Practice and Prospects for Implementing an Electric Drive Based on a Reluctance Machine with Magnetically Anisotropic Conductive Rotor

The paper represents the results of theoretical and experimental studies of an automated drive based on reluctance machines with a magnetically anisotropic conductive rotor (RMMACR) with an installed power of 1.5 to 500 kW. Designs, manufacturing techniques, advantages, and disadvantages of various...

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Bibliographic Details
Main Authors: Gelver, Fedor A., Belousov, Igor V., Samoseiko, Veniamin F., Saushev, Aleksandr V.
Format: Conference Proceeding
Language:English
Subjects:
axial and transverse lamination
control system
electric drive
energy indices
Indexes
magnetically anisotropic conductive rotor
Manufacturing
mass-dimensional characteristics
Power engineering
Reliability engineering
reluctance machine
Reluctance machines
Robust control
Rotors
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Summary:The paper represents the results of theoretical and experimental studies of an automated drive based on reluctance machines with a magnetically anisotropic conductive rotor (RMMACR) with an installed power of 1.5 to 500 kW. Designs, manufacturing techniques, advantages, and disadvantages of various RMMACR types have been described. RMMACR has been mathematically described and its block diagram built in the rotor d, q coordinate axes. An algorithm for robust control over the drive has been synthesized, which provides for adjusting the magnetizing and load current controllers by a sequential correction to a technical optimum. The drive control system has been synthesized based on two criteria: the fastest response and the highest energy efficiency index. A technique for identifying RMMACR parameters has been described. The results of testing the RMMACR design and the control theory developed have been represented. Theoretical and experimental studies have proved the adequacy of the developed RMMACR design technique with experimental data. The prospects and wide capabilities of an RMMACR- based drive have been shown and proven.
ISSN:2768-0797
DOI:10.1109/UralCon52005.2021.9559476