Optimized design and 3D finite element analysis of a rotary actuator

Optimized design and 3D finite element analysis of a rotary actuator

Automotive vacuum actuation systems are being replaced by electromechanical actuators. Extremes of temperature and fluctuating voltage supply complicate the use of electrical apparatus in such applications. Minimal cost and continuous duty operation constraints drive the optimization process. The de...

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Bibliographische Detailangaben
Hauptverfasser: McCann, R.A., Suriano, J.R.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
ACTUATORS
ADVANCED PROPULSION SYSTEMS
AIR CONDITIONING
AUTOMOTIVE ACCESSORIES
Automotive engineering
Constraint optimization
Cost function
Design optimization
ELECTRIC MOTORS
ELECTRIC-POWERED VEHICLES
FINITE ELEMENT METHOD
Finite element methods
HEATING SYSTEMS
Process design
Temperature
Vacuum systems
Voltage fluctuations
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Beschreibung
Zusammenfassung:Automotive vacuum actuation systems are being replaced by electromechanical actuators. Extremes of temperature and fluctuating voltage supply complicate the use of electrical apparatus in such applications. Minimal cost and continuous duty operation constraints drive the optimization process. The design and analysis of a variable reluctance rotary actuator is presented for 14 V automotive applications. A simple linear model is used for optimization of the magnetic coil dimensions. Fringe effects and nonlinear magnetics are modeled with a three dimensional finite element model. Output torque computed with the model is compared to prototype device test results. The effects on different steel grades are examined.
ISSN:0197-2618
2576-702X
DOI:10.1109/IAS.1995.530340