Abstract:
Thermal management of power electronics in electrified vehicles is critical for ensuring robust functionality during a vehicle's transient operation. For high-power conve...Show MoreMetadata
Abstract:
Thermal management of power electronics in electrified vehicles is critical for ensuring robust functionality during a vehicle's transient operation. For high-power converters, liquid cooling is often necessary to maintain the device's junction below its critical temperature. Usually the manufacturer's datasheet for liquid cold plates is used to create thermal models, but this method has some shortcomings. The data provided is generally measured at steady-state and assumes uniform heating on the surface; however, this scenario is not representative of the in-situ operation. To overcome these discrepancies, this paper introduces an experimental method designed to accurately measure the case temperature of individual devices on a cold plate. This allows for temporal temperature characterization of localized heating on the cold plate by power devices. Also, a thermal model is created to predict the MOSFET junction temperatures at various power dissipations based on the experimentally validated case temperatures.
Date of Conference: 13-15 June 2018
Date Added to IEEE Xplore: 30 August 2018
ISBN Information: