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Advanced materials for low power electronics
Solid-State Electronics, 1996Abstract This paper will review recent advances in the development of key material structures essential for the cost effective manufacture of promising low power technology candidates such as scaled CMOS [bulk/silicon-on-insulator (SOI)], BiCMOS and HBTs.
P.K. Vasudev, M. Mendicino, T.E. Seidel
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2018
TECHNOLOGIES AND DEVICES History of Low-Power Electronics Christian Piguet Evolution of Deep Submicron Bulk and SOI Technologies Marc Belleville and Olivier Faynot Leakage in CMOS Nanometric Technologies Antoni Ferre and Joan Figueras Microelectronics, Nanoelectronics, and the Future of Electronics Jing Wang and Mark Lundstrom Advanced Research in On ...
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TECHNOLOGIES AND DEVICES History of Low-Power Electronics Christian Piguet Evolution of Deep Submicron Bulk and SOI Technologies Marc Belleville and Olivier Faynot Leakage in CMOS Nanometric Technologies Antoni Ferre and Joan Figueras Microelectronics, Nanoelectronics, and the Future of Electronics Jing Wang and Mark Lundstrom Advanced Research in On ...
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2012
Low-power electron devices are extremely important in terms of energy saving by taking advantage of the information and communication technology (ICT) as well as power reduction of electronic apparatuses themselves. Although the low-power approaches should be done in every technological aspect of the ICT technology, the low-power electron device (CMOS)
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Low-power electron devices are extremely important in terms of energy saving by taking advantage of the information and communication technology (ICT) as well as power reduction of electronic apparatuses themselves. Although the low-power approaches should be done in every technological aspect of the ICT technology, the low-power electron device (CMOS)
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Ultra-low power green electronic devices
2015 IEEE International Conference on Electron Devices and Solid-State Circuits (EDSSC), 2015Power consumption is the crucial challenge for electronics. To lower the DC leakage power (P DC ), we applied the high-κ gate dielectric to CMOS from the physics of Q equivalent to CV. More than 2 orders of magnitude lower P DC is obtained at small 0.5–0.9 nm equivalent-oxide-thickness (EOT).
S. H. Yi, Albert Chin
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Devices for Low Power Electronics
2009The introduction of the concept of integrated circuits in 1958 by Jack Kilby and Robert Noyce enabled the electronics industry to achieve a phenomenal growth over the past several decades. The dimensions of semiconductor devices have been continuously shrinking to meet the needed requirements of high speed and low power as demanded by the circuit ...
Syed Kamrul Islam +1 more
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Energy harvesting with low-power electronics
SPIE Proceedings, 2010In this paper, a novel concept of energy harvesting, applicable to both wired and wireless self-powered low-power electronic devices, is discussed. Types of energy harvesting include solar/optical, thermal, IR, and mechanical. Overall power budgets and control circuitry are discussed, including maximizing Mean Time between Battery Replacement ...
Tomasz Jannson +7 more
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Toward a Miniaturized Low-Power Micromechanical Electronic Nose
IEEE Sensors Journal, 2012An electronic nose based on an array of vibrating doubly clamped beams is proposed. These very high aspect ratio (length/thickness) suspended resonators can be individually functionalized by applying polymer coatings with an inkjet printing approach.
Karabaçak, D. +6 more
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Low Power/Low Noise Electronics
2001Abstract : Army communication systems have several major limitations, including limited bandwidth, low throughput, dependence upon terrestrial line-of-sight, lack of full mobility and limited support for intelligence and imagery requirements. Additional requirements include low probability of intercept, jam resistant, multi-frequency systems and low ...
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Low power electronics for NEMO detector
AIP Conference Proceedings, 2000For the realization of the submarine detector NEMO it is necessary to design an acquisition system which is able to capture the signals coming from photo-multipliers (PMs) of the optical modules (OMs) and to satisfy several specifications: low power consumption; few submarine interconnections for reliability and simplicity of the deployment ...
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Low power processing electronics for diabetes
IET Seminar on Biocompatible Materials, 2006This paper presents an implementation of a silicon beta cell for the monitoring and treatment of patients with diabetes. The cell senses glucose and releases insulin. The biphasic insulin release is by exocytosis. Electrically excitable, the cell induces slow wave bursts with superimposed action potentials. A CMOS ISFET implementation is presented. The
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