In today’s engineering landscape, electromagnetic simulations play a critical role in product development. The accurate design of components such as electric motors, transformers, sensors, and wireless power transfer systems is essential to reducing costs and improving system efficiency.
This is where Ansys Maxwell comes in—a powerful, accurate, and user-friendly electromagnetic analysis tool that helps engineers and researchers develop reliable and high-performance products. Based on the finite element method (FEM), Ansys Maxwell provides industry-leading solutions for low-frequency electromagnetic and electrostatic simulations.
Ansys Maxwell is a finite element analysis (FEA)-based simulation software used to analyze and optimize electromagnetic fields. It enables engineers to conduct static, time-dependent, and AC electromagnetic field analyses, ensuring accurate and reliable product designs.
✅ Magnetostatic Simulations – Analysis of permanent magnets, transformer cores, and magnetic field distributions.
✅ Electrostatic Analysis – Calculation of electric fields, charge distribution, and capacitance.
✅ Time-Varying Magnetic Simulations – Analysis of eddy currents, transformer losses, and current densities.
✅ AC Electromagnetic Field Analysis – Computation of alternating current magnetic field effects and magnetic circuit performance.
✅ Magnetic Sensor and Actuator Analysis – Simulation of the electromagnetic response of sensors and actuators.
✅ Wiring and PCB Simulations – Analysis of electromagnetic interference (EMI) and magnetic shielding.
To perform an electromagnetic analysis in Ansys Maxwell, the following steps are followed:
Geometries can be created directly in Ansys Maxwell or imported from CAD software.
Both 2D and 3D analysis options are available for simple and complex models.
Maxwell provides a comprehensive material library for ferromagnetic, paramagnetic, and dielectric materials.
Users can add custom material properties for tailored analyses.
Adaptive meshing technology (Automatic Meshing) ensures optimal accuracy and efficiency.
Finite element method (FEM) is used to calculate complex magnetic field distributions accurately.
Current sources, voltage inputs, and magnetic field boundary conditions are defined.
Coils, magnetic cores, and flux barriers are modeled correctly to reflect real-world conditions.
Magnetic flux density, field lines, eddy currents, and torque calculations are examined in detail.
Results are visualized graphically, and the design is refined for optimization.
Ansys Maxwell is widely used across various industries and plays a critical role in the design and optimization of electromagnetic systems.
🌀 Performance analysis of motors, torque fluctuations, and magnetic loss calculations.
🌀 Optimization for EV (electric vehicle) motors, wind turbines, and industrial motors.
⚡ Electromagnetic performance analysis of power transformers, distribution transformers, and inductors.
⚡ Iron losses and leakage flux calculations.
📡 Analysis of wireless charging systems, inductive energy transfer, and magnetic resonance systems.
📡 Electromagnetic field safety and efficiency calculations.
🎯 Electromagnetic performance evaluation of magnetic sensing systems and electromechanical actuators.
🎯 Sensor accuracy testing and magnetic field interaction analyses.
🔌 Electromagnetic interference (EMI), magnetic shielding, and harmonic analysis.
🔌 PCB, power supply design, and electrical insulation simulations.
✅ Accurate Electromagnetic Simulations: Maxwell provides high-precision calculations of magnetic field distributions.
✅ Seamless Integration: Works with Ansys Workbench, Ansys Mechanical, and Ansys Fluent for multiphysics simulations.
✅ Automated Meshing: Adaptive meshing technology reduces solution time while maximizing accuracy.
✅ Parametric Design Capabilities: Enables design optimization, cost reduction, and efficiency improvements.
✅ Extensive Material Library: Supports ferromagnetic, superconducting, and dielectric materials for advanced simulations.
Ansys Maxwell helps engineers design more efficient, reliable, and optimized electromagnetic systems, accelerating R&D and engineering workflows.
With applications in:
🔹 Electric vehicle motors
🔹 Wireless charging systems
🔹 Transformer design
🔹 Magnetic sensors and actuators
Ansys Maxwell enhances design accuracy and provides a competitive edge in electromagnetic product development.
📢 Looking to leverage electromagnetic simulation solutions for your engineering projects? Contact us today!
📩 info@fetech.com.tr
🔗 www.fetech.com.tr
💡 Discover the power of simulation technology with Ansys Maxwell! 🚀