A zero-voltage transition (ZVT) soft-switching inverter for an induction mo
tor drive is developed. The proposed soft-switching inverter is formed from
the traditional pulse-width modulated (PWM) inverter by simply augmenting
with auxiliary resonant circuits, and the soft switching is achieved throug
h applying PWM switching control signals with suitable delays for the main
and auxiliary switches. No additional voltage and current sensors are requi
red in the implementation. The operations and governing equations in variou
s modes of the proposed soft-switching inverter are first analysed then, ac
cordingly, a quantitative design procedure is given to find the values of t
he auxiliary resonant circuit components and the delay times of the switche
s for achieving ZVT control. Finally, the designed soft-switching inverter
is used for powering an indirect field-oriented (IFO) induction motor drive
to test its effectiveness. The simulation and measured results show that a
smaller switching loss and higher conversion efficiency are obtained by th
e proposed soft-switching inverter.