Hua Power solar battery storage systems combine PV+battery all-in-one cabinets and integrated containers from 30kW to 500kW. Pair solar generation with battery storage in a single enclosure to optimise self-consumption, reduce grid dependency, and enable off-grid operation.
Integrated PV input, battery storage, MPPT, and PCS in a single outdoor enclosure. Five cabinet models from 30kW to 250kW for rooftop solar and distributed generation.
Indoor cabinets for temperature-controlled environments such as clean rooms, data centres, and protected equipment rooms.
When your solar installation outgrows cabinet capacity, the HC1205P container integrates PV input, battery storage, and PCS in a standard 20-ft container form factor.
Store surplus PV generation during the day and discharge during peak demand hours. Reduce grid dependency and lower electricity bills with optimised self-consumption rates up to 90%.
Combine solar generation with battery discharge to flatten demand peaks. Avoid costly demand charges and participate in time-of-use arbitrage programs.
Seamless transfer switching enables off-grid operation during outages. PV+battery systems maintain critical loads without diesel generators in island and remote-site scenarios.
On-grid, off-grid, and hybrid modes with automatic switching. Intelligent EMS coordinates PV input, battery state, grid availability, and load priorities in real time.
Built-in maximum power point tracking and power conversion in a single enclosure. No external solar inverter needed — reducing BoS cost, wiring complexity, and installation time.
Real-time PV generation and battery performance visibility through Hua Power's visual energy management platform. AI-driven dispatch optimises solar utilisation across site portfolios.
From commercial rooftops to remote off-grid installations, PV+battery systems reduce energy costs and improve power reliability across diverse deployment scenarios.
Pair rooftop PV arrays with cabinet-based storage for factories, warehouses, and office parks. Reduce daytime grid consumption and shave demand peaks.
Replace or supplement diesel generators with PV+battery systems for telecom towers, mining sites, and island communities with unreliable grid access.
Buffer solar energy in batteries to support EV charging stations. Reduce grid impact, avoid transformer upgrades, and offer green charging at commercial properties.
Hospitals, data centres, and government buildings use PV+battery to maintain power continuity during grid failures and reduce operational energy costs.
| Model | Variant | Power | Capacity | Cooling | |
|---|---|---|---|---|---|
| HC64P-314 | Outdoor | 30kW | 64kWh | Air | View specs → |
| HC112P-314 | Outdoor | 50kW | 112kWh | Air | View specs → |
| HC241P | Outdoor | 105kW | 241kWh | Air | View specs → |
| HC261P | Outdoor | 125kW | 261kWh | Liquid | View specs → |
| HC522P | Outdoor | 250kW | 522kWh | Liquid | View specs → |
| HC64P-314I | Indoor | 30kW | 64kWh | Air | View specs → |
| HC112P-314I | Indoor | 50kW | 112kWh | Air | View specs → |
| HC1205P | Container | 500kW | 1,205kWh | Air | View specs → |
PV + battery + diesel coordination for islands, remote sites, and areas with unstable grids. Solar-coupled storage is the foundation of hybrid microgrid design.
Explore microgrid solutions
Peak-valley arbitrage, demand response, and backup power for factories, data centres, and commercial complexes with rooftop PV integration.
Explore C&I solutions
Share your PV array size, site load profile, and deployment scenario. Our engineering team will recommend the right PV+battery configuration for your project.
Intelligent energy storage systems deployed across 30 + countries since 2015.
Get in Touch
