Efficient HP Series for Microgrids with Energy Storage - High Power Solutions
Range summary
HRESYS HP (High Power) series is especially designed for high rate discharge applications. By using strong grids and specially designed active material, the HP series offers stable performance during high current discharge. It offers extremely high power output short time backup with 12 years design life. It is highly suited for high rate UPS/EPS systems and IDC applications.
Features and Benefits
• 30% increased power output at 15 minutes backup time
• Optimized plate achieve low internal resistance
• Wide operating temperature range from -20°C to 55°C
• Excellent deep discharge recovery capability
• Low self-discharge rate and high reliability.
• Flame retardant ABS case (UL94 V-0, optional)
• 12 years design floating life at 25°C (77°F)
Applications
• Uninterrupted Power Supply (UPS)
• IDC
• Emergency Power Systems
The HP Series by HRESYS stands out in the crowded market of energy storage solutions due to its unparalleled performance and reliability. These batteries are crucial for the seamless operation of microgrids with energy storage, as they provide the necessary power backup and stability required during peak loads or unexpected outages. Whether it's for a solar power plant, an off-grid wind turbine setup, or a hybrid energy solution, the HP Series ensures that your microgrids operate without a hitch, reducing downtime and maintaining a continuous power supply. What sets the HRESYS HP Series apart is its advanced construction and innovative design, which guarantee long cycle life and exceptional efficiency. The batteries feature high power density, rapid charge/discharge capabilities, and superior thermal performance, making them perfectly suited for the dynamic and often unpredictable nature of microgrids with energy storage. In a world increasingly moving towards sustainable and decentralized power generation, the HP Series offers a reliable, high-capacity solution that supports the seamless integration of renewable energy sources into the grid, ensuring not just sustainability but also a resilient and stable power infrastructure.