Digital View HE-1400 PC, DVI interface controller for TFT panel Instructions
Below you will find brief information for PC, DVI interface controller for TFT panel HE-1400. This instruction manual describes the setup, connection and operation of the HE-1400 controller for TFT panel, making it an ideal option for system developers and integrators working on monitor and custom display projects.
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HARSH ENVIRONMENT PC, DVI INTERFACE CONTROLLER FOR TFT PANEL Model: HE-1400 Part number : 41710013X/4X-3 or up INSTRUCTIONS CONTENTS Page: 2. Revision History 3. Introduction, How to Proceed, Usage Note, Disclaimer 4. System design – Diagram of a suggested system 5. Assembly notes – Important information about system elements 7. Connection & Operation – How to use the controller 11. Connectors, pinouts & jumpers – Essential connection information 20. Controller dimensions 21. Application notes 23. Troubleshooting 24. Specifications 25. Appendix I – Graphic Mode Support Table 26. Appendix II – RS-232 control protocols 30. Appendix III – Mapping definition 32. Appendix IV – Auto Color Gain 33. Warranty, Caution & Limitation of Liability, Trademarks 34. Contact details It is essential that these instructions are read and understood before connecting or powering up this controller. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 1 of 34 Revision History Date 7 July 2016 Rev No. 1.00 Page 2 8 9 12 14 27-28 Summary Add Revision History page Reflect the features added on firmware to V1.91.00 & V1.97.00 version : - Add "Backlight" hotkey function on "SEL UP" / "SEL DN" on the OSD switch mount. - Add new OSD menu items for setting and controlling PWM backlight brightness dimming function. - Add new JP2 5-6 closed jumper definition for PWM backlight control. - Add new panel support. - Add new RS-232 command (0xe0, 0xe5, 0xe6, 0xe7) for setting and controlling the PWM backlight brightness dimming function. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 2 of 34 Introduction Harsh Environment version of the ALR-1400. Provides full ALR-1400 feature set, plus wide range operating temperature and voltage range; shock and vibration tolerance and conformal coating for extreme environment applications. TFT (active matrix) LCDs with LVDS interface of 1366x768, 1280x1024, 1280x800, 1280x768, 1024x768, 1024x600, 800x600, 800x480, 640x480, 480x234 resolution; Computer video signals of SXGA, XGA, SVGA, VGA standard Support LVDS or TTL interface panel Design to aid in compliance of the strict standards required for Harsh Environment applications. Low mass tantalum capacitors for maximum vibration and shock tolerance, conformal coating, laboratory certified operating temperature range from -40oC to +80oC plus calculated MTBF in excess of 200K hours. Laboratory certification report available at http://www.digitalview.com/media/reports/HE-1400_report.pdf . Overall suitability for usage in critical applications must be independently tested and verified by the user. HOW TO PROCEED Ensure you have all parts & that they are correct, refer to: • Connection diagram (separate document for each panel) • Connector reference (in following section) • Assembly notes Check controller switch & jumper settings (errors may damage the panel) Prepare the PC Connect the parts Understand the operation and functions (in following section) IMPORTANT USAGE NOTE This product is for use by system developers and integrators, the manufacturer accepts no liability for damage or injury caused by the use of this product. It is the responsibility of the developer, integrators or other user of this product to: Ensure that all necessary and appropriate safety measures are taken. Obtain suitable regulatory approvals as may be required. Check power settings to all component parts before connection. Understand the operation and connectivity requirements of this controller. DISCLAIMER There is no implied or expressed warranty regarding this material. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 3 of 34 SYSTEM DESIGN A typical LCD based display system utilising this controller is likely to comprise the following: Summary: 1. LCD panel 2. LCD controller card, HE-1400 3. LVDS cable (for connection with LVDS panel) 4. TTL cable (for connection with TTL panel) 5. Inverter for CCFT backlight (if not built into LCD) 6. Inverter cable 7. Function controls 8. Function controls cable 9. Status LED 10. DVI-D input 11. Analog VGA input 12. Power input (12VDC) 13. RS-232 control port Digital View offers a range of accessories such as listed above, to make up complete display solution. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 4 of 34 ASSEMBLY NOTES This controller is designed for monitor and custom display projects using 1366 x 768, 1280 x 1024, 1280 x 800, 1280 x 768 or 1024 x 768, 1024 x 600, 800 x 600, 800 x 480, 640 x 480 or 480 x 234 resolution TFT panels with a VGA, SVGA, XGA, SXGA signal input. The following provides some guidelines for installation and preparation of a finished display solution. Preparation: Before proceeding it is important to familiarize yourself with the parts making up the system and the various connectors, mounting holes and general layout of the controller. As much as possible connectors have been labeled. Guides to connectors and mounting holes are shown in the following relevant sections. 1. LCD Panel: This controller is designed for typical LVDS or TTL interface TFT panels with panel voltage 3.3V or 5V or 12V LVDS interface. Due to the variation between manufacturers of signal timing and other panel characteristics factory setup and confirmation should be obtained before connecting to a panel. (NOTE: Check panel power jumper settings before connection) 2. Controller card: Handle the controller card with care as static charge may damage electronic components. 3. LVDS signal cable : In order to provide a clean signal it is recommended that LVDS signal cables are no longer than 46cm (18 inches). If loose wire cabling is utilized these can be made into a harness with cable ties. Care should be taken when placing the cables to avoid signal interference. Additionally it may be necessary in some systems to add ferrite cores to the cables to minimize signal noise. 4. TTL signal cable: In order to provide a clean signal it is recommended that LCD signal cables are no longer than 33cm (13 inches). If loose wire cabling is utilized these can be made into a harness with cable ties. Care should be taken when placing the cables to avoid signal interference. Additionally it may be necessary in some systems to add ferrite cores to the cables to minimize signal noise. 5. Inverter: This will be required for the backlight of an LCD, some LCD panels have an inverter built in. As panels may have 1 or more backlight tubes and the power requirements for different panel models backlights may vary it is important to match the inverter in order to obtain optimum performance. See page 15 for the Application notes “Inverter connection section for more informations. 6. Inverter Cables: Different inverter models require different cables and different pin assignment. Make sure correct cable pin out to match the inverter. Using wrong cable pin out may damage the inverter. 7. Function Controls: The following section discusses the controls required and the section on connectors provides the detail. The controls are minimal: On/Off, Backlight Brightness (depends on inverter), OSD (5 momentary buttons) analog VR type or (8 momentary buttons) digital type. 8. Function controls cable: The cables to the function switches should be of suitable quality and length so that impedance does not affect performance. Generally lengths up to 1 metre (3 feet) should be acceptable. 9. DVI-D Input Cable : Plug the DVI cable to the connector P2 on the controller board 10. Analog VGA Input Cable: As this may affect regulatory emission test results and the quality of the signal to the controller, a suitably shielded cable should be utilized. • Power Input: 12V DC is required, this should be a regulated supply. Although the controller provides power regulation for the LCD power this does not relate to the power supplied to the backlight inverter. If an unregulated power supply is provided to an inverter any fluctuations in power may affect operation, performance and lifetime of the inverter and or backlight tubes. • Power Safety: Note that although only 12VDC is supplied as ‘power-in’ a backlight inverter for panel backlighting produces significantly higher voltages (the inverter does not connect to the ground plane). We strongly advise appropriate insulation for all circuitry. • EMI: Shielding will be required for passing certain regulatory emissions tests. Also the choice of external Controller to PC signal cable can affect the result. • Ground: The various PCB mounting holes are connected to the ground plane. • Servicing: The board is not user serviceable or repairable. Warranty does not cover user error in connecting up to the controller and is invalidated by unauthorized modification or repairs. • Controller Mounting: It is recommended that a clearance of at least 10mm is provided above and 5mm below the controller when mounted. Additionally consideration should be given to: • Electrical insulation. • Grounding. • EMI shielding. • Cable management. Note: It is important to keep panel signal cables apart from the inverter & backlight cables to prevent signal interference. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 5 of 34 • • • Heat & Ventilation: Heat generated from other sources, for example the backlight of a very high brightness panel may generate significant heat which could adversely affect the controller. Other issues that may affect safety or performance. PC Graphics Output: A few guidelines: • Signal quality is very important, if there is noise or instability in the PC graphics output this may result in visible noise on the display. • Refer to graphics modes table in specifications section for supported modes. • Non-interlaced & interlaced video input is acceptable. IMPORTANT: Please read the Application Notes section for more information. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 6 of 34 CONNECTION & OPERATION CAUTION: Never connect or disconnect parts of the display system when the system is powered up as this may cause serious damage. CONNECTION Connection and usage is quite straight forward (it is useful to have the relevant connection diagram available at this time): 1. LCD panel & Inverter: Connect the inverter (if it is not built-in the panel) to the CCFT lead connector of the LCD panel. 2. LVDS type panels: Plug the LVDS signal cable direct to CN1 (if necessary). Insert the panel end of the cable to the LCD panel connector. 3. TTL type panels: Plug the signal cables direct to CN2 or CN3. Plug the other end of cables to the LCD connector board (if connector board is required, otherwise the signal can be direct plug to the LCD panel connector). Then plug the board connector to the LCD panel connector. 4. Inverter & Controller: Plug the inverter cable to CNB1 and CNA1 (if necessary). Plug another end to the connector on the inverter. 5. Function switch & Controller: Plug the OSD switch mount cable to CNC1 on the controller board and another to the OSD switch mount. 6. LED & Controller: Plug in a 3-way with dual colour LED to connector LED1 on the controller board. 7. Jumpers : Check all jumpers are set correctly. Details referring the connection diagram at http://www.digitalview.com/controllers/csg.php 8. Jumpers & Inverter & Panel voltage: Particularly pay attention to the settings of JA3, JA6, JB2, JB3. JB2 & JB3 are used for inverter control (read inverter specification and information on the jumper table to define the correct settings). JA3 & JA6 are used for panel voltage input (read panel specification and information on the jumper table to define the correct settings). 9. DVI cable : Plug the DVI cable to the connector P2 on the controller board. 10. VGA cable & Controller: Plug the VGA cable to the connector P1 on the controller board. 12. Power supply & Controller: Plug the DC 12V power in to the connector PP2. You can consider to use DigitalView mating power cable P/N 426013800-3, 160mm. 13. Power on: Switch on the controller board and panel by using the OSD switch mount. CAUTION: Never connect or disconnect parts of the display system when the system is powered up as this may cause serious damage. LED status : State No signal & backlight off No signal & backlight on With signal & backlight on LED color RED ORANGE GREEN General: • If you are using supplied cables & accessories, ensure they are correct for the model of panel and controller. • If you are making your own cables & connectors refer carefully to both the panel & inverter specifications and the section in this manual, “Connectors, Pinouts & Jumpers” to ensure the correct pin to pin wiring. PC SETTINGS The controller has been designed to take a very wide range of input signals however to optimize the PC’s graphics performance we recommend choosing 60Hz vertical refresh rate – this will not cause screen flicker. OPERATION Once the system has been connected and switched on there are a number of functions available to adjust the display image as summarized in the following sections. The settings chosen will be saved for each mode independently. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 7 of 34 LCD DISPLAY SYSTEM SETTINGS NOTE: By way of explanation the following refers to a set of sample buttons that may be obtained as an option. In addition to power on/off and connection for backlight brightness the controller provides an On Screen Display of certain functions which are controlled by 5 momentary type buttons (analog VR type) or 8 momentary type buttons (digital type): Controls On/Off – turns controller board power on Brightness – controls backlight brightness Menu – turns OSD menu On or Off (it will auto time off) (Function with signal input only) Select – Select function / Confirm (under OSD menu on state) Move up to select individual RGB color level OSD page (under OSD menu on state) + – increase the setting / moves the selector to the next function (under OSD menu on state) - - decrease the setting / moves the selector to the previous function (under OSD menu on state) Reset to Factory Defaults Lock OSD menu (Function with signal input only) Direct access key for Brightness level increase (under OSD menu off state) Direct access key for Brightness level decrease (under OSD menu off state) Direct access key for Backlight Brightness level (under OSD menu off state) increase# Direct access key for Brightness Brightness level # decrease (under OSD menu off state) Remark * - Only effective on V1.97.00 or up version. Analog VR type VR toggle switch Rotary VR Menu button Digital type On/Off button Brightness +/- buttons Menu button SEL DN SEL DN SEL UP SEL UP + + - - Press and hold SEL DN button, then power on the controller Press and hold MENU button for 15 seconds to enable / disable lock of the OSD menu + Press and hold SEL DN button, then power on the controller - - SEL UP SEL UP SEL DN SEL DN Press and hold MENU button for 15 seconds to enable / disable lock of the OSD menu + SEL UP - + Menu ON/Off/Brightness SEL DN Analog VR type Digital type Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 8 of 34 OSD Functions Select input source Input source 1 Select input source to Analog RGB Input source 2 Select input source to DVI Auto Source Seek ON – Auto source select always enable OFF – Disable auto source select function Select the input mode (1280 / 1360 / 1366 / 1368) to recognize and display the correct input signal information display on the OSD menu. 1280 : 1280x768 1360 : 1360x768 1366 :1366x768 1368 : 1368x768 Wide screen mode information display* Exit Exit the OSD menu and save the settings Brightness and Contrast Brightness Contrast Increase/decrease brightness level. Press – or + (Increase/decrease panel contrast level. Press – or + (- + ) Total : 256 steps + ) Total : 192 steps Backlight4 4 Invert B/L Invert : Invert for the backlight brightness Control D/A / PWM : Selection for voltage level dimming control / PWM dimming control Frequency Backlight frequency 100 ~ 440Hz in a step of 20 B/L Backlight brightness adjustment Exit Exit the OSD menu and save the settings Color Auto RGB Calibration* Color Temperature 4 Yes No ( Auto Color Calibration [See appendix IV]) (Adjust the warmness of the image displayed. The higher temperature the coolest image looks like. The lower temperature the warmest image looks like.) Adjust red color level Press – or + (+) Total :128 steps Adjust green color level Press – or + (+) Total : 128 steps Adjust blue color level Press – or + (+) Total : 128 steps Press SEL UP/DN button to select item Set the color temperature to 4200K Set the color temperature to 5000K Set the color temperature to 6500K Set the color temperature to 7500K Set the color temperature to 9300K Gamma adjustment4 4 Adjust Gamma settings (0.4 / 0.6 / 1.0 / 1.6 / 2.2) Select Gamma to 0.4 Select Gamma to 0.6 Select Gamma to 1.0 Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 9 of 34 Select Gamma to 1.6 Select Gamma to 2.2 Exit Exit the OSD menu and save the settings Autosetup* Auto adjust the positions, phase, frequency Frequency* Yes No Adjust the image horizontal size Phase* Fine tune the data sampling position (adjust image quality) Image Horizontal Position* Image Vertical Position* Exit Use +/- to move the image horizontally Press – or + (Use +/- to move the image vertically Press – or + (Exit the OSD menu Position +) +) Utilities OSD setting 4 Load Factory Default Sharpness Exit OSD Timeout : 0 / 10 / 20 / 30 / 40 / 50 / 60 seconds (Always on when set to 0) Press – or + (+) OSD menu horizontal position Press – or + (+) OSD menu vertical position Press – or + (+) Initialize the setting stored in non-volatile memory Adjust sharpness level Press – or + (Exit the OSD menu + ) Total : 7 steps Exit the OSD menu [Firmware version : V1.91.00 or up] * Function in ARGB mode only Items marked 4 have sub menus. Exit the OSD menu to save the setting chosen Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 10 of 34 CONNECTORS, PINOUTS & JUMPERS The various connectors are: Summary: Connectors Ref Purpose CN1 LVDS panel signal CN2 TTL panel signal CN3 TTL Panel signal CN8 Serial control (for firmware programming or RS-232 control use only) CNA1 Auxiliary power output CNB1 Backlight inverter CNC1 Function controls LED1 Dual color LED connector P1 ARGB signal input P2 DVI-D signal input PP2 Power input Description Hirose 40-pin, DF13-40DP-1.25DSA (Mating type : DF13-40DS-1.25C) Hirose 40-pin, DF20G-40DP-1V (Mating type : DF20A-40DS-1C) Hirose 50-pin, DF20G-50DP-1V (Mating type : DF20A-50DS-1C) JST 6-way, B6B-XH-A (Mating type : XHP-6) JST 4-way, B4B-XH-A JST 5-way, B5B-XH-A JST 12-way, B12B-XH-A Header pin 3x1 DB-15 way high density 3 row DVI-D connector Molex 43650-0200 compatible (Mating type : XHP-4) (Mating type : XHP-5) (Mating type : XHP-12) (Mating type : Molex 43645-0200 compatible) (Matching power cable : P/N 426013800-3) Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 11 of 34 Summary: Jumpers setting Ref Purpose JA2 On board +5V power enable JA3 Panel power voltage select JA6 Panel power voltage select JB2 Backlight inverter on/off control – signal level JB3 Backlight inverter on/off control – polarity JP2 Backlight control type selection JP6 Input power control JP7 Reserved JP8 Clock phase (Analog RGB) JP9 SW1 SW2 Reserved Panel selection Panel selection Table 1 : Panel voltage setting table : Input voltage via PP2 Panel Voltage 12VDC JA3 JA6 3.3V 3V3 closed 1-3 & 2-4 5V 5V closed 1-3 & 2-4 12V OPEN 5-7 & 6-8 Note 1-2 & 3-4 closed, factory set, do not remove See panel voltage setting table 1 CAUTION: Incorrect setting will cause panel damage See panel voltage setting table 1 CAUTION: Incorrect setting will cause panel damage 1-2 = On/Off control signal ‘High’ = +12V 2-3 = On/Off control signal ‘High’ = +5V Open = On/Off control signal ‘High’ = Open collector CAUTION: Incorrect setting can damage inverter. 1-2 = control signal ‘high’ = CCFT ON 2-3 = control signal ‘low’ = CCFT ON 1-2 = VR/Digital switch mount control 3-4 = Analog backlight brightness controlled by RS-232 – voltage range 0~5V 5-6 = PWM (Pulse Width Modulation) brightness Short = External switch control Open = Switch mount control Reserved for internal programming use (Always 1-2 closed) 1-2 = Normal 2-3 = Invert 1-2 = Default See table below See table below Jumper on board CAUTION: Incorrect setting can damage panel & controller Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 12 of 34 JA3 & JA6 location on board : (Please pay attention to the jumper settings on JA3 & JA6 which are red in color on board) ! Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 13 of 34 DIP Switch selection – SW1 Pos #1 Pos #2 Pos #3 Pos.#4 Description Panel resolution For SXGA panel ON ON ON OFF Sharp LQ181E1LW31 1280x1024 Fujitsu FLC48SXC8V 1280x1024 ON OFF OFF ON AU Optronics M190EG01 V0 (2) 1280x1024 (7) OFF ON OFF ON AU Optronics G170EG01 V1 1280x1024 For WXGA panel ON OFF OFF OFF Samsung LTA260W2-L01(3) 1366x768 OFF ON OFF OFF NEC NL12876BC26-21 1280x768 OFF ON ON OFF Toshiba LTD089EXWS (3) 1280x768 (1) ON ON OFF OFF Samsung LTA460WS-L03 (Non-tested) 1366x768 OFF OFF ON OFF Sharp LQ315T3LZ24 (Non-tested) (1) 1366x768 ON OFF ON OFF LG LC420W02-A4 (Non-tested) (1) 1366x768 For XGA panel OFF ON ON OFF LG LM151X2 1024x768 ON ON OFF ON Sharp LQ150X1LGB1 1024x768 Sharp LQ150X1LGN2A 1024x768 Fujitsu FLC38XGC6V-06 1024x768 ON OFF ON ON NEC NL10276BC12-02 1024x768 OFF ON ON ON NEC NL10276BC30-18C (3) 1024x768 OFF OFF OFF OFF Sharp LQ150X1DG11 (6) (e) 1024x768 ON ON ON ON LG LP097X02-SLA3 (6) 1024x768 For SVGA panel OFF OFF ON OFF Sharp LQ121S1DG41 800x600 OFF ON ON OFF Sharp LQ084S3DG01(3) 800x600 ON OFF ON OFF Toshiba LTM12C289 800x600 ON ON ON OFF Toshiba LTM08C351(4) (for 6 Bit panel) 800x600 OFF OFF OFF ON Sharp LQ104S1DG21 (3) 800x600 ON OFF OFF ON NEC NL8060BC26-27 (6) (d) 800x600 OFF ON OFF ON Sharp LQ121S1LG81 (7) 800x600 For VGA / WVGA panel ON OFF OFF OFF Sharp LQ104V1DG21 640x480 Sharp LQ10D368 640x480 Sharp LQ104V1DG51 640x480 ON ON OFF OFF Sharp LQ64D343 (2) 640x480 ON OFF ON OFF NEC NL6448AC33-29 (3) 640x480 (3) OFF OFF OFF ON PrimeView PD064VT5 640x480 (3) NEC NL6448BC26-01 640x480 ON ON OFF ON NEC NL6448BC33-50 (4) 640x480 ON OFF ON ON NEC NL6448BC26-09 (4) (c) 640x480 (2) OFF OFF ON OFF Toshiba LTA070A321F 800x480 ON OFF OFF ON Mitsubishi AA050MC01(3) 800x480 OFF ON OFF ON NEC NL8048BC19-02 (4) 800x480 (4) (b) OFF OFF ON ON Sharp LQ070Y3LG4A 800x480 OFF ON ON ON BOE HVT43WV1-M02 (5) 800x480 Others (5) OFF OFF ON OFF LG LM171WX3-TLA1 1440x900 OFF ON OFF OFF NEC NL12880BC20-02D (3) 1280x800 (5) ON OFF ON OFF Sharp LQ123K1LG03 1280x480 ON OFF OFF OFF Chunghwa CLAA070NA01CT (3) 1024x600 (3) (a) ON ON OFF OFF NEC NL4823BC37-05 480x234 OFF ON ON OFF AU M220EW01 (6) 1680x1050 ON ON ON OFF NEC NL6448BC20-30 (7) 640x480 OFF OFF OFF ON NEC NL10276BC20-18 (7) 1024x768 For additonal and recent added panels, see ALR-1400 panel support table at http://www.digitalview.com/controllers/csg.php (1) Only effective on V1.31 or up version. (2) Only effective on V1.61.00 or up version. (3) Only effective on V1.76.00 or up version. (4) Only effective on V1.80.00 or up version. (5) Only effective on V1.84.00 or up version. (6) Only effective on V1.91.00 or up version. (7) Only effective on V1.97.00 or up version. (a) Display at most output a 480x260 image when inputting 640x480 input resolution. (b) Support 640x480 input resolution only come from ARGB & DVI. The vertical size will not fit for 800x600 resolution input. (c) Flicker image is present when making image UP position adjustment in the OSD menu. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 14 of 34 Pos #5 OFF ON OFF ON OFF ON OFF ON Pos #6 OFF OFF ON ON OFF OFF ON ON Pos #7 OFF OFF OFF OFF ON ON ON ON Description Reserved Reserved SXGA WXGA XGA SVGA VGA / WVGA Others SW1 Pos 8 = Reserved. DIP switch selection – SW2 Pos. # Function 1 Panel pixel format Description OFF : Double Pixel ON : Single Pixel 2 LVDS data mapping select ON : Mapping A (LVDS panel) OFF : Mapping B (LVDS panel) Please adjust to get the correct picture. See as Appendix II for details of mapping A and B. Set ON for TTL panels. The most current list can be found the controller solution generator at http://www.digitalview.com/controllers/csg.php Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 15 of 34 CN1 – Panel connector: Hirose, DF13A-40DP-1.25DSA (Matching type : DF13-40DS-1.25C) PIN SYMBOL DESCRIPTION 1 TXA0+ Positive differential LVDS data bit A0 2 TXA0Negative differential LVDS data bit A0 3 TXA1+ Positive differential LVDS data bit A1 4 TXA1Negative differential LVDS data bit A1 5 Reserved 6 Reserved 7 TXA2+ Positive differential LVDS data bit A2 8 TXA2Negative differential LVDS data bit A2 9 TXA3+ Positive differential LVDS data bit A3 10 TXA3Negative differential LVDS data bit A3 11 GND Ground 12 GND Ground 13 TXAC+ Positive LVDS clock for A channel 14 TXACNegative LVDS clock for A channel 15 GND Ground 16 GND Ground 17 TXB0+ Positive differential LVDS data bit B0 18 TXB0Negative differential LVDS data bit B0 19 TXB1+ Positive differential LVDS data bit B1 20 TXB1Negative differential LVDS data bit B1 21 Reserved 22 Reserved 23 TXB2+ Positive differential LVDS data bit B2 24 TXB2Negative differential LVDS data bit B2 25 TXB3+ Positive differential LVDS data bit B3 26 TXB3Negative differential LVDS data bit B3 27 GND Ground 28 GND Ground 29 TXBC+ Positive LVDS clock for B channel 30 TXBCNegative LVDS clock for B channel 31 GND Ground 32 GND Ground 33 VDD (3,3V/5V) Panel power supply (3,3V/5V) (selected by JA3 & JA6) 34 VDD (3,3V/5V) Panel power supply (3,3V/5V) (selected by JA3 & JA6) 35 VDD (3,3V/5V) Panel power supply (3,3V/5V) (selected by JA3 & JA6) 36 VDD (3,3V/5V) Panel power supply (3,3V/5V) (selected by JA3 & JA6) 37 NC No connection 38 VDD (+12V) Panel power supply (+12V) (selected by JA3 & JA6) 39 VDD (+12V) Panel power supply (+12V) (selected by JA3 & JA6) 40 VDD (+12V) Panel power supply (+12V) (selected by JA3 & JA6) CN2 – Panel connector: HIROSE DG20G-40DP-1V (Matching type : DF20A-40DS-1C) PIN SYMBOL DESCRIPTION 1 GND Ground 2 GND Ground 3 NC No connection 4 NC No connection 5 ER0 Even data bit R0 6 ER1 Even data bit R1 7 ER2 Even data bit R2 8 ER3 Even data bit R3 9 ER4 Even data bit R4 10 ER5 Even data bit R5 11 ER6 Even data bit R6 12 ER7 Even data bit R7 13 GND Ground 14 GND Ground 15 NC No connection 16 NC No connection 17 EG0 Even data bit G0 18 EG1 Even data bit G1 19 EG2 Even data bit G2 20 EG3 Even data bit G3 21 EG4 Even data bit G4 22 EG5 Even data bit G5 23 EG6 Even data bit G6 24 EG7 Even data bit G7 Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 16 of 34 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 GND GND NC NC EB0 EB1 EB2 EB3 EB4 EB5 EB6 EB7 GND GND CLK NC Ground Ground No connection No connection Even data bit B0 Even data bit B1 Even data bit B2 Even data bit B3 Even data bit B4 Even data bit B5 Even data bit B6 Even data bit B7 Ground Ground Dot clock No connection CN3 – Panel connector: HIROSE DF20G-50DP-1V (Matching type : DF20A-50DS-1C) PIN SYMBOL DESCRIPTION 1 GND Ground 2 GND Ground 3 NC No connection 4 NC No connection 5 OR0 Odd data bit R0 6 OR1 Odd data bit R1 7 OR2 Odd data bit R2 8 OR3 Odd data bit R3 9 OR4 Odd data bit R4 10 OR5 Odd data bit R5 11 OR6 Odd data bit R6 12 OR7 Odd data bit R7 13 GND Ground 14 GND Ground 15 NC No connection 16 NC No connection 17 OG0 Odd data bit G0 18 OG1 Odd data bit G1 19 OG2 Odd data bit G2 20 OG3 Odd data bit G3 21 OG4 Odd data bit G4 22 OG5 Odd data bit G5 23 OG6 Odd data bit G6 24 OG7 Odd data bit G7 25 GND Ground 26 GND Ground 27 NC No connection 28 NC No connection 29 OB0 Odd data bit B0 30 OB1 Odd data bit B1 31 OB2 Odd data bit B2 32 OB3 Odd data bit B3 33 OB4 Odd data bit B4 34 OB5 Odd data bit B5 35 OB6 Odd data bit B6 36 OB7 Odd data bit B7 37 GND Ground 38 GND Ground 39 VS Vertical sync 40 CLK Dot clock 41 HS Horizontal sync 42 DE Display enable 43 PWR Power down control signal (5v TTL) 44 VLCD Panel power supply (3,3V/5V) (selected by JA3 & JA6) 45 VLCD Panel power supply (3,3V/5V) (selected by JA3 & JA6) 46 VLCD Panel power supply (3,3V/5V) (selected by JA3 & JA6) 47 NC No connection 48 VLCD12 +12V panel supply (selected by JA3 & JA6) 49 VLCD12 +12V panel supply (selected by JA3 & JA6) 50 VLCD12 +12V panel supply (selected by JA3 & JA6) Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 17 of 34 CN8 – RS-232 serial control: JST B6B-XH-A (Matching type : XHP-6) PIN SYMBOL 1 SDATA 2 SCLK 3 VCC 4 TXD 5 GND 6 RXD CNA1 - Auxiliary power output: JST B4B-XH-A (Matching type : XHP-4) PIN SYMBOL 1 AUX POWER 2 GND 3 GND 4 AUX 5V DESCRIPTION Reserved Reserved +5V RS-232 Tx data Ground RS-232 Rx data DESCRIPTION +12V DC, 500mA max Ground Ground +5V DC, 500mA max CNB1 – Backlight inverter connector: JST B5B-XH-A (Matching type : XHP-5) PIN SYMBOL DESCRIPTION 1 GND Ground 2 VBKL Backlight power supply, +12VDC, 3A max 3 BLCTRL Backlight On/Off control signal (refer to JB2 & JB3) 4 BVR_WIP Backlight brightness VR pin WIP 5 BVR_A Backlight brightness VR pin A CNC1 – Control switch, JST B12B-XH-A PIN SYMBOL 1 PSWIN 2 SW_ON 3 BVR_A 4 BVR_WIP 5 BVR_B 6 GND 7 MENU 8 -/LEFT 9 +/RIGHT 10 SEL_DN 11 SEL_UP 12 NC LED1 – Status LED connector: 3-pin header PIN 1 2 3 DESCRIPTION Power button A Power button B Backlight Brightness VR pin A Backlight Brightness R pin WIP Backlight Brightness VR pin B (470 ohm resistor to +5V Vcc) Ground OSD menu OSD -/Left OSD +/Right OSD Select down OSD Select up No connection DESCRIPTION Green LED pin (anode) LED pin common (cathode) Red LED pin (anode) Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 18 of 34 P1 - Analog VGA input – DB-15 way high density 3 row PIN SYMBOL 1 PCR 2 PCG 3 PCB 4 ID2 5 DGND 6 AGND 7 AGND 8 AGND 9 DDC_5V 10 DGND 11 ID0 12 DDC_SDA 13 HS_IN 14 VS_IN 15 DDC_SCL P2 – DVI-D input PIN 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 SYMBOL /RX2 RX2 GND NC NC DVI_DDC_CLK DVI_DDC_DAT DVI_VS_IN /RX1 RX1 GND NC NC DVI_DDC_5V GND NC /RX0 RX0 GND NC NC GND RXC /RXC NC NC PP2 - Power supply PIN 1 2 DESCRIPTION Red, analog Green, analog Blue analog Reserved for monitor ID bit 2 (grounded) Digital ground Analog ground red Analog ground green Analog ground blue +5V power supply for DDC (optional) Digital ground Reserved for monitor ID bit 0 (grounded) DDC serial data Horizontal sync or composite sync, input Vertical sync, input DDC serial clock DESCRIPTION TMDS Data 2TMDS Data 2+ Digital Ground No connection No connection DDC Clock DDC Data Analog vertical Sync TMDS Data 1TMDS Data 1+ Digital Ground No connection No connection +5V power supply for DDC (optional) Ground (+5, Analog H/V Sync) No connection TMDS Data 0TMDS Data 0+ Digital Ground No connection No connection Digital Ground TMDS Clock+ TMDS ClockNo connection No connection DESCRIPTION +12VDC 5A max Ground Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 19 of 34 CONTROLLER DIMENSIONS The maximum thickness of the controller is 18.8mm (measured from bottom of PCB to top of components, including any underside components & leads). We recommend clearances of: • 5mm from bottom of PCB - if mounting on a metal plate we also recommend a layer of suitable insulation material is added to the mounting plate surface. • 10mm above the components • 3~5mm around the edges Any of the holes shown above can be used for mounting the PCB, they are 3.2mm in diameter. CAUTION: Ensure adequate insulation is provided for all areas of the PCB with special attention to high voltage parts such as the inverter. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 20 of 34 APPLICATION NOTES USING THE CONTROLLER WITHOUT BUTTONS ATTACHED This is very straightforward by following the steps below : • Firstly setup the controller/display system with the buttons. With controls attached and display system active make any settings for colour and image position as required then switch everything off. • Use a jumper to close JP6 jumper, this will fix the board On. • Refer to inverter specifications for details as to fixing brightness to a desired level, this may require a resistor, an open circuit or closed circuit depending on inverter. INVERTER CONNECTION There are potentially 3 issues to consider with inverter connection: • Power • Enable • Brightness Please read the following sections for a guide to these issues. Inverter Power: As per the table for CNB1 pin 1 is ground and pin 2 provides DC12V. This should be matched with the inverter specification: see table. CNB1 PIN DESCRIPTION 1 Ground 2 +12VDC Remark: For higher power inverter, more current (for 12V can be taken from CNA1 pin 1. Maximum current drawn on CNA1 pin 1 and CNB1 pin 2 is 3A(12V) Enable: This is a pin provided on some inverters for On/Off function and is used by this panel controller for VESA DPMS compliance. If the inverter does not have an enable pin or the enable pin is not used then DPMS will not be operational. Pin 3 should be matched to the inverters specification for the ‘enable’ or ‘disable’ pin. CNB1 PIN 3 DESCRIPTION Enable Further, jumpers JB2 & JB3 should be set to match the inverters specification for the enable pin power and High or Low setting: see table. Ref JB2 JB3 Purpose Inverter enable voltage Inverter control Note 1-2 H = 12V, 2-3 H = 5V (Vcc), OPEN H = open collector 1-2 H = On, 2-3 L = On Brightness: There are various methods for brightness control and it is important to consider the specifications for the inverter to be used. Generally the situation is: • Brightness can controlled by using a resistor or VR (Variable Resistor). • Brightness controlled by adding a circuit such as PWM (Pulse Width Modulation). • No adjustment of brightness is possible. CNB1 pins 4 & 5 are available for connecting to an inverter or circuit where VR control is supported. CNB1 PIN DESCRIPTION 4 VR WIP 5 VR A This can then be matched with function controls (OSD switch mount) pins 3 & 4: see cable design below . Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 21 of 34 Design Guideline for making VR circuitry : Signal description / Notes : 1) R1 : 470ohm on board 2) RPOT is an external potentiometer (in-line dip style) that can be plugged directly into CNC1 pins 3,4,5. RPOT must be supplied / installed by user. 3) BVR_B : Voltage tapped from “top” of potentiometer, the node of R1 and RPOT. 4) BVR_WIP : Voltage tapped from wiper arm of RPOT. 5) BVR_A : Voltage tapped from “bottom” of RPOT. Note : BVR_A voltage is left floating on the controller board. To use this circuit, you need to tie this point to a potential (usually GND, available at CNC1 pin 6). CNB1 – Backlight inverter connector: JST B5B-XH-A (Matching type : XHP-5) PIN SYMBOL DESCRIPTION 1 GND Ground 2 VBKL +12VDC, backlight power supply (selected by JA3 & JA6) 3 BLCTRL On/Off control (enable) – see JB2 & JB3 4 BVR_WIP Brightness VR - WIP 5 BVR_A Brightness VR A CNC1 – Control switch, JST B12B-XH-A (Matching type : XHP-12) PIN SYMBOL DESCRIPTION 1 PSWIN Power button A 2 SW_ON Power button B 3 BVR_A Backlight Brightness VR pin A 4 BVR_WIP Backlight Brightness R pin WIP 5 BVR_B Backlight Brightness VR pin B (470 ohm resistor to +5V Vcc) 6 GND Ground 7 MENU OSD menu 8 -/LEFT OSD -/Left 9 +/RIGHT OSD +/Right 10 SEL_DN OSD Select down 11 SEL_UP OSD Select up 12 NC No connection The VR for brightness depends on the inverter. The main power load for On/Off is handled by a relay on the controller. Example for circuit design : 1.)Choose RPOT = 10K 2.) Tie BVR_A to GND 3.) Circuit analysis gives BVR_WIP as the following (see Figure 1) BVR_WIP = 5 x (Rbc/10.47) where BVR_WIP is in Volts. And Rbc is the resistance from the wiper arm to bottom of pot in Kohms. To evaluate, plug in different values of Rbc : Rbc 0 2.5 K 5K 7.5 K 10 K BVR_WIP 0V 1.2 V 2.4 V 3.6 V 4.8 V So this circuit could provide Brightness adjust voltage ranging from 0V to 5V. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 22 of 34 TROUBLESHOOTING General A general guide to troubleshooting a flat panel display system it is worth considering the system as separate elements, such as: Controller (jumpers, PC settings) Panel (controller, cabling, connection, panel, PC settings) Backlight (inverter, cabling, backlight tubes) Cabling Computer system (display settings, operating system) Through step by step cross checking with instruction manuals and a process of elimination to isolate the problem it is usually possible to clearly identify the problem area. No image: If the panel backlight is not working it may still be possible to just see some image on the display. A lack of image is most likely to be caused by incorrect connection, lack of power, failure to provide a signal or incorrect graphic card settings. Image position: If it is impossible to position the image correctly, ie the image adjustment controls will not move the image far enough, then test using another graphics card. This situation can occur with a custom graphics card that is not close to standard timings or if something is in the graphics line that may be affecting the signal such as a signal splitter (please note that normally a signal splitter will not have any adverse effect). Image appearance: A faulty panel can have blank lines, failed sections, flickering or flashing display Incorrect graphics card refresh rate, resolution or interlaced mode will probably cause the image to be the wrong size, to scroll, flicker badly or possibly even no image. Incorrect jumper settings on the controller may cause everything from total failure to incorrect image. CAUTION: Do not set the panel power input incorrectly. Sparkling on the display: faulty panel signal cable. Backlight: Items to check include: Power input, Controls, Inverter and Tubes generally in this order. If half the screen is dimmer than the other half: Check cabling for the inverter. For a specific backlight tube check the AC pins orientation (CAUTION: Never reverse any DC power pins). Also: If adjusting brightness control has no effect the chances are that the VR rating or method of adjusting brightness is not compatible or correctly connected to the inverter. If system does not power down when there is a loss of signal Continued failure: If unit after unit keeps failing consider and investigate whether you are short circuiting the equipment or doing something else seriously wrong. Generally after common sense issues have been resolved we recommend step by step substitution of known working parts to isolate the problem. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 23 of 34 SPECIFICATIONS Panel compatibility 1366x768, 1280x1024, 1280x800, 1280x768, 1024 x 768, 1024x600, 800x600, 800x480, 640x480 or 480x234 resolution TFT LVDS or TTL LCD’s support. No. of colours Up to 3 x 8 bit providing 16.7 million colours. Vertical refresh rate SXGA, XGA, SVGA, VGA resolution up to 60Hz. Dot clock (pixel clock) maximum 135 MHz Graphics formats Standard SXGA, XGA,SVGA,VGA Standard input at source - VGA analog (15-pin) standard with automatic detection of : Digital Separate Sync Sync-On-Green Composite Sync - DVI-D Controls available - On/Off - Brightness (inverter) - OSD menu, - OSD select - OSD setting + - OSD setting Control interface - Buttons, Serial Port control Settings memory Settings are stored in non volatile memory Language OSD support Graphics OSD icons VESA DPMS implementation Yes Plug & Play VESA DDC 1, 2/b compatible Voltage output for LCD +3.3V , +5V, +12V Input voltage 12VDC , 5A max +/- 25%, 4W (controller only) Controller dimensions 107mm x 92mm x 21mm Storage temperature limits -40oC to +85oC Operating temperature limits -40oC to +80oC** Coating Silicone resin conformal coating. (MOD) DEF-STAN 59/47 Issue 4 & UL QMJU2 compliant. Calculated Mean Time Between Failures In excess of 200,000 hours ** Laboratory certification report available at http://www.digitalview.com/support/downloads/HE-1400_report.pdf . Overall suitability for usage in critical applications must be independently tested and verified by the user. NOTES Please note the following: • For specific panel setup a sample of an LCD may be required (this will be returned) and a copy of the full technical specifications for the panel from the manufacturer. • Relayout and custom development services are available. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 24 of 34 Appendix I – Graphic Mode Support Table Mode Resolution E1_70 640x350 70Hz E2_70 640x400 70Hz 640x480 60Hz 640x480 60Hz 640x480 60Hz 800x600 56Hz 800x600 56Hz 800x600 56Hz 800x600 60Hz 800x600 60Hz 800x600 60Hz 1024x768 60Hz 1024x768 60Hz 1024x768 60Hz V_60 V_60 V_60 SV_56 SV_56 SV_56 SV_60 SV_60 SV_60 X_60 X_60 X_60 SX_60 SX_60 SX_60 1280x1024 60Hz 1280x1024 60Hz 1280x1024 60Hz Clk [MHz] Horizontal freq [KHz] 25.175 31.469 Vertical Sync Mode freq [Hz] 70.087 Digital Separate Sync 25.175 31.469 70.087 Digital Separate Sync 25.175 31.469 59.940 Digital Separate Sync 25.175 31.469 59.940 Sync On Green 25.175 31.469 59.940 Composite Sync 36.000 35.156 56.250 Digital Separate Sync 36.000 35.156 56.250 Sync On Green 36.000 35.156 56.250 Composite Sync 40.000 37.879 60.317 Digital Separate Sync 40.000 37.879 60.317 Sync On Green 40.000 37.879 60.317 Composite Sync 65.000 48.363 60.004 Digital Separate Sync 65.000 48.363 60.004 Sync On Green 65.000 48.363 60.004 Composite Sync 108 63.81 60.020 Digital Separate Sync 108 63.81 60.020 Sync On Green 108 63.81 60.020 Composite Sync Remark : The controller has been designed to take a very wide range of input signals however to optimize the PC’s graphics performance we recommend choosing 60Hz vertical refresh rate. To support on higher refresh rate over 60Hz, the LCD panel may not support. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 25 of 34 Appendix II – RS-232 control protocols RS-232 Serial control (Baud rate 2400, 8 bits, 1 stop bit and no parity) Physical connection : Controller side Connector interface : CN8 Mating connector : JST XHP-6 6 5 4 PIN# 4 5 6 1 3 Computer side Connector interface : Serial port Mating connector : DB9 Female 1 Mating face of CN8 Description RS-232 Tx Data Ground RS-232 Rx Data 4 3 6 PIN# 2 3 5 7 8 5 9 Mating face of RS-232 DB9 Male Description RS-232 Rx Data RS-232 Tx Data Ground Remark : (1) : RS-232 connection cable, 600mm P/N 4260902-00 can be ordered separately for connection. Software connection : The OSD function can be controlled through sending the RS-232 protocol. The RS-232 program can be custom-made to fit for application or it can be used the program provided by Digitalview on request. Please contact your local sales for informations. 1. Commands to implement switch mount control buttons Function OSD Menu Lock Command 0xf6 Acknowledge (if enabled) Button equivalent 0xf7 0xfa Description OSD menu Lock Off / OSD menu Lock On Menu button pressed Select down button pressed Menu Select-down button Select-up button Right/+ button Left/- button 0xfb 0xfc 0xfd Select up button pressed Right/+button pressed Left/- button pressed Button equivalent Button equivalent Button equivalent Button equivalent Button equivalent 2. Parameter setting - immediate, relative, reset and query Function Brightness control Command 0x81, nn | “+” | “-” | “r” | “R” | “?” 0x82, “a” | “A”, nn | “+” | “-” | “r” | “R” | “?” 0x85, nn | “+” | “-” | “?” Description Set brightness = value/increment/decrement Reset Query Set all contrast = value/increment/decrement Reset Query Set dot clock phase = value/increment/decrement Query Acknowledge (if enabled) Brightness. Image H position # 0x86, nnnn | “+” | “-” | “?” Set img_hpos = value/increment/decrement Query Image horizontal position. (In ARGB mode only) # 0x87, nnnn | “+” | “-” | “?” Set img_vpos = value/increment/decrement Query Image vertical position. (In ARGB mode only) Contrast control Phase # Image V position Range: “0””0”-“F””F” Default: “8””0” Contrast. Range: “4””0”-“F””F” Default: “8””0” Dot clock phase. (In ARGB mode only) Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 26 of 34 Sharpness (Functon available in V1.91.00 or later revision) Frequency # Select menu Timeout 0x8A, n | “+” | “-” | ”r” | ”R” | “?” Set sharpness= value/increment/decrement/ Reset/ Query 0x8b, nnnn | “+” | “-“ | “?” Set H active size = value/increment/decrement Query 0x93, nn | “+” | “-“ | “r” |“R” | “?” Select menu timeout =value/increment/decrement/ Reset/Query 0x98, nn | “+” | “-“ | “r” | “R” | “?” 0x9D, n |“r” | “R” | “?” Select input main = PC or video or next available Reset Query Select GAMMA value =Value/Reset/Query 0xb3, n| “r” | “R” | “?” Select colour temperature = value Reset Query 0xb4, Set the level of the red channel for the selected colour temp. = value/increment/decrement Reset Query Set the level of the green channel for the selected colour temp. = value/increment/decrement Reset Query Set the level of the blue channel for the selected colour temp. = value/increment/decrement Reset Query Turn off the OSD Wide Screen Mode value =Value/Reset/Query (Functon available in V1.91.00 or later revision) Input main select * Function in valid mode only GAMMA value Select (Functon available in V1.91.00 or later revision) Colour temperature select Red level for selected colour temperature Green level for selected colour temperature Blue level for selected colour temperature OSD turn off Wide Screen Mode Selection nn | “+” | “-” | “r” | “R” | “?” 0xb5, nn | “+” | “-” | “r” | “R” | “?” 0xb6, nn | “+” | “-” | “r” | “R” | “?” 0xbd 0xD9, n |“r” | “R” | “?” (Functon available Sharpness value: “0x30” – 0 (Default) “0x31” – 1 “0x32” – 2 “0x33” – 3 “0x34” – 4 “0x35” – 5 “0x36” – 6 Frequency adjustment (In ARGB mode only) OSD menu timeout value. If value > max available step, set it to the max available step. “0x30,0x30” – 0 (Always on) “0x30,0x41” – 10 sec (Default) “0x31,0x34” – 20 sec “0x31,0x45” – 30 sec “0x32,0x38” – 40 sec “0x33,0x32” – 50 sec “0x33,0x43” – 60 sec Main selected. “0x41,0x31” ARGB (Default) “0x46,0x31” DVI GAMMA value: “0x30” – 0.4, “0x31” – 0.6 “0x32” – 1.0 (Default), “0x33” – 1.6 “0x34” – 2.2 Main selected. “0” – user defined RGB values. “1” – 4200K. “2” – 5000K. “3” – 6500K. “4” – 7500K. (Default) “5” – 9300K. Red level for selected colour temperature. Range: “8””0”-“F””F” Default: “F””F” Green level for selected colour temperature. Range: “8””0”-“F””F” Default: “F””F” Blue level for selected colour temperature. Range: “8””0”-“F””F” Default: “F””F” “1” - successful Wide Screen Mode value: “0x30” – 1280 x 768, (Default), “0x31” – 1360 x 768 “0x32” – 1366 x 768 Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 27 of 34 in V1.91.00 or later revision) Backlight brightness control “0x33” – 1368 x 768 0xe0, nn | “+” | “-” | “r” | “R” | “?” Set backlight brightness = value/increment/decrement Reset Query Backlight on/off control 0xe1, “0” | “1” | “r” | “R” | “?” Backlight on/off. Backlight brightness control 0xe0, nn | “+” | “-” | “?” Set backlight brightness = Disable backlight Enable backlight Reset Query Backlight working status Set backlight brightness = value/increment/decrement Query Backlight PWM 0xe5, “0” | “1” | “?” Set: PWM or D/A Query “1” – PWM “0” – D/A 0xe6, nnn | “+” | “-” | “?” Set Backlight PWM Frequency = Value/ increment/ decrement Query 0xe7, 0” | “1” | “?” Set On or Off 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” “1” – Invert “0” – Normal (Functon available in V1.91.00 or later revision) (Functon available in V1.91.00 or later revision) Backlight PWM Frequency (Functon available in V1.91.00 or later revision) Backlight Invert (Functon available Backlight brightness. Range: D/A : “0””0”-“6””4” 100Hz : “0””0” ~ “6””4” 120Hz : “0””0” ~ “6””4” 140Hz : “0””0” ~ “6””4” 160Hz : “0””0” ~ “6””4” 180Hz : “0””0” ~ “6””4” 200Hz : “0””0” ~ “6””4” 220Hz : “0””0” ~ “6””4” 240Hz : “0””0” ~ “6””4” 260Hz : “0””0” ~ “6””4” 280Hz : “0””0” ~ “6””4” 300Hz : “0””0” ~ “6””4” 320Hz : “0””0” ~ “6””4” 340Hz : “0””0” ~ “6””4” 360Hz : “0””0” ~ “6””4” 380Hz : “0””0” ~ “6””4” 400Hz : “0””0” ~ “6””4” 420Hz : “0””0” ~ “6””4” 440Hz : “0””0” ~ “6””4” “1” = normal (Default) Backlight brightness. Range: “0””0”-“F””F” Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 28 of 34 in V1.91.00 or later revision) OSD menu Lock 0xf6, (Functon available n | “0” | “1” | in V1.80.00 or “r” | “R” | later revision) “?” # - Function in ARGB mode only OSD menu Lock Off/ On Reset Query “0” – OSD Lock Off “1” – OSD Lock On Description Disable/enable command acknowledge. Start auto-setup of current mode. Acknowledge (if enabled) “0” – acknowledge disabled. “1” – acknowledge enabled. “0” – fail. “1” – successful. “0” – not available. “1” – available. “0” – fail. “1” – successful. “nnnn” = BIOS ver. “nn.nn” 3. Other control Function Select RS-232 acknowledge # Auto-setup Command availability # Auto-calibration Command 0xc1, “0” | “1” 0xc3 0xc4, n Check whether a command is available. Start auto-calibration of gain of the RGB amplifier. Read BIOS version 0xc5 Query BIOS 0xcb, “0” version Query PCBA 0xcb, “1” number Load factory 0xce defaults # - Function in ARGB mode only Read PCBA number Reset all parameters to factory default value “nnnn” = PCBA number ALR-1400=”41710” “1” – successful. Hex to ASCII conversion table Hex 0x30 0x31 0x32 0x33 0x34 0x35 0x36 0x37 0x38 0x39 ASCII 0 1 2 3 4 5 6 7 8 9 Hex 0x41 0x42 0x43 0x44 0x45 0x46 0x47 0x48 0x49 0x4A 0x4B 0x4C 0x4D 0x4E 0x4F 0x50 0x51 0x52 0x53 0x54 0x55 0x56 0x57 0x58 0x59 0x5A ASCII A B C D E F G H I J K L M N O P Q R S T U V W X Y Z Hex 0x61 0x62 0x63 0x64 0x65 0x66 0x67 0x68 0x69 0x6A 0x6B 0x6C 0x6D 0x6E 0x6F 0x70 0x71 0x72 0x73 0x74 0x75 0x76 0x77 0x78 0x79 0x7A ASCII a b c d e f g h i j k l m n o p q r s t u v w x y z Hex 0x2B 0x2D 0x3F ASCII + ? Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 29 of 34 Appendix III – Mapping definition • Definition of Mapping A : Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 30 of 34 • Definition of Mapping B : Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 31 of 34 Appendix IV – 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. 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. Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 32 of 34 WARRANTY The products are warranted against defects in workmanship and material for a period of three (3) year from the date of purchase provided no modifications are made to it and it is operated under normal conditions and in compliance with the instruction manual. The warranty does not apply to: • Product that has been installed incorrectly, this specifically includes but is not limited to cases where electrical short circuit is caused. • Product that has been altered or repaired except by the manufacturer (or with the manufacturer’s consent). • Product that has subjected to misuse, accidents, abuse, negligence or unusual stress whether physical or electrical. • Ordinary wear and tear. Except for the above express warranties, the manufacturer disclaims all warranties on products furnished hereunder, including all implied warranties of merchantability and fitness for a particular application or purpose. The stated express warranties are in lieu of all obligations or liabilities on the part of the manufacturer for damages, including but not limited to special, indirect consequential damages arising out of or in connection with the use of or performance of the products. CAUTION Whilst care has been taken to provide as much detail as possible for use of this product it cannot be relied upon as an exhaustive source of information. This product is for use by suitably qualified persons who understand the nature of the work they are doing and are able to take suitable precautions and design and produce a product that is safe and meets regulatory requirements. LIMITATION OF LIABILITY The manufacturer’s liability for damages to customer or others resulting from the use of any product supplied hereunder shall in no event exceed the purchase price of said product. TRADEMARKS The following are trademarks of Digital View Ltd: • Digital View • HE-1400 Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 33 of 34 CONTACT DETAILS Digital View has offices in Asia, Europe and USA also an internet site: ASIA Digital View Ltd 16th Floor Millennium City 3 370 Kwun Tong Road Kwun Tong Hong Kong Tel: (852) 2861 3615 Fax: (852) 2520 2987 Sales: [email protected] EUROPE Digital View Ltd. 6 Marylebone Passage, London, W1W 8EX UK Tel: +44-(0)20-7631-2150 Fax: +44-(0)20-7631-2156 Sales: [email protected] USA Digital View Inc. 18440 Technology Drive Building 130 Morgan Hill, California, 95037 USA Tel: (1) 408-782 7773 Fax: (1) 408-782 7883 Sales: [email protected] WEBSITE www.digitalview.com Specifications subject to change without notice © Digital View Ltd – Doc Ver 1.00: 7 July 2016 Page 34 of 34
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Key Features
- Harsh environment operation
- Wide operating temperature and voltage range
- Shock and vibration tolerance
- Conformal coating
- Support for LVDS or TTL interface panels
- On-screen display (OSD) menu for adjustments
- RS-232 control port
- Supports various panel resolutions
- DVI-D and analog VGA inputs
- Backlight brightness control
Frequently Answers and Questions
What is the operating temperature range of the HE-1400 controller?
The HE-1400 controller has a laboratory certified operating temperature range from -40°C to +80°C.
What kind of panels does the HE-1400 controller support?
The HE-1400 controller supports TFT panels with LVDS or TTL interfaces and resolutions of 1366x768, 1280x1024, 1280x800, 1280x768, 1024x768, 1024x600, 800x600, 800x480, 640x480 or 480x234.
How do I control the backlight brightness of the HE-1400 controller?
The HE-1400 controller allows you to control backlight brightness using the OSD menu or, depending on the inverter, by connecting a potentiometer to the VR pins.