The installation of grid-tied solar systems demands a high level of expertise. Professional installers meticulously plan every aspect, from the optimal tilt and orientation of the solar panels to ensure maximum sunlight exposure throughout the year, to the proper sizing of inverters that convert the DC power from the panels into alternating current (AC) compatible with the grid. Stringent safety standards are adhered to, with grounding and surge protection measures in place to safeguard against electrical faults and lightning strikes. Once installed, these systems require minimal maintenance. Regular inspections to clean the panels of dust and debris and check for any loose connections are usually sufficient to keep them operating at peak efficiency. As a result, grid-tied solar offers homeowners and businesses a hassle-free way to embrace clean energy and make a positive impact on the environment and their wallets.
Battery technologies in solar systems are as diverse as the applications they serve. Lead-acid batteries have been a stalwart in the industry for decades. Their operation hinges on the reversible chemical reaction between lead, lead dioxide, and sulfuric acid. When the battery is charging, electrical energy is used to convert lead sulfate back into lead and lead dioxide, while sulfuric acid is regenerated. During discharge, the reverse reaction occurs, releasing electrical energy. However, these batteries come with significant drawbacks. They are notoriously heavy, which can pose challenges for installation and transportation, especially in off-grid or portable applications. Their energy density is relatively low, meaning they require more space to store the same amount of energy compared to newer technologies. Additionally, regular maintenance is essential. Owners must periodically check the electrolyte levels and add distilled water to prevent drying out, which can lead to reduced battery life and performance.
Our solar system factory stands as a symbol of progress in the renewable energy industry. The layout is designed to encourage collaboration between different departments, with engineers, technicians, and designers working side by side. This synergy results in faster problem-solving and innovation. The production of solar cells is a complex art, involving precise chemical processes and physical manipulations. Our factory has mastered these techniques, producing cells with high conversion efficiencies and long lifespans. We also offer a wide range of solar solutions, from off-grid systems that provide power to remote cabins and villages to grid-tied systems that help homeowners reduce their electricity bills. Our comprehensive product portfolio, combined with our reliable after-sales service, has made us a household name in the solar energy community.

| Item | 3kw | 5kw | 8kw | 10kw | 15kw | 20kw | 30kw |
| Mono Solar Panel 550W (pcs) | 6 | 10 | 16 | 20 | 30 | 40 | 60 |
| Hybrid / Off-grid Inverter | 110V/220V 220V 380V 50 - 60HZ 3KW 5KW 8KW 10kw 12kw 15kw 20kw 30kw |
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| Bracket | Ground/Roof mount | ||||||
| PV Combiner box | N in 1 out | ||||||
| Battery | Lithium Battery BMS ; GEL Battery | ||||||
































FAQ
What materials are solar panels made of?
The main component of a solar panel is the photovoltaic cell, which is predominantly made of silicon. The silicon wafers are the heart of the cell where the conversion of sunlight to electricity occurs. To protect the delicate silicon cells, a layer of tempered glass is placed on the front surface. This glass is highly transparent to allow maximum sunlight penetration and is also durable enough to withstand environmental elements like hail, wind, and UV radiation. The back of the panel is usually covered with a polymer or metal foil to provide insulation and protection. The frame that holds the panel together is commonly made of aluminum due to its lightweight, corrosion-resistant properties. Electrical wiring, made of copper or aluminum conductors, is used to connect the cells within the panel and to transfer the generated electricity to the inverter or other electrical components. Some advanced solar panels may incorporate other materials like thin-film semiconductors (such as cadmium telluride or copper indium gallium selenide) which can offer different advantages in terms of flexibility, cost, or efficiency in specific applications.
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