New RGB evo Showcases a Fourth Cyan Pixel
At CES 2026, Hisense unveiled a landmark display that pushes the boundaries of home cinema color science: the 116-inch 116UXS. The standout feature is a four-color MiniLED backlight system called RGB evo, which adds a cyan pixel to the familiar red, green, and blue trio. This extra color aims to deliver a broader color volume and more accurate skin tones, particularly in high-dynamic-range content where color precision can make or break the viewing experience.
What is RGB evo and Why Cyan?
Traditional LCD televisions use a three-color (RGB) LED array to reproduce colors. Hisense’s RGB evo approach supplements that with a cyan subpixel, effectively expanding the gamut without requiring additional backlight layers or major design overhauls. The theory is simple: cyan can reproduce certain blues and greens more efficiently than a pure blue pixel, enabling deeper, more nuanced tones in bright HDR scenes. For viewers, this could translate to a wider, more natural color palette without sacrificing peak brightness.
Size, Resolution, and Screen Technology
The 116UXS crosses the 116-inch diagonal threshold, situating it firmly in the realm of premium home theater displays. While exact resolution specs were not fully publicized at launch, the unit is expected to pair with very high native resolution and advanced upscaling capabilities to preserve detail on such a large canvas. The TV integrates a state-of-the-art MiniLED backlight and a sophisticated local dimming system to deliver deep blacks and improved contrast, complementing the expanded color gamut promised by RGB evo.
Design and Viewing Experience
As with most ultra-large TVs, the 116UXS emphasizes a minimal bezel and a flush, immersive image. Hisense has highlighted color accuracy and uniformity as central goals for RGB evo, which should help maintain consistent hues across the expansive panel. The result, according to early demonstrations, is a more cinematic look when watching HDR content, with brighter highlights and richer mid-tones that stay faithful to the creator’s intent.
Market Timing and Positioning
CES 2026 marks a pivotal moment for displays that sit beyond typical consumer-sized options. Hisense’s 116-inch model targets enthusiasts with dedicated home theaters, high-end living rooms, and commercial spaces that demand impact along with precision. The RGB evo approach sits alongside broader trends in backlight engineering, where brands are racing to push color volume and brightness simultaneously without escalating power consumption or device complexity.
What to Expect from Content and Availability
Details about pricing and international availability for the 116UXS are still emerging. Given the scale and the technology involved, analysts anticipate a premium price tier that reflects the size, resolution, and new RGB evo backlight. For early adopters, the key question will be whether the cyan pixel provides perceptible improvements in everyday viewing—sports, films, and gaming—and how it interacts with different HDR formats like HDR10, Dolby Vision, or HLG.
Why This Matters for Home Cinema
The push toward expanding color beyond traditional RGB is a natural evolution in the quest for more lifelike displays. Cyan adds a new dimension to blues and greens, potentially enhancing outdoor skies, ocean scenes, and verdant landscapes. When paired with a massive screen and precise local dimming, RGB evo could offer a more convincing sense of depth, better color saturation, and a more immersive overall experience for cinephiles and gamers alike.
Conclusion
Hisense’s 116-inch 116UXS with RGB evo cyan pixel represents a bold step in display technology, aiming to broaden color spaces without compromising brightness or detail. While practical implications—pricing, availability, and real-world HDR performance—will become clearer after hands-on reviews, the concept signals a continued push toward more nuanced color rendering in ultralarge TVs. For enthusiasts dreaming of a true cinema-at-home, RGB evo could be a feature to watch as 2026 unfolds.
