Prescribed Performance Control-Based Semi-Active Vibration Controller for Seat Suspension Equipped with an Electromagnetic Damper

IF 1.9 Q3 ENGINEERING, MECHANICAL Vibration Pub Date : 2023-03-11 DOI:10.3390/vibration6010019
Junjie Zhao, Peng Liu, D. Leng, Haoyu Zhan, Guangrui Luan, D. Ning, Jianqiang Yu
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Abstract

Seat suspension plays a vital role in improving riding comfort and protecting drivers’ health. This paper develops semi-active seat suspension that equips a controllable electromagnetic damper (EMD) and proposes a prescribed performance control-based semi-active vibration controller with experimental validation. The semi-active EMD mainly consists of a permanent magnet synchronous motor, a ball screw, a three-phase rectifier, and a controllable external resistor, which can vary its damping from 90 to 800 N·s/m by tuning the controllable external resistor in real-time. The EMD is applied to seat suspension, and a semi-active controller is proposed for the EMD seat suspension. In order to control the seat suspension vibration, a prescribed performance method is applied to obtain a desired control force and then a force-tracking strategy is designed to make the EMD track the desired control force. Finally, the semi-active seat suspension with the proposed controller is tested in experiments with different vibration conditions. The semi-active seat suspension performs excellently for the bump, sine wave and random vibration. The root mean square (RMS) acceleration, the frequency-weighted RMS acceleration and the acceleration’s fourth power vibration dose value were reduced by 17.5%, 39.9%, and 25.4%, respectively, in the random vibration, compared with a passive system.
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基于规定性能控制的电磁阻尼座椅悬架半主动振动控制器
座椅悬架在提高乘坐舒适性和保护驾驶员健康方面发挥着至关重要的作用。本文开发了配备可控电磁阻尼器(EMD)的半主动座椅悬架,并提出了一种基于规定性能控制的半主动振动控制器,并进行了实验验证。半主动EMD主要由永磁同步电机、滚珠丝杠、三相整流器和可控外电阻组成,通过实时调节可控外电阻,可使其阻尼在90至800N·s/m之间变化。将EMD应用于座椅悬架,提出了一种用于EMD座椅悬架的半主动控制器。为了控制座椅悬架振动,采用规定的性能方法获得期望的控制力,然后设计力跟踪策略,使EMD跟踪期望的控制作用力。最后,在不同的振动条件下对采用该控制器的半主动座椅悬架进行了实验测试。半主动座椅悬架在颠簸、正弦波和随机振动等方面表现优异。与被动系统相比,随机振动中的均方根加速度、频率加权均方根加速度和加速度的四次方振动剂量值分别降低了17.5%、39.9%和25.4%。
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CiteScore
3.20
自引率
0.00%
发文量
0
审稿时长
10 weeks
期刊最新文献
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