AMOGREENTECH Energy Storage Systems
AMOGREENTECH’s energy storage systems use lithium-iron phosphate batteries (LiFePO4) instead of the standard lead battery. The LiFePO4 is a safer battery option that provides a wide charge and discharge temperature range and excellent energy density of 150 Wh/Kg. AMOGREENTECH has a broad range of package types, allowing for highly customized options based on the customer’s requirements.
Benefits
- High efficiency discharge
- High energy density
- Wide effective state of charge (SOC) range
- Rapid charge to 80% capacity in 10 minutes
- Long-life
- Cycle life of +6,000
- Performance at low temperatures (including -30°C)
- On-time external monitoring by LCD monitor and SNMP port
- Safe system by alarm for overcharge / overdischarge & cutoff for each cell & whole system
- Low risk of fire or explosion
- Large input and output current
- Effective utilization of space
- Free from harmful substances by using environment-friendly materials
Features
- Optional: Assembled in the USA
- Highly customized modules for any application requiring optimum energy storage and flexibility
Factory Energy Storage System (FESS)
The Factory Energy Storage System (FESS) disperses and reduces electricity in the case of the maximized demand for electricity by saving the normal electricity level in large scale plants and building facilities, etc.
Features
- Power storage efficiency and stability by using lithium-iron phosphate batteries
- Device design realized through the analysis of heat and the structure
- Mounting design technique ideal for electrical devices
Application
- UPS Back-Up
- Peak Shaving
Renewable Farm Energy Storage System (RESS)
Features
- Power storage efficiency and stability achieved through the use of lithium-iron phosphate batteries
- Device design realized through the analysis of heat and the structure
- Mounting design technique for electrical devices
- Built-in container type
Application
- Power Plants
- Smart Grids
Telecommunication Energy Storage System (TESS)
The Telecommunication Energy Storage System (TESS) supplies standby power to communication equipment.
Features
- Power storage efficiency and stability achieved through the use of lithium-iron phosphate batteries
- Device design realized through the analysis of heat and the structure
- Mounting design technique for electrical devices
Application
- UPS Back-Up
- Base Stations
- Relay Stations
- Critical Mission Applications
Residential Energy Storage System (HESS)
The Residential Energy Storage System (HESS) is an ideal solution for those who wish to collect energy generated on a smaller level such as a home or small office.
Features
- Power storage efficiency and stability achieved through the use of lithium-iron phosphate batteries
- Device design realized through the analysis of heat and the structure
Applications
- Homes
- Small Offices