Introducing the 150-Watt H1 UFO High Bay Classic HQ 120-277V Fixture, your lighting solution for expansive, demanding environments. This fixture brings unprecedented brightness to any setting, emitting 5000K daylight with uncompromised consistency and luminosity. Designed with the vast requirements of industrial spaces, large commercial facilities, public areas, and logistics centers in mind, it offers robust and reliable performance in even the most challenging conditions.
The 150-Watt H1 UFO High Bay Classic HQ fixture merges European and American design sensibilities to offer a streamlined and aesthetically pleasing solution for large-scale illumination. Constructed with high-quality aluminum die casting and a PC shell, the fixture boasts a round shape design that is as visually appealing as it is practical. The product is finished with a DUPONT powder painting process in either Dark Bronze or White, ensuring the fixture will never fade or crack over time, retaining its fresh and professional look.
Key Features:
-
Innovative Design: The fixture features a round design in the style of the European and American aesthetic. Its high-quality aluminum die-casting adds durability and longevity.
-
Durable Construction: The fixture has a robust aluminum and PC shell that is anti-cracking. It is finished with a durable DUPONT powder painting process in Dark Bronze or White for a long-lasting, fade-resistant appearance.
-
Efficient Illumination: Equipped with SMD3030 led chip that offers high CRI and light efficiency of up to 190-210lm/w. This efficient usage ensures low light decay and a longer lifespan.
-
High-Quality Driver: The fixture incorporates a SOSEN-C series driver with a high power factor and high conversion efficiency. It exhibits low total harmonic distortion (THD<15%), ensuring reliable, high-quality light output.
-
Surge Protection: The fixture has an anti-surge voltage of 6000V and a surge current of 65A, providing robust protection against electrical inconsistencies and maintaining optimal performance under varying voltage conditions.
