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Energy harvesting technologies for low‐power electronics
Transactions on Emerging Telecommunications Technologies, 2012ABSTRACTPower consumption is one of the most critical issues when designing low‐cost electronic devices, such as sensing nodes in wireless sensor networks. To support their operation, such systems usually contain a battery; however, when the battery has consumed all its energy, the node (e.g. the sensor) must be retrieved and the battery replaced.
Unai Alvarado +5 more
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Batteries for low power electronics
Proceedings of the IEEE, 1995Progress in battery technology is closely tied to that in electronics, however, it is slow in comparison. Growth in new systems once in production, is also slow, depending upon the development of new devices which need their performance characteristics. This has been true, in particular for lithium cells operating at 3 V.
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Electronics: high and low power
Electronics and Power, 1969Electrical equipment in British warships has traditionally been divided into `high-power' and `low-power' categories, but the rate of progress of electronic devices has been such that the old barriers are being broken down. Among the latest electronic equipment designed for use in naval vessels are new speed controllers and voltage regulators at one ...
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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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High Performance and Low Power Electronics on Flexible Substrate
2007 44th ACM/IEEE Design Automation Conference, 2007We propose a design and optimization methodology for high performance and ultra low power digital applications on flexible substrate using low temperature polycrystalline silicon thin film transistor (LTPS TFT). We show that by using ultra-thin bodies and minimizing the mid-gap trap density by hydrogenation, LTPS TFTs (in 200 nm technology) can achieve
Jing Li 0073 +3 more
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Tunnel FETs for low power electronics
2016 IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S), 2016We report on Tunnel Field-Effect Transistors for low power electronics. Thanks to their potential to reach sub-60mV/dec subthreshold slope, these devices are very attractive for use in circuits with sub-0.5V supply voltage. However, proper device design as well as material choice is not obvious and many implementations have shown larger slope than ...
Anne Vandooren +9 more
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Ultra low power electronics in the next decade
Proceedings of the 16th ACM/IEEE international symposium on Low power electronics and design, 2010We are seeing a shift in electronic technology from centralized and high-touch to ubiquitous and low-touch. Semiconductors are enabling intelligent systems to be developed that enable a more immersive environment expanding the role and applications of electronic technology.
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The Future of Low-Power Electronics
2015The number of integrated transistors has increased so rapidly that it has become evident that a further increase of the performance is limited by the power dissipation. The future IT and electronics, therefore, require more efficient power-reduction solutions.
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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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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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