Impact of Carriers Injection Level on Transients of Discrete and Paralleled Silicon and 4H-SiC NPN BJTs

Shen, Chia–Rui; Jahdi, Saeed; Yang, Juefei; Alatise, Olayiwola; Gonzalez, Jose Ortiz; Wu, Ruizhu; Mellor, P.H.

doi:10.1109/ojies.2022.3143946

Cited by 2 publications

(1 citation statement)

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“…1. This effectively enables to become one of the few available bipolar SiC devices [5,6] The space between P-N junctions in the MPS structure pinches off at small reverse bias voltage where a potential barrier is formed under the p+ region to protect the Schottky contact from the high electric field. The greatly reduction of electric field at Schottky contact suppress both the Schottky barrier lowering and the surge of energy states at Schottky contact, both achieves a further reduction of leakage current in SiC MPS than Silicon MPS as the absence of surface defects in the latter devices.…”

Section: Introductionmentioning

confidence: 99%

Analysis of on-state static and dynamic transients of high voltage 4H-SIC Merged-PiN-Schottky diode

Shen

Jahdi

Mellor

et al. 2022

11th International Conference on Power Electronics, Machines and Drives (PEMD 2022)

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The 4H-SiC vertical Merged-PiN-Schottky (MPS) diodes are attractive power devices with potentials to be used in high-power DC-DC converter with high voltage ratings in the range of 1.7 kV and high operating temperatures, as an alternative to Junction Barrier Schottky (JBS) diodes. This paper reveals the dynamic switching performance and the static characteristics of the SiC MPS diode in comparison with the Silicon PiN diodes and SiC JBS diodes through a wide range of experimental measurements. It shows the superior switching performance of the SiC MPS and JBS diodes due to the absence of the reverse recovery charge. However, it is shown that this is at the cost of the large on state voltage especially at high currents and high temperatures and the increasing forward voltage during the conduction state. As the temperature dependence of forward voltage of Silicon PiN diodes is negative, they are prone to thermal runaway when connected in parallel. Such destructive consequence is also hold for single SiC MPS diode as it is shown that the lack of conductivity modulation leads to a surge of forward voltage in the on-state.

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Section: Introductionmentioning

confidence: 99%