Low-Power/High-Speed Digital/Analog ICs using an RTD-based MMIC Technology

Presentation	2007/6/18 Low-Power/High-Speed Digital/Analog ICs using an RTD-based MMIC Technology Kyounghoon Yang,
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Abstract(in Japanese)	(See Japanese page)
Abstract(in English)	This paper describes the recent results on new types of High-Speed/Low-Power NDR (Negative Differential Resistance) ICs based on a monolithic quantum-effect device technology of RTD/HBT. As a representative digital IC, a low-power/high-speed MOBILE (MOnostable-BIstable transition Logic Element)-based D-flip flop IC is presented with the related frequency divider performance. The RTD-based D-flip flop IC demonstrated excellent speed performance at a significantly reduced dc power level. As an example of analog ICs, an RTD MMIC VCO with extremely low power consumption and good phase noise characteristics is presented and discussed. These results demonstrate the potential of RTD-based ICs to overcome the performance limitation of the conventional digital/analog IC topology.
Keyword(in Japanese)	(See Japanese page)
Keyword(in English)	RTD / HBT / NDR / MMIC / D-flip flop / VCO
Paper #	ED2007-62,SDM2007-67
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Paper Information
Registration To	Electron Devices (ED)
Language	ENG
Title (in Japanese)	(See Japanese page)
Sub Title (in Japanese)	(See Japanese page)
Title (in English)	Low-Power/High-Speed Digital/Analog ICs using an RTD-based MMIC Technology
Sub Title (in English)
Keyword(1)	RTD
Keyword(2)	HBT
Keyword(3)	NDR
Keyword(4)	MMIC
Keyword(5)	D-flip flop
Keyword(6)	VCO
1st Author's Name	Kyounghoon Yang
1st Author's Affiliation	School of Electrical Engineering and Computer Science, Division of Electrical Engineering, Korea Advanced Institute of Science and Technology (KAIST)()
Date	2007/6/18
Paper #	ED2007-62,SDM2007-67
Volume (vol)	vol.107
Number (no)	110
Page	pp.pp.-
#Pages	4
Date of Issue