Established in 2019, headquartered in Xiamen, China, Elemro Energy has been specialized in new energy storage and electrical product solutions with rich experience. It is the market leader in the new energy industry that unifies R&D, production, and sales. The products have been sold to more than 250 customers in Europe, Southeast Asia, Africa, Mid-east, America, etc. Since its establishment, ELEMRO’s revenue has been growing rapidly every year. ELEMRO’s annual turnover is expected to exceed 50 millions USD in year 2023.
Our commitment relies on delivering high-end modular technologies. By leveraging Tier-1 lithium chemistry and cutting-edge battery management systems, we resolve the historical challenges of electrical infrastructure: scaling, load leveling, and thermal safety. As a reliable high-voltage and low-voltage power storage system factory, ELEMRO Energy ensures quality through strict raw cell selection, meticulous product assembly line testing, and full international certification coverage.
At ELEMRO Energy, the technology path is governed by one clear objective: maximizing safety and cycle life while lowering LCOE (Levelized Cost of Storage). As power storage grids adapt to variable renewable outputs, the limitations of traditional batteries become bottlenecks. Our R&D division focuses on breakthroughs in cell architecture, system-level safety integration, and smart monitoring systems.
Although Lithium Iron Phosphate (LiFePO4) remains the gold standard for commercial and industrial energy storage systems due to its high thermal stability, ELEMRO is active in optimizing cell morphology. We are actively advancing toward semi-solid-state cells. This technology decreases combustible organic electrolyte content, rendering thermal runaway near-impossible even under extreme mechanical abuse or puncture.
A power storage system is only as reliable as the brain controlling it. Our self-developed BMS leverages real-time AI modeling to monitor voltage, temperature, internal resistance, and state of charge (SoC) for individual cells. Predictive thermal algorithms detect localized temperature spikes 10 minutes before traditional thresholds are tripped, initiating preemptive cooling protocols or shutting down isolated sub-modules.
Engineered for seamless solar integration with top inverter compatibility.
Transitioning from residential scale to MW-scale installations requires systems that withstand load profiles, grid fluctuations, and environmental variables. ELEMRO Energy designs and delivers turnkey configurations tailored for multi-megawatt developers, agricultural enterprises, and micro-grid networks.
| Scenario Solution | Standard Configuration | Core Advantage | Application Fields |
|---|---|---|---|
| Commercial Peak Shaving | 200kWh - 1MWh LFP Battery + Bi-directional PCS | Arbitrages peak/off-peak pricing, avoids high demand charges. | Malls, Datacenters, Factories |
| Micro-grid Integration | 500kW Solar + 1.2MWh Storage + EMS Controller | Enables full grid-islanding during utility drops. | Islands, Remote Outposts, Agriculture |
| BIPV Solar Integration | CdTe Thin-film solar glass + High Voltage Stacked BESS | Transforms vertical building envelopes into generators. | Smart Corporate Headquarter Buildings |
| EV Port Charging | 100kW DC Charger + 200kWh Storage Buffer | Mitigates high charging impact on the local grid network. | Highway stations, Corporate parking |
A BESS hardware installation is only highly efficient if guided by algorithmic execution. Our Energy Management System (EMS) offers grid-following and grid-forming capabilities. In regions like Western Europe and North America, our systems communicate directly via Modbus TCP/IP or DNP3 protocols with grid aggregators to participate in ancillary markets (e.g., FFR - Firm Frequency Response), generating additional yield stream for operators.
ELEMRO Energy operates state-of-the-art facilities utilizing advanced manufacturing methodologies. From incoming cell sorting to automatic laser welding and continuous thermal aging testing, our production line is fully mapped into our Manufacturing Execution System (MES) to guarantee complete quality tracking.
Procuring power storage systems globally requires navigating complex local regulatory environments and strict safety requirements. ELEMRO ensures all systems comply with rigorous testing regimes to deliver peace of mind to installers and building authorities.
Our products undergo exhaustive verification by third-party laboratories. Depending on your configuration, ELEMRO storage modules meet the requirements of UL9540A (thermal runaway propagation test standard), IEC 62619 (safety requirements for industrial applications), CE-LVD/EMC, and UN38.3 for global logistics safety.
We believe engineering support shouldn't stop when containers arrive. ELEMRO works alongside localized engineering consultants, distribution agents, and service centers in Western Europe, Australia, North America, and Southeast Asia to provide quick-turnaround technical support, site commissioning assistance, and warranty fulfillment.
For procurement professionals, choosing the correct supplier goes beyond looking at price-per-kWh. Over the 10 to 15-year lifecycle of energy assets, manufacturing reliability represents the difference between a high-performing capital asset and a recurring liability.
"Safety, design flexibility, and bankability are the three pillars that govern modern BESS project viability. If any of these are compromised, the risk profiles of utility and commercial project financing become unmanageable."
When reviewing factory capacity, prioritize:
Our standard Lithium Iron Phosphate (LiFePO4) storage cells are rated for 6000 complete charge/discharge cycles at 80% Depth of Discharge (DoD) under nominal environmental conditions (25°C). Even after 6000 cycles, the battery pack will retain approximately 80% of its initial capacity, translating to 10-15 years of daily operation in typical residential or commercial applications.
High-voltage stacked energy storage systems operate at higher voltages (ranging from 100V up to over 600V DC). This reduces current levels, leading to lower heat generation and higher overall system round-trip efficiency during rapid power transitions. Conversely, low-voltage (48V/51.2V) architectures are highly scalable and represent a safe option for small-to-medium home energy installations.
Our systems are compliant with standard global guidelines. Depending on product lines, they are tested against UL 9540A, CE-EMC, CE-LVD, UN38.3 (for safe transportation), and IEC 62619, ensuring safe usage under diverse grid conditions.
Yes, our battery management systems (BMS) are pre-configured to communicate with mainstream hybrid and off-grid inverters. Our units support plug-and-play RS485 and CAN communications with manufacturers including SMA, Deye, Growatt, Victron, and Solis.
Elemro Energy
