3300V Scaled Silicon IGBTs Driven by 5V Gate Voltage
The difficulty of further increasing the power conversion efficiency of silicon-based components in power electronics seems to indicate that we are reaching the limits of potential advances to this technology. However, a research group headed by The University of Tokyo recently challenged that view by developing a power switching device that surpasses previous performance limits, illustrating that silicon technology can still be further optimized.
To design their improved IGBT, the team used a scaling approach. Their scaling simulations revealed that downscaling part of an IGBT to a third of its original size could lower its operating voltage from 15V to just 5V and substantially decrease its driving power.
“Our IGBT scaling approach was based on a similar concept to that used in traditional microelectronics and indicated that an IGBT with an operating voltage of 5V should be feasible,” says Takuya Saraya. “However, we thought that a driving voltage of 5V might be too low to surpass the unexpected noise level and ensure reliable operation.”
To verify their simulation results, the researchers fabricated their IGBT with a rated voltage of 3300V in a specialized clean room at The University of Tokyo and then assessed its performance. Notably, the IGBT achieved stable switching at an operating voltage of just 5V. This represents the first time IGBT switching has been realized at 5V.
An IGBT that exhibits stable performance at an operating voltage of just 5V is extremely attractive because the power consumption of the drive circuit is only around 10% of that of a conventional IGBT operating at 15V. Power conversion efficiency is also improved despite the lowered operation voltage. Such a low operating voltage is also compatible with standard electronics processing, which will aid the integration of the IGBT drive circuits with other electronics.
“IGBTs are important power electronics components,” explains Toshiro Hiramoto. “Our miniaturized IGBT could lead to the further development of advanced power electronics that are smaller and have higher power conversion efficiency.”
IGBTs are found in electronics ranging from electric trains and vehicles to home stereos and air conditioners. Therefore, the improved IGBT with low driving voltage and high power conversion efficiency shows promise to raise the performance of numerous electronics, helping to mitigate modern society’s increasing energy demands.
Takuya Saraya, Kazuo Itou, Toshihiko Takakura, Munetoshi Fukui, Shinichi Suzuki, Kiyoshi Takeuchi, Masanori Tsukuda, Yohichiroh Numasawa, Katsumi Satoh, Tomoko Matsudai, Wataru Saito, Kuniyuki Kakushima, Takuya Hoshii, Kazuyoshi Furukawa, Masahiro Watanabe, Naoyuki Shigyo, Hitoshi Wakabayashi, Kazuo Tsutsui, Hiroshi Iwai, Atsushi Ogura, Shin-ichi Nishizawa, Ichiro Omura, Hiromichi Ohashi, and Toshiro Hiramoto. “3300V Scaled IGBTs Driven by 5V Gate Voltage,” the IEEE International Symposium on Power Semiconductor Devices and ICs, May 19-23, 2019, Shanghai, China.