Dynamic compensation for the deadzone of the electrohydraulic proportional position servo control system

Xi Wei Peng; Zeng Guang Hou; Qing Bo Geng

Dynamic compensation for the deadzone of the electrohydraulic proportional position servo control system

Xi Wei Peng^*, Zeng Guang Hou, Qing Bo Geng

^*此作品的通讯作者

自动化学院

CAS - Institute of Automation

科研成果: 会议稿件 › 论文 › 同行评审

摘要

The valve-controlled motor eletrohydraulic proportional servo system driving static load torque has severe time-varying deadzone and gain nonlinearities in the presence of the load torque variations. An experimental comparison study was made between several control methods. Experimental results show that the high gain control causes instability; the integral control aggravates stick slip and introduces hunting; the fixed deadzone compensation greatly reduces the positioning error when the load torque is a constant, but it causes poor positioning accuracy when the load torque varies greatly. The dynamic deadzone compensation based on the error e(t) and error-in-change Δe(t) can significantly improve the positioning precision over a wide range of load torque.

源语言	英语
页	494-497
页数	4
出版状态	已出版 - 2005
活动	SICE Annual Conference 2005 - Okayama, 日本期限: 8 8月 2005 → 10 8月 2005

会议

会议	SICE Annual Conference 2005
国家/地区	日本
市	Okayama
时期	8/08/05 → 10/08/05

其它文件与链接

链接到 Scopus 的出版物

引用此

Peng, X. W., Hou, Z. G., & Geng, Q. B. (2005). Dynamic compensation for the deadzone of the electrohydraulic proportional position servo control system. 494-497. 论文发表于 SICE Annual Conference 2005, Okayama, 日本.

@conference{309396cacf1c4f7dba5b33b8b7f69a40,

title = "Dynamic compensation for the deadzone of the electrohydraulic proportional position servo control system",

abstract = "The valve-controlled motor eletrohydraulic proportional servo system driving static load torque has severe time-varying deadzone and gain nonlinearities in the presence of the load torque variations. An experimental comparison study was made between several control methods. Experimental results show that the high gain control causes instability; the integral control aggravates stick slip and introduces hunting; the fixed deadzone compensation greatly reduces the positioning error when the load torque is a constant, but it causes poor positioning accuracy when the load torque varies greatly. The dynamic deadzone compensation based on the error e(t) and error-in-change Δe(t) can significantly improve the positioning precision over a wide range of load torque.",

keywords = "Deadzone compensation, Electrohydraulic proportional servo system, Friction compensation, Nonlinear control systems, Point-to-point control",

author = "Peng, {Xi Wei} and Hou, {Zeng Guang} and Geng, {Qing Bo}",

year = "2005",

language = "English",

pages = "494--497",

note = "SICE Annual Conference 2005 ; Conference date: 08-08-2005 Through 10-08-2005",

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TY - CONF

T1 - Dynamic compensation for the deadzone of the electrohydraulic proportional position servo control system

AU - Peng, Xi Wei

AU - Hou, Zeng Guang

AU - Geng, Qing Bo

PY - 2005

Y1 - 2005

N2 - The valve-controlled motor eletrohydraulic proportional servo system driving static load torque has severe time-varying deadzone and gain nonlinearities in the presence of the load torque variations. An experimental comparison study was made between several control methods. Experimental results show that the high gain control causes instability; the integral control aggravates stick slip and introduces hunting; the fixed deadzone compensation greatly reduces the positioning error when the load torque is a constant, but it causes poor positioning accuracy when the load torque varies greatly. The dynamic deadzone compensation based on the error e(t) and error-in-change Δe(t) can significantly improve the positioning precision over a wide range of load torque.

AB - The valve-controlled motor eletrohydraulic proportional servo system driving static load torque has severe time-varying deadzone and gain nonlinearities in the presence of the load torque variations. An experimental comparison study was made between several control methods. Experimental results show that the high gain control causes instability; the integral control aggravates stick slip and introduces hunting; the fixed deadzone compensation greatly reduces the positioning error when the load torque is a constant, but it causes poor positioning accuracy when the load torque varies greatly. The dynamic deadzone compensation based on the error e(t) and error-in-change Δe(t) can significantly improve the positioning precision over a wide range of load torque.

KW - Deadzone compensation

KW - Electrohydraulic proportional servo system

KW - Friction compensation

KW - Nonlinear control systems

KW - Point-to-point control

UR - http://www.scopus.com/inward/record.url?scp=33645307980&partnerID=8YFLogxK

M3 - Paper

AN - SCOPUS:33645307980

SP - 494

EP - 497

T2 - SICE Annual Conference 2005

Y2 - 8 August 2005 through 10 August 2005

ER -

Dynamic compensation for the deadzone of the electrohydraulic proportional position servo control system

摘要

会议

其它文件与链接

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