Detail publikace

Maximum Efficiency of an Induction Machine Operating in a Wide Range of Speed and Torque - Part 1 (Theoretical Analysis)

VOREL, P. HUTÁK, P. PROCHÁZKA, P.

Originální název

Maximum Efficiency of an Induction Machine Operating in a Wide Range of Speed and Torque - Part 1 (Theoretical Analysis)

Anglický název

Maximum Efficiency of an Induction Machine Operating in a Wide Range of Speed and Torque - Part 1 (Theoretical Analysis)

Jazyk

en

Originální abstrakt

A set of unique equations usable to calculate directly the optimum slip frequency and line voltage of a 3phase squirrel-cage induction machine with respect to maximum efficiency is deduced in this article. An operation in steady state at any requested speed and torque in a wide range is taken into consideration. The proposed calculation is especially useful for independent traction purposes.

Anglický abstrakt

A set of unique equations usable to calculate directly the optimum slip frequency and line voltage of a 3phase squirrel-cage induction machine with respect to maximum efficiency is deduced in this article. An operation in steady state at any requested speed and torque in a wide range is taken into consideration. The proposed calculation is especially useful for independent traction purposes.

Dokumenty

BibTex


@inproceedings{BUT34752,
  author="Pavel {Vorel} and Petr {Huták} and Petr {Procházka}",
  title="Maximum Efficiency of an Induction Machine Operating in a Wide Range of Speed and Torque - Part 1 (Theoretical Analysis)",
  annote="A set of unique equations usable to calculate directly the optimum slip frequency and line voltage of a 3phase squirrel-cage induction machine with respect to maximum efficiency is deduced in this article. An operation in steady state at any requested speed and torque in a wide range is taken into consideration. The proposed calculation is especially useful for independent traction purposes.",
  booktitle="IEEE International Symposium on Industrial Electronics",
  chapter="34752",
  howpublished="electronic, physical medium",
  year="2010",
  month="july",
  pages="120--127",
  type="conference paper"
}