Detail publikace

Speed Estimator for Low Speed PMSM Aerospace Application

PAZDERA, I. PROCHÁZKA, P. HUTÁK, P.

Originální název

Speed Estimator for Low Speed PMSM Aerospace Application

Anglický název

Speed Estimator for Low Speed PMSM Aerospace Application

Jazyk

en

Originální abstrakt

The paper is focused on development of low speed PMSM direct drive application. The high resolution of position setting (18 bits per revolution) is demanded at very low speed about 10 RPM. The quantization of speed controller error cause unaccepted torque ripple. The digital filters reduce dynamic of speed control loop therefore, the speed estimator has to be employed to reduce torque ripples without reduction of speed control performance. The application is intended for demanded aerospace application. The paper describes design of speed estimator with cooperation of vector controlled PMSM motor. The Simulink model is realized to verify the proper operation of whole drive application and simulation results are presented in this paper.

Anglický abstrakt

The paper is focused on development of low speed PMSM direct drive application. The high resolution of position setting (18 bits per revolution) is demanded at very low speed about 10 RPM. The quantization of speed controller error cause unaccepted torque ripple. The digital filters reduce dynamic of speed control loop therefore, the speed estimator has to be employed to reduce torque ripples without reduction of speed control performance. The application is intended for demanded aerospace application. The paper describes design of speed estimator with cooperation of vector controlled PMSM motor. The Simulink model is realized to verify the proper operation of whole drive application and simulation results are presented in this paper.

Dokumenty

BibTex


@inproceedings{BUT138803,
  author="Ivo {Pazdera} and Petr {Procházka} and Petr {Huták}",
  title="Speed Estimator for Low Speed PMSM Aerospace  Application",
  annote="The paper is focused on development of low speed PMSM direct drive
application. The high resolution of position setting (18 bits per revolution) is demanded at very low speed about 10 RPM. The quantization of speed controller
error cause unaccepted torque ripple. The digital filters reduce dynamic of speed
control loop therefore, the speed estimator has to be employed to reduce torque
ripples without reduction of speed control performance. The application is intended for demanded aerospace application. The paper describes design of speed
estimator with cooperation of vector controlled PMSM motor. The Simulink
model is realized to verify the proper operation of whole drive application and
simulation results are presented in this paper.",
  address="Springer International Publishing AG 2018",
  booktitle="MECHATRONICS 2017",
  chapter="138803",
  doi="10.1007/978-3-319-65960-2_56",
  howpublished="print",
  institution="Springer International Publishing AG 2018",
  year="2017",
  month="august",
  pages="452--457",
  publisher="Springer International Publishing AG 2018",
  type="conference paper"
}