A typical motor or generator includes multiple design elements which can cause electromagnetic compatibility (EMC) issues. Along with the main inductances of the motor itself, there is also a parasitic capacitance between the coil and the housing, between the coil and the shaft, and between implemented sensors. This parasitic capacitance is responsible for the common mode coupling and capacitive coupling. This whitepaper shows how EMC-relevant properties of electrical machines can be extracted by 3D EM simulation.
Top 3 Reasons to Read This Whitepaper:
Comprehensive EMC Analysis: Learn how to extract EMC-relevant properties of electrical machines using 3D electromagnetic (EM) simulation. This whitepaper provides detailed insights into identifying and mitigating common mode and capacitive coupling issues that can affect your designs.
Optimise Design Performance: Discover how CST Studio Suite® can help you simulate and analyse different design scenarios. By importing and modifying CAD data, you can evaluate the impact of design variations on EMC performance, ensuring your designs meet industry standards.
Improve HV/LV Attenuation: Understand the importance of high-voltage/low-voltage (HV/LV) attenuation in your designs. The whitepaper explains how to calculate and optimise HV/LV attenuation to protect low-voltage systems from noise and ensure the integrity of your electrical machines.
How SIMULIA Can Help:
Advanced Simulation Tools: Utilise CST Studio Suite® to perform detailed EMC simulations that are not feasible with physical prototypes. This allows you to explore various design configurations and their effects on EMC performance.
Parameterisation and Optimisation: Take advantage of parameter sweep tools to find the best compromise between opposing design requirements and to account for material variations and manufacturing tolerances.
Enhanced Design Efficiency: By leveraging the powerful simulation capabilities of SIMULIA, you can streamline your design process, reduce development time, and achieve higher quality results.