Comprehensive Investigation of Promising Techniques to Enhance the Voltage Sharing among SiC MOSFET Strings, Supported by Experimental and Simulation Validations
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Published:2024-04-13
Issue:8
Volume:13
Page:1481
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ISSN:2079-9292
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Container-title:Electronics
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language:en
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Short-container-title:Electronics
Author:
Zhao Weichuan1, Ghafoor Sohrab1, Lagerweij Gijs Willem2ORCID, Rietveld Gert34ORCID, Vaessen Peter15, Niasar Mohamad Ghaffarian1
Affiliation:
1. EWI-HVT Group, Delft University of Technology, Mekelweg 4, 2628 CD Delft, The Netherlands 2. Prodrive Technologies, Science Park Eindhoven 5501, 5692 EM Son, The Netherlands 3. Power Electronics Group, University of Twente, Drienerlolaan 5, 7522 NB Enschede, The Netherlands 4. VSL National Metrology Institute, Thijsseweg 11, 2629 JA Delft, The Netherlands 5. KEMA Laboratories, Klingelbeekseweg 195, 6812 DE Arnhem, The Netherlands
Abstract
This paper comprehensively reviews several techniques that address the static and dynamic voltage balancing of series-connected MOSFETs. The effectiveness of these techniques was validated through simulations and experiments. Dynamic voltage-balancing techniques include gate signal delay adjustment methods, passive snubbers, passive clamping circuits, and hybrid solutions. Based on the experimental results, the advantages and disadvantages of each technique are investigated. Combining the gate-balancing core method with an RC snubber, which has proven both technically and commercially attractive, provides a robust solution. If the components are sorted and binned, voltage-balancing techniques may not be necessary, further enhancing the commercial viability of series-connected MOSFETs. An investigation of gate driver topologies yields one crucial conclusion: magnetically isolated gate drivers offer a simple and cost-effective solution for high-frequency (HF) applications (2.5–50 kHz) above 8 kV with an increased number of series devices. Below 8 kV, it is advantageous to move the isolation barrier from the gate drive IC to an optocoupler and isolated supply, allowing for a simple design with commercially available components.
Reference49 articles.
1. Ganeshpure, D.A., Soundararajan, A.P., Soeiro, T.B., Niasar, M.G., Vaessen, P., and Bauer, P. (2022, January 5–9). Comparison of Pulse Current Capability of Different Switches for Modular Multilevel Converter-based Arbitrary Wave shape Generator used for Dielectric Testing of High Voltage Grid Assets. Proceedings of the 2022 24th European Conference on Power Electronics and Applications (EPE’22 ECCE Europe), Hanover, Germany. 2. Ganeshpure, D.A., Soeiro, T.B., Niasar, M.G., Vaessen, P., and Bauer, P. (2021, January 25–29). Modular Multilevel Converter-based Arbitrary Wave shape Generator used for High Voltage Testing. Proceedings of the 2021 IEEE 19th International Power Electronics and Motion Control Conference (PEMC), Gliwice, Poland. 3. 99.1% Efficient 10 kV SiC-Based Medium-Voltage ZVS Bidirectional Single-Phase PFC AC/DC Stage;Rothmund;IEEE J. Emerg. Sel. Top. Power Electron.,2019 4. 99% Efficient 10 kV SiC-Based 7 kV/400 V DC Transformer for Future Data Centers;Rothmund;IEEE J. Emerg. Sel. Top. Power Electron.,2019 5. Callanan, R.J., Agarwal, A., Burk, A., Das, M., Hull, B., Husna, F., Powell, A., Richmond, J., Ryu, S.H., and Zhang, Q. (2008, January 10–13). Recent progress in SiC DMOSFETs and JBS diodes at Cree. Proceedings of the 2008 34th Annual Conference of IEEE Industrial Electronics, Orlando, FL, USA.
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