CHF200-037-4-PV
September 15, 2025CHF200-022-4-PV
September 15, 2025CHF200-030-4-PV
Rated Output Power 30 kW
Max DC Input Current 81 A
Max DC Voltage 900 V
Start Voltage 300 V
Recommended MPPT Voltage 300–750 V
Input Frequency 47–63 Hz
The MaxPower CHF200-030-4-PV Solar Hybrid VFD Inverter is a high-efficiency solar pump drive designed for modern agricultural, industrial, and commercial energy systems. It intelligently combines solar PV power and grid/AC input to ensure stable and continuous operation of water pumps even in low sunlight or unstable grid conditions.
Built with advanced MPPT (Maximum Power Point Tracking) technology, the CHF200 series maximizes solar energy harvesting from PV panels, improving system efficiency and reducing electricity costs. Its hybrid design supports multiple pump types including asynchronous, PMSM, and single-phase motors, making it highly versatile for different installations.
Frequently Asked Questions
What is the MaxPower CHF200-030-4-PV used for?
The CHF200-030-4-PV is a hybrid solar pump inverter used to run water pumps using solar energy and grid backup, commonly used in agriculture, irrigation, and industrial water systems.
Does the CHF200-030-4-PV support both solar and electricity (hybrid mode)?
Yes, it supports hybrid operation by combining solar PV input with AC grid power, ensuring continuous pump operation even during low sunlight or power outages.
What type of motors can be used with CHF200-030-4-PV?
This inverter supports multiple motor types including asynchronous motors, PMSM motors, and single-phase pumps, making it suitable for different pumping applications.
How does MPPT technology help in CHF200-030-4-PV?
MPPT technology continuously tracks the maximum power point of solar panels, allowing the inverter to extract maximum solar energy and improve overall system efficiency.
Is CHF200-030-4-PV suitable for agriculture and irrigation systems?
Yes, it is highly suitable for agricultural irrigation systems because it provides stable water pumping, reduces electricity costs, and works efficiently with solar energy in remote areas.
Technical Specifications







