LED Splicing Processor U6
Output pixels up to 15360 horizontally or 7680 vertically
Display Four windows of images on a single screen simultaneously or control four different LED screens
Support HDMI , DVI , VGA , SDI , CVBS , IP inputs
six windows preview and output monitoring
Ethernet monitoring and control in real time
Editable text and image overlay
Window or mode transition effects including dissolves, wipes, and cuts
Brightness control of each input
Transparency adjusting and edge feathering
Hot backup of input signals
Multi-format Signals Processing and 4k Processing
Multi-format Signals Processing
U6 is compatible with a variety of input signals : DVI×1, HDMI×1, VGA×2, CVBS×2and expansion slot×1.The expansion slot can be configured as HDMI 1.4a,IP, DVI, HDMI1.3, and CVBS.
4k Processing Accommodating
4k signal input terminals including HDMI 1.4 and Dual Link DVI , U4 enables an input resolution up to 4096×2160, conveniently realizing UHD display of large LED screens!
10.4 milion arbitrarily adjusted
Processor is a 4 outputs device that supports horizontal, vertical and cross splicing to reach high resolution as 15360×660 or 1536×6144.
U4 also supports user-define output resolution , allowing users to freely change aspect ratio of resolution and refresh rate.
Free Display of six Windows
Free Display of six WindowsU6 enables the simultaneous display of six windows on a single screen.The size, location and hierarchical relationship of each window can be adjusted independently.
Multi-screen Combination and Special-shaped SplicingU6 can not only display 6 windows on a screen, but control 6 LED screens simultaneously as well, each of which can display independently or be combined into a complete image. Besides, pixel pitch of such screens can be different.
Image Configuration
Transparency adjusting and edge feathering
In order to integrate the different layers of image well, U6 can change the transparency of each windows or achieve edge feathering effect.
Independent brightness control
U6 can adjust the brightness of each inputs independently so that the user can improve the quality of the specific image without influence to the others.