Lithium Golf Cart Battery
BSLBATT has 36V,48V,72V lithium batteries for your golf cart, all manufactured with advanced LiFePO4 technology, which provides higher power, efficiency and safety compared to lead-acid batteries.
B-LFP36-105GC
36V丨105Ah
B-LFP48-67GC
48V丨67Ah
B-LFP48-105GC
48V丨105Ah
B-LFP48-134GC
48V丨134Ah
B-LFP48-150GC
48V丨150Ah
B-LFP48-200GC
48V丨200Ah
B-LFP72-134GC
72V丨134Ah
B-LFP72-200GC
72V丨200Ah
ENERGY DENSITY
POLLUTION
ENDURANCE MILEAGE
CYCLE LIFE
WARRANTY
MAINTENANCE
Difference of Lithium
Explore the Benefits of Lithium Batteries
High Energy Density Ratio
Tier One, A+ LiFePo4 Cell Composition, high energy density.
Long Service Life
Extremely long reliability life
High & Stable Voltage
Nominal voltage is 3.2V and operating voltage is stable
Low Self-discharge Rate
Less than 1% after one year storage at +20 ℃
Environmentally Friendly
No damage to the environment in the process of use, energy saving and emission reduction
Maintenance Free
No need to refill the battery regularly, no maintenance cost
Charging - Fast & Safe
Charge and discharge rate can reach 1C or 2C
More Available Capacity
25-50% more capacity than lead-acid equivalent.
Why Choose BSLBATT Lithium-ion Battery Manufacturer?
We are a proven leader in lithium-ion battery manufacturing and pride ourselves on our superior customer service, providing you with the best lithium-ion battery products for golf carts, boats, RVs, vans and off-grid industrial applications Stability, longevity and safety are paramount.
- Over 20 years of battery manufacturing experience
- Over 100 global satisfied customers with 48 distributors worldwide
- More than 250 employees and 10,000 square feet of factory space
- Over 500 successful custom lithium battery cases
- Investment in multiple certifications UL1973, UL2580, IEC62619, CEC, UN38.3, TUV and PICC
Why does BSLBATT®️ use LiFePO4 batteries?
BSLBATT Lithium-ion Battery
| > 3500 times | Cycle Life | <500 times |
| 8 years or 12000 hours | Warranty | 3 years |
| About 1 hours | Charging Time | 8 hours |
| no memory, charge anytime | Charge Frequency | charge everytime after using |
| stable discharge condition | Low Temp . | unstable |
| 80% or more of the rated capacity at high load operation | Usable capacity | 30%-50% of the rated capacity at high load operation |
| Save > 50% in 5 years | Cost of using | High cost |
| No maintenance | Maintenance | Frequent maintenance |
| Multiple built-in protections | Safety | Risk of explosion |
Lead-Acid Battery
BSLBATT lithium golf battery
Golf carts are one of the many vehicles that benefit from lithium-ion golf cart batteries. We have the expertise and experience to master lithium iron phosphate technology and help you revolutionize the golf cart industry! We carry a full line of lithium batteries to power golf carts, mobility scooters, electric wheelchairs, UTVs, ATVs, etc. BSLBATT offers a simple, plug-and-play LiFeP04 battery solution for golf carts, mobility scooters, electric wheelchairs, UTVs, ATVs that is far superior to lead-acid batteries. This gives you lighter weight, more power and zero maintenance!
BSLBATT Lithium Golf Cart Batteries Give golf cart owners consistent, reliable power from sunset to sunset, with 75% less weight, and your cart will perform better and faster. Experience better golf cart handling, less wear and tear, and lower maintenance costs.
The Power of Lithium
Choose from these popular Golf Cart brands
BSLBATT lithium golf cart battery manufacturer offers quality solutions for 36V, 48V or 72V golf cart configurations for EZ Go, Club Car, Yamaha and other brands.
Frequently Asked Questions
The main components of lithium-ion battery are: upper and lower battery cover, positive electrode sheet (the active substance is lithium cobalt oxide), diaphragm (a special composite film), negative electrode (the active substance is carbon), organic electrolyte, battery shell (divided into two types of steel shell and aluminum shell), etc.
Charging method of LiFePO4 deep cycle battery:
Constant current and constant voltage charging: The battery is first charged at constant current (CC), and when the battery voltage rises to a certain value, the voltage remains constant (CV) and the current in the circuit drops to very little and eventually tends to 0.
Discharge efficiency is the ratio of the actual power discharged to the end voltage to the rated capacity under certain discharge conditions, which is mainly affected by the discharge rate, ambient temperature, internal resistance, etc. Generally, the higher the discharge rate, the lower the discharge efficiency. The lower the temperature, the lower the discharge efficiency.
We have passed ISO9001:2000 quality system certification and ISO14001:2004 environmental protection system certification; our products are CE certified by EU and UL certified by North America, passed SGS environmental protection test, and have obtained Ovonic’s patent license; meanwhile, our products have been insured by PICC worldwide.
Charge -10-45℃;Discharge -30-55℃
01) Charging.
When choosing a charger, it is best to use a charger with the correct termination charging device (such as anti-overcharge time device, negative voltage difference (-dV) cut off charging and anti-overheating induction device) to avoid shortening the life of the battery due to overcharging. In general, slow charging than fast charging to extend the life of the battery.
02) Discharge.
a. The depth of discharge is the main factor affecting the battery life, the higher the depth of discharge, the shorter the life of the battery. In other words, as long as the depth of discharge is reduced, the life of the battery can be significantly extended. Therefore, we should avoid over-discharging the battery to a very low voltage.
b. When the battery is discharged at high temperature, it will shorten the life of the battery.
c. If the design of electronic devices can not completely stop all the current, if the device is left unused for a long time, without taking out the battery, the residual current will sometimes make the battery overconsumption, resulting in battery over-discharge.
d. Mixing batteries of different capacities, chemical structures or different charging levels, as well as old and new batteries, can also cause excessive battery discharge, or even reverse charging.
03) Storage.
If the battery is stored at high temperature for a long time, the electrode activity will decay and shorten its service life.
