Performance Analysis of a PWM Current Controlled Five Phase Induction Motor Drive for Disturbances and Faulty Condition
Keywords:
Current regulated PWM, hysteresis current control, indirect field orientation control, multiphase induction machine, PI controllerAbstract
Multiphase induction motors are recently used in applications like electric vehicles, high
power drives with increased degree of freedom and energy conversion systems where
reliability is a great concern. Recently, availability of fast switching devices and controlling
digital processors has focused interest on the use of multiphase induction motor drives. In
this paper, a five phase induction motor has been considered for study the drive performance.
The mutually perpendicular stationary reference frame model of the motor is considered for
simulation study. For field orientation control law implementation, the synchronously
rotating frame current components are used and with these the slip speed is calculated. The
reference torque component of current is generated by processing the speed error through a
conventional PI controller. The current regulated PWM control is implemented through a
hysteresis controller for switching to proper dc voltage. The drive performance was
evaluated by writing C++ codes in code block environment. Simulation results are presented
to describe the drive performance which show the very fast response of the drive system
during transient conditions. The drive system speed is found to immune due to sudden load
torque changes and phase fault conditions thus justifying the effectiveness of the drive system.
