Model | HyperA2-R358 |
Battery cell | LFP-280Ah |
Configuration | 1P400S |
Nominal voltage | 1280V |
Voltage range | 1120-1440V |
Nominal capacity | 280Ah |
Nominal energy | 358.4kWh |
Charge/discharge rate | ≤0.5P |
Dimension | 1365x1025x2285mm |
Weight | 2650kg |
1500V Air-cooled battery energy storage system
Model | HyperA2-C5734 |
Battery cell | LFP-280Ah |
Configuration | 16*1P400S |
Nominal voltage | 1280V |
Voltage range | 1120-1440V |
Nominal energy | 5.734MWh |
Charge/discharge rate | ≤0.5P |
IP rating | IP54 |
Heat management mode | Efficient & intelligent air-cooling |
Dimension | 13716x2438x2896mm |
Containerized BESS is scalable up to 5.73MWh. Integrated system design guarantees low CAPEX
Complete FAT procedure optimizes field engineering service and cost
Safety and Reliability
Independent and symmetric design of battery container greatly reduces the thermal runway risk of system
Fan-free design of battery module reduces auxiliary power consumption of system by 15% and improves reliability
Long Life
Design of battery container limits the temperature difference to 5℃
Full-time equilibrium strategy improves system performance and extends the system life
Intelligence and Efficiency
Non-walk-in container design enables intelligent field inspection
GWh grade scale application improves the efficiency of the whole station system
Model | HyperA2-R358 |
Battery cell | LFP-280Ah |
Configuration | 1P400S |
Nominal voltage | 1280V |
Voltage range | 1120-1440V |
Nominal capacity | 280Ah |
Nominal energy | 358.4kWh |
Charge/discharge rate | ≤0.5P |
Dimension | 1365x1025x2285mm |
Weight | 2650kg |
1500V air-cooled Battery Energy Storage System
Model | HyperA2-C5734 |
Battery cell | LFP-280Ah |
Configuration | 16*1P400S |
Nominal voltage | 1280V |
Voltage range | 1120-1440V |
Nominal energy | 5.734MWh |
Charge/discharge rate | ≤0.5P |
IP rating | IP54 |
Heat management mode | Efficient and intelligent air-cooling |
Dimension | 13716x2438x2896mm |
Containerized BESS is scalable up to 5.73MWh. Integrated system design guarantees low CAPEX
Complete FAT procedure optimizes field engineering service and cost
Safety and Reliability
Independent and symmetric design of battery container greatly reduces the thermal runway risk of system
Fan-free design of battery module reduces auxiliary power consumption of system by 15% and improves reliability
Long Life
Design of battery container limits the temperature difference to 5℃
Full-time equilibrium strategy improves system performance and extends the system life
Intelligence and Efficiency
Non-walk-in container design enables intelligent field inspection
GWh grade scale application improves the efficiency of the whole station system