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Main Authors: Mohammadi, Sajjad, Benner, William R., Kirtley, James L., Lang, Jeffrey H.
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2312.04049
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author Mohammadi, Sajjad
Benner, William R.
Kirtley, James L.
Lang, Jeffrey H.
author_facet Mohammadi, Sajjad
Benner, William R.
Kirtley, James L.
Lang, Jeffrey H.
contents In part II, an op-amp-based drive is proposed and designed. Subsequently, a very accurate model for the drive circuit and the current loop is developed as a simulation platform, while its simplified version is derived, tailored for efficient design purposes. Through a comprehensive evaluation, the accuracy and efficacy of both the actuator and drive circuit modeling is scrutinized, showcasing their superiorities over existing approaches. The importance of eddy current modeling is underscored. Also, the effectiveness of the designed current loop and its practical trade-offs are engineered and discussed. Then, three DSP-based position control techniques are implemented: pole placement with voltage drive, pole placement with current drive, and nonlinear control with feed linearization. Both full-order and reduced-order observers are leveraged to estimate the unmeasured states. The performance of control designs across various applications are evaluated through indices such as rise time, overshoot, steady-state error, and large-signal tracking in the step response as well as bandwidth, robustness, phase margin, sensitivity, disturbance rejection, and noise rejection in the frequency domain. The distinctive features of implemented control strategy are compared, offering a nuanced discussion of their respective advantages and drawbacks, shedding light on their potential applications.
format Preprint
id arxiv_https___arxiv_org_abs_2312_04049
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle An Actuator with Magnetic Restoration, Part II: Drive Circuit and Control Loops
Mohammadi, Sajjad
Benner, William R.
Kirtley, James L.
Lang, Jeffrey H.
Systems and Control
In part II, an op-amp-based drive is proposed and designed. Subsequently, a very accurate model for the drive circuit and the current loop is developed as a simulation platform, while its simplified version is derived, tailored for efficient design purposes. Through a comprehensive evaluation, the accuracy and efficacy of both the actuator and drive circuit modeling is scrutinized, showcasing their superiorities over existing approaches. The importance of eddy current modeling is underscored. Also, the effectiveness of the designed current loop and its practical trade-offs are engineered and discussed. Then, three DSP-based position control techniques are implemented: pole placement with voltage drive, pole placement with current drive, and nonlinear control with feed linearization. Both full-order and reduced-order observers are leveraged to estimate the unmeasured states. The performance of control designs across various applications are evaluated through indices such as rise time, overshoot, steady-state error, and large-signal tracking in the step response as well as bandwidth, robustness, phase margin, sensitivity, disturbance rejection, and noise rejection in the frequency domain. The distinctive features of implemented control strategy are compared, offering a nuanced discussion of their respective advantages and drawbacks, shedding light on their potential applications.
title An Actuator with Magnetic Restoration, Part II: Drive Circuit and Control Loops
topic Systems and Control
url https://arxiv.org/abs/2312.04049