What is a wave wheel variable frequency motor?
The standard definition of wave wheel variable frequency motor is the driving motor, which mainly converts electrical energy into mechanical energy. The machine is obtained by using the force exerted by the rotating magnetic field generated by the wave wheel variable frequency electricity flowing through its coil
Yes. It is mainly composed of two main components: a fixed stator located outside, which has a coil that supplies wave wheel frequency conversion current to it, and an internal rotor fixed on the output shaft.
How does the wave wheel variable frequency motor work?
The basic operation of the wave wheel variable frequency motor depends on the magnetic principle. It contains a coil and two fixed magnets around the axis. When an electric charge (AC) is applied to a wire coil, it becomes an electromagnet, producing a magnetic field. In short
When the magnet interacts, the shaft and the wire coil begin to rotate, thus making the motor run.
Users use real feedback
There are two options for feedback control in the wave wheel variable frequency motor product. These options are resolver or encoder. Both resolver and encoder can sense direction, speed and position of output shaft. Although the resolver and motor are programmed
Coders provide the same solution in many applications, but they are very different.
The rotary transformer of the wave wheel variable frequency motor uses a second group of stator coils (called transformer) to generate rotor voltage on the air gap. Due to the lack of electronic components, the resolver is very robust and can be operated in a wide temperature range
that 's ok. Because of its design principle, the rotary transformer of wave wheel variable frequency motor also has natural seismic resistance. Rotating transformers are often used in harsh environments.
The AC Motor optical encoder uses a rotating shutter to destroy the beam passing through the air gap between the light source and the photodetector. Over time, the rotation of the shutter will cause encoder wear. This wear will reduce the optical
Encoder durability and reduced reliability.
The type of application determines whether a parser or encoder is required. The wave wheel variable frequency motor encoder is easier to realize and more accurate, so they should be the first choice for any application. Only in environments using parsers
Select a parser when required.