A seventh-order model for dynamic response of an electro-hydraulic servo valve 被引量：7

A seventh-order model for dynamic response of an electro-hydraulic servo valve

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摘要 In this paper, taking two degrees of freedom on the armature–flapper assembly into account, a seventh-order model is deduced and proposed for the dynamic response of a two-stage electro-hydraulic servo valve from nonlinear equations. These deductions are based on fundamental laws of electromagnetism, fluid, and general mechanics. The coefficients of the proposed seventhorder model are derived in terms of servo valve physical parameters and fluid properties explicitly.For validating the results of the proposed model, an AMESim simulation model based on physical laws and the existing low-order models validated by other researchers through experiments are used to compare with the seventh-order model. The results show that the seventh-order model can reflect the physical behavior of the servo valve more explicitly than the existing low-order models and it could provide guidance more easily for a linear control design approach and sensitivity analysis than the AMESim simulation model. In this paper, taking two degrees of freedom on the armature–flapper assembly into account, a seventh-order model is deduced and proposed for the dynamic response of a two-stage electro-hydraulic servo valve from nonlinear equations. These deductions are based on fundamental laws of electromagnetism, fluid, and general mechanics. The coefficients of the proposed seventhorder model are derived in terms of servo valve physical parameters and fluid properties explicitly.For validating the results of the proposed model, an AMESim simulation model based on physical laws and the existing low-order models validated by other researchers through experiments are used to compare with the seventh-order model. The results show that the seventh-order model can reflect the physical behavior of the servo valve more explicitly than the existing low-order models and it could provide guidance more easily for a linear control design approach and sensitivity analysis than the AMESim simulation model.

作者 Liu Changhai Jiang Hongzhou

机构地区 Department of Fluid Control and Automation

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2014年第6期1605-1611,共7页 中国航空学报（英文版）

基金 the National Natural Science Foundation of China (No. 50975055) for financial support

关键词 Hydraulic control systems Nozzle–flapper Servo valve Torque motor Transfer function Hydraulic control systems Nozzle–flapper Servo valve Torque motor Transfer function

分类号 TH137.52 [机械工程—机械制造及自动化] TP273 [自动化与计算机技术—检测技术与自动化装置]

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2014年第6期

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