Permanent Magnet Synchronous Motor
The Permanent Magnet Synchronous Motor (PMSM) is an AC synchronous motor whose field excitation is provided by permanent magnets. The permanent magnet synchronous motors are very efficient, brushless, very fast, safe, and give a high dynamic performance. Due to their advantages, permanent synchronous motors have many applications and find use in several fields.
A permanent magnet synchronous motor (PMSM) is a synchronous electric motor with permanent magnets as the inductor. In industrial applications, the Permanent Magnet Synchronous Motor is an Important Product. Permanent Magnet Synchronous Motors are available from a variety of suppliers and companies, as well as Manufacturers and Distributors, with several Synchronous Motors for Sale on Linquip.
There is a comprehensive list of Synchronous Motor services on the Linquip website that covers all of your needs. Linquip can connect you with a number of industrial Synchronous Motor professionals and service suppliers. Linquip offers a team of Synchronous Motor Experts available to help you test your equipment.
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What Is a Permanent Magnet Synchronous motor?Permanent Magnet Synchronous Motor (PMSM) is brushless and has very high reliability and efficiency. Due to its permanent magnet rotor, it also has a high torque with a small frame size and no rotor current. Instead of using winding for the rotor, permanent magnets are mounted to create a rotating magnetic field. As there is no supply of DC source, these types of motors are very simple and less cost. The permanent magnet synchronous motors are AC synchronous motor whose field excitation is provided by permanent magnets and that has a sinusoidal back EMF waveform. The permanent magnets enable the PMSM to generate torque at zero speed. This motor delivers high-efficiency operations and requires a digitally controlled inverter.
ConstructionThe permanent magnet synchronous motors, like any rotating electric motor, are consisted of a rotor and a stator. The permanent magnet synchronous motor construction is similar to the basic synchronous motor, but the only difference is with the rotor. In this type of motor, the permanent magnets are mounted on the rotor and the rotor doesn’t have any field winding.
The permanent magnets are used to create field poles. The permanent magnets used in the motor are made up of samarium-cobalt and medium, iron, and boron because of their higher permeability. The most widely used permanent magnet is neodymium-boron-iron because of its effective cost and ease of availability.
Working PrincipleThe permanent magnet synchronous motors working principle is similar to the synchronous motor. The principle of operation is based on the interaction of the rotating magnetic field of the stator and the constant magnetic field of the rotor. It depends on the rotating magnetic field that generates electromotive force at synchronous speed.
When the stator winding is energized by giving the 3-phase supply, a rotating magnetic field is created in between the air gaps. This produces the torque when the rotor field poles hold the rotating magnetic field at synchronous speed and the rotor rotates continuously. As these motors are not self-starting, it is necessary to provide a variable frequency power supply.
CharacteristicsNo sparks, safer in explosive environments
Clean, fast, and efficient
More compact, efficient, and lighter than an ACIM
Designed for high-performance servo applications
Runs with/without position encoders
Low audible noise and EMI
Smooth low- and high-speed performance
Produces optimal torque when coupled with Field-Oriented Control (FOC)
Depending on how magnets are attached to the rotor and the design of the rotor, permanent magnet synchronous motor can be classified into two types:
Surface permanent magnet synchronous motor (SPMSM)
Interior permanent magnet synchronous motor (IPMSM).
SPMSM mounts all magnet pieces on the surface, and IPMSM places magnets inside the rotor.
Also, depending on the stator design, a permanent magnet synchronous motor can be:
With distributed winding
With concentrated winding
Because permanent magnet synchronous motors must be driven with sinusoidal waveforms, the complexity of the control increases. A permanent magnet synchronous motor requires a control system, for example, a variable frequency drive or a servo drive.
There are a large number of control techniques implemented control systems. The choice of the optimal control method mainly depends on the task that is put in front of the electric drive. To solve simple tasks is usually used trapezoidal control with Hall sensors. To solve problems that require maximum performance from the electric drive, field-oriented control is usually selected.
Do Synchronous Motors Have Permanent Magnets?Permanent magnets placed in the steel rotor provide a continuous magnetic field in a permanent-magnet synchronous motor (PMSM). A revolving magnetic field is created by windings coupled to an AC source in the stator (as in an asynchronous motor).
AdvantagesThe advantages of permanent magnet synchronous motor include,
Dynamic performance in both high and low-speed operation
High power density
Low rotor inertia makes it easy to control
No torque ripple when the motor is commutated
High and smooth torque
High efficiency at high speeds
Resistant to wear and tear
Available in small sizes at different packages
Easy maintenance and installation
Capable of maintaining full torque at low speeds
High reliability
Efficient dissipation of heat
Less noisy
The disadvantages of permanent magnet synchronous motors are
High initial cost
Very expensive
Difficult to start up because it is not a self-starting motor
The permanent magnet synchronous motors applications are
Air conditioners
Refrigerators
AC compressors
Direct-drive washing machines
Automotive electrical power steering
Machine tools
Control of traction
Data storage units
Servo drives
Electric vehicle drivetrain
Large power systems to improve leading, and lagging power factor
Industrial applications like robotics, aerospace, and many more.
Thus, here is all about an overview of the permanent magnet synchronous motors. If you enjoyed this article in Linquip, let us know by leaving a reply in the comment section. Is there any question we can help you through? Feel free to sign up on our website to get the most professional advice from our experts.
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