The Renewable Energy industry will soon appreciate the updated appearance of U.S. Battery’s RE Deep Cycle product line. The batteries will feature new labeling with stronger graphics and battery information, but the internal structure and design of the RE Series line will remain the same.
U.S. Battery RE Series deep-cycle batteries are the top energy storage solution chosen by a variety of industries and individual homeowners looking for the most cost-effective method to store energy from renewable solar and wind power systems. The unique components built into the RE Series batteries deliver the highest peak capacity, cycle life, reliability, and improved watt-hours per liter and watt-hours per kilogram.
These include the company’s exclusive Diamond Plate technology, highly efficient synthetic tetrabasic lead sulfate (TTBLS) crystal structures that enhanced performance, charging, and extend battery life. U.S. Battery’s RE-Series deep-cycle batteries also include Defender™ moss shields that effectively prevent the formation of “mossing shorts” caused when positive active material particles dislodge from the plates and collect at the top of the cell elements. Outside Positive (OSP™) battery design, mitigates the effects of positive plate deterioration and further increases battery life, overall capacity, and provides stable performance over the life of the battery.
U.S. Battery RE Series deep cycle batteries are available in 6-volt and 2-volt configurations, both featuring extra heavy-duty connector lugs for extreme power loads, a tough polypropylene exterior case, heavy-duty lifting handles, and the company’s SpeedCap® Venting positive locking system for easy maintenance. An optional factory-installed, single-point watering system is also available.
U.S. Battery manufactures a variety of deep-cycle batteries that are all manufactured in the U.S.A. and are distributed worldwide. For more information, contact U.S. Battery Manufacturing, 1675 Sampson Ave. Corona, CA 92879. (800) 695-0945. Visit http://www.usbattery.com.