Nowadays, the industrial trend expects energy-efficient motors, such as cost-effective and high-efficiency motor drive systems. For this kind of application, a synchronous reluctance motor is the most appropriate one because of its durable rotor design and absence of rotor winding. The absence of rotor winding gives improved efficiency, and the primary advantage is the absence of permanent magnets, which provides the added benefit of being cost-effective. However, the magnetic saturation and iron losses are creating a significant impact on a synchronous reluctance motor's performance and behaviour. In this paper, an advanced novel control strategy for achieving maximum torque per ampere (MTPA) is suggested to improve the efficiency and performance of the motor. Control and analysis of the motor behaviour considering magnetic saturation have been verified in the simulation using MATLAB and SIMULINK.
A Modified Maximum Torque Per Ampere Technique for Synchronous Reluctance Motor Considering Magnetic Saturation
2023-08-09
503888 byte
Conference paper
Electronic Resource
English