Dynamic analysis of a Si/SiGe-based impact ionization avalanche transit time photodiode with an ultrahigh gain-bandwidth product

J. W. Shi; F. M. Kuo; F. C. Hong; Y. S. Wu

doi:10.1109/LED.2009.2031129

Dynamic analysis of a Si/SiGe-based impact ionization avalanche transit time photodiode with an ultrahigh gain-bandwidth product

J. W. Shi, F. M. Kuo, F. C. Hong, Y. S. Wu

電機工程學系

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

13 引文斯高帕斯（Scopus）

摘要

We investigate the dynamic performance of a Si/SiGe-based impact ionization avalanche transit time photodiode (PD) fabricated on a standard Si substrate that operates at the 830-nm wavelength. The bandwidth-enhancement effect under negative-photoconductance (NPC) operation can greatly relax the internal transit time as well as the tradeoff between the gain and bandwidth performance that characterizes the traditional avalanche PD. Our modeling and measurement results show that the extracted internal resonant frequency increases significantly with the reverse leakage current. By choosing the proper bias voltage in the NPC region, we can simultaneously achieve a wide 3-dB bandwidth (30 GHz), ultrahigh gain-bandwidth product (690 GHz) with a 53.2% external efficiency at unit gain, and clear eye opening at 10 Gb/s.

原文	???core.languages.en_GB???
頁（從 - 到）	1164-1166
頁數	3
期刊	IEEE Electron Device Letters
卷	30
發行號	11
DOIs	https://doi.org/10.1109/LED.2009.2031129
出版狀態	已出版 - 2009

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10.1109/LED.2009.2031129

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abstract = "We investigate the dynamic performance of a Si/SiGe-based impact ionization avalanche transit time photodiode (PD) fabricated on a standard Si substrate that operates at the 830-nm wavelength. The bandwidth-enhancement effect under negative-photoconductance (NPC) operation can greatly relax the internal transit time as well as the tradeoff between the gain and bandwidth performance that characterizes the traditional avalanche PD. Our modeling and measurement results show that the extracted internal resonant frequency increases significantly with the reverse leakage current. By choosing the proper bias voltage in the NPC region, we can simultaneously achieve a wide 3-dB bandwidth (30 GHz), ultrahigh gain-bandwidth product (690 GHz) with a 53.2% external efficiency at unit gain, and clear eye opening at 10 Gb/s.",

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AU - Hong, F. C.

AU - Wu, Y. S.

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Dynamic analysis of a Si/SiGe-based impact ionization avalanche transit time photodiode with an ultrahigh gain-bandwidth product

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