Low-Frequency Noise In Advanced Mos Devices - nouveau livre

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Page de détail modifiée en dernier sur 2023-03-30T17:45:47+02:00 (Zurich)
ISBN/EAN: 9781402059100

ISBN - Autres types d'écriture:
1-4020-5910-8, 978-1-4020-5910-0
Autres types d'écriture et termes associés:
Auteur du livre: östling, haart, von martin, springer martin
Titre du livre: signal, noise, frequency

Données de l'éditeur

Auteur: Martin Haartman; Mikael Östling
Titre: Analog Circuits and Signal Processing; Low-Frequency Noise in Advanced MOS Devices
Editeur: Springer; Springer Netherland
216 Pages
Date de parution: 2007-08-23
Dordrecht; NL
Langue: Anglais
149,79 € (DE)
154,00 € (AT)
165,50 CHF (CH)
Available
XVI, 216 p.

EA; E107; eBook; Nonbooks, PBS / Technik/Elektronik, Elektrotechnik, Nachrichtentechnik; Elektronik; Verstehen; 1/f noise; CMOS; CMOS technology; Leistungsfeldeffekttransistor; MOSFETs; Transistor; analog circuits; field-effect transistor; flicker noise; low-frequency noise; metal oxide semiconductur field-effect transistor; C; Electronics and Microelectronics, Instrumentation; Electronic Circuits and Systems; Acoustics; Technology and Engineering; Microwaves, RF Engineering and Optical Communications; Engineering; Schaltkreise und Komponenten (Bauteile); Wellenmechanik (Vibration und Akustik); Ingenieurswesen, Maschinenbau allgemein; BB

begins with an introduction to noise, describing the fundamental noise sources and basic circuit analysis. The characterization of low-frequency noise is discussed in detail and useful practical advice is given. The various theoretical and compact low-frequency (1/f) noise models in MOS transistors are treated extensively providing an in-depth understanding of the low-frequency noise mechanisms and the potential sources of the noise in MOS transistors. Advanced CMOS technology including nanometer scaled devices, strained Si, SiGe, SOI, high-k gate dielectrics, multiple gates and metal gates are discussed from a low-frequency noise point of view. Some of the most recent publications and conference presentations are included in order to give the very latest view on the topics. The book ends with an introduction to noise in analog/RF circuits and describes how the low-frequency noise can affect these circuits.

Solutions to problems. Index.

The Book will be based on the following work which also is the publication list for Dr Martin von Haartman; Ph. D. Thesis: Low-frequency noise characterization, evaluation and modeling of advanced Si- and SiGe-based CMOS transistors, xx, 124 pages, 9 appended papers, Stockholm, April 2006. http://www.diva-portal.org/kth/theses/abstract.xsql?dbid=3888

Journals:

gate dielectrics", Solid-State Electronics, vol. 48, pp. 2271-2275, 2004.

D. Wu, M. von Haartman, J. Seger, E. Tois, M. Tuominen, P.-E. Hellström, M. Östling, S.-L. Zhang, "Ni-salicided CMOS with a poly-SiGe/Al2O3/HfO2/Al2O3 gate stack", Microelectron Eng., vol. 77, pp. 36-41, 2005.

gate dielectrics", Solid-State Electronics, vol. 49, pp. 907-914, 2005.

J. Seger, P.-E. Hellström, J. Lu, B. G. Malm, M. von Haartman, M. Östling, and S.-L. Zhang, "Lateral enroachment of Ni-silicide in the source/drain regions on ultra-thin silicon-on-insulator", Appl. Phys. Lett., vol. 86, 253507, 2005.

source/drain junctions", Mat. Sci. Sem. Proc., vol. 8, pp. 359-362, 2005.

M. von Haartman, B. G. Malm, and M. Östling, "A comprehensive study on Low-frequency noise and mobility in Si and SiGe pMOSFETs with high-k gate dielectrics and TiN gate", IEEE Trans. Electron Devices, vol. 53, pp. 836-843,April 2006.

J. Hållstedt, M. von Haartman, P.-E. Hellström, M. Östling, and H. H. Radamson, "Hole mobility in ultra thin body SOI pMOSFETs with buried SiGe or SiGeC channels", accepted for publication in IEEE Electron Device Letters.

International conferences:

Int. Conf. Noise and Fluctuations (ICNF), 2005, pp. 307-310.

Int. Conf. Noise and Fluctuations (ICNF), 2005, pp. 225-230. (Invited oral presentation)

Dr von Haartman also received the following honours: 2001, Gunnar Wallquist Study Medal given to the best KTH graduate each year.  2001, Best graduate of the year by the School of Electrical Engineering, KTH. 2004, IEEE Electron Devices Society Graduate Student Fellowship

CV for Mikael Östling: He has been with the faculty of EE of KTH, Royal Institute of Technology in Stockholm, Sweden since 1984 where he holds a position as professor in solid state electronics. Since 2001 he is head of the department of microelectronics and information technology. In December 2004 he was appointed Dean, School of Information and Communication Technology, KTH.

He was a senior visiting Fulbright Scholar 1993-94 with the center for integrated systems at Stanford University, and a visiting professor with the University of Florida, Gainesville. He initiated and was appointed program director by the Swedish Foundation for Strategic Research for a silicon nanoelectronics national program 2000-2007. His research interests are silicon/silicon germanium devices and process technology for very high frequency, as well as devicetechnology for wide bandgap semiconductors with special emphasis on silicon carbide and nitride based structures. He has supervised 20 PhD theses work, and been the author of 8 book chapters and about 300 scientific papers published in international journals and conferences. He is an editor of the IEEE Electron Device Letters and a fellow of the IEEE.

begins with an introduction to noise, describing the fundamental noise sources and basic circuit analysis. The characterization of low-frequency noise is discussed in detail and useful practical advice is given. The various theoretical and compact low-frequency (1/f) noise models in MOS transistors are treated extensively providing an in-depth understanding of the low-frequency noise mechanisms and the potential sources of the noise in MOS transistors. Advanced CMOS technology including nanometer scaled devices, strained Si, SiGe, SOI, high-k gate dielectrics, multiple gates and metal gates are discussed from a low-frequency noise point of view. Some of the most recent publications and conference presentations are included in order to give the very latest view on the topics. The book ends with an introduction to noise in analog/RF circuits and describes how the low-frequency noise can affect these circuits.