An Adaptive PI-PBC Approach for Voltage Regulation of a Fuel Cell based Power System
2023 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC)(2023)
摘要
In this article, we addressed the issue of a proton-exchange membrane fuel cell (PEMFC) voltage regulation when it is coupled to an uncertain load via a DC-DC boost converter. We demonstrate that a straightforward proportional-integral (PI) action designed using the passivity-based control (PBC) approach can regulate the voltage of the PEMFC boost converter system in spite of the intrinsic nonlinearities in the current-voltage behavior of the PEMFC. We show that for all positive values of the controller gains, the voltage converges to its set point. Moreover, a parameter estimator is afterward proposed with the Immersion and Invariance (I&I) theory, allowing the PI-PBC to regulate the output voltage of the system as the load changes.
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关键词
Fuel Cell,Voltage Regulation,Parameter Estimates,Load Changes,Cell Voltage,Boost Converter,Impedance,Morphine,Pulse Width,Control Signal,Set Of Elements,Duty Cycle,Voltage Drop,Adaptive Control,Equilibrium Point,Finite Time,Load Resistance,Equilibrium Value,Inductor Current,Polarization Curves,Output Voltage Regulation,Non-minimum Phase,Nonlinear Approach,Current Tracking,Capacitive Coupling,Equilibrium Equations,Time Derivative
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