Explore our cutting-edge catalog, delivering optimized efficiency and reliable performance for smart residential microgrids and heavy-duty localized operations.
ELITE POWER is a premium, vertically integrated new energy enterprise and a proud subsidiary of GRACE DEVELOPERS CO., LIMITED. Strategically operating R&D nodes and commercial centers in Hong Kong, Shenzhen, and Dongguan, China, we command a major role in the global shift towards intelligent green new energy storage solutions.
By blending rigorous academic scientific research with high-efficiency automation manufacturing, our comprehensive product portfolio is architected for maximum durability and extreme weather versatility. From residential modular batteries to multi-megawatt industrial and commercial energy storage cabinets, containerized micro-grid stations, hybrid supercapacitor jump starters, smart vehicle backup packs, and heavy-duty truck parking setups—ELITE POWER provides customized power solutions optimized for a changing climate.
Quality Management System Certification
Environmental Management Protocol
USA Distributed Energy Infrastructure Partners
How residential and industrial batteries serve as the cornerstone of decentralization, grid balancing, and localized reliability.
In modern electrical systems, generation profiles have become increasingly variable due to high solar and wind penetration. This dynamics shift requires resilient, fast-responding battery storage solutions on the residential level. A home battery storage system is no longer just a backup reserve; it is an active node on the grid. By performing Peak Load Shaving and load shifting, homeowners capture energy during low-tariff, high-generation midday hours and discharge it when demand spikes in the evening.
This process reduces grid strain and minimizes localized transmission losses. Using automated algorithms, our smart energy storage systems integrate directly with smart meters and grid control APIs to automatically transition operating profiles. The integration of high-cycle LiFePO4 cells ensures that these active balancing acts do not degrade the battery lifetime prematuredly, maintaining a high State of Health (SoH) over thousands of complete cycles.
Through our advanced Battery Management System (BMS) communications protocol, thousands of individual household batteries can be aggregated into a single Virtual Power Plant (VPP). When utility operators encounter high-stress network states, they trigger the VPP to inject clean, stored energy back into the distribution system. For the homeowner, this creates a secondary revenue channel, transforming their home energy storage system from a cost center to a cash-generating micro-asset. ELITE POWER works closely with software integrators in both North America and Europe to ensure our products support standard open APIs and Modbus RTU/TCP protocols for seamless utility configuration.
Understanding regional policies, grid topologies, and high-capacity ESS demands across key markets.
North American installations face rising demand charge penalties and frequent severe weather outages. In response, local businesses are deploying Commercial & Industrial (C&I) energy storage cabinets. Following our 2022 strategic cooperation agreement with US partners, ELITE POWER has prioritized high-capacity charging, smart microgrid management, and emergency grid support tailored to the complex regulatory landscapes of local markets.
The European market focuses on high efficiency and independence from traditional gas infrastructure. European customers rely heavily on high-voltage modular home storage systems paired with solar carports. Our residential systems provide plug-and-play compatibility with European hybrid inverters, facilitating quick installation and compliance with regional grid codes.
In developing regions and remote islands throughout the Asia-Pacific area, grid stability is often poor. Our industrial containerized energy storage units (ESS) act as primary power anchors, integrating with large solar setups to run manufacturing sites. Our manufacturing facilities in Shenzhen and Dongguan enable us to deliver fully customized configurations for the challenging operational environments of the APAC region.
To reduce the Levelized Cost of Storage (LCOS), we implement advanced thermal management and long-cycle cells. Lowering operating temperatures in the pack extends system life, yielding more throughput over the battery’s operational lifespan and improving ROI for commercial stakeholders.
Uncompromising safety, rigorous certifications, and dedicated engineering support on the ground.
Lithium-ion energy storage systems are subject to strict regulatory frameworks to ensure safety and performance. ELITE POWER prioritizes system safety by designing all home and industrial products to meet international standards. Our manufacturing lines run on strict ISO 9001 and ISO 14001 systems, ensuring quality control from incoming raw materials to final functional testing.
We work with international testing agencies to ensure our products satisfy critical standards:
To support our strategic partners, ELITE POWER has built localized technical response networks. We provide remote diagnostics, firmware customization, and localized field engineering support to help installers configure and commission projects quickly. Our regional centers facilitate parts replacement, warranty fulfillment, and system updates to maximize uptime.
From high-altitude off-grid cabins to smart urban buildings and logistics fleets.
Our wall-mounted lithium energy storage system (10.24KWH) integrates with solar inverters to support self-consumption. During power outages, it switches to backup power mode in less than 10 milliseconds, keeping refrigerators, smart lighting, and critical heating systems online.
Our high-cycle LFP truck parking batteries provide reliable auxiliary power. Long-haul drivers can run air conditioning, lighting, and kitchen appliances without idling the truck engine, reducing emissions, fuel consumption, and engine wear.
Our medical power supplies provide stable, regulated electrical performance for diagnostic equipment, patient monitors, and storage systems. Combined with our portable power stations, they form a reliable power setup for remote medical centers.
For rural homes without grid access, our 15kwh All-in-One system serves as the primary energy hub. Multiple modules can be linked in parallel, providing scalability to meet growing power demands.
Pioneering the next wave of materials science, structural integrity, and AI-driven grid optimization.
Our ongoing research focuses on improving energy density, chemical stability, and cycle life. We are refining our lithium iron phosphate (LFP) chemistry with nano-scale conductive coatings to enable efficient low-temperature operation. In parallel, our R&D team is developing semi-solid-state designs, aiming to improve safety and volumetric efficiency. These chemistry upgrades will allow future home batteries to deliver more capacity in a smaller footprint.
Future iterations of our battery management systems will integrate machine learning algorithms. By monitoring voltage, current, and temperature at the module level, the BMS can predict cell degradation trends. This data will sync to our cloud diagnostics platform, allowing users to optimize usage profiles and enabling installers to schedule preventative maintenance before faults occur, extending operational lifetimes.
Driven by core values, verified quality systems, and strategic global partnerships.
We operate with honesty and transparency in all our business dealings, ensuring partners receive accurate specifications and reliable warranties.
We are committed to pushing the boundaries of renewable energy technology to build reliable, high-performance battery systems.
We strive for excellence in everything we do, from early product development and raw material selection to customer service.
We believe that collaborative teamwork and strong regional partnerships are the key drivers for long-term commercial success.
Explore our secondary tier of customized storage units, high-efficiency adapters, and modular off-grid systems.
Get professional, engineering-focused insights about home batteries, cell chemistry, and installation requirements.
Lithium Iron Phosphate (LiFePO4) chemistry is widely chosen for residential energy storage systems because of its safety, longevity, and thermal stability. Compared to cobalt-based lithium chemistries (such as NMC), LiFePO4 cells are less prone to thermal runaway, even under extreme mechanical damage or high temperatures.
Furthermore, LiFePO4 batteries offer a longer operational lifespan, typically supporting over 6,000 charge cycles at 80% Depth of Discharge (DoD) before capacity drops below 80% of its original rating. This long cycle life delivers a lower Levelized Cost of Storage (LCOS) over the system's lifetime, making it a reliable solution for residential solar integration.
Yes. Our modular home energy storage systems (such as the 10.24KWH wall-mounted unit and the 15kwh All-In-One unit) support parallel connection configurations. This scalability allows installers to increase overall storage capacity by linking multiple packs.
Our integrated Battery Management System (BMS) manages communication between the connected units, coordinating voltage levels and cell balancing to prevent cross-charging issues. When configuring parallel setups, we recommend using identical models and cable lengths to ensure balanced current distribution.
ELITE POWER designs its home battery systems to meet international safety and performance standards. Our manufacturing facilities are certified to ISO 9001:2015 for quality management and ISO 14001:2015 for environmental compliance.
Depending on target regional markets, our product designs are engineered to conform with standards including UL 9540 (for complete system safety), UL 1973 (for cell and module safety), IEC 62619 (for residential and industrial battery safety in Europe), and CE. All battery packs also pass UN 38.3 certification, verifying safety compliance for international shipping.
Our residential batteries use communication interfaces (including CAN and RS485 protocols) to connect with popular hybrid solar inverters. This enables the BMS to communicate cell parameters—such as State of Charge (SoC), voltage, and maximum charge/discharge current limits—directly to the inverter control loop.
This integration supports real-time adjustments to charging behavior based on PV yield, home load requirements, and grid conditions. Additionally, our batteries can be configured to support grid-interactive functions, such as Peak Shaving and scheduled charging, helping to lower electricity costs under time-of-use tariffs.
ELITE POWER
