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International Journal of Control Volume 90, 2017 - Issue 1: Control Theory Applied in Renewable Energy
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Original Articles

Robust output voltage control of multimode non-inverting DC–DC converter

Ilan AharonDepartment of Physical Electronics, School of Electrical Engineering, Tel Aviv University, Tel Aviv, Israel;Hybrid Energy Sources Laboratory, Department of Electrical Engineering and Electronics, Ariel University, Ariel, IsraelCorrespondence[email protected]
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,
Doron ShmilovitzDepartment of Physical Electronics, School of Electrical Engineering, Tel Aviv University, Tel Aviv, IsraelView further author information
&
Alon KupermanHybrid Energy Sources Laboratory, Department of Electrical Engineering and Electronics, Ariel University, Ariel, IsraelView further author information
Pages 110-120 | Received 31 Dec 2014, Accepted 17 Nov 2015, Published online: 15 Dec 2015

References

  • Aharon, I., & Kuperman, A. (2011a). Topological overview of powertrains for battery powered vehicles with range extenders. IEEE Transactions on Power Electronics, 26(3), 868–876.
  • Aharon, I., & Kuperman, A. (2011b). Battery-ultracapacitor hybrids for pulsed current loads: A review. Renewable & Sustainable Energy, 15(2), 981–992.
  • Aharon, I., Kuperman, A., & Shmilovitz, D. (2015). Analysis of dual-carrier modulator for bidirectional non-inverting buck-boost converter. IEEE Transactions on Power Electronics, 30(2), 840–848.
  • Aharon, I., Kuperman, A. & Shmilovitz, D. (2013). Analysis of a bidirectional buck-boost converter for energy storage applications. In Proceedings of the 39th Annual Conference of the IEEE Industrial Electronics Society (IECON), November 10–13, Vienna.
  • Chandar, T.S., & Talole, S.E. (2014). Improving the performance of UDE-based controller using a new filter design. Nonlinear Dynamics, 77(3), 753–768.
  • Chen, Z. (2012). Double loop control of buck-boost converters for wide range of load resistance and reference voltage. IET Control Theory and Applications, 6(7), 900–910.
  • Erickson, R.W., & Maksimovic, D. (2001). Fundamentals of power electronics. 2nd ed. New York, NY: Springer.
  • Kolhe, J.P., Shaheed, M., Chandar, T.S., & Talole, S.E. (2013). Robust control of robot manipulators based on uncertainty and disturbance estimation. International Journal of Robust and Nonlinear Control, 23(1), 104–122.
  • Kuperman, A. (2015). Design of α-filter-based UDE controllers considering finite control bandwidth. Nonlinear Dynamics, 81(1), 411–416.
  • Kuperman, A., Aharon, I., Malki, S., & Kara, A. (2013). Design of a semiactive battery-ultracapacitor hybrid energy source. IEEE Transactions on Power Electronics, 28(2), 806–815.
  • Kuperman, A. & Zhong, Q.-C. (2011). Robust control of uncertain nonlinear systems with state delays based on an uncertainty and disturbance estimator. International Journal of Robust and Nonlinear Control, 21(1), 79–92.
  • Kuperman, A., & Zhong, Q.-C. (2013). Disturbance observer assisted robust control of wing rock motion based on contraction theory. Simulation, 89(9), 1128–1136.
  • Kuperman, A., & Zhong, Q.-C. (2015). UDE-based linear robust control for a class of nonlinear systems with application to wing rock motion stabilization. Nonlinear Dynamics, 81(1), 789–799.
  • Lee, Y.H., Huang, S.C., Wang, S.W., Wu, W.C., Hung, P.C., Ho, H.H., … Chen, K.H. (2012). Power-tracking embedded buck–boost converter with fast dynamic voltage scaling for SoC system. IEEE Transactions on Power Electronics, 27(3), 1270–1282.
  • Lee, Y.J., Khaligh, A., & Emadi, A. (2009). A compensation technique for smooth transitions in a noninverting buck–boost converter. IEEE Transactions on Power Electronics, 24(4), 1002–1016.
  • Lee, Y.J., Khaligh, A., Chakraborty, A., & Emadi, A. (2009). Digital combination of buck and boost converters to control a positive buck–boost converter and improve the output transients. IEEE Transactions on Power Electronics, 24(5), 1267–1279.
  • Leyva-Ramos, J., Ortiz-Lopez, M., Diaz-Saldierna, L., & Morales-Saldana, J. (2009). Switching regulator using a quadratic boost converter for wide DC conversion ratios. IET Power Electronics, 2(5), 605–613.
  • Linarez-Flores, J., Hernandez Mendez, A., Garcia-Rodriguez, C., & Sira-Ramirez, H. (2014). Robust nonlinear adaptive control of a boost converter via algebraic parameter identification. IEEE Transactions on Industrial Electronics, 61(8), 4105–4114.
  • Linares-Flores, J., Barahona-Avalos, J., Sira-Ramirez, H., & Contreras-Ordaz, M. (2012). Robust passivity-based control of a buck–boost-converter/DC-motor system: An active disturbance rejection approach. IEEE Transactions on Industry Applications, 48(6), 2362–2371.
  • Lopez-Santos, O., Martinez-Salamero, L., Garcia, G., Valderrama-Blavi, H., & Sierra-Polanco, T. (2015). Robust sliding-mode control design for a voltage regulated quadratic boost converter. IEEE Transactions on Power Electronics, 30(4), 2313–2327.
  • Maccari, L., Montagner, V., Pinheiro, H., & Oliveira, R. (2012). Robust H2 control applied to boost converters: Design, experimental validation and performance analysis. IET Control Theory & Applications, 6(12), 1881–1888.
  • Olalla, C., Leyva, R., El Aroudi, A., Garces, P., & Queinnec, I. (2010). LMI robust control design for boost PWM converters. IET Power Electronics, 3(1), 75–85.
  • Olalla, C., Leyva, R., El Aroudi, A., Garces, P., & Queinnec, I. (2009). Robust LQR control for PWM converters: An LMI approach. IEEE Transactions on Industrial Electronics, 56(7), 2548–2558.
  • Phadke, S.B., & Talole, S.E. (2012). Sliding mode and inertial delay control based missile guidance. IEEE Transactions on Aerospace and Electronic Systems, 48(4), 3331–3346.
  • Restrepo, C., Calvente, J., Romero, A., Vidal-Idiarte, E., & Giral, R. (2009), Current-mode control of a coupled inductor buck-boost DC-DC switching converter. IEEE Transactions on Power Electronics, 27(5), 2536–2549.
  • Restrepo, C., Calvente, J., Cid-Pastor, A., Aroudi, A.E., & Giral, R. (2011). A non-inverting buck–boost DC–DC switching converter with high efficiency and wide bandwidth. IEEE Transactions on Power Electronics, 26(9), 2490–2503.
  • Sahu, B., & Rincon-Mora, G.A. (2004). A low voltage, dynamic, noninverting, synchronous buck–boost converter for portable applications. IEEE Transactions on Power Electronics, 19(2), 443–452.
  • Sitbon, M., Schacham, S., & Kuperman, A. (2015). Disturbance observer based voltage regulation of current-mode-boost-converter-interfaced photovoltaic generator. IEEE Transactions on Industrial Electronics. doi:10.1109/TIE.2015.2434796
  • Stobart, R., Kuperman, A., & Zhong, Q.-C. (2011). Uncertainty and disturbance estimator (UDE) based control of uncertain linear systems with state delays. Journal of Dynamic Systems, Measurement and Control, 133(2), 1–6.
  • Su, S., & Lin, Y. (2011). Robust output tracking control of a class of non-minimum phase systems and application to VTOL aircrafts. International Journal of Control, 84(11), 1858–1872.
  • Su, S., & Lin, Y. (2013). Robust output tracking control for a velocity-sensorless vertical take-off and landing aircraft with input disturbances and unmatched uncertainties. International Journal of Robust and Nonlinear Control, 23(11), 1198–1213.
  • Talole, S.E., & Phadke, S.B. (2008). Model following sliding mode control based on uncertainty and disturbance estimator. Journal of Dynamic Systems, Measurement and Control, 130(3), 1–6.
  • Talole, S.E., & Phadke, S.B. (2009). Robust input-output linearization using uncertainty and disturbance estimation. International Journal of Control, 82(10), 1794–1803.
  • Talole, S.E., Chandar, T.S., & Kolhe, J.P. (2011). Design and experimental validation of UDE based controller-observer structure for robust input-output linearization. International Journal of Control, 84(5), 969–984.
  • Wei, C.L., Chen, C.H., Wu, K.C., & Ko, I.T. (2012). Design of an average current mode noninverting buck-boost dc-dc converter with reduced switching and conduction losses. IEEE Transactions on Power Electronics, 27(12), 4934–4942.
  • Zhang, W., Xi, Y., Yang, G., & Xu, X. (2002). Design PID controllers for desired time-domain or frequency-domain response. ISA Transactions, 41(4), 511–520.
  • Zhong, Q.C., & Rees, D. (2004). Control of uncertain LTI systems based on an uncertainty and disturbance estimator. Journal of Dynamic Systems, Measurement, and Control, 126(1), 905–910.
  • Zhong, Q.C., Kuperman, A., & Stobart, R. (2011). Design of UDE-based controllers from their two-degree-of-freedom nature. International Journal of Robust and Nonlinear Control, 21(17), 1994–2008.

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