Features:
- True DDC Emulation. Unless an extender actively supports DDC, some high-performance video cards cannot be used at high resolutions. The DDC Ghost supports dual page DDC ensuring compatible resolutions are supported.
- Interface Powered. The DDC Ghost takes its power directly from VGA pin 9. This reduces clutter and makes installation as simple as possible.
- Full EDID Cloning. The DDC Ghost will clone a full dual page EDID (Extended Display Identification Data). This makes the DDC Ghost compatible with the latest ranges of display devices. The first page is the standard EDID data, and the second covers the extended data block.
- Standard EDID Data. The expertise with DDC EDID data has allowed to put together an extended profile that is designed to cover most display devices. As such, the DDC Ghost may be used in connections where no data is otherwise. You can choose whether to use this data or the original screen EDID attached.
- Push and Go Setup. The DDC Ghost interface is secure and simple. Setting up the device is a single button process directed by the inbuilt LED indicator. This makes changing display devices a fast and simple process.
The ADDER® DDC Ghost is the most cost-effective way to extend the life of your existing infrastructure. EDID data is a very important part of video extension and distribution, it allows the display drivers of the devices you attach (graphics cards for example) to match perfectly with the screen. The DDC (Display Data Channel) carries information about the physical characteristics of the screen, such as resolution or color depth, back to the display adapter (graphics card) to ensure the resulting picture is correct, every time.
What is DDC EDID?
DDC EDID is the data that describes the characteristics of the display device (monitor) to the display adapter (graphics card). This data is what enables plug-and-play connection with monitors. Characteristics included in the EDID data include supported resolutions, manufacturer, phosphor/filter type, display size, luminance data and in the case of digital panels - pixel mapping. The DDC EDID is stored in the monitor, and requested by the graphics card. When you put a device in between the two, you need to ensure the DDC EDID is still passed through. In cases where the DDC EDID is not passed, DDC Ghost sits in line and provides the data directly to the graphics card. Essentially, the monitor is no longer asked for DDC EDID.