01I 7110330052P0A SCREW-MACHING-FLAT HEAD-M3-5-NI8C01 7742612091P0A STAND_COVER_#6800_ABS 94HB_ABS 94HB_ACER R17BNW8C03 7738001840P0A HINGE_STAND_WHT_SUS430 T=2.0mm_ACER_ T17AN/BNHW8C04 7140340162P0A SCREW_DOUBLE THREAD_NONE_FLAT HEAD_M4x16 mm_NI8CA2 7740412200P0A STAND_BASE_ACER_AL1717_#6800_ABS 94HB ACER 17D809N 7110430081P SCREW-MACHINE-Binding-M3-8-ZnD810N 7110430081P SCREW-MACHINE-Binding-M3-8-ZnG801 7748000190P0A GROUNDING_CONNECTOR_MTS_C150AT_PHOSPHORQ803N 7110430081P SCREW-MACHINE-Binding-M3-8-Zn
PARTS & MISCELLANEOUS PARTS
CKT_ID Component Description Pri6F01T 7742005280P0A SPONGE_GASKET FORM_WHT_W10xH10xL40mm6FD1 7742302790P0A LENS_KEY_CLEAR_PC_UL94HB_ACER_R20BUNW-M18C02 7737717850P0A BASE ASSY_#6800_ABS 94V0_ACER_T17BNHW8CB2 7742004160P0A RUBBER CUSHION_FOOT PAD_SILICONE_BLACKD809M 7746402831P0A HEAT SINK_HEAT SINK_B17MTF_AL_CLEAF801 6851002050P00 FUSE_TIME LAG_2A/250V_215002MXP_LITTELFU SEF801E 6622050010P FUSE CLIP_FCPC01 6716004833P CABLE_POWER_1800mm_CPQ:268246/HP& CPQ:8121-0731_BLACK_LONGWELLPARTS & MISCELLANEOUS PARTS
CKT_ID Component Description PriQ803M 7746402681P0A HEAT SINK_K17ANU_AL_6063V200 6814175010P14 LCD_17"W_HSD170MGW1-A00(LTC) _HSD_1370gX301 6449006400P CRYSTAL_14.318MHz_AT_49_TOPICSY001 7730303323P0A MANUAL ASSY_ACER_T17AN_AL1716W_EMEA_27LY002 7730203550P0A CARD_SCREEN PROTECTOR_ACER_T17AA_AL1716WY0A1 7730203572P0A CD_MANUAL_ACER_T17AN_AL1716WY0B1 7730203573P0A CARD_QSG_ACER_T17AN_AL1716W_EMEAY0C1 7730203132P0D CARD_WARRANTY CARD_ACER_R17AA_AL1717 _ACER_19LY0E1 7730203431P0B CARD_OOBE BOOKLET_ACERY0F1 7730203451P0A CARD_SP LEAFLET_ACER_ALL MODELS_EMEA
5. Spare Parts List (continued)
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30ACER AL1716W
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31
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32
AC
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AC
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AC
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page
42
AC
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ET
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EA
D_
NO
NE
_F
LA
TH
EA
D_
M3
_8
2S
cre
wS
ize
=M
3x8
;T
orq
ue
=5
~6
KG
F.C
M
71
10
73
00
82
P0
AS
CR
EW
_M
AC
HIN
E_
NO
NE
_H
EX
WA
SH
ER
HE
AD
_M
3_
8m
m_
Fe
NI
2S
cre
wS
ize
=M
3x8
;T
orq
ue
=4
.5~
6.5
KG
FK
GF
.CM
71
10
33
00
52
P0
AS
CR
EW
-MA
CH
ING
-FL
AT
HE
AD
-M3
-5-N
I1
Scre
wS
ize
=M
3x5
;T
orq
ue
=5
~7
KG
FK
GF
.CM
77
37
61
68
00
P0
AR
CA
SS
Y_
#6
80
0_
AB
S9
4V
0_
AC
ER
_T
17
AN
HW
1-
77
37
51
74
00
P0
AF
CA
SS
Y_
#6
79
0/#
68
10
_A
BS
94
V0
_A
CE
R_
T1
7B
NH
W1
-
51
13
80
08
99
PT
17
BN
HW
-G1
(99
)_A
CE
R_
FU
NC
TIO
NK
EY
BD
1-
71
40
13
00
61
P0
AS
CR
EW
_M
AC
HIN
E_
WIT
HO
UT
_N
IND
ING
_M
3_
6L
_B
LA
2S
cre
wS
ize
=M
3x6
;T
orq
ue
=6
~8
KG
F.C
M
--
--
Sp
are
Pa
rts
Lis
tQ
'tyR
em
ark
Go
tocover
page
43
AC
ER
AL
17
16
W
7.
Asse
mb
lya
nd
Dis
asse
mb
lyP
roce
du
res
(co
ntin
ue
d)
Part
Num
ber
Part
Nam
e
7115240121P
0A
SC
RE
W_M
4*1
2_D
OU
BLE
WA
SH
IER
4S
crew
Size
=M
4x1
2;Torq
ue=12~14K
GF.C
M
7740412200P
0A
STA
ND
_B
AS
E_A
CE
R_A
L1717_#6800_A
BS
94H
B1
-
7742612091P
0A
STA
ND
_C
OV
ER
_#6800_A
BS
94H
B_A
BS
94H
B_A
CE
R
R17B
NW
1-
7749600200P
0A
TA
PE
_M
AS
KIN
G_P
AC
KIN
G_25m
m(w
)x45m
_LIT
EO
N2
-
7730203550P
0A
CA
RD
_S
CR
EE
NP
RO
TE
CTO
R_A
CE
R_T17A
A_A
L1716W
1-
7735431685P
0A
LA
BE
L_V
ISTA
(WO
RK
S)_
CM
YK
_25.4
x11.2
_LE
NO
VO
T15A
N1
-
7749003210P
0A
BA
G_LD
PE
+E
PE
_O
RD
INA
RY
_A
LL
MO
DE
L_L680xW
550m
mxH
0.5
5m
m1
-
7749003190P
0A
BA
G_P
E_O
RD
INA
RY
_FO
RA
CE
R_L300xW
300xT
0.0
5m
m1
-
7749106560P
0A
CU
SH
ION
FO
AM
_E
PS
_A
CE
R-A
L1716W
_2160S
ETS
_
L<(>
&<)>
R_472x1
17x3
98(H
)2
-
7749600200P
0A
TA
PE
_M
AS
KIN
G_P
AC
KIN
G_25m
m(w
)x45m
_LIT
EO
N4
-
Q'ty
Rem
ark
Spare
Parts
Lis
t
S2
0L
ock
the
sta
nd
co
ve
ra
cco
rdin
gto
the
ord
er
of
the
nu
mb
er
1~
2till
two
pa
rtsfirm
lya
ttach
ed
.
S2
2S
tick
aV
ista
lab
elo
nth
ere
ar
sid
eo
fF
ron
tB
eze
l(n
ea
rby
Sta
nd
Ba
se
).
S2
3T
ake
aL
DP
E+
EP
Eb
ag
(L6
80
xW
55
0m
mxH
0.5
5m
m)
to
co
ve
rth
eL
CD
mo
nito
r.
S2
4T
ake
aP
Eb
ag
(L3
00
xW
30
0xT
0.0
5m
m)
toco
ve
rth
eS
tan
d
Ba
se
.
Pro
ce
du
re
sS
tep
sP
ho
to
Ta
ke
two
cu
sh
ion
foa
ms;
on
eis
he
ldth
ele
ftsid
eo
fL
CD
mo
nito
r,a
nd
an
oth
er
ish
eld
the
righ
tsid
e.
S2
5
S2
1
Tu
rno
ve
rth
eL
CD
mo
du
le(s
cre
en
face
dd
ow
n),
the
nta
ke
a
Sta
nd
Ba
se
an
dp
ut
ito
nsp
ecific
po
sitio
ns
as
ph
oto
left.
Use
aP
hillip
s-h
ea
dscre
wd
rive
ra
sse
mb
led
the
Sta
nd
ba
se
to
LC
Dm
od
ule
with
4scre
ws.
S1
9
Stic
ka
Scre
en
Ca
rdo
nth
eF
ron
tB
eze
lw
ithtw
ota
pe
s.
1 2
Lin
e1
Lin
e2
Go
tocover
page
44
AC
ER
AL
17
16
W
7.
Asse
mb
lya
nd
Dis
asse
mb
lyP
roce
du
res
(co
ntin
ue
d)
Part
Num
ber
Part
Nam
e
7730303323P0A
MANUAL
ASSY_A
CER_T17A
N_A
L1716W_E
MEA_27L
1-
6716004833PPow
ercable1
-
6715009019P00
DVIcable
1-
7749206234P0A
CARTO
N_
ACER_T17A
N_A
L1716W_2160S
ETS
1-
7735431081P0A
Packing
label2
-
7735431685P0A
LABEL_V
ISTA
(WO
RKS)_C
MYK_25.4x11.2_LE
NO
VO
T15AN
2-
--
--
Spare
Parts
Lis
tQ
'tyRem
ark
S2
7
S2
8
S2
9
S3
0P
ackin
gth
ecarto
n.
Move
pre
vio
us
assem
ble
dparts
into
the
carto
nand
stic
k
Vis
tata
ble
son
the
front
and
rear
sid
es
of
carto
n.
Then
S2
6P
ut
accessorie
son
the
specific
positio
ns
and
fixth
eS
tand
Base
and
User's
Manuals
with
two
tapes
as
photo
left.
Ste
ps
Ph
oto
Pro
ced
ures
Packin
gLabels
Vis
taLabels
Go
tocover
page
45
AC
ER
AL
17
16
W
7.
Asse
mb
lya
nd
Dis
asse
mb
lyP
roce
du
res
(co
ntin
ue
d)
7.2
Dis
asse
mb
lyP
roce
du
res
Mo
ve
the
retu
rne
dL
CD
mo
nito
rto
aw
ork
ing
tab
le,
the
n
rem
ove
cu
sh
ion
foa
ms
an
dL
DP
E+
EP
Eb
ag
.
Te
ar
off
tap
es
tore
mo
ve
the
scre
en
pro
tecto
rca
rd.
Tu
rno
ve
r
the
LC
Dm
on
itor
(scre
en
face
dd
ow
n),
Op
en
the
ca
rton
with
ap
rop
er
too
l.
Ta
ke
ou
ta
lla
cce
sso
ries
an
dre
turn
ed
pro
du
ct
with
cu
sh
ion
foa
ms
from
the
ca
rton
.(O
ptio
na
l:it
de
pe
nd
so
nw
he
the
rif
en
d
use
rsre
turn
the
acce
sso
ries.)
S3
S1
S2
Ste
ps
Ph
oto
Pro
ce
du
re
s
S4
Dis
asse
mb
leth
esta
nd
co
ve
r.1 2
Pa
rt
Nu
mb
er
Pa
rt
Na
me
77
49
20
62
34
P0
AC
AR
TO
N_
AC
ER
_T
17
AN
_A
L1
71
6W
_2
16
0S
ET
S1
-
77
35
43
10
81
P0
AP
ackin
gla
be
l2
-
77
35
43
16
85
P0
AL
AB
EL
_V
IST
A(W
OR
KS
)_C
MY
K_
25
.4x1
1.2
_L
EN
OV
OT
15
AN
2-
77
40
41
22
00
P0
AS
TA
ND
_B
AS
E_
AC
ER
_A
L1
71
7_
#6
80
0_
AB
S9
4H
B1
-
77
30
30
33
23
P0
AM
AN
UA
LA
SS
Y_
AC
ER
_T
17
AN
_A
L1
71
6W
_E
ME
A_
27
L1
-
67
16
00
48
33
PP
ow
er
ca
ble
1
67
15
00
90
19
P0
0D
VI
ca
ble
1
77
49
10
65
60
P0
AC
US
HIO
NF
OA
M_
EP
S_
AC
ER
-AL
17
16
W_
21
60
SE
TS
_L
<(>
&<
)>R
_4
72
x1
17
x3
98
(H)
2-
77
49
00
32
10
P0
AB
AG
_L
DP
E+
EP
E_
OR
DIN
AR
Y_
AL
LM
OD
EL
_L
68
0xW
55
0m
mxH
0.5
5m
m1
-
77
49
00
31
90
P0
AB
AG
_P
E_
OR
DIN
AR
Y_
FO
RA
CE
R_
L3
00
xW
30
0xT
0.0
5m
m1
-
77
30
20
35
50
P0
AC
AR
D_
SC
RE
EN
PR
OT
EC
TO
R_
AC
ER
_T
17
AA
_A
L1
71
6W
1-
77
42
61
20
91
P0
AS
TA
ND
_C
OV
ER
_#
68
00
_A
BS
94
HB
_A
BS
94
HB
_A
CE
RR
17
BN
W1
-
77
38
00
18
40
P0
AH
ING
E_
ST
AN
D_
WH
T_
SU
S4
30
T=
2.0
mm
_A
CE
R_
T1
7A
N/B
NH
W1
-
Q'ty
Re
ma
rk
Sp
are
Pa
rts
Us
ag
e
Go
tocover
page
46
AC
ER
AL
17
16
W
7.
Asse
mb
lya
nd
Dis
asse
mb
lyP
roce
du
res
(co
ntin
ue
d)
Part
Nu
mb
er
Part
Nam
e
7115240121P
0A
SC
RE
W_M
4*1
2_D
OU
BLE
WA
SH
IER
4S
cre
wS
ize=M
4x1
2;T
orq
ue=12~14K
GF
.CM
7740412200P
0A
ST
AN
D_B
AS
E_A
CE
R_A
L1717_#6800_A
BS
94H
B1
-
--
--
--
--
--
--
7737517400P
0A
FC
AS
SY
_#6790/#
6810_A
BS
94V
0_A
CE
R_T
17B
NH
W1
-
5113800899P
T17B
NH
W-G
1(9
9)_
AC
ER
_F
UN
CT
ION
KE
YB
D1
-
7140130061P
0A
SC
RE
W_M
AC
HIN
E_W
ITH
OU
T_N
IND
ING
_M
3_6L_B
LA
2S
cre
wS
ize=M
3x6
;T
orq
ue=6~8K
GF
.CM
Sp
are
Parts
Usag
eQ
'tyR
em
ark
S6
Tu
rno
ve
rth
eL
CD
mo
nito
r(s
cre
en
face
du
p).
S7
Pla
ce
clo
tho
nth
ep
an
elw
he
reyo
ua
rew
ork
ing
on
top
rote
ct
the
pa
ne
l.C
on
tinu
ely
,w
ed
ge
yo
ur
fing
er
be
twe
en
the
fron
t
be
ze
la
nd
the
pa
ne
l,th
en
pry
up
on
the
fron
tb
eze
lto
dis
en
ga
ge
the
lockin
gm
ech
an
ism
.
S8
Wo
rkyo
ur
wa
ya
lon
gth
efro
nt
be
ze
lto
dis
en
ga
ge
all
the
lockin
gm
ech
an
ism
.
S9
On
ce
all
the
lockin
gm
ech
an
ism
sa
rere
lea
se
from
fron
tb
eze
l;
rem
ove
the
be
ze
lca
refu
lly.
Use
aP
hillip
s-h
ea
dscre
wd
rive
ru
nscre
we
dn
um
be
r1
~2
scre
ws
tore
lea
se
the
Ke
yF
un
ctio
nb
oa
rdfro
mth
eF
ron
tB
eze
l.S
10
S5
Use
aP
hillip
s-h
ea
dscre
wd
rive
ru
nscre
w4
scre
ws
tore
lea
se
the
sta
nd
ba
se
.
Ste
ps
Ph
oto
Pro
ce
du
re
s
21
Ke
yF
un
ctio
nca
ble
Go
tocover
page
47
AC
ER
AL
17
16
W
7.
Asse
mb
lya
nd
Dis
asse
mb
lyP
roce
du
res
(co
ntin
ue
d)
S1
1U
se
bo
thh
an
dto
rem
ove
the
LC
Dp
an
elm
od
ule
an
dp
ut
Re
ar
Be
ze
la
sid
e.
S1
2U
se
aP
hillip
s-h
ea
dscre
wd
rive
ru
nscre
we
dth
escre
wto
rele
ase
the
He
at-s
ink.
S1
3U
se
aP
hillip
s-h
ea
dscre
wd
rive
ru
nscre
we
dth
en
um
be
r1
~2
scre
ws
tod
isa
sse
mb
leth
ep
ow
er
plu
g.
S1
4U
se
aH
ex-h
ea
dscre
wd
rive
ru
nscre
we
dth
eN
o.3
~4
He
xN
ut
to
rele
ase
the
D-S
ub
co
nn
ecto
rs.
S1
5U
se
aP
hillip
s-h
ea
dscre
wd
rive
ru
nscre
we
dth
eN
o.1
~4
scre
ws
tod
isa
sse
mb
leth
eL
CD
pa
ne
la
nd
Bra
cke
tC
ha
ssis
mo
du
le.
S1
6U
np
lug
4la
mp
ca
ble
s(N
o.
1~
4).
Ste
ps
Ph
oto
Pro
ce
du
re
s
34
D-S
ub
Ca
ble
12
12
343
4
Pa
rt
Nu
mb
er
Pa
rt
Na
me
77
37
61
68
00
P0
AR
CA
SS
Y_
#6
80
0_
AB
S9
4V
0_
AC
ER
_T
17
AN
HW
1-
71
10
33
00
52
P0
AS
CR
EW
-MA
CH
ING
-FL
AT
HE
AD
-M3
-5-N
I1
Scre
wS
ize
=M
3x5
;T
orq
ue
=5
~7
KG
FK
GF
.CM
71
40
33
00
83
P0
AS
CR
EW
_D
OU
BL
ET
HR
EA
D_
NO
NE
_F
LA
TH
EA
D_
M3
_8
2S
cre
wS
ize
=M
3x8
;T
orq
ue
=5
~6
KG
F.C
M
71
10
73
00
82
P0
AS
CR
EW
_M
AC
HIN
E_
NO
NE
_H
EX
WA
SH
ER
HE
AD
_M
3_
8m
m_
Fe
NI
2S
cre
wS
ize
=M
3x8
;T
orq
ue
=4
.5~
6.5
KG
FK
GF
.CM
71
10
33
00
52
P0
AS
CR
EW
-MA
CH
ING
-FL
AT
HE
AD
-M3
-5-N
I4
Scre
wS
ize
=M
3x5
;T
orq
ue
:=2
~3
KG
F.C
M
--
--
Sp
are
Pa
rts
Us
ag
eQ
'tyR
em
ark
Go
tocover
page
48
AC
ER
AL
17
16
W
7.
Asse
mb
lya
nd
Dis
asse
mb
lyP
roce
du
res
(co
ntin
ue
d)
S17
Disco
nnect
the
FFC
cable
toth
eco
nnecto
rofpanel.
Use
aP
hillip
s-head
screw
drive
runscre
wed
the
No.1
~4
screw
s
todisa
ssem
ble
the
pow
erboard
.S
20
Ste
ps
Photo
Pro
cedure
s
Disco
nnect
the
FFC
,P
802,and
key
functio
nca
ble
sto
connecto
rsofIn
terfa
ceboard
.S
19
Use
aP
hillip
s-head
screw
drive
runscre
wed
the
No.1
~4
screw
s
tore
lease
the
inte
rface
board
.S
18
FFC
CableIn
terfa
ce
Board
2
13
4
P802
FFC
Bra
cketC
hassis
Base
23
41
Pow
er
Board
Part
Num
ber
Part
Nam
e
--
--
5114300839P
T17B
NH
W-G
1(9
9)_
AC
ER
_P
OW
ER
BD
1-
7116240081P
0A
SC
RE
W-M
AC
HIN
E-S
tarW
ash
er-P
an-M
4-8
-Zn
1S
crew
Size
=M
4x8
;Torq
ue:=
7~9K
GF.C
M
7111230061P
SC
RE
W-M
AC
HIN
E-F
latW
ash
er-P
an-M
3-6
-Zn
3S
crew
Size
=M
3x6
;Torq
ue:=
7~9K
GF.C
M
5113301738P
T17A
NH
W-G
1(9
9)_
AC
ER
_IN
TE
RFA
CE
BD
--
6712300067P
C0
HA
RN
ES
S_FFC
_30P
(1.0
)_200m
m_20696_P
-TW
O-
-
5114300839P
T17B
NH
W-G
1(9
9)_
AC
ER
_P
OW
ER
BD
1-
7116240081P
0A
SC
RE
W-M
AC
HIN
E-S
tarW
ash
er-P
an-M
4-8
-Zn
1S
crew
Size
=M
4x8
;Torq
ue:=
7~9K
GF.C
M
7111230061P
SC
RE
W-M
AC
HIN
E-F
latW
ash
er-P
an-M
3-6
-Zn
3S
crew
Size
=M
3x6
;Torq
ue:=
7~9K
GF.C
M
Spare
Parts
Usage
Q'ty
Rem
ark
Go
tocover
page
49
AC
ER
AL
17
16
W