When a viewer asks why one panel seems to glow like a sunrise while another pulls shadows into near-black depth, the answer lives in the layers of back-light control and color processing that manufacturers have been perfecting for years. Local dimming, the oldest of the tricks, partitions the back-light into zones that can be dimmed or brightened independently, letting bright highlights burst without sacrificing the darkness of surrounding areas. The technique, however, still wrestles with halo artifacts when a bright object sits near a dark edge, a limitation that has driven the industry toward denser arrays of LEDs. Mini-LED takes that zoning concept and multiplies it, packing thousands of tiny light sources behind the panel. The result is a finer brush-stroke when shaping light, delivering peaks of brilliance that can push HDR content to its intended impact while keeping black levels impressively deep. Yet the sheer number of LEDs also demands more sophisticated dimming algorithms, and the cost of that complexity still filters down to the price tag. RGB LED, a different philosophy altogether, replaces the traditional white back-light with strips that emit pure red, green and blue. By mixing these primaries at the source, the display can achieve a color volume that rivals the most saturated OLEDs, while still benefiting from the high brightness of LCD technology. The trade-off lies in the engineering challenge of balancing uniformity across the screen and maintaining efficiency. Dolby Vision 2 adds another layer of intelligence, handing content creators a wider gamut of metadata to guide the TV's tone-mapping engine. A well-implemented system can reconcile the raw power of a Mini-LED panel with the nuanced grading of a cinematic masterpiece, ensuring that highlights stay dazzling without blowing out detail. For the discerning viewer, the technology that matters most is the synergy between precise back-light control and robust processing. A TV that can modulate light at a granular level, interpret advanced HDR metadata, and deliver a true RGB color base will consistently outshine a model that leans heavily on raw nits alone. In the end, picture quality is less about a single specification and more about how these innovations work together to render the story as the creator intended.