Energy Storage Batteries
Redefining Energy Storage Performance & Reliability
AIMRSE offers a comprehensive portfolio of lithium-ion energy storage batteries engineered for residential, commercial, industrial, and grid-scale applications. Our solutions address key challenges of modern energy systems—renewable intermittency, grid stability, peak load management, and energy independence—while delivering industry-leading efficiency, safety, and total cost of ownership (TCO). Leveraging advanced materials science, precision manufacturing, and intelligent Battery Management Systems (BMS), our batteries provide reliable performance with cycle life up to 6,000 cycles and operational lifespans of 10–15 years.
Unlike generic solutions, AIMRSE batteries are application-optimized: from compact residential solar-plus-storage systems to high-power utility projects requiring extreme temperature tolerance (-40°C to 60°C) and compliance with global standards (UL 9540A, IEC 62619, NFPA 855). Sustainability is integral to our design: our batteries support recyclability, use minimal rare-earth materials, and include lifecycle services such as second-life utilization and recycling programs. For industrial clients and research laboratories, we offer technical partnership—from system simulation (HOMER Pro, PVSyst) to custom BMS firmware and on-site commissioning—ensuring seamless integration and peak performance.
Product Portfolio
Storage Battery Cells
AIMRSE's Storage Battery Cells are available in lithium iron phosphate (LiFePO₄) and nickel manganese cobalt (NMC) chemistries to suit diverse applications. Our prismatic LiFePO₄ cells (3.2V, 50Ah–300Ah) deliver over 6,000 cycles at 80% DOD with exceptional thermal stability, ideal for stationary storage. For high-energy-density needs, NMC pouch cells (3.7V, 10Ah–50Ah) offer up to 280 Wh/kg. All cells undergo rigorous quality control, including X-ray inspection and thermal runaway simulation, ensuring compliance with IEC 62619 and UL 1642. Custom prismatic formats and anti-corrosion coatings (C5-M) are available for harsh environments.
View More Storage Battery Cells
Storage Battery Packs
AIMRSE's Storage Battery Packs integrate high-performance cells with an advanced BMS in a rugged IP67-rated enclosure. Available in modular 48V configurations (100Ah–500Ah), they feature cell-level monitoring with ±1% SOC accuracy, overcharge/discharge protection, and Modbus TCP/IP or CANopen communication. Designed for scalability, packs can be paralleled for MWh-scale storage with active or passive thermal management. Custom options include tailored form factors, BMS firmware, and integration with cooling systems for research and industrial applications.
View More Storage Battery Packs
Home & Commercial Storage Batteries
AIMRSE's Home & Commercial Storage Batteries are turnkey LiFePO₄ solutions for residential and light industrial use. Residential systems (5kWh–20kWh) feature a wall-mounted design, plug-and-play installation, and compatibility with most solar inverters, enabling energy independence and backup power. Commercial systems (20kWh–500kWh) support peak shaving and demand response, reducing peak demand charges by up to 40%. All systems include cloud-based monitoring (AIMRSE Connect) and are UL 9540A certified for fire safety, with compliance to California Rule 21 and EU EN 50530.
View More Home & Commercial Storage BatteriesSuccess Cases & Applications
12MWh Grid Frequency Regulation Project
Located in California, USA, this utility-scale energy storage station utilizes AIMRSE's containerized LiFePO₄ battery systems to provide critical ancillary services to the local grid. The system responds to grid frequency deviations within milliseconds, ensuring stability during peak renewable generation hours.
Key Challenges & Solutions:- Heat Management: Deployed active liquid cooling to maintain cell temp <28°C in 45°C desert heat.
- High C-Rate: System designed for continuous 1C charge/discharge to meet frequency regulation demands.
- Safety: Full UL 9540A certification with integrated aerosol fire suppression.
500kWh Industrial Park Energy Optimization
Implemented at a high-precision manufacturing facility in Germany, this project integrates rooftop solar PV with AIMRSE's commercial storage cabinets. The system manages peak load shaving to reduce demand charges and provides UPS-grade backup power for sensitive production lines.
Key Challenges & Solutions:- Space Constraints: Utilized high-density prismatic cells to fit 500kWh in a compact footprint.
- Integration: Seamless handshake with existing Siemens plant control system via Modbus TCP.
- ROI: Optimized charge/discharge algorithms achieved a 4-year ROI through peak shaving.
Polar Research Station Power Supply
A custom engineering project for a scientific research station in Antarctica. Standard batteries fail in these conditions, so AIMRSE developed a specialized battery pack with an internal self-heating system and low-temperature electrolyte, ensuring operation at -40°C.
Key Challenges & Solutions:- Extreme Cold: Integrated PTC heating film warms cells to 0°C before charging begins.
- Remote Maintenance: Redundant BMS design ensures zero downtime; satellite link for health monitoring.
- Transport: Ruggedized IP67 casing withstands snowstorms and transportation shock.
Off-Grid Island Electrification
This project in Southeast Asia replaced diesel generators with a 100% renewable microgrid for a remote island community. The system uses parallel AIMRSE storage cabinets to store solar energy during the day and power the village at night, achieving energy independence.
Key Challenges & Solutions:- Corrosion: Applied C5-M marine-grade anti-corrosion coating to withstand high salt spray.
- Reliability: System designed with decentralized BMS; if one pack fails, others continue operation.
- Cost: Reduced diesel consumption by 95%, lowering electricity costs for residents.
The AIMRSE's Advantages
Custom Engineering Integration
We avoid one-size-fits-all solutions. Our team tailors cell chemistries, BMS firmware, and thermal systems to your exact application—from Arctic cold to tropical humidity.
Lifecycle Support
Support continues beyond installation with 24/7 assistance, predictive maintenance, and second-life battery programs. Research clients also gain access to our in-house testing lab for custom configuration validation.
Industry-Leading Safety
All AIMRSE batteries meet UL 9540A, IEC 62619, and UN 38.3 certifications. A double-wall design and pressure relief valves prevent thermal runaway propagation, ensuring safe indoor and commercial use.
Technical FAQ
What is the maximum depth of discharge (DOD) for your LiFePO₄ storage battery cells?
Can your battery packs be paralleled to achieve megawatt-hour (MWh) scale storage systems?
What is the operating temperature range for your home and commercial storage batteries?
Do your BMS systems support custom charge/discharge profiles for research applications?
Are your batteries compatible with solar inverters for DC-coupled solar-plus-storage systems?
Related Products
Note: Our battery cells and materials are intended for R&D and industrial testing. Complete energy storage systems are certified for operational deployment.
Contact Form
