Optimal Design and Performance Analysis of a Double-Sided Multiturn Wound-Rotor Resolver

Multispeed resolvers are used in the applications that need higher accuracy. However, they suffer from losing absolute position information. To overcome this challenge and improve the reliability of detecting position, the use of multiturn resolvers is recommended. The conventional configuration of...

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Veröffentlicht in:	IEEE/ASME transactions on mechatronics 2022-02, Vol.27 (1), p.493-500
Hauptverfasser:	Hajmohammadi, Saeed, Saneie, Hamid, Nasiri-Gheidari, Zahra, Tootoonchian, Farid
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Sprache:	eng
Schlagworte:	Air gaps Analytical modeling Analytical models Configuration management design Equivalent circuits Finite element method Magnetic circuits multispeed resolver multiturn resolver Optimization Resolvers Rotors Stator cores Stator windings Time stepping finite elements time-stepping finite element analysis Windings wound-rotor resolver
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creator	Hajmohammadi, Saeed Saneie, Hamid Nasiri-Gheidari, Zahra Tootoonchian, Farid
description	Multispeed resolvers are used in the applications that need higher accuracy. However, they suffer from losing absolute position information. To overcome this challenge and improve the reliability of detecting position, the use of multiturn resolvers is recommended. The conventional configuration of multiturn resolver is using two individual resolvers on one shaft and into a common frame. Using such configuration needs special care on setting the distance between two resolvers. In this article, a new structure based on a dual side configuration is proposed. The performance of the double-sided resolver is analyzed and optimized using an analytical model based on a magnetic equivalent circuit. Then, time-stepping finite element method is employed to verify the success of the new configuration and the applied optimization. Finally, the optimal resolver is built and tested. Experimental measurements confirm the success of the proposed sensor.
doi_str_mv	10.1109/TMECH.2021.3066815
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However, they suffer from losing absolute position information. To overcome this challenge and improve the reliability of detecting position, the use of multiturn resolvers is recommended. The conventional configuration of multiturn resolver is using two individual resolvers on one shaft and into a common frame. Using such configuration needs special care on setting the distance between two resolvers. In this article, a new structure based on a dual side configuration is proposed. The performance of the double-sided resolver is analyzed and optimized using an analytical model based on a magnetic equivalent circuit. Then, time-stepping finite element method is employed to verify the success of the new configuration and the applied optimization. Finally, the optimal resolver is built and tested. 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subjects	Air gaps Analytical modeling Analytical models Configuration management design Equivalent circuits Finite element method Magnetic circuits multispeed resolver multiturn resolver Optimization Resolvers Rotors Stator cores Stator windings Time stepping finite elements time-stepping finite element analysis Windings wound-rotor resolver
title	Optimal Design and Performance Analysis of a Double-Sided Multiturn Wound-Rotor Resolver
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