U.S. Battery Electric Vehicle Deep Cycle Batteries
U.S. Battery’s deep-cycle batteries set the industry standard for EV/Golf/Utility Vehicles. With nearly 100-years of experience, U.S. Battery products have earned the reputation as the most efficient and cost-effective deep-cycle batteries on the market.
No one wants to be left stranded on the course, or anywhere your battery powered vehicle takes you. This is why more people and companies trust U.S. Battery products than any other. Featuring advanced chemistry formulations and features that include argued design, heavy-duty connector lugs, and more, U.S. Battery products are an essential part in getting the most out of your golf cart or EV.
Features:
Flooded Lead Acid:
- Handcrafted in the U.S.A. with premium components
- Our exclusive XC2™ Formulation delivers the Highest Total Energy Delivered Over the Life of the Battery
- SpeedCap™ Venting Positive locking system
- Heavy-duty internal connections
- High-Torque terminals
AGM Deep Cycle:
- Heavy-Duty alloy grids resist corrosion
- High Density positive active material designed to maintain structure during deep cycling
- Specially Engineered glass mat separators limit acid stratification and inhibit internal shorts
- Carbon Enhanced negative active material to improve charge acceptance and cycling performance
- Low Self-Discharge Rates allowing our batteries to be stored for longer periods of time without the need to regularly boost charge.
Features:
Flooded Lead Acid:
- Handcrafted in the U.S.A. with premium components
- Our exclusive XC2™ Formulation delivers the Highest Total Energy Delivered Over the Life of the Battery
- SpeedCap™ Venting Positive locking system
- Heavy-duty internal connections
- High-Torque terminals
AGM Deep Cycle:
- Heavy-Duty alloy grids resist corrosion
- High Density positive active material designed to maintain structure during deep cycling
- Specially Engineered glass mat separators limit acid stratification and inhibit internal shorts
- Carbon Enhanced negative active material to improve charge acceptance and cycling performance
- Low Self-Discharge Rates allowing our batteries to be stored for longer periods of time without the need to regularly boost charge.