When commercial facilities face rising demand charges and grid instability, the CICS-108 provides 108 kWh of intelligent battery storage to cut peak costs by 30-60%. This system features Supro Energy’s advanced thermal management and modular design, enabling flexible deployment for warehouses, manufacturing plants, data centers, and mixed-use developments requiring reliable backup power and demand charge reduction.
Empower IT brings you the CICS-108—combining advanced battery technology with Supro’s innovative liquid cooling systems and intelligent controls for maximum safety, performance, and longevity.
The Supro Energy liquid cooling system utilizes micro-channel enhanced heat transfer technology, delivering superior thermal performance while maintaining industry maturity and strong transferability. This advanced cooling enables 100% liquid contact for superior energy efficiency compared to traditional air cooling, which typically results in PUE values of 1.4 or higher.
Supercapacitor batteries show significant advantages in commercial energy storage applications, mainly in the following aspects.
Ultra-high power density and fast charge and discharge capability
The power density of the ultracapacitor battery can reach 300W/kg~5000W/kg, which is especially suitable for scenarios requiring instantaneous high power output (such as power grid frequency modulation and electric vehicle acceleration). Its fast charge-discharge characteristics can also efficiently recover braking energy (such as the recovery rate of 80% in rail transit), improving energy efficiency.
Long cycle life and low maintenance cost
Its cycle life can reach 20,000 times, and there is no “memory effect”, and its service life is more than 20 years, significantly reducing replacement and maintenance costs. For example, in electric buses with frequent stops and starts, the durability advantage of ultracapacitor batteries is particularly prominent.
Wide temperature adaptability and high reliability
The operating temperature range can reach -30℃~+60℃, and it can still operate stably in extreme environments, which is suitable for energy storage needs in cold or high temperature areas (such as outdoor power grid equipment and new energy vehicles). Its solid state structure has no moving parts, no maintenance and high reliability.
Environmental protection and safety
The raw materials and production process are free of heavy metal pollution, and the electrolyte is mostly environmentally friendly materials, and there is no risk of combustion and explosion, which is in line with the green energy trend.
Synergistic advantages of hybrid energy storage systems
Supercapacitor batteries are often combined with lithium-ion batteries to form hybrid energy storage systems that complement short boards. For example, in electric vehicles, ultracapacitors are responsible for instantaneous high power requirements (acceleration/braking), while lithium batteries provide long battery life, thereby extending battery pack life and reducing costs.
Economy and scale application potential
With technological advances (such as the application of graphene electrode materials), its energy density continues to increase, and it has great potential for commercialization in fields such as new energy power stations and data center backup power supplies.
| Part Number | SY403V108KWh31R |
| Module | |
| Rated Energy | 12.096KWh |
| Nominal Voltage | 44.8V |
| Nominal capacity | 270Ah |
| Min Voltage | 39.2V |
| Max Voltage | 50.4V |
| Charging current rate | 150A |
| Discharging current | 150A |
| Battery Rack | |
| Energy Per Rack | 108.864Kwh |
| Rack Rated Voltage | 403.2V |
| Nominal capacity | 270Ah |
| Rack Minimum Voltage | 352.8V |
| Rack Maximum Voltage | 453.6V |
| Charging current rate | 150A |
| Discharging current rate | 150A |
| PDU-Rack | 1pcs |
| Modules number | 9pcs |
| Cells Self-discharge Rate | 2% per month |
| Projected Cycle Life ( 25C) | 20000 times |
| Warranty | 15 years |
| Cooling | Natural cooling |
| Case material | Steel case |
| Storage Temperature | -20℃~40 ℃ |
| Storage Humidity | 25% ~ 95%RH |
| Operating Temperature(Discharge) | “-20 ℃~60 ℃ |
| Operating Temperature(Charge) | -20 ℃~55 ℃ |
