As device dimensions decrease, hot-carrier effects, which are due mainly to the presence of a high electric field inside the device, are becoming a major design concern. On the one hand, the detrimental effects-such as transconductance degradation and threshold shift-need to be minimized or, if possible, avoided altogether. On the other hand, performance- such as the programming efficiency of nonvolatile memories or the carrier velocity inside the devices-need to be maintained or improved through the use of submicron technologies, even in the presence of a reduced power supply. As a result, one of the major challenges facing MOS design engineers today is to harness the hot-carrier effects so that, without sacrificing product performance, degradation can be kept to a minimum and a reli- able design obtained. To accomplish this, the physical mechanisms re- sponsible for the degradations should first be experimentally identified and characterized. With adequate models thus obtained, steps can be taken to optimize the design, so that an adequate level of quality assur- ance in device or circuit performance can be achieved. This book ad- dresses these hot-carrier design issues for MOS devices and circuits, and is used primarily as a professional guide for process development engi- neers, device engineers, and circuit designers who are interested in the latest developments in hot-carrier degradation modeling and hot-carrier reliability design techniques. It may also be considered as a reference book for graduate students who have some research interests in this excit- ing, yet sometime controversial, field.
Cheng Wang
Hot Carrier Design Considerations for MOS Devices and Circuits [PDF ebook]
Hot Carrier Design Considerations for MOS Devices and Circuits [PDF ebook]
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Bahasa Inggris ● Format PDF ● ISBN 9781468485479 ● Editor Cheng Wang ● Penerbit Springer US ● Diterbitkan 2012 ● Diunduh 3 kali ● Mata uang EUR ● ID 4680870 ● Perlindungan salinan Adobe DRM
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