Advantages of 96V100Ah stacked battery
Higher Voltage: The 96V voltage level is higher than conventional single-battery setups, which can be advantageous for certain high-power applications. Higher voltage allows for more efficient power transfer and reduced resistive losses during energy transmission.
Power Output: The stacked battery configuration can deliver higher power output due to the combined capacity of multiple batteries. This is particularly beneficial in applications requiring bursts of high power or continuous high-power operations.
Energy Capacity: With a total capacity of 100Ah, the stacked battery can store a significant amount of energy, suitable for applications that require prolonged operation or backup power.
Reduced Space and Weight: Stacking batteries allows for more efficient use of space, which can be critical in applications with limited installation space. Additionally, it reduces the overall weight compared to using a larger number of individual batteries.
Simplified Wiring: Using a stacked battery configuration reduces the complexity of wiring compared to connecting numerous individual batteries, leading to easier maintenance and reduced risk of wiring errors.
Modular Design: Stacked batteries can often be configured in a modular design, allowing for easy scalability. This means additional battery stacks can be added if more power or capacity is needed, providing flexibility for future expansion.
Enhanced Efficiency: Higher voltage configurations generally lead to lower transmission and distribution losses, resulting in improved overall system efficiency.
High Current Applications: In applications requiring high currents, a stacked battery setup can provide more stable and reliable performance due to the distributed load across multiple cells.
Despite these advantages, it's essential to consider that stacked batteries may also have some drawbacks, including increased complexity and costs associated with the stack management and balancing system. Additionally, the specific advantages and disadvantages of a 96V100Ah stacked battery configuration would depend on the particular application and requirements. Therefore, it is crucial to carefully evaluate the needs of the intended use case before choosing this type of battery setup.
Single Battery Module | Nominal Capacity | 100AH | |||
Energy | 4.8KWh | ||||
Voltage | 48V | ||||
Standard Charging and Discharge Current | 20A | ||||
Size(L×W×H) | 570×380×167mm | ||||
96V100AH | Energy Capacity | 100Ah | |||
Energy | 9.6Kwh | ||||
Voltage | 96V | ||||
Standard Charging and Discharge Current | 20A |
Battery Type | Lithium Iron Phosphate (LFP) |
Operating voltage range | 80-438V |
lP protection | lP54 |
Communication method | RS485/CAN |
Operating temperature | Discharge: -10°C~60°C; Charging: 0°C~60°C |
Installation method | Natural placement |
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