Frequency-Domain Design of a Reset-Based Filter
An Add-On Nonlinear Filter for Industrial Motion Control
S. Ali Hosseini (TU Delft - Mechatronic Systems Design)
Fabian R. Quinten (Student TU Delft)
Luke F. van Eijk (TU Delft - Mechatronic Systems Design, ASMPT)
Dragan Kostic (TU Delft - Delft Center for Systems and Control, ASMPT)
S. Hassan HosseinNia (TU Delft - Mechatronic Systems Design)
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Abstract
This study introduces a modified version of the constant-in-gain, lead-in-phase (CgLp) filter, which incorporates a feedthrough term in the first-order reset element (FORE) to reduce the undesirable nonlinearities and achieve an almost constant gain across all frequencies. A backward calculation approach is proposed to derive the additional parameter introduced by the feedthrough term, enabling designers to easily tune the filter to generate the required phase. This article also presents an add-on filter structure that can enhance the performance of an existing LTI controller without altering its robustness margins. A sensitivity improvement indicator is proposed to guide the tuning process, enabling designers to visualize the improvements in closed-loop performance. The proposed methodology is demonstrated through a case study of an industrial wire bonder machine, showcasing its effectiveness in addressing low-frequency vibrations and improving overall control performance.
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File under embargo until 19-06-2026