On the origin of anomalous off-current under hot carrier stress in p-channel DDDMOS transistors with STI structure

Ching En Chen; Ting Chang Chang; Hua Mao Chen; Bo You; Kai Hsiang Yang; Szu Han Ho; Jyun Yu Tsai; Kuan Ju Liu; Ying Hsin Lu; Yu Ju Hung; Ya-Hsiang Tai; Tseung-Yuen Tseng

doi:10.1109/LED.2014.2316316

On the origin of anomalous off-current under hot carrier stress in p-channel DDDMOS transistors with STI structure

Ching En Chen, Ting Chang Chang, Hua Mao Chen, Bo You, Kai Hsiang Yang, Szu Han Ho, Jyun Yu Tsai, Kuan Ju Liu, Ying Hsin Lu, Yu Ju Hung, Ya-Hsiang Tai, Tseung-Yuen Tseng

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5 Scopus citations

Abstract

This letter investigates the abnormal off-current behavior induced by hot carrier stress (HCS) in p-channel double diffused drain metal-oxide- semiconductor transistors with a shallow trench isolation (STI) structure. According to ISE-TCAD simulation, the electric field at the drain-side corners of the high-voltage n-well (HVNW) adjacent to the STI trench is stronger than the electric field in the channel center in width direction. Moreover, because a nitride layer acts as a buffer in STI, the electrons generated by impact ionization at the corners of the HVNW can be easily trapped in the nitride layer or at the liner oxide/nitride layer interface. Furthermore, the extension of electron trapping in STI from drain to source during HCS forms the off-current conductive path. Based on the charge pumping measurements at different operation conditions, this path formation is further demonstrated by the comparisons of charge pumping measurements between initial state and after HCS.

Original language	English
Article number	6805192
Pages (from-to)	651-653
Number of pages	3
Journal	IEEE Electron Device Letters
Volume	35
Issue number	6
DOIs	https://doi.org/10.1109/LED.2014.2316316
State	Published - 1 Jun 2014

Keywords

double diffused drain metal-oxide-semiconductor (DDDMOS)
Hot carrier stress
shallow trench isolation (STI)

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10.1109/LED.2014.2316316

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Chen, C. E., Chang, T. C., Chen, H. M., You, B., Yang, K. H., Ho, S. H., Tsai, J. Y., Liu, K. J., Lu, Y. H., Hung, Y. J., Tai, Y.-H., & Tseng, T.-Y. (2014). On the origin of anomalous off-current under hot carrier stress in p-channel DDDMOS transistors with STI structure. IEEE Electron Device Letters, 35(6), 651-653. Article 6805192. https://doi.org/10.1109/LED.2014.2316316

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title = "On the origin of anomalous off-current under hot carrier stress in p-channel DDDMOS transistors with STI structure",

abstract = "This letter investigates the abnormal off-current behavior induced by hot carrier stress (HCS) in p-channel double diffused drain metal-oxide- semiconductor transistors with a shallow trench isolation (STI) structure. According to ISE-TCAD simulation, the electric field at the drain-side corners of the high-voltage n-well (HVNW) adjacent to the STI trench is stronger than the electric field in the channel center in width direction. Moreover, because a nitride layer acts as a buffer in STI, the electrons generated by impact ionization at the corners of the HVNW can be easily trapped in the nitride layer or at the liner oxide/nitride layer interface. Furthermore, the extension of electron trapping in STI from drain to source during HCS forms the off-current conductive path. Based on the charge pumping measurements at different operation conditions, this path formation is further demonstrated by the comparisons of charge pumping measurements between initial state and after HCS.",

keywords = "double diffused drain metal-oxide-semiconductor (DDDMOS), Hot carrier stress, shallow trench isolation (STI)",

author = "Chen, {Ching En} and Chang, {Ting Chang} and Chen, {Hua Mao} and Bo You and Yang, {Kai Hsiang} and Ho, {Szu Han} and Tsai, {Jyun Yu} and Liu, {Kuan Ju} and Lu, {Ying Hsin} and Hung, {Yu Ju} and Ya-Hsiang Tai and Tseung-Yuen Tseng",

year = "2014",

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doi = "10.1109/LED.2014.2316316",

language = "English",

volume = "35",

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journal = "IEEE Electron Device Letters",

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T1 - On the origin of anomalous off-current under hot carrier stress in p-channel DDDMOS transistors with STI structure

AU - Chen, Ching En

AU - Chang, Ting Chang

AU - Chen, Hua Mao

AU - You, Bo

AU - Yang, Kai Hsiang

AU - Ho, Szu Han

AU - Tsai, Jyun Yu

AU - Liu, Kuan Ju

AU - Lu, Ying Hsin

AU - Hung, Yu Ju

AU - Tai, Ya-Hsiang

AU - Tseng, Tseung-Yuen

PY - 2014/6/1

Y1 - 2014/6/1

N2 - This letter investigates the abnormal off-current behavior induced by hot carrier stress (HCS) in p-channel double diffused drain metal-oxide- semiconductor transistors with a shallow trench isolation (STI) structure. According to ISE-TCAD simulation, the electric field at the drain-side corners of the high-voltage n-well (HVNW) adjacent to the STI trench is stronger than the electric field in the channel center in width direction. Moreover, because a nitride layer acts as a buffer in STI, the electrons generated by impact ionization at the corners of the HVNW can be easily trapped in the nitride layer or at the liner oxide/nitride layer interface. Furthermore, the extension of electron trapping in STI from drain to source during HCS forms the off-current conductive path. Based on the charge pumping measurements at different operation conditions, this path formation is further demonstrated by the comparisons of charge pumping measurements between initial state and after HCS.

AB - This letter investigates the abnormal off-current behavior induced by hot carrier stress (HCS) in p-channel double diffused drain metal-oxide- semiconductor transistors with a shallow trench isolation (STI) structure. According to ISE-TCAD simulation, the electric field at the drain-side corners of the high-voltage n-well (HVNW) adjacent to the STI trench is stronger than the electric field in the channel center in width direction. Moreover, because a nitride layer acts as a buffer in STI, the electrons generated by impact ionization at the corners of the HVNW can be easily trapped in the nitride layer or at the liner oxide/nitride layer interface. Furthermore, the extension of electron trapping in STI from drain to source during HCS forms the off-current conductive path. Based on the charge pumping measurements at different operation conditions, this path formation is further demonstrated by the comparisons of charge pumping measurements between initial state and after HCS.

KW - double diffused drain metal-oxide-semiconductor (DDDMOS)

KW - Hot carrier stress

KW - shallow trench isolation (STI)

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DO - 10.1109/LED.2014.2316316

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VL - 35

SP - 651

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JO - IEEE Electron Device Letters

JF - IEEE Electron Device Letters

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M1 - 6805192

ER -

On the origin of anomalous off-current under hot carrier stress in p-channel DDDMOS transistors with STI structure

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