HP Series for Optimal High-Rate Discharge in Hybrid Energy Storage Systems
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
Each unit within the HP Series is subject to stringent quality controls, ensuring durability and reliability. The proprietary technology embedded within these systems allows for rapid discharge without compromising on energy density, making it an ideal component for dynamic and responsive energy storage solutions. By integrating the HP Series into your hybrid energy storage system, you contribute to a more sustainable future while benefiting from superior power management and storage capacities. The new HP Series from HRESYS is designed with a clear understanding of modern energy demands. It supports rapid charge and discharge cycles, maintaining stable energy output even under high-stress conditions. This reliability ensures that your hybrid energy storage system can handle peak loads and sudden surges effortlessly. Our commitment to quality and innovation ensures that each product meets the highest standards, providing you with a dependable solution for all your high-rate discharge needs. Trust HRESYS to power your future with the HP Series, the embodiment of efficiency and sustainability in hybrid energy storage systems.