Eizo Raptor SQ2801 User Manual

Important  
Please read PRECAUTIONS and this User’s Manual carefully to  
familiarize yourself with safe and effective usage procedures. Please  
retain this manual for future reference.  
Copyright© 2007 Tech Source, Inc.  
Copyright© 2007 EIZO NANAO CORPORATION  
No part of this manual may be reproduced, stored in a retrieval system, or transmitted, in any form or  
by any means, electronic, mechanical, or otherwise, without the prior written permission of Tech  
Source, Inc. and EIZO NANAO CORPORATION.  
Tech Source, Inc. and EIZO NANAO CORPORATION are under no obligation to hold any submitted  
material or information confidential unless prior arrangements are made pursuant to Tech Source, Inc.  
and EIZO NANAO CORPORATION’s receipt of said information. Although every effort has been  
made to ensure that this manual provides up-to-date information, please note that EIZO monitor  
specifications are subject to change without notice.  
DPMS is a trademark and VESA is a registered trademark of Video Electronic Standards Association.  
Windows is a registered trademark of Microsoft Corporation.  
Raptor is a trademark of Tech Source, Inc. and EIZO NANAO CORPORATION.  
EIZO is a registered trademark of EIZO NANAO CORPORATION in Japan and other countries.  
Product specification may vary with sales areas.  
Confirm the specification in the manual written in language of the region of purchase.  
Contents  
4
Contents  
Figures  
Figures  
5
1
Overview  
The TFT Monitor Raptor SQ2801 was developed to meet the very demanding requirements in the Air  
Traffic Management where system availability and reliability is crucial. Ergonomic criteria have been  
addressed to ensure high acceptance from the operators.  
Reduced depth and lower weight compared to CRT monitors allow easy installation into workstation  
consoles of air traffic control rooms. Considerably lower power consumption and heat emissions are  
some of the other advantages over CRT based units.  
The TFT technology employed in this design is based on Sharp’s ASV technology and offers very  
sharp, undistorted image, right up to the edges. Unlike the CRT counterpart, this technology does not  
have problems such as convergence or effects from electro magnetic radiation.  
The Raptor SQ2801 is a 28.05“ TFT module with native resolution of 2,048 x 2,048 pixel. Wide  
viewing angle of 170° (horizontally and vertically), a contrast ratio of 1000 : 1 and maximum  
brightness of 210 cd/m² enable very clear and sharp pictures with color depth of 16.7 million colors. It  
is backward compatible with Sony’s DDM1 monitors.  
The Raptor SQ2801 product has two dual link DVI-D (digital) inputs and one analog input. OSD (on  
screen display) allows control of various configurable parameters such as brightness, contrast and  
input switching. These parameters can also be controlled via RS-232 and RS-422 interfaces.  
Remote control software is available from Tech Source.  
Key Features:  
28.05“ TFT LCD Display (square format)  
Direct replacement for CRT monitors.  
High Resolution of 2,048 x 2,048 Pixel  
For input signals with a resolution up to 2,048 x 2,048 pixel; even lower resolution pictures  
(e.g. during installation or service) are displayed correctly.  
Excellent Optical Characteristics  
Brightness 210 cd/m², Contrast 1000 : 1, Viewing Angle 170° (horizontally and vertically).  
Versatile and Flexible Implementation  
The analog RGB interface and two dual link DVI-D interfaces enable integration into different  
systems  
Automatic Frequency- and Phase Adjustment  
The monitor adjusts itself to the applied input signal.  
Automatic Backlight Stabilization  
The selected brightness of the backlight unit is readjusted automatically.  
1 Sony DDM is a registered trademark of Sony Corporation  
6
1 Overview  
 
1.1  
Layout of this Manual  
This manual was created to assist system integrators and operators during installation and operation  
of the LCD TFT Monitor Raptor SQ2801. The layout is intended to allow even inexperienced users to  
install and set-up the monitor.  
The manual is divided into following chapters:  
Chapter 1  
Introduction  
Brief description of the Raptor SQ2801  
Chapter 2  
Installation  
The chapter discusses the installation and the various interfaces available to the  
monitor  
Chapter 3  
Chapter 4  
Operation  
Operation and adjustment controls of the Raptor SQ2801  
Serial Communication  
Transmission protocol for communication between a PC / Workstation and the monitor  
via a serial interface  
Chapter 5  
Chapter 6  
Technical Data  
Display module, power supply, environment and other data  
Part numbers and Field Replaceable Units  
Part numbers for all field replaceable units are discussed, as well as the various  
components of the TSI ATC visualization kit.  
1 Overview  
7
 
1.2  
Warnings and Safety Notes  
For information about warnings and safety notes, refer to PRECATUIONS supplied with this manual.  
8
1 Overview  
 
1.3  
Packaging  
To avoid permanent damage, great care should be taken to ensure that the monitor is  
adequately packed and transported in the correct manner. The original packaging should be  
retained and re-used for future transportation purposes. The original packaging has a red  
label with two arrows and text “hier oben” (see Fig. 1 and Fig. 2), which indicates the correct  
orientation of the package (i.e. when correctly packed this label should be aligned with  
the top edge and front glass face of the monitor see Fig. 1 and Fig. 2.  
NOTE  
Please note that the chassis mount version of the monitor (Raptor SQ2801 Chassis and  
Panel mount) must only be transported in a horizontal position. (i.e. The front glass face of  
the monitor should be facing up during transportation). See Fig. 1.  
The desktop version of the monitor (Raptor SQ2801 Desktop) may be transported either  
horizontally or vertically. If transported horizontally then, as in the case of the chassis  
mount version, the front glass face of the monitor should be facing up. If transported vertically  
then the red label should be at the top of the package. See Fig. 2  
Fig. 1: Package of the chassis monitor  
Fig. 2: Package of the desktop monitor  
1 Overview  
9
     
1.4  
Instructions for Handling Components Susceptible to Electrostatic  
Shocks  
Most of the assemblies within the LCD monitor Raptor SQ2801 contain components which can be  
permanently damaged or destroyed by electrostatic discharge. Such resulting damage may or may  
not result in total failure of the components or modules affected.  
The following precautions must be strictly observed when handling such assemblies (this work should  
only be carried out by qualified service technicians):  
When handling electronic components, care should be taken to prevent electrostatic  
discharge. Such discharge may occur when handling components or modules without  
suitable precautions to ensure adequate grounding.  
This also applies to all (insulated) tools. They must also be discharged to earth at all times.  
When assemblies are removed or added to the system, the unit must always be switched off  
and unplugged from the power supply.  
Vulnerable components should always be held by their edges. Avoid touching circuit paths  
and contact pins.  
1.5  
Cleaning  
Clean the monitor periodically to keep the monitor clean and extend its life.  
Cabinet  
Clean the cabinet with a soft cloth dampened with little mild detergent.  
Never use any solvents or chemicals, such as thinner, benzene, wax, alcohol, and abrasive  
cleaner, which may damage the cabinet or LCD panel.  
NOTE  
LCD Panel  
Clean the LCD panel with a soft cloth such as cotton cloth or lens cleaning paper.  
Remove persistent stains gently with a cloth dampened with little water, and then clean the  
LCD panel again with a dry cloth for better finishing.  
Optional ScreenCleaner is recommended for cleaning the LCD panel surface.  
TIPS  
10  
1 Overview  
 
2
General Installation  
Preparation for installing the LCD monitor includes following steps:  
Removal of all packaging materials  
Checking of components for damage  
Comparison of components received with those listed on the delivery note  
Connection to the computer system and power supply  
System integration under consideration of technical and ergonomic aspects  
2.1  
Removal of Packaging and Checking of Component Parts  
After unpacking all delivered components, they should be checked for completeness and for possible  
shipping damage (visual inspection). If any parts are missing or damaged, please contact your local  
dealer. Have your packing list number, serial number of the unit and a description of the problem  
available when calling.  
The original packaging should be kept for future shipping of the product.  
2 General Installation  
11  
 
2.2  
Installing the Monitor  
The Raptor SQ2801 is currently offered in two versions - desktop version and chassis version. Both  
these version are discussed in this section.  
The desktop version is a “standalone” unit that can be placed on top of a desktop console. As for the  
chassis version, it is easy to integrate it onto the rear of control panel or a console by using two  
mounting brackets.  
Please note the following for safe and proper operation:  
Ambient Temperature  
In order for the LCD monitor to maintain an optimum operating temperature while in use, air must be  
allowed to circulate freely around the Raptor SQ2801 enclosure. This is especially important for the  
rear of the unit. Convection current must be allowed to circulate around the enclosure.  
Please bear in mind that increased temperatures may result in on-screen defects and significantly  
reduced lifetime of the panel.  
EMC – Radiation  
The LCD monitor is a piece of equipment designed for integration into an industrial system. The  
operator of the entire plant is responsible for maintaining electromagnetic compatibility according to  
EMC laws.  
Safety Aspects  
All voltage and signal connections must adhere to legal requirements.  
Ergonomics  
The screen comes with anti-reflective glass. However, it should be installed/positioned properly to  
allow easy viewing from all sides.  
Mechanical Integration  
The chassis version is secured into a system by 6 bolts (M6 x 10). These bolts can be used for  
attaching mounting angles which allow mounting the monitor in a control panel or a console (see Fig.  
4, Page 14). The dimensions in the drawings are all in mm.  
12  
2 General Installation  
 
2.2.1  
Raptor SQ2801 Dimensions (Chassis version)  
Fig. 3: Raptor SQ2801 Dimensions (Chassis version); Front View  
2 General Installation  
13  
 
Fig. 4: Raptor SQ2801 Dimensions (Chassis version); Rear View  
14  
2 General Installation  
   
Fig. 5: Raptor SQ2801 Dimensions (Chassis version); Side View  
2 General Installation  
15  
 
2.2.2  
Raptor SQ2801 Dimensions (Desktop version)  
Fig. 6: Raptor SQ2801 (Desktop Version); Front View  
16  
2 General Installation  
 
Fig. 7: Raptor SQ2801 Dimensions (Desktop version); Rear View  
2 General Installation  
17  
 
Fig. 8: Raptor SQ2801 Dimensions (Desktop); Side View  
18  
2 General Installation  
 
2.2.3  
Raptor SQ2801 Dimensions (Panel mount version)  
Fig. 9: Raptor SQ2801 Dimensions (Panel mount); Front View  
2 General Installation  
19  
 
Fig. 10: Raptor SQ2801 Dimensions (Panel mount); Side View  
20  
2 General Installation  
 
Fig. 11: Raptor SQ2801 Dimensions (Panel mount); Back View  
2 General Installation  
21  
 
2.3  
Interfaces and Connector Assignment  
The monitor has been tested and pre-adjusted at the factory. For system installation, connect the unit  
to the main power supply, serial interfaces and input sources. All input connectors are shown in the  
figure below. All connections should adhere to EMC regulations.  
Use cord grips to secure cables.  
RS232-2  
RS232-1  
RS422  
DVI-2  
DVI-1  
Analog R,G,B,H,V  
External Keyboard  
Main Power; Power  
Switch; Fuse  
Clip for Cord Grips  
Fig. 12: Location of Interface Connectors  
22  
2 General Installation  
   
2.3.1  
Analog RGB – Interface  
The analog RGB input may be used for Sony DDM compatible configurations. However, the Raptor  
SQ2801 panel can also handle all common VESA timings. When using this interface, specific  
adjustments for phase and frequency may be necessary. These adjustments are explained in detail in  
For connection with the analog video source, a high quality coaxial cable must be used. The three  
video signals (red, green and blue) require 50 ohm impedance on the coaxial cable while the  
synchronization signals (hsync and vsync) must have 75 ohms impedance. Signal cables of poor  
quality may cause distortions and shadowing in the displayed picture.  
Technical data pertaining to the analog RGB interface is discussed in section 5.6 on page 55.  
V-Sync H-Sync Blue Green Red  
Fig. 13: Connector type: 5 x BNC socket  
2 General Installation  
23  
 
2.3.2  
DVI-1 / DVI-2 Interface  
The digital video inputs use the standard dual-link DVI interface. Dual-link DVI is necessary to support  
the high data rate (dot clock) as required by this high resolution of 2048 x 2048. However, the monitor  
also supports lower resolutions (e.g. VGA, SVGA, XGA, SXGA, UXGA, etc.) using a single link DVI  
cable. This feature can be useful during boot up on some machines that use a lower resolution during  
start-up.  
The monitor provides EDID information (Extended Display Identification Data) to the host system  
(workstation) via the DDC (Display Data Channel) protocol. This data includes, in addition to the  
standard VESA timing, a special timing for 2048 x 2048 @ 60 Hz that is designed to use pixel  
frequencies below the DVI maximum.  
If the connected workstation/graphics card does not support DDC, it can be configured manually as  
described in section 5.7 on page 56. In addition to this specific timing, all others timing that are part of  
the DVI specification are displayed.  
Video cables up to 5 meters in length may be used for the connection between the graphics card and  
the display.  
Connector Assignment:  
Pin  
1
Signal  
Pin  
16  
17  
18  
19  
20  
21  
22  
23  
24  
C1  
C2  
C3  
C4  
C5  
Signal  
TMDS-Data 2 -  
TMDS-Data 2 +  
TMDS-Data Shield 2 (GND)  
TMDS-Data 4 -  
TMDS-Data 4 +  
DDC-CLK  
Hot Plug Detect  
TMDS-Data 0 -  
TMDS-Data 0 +  
TMDS-Data Shield 0 (GND)  
TMDS-Data 5 -  
TMDS-Data 5 +  
TMDS-CLK Shield (GND)  
TMDS-CLK +  
TMDS-CLK -  
NC  
2
3
4
5
6
7
DDC-DATA  
8
NC  
9
TMDS-Data 1 -  
TMDS-Data 1 +  
TMDS-Data Shield 1 (GND)  
TMDS-Data 3 -  
TMDS-Data 3 +  
+5 V Power (In)  
GND  
10  
11  
12  
13  
14  
15  
NC  
NC  
NC  
GND  
Connector type: 29 pin DVI-I socket  
24  
2 General Installation  
 
2.3.3  
RS232-1 Interface  
This RS232 interface is used for communication with the host machine (workstation). Three different  
protocols are available which are described in chapter 4 on page 43.  
In addition, this interface is used for monitor firmware updates  
Only the RS232-1 interface can be used for monitor firmware update.  
NOTE  
Connector Assignment: Connector type: 9 pin D-Sub-socket  
Pin  
1
Signal  
NC  
TXD (Output)  
2
3
RXD (Input)  
NC  
4
5
GND  
NC  
6
7
NC  
8
NC  
9
NC  
2.3.4  
RS232-2 Interface  
This RS232 interface is used for communication with the host machine (workstation). Three different  
protocols are available which are described in chapter 4 on page 43. The additional handshake  
signals serve to communicate with a workstation via the DDM protocol.  
Connector Assignment:  
Connector type: 9 pin D-Sub-socket  
Pin  
1
Signal  
NC  
TXD (Output)  
2
3
RXD (Input)  
DSR (Input)  
GND  
4
5
6
DTR (Output)  
NC  
7
8
NC  
9
NC  
2 General Installation  
25  
   
2.3.5  
RS422 Interface  
The RS422 interface is used for communication with a workstation. Three different protocols are  
available which are described in chapter 4 on page 43.  
This interface may also be used for communication with a workstation via DDM-protocol.  
However, no handshake signals are available. If the monitor has to be connected via RS422  
interface with handshake signals, the RS232-2 interface has to be used with an external  
interface converter (RS232 – RS422).  
NOTE  
Connector Assignment:  
Connector type: 15 pin D-Sub-plug  
Signal  
Pin  
1
NC  
TXD+  
2
3
RXD+  
NC  
4
5
NC  
6
NC  
7
NC  
8
NC  
9
TXD-  
RXD-  
NC  
10  
11  
12  
13  
14  
15  
NC  
NC  
NC  
GND  
26  
2 General Installation  
 
2.3.6  
External OSD-Keyboard Interface  
This connector is for an external passive keyboard which has exactly same functionality as the  
An external keyboard allows operation of the monitor when the front side keyboard is not accessible  
or is absent. Cable length for this external keyboard should not exceed 7 meters.  
The keys of the external keyboard pull the signal to ground (see following sketch).  
1
Key  
2
Key  
3
Key Menu  
4
Key Select  
5
Connector Assignment:  
Pin Signal  
Connector Type:  
Sub miniature circular connector Series 712  
(Binder GmbH)  
1
2
3
4
5
GND  
Key ▲  
Key ▼  
Key “Menu”  
Key “Select”  
2.4  
Electrical Installation  
Before connecting the Raptor SQ2801 to main power, ensure that all connectors for video signals and  
serial interfaces are plugged in properly and securely.  
After that, the monitor may be connected to main power and switched on by turning ON the main  
power switch on the rear of the unit (see Fig. 12, page 22).  
By default, automatic source scan is disabled and the DVI-1video input interface is activated.  
NOTE  
A different video input interface can be selected via the OSD menu (see 3.2, page 29) or the  
serial interfaces.  
2 General Installation  
27  
 
3
Operation and Adjustment  
The manual operation and adjustment of the monitor is facilitated by buttons that are integrated on the  
front of the unit. The buttons are used for navigation and control of the OSD menu. Alternatively, all  
adjustments for brightness, contrast, etc. can be carried out via an external keyboard or via the serial  
Fig. 14: OSD keyboard and LED  
LED2  
LED1  
3.1  
Function of OSD Keys and LED  
The OSD keys have following function(s):  
Source - Increment value  
- Navigation to the right  
- Invoke Quick-OSD (if no OSD is active)  
+ Selection of signal interface  
+ execute automatic adjustment (for analog input source)  
- Decrement value  
- Navigation to the left  
Menu  
Select  
- Invoke OSD menu  
- toggle between main- and submenu  
- Menu navigation, scroll down (if OSD is active)  
- Invoke Quick-OSD (if no OSD is active)  
Selection of Quick-Menu-Function (Brightness, Contrast and backlight brightness)  
I/O  
- Soft power  
- On and off function of the monitor (Stand-By mode)  
Status  
LED1  
Off:  
valid input signal on selected video interface  
Flashing: no valid input signal on selected video interface  
On:  
monitor in stand by mode  
LED2  
Power  
Off:  
No main power or device switched off  
On:  
Main power connected and device switched on  
28  
3 Operation and Adjustment  
   
3.2  
OSD-Menu / Quick-OSD-Menu  
In addition to detailed adjustments in the OSD-Menu, there is another option available for adjusting  
frequently used functions such as brightness and contrast via direct access (remotely), the so called  
Quick-OSD-Menu. The protocols for access are discussed in Chapter 4.  
All settings and adjustments of the OSD are stored in non-volatile memory.  
3.2.1  
Quick-OSD-Menu  
Following settings / functions are available via Quick-OSD-Menu:  
Brightness  
Contrast  
Source select  
Automatic adjustment  
Fig. 15: Quick-OSD-Menu  
Invoke via key < Select >  
Function  
Adjustment / Value  
Description  
Brightness  
Setting range: 0 to 100  
Brightness adjustment  
via key (/)  
Contrast  
Setting range: 0 to 100  
Contrast adjustment  
via key (/)  
Invoke via key <>  
Function  
Adjustment / Value  
Description  
Source RGB1  
Press <> key again  
Selection of input source  
Digital1,Digital2  
Automatic  
Adjustment  
(Only available if source  
“RGB1” is active)  
Press <> key again  
Performs an automatic image  
adjustment. Adjustment of frequency,  
phase and image position.  
3 Operation and Adjustment  
29  
   
3.2.2  
OSD-Menu  
The OSD (On Screen Display) is a menu system which is displayed on the screen. All monitor  
settings and adjustments are done by operating the OSD  
OSD options depend on the selected signal source (RGB or DVI). For example, functions for  
frequency and phase adjustment of analog signal sources are not available when the unit is  
displaying a DVI signal.  
3.2.2.1 OSD-Menu – Picture  
Fig. 16: OSD-Menu - Picture  
Active Signal Source  
Function  
Description  
RGB DVI  
Brightness  
Display brightness adjustment (not backlight brightness!!!)  
Setting range: 0 to 100  
X
X
X
X
X
X
Contrast  
H-Position  
V-Position  
Phase  
Contrast adjustment  
Setting range: 0 to 100  
X
Horizontal picture position  
Setting range: 0 to 100  
Vertical picture position  
Setting range: 0 to 100  
Setting range: 0 to 31  
30  
3 Operation and Adjustment  
 
Function  
Description  
RGB DVI  
X
Frequency  
Frequency adjustment, see section 3.3.1 page 41  
Setting range: depends on input timing / resolution  
Scaling adjustment if input resolution is lower than 2048 x 2048  
Setting range:  
Scaling  
X
X
One to One:  
Fill All:  
Display signal without scaling.  
The input signal is displayed full screen.  
Fill Aspect Ratio:  
The input signal is displayed in maximum size  
while height / width ratio is kept. Depending on  
the resolution, a black field may be displayed  
up and down or left and right.  
Auto Phase  
Tune  
Enable / disable automatic phase tune. If this function is enabled,  
phase adjustment is periodically checked and if necessary  
readjusted (see section 3.3.1 page 42).  
X
Setting range: On, Off  
(X): available for this input signal  
3 Operation and Adjustment  
31  
3.2.2.2 OSD-Menu (Advanced)  
Fig. 17: OSD-Menu (advanced)  
Function  
Description  
RGB DVI  
Sharpness  
Sharpness adjustment of the picture; choose from 1 = sharp to 5 =  
smooth.  
X
X
This function is only available, if the input resolution is lower than  
target resolution 2048 x 2048.  
Setting range: 1 to 5  
Gamma  
Gamma – Curve selection  
Setting range: Linear or CRT  
X
X
X
X
Color-  
Color temperature adjustment  
temperature  
Choose among three predefined and one free adjustable color  
temperature values.  
Enabling “user “ adjustment causes bars for red, green and blue to  
appear. Range: 0 to 100 % (50 % corresponds factor 1)  
Setting range: 5000 K, 7300 K, 9300 K, user  
(X): available for this input signal  
32  
3 Operation and Adjustment  
 
3.2.2.3 OSD-Menu - Options 1  
Fig. 18: OSD-Menu - Options 1  
Function  
OSD  
Description  
RGB DVI  
Choose among nine predefined OSD positions  
X
X
X
X
OSD H-Pos.  
Shift OSD-menu in horizontal direction  
Setting range: 0 to 100  
OSD V-Pos.  
Shift OSD-menu in vertical direction  
Setting range: 0 to 100  
X
X
X
X
OSD Timeout  
Timeout for OSD menu; OSD disappears after that time, if no key  
is pressed.  
Setting range: in steps of 5 sec. between 5 and 60 sec.  
OSD  
Background  
Choose between transparent and colored background  
Setting range: Opaque; translucent  
X
X
X
X
Backlight  
Adjust backlight brightness  
Setting range (backlight controller “off”): 0 to 100 %  
Setting range (backlight controller “on”): 30 to 150 cd/m²  
Backlight  
Controller  
Backlight control to compensate for loss of brightness due to  
backlight aging (see section3.4 page 42).  
X
X
Setting range: off; on  
(X): available for this input signal  
3 Operation and Adjustment  
33  
 
3.2.2.4 OSD-Menu - Options 2  
Fig. 19: OSD-Menu - Options 2  
Function  
DPMS  
Description  
RGB DVI  
Display power management system  
X
X
If DPMS is active, the monitor shuts down when there no sync  
signals  
Setting range: off; on  
Source scan  
Source icon  
Automatic scan for input sources; scans all input interfaces for  
valid input signal.  
Setting range: off; on  
X
X
X
X
Enable or disable display of source icon.  
Changes to any of the following cause this icon to appear and  
display the actual signal source information:  
Signal source (e.g. RGB1 analog)  
Mode, resolution of input signal source, H-  
and V-frequency.  
SCI2-mode  
Selection of communication protocol of serial interface RS232-2  
and RS422 (see chapter 4 page 43).  
Setting range: Standard; Sony DDM  
X
X
X
X
SCI2-signal type Selection of active serial interface. Only one of the two interfaces  
can be active.  
Setting range: RS232; RS422  
(X): available for this input signal  
34  
3 Operation and Adjustment  
 
Function  
Description  
RGB DVI  
DDM contrast  
DDM control function assignment to DDM protocol 0xA1  
Valid functions: backlight, brightness, contrast, disabled  
DDM control function assignment to DDM protocol 0xA0  
Valid functions: backlight, brightness, contrast, disabled  
X
X
X
X
X
X
DDM brightness  
Fans supervision ON: number of number of rotation will be shown in Menu Info 2  
OFF: Status is OK in Menu Info 2  
If a fan without control function is installed and status is ON;  
menu Info 2 shows a failure.  
3 Operation and Adjustment  
35  
3.2.2.5 OSD-Menu - Options 3  
Fig. 20: OSD-Menu - Options 3  
Function  
Description  
RGB DVI  
RGB-noise  
suppression  
This function suppresses interference at the sync signal lines  
to avoid a new auto adjustment during short interference.  
X
X
Setting range: off; on  
The current video timing will be stored and processed with  
higher tolerances in H- and V- frequencies. These timings  
will be used despite fluctuations in H- and V- frequency  
resulting from a noisy video signal, which might otherwise be  
misinterpreted, resulting in incorrect centering or pixel  
resolution.  
X
X
Lock RGB-Timing 1  
Unlock RGB-Timing 1 Settings for video timing 1 get released. Auto adjustment is  
X
X
enabled again.  
Lock RGB-Timing 2  
See lock RGB-Timing 1  
X
X
X
X
X
X
Unlock RGB-Timing 2 See unlock RGB-Timing 1  
RGB-Timing 1  
RGB-Timing 2  
Auto position  
Shows resolution and refresh rate of locked timing 1; Only  
available if timing 1 is locked.  
Shows resolution and refresh rate of locked timing 2; Only  
available if timing 2 is locked.  
X
X
X
ON: the position will be automatic centered  
OFF: the position depends on the auto adjustment of the  
signal  
(X): available for this input signal  
36  
3 Operation and Adjustment  
 
3.2.2.6 OSD-Menu – Utilities  
Fig. 21: OSD-Menu – Utilities  
Function  
Description  
RGB DVI  
Language  
Select language of OSD Menu  
Setting range: English; German  
X
X
Calibration  
This function allows to calibrate the A/D converter  
Saves the actual image  
X
X
X
Freeze frame  
Factory reset  
X
X
Reset of all parameters (brightness, contrast, backlight  
brightness, etc.) to factory default values.  
Installation  
RGB-Mode  
This function allows the user to add a signal timing definition  
to the monitor. It will be used to process a signal that is not  
internally defined.  
X
X
X
X
Test pattern  
Displays a test pattern on the screen. Select one of 7  
different test patterns by pressing <> key. Any other key  
will return to normal operation (no OSD).  
(X): available for this input signal  
3 Operation and Adjustment  
37  
 
3.2.2.7 OSD-Menu - Utilities / Installation RGB-Mode  
Fig. 22: OSD-Menu - Utilities / Installation RGB-Mode  
Function  
Options  
Description  
RGB DVI  
Select the RGB installation mode for those timings which are  
not part of the internal timing list.  
X
X
Disabled: use only the internal timing table.  
Mode1:  
use timing parameters and carry out complete  
auto adjustment (most frequently used).  
Mode 2: use timing parameters and carry out an auto  
adjustment; however without an automatic image  
position adjustment.  
Mode 3: use timing parameters and carry out an auto  
adjustment; however without an automatic  
frequency adjustment.  
Setting range: Disabled, Mode1, Mode2, Mode3  
H-visible  
V-visible  
H-total  
Horizontal image resolution  
X
X
X
X
X
X
X
X
X
X
X
X
Vertical image resolution  
Number of pixels per line (most important parameter)  
Number of pixels from H-sync start to image start  
Number of Lines from V-sync start to image start  
Activate installation parameters  
H-Start  
V-Start  
Install  
(X): available for this input signal  
38  
3 Operation and Adjustment  
 
3.2.2.8 OSD-Menu - Infos 1  
Fig. 23: OSD-Menu – Infos 1  
Function  
Description  
RGB DVI  
FW  
Shows the firmware version of the controller board  
Shows internal temperature  
X
X
X
X
X
X
Temperature  
Power on time  
Shows power-on time of the monitor (main power connected  
to the unit and switched on)  
Upper b.l. unit on  
time  
Shows backlight on time of upper backlight unit  
Shows backlight on time of middle backlight unit  
Shows backlight on time of lower backlight unit  
Shows the reserve for adjusting the backlight brightness  
Shows parameters of the current input signal  
X
X
X
X
X
X
X
X
X
X
Middle b.l. unit on  
time  
Lower b.l. unit on  
time  
Backlight power  
surplus  
Mode, Resolution  
(X): available for this input signal  
3 Operation and Adjustment  
39  
 
3.2.2.9 OSD-Menu - Infos 2  
Fig. 24: OSD-Menu – Infos 2  
Function  
Vdd-fuse  
Description  
RGB DVI  
Shows status of main power fuse  
X
X
X
X
Backlight inverter  
fuse  
Shows status of backlight inverter fuse  
Upper backlight unit Shows status of upper backlight unit  
Middle backlight unit Shows status of middle backlight unit  
Lower backlight unit Shows status of lower backlight unit  
X
X
X
X
X
X
X
X
X
X
Input signal  
Fan 1  
Shows if valid input signal has been detected  
Shows the number of rotation and OK if the control function  
is not active.  
Fan 2  
Shows the number of rotation and OK if the control function  
is not active.  
X
X
(X): available for this input signal  
40  
3 Operation and Adjustment  
 
3.3  
Adjustment Analog Signal Source (DDM)  
There is no strict standardization for the signals coming from analog signal sources. Certain  
adjustments are therefore necessary, depending on the graphics adaptors and used cables. When  
the Raptor SQ2801 is connected to an analog signal source for the first time, an integrated “automatic  
adjustment” function performs this adjustment. It uses the H and V frequencies of the input signal to  
adjust the frequency, phase and picture position of the image. Depending on the quality of the  
displayed image, it may be necessary to tweak the image manually.  
3.3.1  
Adjustment Phase and Frequency  
The two most important parameters of an analog signal are frequency and phase adjustments.  
Frequency adjustment precisely indicates the total number of pixels per line.  
With phase adjustment, the capture point of a pixel is determined. See the illustration below.  
Pixel 1  
Pixel 2  
Pixel 3  
Pixel 4  
Video signal  
Pixel clock  
Capture  
Phase adjustment  
For adjustment of frequency and phase, pictures with plenty of vertical stripes (ideally alternating  
black and white columns) are very useful. A test pattern like this allows simple adjustment of  
frequency and phase.  
3 Operation and Adjustment  
41  
     
With bad frequency adjustment from left to right, parts of the picture appear blurred. Each alteration of  
the frequency increases or decreases the number of blurred fields. Correct setting is achieved when  
the whole screen has the same appearance. The picture may appear blurry, but it should be  
homogeneously across the whole screen. Blurry or messy lines will be compensated for by phase  
adjustment.  
bad frequency adjustment  
correct frequency adjustment  
When DDM compatible timings are used, frequency adjustment may not get modified.  
NOTE  
Frequency has to be set to 2816. All graphic adapters which are used in air traffic control  
(ATC) use this setting.  
3.3.2  
Automatic Phase Adjustment  
During normal operation, the monitor will heat up, causing marginal phasing between the pixel clock  
and the video signal. Enabling the automatic phase adjustment in the OSD will allow the monitor to  
compensate this. This function performs tests every 5 minutes for phasing in the pixel clock and  
readjusts itself if a deviation is detected.  
For best results, the automatic phase adjustment function requires that text or lines are visible  
on the screen. These areas are used to evaluate the degree of phasing.  
NOTE  
3.4  
Adjustment of Backlight Brightness / Automatic Backlight Control  
The monitor has an integrated automatic backlight control function which keeps backlight brightness  
constant. If this function is enabled, the backlight value of the OSD is scaled to “cd/m²”.  
This mode allows the user to set the backlight brightness to a value between 30 and 150 cd/m².The  
TFT module’s maximum brightness is 210 cd/m² (with new backlight tubes). The difference from 150  
to 210 cd/m² is used to compensate for old-age brightness leakage of the backlight tubes.  
If automatic brightness control is disabled, the value can be set between 0 and 100 %.  
42  
3 Operation and Adjustment  
     
4
Serial Communication  
The Raptor SQ2801 features as described in Chapter 3 can be controlled via an application on the  
host workstation. The host workstation can communicate with the Raptor SQ2801 via the serial  
communication alternatives and protocols as described in this chapter.  
There are two channels for serial communication available, in which one channel can be used  
alternatively as RS232 or RS422 interface.  
RS232-1  
RS232  
Channel 1  
Channel 2  
RS232  
RS422  
RS232-2  
RS422  
Switching between RS232-2 and RS422 is done in the OSD menu.  
There are three different transmission protocols available:  
Standard Protocol  
This protocol supports all adjustments and controls of the monitor.  
Simplified Protocol  
This protocol has a simplified structure, and only allows the adjustment of brightness, contrast and  
backlight brightness. It can also query the monitor’s system status for information such as error  
messages, temperature, active source and operating time.  
DDM-Protocol  
This protocol is used in Sony-DDM compatible systems.  
The following table shows which protocols are available for each of the different interfaces:  
Standard Protocol  
Simplified Protocol  
DDM-Protocol  
RS232-1  
RS232-1  
RS232-2  
RS232-2*  
RS-422  
RS-422  
* The RS232-2 interface has additional handshake signals which are needed for communication via DDM-protocol.  
4 Serial Communication 43  
   
4.1  
Standard Protocol  
The standard protocol supports all adjustments and control of the monitor. This protocol uses two  
kinds of data packet types. Packet format called “Operation” is used for adjustments such as  
brightness, contrast and backlight brightness. The packet type called “key simulation” is used to  
operate the OSD via serial interface.  
Interface Parameters  
Baud-Rate  
Parity  
19200  
None  
8
Data-Bits  
Stop Bits  
Handshake  
1
No  
Protocol  
Host  
Monitor  
Operation / Key  
ACK(OK)  
Operation(GET)  
ACK(OK)  
OpPack  
0x1E  
ACK-Message  
OK  
0x06  
Error 0x15  
44  
4 Serial Communication  
 
4.1.1  
Data Packet Structure “Operation”  
Byte No  
Data  
0
1
2
3
4
5
6
7
8
9
10  
0xBE  
0xEF  
0x03  
0x19  
0x00  
CRC-L CRC-H O-Type Code-L Code-H 0x00  
Byte No  
Data  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
0x00  
0x00  
0x00  
0x00  
0x00  
Val-L  
Val-1  
Val-2  
Val-H  
0x00  
0x00  
Byte No  
Data  
22  
23  
24  
25  
26  
27  
28  
29  
30  
31  
0x00  
0x00  
0x00  
0x00  
0x00  
0x00  
0x00  
0x00  
0x00  
0x00  
-L  
= Lower Byte  
= Higher Byte  
-H  
O-Type  
Code  
Val  
(BYTE)  
: Operation  
: Function  
: Value  
(WORD)  
(DWORD)  
O-Type  
Code  
0x01  
0x02  
0x03  
0x04  
Operation  
SET  
Comment  
Set value  
GET  
Get value  
INC  
Increment value  
DEC  
Decrement value  
Code  
Code  
Operation  
Comment  
Val Min Val Max  
0x03E8 Backlight  
brightness  
Set backlight value  
0
0xff  
0x139C Brightness  
0x13AF Contrast  
Set brightness level  
Set contrast level  
0
0
0xff  
0xff  
Protocol  
Host  
Monitor  
Operation packet  
Char 0x1E + Operation packet  
4 Serial Communication 45  
 
4.1.2  
Data Packet Structure “Keyboard Simulation”  
Byte No.  
Data  
0
1
2
3
4
5
6
7
8
9
10  
0xBE 0xEF  
0x02  
0x06  
0x00  
CRC-L CRC-H Code-L Code-H 0x00  
0x00  
Byte No.  
Data  
11  
12  
0x00  
0x00  
L
= Lower Byte  
= Higher Byte  
H
Code (WORD)  
: Key code  
Following codes are supported:  
Key code  
0x0061  
0x0062  
0x005b  
0x0059  
0x005a  
0x0058  
0x0057  
0x005c  
0x005d  
0x005f  
Function / Key  
+
-
UP  
DOWN  
LEFT  
RIGHT  
MENU  
MENU RIGHT  
MENU LEFT  
ESCAPE  
AUTOADJ.  
SOURCE  
0x0056  
0x0055  
Protocol  
Host  
Monitor  
Packet "Keyboard simulation"  
Char 0x06  
46  
4 Serial Communication  
 
4.1.3  
Calculation of CRC - Check Sum  
For CRC check sum calculation set 0x00 for CRC-L and CRC-H. Check sum is calculated according  
to a reference table.  
WORD CalculateCRC16(BYTE *pcData, int nCount)  
{
BYTE  
BYTE  
BYTE  
cCRCHi = 0xFF;  
cCRCLo = 0xFF;  
cIndex;  
// high byte of CRC initialised  
// low byte of CRC initialised  
// will index into CRC lookup table  
while (nCount--)  
{
// step through each byte of data  
cIndex = cCRCHi ^ *pcData++;  
cCRCHi = cCRCLo ^ cCRCHiArray[cIndex];  
cCRCLo = cCRCLoArray[cIndex];  
// calculate the CRC  
}
return (cCRCHi << 8) + cCRCLo;  
}
static CROMDATA BYTE cCRCHiArray[] = {  
0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0,  
0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41,  
0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0,  
0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40,  
0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1,  
0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41,  
0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1,  
0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41,  
0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0,  
0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40,  
0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1,  
0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40,  
0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0,  
0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40,  
0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0,  
0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40,  
0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0,  
0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41,  
0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0,  
0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41,  
0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0,  
0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40,  
0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1,  
0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41,  
0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0,  
0x80, 0x41, 0x00, 0xC1, 0x81, 0x40  
};  
static CROMDATA BYTE  
cCRCLoArray[] = {  
0x00, 0xC0, 0xC1, 0x01, 0xC3, 0x03, 0x02, 0xC2, 0xC6, 0x06,  
0x07, 0xC7, 0x05, 0xC5, 0xC4, 0x04, 0xCC, 0x0C, 0x0D, 0xCD,  
0x0F, 0xCF, 0xCE, 0x0E, 0x0A, 0xCA, 0xCB, 0x0B, 0xC9, 0x09,  
0x08, 0xC8, 0xD8, 0x18, 0x19, 0xD9, 0x1B, 0xDB, 0xDA, 0x1A,  
0x1E, 0xDE, 0xDF, 0x1F, 0xDD, 0x1D, 0x1C, 0xDC, 0x14, 0xD4,  
0xD5, 0x15, 0xD7, 0x17, 0x16, 0xD6, 0xD2, 0x12, 0x13, 0xD3,  
0x11, 0xD1, 0xD0, 0x10, 0xF0, 0x30, 0x31, 0xF1, 0x33, 0xF3,  
0xF2, 0x32, 0x36, 0xF6, 0xF7, 0x37, 0xF5, 0x35, 0x34, 0xF4,  
0x3C, 0xFC, 0xFD, 0x3D, 0xFF, 0x3F, 0x3E, 0xFE, 0xFA, 0x3A,  
0x3B, 0xFB, 0x39, 0xF9, 0xF8, 0x38, 0x28, 0xE8, 0xE9, 0x29,  
0xEB, 0x2B, 0x2A, 0xEA, 0xEE, 0x2E, 0x2F, 0xEF, 0x2D, 0xED,  
0xEC, 0x2C, 0xE4, 0x24, 0x25, 0xE5, 0x27, 0xE7, 0xE6, 0x26,  
4 Serial Communication 47  
   
0x22, 0xE2, 0xE3, 0x23, 0xE1, 0x21, 0x20, 0xE0, 0xA0, 0x60,  
0x61, 0xA1, 0x63, 0xA3, 0xA2, 0x62, 0x66, 0xA6, 0xA7, 0x67,  
0xA5, 0x65, 0x64, 0xA4, 0x6C, 0xAC, 0xAD, 0x6D, 0xAF, 0x6F,  
0x6E, 0xAE, 0xAA, 0x6A, 0x6B, 0xAB, 0x69, 0xA9, 0xA8, 0x68,  
0x78, 0xB8, 0xB9, 0x79, 0xBB, 0x7B, 0x7A, 0xBA, 0xBE, 0x7E,  
0x7F, 0xBF, 0x7D, 0xBD, 0xBC, 0x7C, 0xB4, 0x74, 0x75, 0xB5,  
0x77, 0xB7, 0xB6, 0x76, 0x72, 0xB2, 0xB3, 0x73, 0xB1, 0x71,  
0x70, 0xB0, 0x50, 0x90, 0x91, 0x51, 0x93, 0x53, 0x52, 0x92,  
0x96, 0x56, 0x57, 0x97, 0x55, 0x95, 0x94, 0x54, 0x9C, 0x5C,  
0x5D, 0x9D, 0x5F, 0x9F, 0x9E, 0x5E, 0x5A, 0x9A, 0x9B, 0x5B,  
0x99, 0x59, 0x58, 0x98, 0x88, 0x48, 0x49, 0x89, 0x4B, 0x8B,  
0x8A, 0x4A, 0x4E, 0x8E, 0x8F, 0x4F, 0x8D, 0x4D, 0x4C, 0x8C,  
0x44, 0x84, 0x85, 0x45, 0x87, 0x47, 0x46, 0x86, 0x82, 0x42,  
0x43, 0x83, 0x41, 0x81, 0x80, 0x40  
};  
48  
4 Serial Communication  
4.2  
Simplified Protocol  
The simplified protocol uses a data packet structure similar to the standard protocol, however with  
reduced functional range. Calculation of CRC check sum is similar to description in section 4.1.3 page  
Interface Parameters  
19200  
Baud-Rate  
Parity  
None  
8
Data-Bits  
Stop Bits  
Handshake  
1
No  
ACK-Message  
OK  
0x06  
Protocol  
Host  
Monitor  
Control Packet  
Data Packet  
or ACK (OK)  
Maximum response time of the monitor is 200 ms. In case of an error in transmission, the monitor  
does not respond.  
4.2.1  
Data Packet Structure  
Byte No  
Data  
0
1
2
3
4
5
6
7
8
9
10  
0xBE  
0xEF  
0x10  
Len-L Len-H CRC-L CRC-H  
CMD  
Data 0 Data 1 Data  
Byte No  
Data  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
Data  
Data  
Data  
Data  
Data  
Data  
Data  
Data  
Data  
Data  
-L  
= Lower Byte  
= Higher Byte  
-H  
CMD  
(BYTE)  
: Command  
: Number of data bytes CMD + Data 0 to Data xx  
Len-L / H  
(WORD)  
4 Serial Communication 49  
 
CMD  
Code  
Command  
Comment  
0x01  
Status  
Reply of system status  
Host  
Monitor  
Byte 03: L-Len = 0x01  
Byte 04: H-Len = 0x00  
Monitor  
Host  
Byte 03: L-Len = 0x0E  
Byte 04: H-Len = 0x00  
Byte 08: Status Information Display Module  
- Bit 0: VDD - fuse faulty  
- Bit 1: Backlight inverter – fuse faulty  
- Bit 2: Upper backlight unit faulty  
- Bit 3: Middle backlight unit faulty  
- Bit 4: Lower backlight unit faulty  
- Bit 5: No or no valid input signal from controller  
- Bit 6: reserved  
- Bit 7: reserved  
Byte 09: Internal Temperature  
-55°C to +125°C in complement on two  
Byte 10: Active Input Source  
- Bit 0..1:  
0 = RGB-Analog1  
1 = DVI1  
2 = DVI2  
3 = RGB-Analog2  
- Bit 2: Input signal active  
Byte 11: reserved  
Byte 12: reserved  
Byte 13: LSB Operating hour meter  
Byte 14: Second Byte Operating hour meter  
Byte 15: Third Byte Operating hour meter  
Byte 16: MSB Operating hour meter  
Byte 17: LSB Backlight- Operating hour meter  
Byte 18: Second Byte Backlight- Operating hour meter  
Byte 19: Third Byte Backlight- Operating hour meter  
Byte 20: MSB Backlight- Operating hour meter  
50  
4 Serial Communication  
Code  
Command  
Comment  
0x02  
Source Switch This command enables the host to switch signal source.  
Host  
Monitor  
Byte 03: L-Len = 0x01  
Byte 04: H-Len = 0x00  
Byte 08: Input - Source  
0 = RGB-Analog1  
1 = DVI 1  
2 = DVI 2  
3 = RGB-Analog2  
Monitor  
Host  
Byte 00: ACK = 0x06  
ACK is sent after the monitor has internally switched the source.  
CRC-Check sum for individual sources::  
- AnalogRGB1:  
- DVI1:  
- DVI2:  
0x2C1C  
0xEDDC  
0xADDD  
0x6C1D  
- AnalogRGB2:  
0x03  
Backlight -  
Brightness  
This command is used to adjust backlight brightness  
Host  
Monitor  
Byte 03: L-Len = 0x02  
Byte 04: H-Len = 0x00  
Byte 08: Value of Brightness (0 .. 255)  
Monitor  
Host  
Byte 00: ACK = 0x06  
Value 0 to 255 corresponds 0 to 100% of adjustment range.  
4 Serial Communication 51  
Code  
Command  
Comment  
0x04  
Brightness  
This command is used to adjust brightness (black level).  
Host  
Monitor  
Byte 03: L-Len = 0x02  
Byte 04: H-Len = 0x00  
Byte 08: Brightness value (0 .. 255)  
Monitor  
Host  
Byte 00: ACK = 0x06  
Value 0 to 255 corresponds 0 to 100% of adjustment range.  
This command is used to adjust contrast.  
0x05  
Contrast  
Host  
Monitor  
Byte 03: L-Len = 0x02  
Byte 04: H-Len = 0x00  
Byte 08: Contrast value (0 .. 255)  
Monitor  
Host  
Byte 00: ACK = 0x06  
Value 0 to 255 corresponds 0 to 100% of adjustment range.  
4.3  
DDM-Protocol  
The DDM-Protocol and its commands have been defined for operation with Sony DDM compatible  
monitor. The Raptor SQ2801 only implements those commands which the monitor supports. All other  
commands will simply return success.  
This protocol is only supported by RS232-2 or RS422 interface. For this the DDM protocol and the  
appropriate interface must be selected in the OSD.  
Data transmission with handshake signals is only supported by RS232-2 interface (see  
NOTE  
52  
4 Serial Communication  
 
List of implemented commands:  
Code Command  
Comment  
This command is used to set Backlight brightness.  
0xA0 Operator  
Brightness  
0xA1 Operator Contrast This command is used to set contrast.  
Code Command  
Comment  
0xB8 Status  
Response System Status  
Byte 0: Status Information Display-Module  
- Bit 0: VDD-fuse faulty  
- Bit 1: Backlight inverter-fuse faulty  
- Bit 2: Upper backlight unit faulty  
- Bit 3: Middle backlight unit faulty  
- Bit 4: Lower backlight unit faulty  
- Bit 5: No or no valid signal from controller  
- Bit 6: reserved  
- Bit 7: reserved  
Byte 1: Internal Temperature  
-55°C to +125°C in complement on two  
Byte 2: Active Input Source  
- Bit 0..1:  
0 = RGB-Analog1  
1 = DVI1  
2 = DVI2  
3 = RGB-Analog2  
- Bit 2: Input signal active  
Byte 3: Reserved  
Byte 4: LSB Operating hour meter  
Byte 5: Second Byte Operating hour meter  
Byte 6: Third Byte Operating hour meter  
Byte 7: MSB Operating hour meter  
Byte 8: LSB Backlight- operating hour meter  
Byte 9: Second Byte Backlight- operating hour meter  
Byte 10: Third Byte Backlight- operating hour meter  
Byte 11: MSB Backlight- operating hour meter  
4 Serial Communication 53  
5
Technical Data  
Display Module  
5.1  
Type  
Color active TFT-LCD  
28.05"  
Diagonal  
Display area (WxH)  
Resolution  
Pitch  
503.808 x 503.808 mm²  
2048 x 2048 Pixel  
0.246 x 0.246 mm²  
16.7 Million  
Colors  
Viewing angle typ.  
horizontally ± 85°  
(CR >= 10)  
vertically  
± 85°  
Contrast ratio typ.  
Response time  
1000 : 1  
White  
Black  
Black  
White  
5 ms  
20 ms  
White Uniformity max.  
1,25  
(max. luminance / min. luminance)  
Backlight  
3 x CCFT-Trays  
(Cold Cathode Fluorescent Tube)  
Brightness typ.  
max. 225 cd/m²  
min. 22,5 cd/m²  
5.2  
Power Supply  
Input voltage  
90 - 264 VAC (47 – 63 Hz)  
2 x 5 A delay action fuse  
Main power fuse  
Power consumption typ.  
at 70 cd/m² approx. 110 W  
at 210 cd/m² approx. 150 W  
Power consumption Stand by  
(no input signal)  
approx. 15 W  
54  
5 Technical Data  
 
5.3  
Operating Conditions  
Operating temperature  
Storage temperature  
Humidity  
0 to +40 °C  
-25 to +60 °C  
max. 95 % (no condensation)  
5.4  
Protection  
Protection  
None  
Front shield  
antireflective  
5.5  
Housing  
Weight  
approx. 29.1 kg  
Sheet steel  
Material of housing  
Color of housing  
RAL 9005 (jet black)  
5.6  
Input signal RGB analog  
Level (Video)  
Bandwidth  
0.7 Vss RGB analog on 50 Ω  
500 MHz (-3dB)  
50 Ω  
Impedance  
Synchronization  
Synchronization (level)  
Impedance  
Separate Sync  
1 - 5 Vss  
75 Ω  
H- Frequency  
V- Frequency  
30 to 130 KHz  
50 to 70 Hz  
5 Technical Data 55  
   
5.7  
Standard ATC-Timing  
H-Frequency  
Pixel clock  
H-Total  
126.84 KHz  
357 MHz  
2816 pixel  
2048 pixel  
60 Hz  
H-Visible  
V-Frequency  
V-Total  
2114 lines  
2048 lines  
V-Visible  
5.8  
Input Signal DVI-1 / DVI-2  
Signal  
Standard DVI 1.0  
2 x 165 MHz  
Pixel clock max.  
5.9  
Recommended DVI-Timing 2,048 x 2,048 Pixel  
H-Frequency  
Pixel clock  
H-Total  
124.8 KHz  
260 MHz (2 x 130 MHz)  
2080 pixel  
H-Visible  
V-Frequency  
V-Total  
2048 pixel  
60 Hz  
2100 lines  
V-Visible  
2048 lines  
56  
5 Technical Data  
   
5.10 EU – Declaration of Conformity on EMC  
Product  
LCD-Monitor  
Raptor SQ2801  
Test guidelines  
EG-guide lines  
No 2004/108/EC  
No 2006/95/EC  
Harmonized standards EN 55022 Class B  
Interference emissions  
(industrial)  
used  
+A1/EN55022/A1  
EN55024:1998  
+A1:2001+A2:2003  
EN 60950  
Interference resistance  
(industrial)  
Safety  
5 Technical Data 57  
 
6
Part Numbers and Field Replaceable Units (FRUs)  
TSI ATC Visualization Kit  
6.1  
The Raptor SQ2801 is part of the Tech Source ATC Visualization kit (19-0206-01) and is comprised  
of the following components:  
Part Number  
Description  
19-0152-01  
Raptor 2500T-DL 2Kx2K Graphics  
Accelerator  
19-0201-01  
Raptor SQ2801 Display (Desktop  
version)  
15-0231-01  
73-0066-01  
Dual Link DVI cable  
Raptor OpenWindows software  
(Solaris drivers)  
65-0228-01  
65-0265-01  
Raptor OpenWindows manual  
(Raptor Graphics hardware and  
software installation manual)  
Raptor SQ2801 Reference &  
Maintenance manual  
6.2  
Raptor SQ2801 Field Replaceable components  
Field maintenance of the Raptor SQ2801 unit is discussed in Maintenance Manual. The following  
is a list of field upgradeable components:  
Part Number  
80-0010-01  
80-0010-02  
80-0010-03  
80-0011-01  
80-0012-01  
80-0013-01  
Description  
Upper Lamp Tray for Backlight  
Middle Lamp Tray for Backlight  
Lower Lamp Tray for Backlight  
Power Supply  
Fan with cover  
Interface Controller board with two  
Dual Link DVI inputs  
80-0011-02  
20 mm, 5 Amp, 250 V Delay  
Action/Slow Blow Fuse  
58  
6 Part Numbers and Field Replaceable Units (FRUs)  
 
1st Edition-October, 2007  
03V22230A1  
(U.M-SQ2801-EN)  

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