Publication detail

Energy saving control strategy of servodrives with asynchronous motor

BUTKO, P. VITTEK, J. FEDOR, T. VAVRÚŠ, V. MYNÁŘ, Z.

Original Title

Energy saving control strategy of servodrives with asynchronous motor

English Title

Energy saving control strategy of servodrives with asynchronous motor

Type

journal article in Scopus

Language

en

Original Abstract

Document describes reduction of energy consumption of servo drive with induction motor which depends on size and character of the load. Position control strategy is designed using optimal control theory and for minimization of energy expenditures considers the copper and mechanical losses. Designed algorithm functionality is verified by simulations and experimentally in good agreement with theoretical predictions.

English abstract

Document describes reduction of energy consumption of servo drive with induction motor which depends on size and character of the load. Position control strategy is designed using optimal control theory and for minimization of energy expenditures considers the copper and mechanical losses. Designed algorithm functionality is verified by simulations and experimentally in good agreement with theoretical predictions.

Keywords

induction motor, optimal control theory, servodrives, consumption reduction

Released

27.07.2017

Publisher

Springer Berlin Heidelberg

Location

Berlin

ISBN

0948-7921

Periodical

ELECTRICAL ENGINEERING

Year of study

99

Number

4

State

DE

Pages from

1263

Pages to

1274

Pages count

12

URL

Documents

BibTex


@article{BUT137980,
  author="Peter {Butko} and Jan {Vittek} and Tomas {Fedor} and Vladimír {Vavrúš} and Zbyněk {Mynář}",
  title="Energy saving control strategy of servodrives with asynchronous motor",
  annote="Document describes reduction of energy consumption of servo drive with induction motor which depends on size and character of the load. Position control strategy is designed using optimal control theory and for minimization of energy expenditures considers the copper and mechanical losses. Designed algorithm functionality is verified by simulations and experimentally in good agreement with theoretical predictions.",
  address="Springer Berlin Heidelberg",
  chapter="137980",
  doi="10.1007/s00202-017-0627-y",
  howpublished="print",
  institution="Springer Berlin Heidelberg",
  number="4",
  volume="99",
  year="2017",
  month="july",
  pages="1263--1274",
  publisher="Springer Berlin Heidelberg",
  type="journal article in Scopus"
}