Voltage Regulation in Buck–Boost Converters Feeding an Unknown Constant Power Load: An Adaptive Passivity-Based Control

Rapid developments in power distribution systems and renewable energy have widened the applications of dc–dc buck–boost converters in dc voltage regulation. Applications include vehicular power systems, renewable energy sources that generate power at a low voltage, and dc microgrids. It is noted that the cascade connection of converters in these applications may cause instability due to the fact that converters acting as loads have a constant power load (CPL) behavior. In this brief, the output voltage regulation problem of a buck–boost converter feeding a CPL is addressed. The construction of the feedback controller is based on the interconnection and damping assignment control technique. In addition, an immersion and invariance parameter estimator is proposed to compute online the extracted load power, which is difficult to measure in practical applications. It is ensured through the design that the desired operating point is (locally) asymptotically stable with a guaranteed domain of attraction. The approach is validated via computer simulations and experimental prototyping.

[1]  Manfred Morari,et al.  Hybrid Model Predictive Control of the Step-Down DC–DC Converter , 2008, IEEE Transactions on Control Systems Technology.

[2]  Romeo Ortega,et al.  An Adaptive Passivity‐Based Controller of a Buck‐Boost Converter with a Constant Power Load , 2017, 1712.07792.

[3]  Marta Molinas,et al.  Discrete-Time Tool for Stability Analysis of DC Power Electronics-Based Cascaded Systems , 2017, IEEE Transactions on Power Electronics.

[4]  Alessandro Astolfi,et al.  DC-DC Buck-Boost Converters with Unknown CPL: An Adaptive PBC , 2018, 2018 Annual American Control Conference (ACC).

[5]  Mahdi Salimi,et al.  Cascade nonlinear control of DC-DC buck/boost converter using exact feedback linearization , 2015, 2015 4th International Conference on Electric Power and Energy Conversion Systems (EPECS).

[6]  Alessandro Astolfi,et al.  Nonlinear and adaptive control with applications , 2008 .

[7]  Q. Henry Wu,et al.  Switching Control of Buck Converter Based on Energy Conservation Principle , 2016, IEEE Transactions on Control Systems Technology.

[8]  Jun Yang,et al.  Finite-Time Output Feedback Control for PWM-Based DC–DC Buck Power Converters of Current Sensorless Mode , 2017, IEEE Transactions on Control Systems Technology.

[9]  Ali Emadi,et al.  Active Damping in DC/DC Power Electronic Converters: A Novel Method to Overcome the Problems of Constant Power Loads , 2009, IEEE Transactions on Industrial Electronics.

[10]  Ali Emadi,et al.  Loop-Cancellation Technique: A Novel Nonlinear Feedback to Overcome the Destabilizing Effect of Constant-Power Loads , 2010, IEEE Transactions on Vehicular Technology.

[11]  Suresh Singh,et al.  Mitigation of Negative Impedance Instabilities in a DC/DC Buck-Boost Converter with Composite Load , 2016 .

[12]  Navdeep M. Singh,et al.  Port-Controlled Phasor Hamiltonian Modeling and IDA-PBC Control of Solid-State Transformer , 2019, IEEE Transactions on Control Systems Technology.

[13]  Romeo Ortega,et al.  On Existence and Stability of Equilibria of Linear Time-Invariant Systems With Constant Power Loads , 2016, IEEE Transactions on Circuits and Systems I: Regular Papers.

[14]  A. Kwasinski,et al.  Stabilization of constant power loads in Dc-Dc converters using passivity-based control , 2007, INTELEC 07 - 29th International Telecommunications Energy Conference.

[15]  A Kwasinski,et al.  Dynamic Behavior and Stabilization of DC Microgrids With Instantaneous Constant-Power Loads , 2011, IEEE Transactions on Power Electronics.

[16]  B. Nahid-Mobarakeh,et al.  Large Signal Stability Analysis Tools in DC Power Systems With Constant Power Loads and Variable Power Loads—A Review , 2012, IEEE Transactions on Power Electronics.

[17]  Aranzazu D. Martin,et al.  Backstepping Control of Smart Grid-Connected Distributed Photovoltaic Power Supplies for Telecom Equipment , 2015, IEEE Transactions on Energy Conversion.

[18]  In Hyuk Kim,et al.  Complementary PID Controller to Passivity-Based Nonlinear Control of Boost Converters With Inductor Resistance , 2012, IEEE Transactions on Control Systems Technology.

[19]  Poras T. Balsara,et al.  Digital implementation of constant power load (CPL), active resistive load, constant current load and combinations , 2016, 2016 IEEE Dallas Circuits and Systems Conference (DCAS).

[20]  D. Guyomar,et al.  Buck-Boost Converter for Sensorless Power Optimization of Piezoelectric Energy Harvester , 2007, IEEE Transactions on Power Electronics.

[21]  Deepak Fulwani,et al.  Constant power loads and their effects in DC distributed power systems: A review , 2017 .

[22]  Shihua Li,et al.  Energy shaping control for buck–boost converters with unknown constant power load , 2018 .

[23]  Mrdjan J. Jankovic,et al.  Constructive Nonlinear Control , 2011 .

[24]  Junming Zhang,et al.  Stability Criterion for Cascaded System With Constant Power Load , 2013, IEEE Transactions on Power Electronics.

[25]  Alireza Khaligh,et al.  Modified Pulse-Adjustment Technique to Control DC/DC Converters Driving Variable Constant-Power Loads , 2008, IEEE Transactions on Industrial Electronics.

[26]  Jian Sun,et al.  Constant-Power Load System Stabilization by Passive Damping , 2011, IEEE Transactions on Power Electronics.

[27]  Jung-Su Kim,et al.  A Stabilizing Model Predictive Controller for Voltage Regulation of a DC/DC Boost Converter , 2014, IEEE Transactions on Control Systems Technology.

[28]  Arjan van der Schaft,et al.  Interconnection and damping assignment passivity-based control of port-controlled Hamiltonian systems , 2002, Autom..

[29]  Z. Ban,et al.  Simplified Averaged Models of DC–DC Power Converters Suitable for Controller Design and Microgrid Simulation , 2013, IEEE Transactions on Power Electronics.

[30]  Ali Emadi,et al.  Constant power loads and negative impedance instability in automotive systems: definition, modeling, stability, and control of power electronic converters and motor drives , 2006, IEEE Transactions on Vehicular Technology.

[31]  Jorge A. Solsona,et al.  Nonlinear Control of a Buck Converter Which Feeds a Constant Power Load , 2015, IEEE Transactions on Power Electronics.

[32]  Antonio T. Alexandridis,et al.  Generalized Nonlinear Stabilizing Controllers for Hamiltonian-Passive Systems With Switching Devices , 2013, IEEE Transactions on Control Systems Technology.