WHITE PAPER
E-powertrain EMC Design and Validation With Ansys
Ready to revolutionize your approach to zero-emission vehicle design?
In the pursuit of zero-emission vehicles, the design of the e-powertrain and its electronic systems encounters numerous challenges. From stringent regulatory requirements to the demand for enhanced performance and efficiency, the landscape is ripe with complexities. Here, simulation emerges as a vital tool, offering a pathway to navigate these challenges with precision and innovation.
What you'll learn in this white paper:
- Navigating the Transition to Wide-bandgap Semiconductors: Gain insight into the complexities of transitioning from traditional silicon to cutting-edge wide-bandgap semiconductors like silicon carbide (SiC) and gallium nitride (GaN). Discover how advanced simulation methodologies revolutionize design optimization in situations such as mitigating high-level electromagnetic interference (EMI).
- Effective EMC/EMI Management Strategies: Uncover the critical importance of meticulous EMC/EMI design in e-powertrains and explore innovative solutions such as common mode chokes (CMCs) and EMI filters to suppress noise and ensure compliance with regulatory standards.
- Mastering Complexity in Power Electronics PCBs: Dive deep into the challenges posed by the increasing complexity of power electronics PCBs. Learn how advanced simulation techniques enable precise control over couplings and parasitic loop inductance to prevent signal noise and optimize performance.
- Addressing Thermal-related Challenges: Explore the thermal-related challenges encountered in power modules and busbars and discover how sophisticated solvers facilitate accurate prediction of RLCG values, empowering engineers to optimize designs for minimal power losses and reduced emissions.
Download our comprehensive white paper now to gain design and simulation insights for overcoming these challenges and accelerating your journey towards a sustainable, emissions-free future.
