Description
Overview of this 1S 12A 3.2V BMS Charge Protection board For Lifepo4
Introducing Roboway LiFePO4 Battery 1S 12A 3.2V BMS Charge Protection Circuit PCB for battery management at best price in India. This 1S 12A 3.2V BMS Charge Protection Board provide essential protection for single cell LiFePO4 battery. It prevent overcharging, over discharging, and short circuit & ensure the safe operation of your battery. This 1S 12A 3.2V BMS Board is perfect to enhance the performance and lifespan of your LiFePO4 battery pack.
With its compact and efficient design this 1S 3.2V BMS Protection Board is ideal for DIY enthusiasts and professionals alike. This 1S 3.2V BMS Board for LiFePO4 Battery support high current applications with reliable safety feature. Its easy installation and integration make it a valuable addition to any power management system. Ensure your LiFePO4 batteries operate safely and efficiently with this robust BMS protection board.
Features
- Effective Overcharge and Overdischarge Protection: This 3.2v lifepo4 battery bms provide safety to LiFePO4 cells from overcharging and overdischarging to ensure safety. This protection helps maintain optimal battery health and prolongs its lifespan.
- 12A Continuous Discharge Current Capacity: This bms circuit board supports a continuous discharge current of up to 12 amps. It is suitable for devices requiring moderate power, like portable tools and equipment.
- Short-Circuit and Overcurrent Protection: This lifepo4 battery bms instantly disconnects the battery in case of short-circuit or high current. This feature prevents potential damage to both the battery and connected devices.
- Compact and Robust PCB Design: This BMS features a compact PCB layout, making it easy to integrate. It is designed for durability, ensuring reliable performance in various conditions.
- Thermal Protection for Safe Operation: This 1S 3.2V bms protection board include thermal sensor to monitor and manage temperature levels. It automatically shuts off the circuit to prevent overheating and thermal damage.
