Explore our industrial-grade high-voltage battery systems, wall-mounted residential modules, and thin-film BIPV cells manufactured in our state-of-the-art facilities.
Established in 2019, with its structural corporate headquarters located in the high-tech hub of Xiamen, China, ELEMRO Energy has rapidly scaled to become an industry-recognized leader in specialized new energy storage systems and complex electrical engineering solutions. Centering our operational model around the integration of advanced research & development (R&D), automated industrial manufacturing, and global direct distribution, we deliver highly customized solutions to developers, EPC contractors, and grid operators.
Our solutions are deployed across more than 250 enterprise clients spanning Europe, Southeast Asia, Africa, the Middle East, and the Americas. By continuously optimizing cell matching and packaging topologies, ELEMRO's annual turnover is expected to cross the threshold of $50 Million USD, indicating our scaling capabilities, economic stability, and supply chain strength. We focus on bridging the gap between innovative electrochemical architectures and actual field installations.
Integrating generation, distribution, and storage. ELEMRO energy delivers full-spectrum capabilities for microgrids and commercial projects.
Highly transparent, engineered PV glass designed to support maximum irradiance capture while offering robust physical protection for silicon wafers against thermal strain and extreme weather conditions.
Megawatt-scale containerized systems outfitted with built-in liquid cooling mechanisms, intelligent battery management systems (BMS), and advanced HVAC setups to enable utility-scale peak shifting.
Structural architectural steel PV frameworks optimized for parking lots, pairing direct solar generation with local storage arrays to support high-speed electric vehicle (EV) charging demands.
The global transition to high-density PV batteries requires a deep understanding of cell-level chemistry and system architectures. Modern energy networks require solutions that mitigate solar intermittency, handle extreme thermal shifts, and sustain cycle life above 6,000 deep discharge cycles. To support these grid requirements, the ELEMRO engineering department centers its focus on three specific technology roadmaps:
Our core line utilizes A-Grade Lithium Iron Phosphate (LiFePO4) chemistry. LFP is selected for its thermal stability (runaway thresholds exceeding 270°C) and safety performance relative to Nickel Manganese Cobalt (NMC) chemistries. We are currently integrating quasi-solid-state designs to target energy densities exceeding 220 Wh/kg at the cell level.
Moving from traditional parallel low-voltage (48V) architectures to high-voltage series configurations (ranging from 200V to over 800V DC). High-voltage configurations decrease current flow within the system, reducing cable copper losses, minimizing heat generation, and enhancing round-trip efficiency (RTE) to over 95.3%.
For Building-Integrated Photovoltaics (BIPV), we utilize Cadmium Telluride (CdTe) thin-film technology. Unlike standard silicon crystalline modules, CdTe performs efficiently in low-light and high-temperature environments. This makes it suitable for vertical structural integrations where standard solar placement is not viable.
In addition to cell developments, our next-generation battery management system (BMS) software incorporates predictive AI modeling. By tracking micro-voltage variances and temperature shifts, our system predicts cell failures up to 48 hours before thermal issues develop, allowing for preventive system isolates and safeguarding capital installations.
Industrial transitions from carbon-based power sources require modular, scalable storage. ELEMRO Energy provides custom configurations for three distinct application profiles:
High demand charges can increase operational costs for manufacturers. Our 100kW to 1MW energy storage cabinets allow factories to charge batteries during off-peak windows and discharge them during peak demand periods. This peak-shaving technique reduces structural utility bills, provides backup power during grid failures, and ensures continuous factory operation.
With products like the Elemro SHELL (10.2kWh and 14.3kWh) and stackable high-voltage LFP units, residential users can optimize their home energy systems. Pairing these batteries with roof-mounted solar panels enables homeowners to achieve energy self-sufficiency, run essential home appliances during grid outages, and export excess energy to local grids where feed-in tariffs allow.
ELEMRO Energy's production facilities in China utilize advanced automation to ensure cell quality and batch consistency. By implementing a digitized Factory 4.0 structure, we maintain control over our manufacturing processes, from initial materials sorting to final system burn-in tests.
Cell Sorting and Grouping: Every single cell undergoes automated testing for capacity, internal resistance, and voltage variance. Only cells falling within tight tolerance limits (±0.5% deviation) are assembled into modules, preventing imbalances that can reduce the overall lifespan of the battery pack.
Automated Laser Welding: Module connections are secured using robotic laser welding, which ensures low contact resistance, prevents thermal stress damage, and provides mechanical stability against transport vibration and seismic shifts.
Traceability: Every battery module receives a unique barcode tracking code linked to our Manufacturing Execution System (MES). This enables trace-back capabilities for raw material batches, welding statistics, and quality-control metrics throughout the system's operational lifecycle.
Our geographic position in Xiamen provides access to major global shipping ports and key supply chains for lithium, cobalt, and nickel processing. This location helps stabilize lead times and mitigate raw material cost fluctuations.
Meeting international quality and safety standards to simplify compliance for distributors, installers, and project developers.
ELEMRO batteries undergo third-party testing to comply with global import and grid regulations. Our products carry certifications including CE, TUV, IEC 62619, UL 1973, UN 38.3, and MSDS. This certification suite facilitates clean custom clearances and local grid approvals.
We work with international logistics providers to offer shipping options including FOB, CIF, and DDP. Hazardous materials (Class 9) shipping documentation is managed by our compliance team to ensure safe transit of large lithium energy storage systems.
We establish service partnerships in key regions to assist with commissioning, remote diagnosis, firmware updates, and warranty support, minimizing downtime for installed systems.
Direct technical answers to help system integrators and electrical engineers select the right energy storage systems.
Partner with ELEMRO Energy to secure reliable, factory-direct supply agreements for premium battery and PV systems.
Inquiry For PricelistAccess our technical articles and conference invitations for insights into energy storage technologies.
Review the full specifications of our LFP solar battery systems and BIPV modules.
Our systems conform to international certifications and support projects globally.
Elemro Energy
