The accurate simulation of power electronic systems is possible when including
accurate models of the semiconductor devices, but practically not affordable. Classical ideal
averaged models of the system are not suitable either. Hence, averaged models including the
non-linear effects of the power semiconductor devices appear quite efficient.
The proposed non-ideal PWM-switch model is a useful method for modeling pulse width
modulated converters operating in the continuous conduction mode. The main advantages of
the proposed averaged model are the takes into account of the non-linear effects of power
devices and the possibility to estimate the dissipated power in the different circuit devices.
The proposed electrical model can be applied to bi-directional converters and allows the
coupling with thermal model in the power electronic system. A simple technique to
evaluate the different static and dynamic parameters of the devices, from manufacturers data
sheets or experimentally, is presented.