Title :
Coupled model of a magnetic actuator controlling a hydraulic cylinder and load
Author :
Brauer, John R. ; Lumkes, John H., Jr.
fDate :
3/1/2002 12:00:00 AM
Abstract :
Magnetic pressures on nonlinear steel are shown to have lower values than typical hydraulic pressures and, thus, small magnetic actuators are often coupled to hydraulic circuits. A new method of modeling a typical electrical/magnetic/hydraulic/mechanical system is described. Results of electromagnetic finite-element analysis of a magnetic actuator are used in a SPICE circuit that contains the differential equations of a hydraulic valve, hydraulic cylinder, and mechanical load. The coupled model is used to compute typical transient pressures, flows, and motions. Due to fluid flow forces the mass of the controlled arm is shown to have a coupling effect on the armature motion of the magnetic actuator
Keywords :
SPICE; electromagnetic actuators; finite element analysis; hydraulic control equipment; SPICE circuit; armature motion; coupled model; differential equation; electromagnetic finite element analysis; hydraulic cylinder; hydraulic valve; magnetic actuator; magnetic pressure; mechanical load; nonlinear steel; Coupling circuits; Electromagnetic analysis; Electromagnetic forces; Finite element methods; Hydraulic actuators; Magnetic analysis; Magnetic circuits; Mechanical systems; SPICE; Steel;
Journal_Title :
Magnetics, IEEE Transactions on
