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Electromagnetic and experimental analyses of a low‐cost miniature tubular moving magnet linear oscillating actuator for miniature compressor applications
This article presents a miniature tubular moving magnet linear oscillating actuator (MT‐MMLOA) that operates on an electro dynamic actuation mechanism. The proposed linear oscillating actuator comprises two main parts: the stator and the mover. In this topology, the stator assembly is composed of a...
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| Published in: | IET electric power applications 2023-01, Vol.17 (1), p.58-67 |
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| Main Authors: | , , , , , |
| Format: | Article |
| Language: | English |
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| cites | cdi_FETCH-LOGICAL-c3735-13362f984307b0c8aa1a7fd0f6c11c00d9b6e7acd405877e3f5795a6505b0d993 |
| container_end_page | 67 |
| container_issue | 1 |
| container_start_page | 58 |
| container_title | IET electric power applications |
| container_volume | 17 |
| creator | Khalid, Sumeet Khan, Faisal Ullah, Basharat Ahmad, Zahoor Milyani, Ahmad H. Alghamdi, Sultan |
| description | This article presents a miniature tubular moving magnet linear oscillating actuator (MT‐MMLOA) that operates on an electro dynamic actuation mechanism. The proposed linear oscillating actuator comprises two main parts: the stator and the mover. In this topology, the stator assembly is composed of a modular C‐core structure along with a separator to prevent flux cancelation, and the mover assembly accommodates axially magnetised permanent magnets (PMs) that contribute to high thrust force generation and present a less costly actuator compared to the conventional actuator design. The finite element analysis is performed and validated experimentally. Numerous linear oscillating actuator topologies proposed previously in the literature are compared with MT‐MMLOA to analyse the electromagnetic performance. The results show that the motor constant, which is the performance parameter, is significantly increased from the conventional design. The PM volume is reduced, which is cost‐effective. The overall volume of MT‐MMLOA is also reduced due to reduction in the PM volume, which is advantageous for compactness. Consequently, the proposed MT‐MMLOA is simple in structure, less costly, and easy to fabricate. |
| doi_str_mv | 10.1049/elp2.12245 |
| format | article |
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The proposed linear oscillating actuator comprises two main parts: the stator and the mover. In this topology, the stator assembly is composed of a modular C‐core structure along with a separator to prevent flux cancelation, and the mover assembly accommodates axially magnetised permanent magnets (PMs) that contribute to high thrust force generation and present a less costly actuator compared to the conventional actuator design. The finite element analysis is performed and validated experimentally. Numerous linear oscillating actuator topologies proposed previously in the literature are compared with MT‐MMLOA to analyse the electromagnetic performance. The results show that the motor constant, which is the performance parameter, is significantly increased from the conventional design. The PM volume is reduced, which is cost‐effective. The overall volume of MT‐MMLOA is also reduced due to reduction in the PM volume, which is advantageous for compactness. 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The proposed linear oscillating actuator comprises two main parts: the stator and the mover. In this topology, the stator assembly is composed of a modular C‐core structure along with a separator to prevent flux cancelation, and the mover assembly accommodates axially magnetised permanent magnets (PMs) that contribute to high thrust force generation and present a less costly actuator compared to the conventional actuator design. The finite element analysis is performed and validated experimentally. Numerous linear oscillating actuator topologies proposed previously in the literature are compared with MT‐MMLOA to analyse the electromagnetic performance. The results show that the motor constant, which is the performance parameter, is significantly increased from the conventional design. The PM volume is reduced, which is cost‐effective. The overall volume of MT‐MMLOA is also reduced due to reduction in the PM volume, which is advantageous for compactness. 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The proposed linear oscillating actuator comprises two main parts: the stator and the mover. In this topology, the stator assembly is composed of a modular C‐core structure along with a separator to prevent flux cancelation, and the mover assembly accommodates axially magnetised permanent magnets (PMs) that contribute to high thrust force generation and present a less costly actuator compared to the conventional actuator design. The finite element analysis is performed and validated experimentally. Numerous linear oscillating actuator topologies proposed previously in the literature are compared with MT‐MMLOA to analyse the electromagnetic performance. The results show that the motor constant, which is the performance parameter, is significantly increased from the conventional design. The PM volume is reduced, which is cost‐effective. The overall volume of MT‐MMLOA is also reduced due to reduction in the PM volume, which is advantageous for compactness. 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| language | eng |
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| source | IET Digital Library - eJournals; Wiley-Blackwell Open Access Titles (Open Access) |
| title | Electromagnetic and experimental analyses of a low‐cost miniature tubular moving magnet linear oscillating actuator for miniature compressor applications |
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