advertisement
CPX1-241
Rugged Military Grade
Rack Mount 24-Inch LCD Panel with MultiTouch IR Touch Screen
Technical Reference
Revision A
6/12/2013
This Page Intentionally Blank
Warranty
Return Policy
The product is warranted against material and manufacturing defects for two years from date of delivery. Buyer agrees that if this product proves defective Chassis Plans’ is only obligated to repair, replace or refund the purchase price of this product at Chassis
Plans’ discretion. The warranty is void if the product has been subjected to alteration, neglect, misuse or abuse; if any repairs have been attempted by anyone other than
Chassis Plans; or if failure is caused by accident, acts of God, or her causes beyond the control of Chassis Plans. Chassis Plans reserves the right to make changes or improvements in any product without incurring any obligation to similarly alter products previously purchased.
In no event shall Chassis Plans be liable for any defect in hardware or software or loss or inadequacy of data of any kind, or for any direct, indirect, incidental or consequential damages arising out of or in connection with the performance or use of the product or information provided. Chassis Plans’ liability shall in no event exceed the purchase price of the product purchased hereunder. The foregoing limitation of liability shall be equally applicable to any service provided by Chassis Plans.
Products returned for repair must be accompanied by a Return Material Authorization
(RMA) number, obtained from Chassis Plans prior to return. Freight on all returned items must be prepaid by the customer, and the customer is responsible for any loss or damage caused by common carrier in transit. Items will be returned from Chassis Plans via Ground, unless prior arrangements are made by the customer for an alternative shipping method
To obtain an RMA number, call us at 858-571-4330. We will need the following information:
Return company address and contact
Model name and model # from the label on the back of the display
Serial number from the label on the back of the display
Description of the failure
An RMA number will be issued. Mark the RMA number clearly on the outside of each box, include a failure report for each board and return the product(s) to our San Diego,
CA facility:
10123 Carroll Canyon Rd.
San Diego, CA 92131
Attn: Repair Department
Liability
Disclaimer
Trademarks “The Original Industrial Computer Source”, “Systems Engineered to Perform” and
Chassis Plans are registered trademarks of Chassis Plans, LLC.
IBM, PC/AT, VGA, EGA, OS/2 and PS/2 are trademarks or registered trademarks of
International Business Machines Corp.
Intel is a registered trademark of Intel Corporation.
MS-DOS and Microsoft are registered trademarks of Microsoft Corp.
All other brand and product names may be trademarks or registered trademarks of their respective companies.
This manual is as complete and factual as possible at the time of printing; however, the information in this manual may have been updated since that time. Chassis Plans reserves the right to change the functions, features or specifications of their products at any time, without notice.
Copyright © 2013 by Chassis Plans. All rights reserved.
E-mail: [email protected]
Web: www.chassisplans.com
Chassis Plans
10123 Carroll Canyon Road • San Diego, CA 92131
Phone: (858) 571-4330 • Fax: (858) 571-6146 • Email: [email protected]
Table of Contents
Chapter 1 ‐ Introduction _______________________________________________________________ 1
Description _____________________________________________________________________________ 1
Genesis Based LCD Controller _______________________________________________________________ 2
Table 1 – Supported Video Resolutions ____________________________________________________________ 3
Rack Mounting __________________________________________________________________________ 3
Photos _________________________________________________________________________________ 4
Photo 1‐ Front View ___________________________________________________________________________ 4
Photo 2‐ Rear View ___________________________________________________________________________ 4
Photo 3‐Bottom View __________________________________________________________________________ 4
Photo 4‐ Bottom Rear View _____________________________________________________________________ 4
Photo 5‐ Rear View Exploded____________________________________________________________________ 4
Photo 6‐ I/O Connections _______________________________________________________________________ 5
Specifications ____________________________________________________________________________ 6
ENCLOSURE ____________________________________________________________________________________ 6
MOUNT‐ON‐RACK ADAPTER BRACKETS ______________________________________________________________ 6
24” DISPLAY ____________________________________________________________________________________ 6
DISPLAY ENHANCEMENT OPTIONS __________________________________________________________________ 6
OPTIONAL FEATURES / OPTIONS ___________________________________________________________________ 6
INFRARED TOUCH SCREEN OPTION _________________________________________________________________ 6
AUDIO AMPLIFIER _______________________________________________________________________________ 6
SPEAKERS _____________________________________________________________________________________ 6
IR REMOTE CONTROL ____________________________________________________________________________ 6
POWER SUPPLY OPTIONS _________________________________________________________________________ 6
Table 2 – Specifications ________________________________________________________________________ 6
LCD DVI/HDMI/VGA Input Features: ________________________________________________________________ 7
Controller Feature Summary ______________________________________________________________________ 7
Table 3 –Video Controller Specifications ___________________________________________________________ 7
HD‐SD/SDI Option ________________________________________________________________________ 8
HD‐SD/SDI Specification: _________________________________________________________________________ 8
Supported Video Modes __________________________________________________________________________ 8
Table 4 –HD‐SD/SDI Input Option ________________________________________________________________ 8
Figure 1 – CPX1‐241 Customer Drawing ___________________________________________________________ 9
Figure 2 – CPX1‐241 Mounting Adapter Customer Drawing ___________________________________________ 10
LCD Enhancements ______________________________________________________________________ 11
Figure 3 – EMI Shielding Effectiveness of MicroMesh EMI Filter _______________________________________ 11
Figure 4 – Comparison of Reflections with and without Optical Bonding ________________________________ 11
Figure 5 – Comparison with and without Optical Bonding ____________________________________________ 12
Durable Anti‐Reflection Oleophobic Coating (DARO) ___________________________________________ 12
Key Features __________________________________________________________________________________ 12
Figure 6 – Comparison with and without Optical Bonding ____________________________________________ 13
Specifications ___________________________________________________________________________ 13
Chapter 2 – Infrared Touch Screen Option ________________________________________________ 14
Description ____________________________________________________________________________ 14
Figure 7 – Infrared Touch Screen Example ________________________________________________________ 14
Figure 8 – Examples of Dual Touch Gesturing ______________________________________________________ 14
Chapter 3 – Power Supply Options ______________________________________________________ 15
AC Input Power Supply ___________________________________________________________________ 15
Table 5 ‐ AC Input Supply Specifications __________________________________________________________ 15
Photo 6 ‐ AC Power Supply (150W) ______________________________________________________________ 15
MIL‐STD‐704/1275 DC Input Converter ______________________________________________________ 16
Operating Specifications _________________________________________________________________________ 16
Connectors ___________________________________________________________________________________ 16
Environmental Specifications _____________________________________________________________________ 16
Table 6 ‐ MIL‐STD‐704/1275A Power Supply Specifications ___________________________________________ 16
Chapter 4 – Ordering Information ______________________________________________________ 17
Chapter 5 ‐ Package Contents __________________________________________________________ 19
Table 7 ‐ Package Contents ____________________________________________________________________ 19
Chapter 6 ‐ Installation _______________________________________________________________ 21
Rack Installation ________________________________________________________________________ 21
Figure 9 ‐ Rack Mounting Hole Spacing ___________________________________________________________ 21
Installing the CPX1‐241 ___________________________________________________________________ 21
Figure 10 – Installing the Mounting Adapter Bracket ________________________________________________ 22
Connecting the Display ___________________________________________________________________ 23
Controller Rear Panel Connections _________________________________________________________ 23
DVI/HDMI/VGA Input Features: ___________________________________________________________________ 23
Photo 7 –CPX1‐241 Bottom View and I/O _________________________________________________________ 24
Table 8 ‐ Rear Panel Connections _______________________________________________________________ 24
Chapter 7 – LCD Operation ____________________________________________________________ 25
LCD Front Panel Controls _________________________________________________________________ 25
Table 9 ‐ Front Panel Controls __________________________________________________________________ 25
LCD Controller OSD Menus ________________________________________________________________ 26
Table 10 ‐ LCD Controller OSD Menus ____________________________________________________________ 30
Appendix A – Display Serial Control Programming _________________________________________ 31
RS‐232 Serial Control_____________________________________________________________________ 31
Ethernet Control ________________________________________________________________________ 31
LCD Controller Serial/Ethernet Control Functions _____________________________________________ 31
Table A‐1 ‐ Commands to Implement Switch Mount Control Buttons ___________________________________ 31
Table A‐2 ‐ Parameter Setting ‐ Immediate, Relative, Reset and Query _________________________________ 41
Table A‐3 ‐ Other Control _____________________________________________________________________ 43
Text Via RS232 Command ________________________________________________________________________ 44
Table A‐4 – Text Via RS232 Command ____________________________________________________________ 45
Display Mark Command _________________________________________________________________________ 46
Table A‐5 – Display Mark Command _____________________________________________________________ 47
Table A‐6 ‐ Hex to ASCII Conversion Table ________________________________________________________ 48
Appendix B – Auto Color Gain __________________________________________________________ 49
Image B‐1 – Auto Color Gain Example ____________________________________________________________ 49
Appendix C – Remote Control __________________________________________________________ 51
Image C‐1 – Remote Control ___________________________________________________________________ 51
Table C‐1 – Remote Control Functions ___________________________________________________________ 52
Appendix D – Functional Description for De‐Interlacing Modes _______________________________ 53
Appendix E – PIP Mix Table ____________________________________________________________ 55
Table E‐1 – PIP Mix Table ______________________________________________________________________ 55
Appendix F – Ethernet Network Connection ______________________________________________ 57
Connecting a network port to CPX1‐241 _____________________________________________________ 57
Get the IP address using DHCP _____________________________________________________________ 58
Web Console ___________________________________________________________________________ 58
IP Locator ______________________________________________________________________________ 58
Image F‐1 – IP Locator Screen Show _____________________________________________________________ 58
Network configuration ___________________________________________________________________ 58
Image F‐2 – Network Drop Down _______________________________________________________________ 58
Image F‐3 – Network Configure Settings __________________________________________________________ 59
Connect to a single CPX1‐241 ______________________________________________________________ 59
Table F‐1 – Remote Control ____________________________________________________________________ 59
Image F‐4 – IP Address Locator _________________________________________________________________ 60
Image F‐5 – IP Address Setting and Enable ________________________________________________________ 60
Connect to multiple CPX1‐241s ____________________________________________________________ 60
Table F‐2 – Remote Control ____________________________________________________________________ 60
Image F‐6 – DHCP Table Screenshot _____________________________________________________________ 61
Image F‐7 – NAT Fowarding Screenshot __________________________________________________________ 61
Appendix G – DVI‐D versus DVI‐I Connectors ______________________________________________ 63
Overview ______________________________________________________________________________ 63
Connectors _____________________________________________________________________________ 63
This Page Intentionally Blank
Chassis Plans CPX1-241 Technical Reference Chapter 1 - Introduction
Chapter 1 - Introduction
Description
The CPX1-241 is a rugged military grade and industrial grade high performance 9U mount-on-rack LCD panel display offering 24-inch TFT LCD display with LED backlight. The display includes a bonded anti-reflective glass cover with an optional bonded mesh EMI filter and an Infrared dual-touch touch screen.
The CPX1-241 family is designed to meet Mil-S-901D and MIL-STD-810G and includes solid and lightweight
5052-H32 aluminum construction and locking stainless hardware throughout. As a 24-inch display is wider than
19-inches, the display mounts in front of the rack and mounting brackets can be specified for racks with different front-to-rack-rail spacing.
The 24-inch display offers 1920 x 1200 native resolution, LED backlighting, 300nit brightness, 1000:1 native contrast (before installing the AR filter), and 89 degree viewing angle. The Pixel Pitch for the 24-inch display is
.270 x .270mm. The display offers 16.7 million colors (True Color).
The display is equipped standard with a bonded glass overlay with a DARO oleophobic anti-reflective (AR) coating. This AR coating minimizes finger prints and repels dirt, moisture, and other contaminates to improve image clarity. The coating is highly resistant to abrasion and is easily cleaned.
An optional embedded mesh EMI filter in front of the display is available for compliance with military EMI standards. The glass is optically bonded to the front of the display with optically clear index matched adhesive for superior viewing and ruggedness. A 6mm copper bus bar around the entire glass stack-up provides effective
EMI grounding. The contrast is significantly enhanced with this Anti Reflective glass stack-up in high bright environments.
An optional infrared dual-touch touch screen is available. Infrared touch screen technology offers a multitude of advantages over traditional capacitive or resistive touch screens. The IR touch screen can be used with bare fingers, gloves or any other pointer. Multi-touch control is supported for gesture recognition, etc. Touch activations is unlimited and there is no concern with damage to the touch surface. One compelling advantage to
IR Touch is the ability to install the anti-reflective coated glass bonded to the display for high-bright environments. Another prime benefit of IR Touch is that this is a passive technology with no emitted EMI.
The CPX1-241 provides a high quality advanced scaling controller with a Genesis chipset. The rugged LCD controller offers inputs for virtually any video signal including aRGB, DVI-D, HDMI, and optional video
(NTSC/PAL/SECAM, Composite, S-video, SD (YCbCr) and HD (YPbPr) component). An optional HD-SDI adapter is available for professional and broadcast video applications. This is a specifically ruggedized controller offering as standard conformal coating with high shock/vibration and temperature extreme tolerances.
The LCD supports full screen image expansion, on-screen PIP (Picture in Picture), Picture by Picture, and image marker. Rounding out the display features is an optional infrared control and serial or Ethernet command port including on-screen text overlay generation.
Included standard is a built-in 2 watt stereo amplifier and two speakers. The speakers are located at the bottom of the front bezel of the display.
The CPX1-241 is primarily designed for rugged Military applications but can be used in Industrial, Commercial, or Broadcast applications where reliability, quality and long program life availability preclude the use of cheaply made imported units.
As with all Chassis Plans products, a wide variety of custom options can be configured per customer or application specific requirements. Contact your Sales Engineer to discuss your particular requirements.
Page 1
Chassis Plans CPX1-241 Technical Reference Chapter 1 - Introduction
Genesis Based LCD Controller
The LCD Controller is a key component in any display system. This is a long life revision controlled military grade component. The controller board selected is based on the Genesis FLI30436 LCD Controller. It provides:
Faroudja® signal processing including TrueLife™ Video Enhancer
Next generation 10-bit Faroudja DCDi Cinema® format conversion
Dual 10 bit video decoders for up to 1.06 billion colors
VBI support for Teletext, Closed Captioning V-Chip and other services
Worldwide video standard support
Picture-in-Picture and Picture-byPicture (PBP)
Analog Video Capture up to 162 MHz (up to WUXGA 1920 x 1200 @ 60 Hz) support
Digital Video Capture up to 165 MHz
1-bit Advanced Color Management (ACM-3D) and Adaptive Contrast Control (ACC)
Optional 3G HD-SDI adaptor for professional and broadcast video applications
Text overlay via Serial Port or Ethernet
Full command of all OSD functions through Serial Comm port, Ethernet or IR remote control
This ruggedized military grade controller is rated for operating at -40 to +80 deg C, uses low mass tantalum capacitors for maximum vibration and shock tolerance and is conformal coated for extreme ruggedness. MTBF for the controllers is in excess of 100K hours.
The controller will provide input up/down scaling of virtually any input signal to scale the image to the 1920x1200 native LCD panel resolution. It provides for PC, Apple and Sun input resolutions.
Supported Resolutions:
720 x 400 @ 70 Hz
640 x 480 @ 60 Hz
640 x 480 @ 60Hz
640 x 480 @ 72 Hz
640 x 480 @ 72Hz
640 x 480 @ 75 Hz
640 x 480 @ 75Hz
800 x 600 @ 56 Hz
800 x 600 @ 56 Hz
Digital Separate Sync
Digital Separate Sync
Composite Sync
Digital Separate Sync
Composite Sync
Digital Separate Sync
Composite Sync
Digital Separate Sync
Composite Sync
720 x 400 @ 70 Hz
640 x 480 @ 60 Hz
640 x 480 @ 72 Hz
640 x 480 @ 75 Hz
800 x 600 @ 56 Hz
Sync on Green
Sync on Green
Sync on Green
Sync on Green
Sync on Green
800 x 600 @ 60 Hz
800 x 600 @ 60 Hz
800 x 600 @ 72 Hz
800 x 600 @ 72 Hz
800 x 600 @ 75 Hz
800 x 600 @ 75 Hz
1024 x 768 @ 60 Hz
1024 x 768 @ 60 Hz
1024 x 768 @ 70 Hz
1024 x 768 @ 70 Hz
1024 x 768 @ 75 Hz
1024 x 768 @ 75 Hz
Digital Separate Sync
Composite Sync
Digital Separate Sync
Composite Sync
Digital Separate Sync
Composite Sync
Digital Separate Sync
Composite Sync
Digital Separate Sync
Composite Sync
Digital Separate Sync
Composite Sync
800 x 600 @ 60 Hz
800 x 600 @ 72 Hz
800 x 600 @ 75 Hz
Sync on Green
Sync on Green
Sync on Green
1024 x 768 @ 60 Hz Sync on Green
1024 x 768 @ 70 Hz Sync on Green
1024 x 768 @ 75 Hz Sync on Green
Page 2
Chassis Plans CPX1-241 Technical Reference
Supported Resolutions (continued)
1280 x 1024 @ 60 Hz
1280 x 1024 @ 60 Hz
Digital Separate Sync
Composite Sync
1280 x 1024 @ 75 Hz
1280 x 1024 @ 75 Hz
1600 x 1200 @ 60 Hz
1600 x 1200 @ 60 Hz
1920 x 1080 @ 60 Hz
1920 x 1080 @ 60 Hz
1920 x 1200 @ 60 Hz
1920 x 1200 @ 60 Hz
Digital Separate Sync
Composite Sync
Digital Separate Sync
Composite Sync
Digital Separate Sync
Composite Sync
Digital Separate Sync
Composite Sync
1280 x 1024 @ 60 Hz
Chapter 1 - Introduction
Sync on Green
1280 x 1024 @ 75 Hz Sync on Green
1600 x 1200 @ 60 Hz
1920 x 1080 @ 60 Hz
Sync on Green
Sync on Green
1920 x 1200 @ 60 Hz Sync on Green
720 x 480i
720 x 480i
NTSC
NTSC 4.43
PAL 720 x 576i
720 x 576i
720 x 576i
PAL M
SECAM
Other video formats can be supported by customized firmware. Contact your Sales Engineer for details.
Table 1 – Supported Video Resolutions
Rack Mounting
The CPX1-241 is mounted in front of the rack using included brackets. The width of the 24-inch display is wider than the opening in a 19-inch rack. A selection of mounting adapters is available for different rack configurations. Some racks are flush mounted while others have the mounting rails inset from the front of the rack. Contact your Sales Engineer for details. See Photo 5 below.
Page 3
Chassis Plans CPX1-241 Technical Reference
Photos
Chapter 1 - Introduction
Photo 1- Front View
Photo 3-Bottom View
Photo 2- Rear View
Photo 4- Bottom Rear View
Photo 5- Rear View Exploded
Page 4
Chassis Plans CPX1-241 Technical Reference Chapter 1 - Introduction
Photo 6- I/O Connections
Page 5
Chassis Plans CPX1-241 Technical Reference Chapter 1 - Introduction
Specifications
ENCLOSURE
9U (15.72”) x 3.19” deep (plus mounting bracket)
Front Panel 5052-H32 aluminum alloy
Body made of 5052-H32 aluminum alloy
All stainless steel hardware
All self locking pressed in fasteners where appropriate
Powder coat black, medium texture, for ruggedness
Other colors optionally available
Designed to Mil-Spec Standards to Satisfy Military,
Industrial and Commercial Requirements
Compact Enclosure for Limited Depth Installation
Weight: 35lbs
MOUNT-ON-RACK ADAPTER BRACKETS
Adapts display to mount to front of 19-inch rack
Brackets for flush mounting, 1-inche and 2-inch offset.
24” DISPLAY
24" TFT LCD 1920x1200, LED Backlight
Surface Treatment : Oleophobic Anti-Reflective
(AR) coated glass bonded with optically clear index matched adhesive
Display Colors: 16.7 Million
Response Time: 12mS Typical
Viewing Angle: 89 deg
Contrast Ratio: 1000:1 typical native
Brightness: 300cd/m2 typical
Pixel Pitch: 0.270mm x 0.270mm
Pixel Arrangement: R.G.B Stripe
Power Management: EPA Energy Star, VESA
DPMS
Operating Temperature: 0 to + 50 Deg C
Storage Temperature: -20 to +60 Deg C
DISPLAY ENHANCEMENT OPTIONS
EMI Shield (fine wire mesh embedded in AR glass adhesive)
OPTIONAL FEATURES / OPTIONS
Customer Specified Paint Color
Customer Logo
Custom sheet metal and mechanical features
INFRARED TOUCH SCREEN OPTION
Resolution: 4096 x 4096 touch points
Input: gloved hand, finger, or any other pointer
Touch activation force: none
Touch times: unlimited
Minimum touch object: 8mm
Sealability: IP65 from the front
Can be used in conjunction with AR Glass and/or
EMI Filter over LCD
Supports dual-touch gesture recognition (Windows 7 or 8)
Single Touch Drivers for:
Windows
Mac OS
Win CE
Linux
Android
AUDIO AMPLIFIER
Input Impedance: 6.8ohm
Output Power: 2.0W into 4 Ω
Distortion: <2%
Gain: 0 to 21dB
SPEAKERS
22 x 33mm Cone
Input Power: 2W
Cone treated for water resistance
IR REMOTE CONTROL
Front panel sensor
Controls OSD and Video Source
POWER SUPPLY OPTIONS
DC 12 Volt Input
12V DC @ 8 A
AC Input
90 to 260VAC, auto selecting
MIL-STD-704/1275A DC/DC Converter
True compliance for military 28VDC nominal vehicle inputs
18 to 36VDC input
See the appropriate power supply section for complete power supply specifications.
Table 2 – Specifications
Page 6
Chassis Plans CPX1-241 Technical Reference
LCD DVI/HDMI/VGA Input Features:
Harsh Environment LCD Controller
Inputs:
Analog RGB: 75Hz at SXGA, WXGA, XGA,
With auto detect of Digital
Separate Sync, Sync-On-Green &
Composite Sync. Auto detects
VGA ~WUXGA interlaced &
noninterlaced.
DVI-D/HDMI: 60Hz at WUXGA
75Hz at SXGA, WXGA, XGA,
Optional Video: NTSC /PAL / SECAM (Interlaced)
Composite Video, S-Video
SD Component (YCbCr) (Optional)
HD Component (YPbPr) (Optional)
Dual Channel HD-SDI (Optional)
Image Scaling: Up / down scaling to fit input to
Image Control: Brightness, Contrast, Saturation,
Hue, Frequency, Phase, Color tem perature, Image position, Hue,
Gamma.
Other Features: System information, OSD position,
Scaling to fill screen and fill to aspect ratio, OSD timeout, Factory reset, OSD menu transparency,
Picture In Picture – Variable position with 18 sizes selection and Picture By Picture,
Programmable hot keys
Chapter 1 - Introduction
Controller Feature Summary
Brightness – LCD
Brightness – Backlight
Contrast
Saturation & Hue
Sharpness
Blue only, Red only, Green only
Monochrome
Auto Color Gain
Gamma
Color
Picture-in-Picture
Auto Source Seek
Picture
Wide Screen Mode Detection
Manual Clock / Phase / Position
Mode
Power
Up- and Down-Scaling
Image Orientation / Flip
Frame
Zoom / Pan
OSD Position / Transparency
Audio
Volume
Programmable Default Settings
OEM Protected Setup Areas
Power
Configuration
BIOS Upgrade Via RS-232
Balance
Real Time Clock
RS-232 Text Overlay
Table 3 –Video Controller Specifications
Page 7
Chassis Plans CPX1-241 Technical Reference Chapter 1 - Introduction
HD-SD/SDI Option
The CPX1-241 can be optionally configured with a broadcast quality HD-SD/SDI input. Fully compliant with the
SMPTE 259M-C, SMPTE 292M, SMPTE 424 and 425M standard. The option provides a re-clocked loop through output for “daisy chaining” multiple monitors or other equipment to the same HD-SDI source.
HD-SD/SDI Specification:
Interface
Standards
SMPTE 292M, 259M-C, 424M,
425M (Level A)
Input Channels: One (1)
Loop Through: Yes
Other Features:
Supports 1.5Gbits & 3Gbits bit rate input signal support.
Single channels input port supported
HD--‐SDI re--‐clock loop through output
AFD
Stereo embedded audio support
Supported Video Modes
576i50 (PAL)
480i60 (NTSC)
720p60 (4:2:2)
720p59.94 (4:2:2)
720p50 (4:2:2)
720p30 (4:2:2)
720p29.97 (4:2:2)
720p25 (4:2:2)
1035i60 (4:2:2)
1035i59.94 (4:2:2)
1080p30 (4:2:2)
1080p29.97 (4:2:2)
1080p25 (4:2:2)
1080p24 (4:2:2)
1080p23.98 (4:2:2)
1080psf30 (4:2:2)
1080psf25 (4:2:2)
1080psf24 (4:2:2)
1080psf23.98 (4:2:2)
1080i60 (4:2:2)
1080i59.94 (4:2:2)
1080i50 (4:2:2)
1080p60 (4:2:2)
1080p50 (4:2:2)
Table 4 –HD-SD/SDI Input Option
Page 8
Chassis Plans CPX1-241 Technical Reference Chapter 1 - Introduction
Figure 1 – CPX1-241 Customer Drawing
Page 9
Chassis Plans CPX1-241 Technical Reference Chapter 1 - Introduction
Figure 2 – CPX1-241 Mounting Adapter Customer Drawing
Page 10
Chassis Plans CPX1-241 Technical Reference Chapter 1 - Introduction
LCD Enhancements
In the CPX family of rugged military grade LCD displays, Chassis Plans starts with Grade A Industrial Quality
LCD panels selected for optical performance, high reliability and long product life cycle. Standard, in order to not only ruggedize the LCD, but to also enhance the mechanical, optical and EMI properties of the finished unit
Chassis Plans optically bonds a layer of glass to the front of the LCD panel which is coated with an oleophobic
Anti-Reflective (AR) coating. The adhesive is optically clear and refractive index matched to eliminate interface reflections.
An additional option provides for a fine stainless steel mesh to be embedded in the adhesive for the AR glass to provide superior EMI shielding. See Figure 2 for attenuation values. The Micro Mesh provides >50dB of shielding (30 MHz – 1 GHz) with 90% visible light transmission and zero Moiré fringing.
Figure 3 – EMI Shielding Effectiveness of MicroMesh EMI Filter
Without Optical Bonding
Or AR Coating
4.5%
4.5%
4.5%
4.5%
4.5%
Reflected
Light
Total
22.5%
0.3%
0.1%
0.1%
0.1%
0.1%
With Optical Bonding
And AR Coating
Reflected
Light
Total
0.7%
Figure 4 – Comparison of Reflections with and without Optical Bonding
The resulting structure has greatly enhanced optical characteristics in high ambient light conditions. The optical adhesive used is a silicone RTV and offers other benefits mechanically to the LCD as well. The adhesive remains pliable and therefore acts as a shock absorbing medium for the front of the LCD. Together with the additional layer of glass provides a very rugged composite structure. Another benefit is that should breakage actually occur the shards of glass will be retained together to prevent injury to personnel. The adhesive also prevents any condensation from building up in the air gap between the layers of glass which would cause
Page 11
Chassis Plans CPX1-241 Technical Reference fogging of the display. Finally, the added mass bonded to the front of the LCD display adds a thermal conduction path to help dissipate the heat generated in the backlights themselves.
By eliminating the majority of reflected light, the apparent contrast improves making the display more legible in high bright situations.
Chapter 1 - Introduction
Photo Courtesy of
GDS Clearview
Figure 5 – Comparison with and without Optical Bonding
Durable Anti-Reflection Oleophobic Coating (DARO)
Key Features
fingerprints
Easy to clean with a soft cloth
More than 450,000-rub resistant
Chemically-inert coating resists stains
Smooth surface minimizes abrasion and friction
Water contact angle >110°
Withstands more than 90 days of salt-fog exposure
Less than 0.4 percent photopic brightness
Soft blue hue in reflection
8H pencil hardness
Most touch screen use smooth glass without an anti-reflection (AR) coating because it offers the most durable and easy-to-clean option. However, fingerprints are difficult to remove, and many indoor and outdoor lighting conditions generate glare off a smooth glass surface.
Offering an AR coating on the CPX1-241 display greatly improves the user experience. The oleophobic coating stands up to hundreds of thousands of finger touches and rubs.
DARO coating is a breakthrough for touch applications. The coating nanostructure forms multiple, covalent bonds to provide outstanding durability.
Page 12
Chassis Plans CPX1-241 Technical Reference Chapter 1 - Introduction
DARO coatings offer superior optical performance by using multilayer anti-reflective coatings. The photopic brightness of the DARO coating is less than 0.5%, compared to the industry-standard bare glass at 4.25%.
DARO coatings offer significant anti-reflection and clear viewing, especially in high-brightness environments.
Figure 6 – Comparison with and without Optical Bonding
Specifications
Dry cheesecloth rub test with 1.5 lbs. weight 450,000 rubs
Steel wool #0000 with 1.5 lbs. weight
UV exposure, noon Florida sun, 24/7
Salt fog, 5% NaCI at 35da
Copper accelerated acid spray test
Photopic reflection
10,000 rubs
500 hours
90 days
30 days
<0.4%
Page 13
Chassis Plans CPX1-241 Technical Reference Chapter 2 – IR Touch Screen Option
Chapter 2 – Infrared Touch Screen Option
Description
The IRTouch Systems Infrared Touch Screen is a thin bezel mounted between the rear of the front panel and the LCD display. It is mechanically mounted and sealed to maintain the IP65 rating of the front of the display.
The touch screen provides 4096 x 4096 touch point resolution and any object greater than 8mm diameter including gloves can be used for touch activation. Touch activation occurs by breaking the beams of infrared light crossing the display.
Figure 7 – Infrared Touch Screen Example
The touch screen supports multi touch gesturing allowing dynamic zooming, rotating and dragging when used with a compatible operating system such as Windows 7. Drivers are available for other operating systems supporting traditional single touch.
Figure 8 – Examples of Dual Touch Gesturing
There are several advantages to IR Touch versus other touch technologies including the ability to use a gloved finger or other pointing device in conjunction with an Anti-Reflective filter for superior image clarity and brightness. IR Touch also generates no inherent EMI as compared to resistive or capacitive touch.
Page 14
Chassis Plans CPX1-241 Technical Reference Chapter 3 – Power Supply Options
Chapter 3 – Power Supply Options
AC Input Power Supply
The AC Input Power Supply is a 150 W Medical Grade “Brick” style power supply. The output is provided with a circular mil connector for connecting to the LCD Display. The input accepts a standard IEC 320 plug. A bracket is provided to securely mount the supply in a rack.
Alternate AC supplies are available as required by the application or environmental requirements.
INPUT
Current
Frequency
Input Connector
1.4 A @ 110 VAC
47 – 63 Hz
3-Pin IEC 320 Receptacle
OUTPUT
Voltage 12VDC
Max Current
Total Regulation
12.5A
< +/- 5%
ENVIRONMENTAL
Operating Temperature
Storage Temperature
SAFETY
cTUVus
UL 60950-1
CAN/CSA-C22.2 No. 60950-1
CB per IEC 60950-1
CE marked to LVD & EMC Directive
Set Point Accuracy
Hold-up Time
< +/- 3% @ 60% Load
>12mS @ Full Load,
115VAC
Over Voltage Protection Built-in
EMI/EMC
Emissions
Immunity Over Current Protection Built-in
Short Circuit Protection Pulsing mode, auto
recovery
0 to 50°C
-40 to +85°C
CISPR22 and FCC Class B
EN6100-3-2, -3; EN61000-4-2, -3, -4,
-5, -6, -8, -11
SIZE
L X W X H 7.56” x 2.45”” x 1.52”
Table 5 - AC Input Supply Specifications
Photo 7 - AC Power Supply (150W)
Page 15
Chassis Plans CPX1-241 Technical Reference Chapter 3 – Power Supply Options
MIL-STD-704/1275 DC Input Converter
The Mil-Std-704/1275 DC Input Converter provides true 704/1275 input specifications allowing reliable operation from nominal 28VDC input mains in a military environment. A Mil grade DC to DC Converter is provided in a rack mountable case with military grade circular connectors.
Operating Specifications
Input Voltage
Output Voltage
Output Current
Output Power
Electrical Specifications
18-36VDC
12.0VDC
8A
100 W
Environmental Specifications
High Temperature
Method 500.4, Procedure I and II
Per MIL-STD-810F,
Method 501.4, Procedure I and II
Per MIL-STD-810F,
Method 502.4, Procedure I Isolation
Output and Input to Case
EMI Filtering
CD101 and CE102 on the input
Operating Temperature
Storage Temperature
200VDC, Input to
Mil-Std-461E,
-40°C to +85°C
-55°C to +100°C
Fungus
Salt Fog
Connectors
Input Connector TBD
Sand and Dust
Acceleration
Mating Input Connector TBD
Vibration
Pinouts TBD
Shock
Table 6 - MIL-STD-704/1275A Power Supply Specifications
Method 507.4, Procedure I
Per Mil-Std-810F, Method
508.5, Procedure I
Per Mil-Std-810F, Method
509.4, Procedure I
Per Mil-Std-810F, Method
510.4, Procedure I and II
Per MIL-STD-810F,
Method 513.5, Procedure I and II
Per MIL-STD-810F,
Method 514.5, Procedure
I, Category 1, 4, 7 thru 14 and 16 thru 21
Per MIL-STD-810F,
Method 516.5, Procedure
I, IV
Page 16
Chassis Plans CPX1-241 Technical Reference Chapter 4 – Ordering Information
Chapter 4 – Ordering Information
CPX1 = Panel Mount Extreme
Monitor Options:
241A = 24” LCD with Bonded Glass with Oleophobic Anti Reflective Coating
241C = 24” LCD with IR Touch Screen, Bonded Glass with Oleophobic Anti Reflective Coating
241D = 24” LCD with IR Touch, Bonded Glass with Oleophobic Anti Reflective Coating and EMI filter mesh
241E = 24” LCD with Bonded Glass with Oleophobic Anti Reflective Coating and EMI filter mesh
Video Controller Options:
D1 = Minimum configuration with VGA, DVI-D and HDMI inputs
D2 = 3G HD-SDI with VGA, DVI-D and HDMI inputs
D3 = Component Video Input with VGA, DVI-D and HDMI inputs
D4 = Composite Video Input with VGA, DVI-D and HDMI inputs
D5 = 3G HD-SDI, Component Video and Composite Video Inputs with VGA, DVI-D and HDMI inputs
Power Options
A = Universal AC 85-264VAC 47 – 63 Hz
B = 12VDC
C = MIL-STD-704 (28VDC Nominal)
Mounting Options
A = 19” Mount-On-Rack
B = Articulated Arm Mount
Example Part Number CPX1-241AD2-AA = CPX1-241 Anti-Reflective coated Bonded Glass, 3G-SDI optional input, AC Power.
Page 17
Chassis Plans CPX1-241 Technical Reference
This Page Intentionally Blank
Chapter 4 – Ordering Information
Page 18
Chassis Plans CPX1-241 Technical Reference Chapter 5 – Package Contents
Chapter 5 - Package Contents
Part Description Quanty
LCD Display Assembly
Rack Mounting Adapter Bracket
Power Supply
Power Supply Rack Bracket
10-32 x 1” Pan Head Screws
Plastic Rack Washers
10-32 Cage Nuts
10-32 Nuts
1
1
1
1
12
12
12
12
Power Cord Kit – (Note 1) 1
Manual 1
Rack Ruler 1
Table 7 - Package Contents
Notes :
1. Power Cord Kit – For the AC input supplies, a standard 6-foot North American IEC-320 power cord is provided. For the DC input supplies, a kit is provided with a mating Mil Circular connector, backshell, and pins allowing the user to fabricate an appropriate cable for the intended application. For volume orders, Chassis Plans can provide pre-fabricated power cables per the end use specifications.
Page 19
Chassis Plans CPX1-241 Technical Reference
This Page Intentionally Blank
Chapter 5 – Package Contents
Page 20
Chassis Plans CPX1-241 Technical Reference Chapter 6 - Installation
Chapter 6 - Installation
Rack Installation
To mount the CPX1-241 in a rack, it is first important you identify the correct holes to mount to. Please see the following illustration. Note that a ‘U’ starts between the holes that are ½” apart. One very common problem is trying to install into the wrong holes.
Because there are multiple styles of racks, it is not possible to provide detailed instructions on mounting the equipment.
Figure 9 - Rack Mounting Hole Spacing
Chassis Plans offers free Rack Rulers to assist in installing equipment into racks. You should have received one with your order. To request more, fill out the short form at http://www.chassis-plans.com/form_rack_ruler.html
and we’ll send you as many as you want. These are invaluable for installing systems into racks.
Installing the CPX1-241
The LCD display is mounted in front of the rack due to its width. A Mounting Adapter Bracket is provided which is first installed into the rack and the LCD then mounted to the adapter bracket. The LCD display attached to the
Mounting Adapter Bracket in the rear by the four screws in the middle plus one at each corner for installations with higher shock and vibration loads.
Four Mounting Adapter Brackets are offered to account for racks with different depths from the front surface to the rack rails. See the following Figure for attaching the Mounting Adapter Bracket to the rack.
Chassis Plans can provide custom mounting options as required by the application if the standard brackets are not sufficient.
Page 21
Chassis Plans CPX1-241 Technical Reference Chapter 6 - Installation
Figure 10 – Installing the Mounting Adapter Bracket
Install the Mounting Adapter Bracket to the rack using the appropriate screws for the rack.
Note
The Mounting Adapter Bracket is not symmetrical. The four holes in the middle
(VESA pattern) should be below center.
The monitor provides guide pins on both sides which slide into slots in the Mounting Adapter Bracket to help support the weight of the display and pre-align the screw holes.
Important Warning
The guide pins and slots are not designed to support the display without a person holding the monitor. Please have a person hold the display in place at the front while another person installs the screws in the rear.
Dropping the LCD is not covered under warranty!
Page 22
Chassis Plans CPX1-241 Technical Reference Chapter 6 - Installation
Connecting the Display
The CPX1-241 provides for a single controller option with rear panel details provided below.
Controller Rear Panel Connections
The LCD controller used in the CPX1-241 provides a robust feature set. The board features full screen image expansion, on screen PIP, image marker and supports an optional 3G HD-SDI adaptor for professional and broadcast video applications. The controller supports 3x10-bit 1.06 billion colors at up to 1920x1200 native panel resolution. Refresh rates of 60Hz for WUXGA and UXGA with higher refresh rates for lower resolutions available. Auto detects VGA-
WUXGA, interlaced and non-interlaced. HDMI and DVI inputs support up to1920x1200 60Hz signals. This ruggedized military grade controller is rated for operating at -40 to +80 deg C, uses low mass tantalum capacitors for maximum vibration and shock tolerance and is conformal coated for extreme ruggedness. MTBF for the controllers is in excess of 200K hours.
The controller will provide input up/down scaling of virtually any input signal to scale the image to the 1920x1200 native LCD panel resolution. It provides for PC, Apple and Sun input resolutions.
DVI/HDMI/VGA Input Features:
Harsh Environment LCD Controller
Inputs:
Analog RGB: 75Hz at SXGA, WXGA, XGA, SVGA, VGA
With auto detect of Digital Separate Sync, Sync-On-Green & Composite Sync.
Auto detects VGA ~WUXGA interlaced & noninterlaced.
DVI-D/HDMI: 60Hz at WUXGA
75Hz at SXGA, WXGA, XGA, SVGA, VGA
Video: NTSC /PAL / SECAM (Interlaced)
Composite Video, S-Video
SD Component (YCbCr) (Optional)
HD Component (YPbPr) (Optional)
Dual Channel HD-SDI (Optional)
Image Scaling: Up / down scaling to fit input to panel resolution.
Image Control: Brightness, Contrast, Saturation, Hue, Frequency, Phase, Color temperature, Image position, Hue, Gamma.
Other Features: System information, OSD position, Scaling to fill screen and fill to aspect ratio, OSD timeout,
Factory reset, OSD menu transparency, Picture In Picture – Variable position with 18 sizes selection and Picture By Picture, Programmable hot keys
Page 23
Chassis Plans CPX1-241 Technical Reference Chapter 6 - Installation
Photo 8 –CPX1-241 Bottom View and I/O
Table 7, following, details the connectors for the CPX1-241.
J# Function Connector
J2 Composite Video Input
D38999/20FB35PN
75 Ω BNC Jack
J3 Component Video Input (Pr, Cr) 75 Ω BNC Jack
J4 Component Video Input (Pb, Cb) 75 Ω BNC Jack
J5 Component Video Input (Y) 75 Ω BNC Jack
J6
J7
J8
J10 Audio Input
J11
RS-232 Command Port
3G HD-SDI Output
3G HD-SDI Input
Ethernet Command Port
DE-9 D-Subminiature
75 Ω BNC Jack
75 Ω BNC Jack
3.5 mm Mini Stereo Jack
RJ-45 Jack
J14 DVI-D Input
HDMI
DVI-D
USBFTV22G
Table 8 - Rear Panel Connections
Notes
Optional
Optional
Optional
Optional
Optional
Optional
No Analog
Optional
Page 24
Chassis Plans CPX1-241 Technical Reference Chapter 7 – LCD Operation
Chapter 7 – LCD Operation
LCD Front Panel Controls
The On Screen Display (OSD) is adjusted as follows:
2. Use the buttons described below to maneuver around the Menu.
3. Select the desired OSD Menu from the Menu Screen Shots below to make the desired adjustment(s). automatically close as set by the OSD Time Out setting.
Power: Turns the Unit On and Off
Adjust ▲: o Hot Key 1 Increase o When the cursor is not showing in sub menus, moves selection right between top tabs. o Cursor showing in sub menus, adjusts setting up. o Cursor on sub-sub menu ( ► showing), enters sub-sub menu.
(See Select ▲ below to escape). o Toggles Off to On
Adjust ▼: o Hot Key 1 Decrease o When the cursor is not showing in sub menus, moves selection left between top tabs. o Cursor showing in sub menus, adjust setting down o Toggles On to Off
Select ▲: o Hot Key 2 Increase o Moves the cursor up. o When in a sub-sub menu, repeatedly press to move to the previous menu level. (See Adjust ▲ above)
Select ▼: o Hot Key 2 Decrease. o Moves the cursor Down.
Menu o Opens or closes the OSD menu o See Note 1 below for additional information.
Brightness ▲: o Increases the screen brightness.
Brightness ▼: o Decreases the screen brightness.
Green Normal Operation
Red Power On but no input signal
Off No power or display turned off
Hot Keys
Hot Keys are defined in the Utility/Hot Key menu and allow single button access to the defined function.
Adjust ▲ and ▼ - Hot Key 1 Up and Down
Select ▲ and ▼ - Hot Key 2 Up and Down
Display Auto Adjust
Pressing Auto/Exit will perform a auto display adjustment when in aRGB mode. This automatically adjusts the Phase and Clock for the displayed image.
To save your changes, press the front panel Menu button.
Alternatively, changes are saved if no buttons are pressed and the OSD times out returning back to the display.
Notes On the Menu Buttons –
1. The Menus are context sensitive in that only adjustments pertaining to the selected input will be displayed. For example, if DVI is selected for the input, then items such as Hue will not be adjustable.
2. Pressing the Menu button returns to the previously opened menu.
Notes on Hot Keys -
1. Hot Keys allow single button selection of a function.
2. Definition of the Hot Keys is set in the Utility menu.
Thus, for example, if the Adjust keys are set up for Input
Source, pushing the Up button rolls Up through the Input
Sources and pushing the Down button rolls Down through the Input Sources.
3. The Hot Keys display in the upper left of the screen when pushed.
Note on Factory Default –
1. Under the Utilities Menu, a selection is available to return the board setting to the factory defaults.
2. Press and hold Select ▼ then power on the controller.
Table 9 - Front Panel Controls
Page 25
Chassis Plans CPX1-241 Technical Reference Chapter 7 – LCD Operation
LCD Controller OSD Menus
OSD functions
Picture :
Volume
###
Brightness
Contrast
Increase/decrease volume level, total: 100 steps
Increase/decrease panel brightness level, total: 100 steps
Increase/decrease panel contrast level, total: 100 steps
Saturation
Hue **
Sharpness*
Increase/decrease saturation, total: 100 steps
Increase/decrease Hue level, total: 100 steps
Increase/decrease sharpness, total: 30 steps
Backlight Backlight brightness adjustment (Functions when
light detector sets OFF)
Position
##
Move the image position upward
Move the image position downward
Move the image position to the left
Move the image position to the right
Aspect / Size
- Fill Screen : Enable full screen expansion for lower resolution Image
- Fill to Aspect Ratio: Enable fill screen expansion for lower resolution
image according to aspect ratio
- 4 : 3 : scaling format in 4:3
- 16 : 9 : scaling format in 16:9
- 16 : 10 : scaling format in 16:10
- 2.35 : 1 : scaling format in 2.35:1
- 2 : 1 : scaling format in 2:1
- 1 : 1 : Display the exact image resolution on the screen without
image expansion.
- Custom Sizing* : (The name will change depends on the scaling mode
selected.)
- Overscan
- Normal
H Size
V Size
H Pan
V Pan
Blue Only ON / OFF : Turn off the "Red" & "Green" channel (i.e. output all
zero to Red & Green channel)
[This function will display on OSD menu when JP4 – 5-6 closed]
* : DISPLAY IN VIDEO MODE ONLY
** : FUNCTION IN ARGB/ DVI / VIDEO NTSC MODE ONLY
# : DISPLAY IN ARGB / DVI MODE ONLY
## : FUNCTION IN ARGB MODE ONLY
### : DISPLAY WHEN AUDIO ADD-ON BOARD CONNECTED
Source : Select the input video signal
Main Port Change
VGA
DVI
HDMI
+
HD/SD SDI 1
HD/SD SDI 2
++
++
Composite 1
Composite 2***
S-Video 1
Page 26
Chassis Plans CPX1-241 Technical Reference Chapter 7 – LCD Operation
S-Video 2***
Component 1
Component 2***
PIP Port change
PIP Off / Composite 1 / S-Video 1 / Component 1 / DVI / HDMI
2
++
)
+
/ HD/SD SDI 1
++
/ HD/SD SDI
PIP Size
: Off / PIP Size/ 1~18 / Size by Size / Size by Size Tall
The PIP capability on display input sources refer to Appendix E – PIP mix table
PIP Position :
Move the PIP position upward
Move the PIP position downward
Move the PIP position to the left
Move the PIP position to the right
PIP Blend Level : 6.25% ~ 100%
PIP Swap : Swap between the main window and PIP window
PIP Auto Turn off : : OFF / ON
ON : When PIP is no signal input after 30 seconds, the PIP
window will turn off automatically.
OFF : PIP window keeps on
*** DISPLAY WHEN SETTING ON UNDER SETUP AUTO SOURCE SEEK
+ FUNCTION DISABLE WHEN KIT 70600-3 CONNECTED
++ DISPLAY WHEN KIT 70600-3 CONNECTED
Utilities :
Setup
Auto Picture Setup
#
: Auto adjust the image position, phase and size
Auto Color Gain
#
: Auto Color Calibration (See appendix IV)
Wide Screen Mode detection
# : Recognize the wide screen mode coming from ARGB port
- Off
- 1280x768
- 1360x768
- 1366x768
Manual Clock
#
: Adjust the image horizontal size
Manual Phase
#
: Fine tune the data sampling position (adjust image
quality)
Auto Source Seek :
- Auto : : OFF / ON
ON – Auto source select always enable
OFF – Disable auto source select function
- Setup
Selection for the corresponding input sources detection
VGA
DVI
HDMI
+
HD/SD SDI 1
++
HD/SD SDI 2
++
Composite 1
Composite 2
S-Video 1
S-Video 2
Component 1
Component 2
The corresponding input port name display on OSD menu will disappear once
Page 27
Chassis Plans CPX1-241 Technical Reference Chapter 7 – LCD Operation
setting “OFF”.
Auto Power : OFF / ON
ON – Enable soft power off function if absence of input signals
OFF – Disable soft power function
De-interlacing Mode*
AFM : Auto Film Mode
TNR
MADI
: Temporal Noise Reduction
: Motion Adaptive De-interlacing
DCDi : Low Angled De-interlacing
[See Appendix VI for AFM, TNR, MADI, DCDi function description]
Video Wall Setup
Video Wall
Video Wall Size : Choose the video wall size (Number of panel for horizontal [max
4] x Number of panel for vertical [max 4]).
Video Wall ID Setup : Set the matching ID number same as the ID number shown
on screen. For details, please refer to the application note
of the video wall setup.
Bezel Compensation
Bezel Compensation
Active Area (H) (mm) : Type in the active area in horizontal with reference to the
panel specification
Active Area (V) (mm) : Type in the active area in vertical with reference to the panel
specification
Bezel Opening Area (H) (mm) : Type in the bezel opening area in horizontal with
reference to the panel specification.
Bezel Opening Area (V) (mm) : Type in the bezel opening area in vertical with
reference to the panel specification.
Enable RGB SOG: OFF / ON
Video Standard (SD)* : Auto / NTSC / NTSC 4.43 / PAL / PAL M / SECAM
Gamma : 0.6 / 0.7/ 0.8 / 1.0 / 1.6 / 1.8 / 1.9 / 2.0 / 2.1 / 2.2 / 2.3 / 2.4 / 2.5 / 2.6 / User Setting
OSD
OSD position :
H POS : Move the OSD menu image horizontally
V POS : Move the OSD menu image vertically
OSD Timeout (sec) : ON – 60 : Adjust the OSD menu timeout period in a step of 5
seconds (max 60 seconds)
ON = Continuous to display OSD menu.
60 = 60 seconds later will turn off the OSD menu.
Screen Marker
Screen Marker : On/Off
Center Marker : On/Off
Safe Area Enable : On/ Off
Aspect Marker Enable : On/Off
Safe Area Market : 80%~99%
Aspect Marker : 4:3 / 16:9
Transparency Level : 0% / 25% / 50% / 75% / 100%
Exit menu
Language : English / Spanish / French / German / Chinese :Select OSD menu language display
Transparency : OFF / ON : Set OSD transparency
Display Input : OFF / ON : Display input source info after switching source.
Real time clock
show and edit the real time clock (This function is valid when “Display Input”
sets ON.)
DATE : DD/MM/YYYY : Date/Month/Year
TIME : HH/MM/SS (AM/PM): Hour/Minute/Second
SETUP
Month / Day / Year
Hour / Minute / AM/PM
Display Clock : Disable or enable to display the real time clock when
display video source info after switching source.
Freeze : Freeze the image (use “+” button)
Zoom
Zoom level : : Enable the zoom in function on the image displayed.
Use “+” button to zoom in the image
Page 28
Chassis Plans CPX1-241 Technical Reference Chapter 7 – LCD Operation
Use “-“ button to decrease the zoomed image
Horizontal pan : : Pan the image horizontally
Vertical pan :
Factory Reset
: Pan the image vertically
Note : Freeze state will be cleared when you using zoom function.
Color Temperature
5000K
Red Gain :
Green Gain :
Blue Gain :
Red Offset :
Green Offset :
Blue Offset :
Reset to Defaults : Resume to the default values
6500K
Red Gain :
Green Gain :
Blue Gain :
Red Offset :
Green Offset :
Blue Offset :
Reset to Defaults : Resume to the default values
8000K
Red Gain :
Green Gain :
Blue Gain :
Red Offset :
Green Offset :
Blue Offset :
Reset to Defaults : Resume to the default values
9300K
Red Gain :
Green Gain :
Blue Gain :
Red Offset :
Green Offset :
Blue Offset :
Reset to Defaults : Resume to the default values
User setting :
Red Gain :
Green Gain :
Blue Gain :
Red Offset :
Green Offset :
Blue Offset :
Reset to Defaults : Resume to the default values
Reset All to Defaults : Resume all color temperature settings to the default values.
Hot Key
Hot key 1 : Volume / Brightness / Contrast / Inputs / Aspect Ratio/ Zoom / Freeze / PIP Size /
PIP Swap / Saturation / Hue / Backlight / Auto Picture Setup / No Function
Hot key 2 : Volume / Brightness / Contrast / Inputs / Aspect Ratio / Zoom / Freeze / PIP Size /
PIP Swap / Saturation / Hue / Backlight / Auto Picture Setup / No Function
Page 29
Chassis Plans CPX1-241 Technical Reference
Monochrome Mode
- Color
Chapter 7 – LCD Operation
Backlight Setup
- B/L Invert : : Invert for the backlight brightness
- B/L Control : D/A / PWM : Selection for voltage level dimming control / PWM
dimming control
- Backlight Frequency : 100 ~ 440Hz in a step of 20
- Light Detector : : Enable ambient light detector function by using KIT
70220-3
Default Setting
Reset to Factory Defaults
(Activate when JC1 position 4 sets open)
Are you sure ? Yes/No
Reset to Factory Defaults with (Color Temp.)
(Activate when JC1 position 4 sets open)
Are you sure ? Yes/No
Save Current Settings as Calibrated Values (Activate when JC1 position 2 sets closed)
Are you sure ? Yes/No
Recall Stored Calibrated Values
Are you sure ? Yes/No
* : DISPLAY IN VIDEO MODE ONLY
# : DISPLAY IN ARGB MODE ONLY
+ FUNCTION DISABLE WHEN KIT 70600-3 CONNECTED
++ DISPLAY WHEN KIT 70600-3 CONNECTED
Firmware V0.45.00.01 or up
Table 10 - LCD Controller OSD Menus
Page 30
Chassis Plans CPX1-241 Technical Reference Appendix A – Display Serial Control Programming
Appendix A – Display Serial Control Programming
The LCD provides for remote serial RS232 or Ethernet control for the LCD through the rear panel Control Port as shown below.
RS-232 Serial Control
Baud rate 2400, 8 bits, 1 stop bit and no parity
1
6
3 4
7 8 9
5
Mating face of
RS-232 DB9 Male
Mating connector : DB9 Female
PIN# Description
2 RS-232 Rx Data
3 RS-232 Tx Data
5 Ground
Ethernet Control
Please see Appendix F for information regarding Ethernet Control of the panel. The following command set remains the same for Ethernet control as compared to Serial control.
LCD Controller Serial/Ethernet Control Functions
The OSD functions are controlled through the following RS-232 commands.
The RS-232 program can be custom-tailored to fit the application or it can be used as provided by Chassis
Plans on request. Please contact Chassis Plans for additional information.
Menu button
Select-down button
Select-up button
Right/+ button
Left/- button
0xf7
0xfa
0xfb
0xfc
0xfd
Menu button pressed
Select-down button pressed
Select-up button pressed
Right/+ button pressed
Left/- button pressed
Remark
Button equivalent
Button equivalent
Button equivalent
Button equivalent
Button equivalent
Table A-1 - Commands to Implement Switch Mount Control Buttons
Page 31
Chassis Plans CPX1-241 Technical Reference
Function
Volume control -
left+right channel
Volume control -
on/off (mute)
Command
0x80, “a” | “A”,
nn | “+” | “-” |
“r” | “R” |
“?”
0x80, “m” | “M”,
“0” |
“1” |
“r” | “R” |
“?”
Brightness control 0x81,
nn | “+” | “-” |
“r” | “R” |
“?”
“m”
“n”
“i” , ss, nn
“o”, ss,
Appendix A – Display Serial Control Programming
Description
Set audio (L+R) volume =
value/increment/decrement
Reset
Query
Disable audio output.
Enable audio output.
Reset
Query
Set brightness =
value/increment/decrement
Reset
Query Current Source
Maximum query *1
Minimum query *1
Set, Source, value *1
Query, Source *1
Acknowledge (if enabled) volume
Range : “0””0”-“1””E”
Default : “0””F”
“0” - audio off (muted).
“1” - audio on.
Brightness.
Range : “4””E”-“B””2”
Default : “8””0” ss - reference by Input main select(0x98)
Contrast control -
all channels
0x82, “a” | “A”, nn | “+” | “-” |
“r” | “R” |
“?”
“m”
“n”
“i ” , ss, nn
“o”, ss,
Saturation control 0x83,
nn | “+” | “-” |
“r” | “R” |
“?”
“m”
“n”
“i” , ss, nn
“o”, ss,
Hue control
Phase (tuning) control
0x84,
nn | “+” | “-” |
“r” | “R” |
“?”
“m”
“n”
“i” , ss, nn
“o”, ss,
0x85,
nn | “+” | “-” |
“?”
Image H position 0x86,
nnnn | “+” | “-” |
“?”
Image V position 0x87,
nnnn | “+” | “-” |
“?”
Sharpness 0x8a,
nn | “+” | “-” |
“r” | “R” |
“?”
Frequency 0x8b, nnnn | “+” | “-“ |
“?”
Set all contrast = value/increment/decrement
Reset
Query
Maximum query *1
Minimum query *1
Set, Source, value *1
Query, Source *1
Set color =
value/increment/decrement
Reset
Query
Maximum query *1
Minimum query *1
Set, Source, value *1
Query, Source *1
Set tint =
value/increment/decrement
Reset
Query
Maximum query *1
Minimum query *1
Set, Source, value *1
Query, Source *1
Set dot clock phase =
value/increment/decrement
Query
Set img_hpos =
value/increment/decrement
Query
Set img_vpos =
value/increment/decrement
Query
Set sharpness =
value/increment/decrement
Reset
Query
Set frequency =
Value/increment/decrement
Query
Contrast
Range : “1””C”-“E””4”
Default : “8””0” ss - reference by Input main select(0x98)
PAL/NTSC color (In video mode only )
Range : “0””1”-“F””F”
Default : “8””0” ss - reference by Input main select(0x98)
NTSC tint (In NTSC mode only)
Range : “5””3”-“9””F”
Default : “7””9” ss - reference by Input main select(0x98)
Dot clock phase.
(In PC mode only)
Image horizontal position.
(In PC mode only)
Image vertical position.
(In PC mode only)
Sharpness.
(Video Mode Source only)
Range : “F””4”-“0””C”
Default : “0””0”
Graphic mode H active size (in pixels)
Page 32
Chassis Plans CPX1-241 Technical Reference
Scaling Mode
OSD H position
OSD V position
OSD
Transparency
OSD menu timeout
0x8c,
“0” | “1” | “2” | “3” |
“9” | “A” |
“B” | “C” | “D” |
“r” | “R” |
“?”
0x90,
nnn | “+” | “-” |
“r” | “R” |
“?”
0x91,
nnn | “+” | “-” |
“r” | “R” |
“?”
0x92,
n | “+” | “-” |
“r” | “R” |
“?”
0x93,
nn | “+” | “-” |
“r” | “R” |
“?”
Set osd_hpos =
value/increment/decrement
Reset
Query
Set osd_vpos =
value/increment/decrement
Reset
Query
Set OSD transparency =
value/increment/decrement
Reset
Query
Select menu timeout = value/increment/decrement
Reset
Query
Appendix A – Display Serial Control Programming
Set graphic image scaling mode
=
value
Reset
Query
Image expansion on/off.
“0” – 1:1
“1” – fill screen
“2” – fill to aspect ratio
“9” – 4:3
“A” – 16:9
“B” – 16:10
“C” – 2.35:1
“D” – 2:1
OSD horizontal position.
Range : “0””0”-“F””F”
Default : “8””0”
OSD vertical position.
Range : “0””0”-“F””F”
Default : “8””0”
OSD transparency.
“0” – ON
“1” - OFF
OSD menu timeout value.
“0””0” – Continuous. value – Round up to nearest available step. if value > max available step, set it to the max available step.
Range : “0””5”-“3””C”
Default : “0””A”
Select OSD language
0x95,
n |
“r” | “R” |
“?”
Input main select 0x98,
Auto Source Seek
nn | “+” | “-” |
“r” | “R” |
“?”
0x99, nn ,
“0” | “1” |
“?” |
”o”
Select language =
English, Chinese,…
Reset
Query
Select input main =
PC or VIDEO or next available
Reset
Query
Set Auto source enable = *1
Source
Disable/ Enable
Query
Valid Source query
“0” – English.
“2” - French
“3” – Spanish
“6” - German
“8” – Chinese
Main selected.
“0x41,0x31” ARGB
“0x42,0x31” Composite
“0x42,0x32” Composite2
“0x43,0x31” S-video
“0x43,0x32” S-video2
“0x44,0x31” Component
“0x44,0x32” Component2
“0x45,0x31” HDSDI
“0x45,0x32” HDSDI2
“0x46,0x31” DVI
“0x48,0x31” HDMI
“nn” =
“0x41,0x31”- ARGB
“0x42,0x31”- Composite
“0x42,0x32”- Composite 2
“0x43,0x31”- S-video
“0x43,0x32”- S-video 2
“0x44,0x31”- Component
“0x44,0x32”- Component 2
“0x45,0x31”- HDSDI
“0x45,0x32”- HDSDI2
“0x46,0x31”- DVI
“0x48,0x31” HDMI
Page 33
Chassis Plans CPX1-241 Technical Reference
Source Layout
Video System
(Composite, Svideo and
Component Only)
0x9a, n |
“r” | “R” |
“?”
0x9b,
“0” | “1” | “2” | “3” |
“r” | “R” |
“S” | “s”|
“?”
Set video system =
Auto/NTSC/PAL/SECAM
Reset
Video State Query
Query
Appendix A – Display Serial Control Programming
Select source layout =
Single, PIP, PBP, PBPT
Reset,
Query
Query:
“0”- Single
“1”- Picture in Picture (PIP)
“2”- Picture by Picture (PBP)
“3”- Picture by Picture Tall
(PBPT)
Query
“0” – Auto.
“1” – NTSC_M_358
“2” – PAL_N_443
“3” – SECAM
“4” – NTSC_M_443
“5” - PAL_M_358
“7” – PAL_M_443
“9” – PAL_N_358
GAMMA value select
Auto power off
0x9d,
n |
“r” | “R”
“?”
Select GAMMA value =
Value
Reset
Query
Video State Query
“0” – No video.
“1” – NTSC
“2” – PAL
“3” – SECAM
“4” – NTSC 443
“5” – PAL M 358
GAMMA value:
“0” – 1.0, “1” – 1.6
“2” – 2.2, “3” – User Defined
“4” – 1.7, “5” – 1.8,
“6” – 1.9, “7” – 2.0,
“8” – 2.1, “9” – 2.3,
“A” – 2.4, “B” – 2.5,
“C” – 2.6,
“D” – 0.6, “E” – 0.7,
“F” – 0.8, “G” – 0.9,
“H” – 1.1, “I” – 1.2,
“J” – 1.3, “K” – 1.4,
“L” – 1.5
“0” – Off.
“1” – On.
Hotkey 1
0x9f,
“0” | “1” |
“r” | “R” |
“?”
0xa0, “1”,
n |
“r” | “R” |
“?”
Set power down option =
On/Off
Reset
Query
Set Hotkey 1=
Value
Reset
Query
“1” – volume.
“2” – brightness.
“3” – contrast.
“4” – colour.
“5” – input source.
“7” – zoom
“8” – freeze
“9” – PIP
“B” – No function
“D” – PIP Swap
“E” – Aspect Ratio
“G” – Hue
“H” – Backlight
“I” – Auto Picture Setup
Page 34
Chassis Plans CPX1-241 Technical Reference
Hotkey 2
Runtime counter
PIP brightness control
PIP contrast control
PIP H position
0xa0, “2”,
n |
“r” | “R” |
“?”
0xa1,
nnnnn |
“r” | “R” |
“?”
0xa2,
nn | “+” | “-” |
“r” | “R” |
“?”
0xa3, nn | “+” | “-” |
“r” | “R” |
“?”
0xa4,
nnn | “+” | “-” |
“r” | “R” |
“?”
Set Hotkey 2 =
value
Reset
Query
Appendix A – Display Serial Control Programming
“1” – volume.
“2” – brightness.
“3” – contrast.
“4” – colour.
“5” – input source.
“7” – zoom
“8” – freeze
“9” – PIP
“B” – No function
“D” – PIP Swap
“E” – Aspect Ratio
“G” – Hue
“H” – Backlight
“I” – Auto Picture Setup
Runtime = nnnnn. runtime counter value =
nnnnn (* 0.5 hour)
Reset
Query
Set PIP window brightness =
value/increment/decrement
Reset
Query
Set PIP window contrast = value/increment/decrement
Reset
Query
Set PIP_hpos =
value/increment/decrement
Reset
Query
PIP window brightness.
Range : “4””E”-“B””2”
Default : “8””0”
PIP window contrast.
Range : “1””C”-“E””4”
Default : “8””0”
PIP window horizontal position.
Range : “0””0””0”-“0””6””4”
Default : “0””5””5”
PIP V position
PIP window size select
PIP source select
Zoom level
0xa5,
nnn | “+” | “-” |
“r” | “R” |
“?”
0xa6,
nn |
“r” | “R” |
“?”
0xa7,
n |
“r” | “R” |
“?”
0xa8,
nnnn | “+” | “-” |
“r” | “R” |
“?”
Set PIP_vpos =
value/increment/decrement
Reset
Query
Select PIP window size =
PIP window size value
Reset
Query
Select input main =
Video source value
Reset
Query
Set Zoom level =
value/increment/decrement
Reset
Query
PIP window vertical position.
Range : “0””0””0”-“0””6””4”
Default : “0””1””4”
Main selected.
PIP off if “nn” = “0””0”.
“0””0”~”1””2”
“0””0” ~ “1””2”
“1””9” : Size by Size
“1””A” : Size by Size Tall
Main selected.
0x40 0x30 : PIP OFF
0x41, 0x31 : ARGB
0x42, 0x31 : Composite
0x43, 0x31 : S-video
0x44, 0x31 : Component 1
0x45, 0x31 : HDSDI 1
0x46, 0x31 : DVI
0x42, 0x32 : Composite 2
0x43, 0x32 : S-video 2
0x44, 0x32 : Component 2
0x45, 0x32 : HDSDI 2
“0x48,0x31” HDMI
Zoom level.
Min : 0x30 0x30 0x30 0x30
(Default)
Max : 0x30 0x30 0x41 0x33
Page 35
Chassis Plans CPX1-241 Technical Reference
Zoom H position 0xa9,
nnnn | “+” | “-” |
“r” | “R” |
“?”
Appendix A – Display Serial Control Programming
Set Zoom_hpos =
value/increment/decrement
Reset
Query
Zoom window horizontal position.
Default : 0x30 0x30 0x30 0x30
The min and max values will change depends on input resolution.
Zoom V position 0xaa,
nnnn | “+” | “-” |
“r” | “R” |
“?”
Set Zoom_vpos =
value/increment/decrement
Reset
Query
Horizontal Size
Vertical Size
Horizontal Pan
Vertical Pan
Colour temperature select
0xad,
nnn | “+” | “-” |
“r” | “R” |
“?”
0xb0,
nnn | “+” | “-” |
“r” | “R” |
“?”
0xb1,
nnn | “+” | “-” |
“r” | “R” |
“?”
0xb2,
nnn | “+” | “-” |
“r” | “R” |
“?”
0xb3,
n |
“r” | “R” |
“?”
Set horizontal size for
Aspect Size =
value/increment/decrement
Reset
Query
Set Vertical Size for
Aspect Size = value/increment/decrement
Reset
Query
Set horizontal pan position for Aspect Size = value/increment/decrement
Reset
Query
Set Vertical pan position for Aspect Size =
value/increment/decrement
Reset
Query
Select colour temperature =
value
Reset
Query
Zoom window vertical position.
Default : 0x30 0x30 0x30 0x30
The min and max values will change depends on input resolution.
Scalar horizontal stretch
PAL(576i) / NTSC (480i) :
Min : 0x30 0x30 0x30 (Default)
Max : 0x30 0x46 0x30
Scalar vertical stretch.
PAL(576i) / NTSC (480i) :
Min : 0x30 0x30 0x30 (Default)
Max : 0x30 0x46 0x30
Scalar horizontal pan position
PAL(576i) / NTSC (480i) :
Assume max H-Size & max Vsize :
Min : 0x46 0x38 0x38
Max : 0x30 0x37 0x38
Default : 0x30 0x30 0x30
The min and max values will change depends on different value of H-Size, V-Size and input resolution.
Scalar vertical pan position
PAL(576i) / NTSC (480i) :
Assume max H-Size & max Vsize :
Min : 0x46 0x38 0x38
Max : 0x30 0x37 0x38
Default : 0x30 0x30 0x30
The min and max values will change depends on different value of H-Size, V-Size and input resolution.
Main selected.
“0” – 9500K.
“1” – 8000K.
“2” – 6500K.
“3” – 5000K
“4” - User
Page 36
Chassis Plans CPX1-241 Technical Reference
Red level for selected colour temperature
Green level for selected colour temperature
Blue level for selected colour temperature
Graphic horizontal resolution enquiry
Graphic vertical resolution enquiry
Graphic horizontal sync frequency enquiry
Graphic vertical sync frequency enquiry
OSD status enquiry
Display Video
Source Select
OSD turn off
0xb4,
nn | “+” | “-” |
“r” | “R” |
“?”
“m”
“n”
“i” , ss, c, nn
“o”, ss, c
0xb5,
nn | “+” | “-” |
“r” | “R” |
“?”
“m”
“n”
“i” , ss, c, nn
“o”, ss, c
0xb6,
nn | “+” | “-” |
“r” | “R” |
“?”
“m”
“n”
“i” , ss, c, nn
“o”, ss, c
0xb7
0xb8
0xb9
0xba
0xbb
0xbc,
“?” |
“0” |
“1”
0xbd
Query displayed.
Appendix A – Display Serial Control Programming
Set the level of the red channel for the selected colour temp. =
value/increment/decrement
Reset
Query
Maximum query *1
Minimum query *1
Set, Source, Temperature
Group, value *1
Query, Source *1
Set the level of the green channel for the selected colour temp. =
value/increment/decrement
Reset
Query
Maximum query *1
Minimum query *1
Set, Source, Temperature
Group, value *1
Query, Source *1
Set the level of the blue channel for the selected colour temp. =
value/increment/decrement
Reset
Query
Maximum query *1
Minimum query *1
Set, Source, Temperature
Group, value *1
Query, Source *1
Horizontal resolution (in pixels) in 3 digit hex number
Vertical resolution (in lines) in 3 digit hex number
Horizontal sync frequency (in units of 100Hz) in 3 digit hex number
Vertical sync frequency (in units of Hz) in 3 digit hex number and
1 char
Status of OSD
Display Video source select
Name of video source not
After switching to a new video source, the name of the video source is displayed for 5 seconds.
Turn off the OSD.
Red level for selected colour temperature.
Range : “9””C”-“F””F”
Default : “E””C” c – reference by Color
Temperature ss - reference by Input main select(0x98)
Green level for selected colour temperature
Range : “9””C”-“F””F”
Default : “E””C” c – reference by Color
Temperature ss - reference by Input main select(0x98).
Blue level for selected colour temperature.
Range : “9””C”-“F””F”
Default : “E””C” c – reference by Color
Temperature ss - reference by Input main select(0x98).
“nnn” = horizontal resolution
“nnn” = vertical resolution
“nnn” = horizontal frequency
“nnnn” = vertical frequency nnn = 3 digit hex c= “i” or “p” interlace or Progressive
0xba added the interlace(i) or Progressive(p) feedback.
“0” – OSD turned off
“1” – OSD turned on
“2” – Text Overlay on
“3” – Display Mark on
“4” – Screen Marker on
“0” – Disabled.
“1” – Enabled.
“0” – fail.
“1” – successful.
Page 37
Chassis Plans CPX1-241 Technical Reference
Set gamma data for user defined gamma curve
Query External
Memory
0xbf, mm, c, “?”
0xbf, “R” | “r”
0xbf, mm, c, nn
0xcb, “2”
Appendix A – Display Serial Control Programming
Query gamma data for color c index mm ( c = 0 for color Red, c=1 for color Green, c=2 for color Blue)
Set user gamma curve to linear
Set gamma data for color c index mm. (If c= 3, then gamma data for red, green & blue will be
“nn” = gamma data
“1”
“nn” = gamma data set at the same time.)
Check External Menory 24c256 “0” – Not Installed
“1” – Installed
“?” – Not Support
Read Revision Number “nn” = Revision number Query Revision
Number
0xcb, “3”
Backlight control 0xe0,
nn | “+” | “-” |
“R” | “r” |
“?”
Set Backlight =
value/increment/decrement
Reset
Query
Backlight Off / Backlight On
/Status
Backlight.
Range:
D/A : “0””0” ~ “1””6”
100Hz : “0””0” ~ “8””A”
120Hz : “0””0” ~ “7””3”
140Hz : “0””0” ~ “6””3”
160Hz : “0””0” ~ “5””6”
180Hz : “0””0” ~ “4””D”
200Hz : “0””0” ~ “4””5”
220Hz : “0””0” ~ “3””E”
240Hz : “0””0” ~ “3””9”
260Hz : “0””0” ~ “3””5”
280Hz : “0””0” ~ “3””1”
300Hz : “0””0” ~ “2””E”
320Hz : “0””0” ~ “2””B”
340Hz : “0””0” ~ “2””8”
360Hz : “0””0” ~ “2””6”
380Hz : “0””0” ~ “2””4”
400Hz : “0””0” ~ “2””2”
420Hz : “0””0” ~ “2””0”
440Hz : “0””0” ~ “1””F”
“0” – Backlight Off
“1” – Backlight On.
“?” – Backlight On/Off Query
“S”|”s” – Backlight Status Query
Backlight On/Off 0xe1,
“0” | “1” |
“R” | “r”
”?”
“S” | “s”
Color
Monochrome mode selection
(Output Channel
Select)
PIP Swap
0xe2
“0” | “1” | “2” | “3” |
| “4” | “5” | “6” |
“R” | “r”|
”?”
0xe3
Backlight D/A /
PWM
0xe5
“0” | “1” |
“R” | “r”
”?”
Off/
Blue Only/
Red Only/
Green Only/
Blue Mono/
Red Mono/
Green Mono/
Swap Main and PIP source
Set : PWM or D/A
Reset
Query
“0” – Off
“1” – Blue Only
“2” – Red Only
“3” – Green Only
“4” – Blue Mono
“5” – Red Mono
“6” – Green Mono
"0" - Fail.
"1" - Successful.
“0” – PWM
“1” – D/A
Page 38
Chassis Plans CPX1-241 Technical Reference
Backlight PWM
Frequency
Backlight Invert
0xe6,
nnn | “+” | “-” |
“R” | “r” |
“?”
Appendix A – Display Serial Control Programming
Set Backlight PWM Frequency =
value/increment/decrement
Reset
Query
+/- 20Hz
Value
100Hz : “0”,”6”,”4”
120Hz : “0”,”7”,”8”
140Hz : “0”,”8”,”C”
160Hz : “0”,”A”,”0”
180Hz : “0”,”B”,”4”’
200Hz : “0”,”C”,”8”
220Hz : “0”,”D”,”C”
240Hz : “0”,”F”,”0”
260Hz : “1”,”0”,”4”
280Hz : “1”,”1”,”8”
300Hz : “1”,”2”,”C”
320Hz : “1”,”4”,”0”
340Hz : “1”,”5”,”4”
360Hz : “1”,”6”,”8”
380Hz : “1”,”7”,”C”
400Hz : “1”,”9”,”0”
420Hz : “1”,”A”,”4”
440Hz : “1”,”B”,”8”
“0” – Off
“1” – On
Red Offset for selected colour temperature
Green Offset for selected colour temperature
Blue Offset for selected colour temperature
“o”, ss, c
0xea,
nn | “+” | “-” |
“r” | “R” |
“?”
“m”
“n”
“i” , ss, c, nn
“o”, ss, c
0xe7
“0” | “1” |
“R” | “r”
”?”
0xe8,
nn | “+” | “-” |
“r” | “R” |
“?”
“m”
“n”
“i” , ss, c, nn
“o”, ss, c
0xe9,
nn | “+” | “-” |
“r” | “R” |
“?”
“m”
“n”
“i” , ss, c, nn
Set On or Off
Reset
Query
Set the Offset of the red channel for the selected colour temp. =
value/increment/decrement
Reset
Query
Maximum query *1
Minimum query *1
Set, Source, Temperature
Group, value *1
Query, Source *1
Set the Offset of the green channel for the selected colour temp. =
value/increment/decrement
Reset
Query
Maximum query *1
Minimum query *1
Set, Source, Temperature
Group, value *1
Query, Source *1
Set the Offset of the blue channel for the selected colour temp. =
value/increment/decrement
Reset
Query
Maximum query *1
Minimum query *1
Set, Source, Temperature
Group, value *1
Query, Source *1
Red Offset for selected colour temperature. c – reference by Color
Temperature ss - reference by Input main select(0x98)
Green Offset for selected colour temperature. c – reference by Color
Temperature ss - reference by Input main select(0x98)
Blue Offset for selected colour temperature. c – reference by Color
Temperature ss - reference by Input main select(0x98)
Page 39
Chassis Plans CPX1-241 Technical Reference
PIP Window Blend
Level
PIP Window Auto
Off
0xed,
nn | “+” | “-” |
“R” | “r” |
“?”
Appendix A – Display Serial Control Programming
Select PIP Transparency Level
PIP Transparency value
Reset
Query
PIP Transparency
“0”F” = 6.25% “0”E” = 12.5%
“0”D” = 18.75% “0”C” = 25%
“0”B” = 31.25% “0”A” = 37.5%
“0”9” = 43.75% “0”8” = 50%
“0”7” = 56.25% “0”6” = 62.5%
“0”5” = 68.75% “0”4” = 75%
“0”3” = 81.25% “0”2” = 87.5%
“0”1” = 93.75% “0”0” = 100%.
“0”- Off
“1”- On
ScreenMarker
CenterMarker
AspectMarker
Marker
Background
Transparency
Safe Area Marker*
“0xee”, “0x41”
“0” |”1”
“?”
“0xee”, “0x42”
“0” |”1”
“0xee”, “0x43”
“0” |”1”
“0xee”, “0x44”
“0” |”1”
“0xee”, “0x45”
“0” |”1” |”2” |”3”
Auto Off / Auto On
Query
Screen Marker Off / Screen
Marker On
Center Marker Off / Center
Marker On
Preliminary
4:3 /16:9
Preliminary
0% /25%/50%/95%
Preliminary
80%~99%
“0”- Off
“1”- On
“0”- Off
“1”- On
“0”- 4:3
“1”- 16:9
“0xee”, “0x47”
“0x53”~”0x63”
“0”- 0%
“1”- 25%
“2”- 50%
“3”- 95%
“36”, “33”- 99%
“36”, “32”- 98%
“36”, “31”- 97%
“36”, “30”- 96%
“35”, “46”- 95%
“35”, “45”- 94%
“35”, “44”- 93%
“35”, “43”- 92%
“35”, “42”- 91%
“35”, “41”- 90%
“35”, “39”- 89%
“35”, “38”- 88%
“35”, “37”- 87%
“35”, “36”- 86%
“35”, “35”- 85%
“35”, “34”- 84%
“35”, “33”- 83%
“35”, “32”- 82%
“35”, “31”- 81%
“35”, “30”- 80%
IR Lock* “0xee”, “0x48” n | “0” | “1” |
“r” | “R” |
“?”
IR Lock Disable / IR Lock Enable
Reset
Query
“0” – IR Lock Disable
“1” – IR Lock Enable
Light Detector “0xee”, “0x4A”
“0” | “1” |
“R” | “r”
”?”
“S” | “s”
Light Detector Off / Light
Detector On
Light Detector On/Off Query
Light Detector Value Query
“0” –Light Detector Off
“1” –Light Detector On.
“?” – Light Detector On/Off
Query “S”|”s” –Light Detector
Value Query 0x00~0xFF
Safe Area Marker
Enable
Aspect Marker
Enable
“0xee”, “0x4B”
“0” |”1”
“0xee”, “0x4C”
“0” |”1”
Safe Area Marker Off / Safe
Area Marker On
Aspect Marker Off / Aspect
Marker On
“0”- Off
“1”- On
“0”- Off
“1”- On
Page 40
Chassis Plans CPX1-241 Technical Reference
Display real time clock**
“0xee”, “0x4D”
“0” |”1”
Appendix A – Display Serial Control Programming
Real Time Clock Display Off /
Real Time Clock Display
“0”- Off
“1”- On
Custom Sizing 0xef,
“0” | “1” | “2”
”?”
Custom sizing selection :
Overscan / Normal / Custom
Query
“0” – Overscan
“1” – Custom / Underscan
“2” – Normal
Function Command
Send Display Mark 0xF1,
”S” |
”0x21” | ”0x40”
”0x60” | ”0x7E”
Return “1” e.g Send Display Mark
RS232 Code: “0xF1 0x53 0x21”
Return Code: “0xF1 0x53 0x21 0x31”
Clear Display Mark 0xF1,
”C”
Return “1” e.g Clear Display Mark
RS232 Code: “0xF1 0x43”
Return Code: “0xF1 0x43 0x31”
Display Mark
Horizontal Position
0xF1,
|”H” |”ss”|
Return “nn”
Description
“S” = “0x53 or 0x73”
ASCII “0x21,0x40,0x60,0x7E”
Return “ 0x31”
“C” = “0x43 or 0x63”
Return “ 0x31”
Acknowledge (if enabled)
“S” – Send Command
“Text” – Character
“1” - successful.
“C” – Clear command
“1” - successful.
“H” = “0x48 or 0x68”
------------------------------------------
“nn” = “0x30,0x30~0x46,0x46”
“H” – Horizontal Position command
“ss” – Set Horizontal Position number
“nn” – Return Position number e.g Set Display Mark Horizontal Position
RS232 Code: “0xF1 0x48 0x30 0x31”
Return Code: “0xF1 0x48 0x30 0x31 0x30 0x31”
Display Mark
Vertical Position
0xF1,
|”V” |”ss”|
Return “nn”
“V” = “0x56 or 0x76”
------------------------------------------
“nn” = “0x30,0x30~0x46,0x46” e.g Set Display Mark Vertical Position
RS232 Code: “0xF1 0x56 0x30 0x31”
Return Code: “0xF1 0x56 0x30 0x31 0x30 0x31”
“V” – Vertical Position command
“ss” – Set Vertical Position number
“nn” – Return Position number
Display Mark
Background
Transparency
0xF1,
|”B”|”N”|
Return “n”
“B” = “0x42 or 0x62”
Set Transparency command
------------------------------------------
“N” = “0x30~0x46”
Transparency Value
(Rang 00~0F)
Set Display Mark background Transparency value is 8
RS232 Code: “0xF1 0x42 0x38”
Return Code: “0xF1 0x42 0x38 0x38”
“B” - Transparency command
“N” – Transparency Value
“n”- Return Value
0x00 =opaque
Table A-2 - Parameter Setting - Immediate, Relative, Reset and Query
Page 41
Chassis Plans CPX1-241 Technical Reference
Function
Select RS-232 acknowledge
Auto-setup 0xc3
Command availability
0xc4, n
Auto-calibration 0xc5
Freeze frame 0xc6, “0” | “1”
Soft Power On/Off 0xc8,
“0” | “1” |
“?”
Query video input status
0xc9
Video de-interlace method
0xca,
“0” | “1”
“r” | “R”
“?” vmode.
Check whether a command is available. the RGB amplifier.
Unfreeze / freeze frame
Soft power off/on query
De-interlace mode
Reset
Query
Appendix A – Display Serial Control Programming
Command
0xc1, “0” | “1” | “2” |
“3”
Description
Disable/enable command acknowledge.
Query the status of the primary
& pip status
Acknowledge (if enabled)
“0” – acknowledge disabled.
“1” – acknowledge enabled.
“2” – serial command disabled.
“3” – serial command enabled.
“0” – fail.
“1” – successful.
“0” – not available.
“1” – available.
“0” – fail.
“1” – successful.
“0” – unfreeze.
“1” – freeze.
“0” – Turn off the LCD power and
backlight. Turn off memory
controller, Power down DVI
Power down ADC, Power
down Fclk PLL
“1” – Turn on the unit
“nn,nn” = input status
“nn,xx” digit = primary status:
“0”,”0” : invalid
“A”,”1” ARGB
“B”,”1” Composite
“B”,”2” Composite 2
“C”,”1” S-video
“C”,”2” S-video 2
“D”,”1” Component
“D”,”2” Component 2
“E”,”1” HDSDI
“E”,”2” HDSDI 2
“F”,”1” DVI
“H” “1” HDMI
“xx,nn”= PIP input status:
“0”,”0”: invalid
“A”,”1” ARGB
“B”,”1” Composite
“B”,”2” Composite 2
“C”,”1” S-video
“C”,”2” S-video 2
“D”,”1” Component
“D”,”2” Component 2
“E”,”1” HDSDI
“E”,”2” HDSDI 2
“F”,”1” DVI
“H” “1” HDMI
“3” ”1”- enable AFM
“3” ”0”- disable AFM
“4” ”1”- enable TNR
“4” ”0”- disable TNR
“5” ”1”- enable MADI
“5” ”0”- disable MADI
“7” ”1”- enable DCDi
“7” ”0”- disable DCDi
Page 42
Chassis Plans CPX1-241 Technical Reference
Query BIOS version
Query PCBA number
Reset to Factory
Defaults
0xcb, “0”
0xcb, “1”
0xce Reset all parameters to default value
Appendix A – Display Serial Control Programming
Read BIOS version
Read PCBA number
BIOS version “VV.YY.ZZ”
VV = V0 or E0,
V0 = Release version
E0 = Engineering Sample
YY= Version Number
ZZ= Customer Number
“nnnnn” = PCBA number
SVX-1920= “41721”
“1” – successful.
Reset to Factory
Defaults with
(color temp)
Saved Calibrated default
Load Calibrated default
Wide Screen
Mode Selection
0xcf
0xd7
0xd8
Reset all parameters for all video modes to default value
Saving all parameters to user default value
Loading all parameters to user default value
“1” - successful.
“1” - successful.
“1” - successful.
“0” - not successful
“E” – Checksum Error
“0” – Normal Mode
“1” – 1280x768
“2” – 1366x768
ScreenMarker
CenterMarker
AspectMarker
Marker
Background
Transparency
Safe Area Marker
0xd9,
“0” | “1”| “2”
“r” | “R”
“?”
“0xee”, “0x42”
“0” |”1”
“0xee”, “0x43”
“0” |”1”
“0xee”, “0x44”
“0” |”1”
“0xee”, “0x45”
“0” |”1” |”2” |”3”
“0xee”, “0x46”
“0x53”~”0x63”
Wide Screen Mode
Reset
Query
Screen Marker Off / Screen
Marker On
Center Marker Off / Center
Marker On
Preliminary
4:3 /16:9
Preliminary
0% /25%/50%/95%
Preliminary
64%~98%
“0”- Off
“1”- On
“0”- Off
“1”- On
“0”- 4:3
“1”- 16:9
“0”- 0%
“1”- 25%
“2”- 50%
“3”- 95%
“36”, “33”- 98%
“36”, “32”- 96%
“36”, “31”- 94%
“36”, “30”- 92%
“35”, “46”- 90%
“35”, “45”- 88%
“35”, “44”- 86%
“35”, “43”- 84%
“35”, “42”- 83%
“35”, “41”- 81%
“35”, “39”- 79%
“35”, “38”- 77%
“35”, “37”- 76%
“35”, “36”- 74%
“35”, “35”- 72%
“35”, “34”- 71%
“35”, “33”- 69%
“35”, “32”- 67%
“35”, “31”- 66%
“35”, “30”- 64%
Table A-3 - Other Control
Page 43
Chassis Plans CPX1-241 Technical Reference Appendix A – Display Serial Control Programming
Text Via RS232 Command
Function Command Description
Clear Line 0xF0,
|”C” |”LL”|
Return “nn”
“C” = “0x43 or 0x63”
Clear command
-------------------------------------------
-
“LL” = “0x30,0x31~0x30,0x34”
Line number (Rang 0~4 lines) e.g Clear Line 1
RS232 Code: “0xF0 0x43 0x30 0x31”
Return Code: “0xF0 0x43 0x30 0x31 0x30 0x31”
Acknowledge (if enabled)
Send Line 0xF0,
|”S” |”LL”|”TEXT”|
“0x0A”
Return “1”
“S” = “0x53 or 0x73”
Send command
-------------------------------------------
-
“LL” = “0x30,0x31~0x30,0x34”
Line number (Rang 0~4 lines)
-------------------------------------------
-
“Text”= ASCII code,
“0x20~0x7E”
Character( Rang 0~34 )
-------------------------------------------
-
0x0A = End of line
“S” – Send Command
“LL” – Line Number
“Text” – Character
“0x0A” – End of Line
“1” - successful. e.g Display “Send Text” message on screen:
RS232 Code:“0xF0 0x53 0x30 0x31 0x53 0x65 0x6E 0x64 0x20 0x54 0x65 0x78 0x74 0x0A”
Return Code: “0xF0 0x53 0x30 0x31 0x53 0x65 0x6E 0x64 0x20 0x54 0x65 0x78 0x74 0x0A 0x31”
“C” – Clear command
“LL” – Line Number
“nn” – Return Line number
Text Window
Horizontal Position
0xF0,
|”H” |”ss”|
Return “nn”
“H” = “0x48 or 0x68”
------------------------------------------
--“nn” = “0x30,0x30~0x46,0x46”
“H” – Horizontal Position command
“ss” – Set Horizontal Position number
“nn” – Return Position number e.g Set Text Window Horizontal Position
RS232 Code: “0xF0 0x48 0x30 0x31”
Return Code: “0xF0 0x48 0x30 0x31 0x30 0x31”
Text Window
Vertical Position
0xF0,
|”V” |”ss”|
Return “nn”
“V” = “0x56 or 0x76”
------------------------------------------
--“nn” = “0x30,0x30~0x46,0x46” e.g Set Text Window Vertical Position
RS232 Code: “0xF0 0x56 0x30 0x31”
Return Code: “0xF0 0x56 0x30 0x31 0x30 0x31”
“V” – Vertical Position command
“ss” – Set Vertical Position number
“nn” – Return Position number
Page 44
Chassis Plans CPX1-241 Technical Reference Appendix A – Display Serial Control Programming
Left offset 0xF0,
|”O” |”SSS”|
Return “nnn”
“O” = “0x4F or 0x6F”
Set Left Offset command
-------------------------------------------
-
“SSS” = “0x30,0x30,0x30~
0x33,0x46,0x46”
Offset Value (Rang 000~3ff) e.g Set Left Offset = 100 pixels ( 0x64 (HEX))
RS232 Code: “0xF0 0x4F 0x30 0x36 0x34”
Return Code: “0xF0 0x4F 0x30 0x36 0x34 0x30 0x36 0x34”
Text Window
Horizontal Size
0xF0,
|”X” |”SSS”|
Return “nnn”
“X” = “0x58”
Set Horizontal Size command
-------------------------------------------
-
“SSS” = “0x31,0x45,0x30~
0x37,0x38,0x30”
Horizontal Size Value (Rang
000~3ff) e.g Set Text Window Horizontal Size = 640 pixels ( 0x280 (HEX))
RS232 Code: “0xF0 0x58 0x32 0x38 0x30”
Return Code: “0xF0 0x58 0x32 0x38 0x30 0x32 0x38 0x30”
Background
Transparency
0xF0,
|”B”|”N”|
Return “n”
“B” = “0x42 or 0x62”
Set Transparency command
-------------------------------------------
“N” = “0x30~0x46”
Transparency Value
(Rang 00~0F)
Set background Transparency value is 8
RS232 Code: “0xF0 0x42 0x38”
Return Code: “0xF0 0x42 0x38 0x38”
Text Overlay
Background
On or Off
0xF0,
|”Q”|
“N”
Return “n”
“Q” = “0x51 or 0x71”
Set Background Enable or
Disable ----------------------
“N” = “0x30~0x31”
“O” – Left Offset Command
“SSS”- Offset Value (pixels)
“nnn”- Return Value(pixels)
“X” –Horizontal Size
“SSS”- Size Value (pixels)
“nnn”- Return Value(pixels)
“B” - Transparency command
“N” – Transparency Value
“n”- Return Value
0x00 =opaque
“B” - command
“1” Turn On Text Overlay
Background
“0” Turn Off Text Overlay
Background
“n”- Return Value
Set background Transparency value is 8
RS232 Code: “0xF0 0x51 0x31”
Return Code: “0xF0 0x51 0x31 0x31”
Table A-4 – Text Via RS232 Command
Page 45
Chassis Plans CPX1-241 Technical Reference Appendix A – Display Serial Control Programming
Display Mark Command
Function Command
Send Display Mark 0xF1,
”S” |
”0x21” | ”0x40”
”0x60” | ”0x7E”
”0x22” | ”0x42”
#
”0x23” | ”0x43”
#
Return “1”
Description
“S” = “0x53 or 0x73”
ASCII “0x21,0x40,
0x60,0x7E
0x22, 0x42”
#
0x23, 0x43”
#
Return “ 0x31”
Acknowledge (if enabled)
“S” – Send Command
0x21 : Full size cell black block
0x40 : Full size cell white block
0x22 : 1/2 cell black block vertical size
#
0x42 : 1/2 cell white block vertical size
#
0x23 : 8 x 8 triangle (BLACK)
#
0x43 : 8 x 8 triangle (WHITE)
#
“1” - successful. e.g Send Display Mark
RS232 Code: “0xF1 0x53 0x21”
Return Code: “0xF1 0x53 0x21 0x31”
Clear Display Mark 0xF1,
”C”
Return “1” e.g Clear Display Mark
RS232 Code: “0xF1 0x43”
Return Code: “0xF1 0x43 0x31”
Display Mark
Horizontal Position
0xF1,
|”H” |”ss”|
Return “nn”
“C” = “0x43 or 0x63”
Return “ 0x31”
“C” – Clear command
“1” - successful.
“H” = “0x48 or 0x68”
------------------------------------------
--“nn” = “0x30,0x30~0x46,0x46”
“H” – Horizontal Position command
“ss” – Set Horizontal Position number
“nn” – Return Position number e.g Set Display Mark Horizontal Position
RS232 Code: “0xF1 0x48 0x30 0x31”
Return Code: “0xF1 0x48 0x30 0x31 0x30 0x31”
Display Mark
Vertical Position
0xF1,
|”V” |”ss”|
Return “nn”
“V” = “0x56 or 0x76”
------------------------------------------
--“nn” = “0x30,0x30~0x46,0x46” e.g Set Display Mark Vertical Position
RS232 Code: “0xF1 0x56 0x30 0x31”
Return Code: “0xF1 0x56 0x30 0x31 0x30 0x31”
Display Mark
Background
Transparency
0xF1,
|”B”|”N”|
Return “n”
“B” = “0x42 or 0x62”
Set Transparency command
-------------------------------------------
“N” = “0x30~0x46”
Transparency Value
(Rang 00~0F)
Set Display Mark background Transparency value is 8
RS232 Code: “0xF1 0x42 0x38”
Return Code: “0xF1 0x42 0x38 0x38”
“V” – Vertical Position command
“ss” – Set Vertical Position number
“nn” – Return Position number
“B” - Transparency command
“N” – Transparency Value
“n”- Return Value
0x00 =opaque
Page 46
Chassis Plans CPX1-241 Technical Reference Appendix A – Display Serial Control Programming
Bi-directional communication between Display
Mark and IP50
#
“0xee”, “0x64”
“0x7B”|
”TEXT”|
“0x7D”
Return “1”
Send command
Start Text Command
“TEXT”
End of Text Command return to CN8 only
“0xee 0x64” – Send Command
“0x7B” – Start of Text
“Text” – Character (ASCII fomat)
“0x7D” – End of Text
“1” - successful. (return from
CN8)
Display Mark Connect with CN8:
Send Code from Display Mark:
0xEE 0x64 0x7B 0x4C 0x58 0x3D 0x30 0x0D 0x0A 0x49 0x66 0x20 0x6E 0x6F 0x74 0x20 0x3E 0x33 0x30
0x7D
Return Code to Display Mark:
0xEE 0x64 0x7B 0x4C 0x58 0x3D 0x30 0x0D 0x0A 0x49 0x66 0x20 0x6E 0x6F 0x74 0x20 0x3E 0x33 0x30
0x7D 0x31
IP50 Receive code:
0x7B 0x4C 0x58 0x3D 0x30 0x0D 0x0A 0x49 0x66 0x20 0x6E 0x6F 0x74 0x20 0x3E 0x33 0x30 0x7D
______________________________________________________________________________
Display Mark Connect with CN8:
Send Code from IP50:
0xEE 0x64 0x7B 0x4C 0x58 0x3D 0x30 0x0D 0x0A 0x49 0x66 0x20 0x6E 0x6F 0x74 0x20 0x3E 0x33 0x30
0x7D
Return Code to IP50:
0xEE 0x64 0x7B 0x4C 0x58 0x3D 0x30 0x0D 0x0A 0x49 0x66 0x20 0x6E 0x6F 0x74 0x20 0x3E 0x33 0x30
0x7D 0x31
Display Mark Receive code:
0x7B 0x4C 0x58 0x3D 0x30 0x0D 0x0A 0x49 0x66 0x20 0x6E 0x6F 0x74 0x20 0x3E 0x33 0x30 0x7D
Table A-5 – Display Mark Command
Page 47
Chassis Plans CPX1-241 Technical Reference Appendix A – Display Serial Control Programming
The RS-232 command strings sent in one time can support up to 380 bytes via CN8 port
The RS-232 command string sent in one time can support up to 50 bytes via CN1 or J1 port. n = 1-byte ascii-coded hex number, e.g., parameter value of 0x1 is represented by “1” (0x31). mn or nn = 2-byte ascii-coded hex number, e.g., parameter value of 0x1e is represented by “1”, “e” | “E” (0x31,
0x6e|0x4e).
Hex ASCII Hex ASCII Hex ASCII Hex ASCII
0x64
0x65
0x66
0x67
0x68
0x38 8 0x49 I 0x69
0x6A
Table A-6 - Hex to ASCII Conversion Table
Page 48
Chassis Plans CPX1-241 Technical Reference Appendix B – Auto Color Gain
Appendix B – Auto Color Gain
The Auto Color Gain function is supported in the ARGB mode only and is designed to calibrate the controller to the incoming video signal. In order to calibrate correctly, the display must be displaying an image containing both black and white data (see illustration below) when the function is used. The internal processor of the video controller chip will then execute a process to adjust the relative values of the RGB signals to achieve the best performance. The parameters of the corrected RGB values are then stored in the controller and are unaffected by the Reset Factory Defaults function.
Image B-1 – Auto Color Gain Example
The reference pattern can be downloaded at : http://www.chassis-plans.com/Rackmount-Keyboard-Displays/TestPattern_1280.bmp
This reference pattern is for 1280x1024 resolution and it needs to set your ARGB input source to 1280x1024 resolution before performing the Auto Color Gain function. The position of the black vertical bar in the pattern at the right side is important. It will affect the calibration result if you are setting the ARGB input to other resolution.
This image can be used on the CPX1-124 to correctly set the Auto Color Gain.
Warning - If the Auto Color Gain is executed without an appropriate image being displayed, then the process will set incorrect values and the display colors will be distorted. If this occurs, then it can either be corrected by performing the process correctly or if this is not possible then the Reset Color Gain function can be used. This function will reset the stored RGB values to a set of approximate values.
Page 49
Chassis Plans CPX1-241 Technical Reference
This Page Intentionally Blank
Appendix B – Auto Color Gain
Page 50
Chassis Plans CPX1-241 Technical Reference Appendix C – Remote Control
Appendix C – Remote Control
Chassis Plans offers an optional Remote Control for the CPX1-124 to allow direct control of the unit without having to access the front panel controls. The IR receiver is mounted on the front panel, lower right.
Image C-1 – Remote Control
Page 51
Chassis Plans CPX1-241 Technical Reference Appendix C – Remote Control
BUTTON FUNCTION
POWER BUTTON
Soft power ON/OFF button.
ATTENTION BUTTON
Use combined with digit keys to enable/disable the IR function.
“Attention” + “1”
MUTE BUTTON (
AV/TV BUTTON
PIP BUTTON
SEL UP ( ) / SEL DN (
VOLUME (-/+) BUTTON
+ / - BUTTON
OSD BACK BUTTON
OSD NEXT BUTTON
DISPLAY BUTTON
TRACK (S-Video) BUTTON
TRACK (Composite 1)
BUTTON
Composite 2 BUTTON
STOP (VGA) BUTTON
FREEZE (II) BUTTON
DVI BUTTON
HDMI BUTTON
HDSDI1 BUTTON
HDSDI2 BUTTON
)
SOUND (ZOOM) BUTTON
PLAY (YPbPr) BUTTON
)
Switch to mute on/off mode.
Use to select the input source. (VGA/DVI/HDMI/..)
Use to display the zoom menu. Press the “+” to zoom in the picture and the
“-” to zoom out the picture.
Use to select the PIP (Picture in Picture) setting
Use this button to direct control the hotkey function. Press the
“SEL UP” button to increase the pre-set hotkey parameter value and the “SEL DN” button to decrease the pre-set hotkey parameter value. In OSD menu, pressing this button to select the items.
Press the “+” button to increase the volume and the “-” to decrease the volume.
Use this button to direct control the hotkey function. Press the “+” button to increase the pre-set hotkey parameter value and the “-” button to decrease the pre-set hotkey parameter value. In OSD menu, pressing this button to adjust the settings.
Use to display the OSD menu and go to the previous OSD screen.
Use to display the OSD menu and go to the next OSD screen.
Use to view an on-screen information. When OSD menu displayed, press this button to turn it off.
Press this button in the non OSD menu display mode to select S-
Video 1 source.
Press this button in the non OSD menu display mode to select
Composite 1 source.
Press this button in the non OSD menu display mode to select
Composite 2 source.
Press this button in the non OSD menu display mode to select
Component 1 source.
Press this button in the non OSD menu display mode to select
VGA source.
Use this button to freeze and release the picture on your screen.
Press this button in the non OSD menu display mode to select
DVI source.
Press this button in the non OSD menu display mode to select
HDMI source.
Press this button in the non OSD menu display mode to select
HD-SDI 1 source.
Press this button in the non OSD menu display mode to select
HD-SDI 2 source.
Table C-1 – Remote Control Functions
Page 52
Chassis Plans CPX1-241 Technical Reference Appendix E – PIP Mix Table
Appendix D – Functional Description for De-Interlacing Modes
In the OSD menu, see Utilities – Setup – De-Interlacing Mode
AFM = Auto Film Mode :
It is a frame based method which is used for the input ODD and EVEN fields have a fixed relation between each other, such as static image, 3:2 pull down mode.
If two fields are correctly merged, it can display the best quality. But if it merges two wrong fields, it will have artifacts and display the worst quality.
TNR = Temporal Noise Reduction :
It is a frame based method which assumes field to field have a fixed relationship.
If the object is moving too fast, it will have an image artifact and display worst quality.
MADI = Motion adaptive de-interlacing :
It is a pixel based method which is used when the input fields have no fixed relation between them.
If the object moving too fast, it will get worst quality.
DCDi = Directional Correlation Deinterlacing :
It is a digital enhancement method developed by Faroudja. DCDi technology is primarily used for improving the image quality of low resolution images. This is done by deinterlacing the image and blending rough edges occurring in diagonal lines.
Page 53
Chassis Plans CPX1-241 Technical Reference
This Page Intentionally Blank
Appendix E – PIP Mix Table
Page 54
Chassis Plans CPX1-241 Technical Reference Appendix E – PIP Mix Table
Appendix E – PIP Mix Table
The CPX1-241 offers PIP (Picture In Picture) and PBP (Picture By Picture) modes. The following table shows which inputs can be combined in these modes.
VGA
Composite 1
Composite 2
S-Video 1
S-Video 2
Component 1
Component 2
HD-SDI 1
HD-SDI 2
DVI
HDMI
VGA
Composite
1
Composite
2
S-Video
1
S-Video
2
Component
1
Component
2
HD-SDI
1
HD-SDI HDMI
2 DVI
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X X
X X
X X
X X
Table E-1 – PIP Mix Table
Page 55
Chassis Plans CPX1-241 Technical Reference
This Page Intentionally Blank
Appendix E – PIP Mix Table
Page 56
Chassis Plans CPX1-241 Technical Reference
Appendix F – Ethernet Network Connection
Appendix F – Network Connection
The CPX1-241 has an RJ-45 Ethernet port for control and monitoring over a network. This appendix introduces the two user interface modes:
Command line direct mode (this is the default mode)
Browser based web server mode
There is also a short overview of the command set and how it is implemented in Appendix A.
QUICK GUIDE
Command line direct mode: This is relevant when a PC application is used to send and receive commands over the network port. The LCD Controller with the command line direct mode is installed as default.
The RS-232 commands available are the same as documented Appendix A and writing a control application is very similar to the RS-232 type except the commands must pass through the network. An alternative is to use an application written for RS-232 communication and use a virtual serial port program such as:
One of the software program can be download at http://www.taltech.com/products/tcpcom.html.
This software can create “Virtual” RS232 serial ports that are actually connections to a TCP/IP port. This allows you to use existing Windows based serial communications software to send and receive data across a TCP/IP network.
Please note this is a 3rd party program and is not warranted nor is it the responsibility of Chassis Plans.
Browser based web server mode :
For experienced users the following quick guide to trying out the network connection and functions may be useful.
Works with a normal network with DHCP, i.e. must use a router.
Connect the LCD to the network and ensure power is on.
Use the IP Locator utility available at http://www.chassis-plans.com/ip-locator.zip
(Windows only)
Double click on the IP address in the IP Locator window, it will open the LCD Controller browser page in your default browser. Alternatively copy the IP address into your browser address line.
Test the functions that come up on the browser.
CAUTION: Configuring TCP/IP settings are complicated and may require an experienced network administrator.
For additional help or network configuration, contract your network provider.
Connecting a network port to CPX1-241
Connect the CPX1-241 to the network with a standard Cat-5 Ethernet cable. Note: A straight RJ-45 cable should be used to connect to the network switch/hub/router.
Page 57
Chassis Plans CPX1-241 Technical Reference Appendix F – Network Connection
Get the IP address using DHCP
When in a default state and powered on, the IP controller will first try to obtain its IP address and network information, such as Subnet Mask address, Gateway address, etc., from the DHCP server. The IP controller may also be configured manually.
If you have a DHCP server on your network, the CPX1-241 automatically obtains its IP address from that server.
• DHCP services must be available on the server.
• If the CPX1-241 and DHCP server are located on different subnets, IP configuration may fail unless the routing device allows the transfer of DHCP requests between subnets.
Web Console
The Web Console is a small web server program (.bin) embedded in the CPX1-241. It provides the user nterface that can be accessed and viewed on any standard web browser. The web console provides a platform where you can inquire and control the RS-232 devices which connecting to IP controller.
IP Locator
The IP Locator is a tool to search for any available CPX1-241 connected to the local network within same subnet. If you don’t know the IP address of your CPX1-241, the IP Locator program can help you to find the IP address allocated to your CPX1-241. The following example IP Locator’s screen shows the devices detected, as well as the IP address, host name and MAC address. (Please copy the IP Locator from the Chassis Plans website at www.chassis-plans.com/ip-locator.zip
)
Image F-1 – IP Locator Screen Show
Pressing the Discover Devices button will re-detect the devices and update the screen.
Note: Make sure you have “Microsoft .NET Framework 2.0” already installed on your PC before using the “IP
Locator”.
Network configuration
To see the network configuration, click Network pull down menu will see the table of network settings.
Image F-2 – Network Drop Down
Page 58
Chassis Plans CPX1-241 Technical Reference
Configure
Version
MAC Address
Host Name
DHCP
IP Address
Subnet Mask
Default Gateway
Primary DNS Address
Appendix F – Network Connection
Firmware version of CPX1-241
MAC address of IP controller
ID name without space (max. 15 character)
DHCP client mode enable/disable
IP address (assigned automatically if DHCP mode enable)
Address Subnet Mask Address
Address Network Gateway Address
Network DNS Address
Image F-3 – Network Configure Settings
In cases where the CPX1-241 is setup behind a firewall and cable/ADSL modem. The following provides details so it can be directly accessed over internet by typing the dedicated IP address on web browser.
Connect to a single CPX1-241
Connect the CPX1-241 to a router using Cat-5 cable.
It is suggested to use “DMZ” function on the router. The standard ports required by the CPX1-241 is shown as below:
Table F-1 – Remote Control
To setup DMZ function on your router, you may refer to the following procedure for your reference. (Different routers will has its different setup methods; please refer to the user manual of your router.)
Page 59
Chassis Plans CPX1-241 Technical Reference
Step 1: Connect to the router and enter into its configuration page.
Step 2: Locate the internal IP address of the CPX1-241. (e.g. 192.168.1.2)
Appendix F – Network Connection
Image F-4 – IP Address Locator
Step 3: Assign the internal IP of the CPX1-241 to DMZ function and enable it.
Image F-5 – IP Address Setting and Enable
In the above example, we can just type http://148.xxx.27.15 to enter web server of the CPX1-241.
Connect to multiple CPX1-241s
If more than one CPX1-241 are installed at the same location but only has a single IP address to internet, then a router with the NAT, Port forward and firewall function to map different service ports to individual CPX1-
241displays is required.
For example:
Table F-2 – Remote Control
To setup NAT and Port forward function on your router, you may refer to the following procedure for your reference. (Different router will has its different setup method; please refer to the user manual of your router.)
Step 1: Connect to the router and enter into its configuration page.
Page 60
Chassis Plans CPX1-241 Technical Reference Appendix F – Network Connection
Step 2: Locate the internal IP addresses of all CPX1-241s. (e.g. 192.168.1.2 and 192.168.1.3)
Image F-6 – DHCP Table Screenshot
Step 3: Set all ports forwarding under NAT function of router. (see the screen below for example.)
Image F-7 – NAT Fowarding Screenshot
In the above example, we have to enter
http://148.xxx.27.15:9080 to access CPX1-241-1 at 192.168.1.2
FTP://148.xxx.27.15:9021 to FTP CPX1-241-1 at 192.168.1.2
http://148.xxx.27.15:9180 to access CPX1-241-2 at 192.168.1.3
FTP://148.xxx.27.15.9121 to FTP CPX1-241-2 at 192.168.1.3
Page 61
Chassis Plans CPX1-241 Technical Reference
This Page Intentionally Blank
Appendix F – Network Connection
Page 62
Chassis Plans CPX1-241 Technical Reference
Appendix G – DVI-D versus DVI-I Connectors
Appendix G – DVI-D versus DVI-I
The Digital Visual Interface (DVI) is a video interface standard designed to provide very high visual quality on digital display devices such as flat panel LCD computer displays and digital projectors. It was developed by an industry consortium, the Digital Display Working Group (DDWG). It is designed for carrying uncompressed digital video data to a display. It is partially compatible with the High-Definition Multimedia Interface (HDMI) standard in digital mode (DVI-D), and VGA in analog mode (DVI-A).
The LCD controllers offered with the CCX keyboards offer DVI-D and DVI-I, depending on which controller is selected. This discussion is presented to help clarify the difference between the various flavors of DVI.
Overview
The DVI interface uses a digital protocol in which the desired illumination of pixels is transmitted as binary data.
When the display is driven at its native resolution, it will read each number and apply that brightness to the appropriate pixel. In this way, each pixel in the output buffer of the source device corresponds directly to one pixel in the display device, whereas with an analog signal the appearance of each pixel may be affected by its adjacent pixels as well as by electrical noise and other forms of analog distortion.
Connectors
The DVI connector usually contains pins to pass the DVI-native digital video signals. In the case of dual-link systems, additional pins are provided for the second set of data signals.
As well as digital signals, the DVI connector includes pins providing the same analog signals found on a VGA connector, allowing a VGA monitor to be connected with a simple plug adapter. This feature was included in order to make DVI universal, as it allows either type of monitor (analog or digital) to be operated from the same connector.
The DVI connector on a device is therefore given one of four names, depending on which signals it implements:
DVI-D (digital only)
DVI-I (integrated, digital & analog)
The connector also includes provision for a second data link for high resolution displays, though many devices do not implement this. In those that do, the connector is sometimes referred to as DVI-DL (dual link).
The long flat pin on a DVI-I connector is wider than the same pin on a DVI-D connector, so it is not possible to connect a male DVI-I to a female DVI-D by removing the 4 analog pins. It is possible, however, to connect a male DVI-D cable to a female DVI-I connector.
Many flat panel LCD monitors have only the DVI-D connection so that a DVI-D male to DVI-D male cable will suffice when connecting the monitor to a computer's DVI-I female connector.
Essentially, DVI-D is the same as DVI-I with DVI-D missing the analog portion of the signals. A DVI-D connector and monitor can connect to a DVI-I output and function. A DVI-I monitor can connect to a DVI-D output with the caveat that no analog video will be available.
Page 63
Chassis Plans CPX1-241 Technical Reference
This Page Intentionally Blank
Appendix G – DVI-D versus DVI-I
Page 64
advertisement
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project