Large-signal stability conditions for semi-quasi-Z-source inverters: switched and averaged models

HERNAN HAIMOVICH; RICHARD H. MIDDLETON; LISANDRO DE NICOLÓ

Florencia

Conferencia; 52nd IEEE Conference on Decision and Control (CDC); 2013

Institute of Electrical and Electronics Engineers (IEEE)

The recently introduced semi-quasi-Z-source inverter can be interpreted as a DC-DC converter whose input-output voltage gain may take any value in the interval minus infinity to 1, depending on the applied duty cycle. In order to generate a sinusoidal voltage waveform at the output of this converter, a time-varying duty cycle needs to be applied. Application of a time-varying duty cycle that produces large-signal behavior requires careful consideration of stability issues. This paper provides stability results for both the large-signal averaged and the switched models of the semi-quasi-Z-source inverter operating in continuous conduction mode. We show that if the load is linear and purely resistive then the boundedness and ultimate boundedness of the state trajectories is guaranteed provided some reasonable operation conditions are ensured. These conditions amount to keeping the duty cycle away from the extreme values 0 or 1 (averaged and switched models), and limiting the maximum PWM switching period (switched model). The results obtained can be used to give theoretical justification to the inverter operation strategy recently proposed by Cao et al. in [1].