To choose a suitable GCE High Voltage BMS for a 100 kWh battery system, you need to consider the following factors based on the provided information:
Battery Configuration: Determine the number of battery cells or modules in your system. Since the GCE BMS solution module supports 8S~24S, you need to calculate the series connection of your batteries to fall within this range. For example, if you have 96 cells, you can configure them as 12S (8 cells in series) or 16S (16 cells in series).
Current Capacity: Assess the current requirements of your battery system. Depending on the load and power demands, choose the appropriate current option provided by GCE Technology. The available options are 50A, 125A, 160A, 250A, 400A, and 500A. Select a current rating that can handle the maximum current your system is expected to draw comfortably.
Voltage Range: Consider the voltage range of your battery system. The GCE High Voltage BMS supports voltages ranging from 96V to 864V. Ensure that the voltage of your system falls within this range. For example, if your battery system operates at 400V, it is compatible with the GCE High Voltage BMS.
Safety Features: Evaluate the safety features provided by the GCE BMS solution. Confirm that it offers comprehensive protection against overcharging, over-discharging, short circuits, and thermal events. Look for features like cell balancing, temperature monitoring, and fault detection mechanisms to ensure the safety of your battery system.
Communication and Monitoring: Consider the communication capabilities and monitoring features of the GCE BMS solution. Verify that it supports standard protocols like CAN bus or Modbus for seamless integration with other system components. Look for real-time status updates, alarms, and the ability to monitor critical parameters such as voltage, current, temperature, and state of charge.
Future Expansion: Assess the scalability of the GCE BMS solution. Consider whether it allows for future expansion or reconfiguration if you plan to increase the capacity of your battery system.
Based on your specific requirements, consult with GCE Technology directly to discuss your battery system's configuration, current capacity, and voltage range. They will be able to provide expert guidance and recommend the most suitable GCE High Voltage BMS module that aligns with your needs for the 100 kWh battery system.
For example, based on Lifepo4 3.2V100Ah, 16S51.2V 100Ah modules, 10 modules in series connection to make one rack, then we get 51.2kwh/rack, two racks in parallel connection to make 102.4kwh system. BMS solution required here:
1set SBMS07(Stack bms with a 7” display)
2 sets RBMS07-D23-125A512V
20 units 16s BMU(BMU02B-N16S08T48F)
20 sets 16s wire harness.
If based on 3.2V200Ah, the solution could be:
1 sets RBMS07-D23-250A512V
10 units 16s BMU(BMU02B-N16S08T48F)
10 sets 16s wire harness.
Of course, there are a number of other possible options, and in practice, it is enough to choose according to the specific needs.
We are a professional Battery Monitoring System (BMS) manufacturer to offers battery security management solutions for Data Centers, Energy Storage Power Stations, IDCs, Computer Rooms, Rail Transit, Telecom Base Stations, and other fields. We are a qualified supplier for Vertiv, Schneider, Socomec, Eaton, etc.
Our battery monitoring solutions can monitor battery 7*24 hours to help customers lower the risk of battery failure.
