Affiliation:
1. Toyota Motor Corporation
Abstract
<div class="section abstract"><div class="htmlview paragraph">The development of electric vehicles has been progressed, rapidly, to achieve Carbon neutrality by 2050. There have been increasing concerns about Electromagnetic Compatibility (EMC) performance due to increasing power for power trains of vehicles. Because same power train system expands to some vehicles, we have developed numerical simulations in order to predict the vehicle EMC performances. We modeled a vehicle which has inverter noises by numerical simulation to calculate electric fields based on GB/T18387. We simulated the common mode noise which flows through the shielding braid of the high voltage wire harnesses. As a result, it is confirmed a correlation between the electric fields calculated by numerical simulation and the measured one.</div></div>
Publisher
Society of Automotive Engineers of Japan
Reference14 articles.
1. A. Khaligh and M. D'Antonio Global Trends in High-Power On-Board Chargers for Electric Vehicles IEEE Transactions on Vehicular Technology 68 4 3306 3324 2019 10.1109/TVT.2019.2897050
2. GB/T 1837 2008
3. GB/T 1837 2017
4. CISPR 36 ”, 2020
5. M. Klingler Analysis of Resonances of the Electrical Architecture of a Vehicle due to the Network of Shielded Links and 0V Wires EMC Europe 2020