Title :
Analysis of Critical-Speed Increase of Induction Machines via Winding Reconfiguration With Solid-State Switches
Author :
Fuchs, Ewald F. ; Schraud, Joachim ; Fuchs, Franz S.
Author_Institution :
Colorado Univ., Boulder, CO
Abstract :
Commonly used speed-control concepts permit speed ranges up to two-three times the base speed via voltage to frequency (V/f), that is, field-weakening control. This paper teaches the extension of the speed-control range up to nine times the base speed through online reconfiguration of the motor windings via electronic switches. The switchover of the windings, either from a winding with p1 poles to p2 poles, or from series to parallel connection of the number of turns per phase-so-called (V/Nldrf) control-lasts less than a 60-Hz cycle. Such fast switchover causes small transients only, and therefore, this concept is applicable to most variable-speed drives.
Keywords :
angular velocity control; asynchronous machines; machine windings; switches; field-weakening control; induction machines; motor windings; solid-state switches; speed-control concepts; variable-speed drives; winding reconfiguration; Change of number of poles; change of number of turns $N$; change of number of turns N; electronic switching of windings; increase of speed range; induction motor; voltage to $N$ frequency ( $V$/$N$· $f$) control; voltage to N frequency (V/N.f) control;
Journal_Title :
Energy Conversion, IEEE Transactions on
DOI :
10.1109/TEC.2008.921478
