GENERAL INSTRUCTIONS .......................................................................................................................................... 23
SYSTEM INSTALLATION .............................................................................................................................................. 24
MAIN OSD MENU .......................................................................................................................................................... 35
PLUG AND PLAY ........................................................................................................................................................... 39
WHITE COLOR TEMPERATURE.................................................................................................................................. 40
Chapter 5 Connector Information …………………………………………………………………..48
CONNECTOR INFORMATION ...................................................................................................................................... 48
Chapter 6 FRU List …………………………………………………………………………………… 49
PART LIST...................................................................................................................................................................... 49
This specification defines the requirements for the 24” 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 and 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.
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
20k hours or more.
Comparison Chart of AL2416W
Comparison Chart of AA668 & AA868
AA668 AA868
Panel
Signal Interface D-SUB D-SUB & DVI-D
Sync Type for analog
input
Color Temp user adjust
DDC
Speaker NO NO
Headphone Jack NO NO
Microphone Jack No No
USB Hub Not support Not support
Tilt / Swivel No / No No / No
Height Adjust
Normal 24” panel
LTM240M1-L01
Separate / compatible / Separate / compatible /
Support Support
DDC2B DDC2B
Option Option
Normal 24” panel
LTM240M1-L01
- 8 -
ELECTRICAL REQUIREMENTS
Standard Test Conditions
All tests shall be performed under the following conditions, unless otherwise specified.
Ambient light
Viewing distance
Warrn up time
All specifications : 30 minutes
Fully functional : 5 seconds
Measuring Equipment
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
Ambient temperature
Analog input mode
Digital input mode:
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
: 225 lux
: 50 cm in front of LCD panel
: Chroma 2250 signal generator or equivalent, directly
: 110Vac or 230Vac
: 20 ± 5 ˚C ( 68 ± 9 ˚ F)
: 1280 x1024 /60 Hz
1920x1200/60Hz (For AA868)
- 9 -
LCD Panel Specification
LCD Panel Model (LTM240M1-L01-L00)
- 10 -
Note 1) Definition of Viewing Angle: Viewing angle range (10≤CR)
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
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
- 11 -
Optical characteristics measurement setup
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)
AU
Bmin
B
= X 100%
UNI
Bmax
Samsumg
- 12 -
Bmax-Bmin
B
= X 100%
UNI
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
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
- 13 -
C
T
= x100 %
Lmin
Where Lmax is the larger value of Gbkg or Lsh , and Lmin is the smaller of the two.
♦ To determine background and foreground levels (colors),first set the background to any
gray scale or color level suitable for shadowing determination.(Note that it may take
several iterations of adjusting background level and box levels to determine the proper
value for the background .Next display the box levels to determine the proper value for the
background level. Look for shadowing in any direction from box E. Independently vary the
gray level (or color) of the background and box E until the worst case shadowing is
observed. This defines the background (Gbkg) and foreground (Gfg) levels to be
maintained for the remainder of the test.
♦ One point only (the target) will be measured. To determine that point proceed as follows
Using the background and foreground gray levels of step1 (Gbkg and Gfg). Turn on each
box at a time. Look for the case with the worst shadowing. The box causing the worst case
is the shadowing source, or Bsrc. Use Bsrc and the box opposite from it that lies directly in
the shadow path. That is the target box, or Btgt. Note that box Eight be either Bsrc or Btgt,
depending on the shadowing conditions, but typically Bsrc and Btgt will be a pair of
opposite boxes, A&C or B&D. Btgt will only be displayed for aligning the LMD. It will be
turned off for the actual measurement.
♦The target box point (Btgt) will be measured with the source box (Bsrc) turned on then off.
(Btgt is for alignment purpose only) Display the background only at level Gbkg. Display
Btgt determined in step 2 above. Using the correct distance, angle, and measurement
aperture, align the LMD to the center of the Btgt. Turn off Btgt. With Gbkg set to its
proper level, measure the luminance (or color). Next,turn on the source box Bsrc. Again
measure at the center point of Btgt (without Btgt present.). In this case the LMD will be
measuring the shadowing level, Lsh.
- 14 -
Panel Relative Humidity
Input Signals
Video input
• 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
Sync input
• Signal separate horizontal and vertical sync, or composite sync
• Polarity positive and negative.
Interface frequency
The following frequency range is generalized by supported timing. If the entered
JP777-E02
which are TTL compatible
mode does not match the supported timing the display optimization will not be