Linear and Rotational Actuator Simulation with EMWorks
Design, size, and optimize electromagnetic actuators directly on your 3D models.
Review the intricate design and simulation of electromagnetic clutch systems, showcasing their operation and broad applications.
This note uses the EMWorks Magnetostatic module to simulate the TEAM 20 DC solenoid with a nonlinear MA2 steel core and 3000 A-turn coil, computing flux density and pull force and comparing average Bz and force with published benchmark measurements.
This application note shows how to simulate a linear solenoid in EMAG coupled. It covers material setup, meshing, loads, and post-processing of plunger force, displacement, flux density, and inductance versus position.
See how EMWorks' simulations measure up against TEAM 24 benchmarks in accurately predicting electromagnetic behavior in Switched Reluctance Machines.
Explore how electromagnetic simulation optimizes DC linear actuator design for efficiency and performance, covering 2D and 3D FEM solutions, and force computations.
Evaluate the important impact of ferrofluids on solenoid actuators. Learn how they boost efficiency, enhance performance, and reduce energy consumption in our latest insights.
Examine the precision of DC actuators in mechanical motion conversion through FEM simulation, highlighting key insights for enhancing electromagnetic actuator efficiency.
Discover how the latest DC contactor design offers superior energy efficiency and quieter operation, compared to traditional models.
Asking how T-shaped electromagnetic actuators perform in terms of magnetic force, flux density, and motion analysis in real-world applications. This application note is for you.
Discover why voice coil actuators are the top choice for applications requiring precise positioning, offering high speed, acceleration, and compact design.
Learn how different voltages affect the force output and thermal efficiency of voice coil actuators in precision applications, based on EMWorks simulations.
Understanding the workings of voice coil actuators and their critical performance metrics for precision motion applications, including force sensitivity and back EMF.
Understanding how coil thickness and input current influence heat generation and temperature distribution in DC linear actuators, is crucial for performance and lifespan optimization.