22KW 30KW 37KW 45KW 55KW Solar Pump Inverter Description
The solar pump inverter series provides sustainable water solutions for agricultural irrigation and rural water supply systems. Its hybrid design intelligently integrates solar, grid, and diesel power to ensure continuous, reliable operation. Advanced MPPT technology maximizes solar energy utilization while automatically switching between sources, optimizing efficiency, and reducing operating costs for remote applications.
Solar Water Pump Inverter Features
Superior MPPT Tracking: Delivers over 99% MPPT efficiency through real-time optimization of solar output. This maximizes energy capture under all sunlight conditions.
Flexible Power Management: Supports a wide 460-850VDC input range and drives three-phase AC pumps with robust overload capacity. It maintains stable performance across varying solar arrays and pump specifications.
Harsh Environment Reliability: Functions from -25°C to 60°C with automatic derating above 60°C for component protection. Its rugged design endures extreme outdoor conditions for continuous remote operation.
Optimized Power Conversion: Transforms DC solar power to AC pump power with minimal losses. High-efficiency electronics boost water delivery per panel while reducing thermal stress.
Energy Independence: Cuts all electricity and fuel costs by using free solar energy. This provides an economically sustainable water solution without grid dependency.
Modular Scalability: Scales easily from small farms to large agricultural operations. The adaptable architecture allows simple system expansion as water demands increase.
22KW 30KW 37KW 45KW 55KW Inverter for Pump Specifications
Solar Pumping Inverter FAQ
1. What causes a pump to start slowly or not rotate at all?
Wiring errors, pump malfunctions, or abnormal inverter output may cause the submersible pump to start slowly or not rotate at all. Check the pump wiring for correctness, then use a multimeter to measure the pump winding resistance. Confirm that the inverter output power meets or exceeds the pump’s rated power.
2. How do you select the right inverter power rating for a pump?
Select an inverter with a rated power greater than or equal to the pump’s rated power. Include a 20-30% power margin for safety and performance. Provide the pump’s voltage, power, and type (single-phase/three-phase) for a professional technical team to conduct compatibility assessment and system optimization.
3. How can you improve cooling if the inverter’s overheating protection triggers frequently?
Check whether the installation location has blocked ventilation, and clean dust from the cooling fans and heat sinks. Ensure the load does not exceed the rated power. Add external cooling fans if necessary, improve the installation environment, and avoid operating in high-temperature enclosed spaces.
