2022
DOI: 10.1109/access.2022.3227442
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Analysis of the Zero Overvoltage Switching Phenomenon

Abstract: In common understanding, the fast switching speed of wide-bandgap devices leads to high overvoltage and oscillations, if no countermeasures are taken. Those countermeasures were introduced in the past, and include methods such as build-in gate resistors or low-inductive power modules. There is, however, a physical limit for reducing the parasitic inductance of the commutation cell. This is one of the reasons why the full potential of wide-bandgap devices cannot be entirely utilized. In contrast, the Zero Overv… Show more

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Cited by 5 publications
(5 citation statements)
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“…Specifically, it is to fundamentally understand how the circuit parameters and switching speed translate to the overshoot. These overshoot results of Fast-Mode are expected and are also experimentally verified in both [11] and [12]. This…”
Section: Realisation Of Fundamental Modelsupporting
confidence: 79%
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“…Specifically, it is to fundamentally understand how the circuit parameters and switching speed translate to the overshoot. These overshoot results of Fast-Mode are expected and are also experimentally verified in both [11] and [12]. This…”
Section: Realisation Of Fundamental Modelsupporting
confidence: 79%
“…4 shows the transition period is very small, with no overshoot and ringing, contrary to the expected results. These results were experimentally verified in [11] and [12].…”
Section: A Zero Overvoltage Switching As An Oscillation Suppression M...supporting
confidence: 60%
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