Video wall controller is a pure hardware, professional, high-performance, high-end image processing equipment. It can display multiple dynamic images on multiple screens in real-time without losing frames to realize the function of multi-window splicing. It is mainly applied to high-quality, high-definition large-screen splicing display systems. It is the core control device of the system display and provides an ideal image processing solution for the application of the command center, video conference, multi-media hall and other places.
The video wall controller adopts a large-scale high-performance FPGA array and high-speed digital switching technology architecture, combined with a full digital hardware design concept, and realizes CPU free operation system of video and image processing workstation. Video wall controller has powerful processing capabilities, such as broadband video signal acquisition, real-time high-resolution digital image processing, 3D higher-order digital filtering and other high-end image processing functions. The controller uses a digital multi-bus paralleling and digital multi-bus data switching processing mechanism, which can fundamentally ensure all the input signal sources are with real-time processing and data consistency, without delay, no discretization, and no frame loss of the image.
FDMC Series UHD Video Wall Controller
Functional Characteristics
- Using High-speed data transmission technology with full crossover scheduling architecture
- Each data channel is set with a point to point special data channel, keeping real-time display
- Support splicing frame effect adjustment, window fade-in fusion
- Video windows can be roamed, superposed, zoomed, spliced and used flexibility and freely
- Hot pluggable structure, high integration of chassis, multi-windows picture in picture, picture out picture
- Advanced software design, Multiple plans round play function
- Support network control, RS232 control Multiple plans round play function
- Pure hardware structure, no operating system, high stability