Progress and challenges towards terahertz CMOS integrated circuits

Eunyoung Seok; Dongha Shim; Chuying Mao; Ruonan Han; Swaminathan Sankaran; Changhua Cao; Wojciech Knap; K. O. Kenneth

doi:10.1109/JSSC.2010.2049793

Progress and challenges towards terahertz CMOS integrated circuits

Eunyoung Seok, Dongha Shim, Chuying Mao, Ruonan Han, Swaminathan Sankaran, Changhua Cao, Wojciech Knap, K. O. Kenneth

Dept. of Manufacturing Systems and Design Engineering

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

144 Scopus citations

Abstract

Key components of systems operating at high millimeter wave and sub-millimeter wave/terahertz frequencies, a 140-GHz fundamental mode voltage controlled oscillator (VCO) in 90-nm CMOS, a 410-GHz push-push VCO with an on-chip patch antenna in 45-nm CMOS, and a 125-GHz Schottky diode frequency doubler, a 50-GHz phase-locked loop with a frequency doubled output at 100 GHz, a 180-GHz Schottky diode detector and a 700-GHz plasma wave detector in 130-nm CMOS are demonstrated. Based on these, and the performance trends of nMOS transistors and Schottky diodes fabricated in CMOS, paths to terahertz CMOS circuits and systems including key challenges that must be addressed are suggested. The terahertz CMOS is a new opportunity for the silicon integrated circuits community.

Original language	English
Article number	5518488
Pages (from-to)	1554-1564
Number of pages	11
Journal	IEEE Journal of Solid-State Circuits
Volume	45
Issue number	8
DOIs	https://doi.org/10.1109/JSSC.2010.2049793
State	Published - Aug 2010

Keywords

CMOS
detector
frequency doubler
on-chip patch antenna
Schottky barrier diode
VCO

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10.1109/JSSC.2010.2049793

Cite this

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title = "Progress and challenges towards terahertz CMOS integrated circuits",

abstract = "Key components of systems operating at high millimeter wave and sub-millimeter wave/terahertz frequencies, a 140-GHz fundamental mode voltage controlled oscillator (VCO) in 90-nm CMOS, a 410-GHz push-push VCO with an on-chip patch antenna in 45-nm CMOS, and a 125-GHz Schottky diode frequency doubler, a 50-GHz phase-locked loop with a frequency doubled output at 100 GHz, a 180-GHz Schottky diode detector and a 700-GHz plasma wave detector in 130-nm CMOS are demonstrated. Based on these, and the performance trends of nMOS transistors and Schottky diodes fabricated in CMOS, paths to terahertz CMOS circuits and systems including key challenges that must be addressed are suggested. The terahertz CMOS is a new opportunity for the silicon integrated circuits community.",

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AU - Seok, Eunyoung

AU - Shim, Dongha

AU - Mao, Chuying

AU - Han, Ruonan

AU - Sankaran, Swaminathan

AU - Cao, Changhua

AU - Knap, Wojciech

AU - Kenneth, K. O.

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Progress and challenges towards terahertz CMOS integrated circuits

Abstract

Keywords

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