Bipolar Transistor Test Structures for Extracting Minority Carrier Lifetime in IGBTs

Kiyoshi Takeuchi; Munetoshi Fukui; Takuya Saraya; Kazuo Itou; Toshihiko Takakura; Shinichi Suzuki; Yohichiroh Numasawa; Naoyuki Shigyo; Kuniyuki Kakushima; Takuya Hoshii; Kazuyoshi Furukawa; Masahiro Watanabe; Hitoshi Wakabayashi; Kazuo Tsutsui; Hiroshi Iwai; Atsushi Ogura; Wataru Saito; Shin Ichi Nishizawa; Masanori Tsukuda; Ichiro Omura; Hiromichi Ohashi; Toshiro Hiramoto

doi:10.1109/TSM.2020.2972369

Bipolar Transistor Test Structures for Extracting Minority Carrier Lifetime in IGBTs

Kiyoshi Takeuchi, Munetoshi Fukui, Takuya Saraya, Kazuo Itou, Toshihiko Takakura, Shinichi Suzuki, Yohichiroh Numasawa, Naoyuki Shigyo, Kuniyuki Kakushima, Takuya Hoshii, Kazuyoshi Furukawa, Masahiro Watanabe, Hitoshi Wakabayashi, Kazuo Tsutsui, Hiroshi Iwai, Atsushi Ogura, Wataru Saito, Shin Ichi Nishizawa, Masanori Tsukuda, Ichiro OmuraHiromichi Ohashi, Toshiro Hiramoto

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Abstract

Vertical PNP bipolar transistor test structures were fabricated and measured, attempting to electrically obtain information on carrier lifetime in the voltage-supporting base region of Insulated Gate Bipolar Transistors (IGBTs). Owing to the structural similarity, the test structures and functional IGBTs can be integrated on the same wafers, making it possible to directly correlate lifetime data and IGBT characteristics. To solve a problem of leaky backside PN junction, common base current gain of the test devices was measured without applying a reverse bias between the collector and base terminals, which suppressed the leakage to an acceptable level. A simple analytical formula to convert the current gain to hole lifetime in the N-type base region was proposed and used, that takes into account the existence of a commonly used N-buffer layer adjacent to the backside P-collector layer. The validity of the formula was confirmed using TCAD simulations. This method was applied to IGBT wafers with two different wafer thicknesses (i.e., base lengths): 120~{{mu }}text{m} and 360~{{mu }}text{m}. Consistent lifetime values extracted in spite of the largely different thicknesses supports the validity of the proposed lifetime estimation method.

Original language	English
Article number	8986674
Pages (from-to)	159-165
Number of pages	7
Journal	IEEE Transactions on Semiconductor Manufacturing
Volume	33
Issue number	2
DOIs	https://doi.org/10.1109/TSM.2020.2972369
Publication status	Published - May 2020

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Industrial and Manufacturing Engineering
Electrical and Electronic Engineering

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10.1109/TSM.2020.2972369

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Takeuchi, K., Fukui, M., Saraya, T., Itou, K., Takakura, T., Suzuki, S., Numasawa, Y., Shigyo, N., Kakushima, K., Hoshii, T., Furukawa, K., Watanabe, M., Wakabayashi, H., Tsutsui, K., Iwai, H., Ogura, A., Saito, W., Nishizawa, S. I., Tsukuda, M., ... Hiramoto, T. (2020). Bipolar Transistor Test Structures for Extracting Minority Carrier Lifetime in IGBTs. IEEE Transactions on Semiconductor Manufacturing, 33(2), 159-165. [8986674]. https://doi.org/10.1109/TSM.2020.2972369

Takeuchi, K, Fukui, M, Saraya, T, Itou, K, Takakura, T, Suzuki, S, Numasawa, Y, Shigyo, N, Kakushima, K, Hoshii, T, Furukawa, K, Watanabe, M, Wakabayashi, H, Tsutsui, K, Iwai, H, Ogura, A, Saito, W , Nishizawa, SI, Tsukuda, M, Omura, I, Ohashi, H & Hiramoto, T 2020, 'Bipolar Transistor Test Structures for Extracting Minority Carrier Lifetime in IGBTs', IEEE Transactions on Semiconductor Manufacturing, vol. 33, no. 2, 8986674, pp. 159-165. https://doi.org/10.1109/TSM.2020.2972369

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abstract = "Vertical PNP bipolar transistor test structures were fabricated and measured, attempting to electrically obtain information on carrier lifetime in the voltage-supporting base region of Insulated Gate Bipolar Transistors (IGBTs). Owing to the structural similarity, the test structures and functional IGBTs can be integrated on the same wafers, making it possible to directly correlate lifetime data and IGBT characteristics. To solve a problem of leaky backside PN junction, common base current gain of the test devices was measured without applying a reverse bias between the collector and base terminals, which suppressed the leakage to an acceptable level. A simple analytical formula to convert the current gain to hole lifetime in the N-type base region was proposed and used, that takes into account the existence of a commonly used N-buffer layer adjacent to the backside P-collector layer. The validity of the formula was confirmed using TCAD simulations. This method was applied to IGBT wafers with two different wafer thicknesses (i.e., base lengths): 120~{{mu }}text{m} and 360~{{mu }}text{m}. Consistent lifetime values extracted in spite of the largely different thicknesses supports the validity of the proposed lifetime estimation method.",

author = "Kiyoshi Takeuchi and Munetoshi Fukui and Takuya Saraya and Kazuo Itou and Toshihiko Takakura and Shinichi Suzuki and Yohichiroh Numasawa and Naoyuki Shigyo and Kuniyuki Kakushima and Takuya Hoshii and Kazuyoshi Furukawa and Masahiro Watanabe and Hitoshi Wakabayashi and Kazuo Tsutsui and Hiroshi Iwai and Atsushi Ogura and Wataru Saito and Nishizawa, {Shin Ichi} and Masanori Tsukuda and Ichiro Omura and Hiromichi Ohashi and Toshiro Hiramoto",

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AU - Takeuchi, Kiyoshi

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AU - Takakura, Toshihiko

AU - Suzuki, Shinichi

AU - Numasawa, Yohichiroh

AU - Shigyo, Naoyuki

AU - Kakushima, Kuniyuki

AU - Hoshii, Takuya

AU - Furukawa, Kazuyoshi

AU - Watanabe, Masahiro

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AU - Tsutsui, Kazuo

AU - Iwai, Hiroshi

AU - Ogura, Atsushi

AU - Saito, Wataru

AU - Nishizawa, Shin Ichi

AU - Tsukuda, Masanori

AU - Omura, Ichiro

AU - Ohashi, Hiromichi

AU - Hiramoto, Toshiro

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N2 - Vertical PNP bipolar transistor test structures were fabricated and measured, attempting to electrically obtain information on carrier lifetime in the voltage-supporting base region of Insulated Gate Bipolar Transistors (IGBTs). Owing to the structural similarity, the test structures and functional IGBTs can be integrated on the same wafers, making it possible to directly correlate lifetime data and IGBT characteristics. To solve a problem of leaky backside PN junction, common base current gain of the test devices was measured without applying a reverse bias between the collector and base terminals, which suppressed the leakage to an acceptable level. A simple analytical formula to convert the current gain to hole lifetime in the N-type base region was proposed and used, that takes into account the existence of a commonly used N-buffer layer adjacent to the backside P-collector layer. The validity of the formula was confirmed using TCAD simulations. This method was applied to IGBT wafers with two different wafer thicknesses (i.e., base lengths): 120~{{mu }}text{m} and 360~{{mu }}text{m}. Consistent lifetime values extracted in spite of the largely different thicknesses supports the validity of the proposed lifetime estimation method.

AB - Vertical PNP bipolar transistor test structures were fabricated and measured, attempting to electrically obtain information on carrier lifetime in the voltage-supporting base region of Insulated Gate Bipolar Transistors (IGBTs). Owing to the structural similarity, the test structures and functional IGBTs can be integrated on the same wafers, making it possible to directly correlate lifetime data and IGBT characteristics. To solve a problem of leaky backside PN junction, common base current gain of the test devices was measured without applying a reverse bias between the collector and base terminals, which suppressed the leakage to an acceptable level. A simple analytical formula to convert the current gain to hole lifetime in the N-type base region was proposed and used, that takes into account the existence of a commonly used N-buffer layer adjacent to the backside P-collector layer. The validity of the formula was confirmed using TCAD simulations. This method was applied to IGBT wafers with two different wafer thicknesses (i.e., base lengths): 120~{{mu }}text{m} and 360~{{mu }}text{m}. Consistent lifetime values extracted in spite of the largely different thicknesses supports the validity of the proposed lifetime estimation method.

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Bipolar Transistor Test Structures for Extracting Minority Carrier Lifetime in IGBTs

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