Our light-duty 525 watt emergency lighting inverters provide emergency power to multiple emergency lighting units placed throughout a facility, or to the entire floor of a large building.
Having an emergency lighting inverter eliminate the hassle of buying and maintaining individual batteries for your emergency lights and exit signs. They provide "full light" output just seconds after a power failure. This process is fully automatic and provides superior dependability over individual power sources.
Figuring out the lowest-cost inverter for a variety of emergency fixtures probably isn't in your job description. Instead contact the lighting pros with all inverter related inquiries. If you require a faster response, call us toll-free, 24/7 at 800-607-5355.
Our ELI-525 connects to several remote heads and emergency fixtures such as led exit signs, electronic ballasts, dimming devices and emergency sensors. Able to power fluorescent, CFL, incandescent, quartz, LED and other lighting heads.
Installing a single stand-by inverter eliminates the need to perform monthly and yearly testing on multiple battery-powered units. The 525W emergency lighting inverter provides superior surge protection and prevents the connected lamp heads from overloading. It's modular design allows for easy installation in an electrical closet or any convenient location.
The modular cabinet is constructed from die-cast aluminum with a grey powder coating finish to protect against corrosion. The ELI-525 looks like a household fuse box and installs easily into any electrical closet.
These units are far too heavy to mount to a 4" j-box. Instead, a universal keyhole pattern on the back of the housing will install to most sturdy wall surfaces. A 1/2" conduit terminal on the back allows cables to pass through to the remote heads.
During normal operation, the emergency light inverter will constantly trickle charge multiple lead calcium (AGM) batteries, making sure they are ready to go the second a power failure occurs.
A Smart Battery Monitoring system regulates individual battery temperatures, ensuring the longest runtime and battery life possible. A microprocessor monitors the recharging process and prevents over-loads.
24" x 26" x 16"
8-10 years.