Nonlinear control methods for single-ended primary-inductor power converters

Abstract: This paper investigates nonlinear control methods for single-ended primary-inductor converters (SEPIC). The fastswitching and average models show the converter nonlinearity in terms of inductor currents, capacitor voltages, and the switching duty cycle. The control law intuitively should be nonlinear to drive and guarantee the system stability. Two different control laws based on the passivity and back-stepping technique are examined and designed to have asymptotically global stability in the system. Unlike th… Show more

“…This approach demands lower inductor current but leads to more pronounced fluctuations in both voltages and currents when contrasted with passivity-based control. A significant drawback of nonlinear control techniques is the necessity for the installation of four sensors to measure voltages and currents across capacitors and inductors, respectively [11]. A Proportional-Integral-Derivative controller, commonly known as a PID controller, is a prevalent feedback control system utilized across various industries.…”

A Review on Control Methods of SEPIC Converters

“…This approach demands lower inductor current but leads to more pronounced fluctuations in both voltages and currents when contrasted with passivity-based control. A significant drawback of nonlinear control techniques is the necessity for the installation of four sensors to measure voltages and currents across capacitors and inductors, respectively [11]. A Proportional-Integral-Derivative controller, commonly known as a PID controller, is a prevalent feedback control system utilized across various industries.…”

A Review on Control Methods of SEPIC Converters

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