Vipindas Pala scite author profile

In this work, we report our recently developed 27 kV, 20 A 4H-SiC n-IGBTs. Blocking voltages exceeding 24 kV were achieved by utilizing thick (210 μm and 230 μm), lightly doped N-drift layers with an appropriate edge termination. Prior to the device fabrication, an ambipolar carrier lifetime of greater than 10 μs was measured on both drift regions by the microwave photoconductivity decay (μPCD) technique. The SiC n-IGBTs exhibit an on-state voltage of 11.8 V at a forward current of 20 A and a gate bias of 20 V at 25 °C. The devices have a chip size of 0.81 cm2and an active conducting area of 0.28 cm2. Double-pulse switching measurements carried out at up to 16 kV and 20 A demonstrate the robust operation of the device under hard-switched conditions; coupled thermal analysis indicates that the devices can operate at a forward current of up to 10 A in a hard-switched environment at a frequency of more than 3 kHz and a bus voltage of 14 kV.

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Silicon carbide power MOSFETs: Breakthrough performance from 900 V up to 15 kV

Palmour

Cheng

Pala

et al. 2014

244

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Smart Power Devices and ICs Using GaAs and Wide and Extreme Bandgap Semiconductors

Chow

Omura

Higashiwaki

et al. 2017

IEEE Trans. Electron Devices

124

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10 kV and 15 kV silicon carbide power MOSFETs for next-generation energy conversion and transmission systems

et al. 2014

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Advanced high-voltage (10 kV -15 kV) silicon carbide (SiC) power MOSFETs described in this paper have the potential to significantly impact the system performance, size, weight, high-temperature reliability, and cost of nextgeneration energy conversion and transmission systems. In this paper, we report our recently developed 10 kV/20 A SiC MOSFETs with a chip size of 8.1 × 8.1 mm 2 and a specific onresistance (R ON,SP ) of 100 mΩ⋅cm 2 at 25 °C. We also developed 15 kV/10 A SiC power MOSFETs with a chip size of 8 × 8 mm 2 and a R ON,SP of 204 mΩ⋅cm 2 at 25 °C. To our knowledge, this 15 kV SiC MOSFET is the highest voltage rated unipolar power switch. Compared to the commercial 6.5 kV Silicon (Si) IGBTs, these 10 kV and 15 kV SiC MOSFETs exhibit extremely low switching losses even when they are switched at 2-3x higher voltage. The benefits of using these 10 kV and 15 kV SiC MOSFETs include simplifying from multilevel to twolevel topology and removing the need for time-interleaving by improving the switching frequency from a few hundred Hz for Si based systems to ≥ 10 kHz for hard-switched SiC based systems.

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22 kV, 1 cm², 4H-SiC n-IGBTs with improved conductivity modulation

Brunt

Cheng

O’Loughlin

et al. 2014

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Vipindas Pala

27 kV, 20 A 4H-SiC n-IGBTs

Silicon carbide power MOSFETs: Breakthrough performance from 900 V up to 15 kV

Smart Power Devices and ICs Using GaAs and Wide and Extreme Bandgap Semiconductors

10 kV and 15 kV silicon carbide power MOSFETs for next-generation energy conversion and transmission systems

22 kV, 1 cm², 4H-SiC n-IGBTs with improved conductivity modulation

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Vipindas Pala

27 kV, 20 A 4H-SiC n-IGBTs

Silicon carbide power MOSFETs: Breakthrough performance from 900 V up to 15 kV

Smart Power Devices and ICs Using GaAs and Wide and Extreme Bandgap Semiconductors

10 kV and 15 kV silicon carbide power MOSFETs for next-generation energy conversion and transmission systems

22 kV, 1 cm2, 4H-SiC n-IGBTs with improved conductivity modulation

Contact Info

Product

Resources

About

22 kV, 1 cm², 4H-SiC n-IGBTs with improved conductivity modulation