The EXC-U20NDB0 Linear Direct-View Fixture is a high-performance, ultra-narrow LED lighting solution specifically engineered for outdoor architectural applications. With a compact width of only 20mm, it is ideal for large-scale display systems, building outlines, and both exterior and interior facade decoration, including small-area wall-washing effects. Its sleek, aluminum alloy body provides effective heat dissipation through a low thermal resistance path, ensuring optimal performance in all weather conditions.
Designed with an acrylic three-sided light-emitting structure, the EXC-U20NDB0 delivers soft, even illumination with no dark areas at connection points, creating seamless visual continuity when multiple fixtures are spliced together. It features an advanced DMX512/RDM parallel bus control system that supports large data flow and remote device management, allowing for dynamic lighting control and smooth color transitions with 8-bit or 16-bit grayscale capability.
This fixture utilizes high-efficiency SMD LEDs available in W, RGB (3in1), and RGBW (4in1) configurations, and incorporates built-in white balance for consistent output. A high refresh rate of 17K ensures flicker-free performance, even during mobile phone video recording. The EXC-U20NDB0 also supports high-luminance output at low brightness levels, maintaining visual clarity while reducing energy consumption.
For rugged outdoor use, the fixture is sealed with German-imported high thermal conductivity glue for full-potting waterproofing, earning it an IP66 rating. It also includes built-in lightning and electrostatic discharge (ESD) protection for reliable operation in demanding environments. Supporting optional ultra-long-distance power supply, the EXC-U20NDB0 offers flexibility in large-scale lighting system layouts.
With a rated power of 15W, a lightweight design of just 0.82 kg, and a service life of up to 50,000 hours, the EXC-U20NDB0 is a durable and versatile choice for professional outdoor lighting installations where precision, reliability, and visual impact are critical.
