MODELING AND ANALYSIS OF CLOSED-LOOP SLIP ENERGY RECOVERY INDUCTION-MOTOR DRIVE USING A LINEARIZATION TECHNIQUE

Akpınar, EYUP; Trahan, Re; Nguyen, Ad

doi:10.1109/60.260982

MODELING AND ANALYSIS OF CLOSED-LOOP SLIP ENERGY RECOVERY INDUCTION-MOTOR DRIVE USING A LINEARIZATION TECHNIQUE

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Akpınar E., Trahan R., Nguyen A.

IEEE TRANSACTIONS ON ENERGY CONVERSION, vol.8, no.4, pp.688-697, 1993 (SCI-Expanded)

Publication Type: Article / Article
Volume: 8 Issue: 4
Publication Date: 1993
Doi Number: 10.1109/60.260982
Journal Name: IEEE TRANSACTIONS ON ENERGY CONVERSION
Journal Indexes: Science Citation Index Expanded (SCI-EXPANDED), Scopus
Page Numbers: pp.688-697
Keywords: SLIP ENERGY, CLOSED-LOOP CONTROL, TRANSFER FUNCTION, LINEARIZATION
Dokuz Eylül University Affiliated: No

Abstract

In this paper, a fourth order nonlinear model is derived from the previously developed model [1] for an open-loop slip energy recovery induction motor drive. The nonlinear transient model of the open-loop drive is linearized around a steady-state operating point using a small signal perturbation technique and the transfer functions which relate the input and output variables are derived. The block diagram for the closed-loop control system is obtained. The responses of the Proportional plus Integral (PI) controller employed to control the rotor speed and the PI controller used to control the dc link current are predicted and compared with experimental results.