Rotatable stepless speed regulation, RS485 speed regulation, and precise algorithms solve the problem of instantaneous high inrush current and power impacting the power grid during power-on startup.
All can achieve single-phase input and three-phase output power for single-phase asynchronous motors without modification, and can perform stepless speed regulation and forward/reverse rotation.
It exhibits outstanding low-frequency performance and can enable a single module to drive multiple motors simultaneously and adjust their speeds within its power range.
A system specifically developed for single-phase asynchronous motors utilizes an algorithm to achieve excitation starting, eliminating the need for starting and running capacitors, and making high-temperature operating environments no longer an issue.
Highly versatile, its unique adaptive function for windings with asymmetrical parameters eliminates the need for cumbersome code matching, enabling a rapid upgrade that is impossible with general-purpose frequency converters.
This solution addresses the pain points of remote areas lacking three-phase power supply by providing a single-phase input and three-phase output function.
The above functions can be achieved without considering power consumption; a power closed-loop function can be added upon customization.