Robust Current Control of Voice Coil Motor in Tip-Tilt Mirror Based on Disturbance Observer Framework

Ning, Zongqi; Mao, Yao; Huang, Yongmei; Gao, Chunming

doi:10.1109/access.2021.3057162

Cited by 8 publications

(3 citation statements)

References 30 publications

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“…However, because the robust control system generally does not work in the optimal state, the steady-state accuracy of the system is poor. Therefore, robust control is especially suitable for those systems with large variation range of uncertain factors and small stability margin [44]- [46]. In [47], H∞ robust control is used to solve the problem of assembly errors in the center of mass and force of VCM; In [48], robust control is used to reduce the impact of load resonance changes; some scholars also propose to use robust control to solve the problem uncertain external disturbance [49]- [51] and the problem of uncertain system model [52], thereby improving the stability and tracking effect of the system.…”

Section: ) Robust Controlmentioning

confidence: 99%

Overview of Position Servo Control Technology and Development of Voice Coil Motor

Qiao

Zhao

Gui

2022

Trans. Electr. Mach. Syst.

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Voice coil motor (VCM) is a special direct drive linear motor, which can convert electric energy directly into mechanical energy without the use of transmission mechanism. VCM has the advantages of simple structure, good rigidity, fast response, silence, high linearity, no cogging force, no pulsation et al. It is widely used in the field of high-precision control. This paper reviews and summarizes the results of VCM research conducted by scholars from various countries, and summarizes the general situation of VCM servo control technology. Firstly, a basic description of VCM's mathematical model and common control mechanisms is provided. The benefits, drawbacks, and application of control techniques in the field of VCM are all explored in detail; At the same time, the methods to improve control strategy are proposed; Then, combined with the analysis and research of scholars in various countries on VCM, the problems of difficult to establish accurate model, friction disturbance and mechanical vibration of VCM and the solutions to the corresponding problems are summarized; Finally, a summary of VCM's application fields is provided.

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Section: ) Robust Controlmentioning

confidence: 99%

Overview of Position Servo Control Technology and Development of Voice Coil Motor

Qiao

Zhao

Gui

2022

Trans. Electr. Mach. Syst.

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“…On the other hand, research often assumes that the model of the FSM system is immutable, thus identifying the system as a transfer function and proposing control algorithms based on that transfer function [4]. Practical experiments show that both flexure and motors, after operating for a period under harsh motion conditions such as high temperatures, can cause changes in parameters like resistance, inductance [6], and stiffness, leading to a deterioration in the control quality of the system when using only the initial controller.…”

Section: Introductionmentioning

confidence: 99%

Adaptive control of fast steering mirror with high acceleration trajectory

Vu,

Nguyen,

Nguyen

2023

Holography, Diffractive Optics, and Applications XIII

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Fast steering mirrors (FSMs) play a critical role in optical systems that require high stability and fast response speed, particularly in high-speed rotating systems responsible for image stabilization, such as back-scanning step-and-stare imaging systems. However, high-speed mirror control is limited by factors such as mechanical size, fatigue strength of the flexure as well as the fact that motor parameters such as force and force constant are also limited and varied by temperature. This paper proposes a control architecture with a moving trajectory and an optimized algorithm for high-speed movement in the condition of small displacement angles. The control algorithm employs a model-based adaptive control method to adapt the FSM's behavior and optimize the trajectory based on the desired performance criteria. The simulation results demonstrate the effectiveness of the proposed approach in improving the FSM's positioning accuracy and robustness. The proposed approach achieves a remarkably small position deviation during the exposure time, while maintaining a small displacement angle, ensuring the stability and long-term operability of the mechanical system.

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“…Simple structural design and reliability over a wide range of operating conditions made the PID control a popular choice in the current control of VCAs. 19 However, lack of robustness during nonlinear conditions is a major drawback of PID control in hydraulic systems 20 and VCA's. 21 The performance of the PID control depends on the three adjustable control gains such as proportional, integral, and derivative.…”

Section: Introductionmentioning

confidence: 99%

Improved particle swarm optimisation tuned PID position control of voice coil semi-active electrohydraulic damper

Rajasekharan Unnithan,

Subramaniam,

Gunasekaran

2023

Proceedings of the Institution of Mechanical Engineers, Part C:

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Control on the variable damping coefficients in the semi-active damper enhances ride comfort and vehicle stability. The semi-active electrohydraulic damper (SEH) presented in this study incorporates voice coil-based robust valve control to modify the damping coefficients. However, the position tracking accuracy of the voice coil actuator (VCA) gets negatively influenced by the nonlinearities such as load variations due to external disturbances, back emf, and dynamic damper characteristics. Therefore, to achieve excellent position control, a restart particle swarm optimisation with the Gompertz function (PSO-RG) is presented to obtain optimal tuning control gain for the proportional integral derivative controller. The PSO-RG algorithm applies Gompertz function-based particle coefficients and restarting technique. These techniques allow the PSO-RG to overcome the limitations of standard PSO, such as premature convergence and particle entrapment in local minima. The algorithm is tested in five selected benchmark functions for 10, 30 and 50 dimensions. The test data conveys that PSO-RG outperforms the standard PSO in mean, standard deviation, the best solution, and convergence speed. The transient response on identified and validated model of VCA demonstrated a 75.21% reduction in integral absolute error value than conventional PSO. The obtained maximum sensitivity and total variation values proved the robustness and smoothness of PSO-RG tuned PID control. Furthermore, the experimental analysis on the quarter car model shows that PSO-RG tuned PID precisely tracked the reference position with a 21.66% decrease in root mean square error to conventional PSO tuned PID. The CarSim co-simulation test results in the large van model indicate the need for precise VCA position control in enhancing ride comfort and improving the roll stability of the vehicle.

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Robust Current Control of Voice Coil Motor in Tip-Tilt Mirror Based on Disturbance Observer Framework

Cited by 8 publications

References 30 publications

Overview of Position Servo Control Technology and Development of Voice Coil Motor

Overview of Position Servo Control Technology and Development of Voice Coil Motor

Adaptive control of fast steering mirror with high acceleration trajectory

Improved particle swarm optimisation tuned PID position control of voice coil semi-active electrohydraulic damper

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