Abstract
ABSTRACT Equations to determine the performance of a single-phase induction motor, especially a capacitor motor, with non-quadrature windings are presented, using the revolving-field theory. Since the capacitor motor represents a very special case in the family of single-phase induction motor, emphasis is thereby placed upon its performance calculations. A procedure arranged in very systematic steps to help analyze an induction motor is also included. In order to demonstrate the influence of winding displacement, the results on a typical permanent-split capacitor motor are also tabulated. To verify the accuracy of these equations, the theoretical results when compared with those obtained from the cross-field development for such motors showed an exact agreement.
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