The SUN-10HL-G4 supports a maximum input DC voltage of 1,000 V, with a maximum power point tracking (MPPT) voltage range of 200 V to 850 V DC. This range allows the inverter to optimize power extraction from solar panels, ensuring high performance in various conditions. The inverter, rated IP66 for dust and water resistance, measures 440 mm x 370 mm x 140 mm and weighs 16 kg, making it compact and suitable for diverse installation environments.
Sunora’s current solar module production capacity stands at 2 gigawatts (GW), encompassing mono PERC glass-backsheet bifacial modules (520–550 Wp) and n-type TOPCon glass-glass bifacial modules (570–600 Wp). These modules cater to a wide range of solar energy projects, delivering reliable and efficient power output. The company has announced plans to expand its production capacity to 6 GW by December 2025, reflecting its commitment to meeting growing global demand for renewable energy solutions.
The introduction of the SUN-10HL-G4 at RenewX 2025 highlights Sunora’s focus on innovation in the solar energy sector. The inverter’s design prioritizes durability, efficiency, and adaptability, making it an ideal choice for commercial solar installations. By integrating advanced technology, Sunora aims to support the transition to cleaner energy systems worldwide.
Sunora’s expansion plans and new product offerings demonstrate its strategic vision to strengthen its position in the renewable energy market. The company’s efforts to increase production capacity and develop cutting-edge inverters align with the global push for sustainable energy solutions. The SUN-10HL-G4 is expected to contribute significantly to commercial solar projects, providing reliable performance and optimizing energy output.
The unveiling at RenewX 2025 marks a key milestone for Sunora as it continues to advance solar technology. With its robust production capabilities and innovative products, the company is well-positioned to support the growing adoption of solar energy, contributing to a more sustainable and energy-efficient future.
