Solar Panels – A range of Energy Efficient ways of Lighting Up
On a bright sunny day the sun's rays give off approximately 1,000 watts of energy per square meter of the planet's surface. More people are looking into solar panels for a more energy efficient source of power.
The Solar Powered Explosion Proof LED light is an ideal lighting solution for remote areas and standalone applications where connection to external power is either impractical or unavailable. This explosion proof LED light and solar panel combination includes a day/night sensor and a motion sensor to maximize battery life. This LED light is powered by a rechargeable 14.8 volt LiPoly battery that is charged by the solar panel. The light runs for 15 hours when the battery is fully charged. Charging time for the LiPoly battery is 5 hours when exposed to direct sunlight.
The SLEDB-5-M is powered from internal lithium ion batteries, replenished by a solar charging panel or cigarette plug charger. The beacon is equipped with a permanent mount and magnetic mount option. This solar powered LED beacon is both weatherproof and shock resistant. This strobing LED assembly is protected by a polycarbonate lens cover that is designed to efficiently distribute the flash over a 360 degree radius. This LED beacon will operate 24 hours a day with 5 hours of sunlight, making it ideal for remote applications where power is limited.
The SPLED-CL1B-M Solar Powered LED Beacon is a Class I, innovative lighting solution suited for applications requiring a high visibility strobing beacon capable of stand alone operation. This unit is visible for more than a mile and offers 30 different strobing patterns. This 14.4 watt LED strobe light is powered by an integral 14.3 volt lithium poly battery that is automatically recharged during daylight ours by a 12 watt solar panel. The panel recharges the battery in 5 hours with direct sunlight and can power the beacon for 5 hours with a full charge. The beacon is connected to the panel by a 20 foot SOOW cord that provides flexibility for positioning of the solar panel and beacon into their respective optimum locations independently of each other.
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