Growatt Storage ARK-2.5L-A1
GROWATTProduct Overview
This energy storage battery is designed for photovoltaic (PV) systems, offering a high degree of reliability and efficiency. Ideal for both residential and commercial installations, this battery provides a robust solution for energy storage needs. Its stackable design allows for scalable capacity enhancements, making it adaptable to a variety of energy demands.
Technology & Safety
Utilizing advanced Lithium Iron Phosphate (LFP) chemistry, this battery ensures long-lasting performance and stability. The integrated Battery Management System (BMS) provides comprehensive protection against over-voltage, under-voltage, temperature fluctuations, and short-circuits. With an IP65-rated enclosure, the battery is protected against dust and water ingress, making it suitable for a wide range of environmental conditions. The thermal management design optimizes performance across varying temperatures, while communication interfaces such as CAN and RS485 facilitate seamless integration with inverters.
Performance & Lifetime
The battery operates at a nominal voltage of 51.2V, ensuring consistent energy availability. Its performance is characterized by the capability to handle substantial charge and discharge currents, providing flexibility and efficiency. Operating within a temperature range of -10 to +50°C, the battery's resilience is evident. Although specific details about cycle life and warranty are not available, the technology promises a robust lifecycle suitable for demanding energy applications.
Applications
This battery is primarily used for PV energy storage applications such as enhancing self-consumption, peak shaving, and providing backup power. Its compatibility with hybrid inverters ensures easy integration into existing systems. Installation is straightforward, considering space and weight factors, with dimensions of [object Object] × × [object Object]. Whether for residential or commercial use, this battery provides a reliable solution for efficient energy management in photovoltaic systems.