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PID passivity‐based droop control of power converters: Large‐signal stability, robustness and performance

Daniele Zonetti, Gilbert Bergna‐Diaz, Roméo Ortega, Nima Monshizadeh

2021International Journal of Robust and Nonlinear Control31 citationsDOIOpen Access PDF

Abstract

Abstract We present a full review of PID passivity‐based controllers (PBC) applied to power electronic converters, discussing limitations, unprecedented merits and potential improvements in terms of large‐signal stability, robustness and performance. We provide four main contributions. The nominal case is first considered and it is shown—under the assumption of perfect knowledge of the system parameters—that the PID‐PBC is able to guarantee global exponential stability of a desired operating point for any positive gains. Second, we analyze robustness of the controller to parameters uncertainty for a specific class of power converters, by establishing precise stability margins. Third, we propose a modification of the controller by introducing a leakage, in order to overcome some of the intrinsic performance and robustness limitations. Interestingly, such controller can be interpreted at steady‐state as a droop between the input and the passive output, similar to traditional primary controllers. Fourth, we robustify the design against saturation of the control input via an appropriate monotone transformation of the controller. The obtained results are thoroughly discussed and validated by simulations on two relevant power applications: a DC/DC boost converter and an HVDC grid‐connected voltage source converter.

Topics & Concepts

Control theory (sociology)Robustness (evolution)Voltage droopPID controllerConvertersPassivityComputer scienceRobust controlControl engineeringVoltageEngineeringControl systemVoltage sourceTemperature controlControl (management)Electrical engineeringBiochemistryArtificial intelligenceChemistryGeneMicrogrid Control and OptimizationFrequency Control in Power SystemsAdvanced DC-DC Converters
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