Model: Sohigh LiBAT-100AH-384V
Brand: Sohigh Solar
Voltage(V): 384V
Product Origin: Guangzhou,China
Capacity: 100AH
Material: Lithium ion
Advantages of 384V100Ah stacked battery
A 384V 100Ah stacked battery configuration offers several advantages that can be beneficial for certain applications. Here are some potential advantages of using a 384V 100Ah stacked battery:
Compact Design: Higher voltage configurations like 384V allow you to achieve a desired power output with lower current levels. This can lead to a more compact battery pack design, saving space and potentially reducing the overall weight of the system.
Power Density: The higher voltage enables the system to deliver higher power outputs without requiring excessively large battery sizes. This is particularly advantageous for applications where power density is a critical factor, such as electric vehicles (EVs) and high-performance industrial machinery.
Efficiency: Higher voltage systems often exhibit better energy efficiency during charging, discharging, and power conversion processes. This can result in reduced energy losses and improved overall system efficiency.
Fast Charging: The reduced charging current required for a given power level in a higher voltage system can enable faster charging times. This is important for applications that require quick turnaround times, such as EVs and certain industrial equipment.
Power-demanding Applications: If your application requires substantial power outputs, a 384V configuration can provide the necessary power capabilities. This is advantageous for heavy machinery, high-speed electric transportation, and other power-hungry uses.
Compatibility with Power Electronics: Many power electronics components, such as inverters and motor drives, are optimized for higher input voltages. A 384V system can integrate well with these components, leading to improved overall system performance.
Regenerative Braking: In applications like electric vehicles, a higher voltage battery setup can enhance the effectiveness of regenerative braking systems, capturing and storing more kinetic energy during braking events.
Voltage Stability: Higher voltage systems tend to offer better voltage stability under varying loads, ensuring a consistent and stable power supply for your application.
Modular Scalability: Stacking battery units to achieve a 384V system allows for a modular design. This makes it easier to scale the capacity of the system up or down by adding or removing battery units.
Specialized Applications: Some industries or applications with specific power and voltage requirements may benefit from a 384V configuration. This could include aerospace, high-speed rail systems, and specialized industrial equipment.
While there are clear advantages to a 384V 100Ah stacked battery configuration, it’s important to carefully consider the specific needs and challenges of your application. Safety concerns related to higher voltage systems, the availability of suitable charging and discharging equipment, compatibility with existing infrastructure, and adherence to safety standards are all critical factors to take into account. Always ensure that your chosen battery configuration aligns with your application’s requirements and safety considerations.
| 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 | 38.4Kwh | ||||
| Voltage | 384V | ||||
| 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 |
