Control analysis and experimental verification of a practical dc–dc boost converter

Dash, 2014, Feedback control and dynamic behaviour of Z-source converter fed separately excited DC motor and centrifugal pump set, Int. J. Eng. Technol., 6, 1601 Franklin, 1994 Gajanayake, 2005, Small-signal and signal-flow-graph modeling of switched Z-source impedance network, IEEE Power Elect. Lett., 3 Kapat, 2009, A current-controlled tristate boost converter with improved performance through RHP zero elimination, IEEE Trans. Power Electron., 24, 776, 10.1109/TPEL.2008.2008994 Krein, 1998 Middlebrook, 1976, A general unified approach to modeling switching converter power stages, 18 Nayak, 2012, Transient modeling of Z-source chopper used for adjustable speed control of DC motor drive, 1 Nayak, 2012, Battery operated closed loop speed control of DC separately excited motor by boost-buck converter Nayak, 2014, Transient modeling of Z-source chopper with and without ESR used for control of capacitor voltage, WSEAS Trans. Circuit Syst., 13, 175 Pitel, 2006, Trajectory paths for dc–dc converters and limits to performance Sen, 2010, Voltage and current programmed modes in control of the Z-source converter, IEEE Trans. Ind. Appl., 46, 680, 10.1109/TIA.2010.2040054 Smedley, 1994, Switching flow graph nonlinear modeling technique, IEEE Trans. Power Electron., 9, 405, 10.1109/63.318899 Song, 2008, Boundary control of boost converters using state-energy plane, IEEE Trans. Power Electron., 23, 551, 10.1109/TPEL.2007.915765 Whittington, 1997 Zhou, 2006, A high efficiency, soft switching DC–DC converter with adaptive current-ripple control for portable applications, IEEE Trans. Circuits Syst., 53