Explore our core residential battery modules engineered for high safety, exceptional thermal management, and long-term cycle reliability.
Established in 2019 and headquartered in Xiamen, China, Elemro Energy has grown into an industry-leading provider of green technology products and solution-oriented integrations. We bridge the gap between complex energy storage demands and advanced solid-state manufacturing. Our global portfolio integrates research and development (R&D), highly standardized cleanroom production, and extensive supply-chain dynamics, delivering unparalleled cost efficiencies and reliability.
By constantly upgrading our technological processes, our annual global revenue is projected to exceed 50 million USD. We serve over 250 enterprise clients, B2B procurement partners, and utility companies across critical regions, including the European Union, Southeast Asia, South America, the Middle East, and North America. At Elemro, we don't just build batteries; we design robust systems that serve as the backbones of tomorrow's microgrids.
How ELEMRO integrates specialized hardware components into functional green energy infrastructures for commercial, municipal, and architectural sectors.
Optimizing vertical infrastructure surfaces using advanced Cadmium Tellurium (CdTe) thin-film solar glass. Engineered for Building-Integrated Photovoltaics (BIPV), this line transforms exterior facades into high-yield power plants that operate even under low diffuse light conditions.
Designed for utility-scale applications, remote communities, and large-scale industrial projects. These high-voltage containerized designs house robust cooling systems, fire containment protocols, and active balance Smart-BMS integrations to ensure long-term stability.
Smart, structural infrastructure designed to capture green energy while shielding vehicle fleets. Seamlessly integrated with wall-mounted lithium energy storage units, allowing microgrid independence and EV charging peak-shaving capabilities.
As standard production configurations shift toward automated automation protocols, Elemro’s state-of-the-art facilities in China lead the charge in implementing Factory 4.0 paradigms. We optimize production efficiency, precision, and security across the entire manufacturing pipeline, which translates to direct cost advantages and quality assurance for our global buyers.
Safety is not an optional configuration—it is the baseline of our engineering philosophy. Elemro's home energy storage packs are configured with double-redundant thermal, chemical, and physical isolation layers to prevent thermal runaway event occurrences under extreme conditions.
Discover the engineering principles and structural design criteria behind high-quality lithium iron phosphate (LiFePO4) home battery chemistries.
Residential solar storage demands high lifecycle longevity, low degradation profiles, and a robust temperature-operating window. At Elemro, we focus strictly on Lithium Iron Phosphate (LiFePO4) chemistry due to its unparalleled structural stability, low degradation rate, and high safety thresholds compared to Cobalt-based chemistries.
Ideal for standard residential retrofits and cost-conscious configurations. Standardizing 48V topologies allows seamless compliance with local low-voltage electrical safety standards and ensures compatibility with widely available multi-brand off-grid or hybrid inverters.
Our modular stackable systems series scales up to 400V and beyond. Highly beneficial for high-power demands, EV fast-charging support, and larger domestic loads. Stackable modules reduce transmission losses, maximize efficiency, and simplify local site installations.
Our current R&D roadmap targets the integration of semi-solid cell variants. These advancements are aimed at increasing current volumetric energy density, extending operational cycles beyond 8,000 runs, and offering reliable low-temperature performance in sub-zero climates.
Addressing the complex technical specifications, configuration parameters, and scaling requirements of global B2B procurement managers.
Global procurement teams require a reliable supply chain partner capable of adapting designs to meet distinct local electrical codes, voltage layouts, and customer preferences. Elemro provides highly flexible customized engineering services (OEM/ODM) to help distributors and project developers build strong market branding.
Customization Checklist for Global Sourcing:
Voltage Configuration: Low-voltage (48V/51.2V) vs. High-voltage (stacked, up to 400V+)
BMS Integrations: CAN Bus, RS485, RS232, and Wi-Fi/Bluetooth remote configuration apps
Private Labeling Options: Silk-screen logos, custom paint coloring, customized packaging designs
Safety Standard compliance: Regional certifications like UL 1973, UL 9540A, CE, and IEC 62619
Ensuring compliance with local grid regulations and safety standards to help you import and distribute products smoothly.
Our battery packs are verified under international standards, including UN38.3 for safe transport, CE for the European economic zone, IEC 62619 for safety in industrial storage systems, and UL1973 for North American markets.
We work with leading Class-9 hazardous materials shipping lines to handle complex international logistics smoothly. Elemro provides flexible freight services, including FCA, FOB, CIF, and door-to-door DDP options.
Distributors have direct access to our field application engineers (FAE). We provide technical assistance for firmware upgrades, custom inverter setups, and help resolve operational issues remotely.
Connect with Elemro Energy's application engineering team. Tell us your project details, voltage preferences, and capacity requirements. We will send you a detailed price list and project consultation within 24 hours.
Insights, updates, and deep dives into the technical specifications and design strategies of high-quality home energy storage systems.
Understanding the structural topology differences between low-voltage and high-voltage home battery configurations.
An analytical comparison of LFP, NMC, and sodium chemistries regarding cycle life, temperature tolerance, and manufacturing costs.
Exploring practical configurations for shifting energy usage profiles, managing peak loads, and securing backup power.
Presenting our new energy storage solutions and high-efficiency photovoltaic configurations directly to Southeast Asian buyers.
Optimizing direct pairing configurations between high-power PV string arrays and large residential battery packs.
A comprehensive guide detailing cell balancing techniques, safety margins, and performance tracking using modern BMS interfaces.
A full portfolio of stackable systems, high-voltage battery banks, and solar panel options to help build clean microgrids.
Technical answers to common questions about battery manufacturing, cell safety, performance optimization, and project planning.
Low-voltage systems (typically 48V or 51.2V) are easy to install, safe to handle without special high-voltage permits, and compatible with most residential off-grid and hybrid inverters. High-voltage stackable designs (ranging from 150V to 400V+) offer higher round-trip efficiency, lower line losses over long cable runs, and support heavy loads like heat pumps and EV fast chargers without requiring large, heavy cables.
LiFePO4 is the standard chemistry for stationary home storage systems due to its high thermal runaway threshold (around 270°C, compared to NMC's ~210°C). It does not release oxygen during thermal breakdown, reducing the risk of fire. Additionally, LiFePO4 cells support over 6,000 charge cycles at 80% Depth of Discharge (DoD), whereas typical NMC cells only last between 1,500 and 2,500 cycles.
Our Quality Management System operates under ISO 9001 and Factory 4.0 guidelines. Each battery cell goes through computerized testing to match voltage, capacity, and internal resistance. After assembly, every battery pack undergoes automated cycles to test charge/discharge behavior and verify performance before shipment.
Our Smart-BMS features programmable CAN bus and RS485 interfaces. We offer pre-configured protocols compatible with major inverter brands, including Victron Energy, SMA, Growatt, Deye, Luxpower, GoodWe, Solis, and Megarevo, allowing plug-and-play installation on site.
To safely import and install battery systems, European markets require CE certification and compliance with IEC 62619 guidelines. In North America, systems must comply with UL 1973 for battery packs and UL 9540/9540A for complete energy storage systems. Additionally, UN 38.3 certification is required worldwide for shipping lithium batteries safely.
Elemro Energy
