A FEM Approach for Mitigating Magnetic Crosstalk for an Embedded Current Sensor

Janus Dybdahl Meinert, Szymon Michal Bęczkowski, Shaokang Luan, Michael A. E. Andersen, Stig Munk-Nielsen, Asger Bjørn Jørgensen

Research output: Chapter in Book/Report/Conference proceedingArticle in proceedingsResearchpeer-review

Abstract

Accurate measurements of the current sharing between parallel dies are essential when designing compact fast switching multichip power modules. A two-stage current sensor has been demonstrated which due to its embedded current transformers can be integrated inside a power module and used for individual die current measurements. However, parasitic magnetic couplings between the current transformers and the layout has been observed which during switching of the dies yield an undesired crosstalk current in the current sensors. A finite element method based crosstalk mitigation strategy is proposed where the parasitic magnetic couplings are estimated using Ansys Maxwell. Through equations describing the different contributions to the induced current in the secondary winding of each current transformer, the crosstalk current’s contribution can be mitigated, leading to an improved sensor accuracy. The mitigation strategy is tested and verified by comparing the total die current measured with a Rogowski coil to the summation of the individual die currents with and without applying the mitigation strategy.
Original languageEnglish
Title of host publicationProceedings of 2024 Energy Conversion Congress & Expo Europe 
Number of pages6
PublisherIEEE
Publication date6 Sept 2024
Article number10751865
ISBN (Print)979-8-3503-6445-3
DOIs
Publication statusPublished - 6 Sept 2024
Event2024 Energy Conversion Congress & Expo Europe - Darmstadt, Germany
Duration: 2 Sept 20246 Sept 2024

Conference

Conference2024 Energy Conversion Congress & Expo Europe
Country/TerritoryGermany
CityDarmstadt
Period02/09/202406/09/2024

Keywords

  • Couplings
  • Accuracy
  • Current transformers
  • Current measurement
  • Prevention and mitigation
  • Layout
  • Windings
  • Crosstalk
  • Switches
  • Finite element analysis

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