FoxESS energiakocka CM4100 V2.0
The FoxESS Energy Cube CM4100 V2.0 is a cutting-edge high voltage battery storage system designed to meet the growing demand for efficient and reliable energy solutions. This innovative product offers a modular and scalable design, making it an ideal choice for both residential and commercial applications seeking to optimize their energy consumption and storage capabilities.
- Versatile model range: Available in six variants (H2 to H7) with capacities ranging from 8060 Wh to 28210 Wh
- Advanced LiFePO4 battery technology: Ensures long cycle life of ≥6000 cycles and high round-trip efficiency of >95%
- Flexible installation options: Suitable for both indoor and outdoor use with an IP65 ingress protection rating
- Wide operating temperature range: Functions effectively from -10°C to 55°C
- High depth of discharge: 90% DoD for maximized energy utilization
- Robust safety features: Complies with IEC 62619 safety standards and UN38.3 transportation regulations
- Excellent communication capabilities: Supports both CAN and RS485 protocols for seamless integration
- Natural convection cooling: Eliminates the need for noisy fans or complex cooling systems
- High altitude performance: Operates efficiently at elevations up to 2000 meters
- Compact and sleek design: Dimensions tailored to each model variant for optimal space utilization
- Impressive power output: Max charge/discharge current of 50A with a peak discharge of 65A for 30 seconds
- EMC certified: Meets EN IEC 61000-6-1/2/3/4 standards for electromagnetic compatibility
The FoxESS Energy Cube CM4100 V2.0 stands out as a top-tier energy storage solution, combining advanced technology with practical design features. Its modular nature allows for easy scalability, while the high-quality LiFePO4 cells ensure longevity and performance. Whether you're looking to reduce energy costs, increase self-consumption of renewable energy, or provide backup power, this versatile system delivers on all fronts, making it an excellent investment for forward-thinking energy consumers.