Eyevis DVI-Splitter are the perfect solution if you want to transmit a digital video signal to several digital displays simultaneously..
The integrated signal amplifiers guarantee a high-quality signal on each output. eyevis offers various DVI Matrix Switcher, for example: 4x2, 8x4, 6x6, 9x9, 18x18.

Digital displays are becoming more and more popular, and as DVI "pure digital" connection delivers the best picture quality available today, the decision of which type of cable to use is challenging and requires thoughtful consideration.
Today's video installations grow ever more complex; with source components positioned a good distance away from the display. The distance is the biggest factor in determining which technology to use.
There are two choices when it comes to choosing the technology for your connection cable.

Copper vs. Fibre Optic
Due to the nature of digital signals and impedance of copper, fibre optic conversion technology is the best connection medium for DVI signal extension. Fortunately, with digital video, both technologies use the same connector type. The DVI digital signals are high-speed and high-bandwidth. Typically, 1080p signal would mean 1920x1080 pixels refreshing over 40 times per second. At this high rate of speed and large bandwidth of data, impedance caused by copper begins to cause signal loss - which results in digital artefacts, pixilation and/or no picture (blue screen) - if the distance is longer than 15ft. 720p and 1080i are better off with fibre optic connections if the distance is longer than 25 ft.

As for fibre optic conversion technology, there is theoretically zero impedance and thus zero loss as the digital electrical signal is converted into light waves at the video source and the signal travels in light form till it reaches the display and is reconverted into digital electrical signals. Be sure to note the difference between "boosters" and true optical conversion technology if you want to make sure all the pixels reach your display. “Boosters” used over copper wire merely amplify the electrical signal to make it “stronger” to minimize signal loss. However, the biggest problem with this technique is that when the signal is amplified, bad data also gets amplified at the same time which results in amplified digital noise and/or pixel loss. Another problem is that even with the “boosters”, the DVI signals can only travel up to about 60ft before the signal needs to be re-boosted. This is not only inefficient; it can be very costly. Fibre optic conversion technology actually converts the electrical signal into light waves and thus maintains the integrity of the signal data up to 495 ft.

This is the very reason why IT infrastructures and cable TV companies are upgrading their networks to fibre optic. Considering the fact that the bandwidth of IT communication (generally less than 0.6Gbps) is much lower than uncompressed video data (1.65Gbps), it is easy to understand why fibre optic is better when it comes to high bandwidth digital signal.on

Scalers are indispensable devices to provide optimal output signals for projectors and displays.

eyevis offers several scaler solutions for the optimisation of signals for the display of video and data sources.

Download Data Sheet EYE-18 Scaler (standalone device)

Download Data Sheet EC-SCBC (embedded Scaler Board)

Basements for eyevis Cubes

Besides the standard basements for eyevis cubes, which are available in customisable heights, eyevis provides special basements on rails and vibration-absorbing basements. With the rail system, eyevis cube walls can be mounted directly in front of the wall of the building and can be shifted back and forth for maintenance and service works. The vibration-absorbing basements can be adjusted according to the specific vibration conditions on site.

Download Data Sheet Rail System

Download Data Sheet Anti-Vibration System 

LCD Display Racks

The ideal and simple solution for your control room - display racks and pedestals from eyevis

With our display racks almost any width and height can be realised. The displays can be positioned individually and continuously variable, which allows the adjacent installation of the displays without any further required gaps. The display racks are extremely robust and can be optionally delivered with wheels. There is no need for an additional panelling for the display wall, the racks can even be placed in the middle of a room.

The racks can be delivered in various colours, even corporate design coloured versions can be realised. Of course, the racks have integrated channels for the cabling.

LCD Wall Mounting Structures

eyevis provides various wall mount possibilities for the displays from the EYE-LCD series. For the modular LC display versions there are also front-access holders available which allow moving individual displays in a matrix of LCDs in a video wall matrix.

EYE-4SYNC is an universal input interface for all high-resolution displays and projectors up to 4,096 x 2,160 pixels resolution. The board was especially developed for two main applications: Firstly, as “embedded” version to be integrated in the EYE-LCD series (e.g. EYE-LCD6400 [64” LCD with 4,096x2,160 pixels]), and secondly as a “standalone” version for all other devices on the market. Up to 4 graphic signals, each with a maximum resolution of 2,048 x 1,080 pixels, are synchonised, respectively are genlocked on one master signal, and hence can be displayed on multi-channel displays.

Up to now, for these high resolution monitors special graphic boards were required to connect PCs. With this synchronisation board special graphic cards are not required.

Stand-alone Device or Embedded Version
Synchronisation of up to 4 DVI Signals with a maximum resolution of 2,048 x 1,080 Pixels each
Automatic Input Detection
Internal Generation of Output Syncs
For any multi-channel high-resolution Displays or Projectors

Download Data Sheet 

In the past, the distribution of DVI signals was realised with hardware based matrix switchers. Providing these kinds of signals in different rooms or other destinations across long distances has become an important issue. Today, these signals have to distributed to any location without borders and limitation. The eyevis eStreaming solution now provides a technology to transmit DVI Signals in real-time across networks with a very low latency. The system is based on an encoder/decoder solution which transmits the signal with a special eyevis eJPEG compression over networks which needs only little bandwidth on the network. The signals can be decoded again everywhere without a loss of quality. This functionality offers a flexible virtual network matrix with a wide range of possibilities to transmit signals.

System Overview (Click on the image to enlarge) 

Encoder and Decoder in one Box
The system is based on encoders and decoders, so called eStreamers. The eStreamer can work in encoder or decoder mode and even in both modes simultaneously in bi-directional connections.

Inputs
The eStreamer can process any DVI signal up to a resolution of 1920x1200 pixels. Interlaced signals are also supported. The eStreamer is further equipped with a loop-trough DVI output to connect a local monitor on the encoder side.

Low Latency Full Frame Rate Video Transmission
The signals are captured at full frame rate and will be compressed to reduce the bandwidth on the network to increase the number of possible simultaneous video streams in the network.

The real-time mode is based on a eJPEG compression and can stream signals in lossless quality up to 4:4:4 across the network. The mode supports resolutions up to 1920x1080px with 60fps or 1920x1200px with 30fps with a low latency. The compression method is suitable for any kind of video content and can be used for broadcast solutions or high-end applications in which quality and refresh have to be guaranteed.

In static mode the eStreamer is streaming signals on a network with the standard eyecon capture compression which needs an ultra-low bandwidth across the network. Signals are refreshed only with 5-10fps but with a very high quality. These modes are usually used for KVM control and transmitting signals over limited networks. In this mode hundreds of signals can be transmitted over 100MB & 1GB connections.

Nearly Zero Latency Network
The key benefit of the system is the capability of the eStreaming solution to work on standard Ethernet networks as well as on an unique dedicated guaranteed nearly zero latency network. This guarantees zero latency even if large numbers of signals are streamed on the network. The nearly zero latency network is unique in the market and uses special eyevis network routers to provide a guaranteed latency, high bandwidth and fully synchronized delivery in the network without packet loss. The eStreamers will in future also support the new IEEE 802.1 Audio Video Bridging (AVB) technology.

Download eStreaming Solution Data Sheet