Title :
Linear permanent-magnet valve actuator - The dynamic model: Digital simulations, open-loop U/f and I/f operation and position estimation performance, with experiments
Author :
S.C. Agarlita;I. Boldea;F. Marignetti;L. Tutelea
Author_Institution :
Department of Electrical Machines and Drives, University `Politehnica? of Timisoara, Romania
fDate :
7/1/2009 12:00:00 AM
Abstract :
Linear valve actuators are used for cameless systems of internal combustion engines. The actuator works as a mechanical oscillator, which uses springs, and is controlled by electromagnets. The paper aims to: develop a dynamic circuit model with inductance dependence on position and current obtained from Finite Element Method analysis (FEM) by curve fitting; validate the dynamic model in open-loop and closed-loop U/f and I/f control experiments; introduce two new mover position estimators by using the dynamic circuit model plus FEM-derived curve-fitted (flux/ current/ position) dependencies.
Keywords :
"Valves","Hydraulic actuators","Digital simulation","Open loop systems","Circuits","Internal combustion engines","Oscillators","Springs","Electromagnets","Inductance"
Conference_Titel :
Advanced Electromechanical Motion Systems & Electric Drives Joint Symposium, 2009. ELECTROMOTION 2009. 8th International Symposium on
Print_ISBN :
978-1-4244-5150-0
DOI :
10.1109/ELECTROMOTION.2009.5259103
