Performance and torque-ripple characterization in induction motor adjustable-speed drives using time-stepping coupled finite-element state-space techniques

In this paper, the time-stepping coupled finite-element state-space (TSCFE- SS) model developed in an earlier companion paper is applied here for asses sments of effects of machine geometry and magnetic circuit design modificat ions, and effects of pulsewidth modulation (PWM) carrier frequency on perfo rmance characteristics of induction motor drives. Namely, this has been acc omplished through analysis of developed torque profile ripples and harmonic spectra of mid-air-gap radial flux density waveforms of the case-study mot or. Furthermore, consequent effects of design modifications pertaining to g eometry and/or magnetic circuit modifications and PWM carrier frequency on ohmic and iron core losses are investigated. The investigation has been per formed on a case-study motel; which is a Y-connected single-layer three-pha se two-pole 1.2-hp 208-V squirrel-cage induction motor with 24 stator slots and a cage with 34 rotor bars.