SUNGROW 350KW 380V, SG350HX-V113 S (ASG01724)
Login to view prices
SUNGROW INVERTER 350KW SG350HX V113 S (ASG01724)
Description
Founded in 1997 by Cao Renxian, a professor at Hefei University of Technology in China, Sungrow has grown to become one of the leading companies in the field of solar inverters. They have made significant contributions to the research and development of solar energy technologies, particularly in the area of inverters.
Sungrow boasts a substantial R&D team, which is one of the largest in the industry. This emphasis on research and development allows them to continuously innovate and improve their product offerings. Their wide range of solutions includes photovoltaic (PV) inverter solutions and energy storage systems designed for industrial, commercial, and residential applications.
The Sungrow 350 kW inverter is designed for commercial use and manufactured by Sungrow, a renowned company in the field of solar inverters. Here are some specifications and details about the product:
- Producer: Sungrow
- Power: 350,000 W (or 350 kW)
- Number of phases: 3.0 (indicating it is a three-phase inverter)
- Warranty: 5 years (presumably covering any defects or malfunctions within that period)
- Purpose: Specifically designed for commercial applications, suggesting it is suitable for larger-scale solar installations.
- Efficiency: 98.80%, which indicates a high level of energy conversion efficiency, allowing for maximum power output from the solar panels.
- Max DC Voltage: 1500.00 V, specifying the maximum direct current (DC) voltage that the inverter can handle. This information is crucial for system design and compatibility.
- Start-up voltage: 550.00 V, indicating the minimum DC voltage required for the inverter to start functioning.
- Additional notes: ” 12 MPPT 40A” suggests that this particular model of the Sungrow 350 kW inverter has 12 maximum power point tracking (MPPT) inputs, with each input capable of handling a maximum current of 40A. MPPT technology optimizes the energy output of the solar panels by adjusting the operating point to extract the maximum power available.