New ballasting layout schemes to improve ESD robustness of I/O buffers in fully silicided CMOS process

Ming-Dou Ker; Wen Yi Chen; Wuu Trong Shieh; I. Ju Wei

doi:10.1109/TED.2009.2031003

New ballasting layout schemes to improve ESD robustness of I/O buffers in fully silicided CMOS process

Ming-Dou Ker^*, Wen Yi Chen, Wuu Trong Shieh, I. Ju Wei

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Silicidation has been reported to result in substantial negative impact on the electrostatic discharge (ESD) robustness of MOS field-effect transistors. Although silicide blocking (SB) is a useful method to alleviate ESD degradation from silicidation, it requires additional mask and process steps to somehow increase the fabrication cost. In this paper, two new ballasting layout schemes to effectively improve the ESD robustness of input/output (I/O) buffers with fully silicided NMOS and PMOS transistors have been proposed. Ballasting technique in layout is a cost-effective method to enhance the ESD robustness of fully silicided devices. Experimental results from real IC products have confirmed that the new ballasting layout schemes can successfully increase the HBM ESD robustness of fully silicided I/O buffers from the original 1.5 kV to over 6 kV without using the additional SB mask.

Original language	English
Article number	5299049
Pages (from-to)	3149-3159
Number of pages	11
Journal	IEEE Transactions on Electron Devices
Volume	56
Issue number	12
DOIs	https://doi.org/10.1109/TED.2009.2031003
State	Published - 1 Dec 2009

Keywords

Ballast resistance
Electrostatic discharge (ESD)
ESD protection
Input/output (I/O) buffer
Silicidation

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10.1109/TED.2009.2031003

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title = "New ballasting layout schemes to improve ESD robustness of I/O buffers in fully silicided CMOS process",

abstract = "Silicidation has been reported to result in substantial negative impact on the electrostatic discharge (ESD) robustness of MOS field-effect transistors. Although silicide blocking (SB) is a useful method to alleviate ESD degradation from silicidation, it requires additional mask and process steps to somehow increase the fabrication cost. In this paper, two new ballasting layout schemes to effectively improve the ESD robustness of input/output (I/O) buffers with fully silicided NMOS and PMOS transistors have been proposed. Ballasting technique in layout is a cost-effective method to enhance the ESD robustness of fully silicided devices. Experimental results from real IC products have confirmed that the new ballasting layout schemes can successfully increase the HBM ESD robustness of fully silicided I/O buffers from the original 1.5 kV to over 6 kV without using the additional SB mask.",

keywords = "Ballast resistance, Electrostatic discharge (ESD), ESD protection, Input/output (I/O) buffer, Silicidation",

author = "Ming-Dou Ker and Chen, {Wen Yi} and Shieh, {Wuu Trong} and Wei, {I. Ju}",

year = "2009",

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doi = "10.1109/TED.2009.2031003",

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AU - Ker, Ming-Dou

AU - Chen, Wen Yi

AU - Shieh, Wuu Trong

AU - Wei, I. Ju

PY - 2009/12/1

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N2 - Silicidation has been reported to result in substantial negative impact on the electrostatic discharge (ESD) robustness of MOS field-effect transistors. Although silicide blocking (SB) is a useful method to alleviate ESD degradation from silicidation, it requires additional mask and process steps to somehow increase the fabrication cost. In this paper, two new ballasting layout schemes to effectively improve the ESD robustness of input/output (I/O) buffers with fully silicided NMOS and PMOS transistors have been proposed. Ballasting technique in layout is a cost-effective method to enhance the ESD robustness of fully silicided devices. Experimental results from real IC products have confirmed that the new ballasting layout schemes can successfully increase the HBM ESD robustness of fully silicided I/O buffers from the original 1.5 kV to over 6 kV without using the additional SB mask.

AB - Silicidation has been reported to result in substantial negative impact on the electrostatic discharge (ESD) robustness of MOS field-effect transistors. Although silicide blocking (SB) is a useful method to alleviate ESD degradation from silicidation, it requires additional mask and process steps to somehow increase the fabrication cost. In this paper, two new ballasting layout schemes to effectively improve the ESD robustness of input/output (I/O) buffers with fully silicided NMOS and PMOS transistors have been proposed. Ballasting technique in layout is a cost-effective method to enhance the ESD robustness of fully silicided devices. Experimental results from real IC products have confirmed that the new ballasting layout schemes can successfully increase the HBM ESD robustness of fully silicided I/O buffers from the original 1.5 kV to over 6 kV without using the additional SB mask.

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KW - Electrostatic discharge (ESD)

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New ballasting layout schemes to improve ESD robustness of I/O buffers in fully silicided CMOS process

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Keywords

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