Title :
A hybrid solenoid model comprising eddy currents
Author :
Fizek, Sebastian ; Reisinger, Martin ; Silber, Siegfried ; Amrhein, Wolfgang
Author_Institution :
JKU HOERBIGER Res. Inst. for Smart Actuators, Johannes Kepler Univ., Linz, Austria
Abstract :
In modern injection systems and pneumatic valves the volume flow is commonly adjusted by controlling the electromagnet. The influence of eddy currents on the dynamic response of the nonlinear magnetic system is well covered in the recent literature. The large scale actuators like high force lifting magnets with strong nonlinearities require a high fidelity model, due to the big air gap change. Furthermore, the ohmic losses caused by eddy currents have to be taken into account during dynamic operation. It is shown in the paper that the nonlinear eddy current problem can be approximated using quasi-static finite element methods and magnetic equivalent circuits. A comparison of the hybrid model with finite element methods shows a promising coherence.
Keywords :
actuators; dynamic response; eddy currents; electromagnets; equivalent circuits; finite element analysis; magnetic circuits; nonlinear systems; solenoids; actuators; dynamic response; eddy currents; electromagnet; high fidelity model; high force lifting magnets; hybrid solenoid model; injection systems; magnetic equivalent circuits; nonlinear eddy current; nonlinear magnetic system; ohmic losses; pneumatic valves; quasi-static finite element methods; Eddy currents; Integrated circuit modeling; Magnetic circuits; Magnetic levitation; Magnetostatics; Mathematical model; Saturation magnetization; diffusion; eddy currents; finite-element analysis; magnetic equivalent circuits; nonlinear; saturation;
Conference_Titel :
Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM), 2014 International Symposium on
Conference_Location :
Ischia
DOI :
10.1109/SPEEDAM.2014.6871918
