Solar Battery Solutions: DFG Series - Advanced Nano Gel Technology
Range summary
By combining the newly developed Nano Gel electrolyte with up-to-date AGM structures, DFG (Duration Front Gel) series batteries delivery 15 years design life, front access connections for fast, easy installation and maintenance. This series is highly suited for telecom outdoor applications, unstable power supply region applications.
Features and benefits
• 15 years design life at floating condition @ 20°C
• Wide operating temperature range from -15°C to 60°C
• Nano gel electrolyte eliminate the acid stratification and prolong cycle life
• Front access terminal with standard width for 19” and 23” ETSI racks
• 30% decreased float current lead to excellent high temperature resistance
• Thick flat plate with high Tin low Calcium alloy
• Low self-discharge rate and long shelf life (9 months at 20°C)
• Excellent deep discharge recovery capability
• Comply with IEC, IEEE, UL, EN, CE standards, etc.
Applications
• Telecom
• Control Equipments
• UPS systems
• Medical Equipments
• Emergency Power Systems
One of the standout features of the DFG Series is its use of Nano Gel electrolytes. This newly developed technology significantly enhances the battery's performance by providing superior thermal stability and consistent power delivery, even under challenging conditions. By integrating this with AGM structures, we have created a solar battery solution that excels in longevity and efficiency. This means that whether you're setting up a new solar energy system or upgrading your existing one, the DFG Series offers an unparalleled blend of performance and durability. Furthermore, the front access connections are a major advancement in battery design. This feature minimizes the time and effort required for installation and ongoing maintenance. It's particularly beneficial in applications where space is at a premium or where battery systems need to be quickly and easily maintained. With the DFG Series, HRESYS has created a solution that not only meets but exceeds the rigorous demands of modern solar energy systems, providing users with a robust, reliable, and highly efficient power storage solution.