Explore our primary range of solar battery backup and energy storage systems manufactured to exceed international safety, throughput, and performance standards.
Established in 2019 and headquartered in Xiamen, China, Elemro Energy has emerged as a premier developer, manufacturer, and supply-chain partner in the global new energy storage and integrated electrical system industries. With a strong presence in more than 250 markets spanning Europe, Southeast Asia, Africa, the Middle East, and the Americas, Elemro continues to spearhead innovations in LiFePO4 chemical engineering and electrical topology design. Since inception, our annual turnover has scaled dynamically, surpassing USD 50 million in 2023.
We provide cleaner energy for a greener world through specialized engineering of BIPV glass, customized containers, and automotive solar structures.
Specially engineered solar and CdTe thin-film glass intended for modern Building-Integrated Photovoltaics (BIPV). Transforming external building facades into generation power plants.
High-voltage utility scale, standard shipping container footprint battery systems. Fully equipped with integrated liquid-cooling systems, active fire prevention, and centralized BMS.
Durable steel carport framing solutions combined with intelligent EV charging interfaces and battery storage integration for corporate parkings and public transits.
The global transition from unstable fossil-fueled power grids to microgrids and self-consumption networks has changed the battery backup solar market forever. Modern battery backup systems are no longer secondary emergency power reserves; they are dynamic energy assets performing peak shaving, load shifting, and ancillary grid support services.
In high-capacity and residential energy storage systems, Lithium Iron Phosphate (LiFePO4) chemistry has emerged as the definitive material choice. Compared to traditional Nickel Manganese Cobalt (NMC) chemistries, LiFePO4 cells offer critical advantages:
System designers are increasingly moving toward high-voltage stacked configurations (typically >200V DC up to 800V DC). Higher system voltage decreases loop current, minimizing I²R heating losses along system conductors. High-voltage structures such as our High-voltage storage LiFePo4 battery with stackable design allow direct connection to high-voltage inverters, which increases conversion efficiency from solar input to battery storage to AC outputs, reaching peak efficiencies exceeding 98%.
Building Integrated Photovoltaics (BIPV) utilizing CdTe thin-film panels (e.g., our CdTe Cadmium Tellurium Thin Film Solar Cells) represents the vanguard of urban solar integration. Unlike standard silicon crystalline wafers, CdTe exhibits a low temperature coefficient (-0.2% per °C) and excellent performance under low-light diffuse conditions. When combined with localized stackable lithium storage arrays, BIPV buildings can operate as fully off-grid networks, achieving net-zero energy compliance on a modular scale.
Our large-scale energy storage systems reduce demand fees for industrial manufacturing sites by automatically discharging power during peak grid tariff hours.
Wall-mounted and stackable units like our SHELL series offer homes autonomous islanding capabilities, switching to solar battery backup within 10 milliseconds of outage detection.
Each product batch undergoes rigorous insulation resistance tests, high-current discharge testing, and strict compliance reviews with local EN, UL, and CE markets.
Our engineering research focuses on delivering long-term information gain and system efficiency. Elemro's roadmap spans three key technological steps designed to protect the long-term ROI of solar installation investments globally:
Moving toward solid-state and semi-solid electrolyte technologies to eliminate flammable organic liquid solvents. This migration path promises to double specific energy density (Wh/kg) by 2026, while providing passive safety guarantees.
Integrating bidirectional vehicle-to-grid (V2G) protocols directly into our home battery storage series. Elemro-equipped homes will act as virtual power plants (VPPs) to trade energy with centralized power utilities automatically.
Cloud-based BMS telemetry using machine learning algorithms to predict degradation trends. System owners receive preventive servicing suggestions, extending realistic battery life cycles past the 15-year threshold.
High-Voltage battery systems (typically 200V-800V DC) reduce the current running through the system cables compared to low-voltage (48V) designs. This lower current reduces thermal power losses, allowing for thinner wiring, lower installation costs, and higher conversion efficiencies, making HV setups ideal for large residential and commercial installations.
We source A-grade LiFePO4 cells with built-in safety vents and flame retardants. Every pack features an intelligent Battery Management System (BMS) that monitors cellular temperature, voltage balance, and over-current scenarios. This ensures that the system stays protected against thermal events and supports over 6000 cycles at 80% DOD.
Yes. CdTe Thin-Film modules deliver stable DC power that is highly compatible with hybrid or high-voltage storage inverters. Elemro's CdTe glass is optimized to charge stacked energy systems, especially in architectural BIPV projects that experience variable light conditions.
Our factory processes conform to ISO 9001 and ISO 14001, and our products carry certifications including CE, UN38.3, IEC 62619, and UL standards for specific markets. This ensures easy local compliance verification and streamlined grid interconnection approvals.
Deploy high-capacity battery solutions and dynamic solar convertors to build robust solar systems.
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Elemro Energy
