4000 Lumen Light Density Breakthrough For Xicato
New 4000 lumen option retains colour consistency and delivers high centre-beam candlepower and narrow beams.
Xicato, a leading developer of superior light quality from LED modules, announced today that its 4000 lumen XSM LED module achieves new levels of light output and light density without increasing the form factor or light emitting surface. This enables more light in applications and, it allows for better, tighter beam control from luminaires that incorporate the XSM light source.
The XSM 4000 is ideal for general lighting high ceiling applications and accent lighting applications that require center-beams of 30,000 candela (cd) and greater or very narrow light beams. Xicato’s new 4000 lumen module enables luminaire manufacturers to compete for a larger portion of the ceramic metal halide lamp market which is prevalent in retail segments, and provide lower operating costs, ownership costs, while improving light quality. Implementation is easy as the form factor is exactly the same as all other XSM modules and an extensive ecosystem of drivers (including deep dimming), heat sinks, and reflectors have already been identified. For manufacturers already using Xicato’s 3000 lumen module, the thermal class remains the same further simplifying portfolio expansion.
Remote phosphor light sources are known for their superior ability to maintain colour and quality but as flux density increases, maintaining superior colour and quality has been challenging. Xicato’s new XSM 4000 lumen offering delivers the high flux and because of the company’s Corrected Cold Phosphor Technology™, it does so while retaining stable colour and consistency performance over its lifetime and therefore is covered by Xicato’s unique 5 year colour consistency and lumen maintenance warranty.
The XSM 4000 lumen Standard Series module is available now in 3000K, 3500K and 4000K correlated colour temperatures (CCTs). Detailed product information and specifications can be found on Xicato’s website.
16 Jan