An emergency light is a lighting device with a battery backup that switches on automatically when a building experiences a power outage. Emergency lights are standard in commercial and high occupancy residential buildings, such as college dormitories. Most building codes require emergency lighting be installed in older buildings as well.
The main housing of these exit signs and emergency lights is painted white or made from a white thermoplastic.
The main housing of these exit signs and emergency lights is painted black or made from a black thermoplastic.
Remote capable exit signs or emergency lights allow the unit to add additional lighting with remote light heads without adding additional fixtures.
Visibility, brightness and long life are very important factors that should be thought about when purchasing and exit sign. Light emitting diode or LED exit signs & emergency lights have proven to be successful in the reducing electricity consumption by up to 85%. LED exit signs can save money and power while still emitting considerable amounts of light.
Federally approved high temperature, top selling exit sign and emergency lighting 9.6 Volt NiCd batteries. A 9.6 Volt NiCd is two AA, AAA, C, Sub-C, D or F cells in a battery pack that can come in a row or stick configuration
An emergency light with battery backup capability switches to emergency operation in the event of a power loss to illuminate escape routes and safety equipment.
These products can be hung from the ceiling. Many exit signs come with the ceiling mounting canopy included.
Exit signs & emergency lights that are surface mountable are typically one sided and have a back plate that can be connected directly to a wall or flat surface.
Lithium Iron Phosphate (LFP)
The lithium iron phosphate battery or LFP battery, is a type of lithium-ion battery using lithium iron phosphate as the cathode material, and a graphitic carbon electrode with a metallic backing as the anode. The energy density of LiFePO? is lower than that of lithium cobalt oxide, and also has a lower operating voltage. The charge-discharge profiles of LFP cells are typically very flat. The main drawback of LiFePO? is its low electrical conductivity. Therefore, all the LiFePO? cathodes under consideration are actually LiFePO?/C. Because of low cost, low toxicity, well-defined performance, long-term stability, etc. LiFePO? is finding a number of roles in vehicle use, utility scale stationary applications, and backup power. LFP batteries are cobalt-free.