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The Solar Water Pump Inverter for Irrigation represents a specialized power conversion solution engineered to transform solar energy into reliable operational power for agricultural irrigation systems. This sophisticated inverter serves as the critical link between solar photovoltaic (PV) modules and AC water pumps, converting the direct current (DC) generated by solar panels into alternating current (AC) suitable for powering irrigation pumps of various types and sizes. By incorporating advanced power management technologies, this inverter maximizes water output while minimizing energy waste, making it an essential component for sustainable farming practices. Its intelligent design enables remote operation in off-grid locations, reducing dependence on fossil fuels and grid electricity while providing consistent water supply for crops, vineyards, and orchards.
The inverter achieves peak efficiency exceeding 97%, ensuring minimal energy loss during the DC-to-AC conversion process. This high efficiency directly translates to increased water pumping capacity, with typical systems delivering 20-30% more water compared to conventional solar irrigation setups.
Featuring up to two independent maximum power point tracking (MPPT) channels, the inverter optimizes energy harvest from solar arrays even when panels are partially shaded or soiled. The MPPT operates across a wide voltage range of 200V to 1000V DC, accommodating various solar array configurations and maximizing energy production throughout the day.
Equipped with specialized control logic for irrigation applications, the inverter supports soft starting to prevent water hammer effects in piping systems and offers adjustable pressure and flow rate control. It is compatible with centrifugal, submersible, and mixed-flow pumps ranging from 1.5kW to 50kW.
Housed in a rugged IP65 protection rating enclosure, the inverter provides complete protection against dust and water ingress, ensuring reliable operation in harsh agricultural environments. Its operating temperature range of -20°C to +60°C allows performance in diverse climatic conditions from cold highlands to hot deserts.
In large-scale agricultural operations, the inverter powers center pivot, drip, and sprinkler irrigation systems for staple crops such as wheat, corn, and soybeans, ensuring precise water distribution according to crop requirements.
Specialized irrigation systems in orchards and vineyards benefit from the inverter's precise flow control, delivering targeted water application to fruit trees and grapevines while optimizing energy usage.
Controlled environment agriculture facilities utilize the inverter to power specialized irrigation systems, supporting optimal growing conditions with reliable water supply and energy efficiency.
Plant nurseries and seedling operations rely on the inverter's ability to provide consistent low-pressure water supply, essential for delicate young plants and seedlings.
Unlike general-purpose inverters, this specialized device includes pump-specific controls, irrigation optimization algorithms, and protection features tailored for water pumping applications. It is designed to operate without battery storage, directly matching pump output to solar generation.
Yes, the inverter is designed for easy integration with most existing AC-powered irrigation systems, requiring only minor modifications to connect to the solar array. It can replace diesel generators or grid connections while utilizing existing pumps and distribution infrastructure.
The inverter automatically adjusts pump speed based on available solar energy, reducing water output rather than shutting down completely. For critical applications, optional battery backup can be integrated to maintain operation during extended low-light periods.
The inverter includes built-in surge protection devices (SPDs) rated for 20kA impulse current, protecting against lightning strikes and transient voltage surges common in agricultural environments. Additional external protection is recommended in high-risk areas.
The Solar Water Pump Inverter for Irrigation represents a specialized power conversion solution engineered to transform solar energy into reliable operational power for agricultural irrigation systems. This sophisticated inverter serves as the critical link between solar photovoltaic (PV) modules and AC water pumps, converting the direct current (DC) generated by solar panels into alternating current (AC) suitable for powering irrigation pumps of various types and sizes. By incorporating advanced power management technologies, this inverter maximizes water output while minimizing energy waste, making it an essential component for sustainable farming practices. Its intelligent design enables remote operation in off-grid locations, reducing dependence on fossil fuels and grid electricity while providing consistent water supply for crops, vineyards, and orchards.
The inverter achieves peak efficiency exceeding 97%, ensuring minimal energy loss during the DC-to-AC conversion process. This high efficiency directly translates to increased water pumping capacity, with typical systems delivering 20-30% more water compared to conventional solar irrigation setups.
Featuring up to two independent maximum power point tracking (MPPT) channels, the inverter optimizes energy harvest from solar arrays even when panels are partially shaded or soiled. The MPPT operates across a wide voltage range of 200V to 1000V DC, accommodating various solar array configurations and maximizing energy production throughout the day.
Equipped with specialized control logic for irrigation applications, the inverter supports soft starting to prevent water hammer effects in piping systems and offers adjustable pressure and flow rate control. It is compatible with centrifugal, submersible, and mixed-flow pumps ranging from 1.5kW to 50kW.
Housed in a rugged IP65 protection rating enclosure, the inverter provides complete protection against dust and water ingress, ensuring reliable operation in harsh agricultural environments. Its operating temperature range of -20°C to +60°C allows performance in diverse climatic conditions from cold highlands to hot deserts.
In large-scale agricultural operations, the inverter powers center pivot, drip, and sprinkler irrigation systems for staple crops such as wheat, corn, and soybeans, ensuring precise water distribution according to crop requirements.
Specialized irrigation systems in orchards and vineyards benefit from the inverter's precise flow control, delivering targeted water application to fruit trees and grapevines while optimizing energy usage.
Controlled environment agriculture facilities utilize the inverter to power specialized irrigation systems, supporting optimal growing conditions with reliable water supply and energy efficiency.
Plant nurseries and seedling operations rely on the inverter's ability to provide consistent low-pressure water supply, essential for delicate young plants and seedlings.
Unlike general-purpose inverters, this specialized device includes pump-specific controls, irrigation optimization algorithms, and protection features tailored for water pumping applications. It is designed to operate without battery storage, directly matching pump output to solar generation.
Yes, the inverter is designed for easy integration with most existing AC-powered irrigation systems, requiring only minor modifications to connect to the solar array. It can replace diesel generators or grid connections while utilizing existing pumps and distribution infrastructure.
The inverter automatically adjusts pump speed based on available solar energy, reducing water output rather than shutting down completely. For critical applications, optional battery backup can be integrated to maintain operation during extended low-light periods.
The inverter includes built-in surge protection devices (SPDs) rated for 20kA impulse current, protecting against lightning strikes and transient voltage surges common in agricultural environments. Additional external protection is recommended in high-risk areas.
