Product Introduction：

Our comprehensive line of solar inverters offers a solution for every energy need. Whether you’re aiming to power a cozy home, a bustling business, or a large-scale project, we have the perfect solar inverter to match your specific requirements.

With a wide range of capacities available, including 3kW, 5kW, 6.5kW, 8kW, 9kW, and 12kW models, you can confidently select the inverter that aligns precisely with your energy consumption.

Key Features and Benefits of Our Inverters:

Wide Power Range: Our diverse product line, spanning from 3kW to 12kW, accommodates various system sizes and energy requirements. This flexibility allows us to serve a broad customer base, from homeowners to large-scale commercial enterprises.

High Efficiency: Our inverters are designed for maximum energy conversion efficiency, ensuring that you get the most out of your solar investment. This translates to lower energy bills and a faster return on investment.  

Reliability and Durability: Built with high-quality components and rigorous testing, our inverters are designed to withstand harsh environmental conditions and provide long-lasting, reliable performance.  

Advanced Technology: We incorporate cutting-edge technologies, such as Maximum Power Point Tracking (MPPT), to optimize energy harvest from your solar panels, even under varying sunlight conditions.

Grid-Tied and Off-Grid Compatibility: Depending on the specific model, our inverters can be used in both grid-tied (on-grid) and off-grid solar systems, providing flexibility for different installation scenarios.  

Monitoring and Control: Many of our inverters come with advanced monitoring and control features, allowing you to track system performance, identify potential issues, and optimize energy production.  

Safety Features: Built-in safety mechanisms protect your system and property from electrical faults and other potential hazards.  

Inverters Applications:

Residential: Power your home with clean, renewable energy and reduce your electricity bills. Our smaller capacity inverters (3kW-6.5kW) are ideal for residential installations.

Commercial: Reduce operating costs and enhance your business’s sustainability profile with our medium to high capacity inverters (6.5kW-12kW).  

Large-Scale Projects: Our high-capacity inverters are suitable for large-scale solar farms and industrial applications.

Choosing the Right Inverter:

Selecting the appropriate inverter capacity depends on several factors, including:

Size of your solar panel array: The total wattage of your solar panels determines the required inverter capacity.  

Energy consumption: Your average energy usage will influence the size of your solar system and, consequently, the inverter size.  

Local grid regulations: Grid-tied systems must comply with local regulations regarding inverter specifications.

We can help you determine the optimal inverter for your specific needs. Contact us for a consultation.

The 12000-watt (12KW) solar inverter, as the core equipment of the photovoltaic system, is mainly used to convert the direct current generated by solar panels into alternating current to meet the power demands of various scenarios. Its application scenarios are extensive, covering households, commercial and industrial sectors, large-scale power stations, off-grid areas, and special fields, as detailed below:

I. Residential Roof System

Application scenarios: Photovoltaic panels are installed on the roofs of houses, courtyards or carports. The direct current generated is converted into alternating current by a 12KW inverter for household appliances.

Functional features:

Self-use power supply: Meet the daily electricity needs of the household, such as air conditioners, televisions, refrigerators, and washing machines.
Excess power to the grid: Excess electricity can be sold to the power grid to increase income.
Energy storage: Combined with batteries, it realizes power storage and ensures electricity supply at night or on cloudy and rainy days.

II. Commercial and Industrial Roof System

Application scenarios: Large-scale photovoltaic systems installed on the roofs or open spaces of factories, warehouses, shopping malls, schools, hospitals, government institutions and other buildings.

Functional features:

Reduce electricity bills: Meet the electricity needs of enterprises’ own operations, reduce dependence on traditional power grids, and lower electricity expenses.
Energy conservation and emission reduction: Through photovoltaic power generation, carbon emissions are reduced, meeting the requirements of green buildings and sustainable development.
Excess power to the grid: Excess electricity can be connected to the power grid to increase enterprise income.

III. Large-scale Ground-mounted Photovoltaic Power Station

Application scenarios: Large-scale centralized photovoltaic power generation fields built in deserts, barren mountains, tidal flats and other areas.

Functional features:

High-power conversion: Use high-power centralized inverters or string inverter arrays to convert a large amount of solar energy into alternating current.
Direct transmission: The converted alternating current is directly transmitted to the national power grid, providing support for large-scale power supply.
High efficiency and stability: Use high-efficiency inverters to ensure the stability and reliability of power output.

IV. Off-grid System

Application scenarios: Remote areas where the power grid cannot reach (such as mountainous areas, islands, pastoral areas, border guard posts, communication base stations) or areas without stable power grid support.

Functional features:

Independent power supply: Solar panels + inverters + batteries form an independent power supply system, providing completely independent power supply for the entire house or small community.
Emergency backup: Combined with batteries, it provides backup power for critical loads when the city power is out.
Hybrid power: Combined with diesel generators, wind energy and other energy sources, it forms a hybrid power system to ensure stable power supply to the load.

V. Special Application Scenarios

Solar water pump system:

Application scenarios: Agricultural irrigation, drinking water supply, etc.
Functional features: The photovoltaic water pump inverter converts solar direct current into alternating current to directly drive the water pump motor for water pumping, without the need for battery storage.

Building-integrated photovoltaics (BIPV):

Application scenarios: Solar photovoltaic panels are used as part of the building’s exterior walls, windows, and roof materials.
Functional features: The generated electricity is converted into alternating current through integrated or external inverters for building use or connection to the power grid.

Power supply for mobile devices:

Application scenarios: Solar systems for vehicles such as RVs, yachts, fishing boats, etc.
Functional features: The inverter supplies power to on-board or on-ship electrical appliances, such as televisions, refrigerators, lighting, and power tools.

Portable solar generator:

Application scenarios: Camping, outdoor activities or emergency power supply.
Functional features: An integrated device combining photovoltaic panels, batteries and inverters, which is easy to carry and use.