A novel, low-cost deep trench decoupling capacitor for high-performance, low-power bulk CMOS applications

We present an overview and electrical results for a novel deep trench decoupling capacitor. The process of this decoupling capacitor borrows from the regular embedded DRAM trench process, but with significant process simplification for decoupling use which provide reduced cost and reduced process cy...

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Hauptverfasser:	Chengwen Pei, Booth, R., Ho, H., Kusaba, N., Xi Li, Brodsky, M.-J., Parries, P., Huiling Shang, Divakaruni, R., Iyer, S.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Capacitance Capacitors Circuit noise Costs Dielectrics Logic circuits Logic devices Random access memory Semiconductor device noise Voltage
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creator	Chengwen Pei Booth, R. Ho, H. Kusaba, N. Xi Li Brodsky, M.-J. Parries, P. Huiling Shang Divakaruni, R. Iyer, S.
description	We present an overview and electrical results for a novel deep trench decoupling capacitor. The process of this decoupling capacitor borrows from the regular embedded DRAM trench process, but with significant process simplification for decoupling use which provide reduced cost and reduced process cycle time. This capacitor can provide significant chip-level area savings, using only 1/8 silicon real estate to fabricate the same capacitance as standard planar gate oxide capacitors. Additionally, the trench decap demonstrates a dramatic improvement in leakage compared to standard planar gate oxide capacitors - as much as 10 5 improvement in leakage can be realized using trench decaps instead of conventional planar decap designs.
doi_str_mv	10.1109/ICSICT.2008.4734752
format	Conference Proceeding
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subjects	Capacitance Capacitors Circuit noise Costs Dielectrics Logic circuits Logic devices Random access memory Semiconductor device noise Voltage
title	A novel, low-cost deep trench decoupling capacitor for high-performance, low-power bulk CMOS applications
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