Acer AL1911 User manual
1
AL1911 TFT LCD MONITOR
CONTENTS
1. INTRODUCTION................................................................................................................................3
1.1 Scope............................................................................................................................................................................3
1.2 Description..................................................................................................................................................................3
2. ELECTRICAL REQUIREMENTS.........................................................................................................4
2.1 Standard Test Conditions.........................................................................................................................................4
2.2 LCD monitor General specification.........................................................................................................................4
2.3 LCD Panel Specification...........................................................................................................................................5
2.4 Input Signals.............................................................................................................................................................10
2.5 Controls.....................................................................................................................................................................14
2.6 White Color Temperature.......................................................................................................................................16
2.7 Power Management.................................................................................................................................................17
2.8 Plug & Play(EDID)...................................................................................................................................................18
2.9 Audio Technical specification.................................................................................................................................18
3. VL-901 DISPLAY CONTROL BOARD............................................................................................... 19
3.1 Description................................................................................................................................................................19
3.2 Features.....................................................................................................................................................................19
3.3 Block Diagram..........................................................................................................................................................19
3.4 Connector Locations................................................................................................................................................21
3.5 Connector Type.........................................................................................................................................................21
3.6 Connector pin assignment......................................................................................................................................21
4. VK906 Control Panel Board............................................................................................................ 24
4.1 Description................................................................................................................................................................24
4.2 Connector and Switch Locations............................................................................................................................24
4.3 Connector type..........................................................................................................................................................24
4.4 Connector pin Assignment......................................................................................................................................24
4.5 Switch definition.......................................................................................................................................................25
4.6 LED definition...........................................................................................................................................................25
5. POWER SUPPLY (VI-902)............................................................................................................... 26
5.1 Electrical specification............................................................................................................................................26
5.2 Pin Assignments........................................................................................................................................................27
6. VM-902 AUDIO BOARD................................................................................................................... 28
6.1Description................................................................................................................................................................28
6.2 Connector Locations................................................................................................................................................28
7. TROUBLESHOOTING..................................................................................................................... 30
7.1 Main Procedure........................................................................................................................................................30
8. MECHANICAL REQUIREMENTS...................................................................................................... 36
8.1 Vibration and Shock ................................................................................................................................................36
8.2 Package Drop Specification...................................................................................................................................36
8.3 Dimension Size and Weight....................................................................................................................................37
8.4 Gap Spec....................................................................................................................................................................37
8.5 Tilt Base Rotation.....................................................................................................................................................39
8.6 Swivel Base Rotation...............................................................................................................................................39
8.7 Plastic Material........................................................................................................................................................40
8.8 GAP Spec...................................................................................................................................................................40
9. Power Line Transient Test (IEC 61000-4-4 Fast Transients/Burst).................................................. 40
9.1 Peak Voltage.............................................................................................................................................................40
9.2 Polarity .....................................................................................................................................................................40
9.3 Repetition Frequency of the impulse ....................................................................................................................40
9.4 Rise-Time ..................................................................................................................................................................41
9.5 Impulse Duration......................................................................................................................................................41
9.6 Relation to Power Supply........................................................................................................................................41
9.7 Burst Duration..........................................................................................................................................................41
9.8 Burst Period..............................................................................................................................................................41
9.9 Climatic Conditions.................................................................................................................................................41
2
9.10 Test Procedure..........................................................................................................................................................41
10. Power Line Surge Test (IEC 61000-4-5 Surge)..................................................................... 43
10.1 Climatic Condition...................................................................................................................................................43
10.2 Test Conditions:.......................................................................................................................................................43
11. ENVIROMENT REQUIREMENT............................................................................................. 44
11.1 Operating..................................................................................................................................................................44
11.2 Storage or Shipment................................................................................................................................................44
12. REGULATION COMPLIANCE............................................................................................... 45
12.1 This product comply to the most current revisions of following regulations:................................................45
12.2 Electrostatics Discharge (ESD)..............................................................................................................................46
13. QUALITY AND RELIABILITY................................................................................................. 47
13.1 Quality Assurance....................................................................................................................................................47
13.2 Reliability..................................................................................................................................................................47
Appendix A: Parts Lists -------------------------------------------------------------------------------------------------- 47
Appendix B: Display Unit Assembly------------------------------------------------------------------------------------ 53
Appendix C: P.C.B.A ASSEMBLY--------------------------------------------------------------------------------------- 61
3
1. INTRODUCTION
1.1 Scope
This specification defines the requirements for the 19” MICRO-PROCESSOR based Multi-
mode supported high resolution color LCD monitor, This monitor can be directly connected to
general 15 pin D-sub VGA connector, eliminates the requirement of optional special display
card. It also supports VESA DPMS power management and plug & play function. There is a
build-in stereo audio amplifier with volume control to drive a pair of speakers.
1.2 Description
The LCD monitor is designed with the latest LCD technology to provide a performance
oriented product with no radiation. This will alleviate the growing health concerns. It is also a
space saving design, allowing more desktop space, and comparing to the traditional CRT
monitor, it consumes less power and gets less weight in addition MTBF target is 50k
hours or more.
4
2. ELECTRICAL REQUIREMENTS
2.1 Standard Test Conditions
All tests shall be performed under the following conditions, unless otherwise specified.
Ambient light: 225 lux
Viewing distance : 50 cm in front of LCD panel
Warrn up time
All specifications: 30 minutes
Fully functional: 5 seconds
Measuring Equipment: Chroma 2250 signal generator or equivalent, directly
Connected to the monitor under test.
Minolta CA100 photometer, or equivalent
Control settings
User brightness control: Maximum (unless otherwise specified )
User contrast control: Typical (unless otherwise specified )
User red/white balance,
Green/white balance and
Blue/white balance control: In the center (unless otherwise specified )
Power input : 110Vac or 230Vac
Ambient temperature : 20 ±5 °C ( 68 ±9 ° F)
Analog input mode : 1280 x1024 /60 Hz
2.1.1 MEASUREMENT SYSTEMS
The units of measure stated in this document are listed below:
1 gamma = 1 nano tesla
1 tesla = 10,000 gauss
cm = in x 2.54
lb = kg x 2.2
degrees F = [°C x 1.8] + 32
degrees C = [°F -32]/1.8
u' = 4x/(-2x + 12y + 3)
v' = 9y/(-2x + 12y + 3)
x = (27u'/4)/[(9u'/2) -12v' + 9]
y = (3v')/[(9u'/2) -12v' + 9]
nits = cd/(m2) = Ft-L x 3.426
lux = foot-candle x 10.76
2.2 LCD monitor General specification
Panel Type : 19 “ active matrix color TFT LCD
1). FUJITSU FLC48SXC8V-10
Display size : 376.32mm(H) x 301.056mm(V)
Display mode : VGA 720 X 400 (70 Hz)
VGA 640 X 480 (60/66/70/72/75 Hz)
SVGA 800 X 600 (60/70/72/75 Hz)
5
XGA 1024 X 768 (60/70/75 Hz)
SXGA 1280 X 1024 (60/70/75 Hz) standard resolution
Pixel pitch : 0.098x3mm(H) x 0.294mm(V)
Display Dot : 1280 x (RGB) x 1024
Pixel Clock : 25.2 – 135.0MHz
Contrast ratio: θ= 0°700 : 1 (typical)
Brightness: 300 cd/m2 (typical)
Response time (Tr/Tf) : 15 /10 msec
Display color : 16777216 (8 bite color)
Viewing angle: L / R ≧85 / ≧85 ( ≧170 degrees horizontal typical)
U / D ≧85 / ≧85 ( ≧170 degrees vertical typical)
Luminance Uniformity : > 70 %
Pc interface: 1). Video : RGB analog 0.7V peak to peak
Sync : TTL positive or negative
Signal connector : 15 pin Mini D type, (standard VGA video)
Audio power : 1Wrms + 1Wrms ( 300Hz –10kHz (S.P.L. –10 dB))
Front control : power on/off with LED select (up, down) adjustment (+,-)
Interface frequency
ŸHorizontal Frequency 24KHz --80KHz
ŸVertical Frequency 56Hz ----75Hz
Plug & play : Support VESA DDC2B functions
Power Input voltage : Single phase, 50/60HZ, 100VAC to 240VAC ±10%
Total output power : 55 Watt max.
2.3 LCD Panel Specification
2.3.1 LCD Panel Model (FUJITSU FLC48SXC8V-10)
•Display Type active matrix color TFT LCD
•Resolution 1280 x 1024 pixels
•Display Dot 1280 x (RGB) x 1024
•Display Area 376.32mm(H) x 301.056mm(V)
•Pixel Pitch 0.098x3mm(H) x 0.294mm(V)
•Display Color 16777216
•Lamp Voltage 750 Vrms typ.
6
•Lamp Current 7mA rms.( typ). 4 Lamp
•Weight 2500g .
•Optical Specifications
The following items are measured under stable conditions. The optical characteristics
should be measured in a dark room or equivalent state with the methods shown in
Note(4).
wMeasuring equipment : TOPCON BM-5A, BM-7, PHOTO RESEARCH PR650
(Inverter Freq. : 54kHz) *Ta =25 ±2°C, VDD=5V, fv=60 Hz, fDCLK=54 MHz, IL= 6.5mArms
Item Symbol Condition Min.
Typ.
Max.
Unit Note
Contrast Ratio
(Center of screen) CR 400 700 -(1)(2)(4)
BM-5A
Rising
TR-15 30
Response
Time Falling
TF-10 25 msec (1)(3)
BM-7
Luminance of White
(Center of screen) YL240 300 -cd/m2 (5)
BM-5A
Rx 0.648
Red Ry 0.349
Gx 0.292
Green
Gy 0.596
Bx 0.148
Blue By 0.125
Wx 0.313
Color
Chromaticity
(CIE 1931)
White
Wy
Normal
φ= 0°
θ= 0°
Viewing
Angle TYP.
-0.03
0.329
TYP.
+0.03
(1)(4)
PR650
θL85 --
Hor. θR85 --
φH85 --
Viewing
Angle Ver. φL
CR≥10
85 --
Degrees (1)(4)
BM-5A
Brightness Uniformity
(9 points) BUNI 75 --%(6)
BM-5A
Note 1) Definition of Viewing Angle: Viewing angle range (10≤CR)
7
Note 2) Definition of Contrast Ratio (CR): Ratio of gray max(Gmax),gray min(Gmin) at the
center point of panel.
Luminance with all pixels white (Gmax)
CR=
Luminance with all pixels black (Gmin)
Note 3) Definition of Response time: Sum of TR , TF
8
Note 4) After stabilizing and leaving the panel alone at a given temperature for 30 min, the
measurement should be executed .Measurement should be executed n a stable,
windless ,and dark room.30 min after lighting the back-light. This should be
measured in the center of screen. Dual lamp current :13.0mA(6.5mA x2)(Refer to the
note(1) in the page 14 for more information ).
Environment condition :Ta=25±2°C
Optical characteristics measurement setup
9
Notes 5) Definition of Luminance of White : measure the luminance of white at center point.
Notes 6)Definition of 9 points brightness uniformity (Measuring points: Refer to the Note 5)
Bmin
BUNI=100∗
Bmax
Bmax: Maximum brightness
Bmin: Minimum brightness
Notes 7) Definition of Flicker level
Flicker Voltage pp
F = x 100 %
LMD Voltage dc
♦One maximum value of three estimated values.
♦For this test ,an LMD(Light Measurement Device)is needed with adequate response time
to track any visible rate flicker component and with a voltage level output proportional
To luminance intensity.
♦Test Pattern: For dot inversion Driving(Gray levels of foreground dots on the test panel
Are G22,G32,and G45)
♦Test Point :Center point of the display area
10
Note 8) Definition of Crosstalk (Refer to the VESA STD)
The calculation for shadowing is made from the 2 luminance measurements Gbkg and Lsh, as
follows:
Lmax -Lmin
CT = x100 %
Lmin
Where Lmax is the larger value of Gbkg or Lsh , and Lmin is the smaller of the two.
♦To determine background and foreground levels (colors),first set the background to any gray
scale or color level suitable for shadowing determination.(Note that it may take several
iterations of adjusting background level and box levels to determine the proper value for the
background .Next display the box levels to determine the proper value for the background
level. Look for shadowing in any direction from box E. Independently vary the gray level (or
color) of the background and box E until the worst case shadowing is observed. This defines
the background (Gbkg) and foreground (Gfg) levels to be maintained for the remainder of the
test.
♦One point only (the target) will be measured. To determine that point proceed as follows
Using the background and foreground gray levels of step1 (Gbkg and Gfg). Turn on each box
at a time. Look for the case with the worst shadowing. The box causing the worst case is the
shadowing source, or Bsrc. Use Bsrc and the box opposite from it that lies directly in the
shadow path. That is the target box, or Btgt. Note that box Eight be either Bsrc or Btgt,
depending on the shadowing conditions, but typically Bsrc and Btgt will be a pair of
opposite boxes, A&C or B&D. Btgt will only be displayed for aligning the LMD. It will be
turned off for the actual measurement.
♦The target box point (Btgt) will be measured with the source box (Bsrc) turned on then off.
(Btgt is for alignment purpose only) Display the background only at level Gbkg. Display Btgt
determined in step 2 above. Using the correct distance, angle, and measurement aperture,
align the LMD to the center of the Btgt. Turn off Btgt. With Gbkg set to its proper level,
measure the luminance (or color). Next,turn on the source box Bsrc. Again measure at the
center point of Btgt (without Btgt present.). In this case the LMD will be measuring the
shadowing level, Lsh.
2.4 Input Signals
2.4.1 Video input
11
•Type Analog R, G, B.
•Input Impedance 75 ohm +/-2%
•Polarity Positive
•Amplitude 0 -0.7 +/-0.05 Vp
•Display Color same as LCD panel
2.4.2 Sync input
•Signal separate horizontal and vertical sync, or composite sync
which are TTL compatible
•Polarity positive and negative.
2.4.3 Interface frequency
The following frequency range is generalized by supported timing. If the entered
mode does not match the supported timing the display optimization will not be
assured.
•Horizontal Frequency 24KHz --80KHz
•Vertical Frequency 56Hz ---------75Hz
DISPLAY MODES
MONITOR
MODE NO.
SCREEN
RESOLUTION
HORIZONTAL
SYNC RATE
(kHz)
VERTICAL
SYNC RATE
(Hz)
VIDEO CLK
(MHz) STANDARD
1640x350 31.5 + 70.0 -25.0 VGA
2640X400 24.83 -56.4 -21.05 NEC
3640X400 31.5-70.0+ 25.0 VGA
4640X400 31.5-70.1-25.19 NEC
5640X480 31.5 -60.0 -25.0 Defacto
6640X480 35.0-66.67-30.24 MAC
7640X480 37.86-72.80-31.5 VESA
8640X480 37.5-75.0-31.5 VESA
9720X400 31.5 -70.0 + 28.0 Text Defacto
10 832X624 49.72-74.55 -57.28 MAC
11 800X600 35.16+ 56.25+ 36.0 SVGA
12 800X600 37.8 + 60.0 + 40.0 VESA
13 800X600 48.07 + 72.18 + 50.0 VESA
14 800X600 46.87+ 75.0+ 49.5 VESA
15 1024X768 48.4 -60.0 -65.0 VESA
16 1024X768 53.96 + 66.13 + 71.66 XGA
17 1024X768 56.47 -70.07 -75.0 VESA
18 1024X768 60.0 + 75.0 + 78.75 VESA
19 1024x768 60.24-75.02-80.0 MAC-768
20 1280X1024 64.0 + 60.0 + 108.5 SXGA
21 1280X1024 80.0 + 75.0 + 135.0 Defacto
12
2.4.4 Supported Timing
TIMING FH(KHZ)
SYNC TOTAL ACTIVE SYNC FRONT BACK PIXEL
FV(HZ) POLARITY
(DOT/LINE)
(DOT/LINE)
WIDTH PORCH PORCH FOREQ.(MHZ)
(DOT/LINE)
(DOT/LINE)
(DOT/LINE)
640x350 31.469 +800 640 96 16 48 25.175
VGA-350 70.087 –449 350 237 60
640x400 24.83 –848 640 64 64 80 21.05
NEC PC9801 56.42 –440 400 8725
640x400 31.469 –800 640 96 16 48 25.175
VGA-GRAPH 70.087 +449 400 212 35
640x400 31.5 –800 640 64 16 80 25.197
NEC PC9821 70.15 –449 400 213 34
640x480 31.469 –800 640 96 16 48 25.175
VGA-480 59.94 –525 480 210 33
640x480 35.00 –864 640 64 64 96 30.24
APPLE MAC-
480 66.67 –525 480 3339
640x480 37.861 –832 640 40 16 120 31.5
VESA-480-72Hz
72.809 –520 480 3120
640x480 37.5 –840 640 64 16 120 31.5
VESA-480-75Hz
75 –500 480 3116
720x400 31.469 –900 720 108 18 54 28.322
VGA-400-TEXT
70.087 +449 400 212 35
832x624 49.725 –1152 832 64 32 224 57.2832
APPLE MAC-
800 74.55 –667 624 3139
800x600 35.156 +1024 800 72 24 128 36
SVGA 56.25 +625 600 2122
800x600 37.879 +1056 800 128 40 88 40
VESA-600-60Hz
60.317 +628 600 4123
800x600 48.077 +1040 800 120 56 64 50
VESA-600-72Hz
72.188 +666 600 637 23
800x600 46.875 +1056 800 80 16 160 49.5
VESA-600-75Hz
75 +625 600 3121
1024x768 48.363 –1344 1024 136 24 160 65
XGA 60.004 –806 768 6329
1024x768 53.964 +1328 1024 176 16 112 71.664
COMPAQ-XGA
66.132 +816 768 4836
1024x768 56.476 –1328 1024 136 24 144 75
VESA-768-70Hz
70.069 –806 768 6329
1024x768 60.023 +1312 1024 96 16 176 78.75
VESA-768-75Hz
75.029 +800 768 3128
1024x768 60.24 –1328 1024 96 32 176 80
APPLE MAC-
768 75.02 –803 768 3329
1280x1024 64 +1688 1280 112 48 248 108
VESA-1024-60Hz
60 +1066 1024 3138
1280x1024 80 +1688 1280 144 16 248 135
VESA-1024-75Hz
75 +1066 1024 3138
If the input timing is not a supported timing listed above but within the supported frequency range
(Horizontal: 80KHz,Vertical: 75Hz), this monitor will select a closest mode instead. But the
display quality may not be optimized.
If the input timing over the supported frequency range, a message “Input Signal Out of Range”
will be shown.
13
2.4.5 85Hz refresh rate Support
Monitor should display 85Hz refresh rate mode as emergency mode.
Monitor should display “Out of Range” warning menu at this mode.
2.4.6 Video input Connector
Analog Video input Connector: 15pins mini D-Sub
Table2.4.5. Pin assignment for D-sub connector
PIN
NO. Separate Sync
1RED VIDEO
2GREEN VIDEO
3BLUE VIDEO
4GROUND
5GROUND
6RED GROUND
7GREEN GROUND
8BLUE GROUND
9PC5V (+5V DDC)
10 CABLE DETECTION
11 GROUND
12 SDA
13 H.SYNC
14 V.SYNC
15 SCL
15
10
5 1
6
11
D-sub connector
Color of plastic parts: Blue
(PC99)
14
2.5 CONTROLS
2.5.1 Control panel (monitor front panel)
1. Power LED, will be green when monitor is on; be amber when in power saving mode.
2. Adjust decrease.
3. Adjust increase.
4. Function select counter-clockwise.
5. Function select clockwise.
6. Power ON/OFF switch, push to ON and push to OFF. (toggle switch)
7. Ear phone jack.
8. Volume Control.
Note: When OSD Menu is off, press button 2 can activate “Auto Adjustment” immediately.
2.5.2 OSD Functions
•OSD Format: Refer to following figure.
•OSD Border: Cyan color
•OSD Tunable Item: The 16 icons that around the border.
•Selected Item: Yellow background
•Comment: Magenta foreground, Blue background
page format :
15
Description:
•Brightness: Brightness adjustment, the range from 0 to 100.
•Contrast: Contrast adjustment, the range from 0 to 100.
•H. Position: Horizontal position adjustment.
•V. Position: Vertical position adjustment.
•Phase: Focus adjustment, the range from 0 to 31,32 steps.
•OSD position: OSD position adjustment.
•Auto Adjustment: This feature will automatically adjust size, position, clock and phase.
It takes 3-5 seconds to finish. When auto start, it shows “Auto
Adjusting….” message.
•Clock: Frequency tracking adjustment. The max range from -48 to +48, but
some modes the range will be limited.
•Graph Text: 640x400(GRAPH) or 720x400(TEXT) mode select.
•Language: 5 kinds of language for description, including (English, German,
French, Spanish, Italian)
•Recall: Recall the default value.
•Color Temp: Color temperature for standard 9300,6500, 7500 or user defined.
§User:
User R: Red signal gain by user defined.
User G: Green signal gain by user defined.
User B: Blue signal gain by user defined.
§7500: Set CIE coordinate at 7500°K color temperature.
§6500: Set CIE coordinate at 6500°K color temperature.
§9300: Set CIE coordinate at 9300°K color temperature.
•Exit: Exit OSD menu function.
Sharpness : Adjust the scale-up effect(smoother or sharper.)
OSD Transparency: Adjust the transparency level of OSD. The range is from 0 to 100 scales.
Comment:
•1280x1024: Current mode resolution.
•60 HZ: Current mode vertical frequency±1Hz.
•VER 1.00: Firmware revision.
lOther features:
16
nIntellectual-Auto (AM969) can start the Auto-Adjustment automatically when input a new
display mode at first time. After the adjustment, (AM999) will remember this mode and
switch to optimized condition automatically for this mode whenever encounter this mode
again. Total 21 recent used modes are recorded into (AM969)
nVESA DPMS Functionality When signaled by the host CPU, (AM969) show a black
screen about 3 seconds. If no further signal, then it shows “No Signal” and enter power
saving mode.
2.6 White Color Temperature
White color temperature is 4 preset as 9300, 7500,6500 and User,
Default value of user color should be user which is maximum setting for panel.
Target of color setting
Color
Temp. Color Coordinate Tolerance Color Coordinate Tolerance
xyu’ v’
9300K 0.2810.311 +0.030.189 0.446 u’v’<0.01*
7500K 0.300 0.315 +0.030.194 0.459 u’v’<0.01*
6500K 0.3150.325 +0.030.198 0.469u’v’<0.01*
User -----
*) TCO’0X A.2.6.1 requirement
User should follow “Microsoft Windows Color Quality Specification for Liquid Crystal Display OEM’s”.
(http://www.microsoft.com/hwdev/tech/color/ColorTest.asp)
17
2.7 Power Management
2.7.1 Meet VESA DPMS proposal
The monitor must comply with the Microsoft On Now specification, with a minimum of three power
management states, as defined by the VESA DPMS document. The front panel of the monitor must
appropriately display the DPMS state, For example:
DPMS ON : The power LED is Green
DPMS OFF : The power LED is Amber
2.7.2 Power Consumption
On mode 55 Wmax Green
Off mode 3Wmax Amber
DC power off 3 Wmax Dark
disconnection 3 Wmax Dark (power off)
Amber (power on)
AC power off 1 Wmax Dark
uPower saving states are measured with speakers attached but not worked.
uThe recovery time from off mode to on mode is 3 seconds maximun.
2.7.3 Power Connector
All units shall have an IEC/CEE-22 type male power receptacle.
18
2.8 Plug & Play(EDID)
The monitor will be capable of sending a VESA standardized EDID file through the DDC (pins 12, 15
of the VGA connector).
2.9 Audio Technical specification
2.9.1 General Description:
Output power :1W
+1W maximum
Total harmonic distortion :Less than 1 % (except speakers distortion)
Input signal sensitivity :0.5 Vrms for full output
Input impedance : 47 Kohm +/-5 %
Frequency response range :20Hz – 20kHz (except speakers response)
Difference of L and R output : Less than 2 dB
2.9.2 Electrical characteristics (Tamb=25°)
Audio amplifier(USE Panasonic VP-7723A Audio Analyzor. )
Spec.Item Audio Input
Freq. Min.
Typ.
Max.
Comment
Input Voltage(V) -5-
Input Current(m A) -500 800
Audio Voltage Gain 500m Vrms
1KHz --6 d B Volume Max.,load 4 ?
Frequency Response 500m Vrms
300Hz-20KHz
-10dB
-+10d B
Volume Max.,load 4 ?
Signal to Noise ratio 500m Vrms
1KHz ---40dB
Volume Max.,load 4 ?
Total harmonic distortion 500m Vrms
1KHz 1% except speakers distortion
Cross talk 500m Vrms
1KHz ---30dB
Volume Max.,load 4 ?
Output Watt. 500m Vrms
1KHz --1W Volume Max.,load 4 ?
Volume Control ---Analog
2.9.3 Speakers
Maximum power :2 W per speaker(max)
Impedance :4 ohm +/-15 % @ 1kHz 1.0Hz
Frequency response range :350 Hz – 15 kHz (S.P.L. –10 dB)
Total harmonic distortion :Less than 5 % @ 0.125 W 1kHz
2.9.4 Headphone output
Output power :1.6 mW for 32 ohms Headphone
19
3. VL-901 DISPLAY CONTROL BOARD
3.1 Description
The VL-901 display control board is design to directly convert the analog RGB signals from
standard VGA display card to optimum LCD timing signals so as to construct a high display
quality LCD monitor.
3.2 Features
•On board embedded micro-processor to detect display timings and control user
functions.
•Using Genesis gm5120 design to generate optimum LCD timings.
•Using E2PROM to memorize every adjusted parameter.
•support up to 22 display modes from VGA to SXGA.
•Offer full screen expansion function on non-SXGA mode (automatic).
•flexible color temperature selection function including 9300,6500,7500 and user mode.
•Support OSD functions.
•Support VESA DPMS function.
•Support DDC2B functions.
•Support 5 languages for OSD description.
•The longest time for mode change is 3 seconds.
3.3 BLOCK DIAGRAM
20
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