Razor Narrow Bezel (RNB) displays feature a tiled gap of 0.88mm (0.44mm even bezel on all sides of the display). This Razor Narrow tiled gap makes for truly stunning arrays at any size.
Next Gen video walls allow for the daisy-chaining of video walls up to 5 wide by 5 high via DisplayPort, supporting signal resolutions up to 3840x2160 at 60Hz. Unlike displays which daisy-chain via HDMI or DVI, Next Gen video wall displays support 4:4:4 color space at 4K/60Hz. This makes for large, stunning video wall arrays showing 4K content without compression.
GPO Display’s exclusive H-Mount video wall mounting system ensures quick, easy installation with virtually automatic alignment. The H-Mount frame matches the outline dimensions of the display, making for less measuring & remeasuring during the installation process. The unique channel system allows for access to individual displays without the dismounting of neighboring displays. H-Mounts even come with side covers/trim at no additional cost. Most importantly, H-Mounts prevent shifts in alignment over time- an issue commonly associated with front-accessible mounting solutions. For video wall arrays with three or fewer rows of displays, the H-Mount is the ideal solution.
NEX-series displays feature five 4K-capable inputs. All three HDMI 2.0 inputs and both DisplayPort 1.4a inputs are HDCP 2.2 compliant. Each input is capable of receiving up to a 3840x2160/60Hz signal, which can then be carried through the DisplayPort daisy-chain allowing for large, impactful arrays with minimal headend equipment.
GPO Display uses the highest-grade scaler chips in our video wall solutions, ensuring a clean, crisp image with minimal frame lag. Dynamic backlight control ensures a maximum dynamic contrast ratio for deep, true blacks and vibrant video. Enhanced noise reduction and ghost/ringing reduction filter minimize unsightly artifacts.
- Extended daisy-chaining of 4K video signals
- Image Rotation
- Razor Narrow Bezel
- Extended 4K/60Hz daisy-chaining
- Auto-Aligning H-Mount
- Expanded input connectivity
- State-of-the-Art scaling
- Master set control