| Full text | |
| Author(s): Show less - |
de Castro, Allan Gregori
;
Guazzelli, Paulo R. U.
;
Lumertz, Mateus M.
;
de Oliveira, Carlos M. R.
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de Paula, Geyverson T.
;
Monteiro, Jose R. B. A.
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Batschauer, AL
;
Filho, AJS
;
Rech, C
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Brandao, DI
;
Martins, DC
;
Tedeschi, E
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Santos, EC
;
Marafao, FP
;
Antunes, FLM
;
Goncalves, FAS
;
Neves, FAD
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Braga, HAC
;
Pinto, JOP
;
Duarte, J
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Matakas, L
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Barreto, LHSC
;
Heldwein, ML
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Correa, MBD
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Mattavelli, P
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Barbosa, PG
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Magalhaes, RD
;
Machado, RQ
;
Madawala, U
Total Authors: 29
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| Document type: | Journal article |
| Source: | 2019 IEEE 15TH BRAZILIAN POWER ELECTRONICS CONFERENCE AND 5TH IEEE SOUTHERN POWER ELECTRONICS CONFERENCE (COBEP/SPEC); v. N/A, p. 6-pg., 2019-01-01. |
| Abstract | |
Interior permanent magnet synchronous machines (IPMSMs) are widely used due to features like high efficiency and high power density. For high performance drives, maximum torque per Ampere (MTPA) is employed to optimally balance the contribution of mutual and reluctance torque. However, conventionally the MTPA algorithm considers IPMSM with sinusoidal back-electromotive forces (back-EMEs). In practice, IPMSM often presents back-EMF waveforms that deviate from ideal sinusoid, exhibiting harmonic components. Thus, this paper presents a new algorithm for MTPA operation of IPMSM with non-sinusoidal back-EMF that includes the contribution of harmonic back-EMF components in average torque production. For the test machine the proposed optimal stator current provides approximately 2% higher average torque per Ampere ratio compared to the conventional MTPA. Due to the increase of torque undulations, this method is more suitable for applications non sensitive to torque ripple. (AU) | |
| FAPESP's process: | 06/04226-0 - Automatic system for the application of vectorial control in permanent magnet synchronous machines |
| Grantee: | José Roberto Boffino de Almeida Monteiro |
| Support Opportunities: | Regular Research Grants |