150KWp Capacity Driven by 120 High-Efficiency N-Type TOPCon Solar Modules
Installed with state-of-the-art N-Type TOPCon solar technology, the system is both efficient and stable output even during high temperatures or low sunlight.
The HJFoldSolar introduces rapid-deploy, folding solar power in a configurable container package with high-efficiency PV arrays and resilient battery storage for clean, reliable power in off-grid or remote settings.

Compact, Foldable, and Ready for Any Challenge
Modular, zero-emission, and long-lasting, the Solar Container is a clean substitute for diesel generators and traditional solar farms. It is easily transported and deployed with its portable folding-mount mounting system, and its weather-resistant design will keep it operating in harsh and remote environments. As a totally adaptive solar-powered shipping container technology, the Solar PV Container powers today's off-grid energy needs with speed, efficiency, and greenness.
| Model | Inverter Power | Photovoltaic Capacity | Energy Storage Capacity | PV Module Specification | Scenario | Specification Size |
|---|---|---|---|---|---|---|
| HJ-20D-P009E020 (Modular Cabin Roof Photovoltaic Energy Storage) | 8KW Photovoltaic-Storage Integrated Unit | 9KWp | 20KWh | 600Wp | Photovoltaic Energy Storage | 20-foot modular unit roof PV-2 |
| HJ-20D-P009E015 (Modular Cabin Roof Photovoltaic Energy Storage) | 8KW Photovoltaic-Storage Integrated Unit | 9KWp | 15KWh | 600Wp | 20-foot modular unit roof PV-3 | |
| HJ-08G-P018E030 | 15KW Photovoltaic-Storage Integrated Unit | 18KWp | 30KWh | 430Wp | 8-foot container (with energy storage) | |
| HJ-10G-P024E040 | 20KW Photovoltaic-Storage Integrated Unit | 24KWp | 40KWh | 500Wp | 10-foot container (with energy storage) | |
| HJ-20G-P057E241 | Inverter 50KW + PCS Converter 100KW | 57KWp | 241KWh | 500Wp | 20-foot container (with energy storage) | |
| HJ-20H-P068E241 | Inverter 60KW + PCS Converter 100KW | 68KWp | 241KWh | 600Wp | 20-foot container (with energy storage) | |
| HJ-40G-P114E482 | Inverter 50KW × 2 units + PCS Converter 100KW × 2 units | 114KWp | 482KWh | 500Wp | 40-foot container (with energy storage) | |
| HJ-40H-P136E482 | Inverter 60KW × 2 units + PCS Converter 100KW × 2 units | 136KWp | 482KWh | 600Wp | 40-foot container (with energy storage) |
For more detailed parameters, please Download Full Specifications (PDF)
Installed with state-of-the-art N-Type TOPCon solar technology, the system is both efficient and stable output even during high temperatures or low sunlight.
An onboard lithium battery bank ensures 24/7 power supply, storing excess energy produced in the daytime for secure use during the night or on cloudy days.
The intelligent inverter and energy management system optimize load distribution, prevent ripples, and allow for hassle-free integration with other power sources.
The fold-up, factory-assembled containerized system is ready to deploy in less than an hour—without heavy lift equipment or specialist staff.
Fuel-free and combustion-free, the system is totally emissions-free and whisper-quiet, making it perfect for sensitive environments and noise-constrained areas.
Its patented foldability and modular expandability allow for fast disassembly, compact shipping, and simple expansion to meet changing energy requirements.
The system supports a variety of high-performance photovoltaic module types, including Monocrystalline N-Type, Monocrystalline Bifacial N-Type, and Monocrystalline Dual-Glass N-Type. The ability to use different types gives flexibility in deployment and design to achieve the best performance under different environmental conditions and project uses. Each type comes with its advantages, for instance, increased efficiency, enhanced durability, or increased utilization of light, giving the user a customized solution to different applications.
According to container size and power generation capacity, the system can be engineered to have an adjustable number of photovoltaic modules, ranging from small installations to large arrays. Up to 320 modules can be wired in, which allows the system to meet a wide range of energy requirements. The adaptability means that the solution can accommodate projects of varying sizes without affecting stability and efficiency.
The photovoltaic modules are available in different rated outputs of 430 W, 500 W, and 600 W, which allows projects to select the most suitable configuration according to performance targets and installation conditions. More highly rated modules reduce the number of panels required to attain a specific capacity, making installation simpler, reducing the structural load, and overall system efficiency increases. Such flexibility ensures optimum matching with different project needs.
Solar panels' dimensions vary with model and power rating, although common configurations include 1720 × 1134 × 30 mm, 1910 × 1134 × 30 mm, and 2279 × 1134 × 30 mm. Having the panels available in over one size format allows for optimal space utilization in different container systems and base mounting structures. The modularity enables the system to be tailored to fit site-specific constraints while maximizing energy density.
The system comes in different total installed capacities of 9 kWp, 68 kWp, and 136 kWp, among others, with prospects beyond these levels. The IP66 protection is inherent on all modules to ensure immunity against ingress of dust and water, ensuring uniform performance under harsh outdoor conditions. The system has up to 23.2% conversion efficiency, with high energy yield, reliability over the long term, and stable operation in different applications.
HJFoldSolar Portable Foldable Off-Grid Solar Containers employ advanced lithium batteries with excellent capacity, long life cycle, and good charging and discharging efficiency. This offers reliable energy storage to meet different demands in different applications, from remote sites to emergency uses.
The system provides variable battery capacities of between 20 kWh and 482 kWh, depending on the model and use. This variability provides ease of matching varying power requirements and usage durations to ensure continuous energy delivery in various scenarios.
Output power ranges from 5 kW to 200 kW, suitable for applications of varying scales, from small deployments to high-demand, power-intensive projects.
HJFoldSolar utilizes air-cooled air conditioning for temperature control to provide stable operation. This protects the energy storage system even in extreme weather conditions.
The energy storage system supports on-grid and off-grid modes of operation, incorporates fire protection with aerosol or FK-5-1-12 (perfluoroethane), and comes equipped with an MES energy management system that facilitates combined use of solar, storage, and diesel power.
The support frame is welded from Q345 carbon steel and treated with hot-dip galvanization (thickness ≥65μm), offering high strength, excellent corrosion resistance, and long-term stability to ensure the solar panels are securely mounted and operate reliably.
The photovoltaic support adopts a mobile foldable design, featuring manual operation assisted by a winch system (power ≥2 kW). It achieves an unfolding speed of 7.0 m/min with an adjustable deployment angle of 15°, enabling flexible expansion and reliable retraction.
The support structure is designed to withstand wind speeds up to 25 m/s (equivalent to Beaufort scale level 10), ensuring reliable stability and safety under strong wind conditions.
The support structure offers a maximum deployment length of 100 meters (excluding the container), with flexibility to customize the length according to specific project requirements.
The system supports non-standard 8, 10, 20, and 40-foot containers with flexible solutions to address different project needs. The flexibility offers effortless mobility, rapid deployment, and space utilization in the site, making the system installable in multiple locations and operating conditions.
The housing is built to an IP54 degree of protection, with excellent resistance to the entry of dust and water splashes. This will result in full protection for internal components and stable operation of the system even in harsh outdoor conditions, increasing the service life and reducing the maintenance needs.
The container features side doors for the use of modules, along with front and rear maintenance doors for easy access to internal components. This configuration provides quick installation, easy maintenance, and secure use, improving overall usability and overall effectiveness in the field.
The system can operate stably under the condition of -25 ℃ to 55 ℃ ambient temperature, ensuring a stable performance under various environments.
The system is equipped with a string-type photovoltaic inverter with an 80 kW × 2 AC output, three-phase 380 V, and IP65 protection level. Optional configurations are available to meet different project requirements, and it allows for efficient and stable power transformation.
PV1-F 1.4 mm² (1000 V) photovoltaic cables with MC4 connectors provide secure connections and reliable electrical performance, reduce energy loss, and facilitate stable system operation.
Whether for disaster relief operations, remote telephone station construction, rural electrification projects, or construction sites, this portable folding off-grid solar container provides clean, quiet, and mobile electricity.

In the event of emergency crises like earthquakes, floods, or hurricanes, speedy-deployment clean energy is indispensable. Solar container can be deployed in minutes to support rescue operations, field hospitals, and emergency shelters.
Outdoor events such as fairs, music festivals, and outdoor sports activity often call for dynamic and quiet power. The system provides a reliable source of power with no emissions or noise, which is perfect for events in urban or rural environments.
Field bases and army bases need portable, quiet, and emissionless power. The foldable casing can be transported and redeployed easily, giving energy security in remote and sensitive environments.
Telecom towers and remote base stations rely on uninterrupted energy supply. The container provides dependable and off-grid power, which ensures uninterrupted network services.
Rural clinics and mobile medical units need good electricity for equipment, which is required for refrigeration and lighting. The container provides 24/7 clean power where there are no traditional grids.
Cities need emergency power solutions for critical infrastructure, such as hospitals, firehouses, and emergency shelters. The Solar PV Container is suited to be an instant-response solution, providing reliable electricity in the event of a power outage or peak load conditions.
We've deployed the Foldable Solar Container in various remote infrastructure projects in Southeast Asia. It delivers dependable energy where grids aren't up to standard. Installation is incredibly fast—power in 40 minutes of receiving it. No fuel supply issues, no noise pollution, no maintenance concerns. The foldable design also conserves a truckload of space for shipping. It's now our go-to power for remote construction sites.
The lithium battery and integrated inverter cabinet in this solar container is a game-changer in terms of system control. We can see everything in real-time. It integrates with both our AC and DC loads perfectly, fueling tools, servers, and lights 24/7. The 480W TOPCon panels are very efficient—solid performance even on cloudy days. For a stand-alone solar panel system, this item brings true autonomy.
We commissioned their Solar Container at a remote construction site on Bekasi's outskirts, West Java. Regular diesel resupply was a hassle—now we've reduced generator utilization over 60%, and site voltage stability is significantly enhanced. Equipment had an under-one-hour boot-up.
During a typhoon relief response, grid power was completely down. Portable Foldable Off-Grid Solar Container was trucked in and installed in an hour. We used it to power medical tents, lighting, and communications. Its quiet operation was a big plus during nights. For disaster response teams, this solar container is not only convenient—it's a lifeline.
We bought multiple Portable Solar Container units for a mine in a remote mountainous region. The modularity of the units simplified scaling power output by installing units in series. There is minimal maintenance, and intelligent power management yields extended battery life. This is more cost-effective than building traditional solar farms or hauling diesel equipment, and far more flexible.
A maximum of 25-year warranty, with more than 30 years' system design life. The foldable solar container is crafted for durability for the long term and is easy to maintain, supported by remote diagnostics and on-site support.
Because of its foldable solar panel array and independent nature, it can be installed within less than 60 minutes and is ideally suited for disaster relief, mobile infrastructure, and short-term off-grid operation.
Yes. The weather-resistant materials are integrated into the solar panels and container that can withstand high winds, heavy rain, snow, and extreme temperatures—delivering reliable off-grid power even in inhospitable environments.
Yes. Container sizes (20ft, 40ft, or project-specific) and PV and battery capacity can be configured to meet varying project requirements.
It is typically installed in off-grid villages, distant building construction campsites, telecommunication bases, and emergency power supply applications—where quick setup, mobility, and clean power are at a premium.
Our solutions embed multi-stage safety devices like real-time thermal protection, fire-suppression modules, smart fault detection, and remote diagnostics. Each unit is certified to international safety standards like UL9540, IEC62619, and GB/T36276.
Modular energy storage units range from 100kWh to multi-MWh capacity. They can be containerized (20ft/40ft) or customized based on site requirements, making it a matter of simple extension with rising demand.
The system accommodates peak shaving, load shifting, and time-of-use optimization—enabling businesses to reduce electricity costs up to 30%. Based on local tariffs, load profile, incentive policies, and system size, the ROI can typically be realized in 3–5 years.
Most applications can be cut and installed online within 8 to 12 weeks, depending on project size and site conditions. Pre-assembled containerized products reduce installation and integration time even further.
Yes. Industrial-grade materials, weather-resistant enclosures, and optional HVAC or thermal control allow for operation in extreme temperature, high humidity, and remote or hard-to-reach locations.
Whether you're ready to move forward or just exploring options, contact us now to discuss your mobile solar container project or request a personalized off-grid power quote.
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