@misc{9e81a6df5ac94779b860660fe3a0af3c,
title = "Tutorial - Electric Motor and Integrated Traction Drive Thermal Management",
abstract = "The share of vehicles with fully electric propulsion systems is constantly increasing, and so is their traction drive power. The continuous push to increase power of electric vehicle (EV) traction drives necessitates their efficient cooling to prevent damage to temperature sensitive components of the drive system and achieving higher power outputs in a smaller footprint. With increasing power and power density of electric traction drives, their thermal management is becoming increasingly challenging. This tutorial will provide an overview of thermal management approaches for electric motors and power electronics in EV applications. It will review examples of current industry solutions for power-dense electric motor cooling, power electronics (inverter) cooling, their integration concepts and thermal management system solutions. We'll look at the advantages and challenges of power electronics integration into a single traction drive unit and respective thermal management system concepts. We'll talk about barriers to implementation of a unified thermal management system. The tutorial will also review key aspects of thermal management system design: modeling and simulation using FEA and CFD tools, experimental characterization, and general workflow for thermal management system evaluation.",
keywords = "electric motor cooling, integrated traction drive, power electronics, thermal analysis, thermal management",
author = "Bidzina Kekelia and Xuhui Feng",
year = "2023",
language = "American English",
series = "Presented at the InterPACK 2023 International Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Microsystems, 24-26 October 2023, San Diego, California",
type = "Other",
}