A Study on Electrical Performance of SiC-based Self-switching Diode (SSD) as a High Voltage High Power Device

Authors

  • N. Z. A. A. Sha’ari
  • N. F. Zakaria
  • S. R. Kasjoo
  • M. N. Norizan
  • I. S. Mohamad
  • M. F. Ahmad
  • S. A. A. Rais
  • B. Poobalan
  • N. Sabani
  • A. F. A. Rahim

DOI:

https://doi.org/10.58915/ijneam.v16iDECEMBER.397

Abstract

The Self-switching Diodes (SSDs) have been primarily researched and used in low-power device applications for RF detection and harvesting applications. In this paper, we explore the potential of SSDs in high-voltage applications with the usage of Silicon Carbide (SiC) as substrate materials which offers improved efficiency and reduced energy consumption. Optimization in terms of the variation in the interface charges, metal work function, and doping concentration values has been performed by means of a 2D TCAD device simulator. The results showed that the SSD can block up to 600 V of voltage with an optimum interface charge value of 1013 cm-2, making them suitable for higher voltage applications. Furthermore, it also found that the work function of the metal contact affected the forward voltage value, impacting the current flow in the device. Variation in doping concentrations also resulted in higher breakdown voltages and significantly increased forward current, leading to an increased power rating of 27 kW. In conclusion, the usage of 4H-SiC-based SSDs shows a usable potential for high-voltage applications with optimized parameters. The results from this research can facilitate the implementation of SSD in the development of high-power semiconductor devices for various industrial applications.

Keywords:

Self-switching diode, optimization, device simulation, silicon carbide, Silvaco

Downloads

Published

26-12-2023

How to Cite

[1]
N. Z. A. A. Sha’ari, “A Study on Electrical Performance of SiC-based Self-switching Diode (SSD) as a High Voltage High Power Device”, IJNeaM, vol. 16, no. December, pp. 111–119, Dec. 2023.