NovaStar walks through its Infinity concept as an end-to-end LED control chain, spanning video processing, sending/receiving, and the LED driver IC layer. The key idea is hybrid PWM + PAM (amplitude) drive, tuned with processing and algorithms to improve low-gray performance, brightness control, black level stability, and refresh behavior without pushing panels into visible flicker regimes. https://www.novastar.tech/
—
HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
—
A nice detail is how Infinity is shown as something that can travel across the supply chain: the demo ties the control stack to partner display hardware like a BOE 1.25 mm COB module, and the discussion hints at how driver IC choices and calibration coefficients shape what people call “image quality” on fine-pitch LED. The takeaway is that a lot of the perceived sharpness and uniformity comes from the interaction between bit-depth mapping, grayscale linearity, and how the driver allocates current at very low luminance.
The booth tour then shifts to “LED intelligent playback control” and monitoring, essentially pushing fixed-install LED toward a managed appliance model: TV-style UI workflows, centralized status visibility for processors, and cloud management via Nova Cloud. On the content side, the media-server story is framed around redundancy (one primary plus two backup paths) and scaling across resolutions, which matters for unattended signage and large canvases where a single failure becomes obvious.
Another segment, filmed at ISE 2026 in Barcelona, focuses on thermal compensation: compensating temperature-driven drift to reduce long-run color cast and keep color temperature stable at a more monitor-like level. In practice this kind of control loop is about sustaining chroma consistency over hours of operation, especially when cabinet thermals vary across a wall due to airflow, power density, or mounting geometry.
Finally, NovaStar highlights its COEX 5G distribution approach versus “1G” Ethernet workflows: roughly 2.9–2.95 million pixels over a single link, which can cut processor count and dramatically reduce cable runs. The side-by-side cabling examples make the point clearly: fewer physical links and fewer failure points, while still fitting into an ecosystem where multiple vendors align around the same next-gen transport and configuration tooling together
I’m publishing about 75+ videos from ISE 2026, check out all my ISE 2026 videos in my playlist here: https://www.youtube.com/playlist?list=PL7xXqJFxvYvjUiepj5jbL6aIt6QB9jeCk
This video was filmed using the DJI Pocket 3 ($669 at https://amzn.to/4aMpKIC using the dual wireless DJI Mic 2 microphones with the DJI lapel microphone https://amzn.to/3XIj3l8 )
“Super Thanks” are welcome 😁
Check out my video with Daylight Computer about their revolutionary Sunlight Readable Transflective LCD Display for Healthy Learning: https://www.youtube.com/watch?v=U98RuxkFDYY
