8S-24S Battery Management System LiFePO4 Li-ion Smart BMS 8S 9S 10S 11S 12S 24V 36V 40A 60A 100A 150A 200A
Description | Capability |
Type |
Bms PCBA |
Voltage |
48V/60V/72V/84V/96V |
Application |
Electronic Products |
Battery type |
Lifepo4/NMC |
The 8S-24S Lithium Battery Management System (BMS) refers to a smart electronic system designed to manage and protect lithium battery packs consisting of 8 to 24 series-connected cells. This BMS is compatible with both lithium iron phosphate (LiFePO4) and lithium-ion (Li-ion) chemistry batteries.
Here's a description of the key aspects of this BMS:
Lithium Battery Protection: The BMS provides various protection mechanisms to ensure the safe and reliable operation of the lithium battery pack. This includes overcharge protection, over-discharge protection, short circuit protection, over current protection, and over-temperature protection. These protection features help prevent damage to the battery cells, ensure their longevity, and maintain safe operating conditions.
Voltage and Current Configuration: The BMS supports a range of voltage and current configurations. The voltage configurations can be 8S, 9S, 10S, 11S, 12S, or 24S, depending on the number of series-connected cells. This allows the BMS to be compatible with various battery pack voltage requirements, such as 24V, 36V, or higher. The BMS also supports different current ratings, such as 40A, 60A, 100A, 150A, or 200A, to accommodate different power demands.
Smart Battery Management: The BMS incorporates intelligent algorithms and software to provide advanced battery management features. It may include features like state-of-charge estimation, remaining capacity calculation, voltage and temperature monitoring, and historical data logging. These smart features help optimize battery performance, enhance safety, and improve the overall efficiency of the lithium battery pack.
PCB Design and Assembly: The BMS is implemented on a printed circuit board (PCB) designed to meet the specific requirements of the lithium battery pack. The PCB layout includes appropriate trace widths, component placement, and copper layers to handle the voltage and current levels involved. The BMS components, such as MOSFETs, resistors, capacitors, and microcontrollers, are assembled and soldered onto the PCB to ensure reliable operation.
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