Model: Sohigh LiBAT-100AH-336V
Brand: Sohigh Solar
Voltage(V):336V
Product Origin: Guangzhou,China
Capacity: 100AH
Material: Lithium ion
Advantages of 336V100Ah stacked battery
A 336V 100Ah stacked battery configuration offers a unique set of advantages that might be suitable for specific applications. Here are some potential advantages of using a 336V 100Ah stacked battery:
High Power Density: The higher voltage allows for a more compact and lightweight design while delivering the required power output. This is especially advantageous in applications where space and weight are critical factors, such as electric vehicles (EVs) and aerospace systems.
Efficiency: Higher voltage systems tend to have improved efficiency during energy conversion processes, such as charging, discharging, and power conversion. This can result in reduced energy losses and better overall system efficiency.
Fast Charging: Higher voltage batteries can often be charged more rapidly due to the reduced charging current required to achieve a given power level. This is beneficial for applications that require quick charging times, like electric buses and fast-charging stations.
Power-demanding Applications: Applications that demand high power outputs, such as electric propulsion systems in EVs, heavy machinery, and certain industrial applications, can benefit from the higher voltage and power capabilities of a 336V configuration.
Compatibility with Power Electronics: Many power electronics components, such as inverters and motor drives, are designed to work efficiently with higher input voltages. A 336V system can align well with the requirements of such components.
Voltage Stability: Higher voltage systems often exhibit better voltage stability under varying loads, which can be advantageous for applications requiring consistent and stable power supply.
Reduced Current Levels: With higher voltage, the current required to deliver a certain power output is lower compared to lower voltage systems. This can lead to reduced heat generation, lower stress on components, and potentially longer battery life.
Modular Design: Stacking battery units to achieve a 336V system allows for a modular design, making it easier to scale the capacity of the system by adding or removing battery units as needed.
Regenerative Braking: In certain applications like electric vehicles, regenerative braking systems can more effectively capture and store kinetic energy during braking events with a higher voltage battery setup.
Specialized Applications: Some applications, particularly those in specialized industries such as aerospace and defense, might require higher voltage systems to meet their unique power and performance requirements.
It’s important to note that while there are clear advantages to a 336V 100Ah stacked battery configuration, there are also considerations and potential disadvantages. These include safety concerns related to higher voltage systems, the need for specialized charging and discharging equipment, compatibility with existing infrastructure, and adherence to safety standards. Always ensure that your chosen battery configuration aligns with the specific needs of your application.
| Single Battery Module | Nominal Capacity | 100AH | |||
| Energy | 4.8KWh | ||||
| Voltage | 48V | ||||
| Standard Charging and Discharge Current | 20A | ||||
| Size(L×W×H) | 570×380×167mm | ||||
336V100AH | Energy Capacity | 100Ah | |||
| Energy | 33.6Kwh | ||||
| Voltage | 336V | ||||
| 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 |
