Lithium Iron Phosphate (LiFePO4) batteries are generally considered to be safer, more stable, and have a lower risk of explosion compared to lithium-ion batteries that use nickel manganese cobalt (NMC) or other cathode materials. The differences in safety between LiFePO4 and other types of lithium batteries, such as those using
THE 5 KEY ADVANTAGES OF PHOTOVOLTAIC
ENERGY STORAGE SOLUTIONS
The standard warranty period is five years, with an optional paid warranty extension for ten years.
We develop and manufacture all components in-house, including the inverter, LiFePO4 battery, BMS, EMS, and energy management system app.
We ensure the stability and effective collaboration of the entire system by integrating all hardware and software components seamlessly
Energy efficiency and performance
While emphasizing the performance of photovoltaic energy storage systems, we also effectively integrate data operations and maintenance
of products such as heat pump air Conditioning and electric vehicle chargers within buildings. This enables high coordination capabilities,
improving the optimized operation of the entire power system for household appliance usage.
Flexibility of configuration
Both the inverter system and energy storage system can be freely configured according to the user’s needs.
The excellent product performance is scalable to accommodate potential future expansion and upgrade requirements.
The energy storage system platform centrally collects and displays data on the system configuration after product integration.
Highly competitive cost
The split design and flexible positioning system between the battery module and inverter make installation a breeze for installers.
This significantly reduces the time and cost required for onsite installation and logistics.
Our self-developed intelligent manufacturing ensures excellent performance and reliability at a reasonable price across all product categories.
The LiFePO4 batteries, LiFePO4 battery cluster, and photovoltaic storage systems all have WIFI functionality enabled. By using the MENRED
ESS App, users can easily monitor the system’s operation and receive information about any faults. This allows for quick analysis and response,
facilitating faster troubleshooting.
The system utilizes grade A battery cells and high-quality components, which have been tested according to standards such as TUV-IEC62619,
IEC-61000, and ETL-UL1973. In combination with the EMS system and software and hardware dual response, the system is made even more secure.