Circuits, Devices, Energy, Photonics and RF/Microwave Engineering Books 2018
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This catalogue contains a selection of our most recent books published on Circuits, Devices, RF/Microwave, Energy and Photonics. Please visit our website for a full and searchable listing of all our titles in print. Cambridge University Press advances knowledge, learning and research worldwide.
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Circuits, Devices, RF/Microwave, Energy and Photonics Books 2018
1
Systematic Design of Analog CMOS Circuits
Understanding Jitter and Phase Noise
Using Pre-Computed Lookup Tables
A Circuits and Systems Perspective
Paul G. A. Jespers Université Catholique de Louvain, Belgium
Nicola Da Dalt Intel Corporation
Boris Murmann Stanford University, California
Ali Sheikholeslami University of Toronto
This hands-on guide contains a fresh approach to efficient and insight-driven integrated circuit design in nanoscale-CMOS. With downloadable MATLAB code and over forty detailed worked examples, this is essential reading for professional engineers, researchers, and graduate students in analog circuit design.
Covering everything from general theory and the impact on circuits and systems to statistics and numerical techniques, this is the definitive guide to jitter and phase noise. Intuitive yet rigorous in its approach, and supported by downloadable Matlab code, it is ideal for graduate students and practicing circuit design engineers.
Contents
Contents
1. Introduction; 2. Basic transistor modeling; 3. Basic sizing using the gm/ID methodology; 4. Noise, distortion, and mismatch; 5. Practical circuit examples I; 6. Practical circuit examples II
£75.00 | $94.99 | Hardback | 9781107192256 October 2017 | 253 x 179 x 20 mm | 209 b/w illus. 45 tables | 338pp
1. Introduction to jitter; 2. Basics of jitter; 3. Jitter and phase noise; 4. Jitter and phase noise in circuits; 5. Effects of jitter in synchronous digital circuits; 6. Effects of jitter on data converters; 7. Effects of jitter in wireline applications; 8. Phase noise in wireless applications; 9. Advanced concepts on jitter and phase noise; 10. Numerical methods; Appendix A. Review of random variables and processes; Appendix B. Matlab code for jitter generation and analysis
£74.99 | $99.99 | Hardback | 9781107188570 February 2018 | 247 x 174 mm | 155 b/w illus. 6 tables | 268pp
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2
Circuits, Devices, RF/Microwave, Energy and Photonics Books 2018
Nanowire Transistors Physics of Devices and Materials in One Dimension Jean-Pierre Colinge Taiwan Semiconductor Manufacturing Company Limited (TSMC) James C. Greer Tyndall National Institute, Ireland From quantum mechanical concepts to practical circuit applications, this book presents a selfcontained and up-to-date account of the physics and technology of nanowire semiconductor devices. This is an essential resource for researchers and professional engineers working on semiconductor devices and materials in both academia and industry. Contents
Preface; 1. Introduction; 2. Multigate and nanowire transistors; 3. Synthesis and fabrication of semiconductor nanowires; 4. Quantum mechanics in one-dimension; 5. Nanowire electronic structure; 6. Charge transport in quasi-1D nanostructures; 7. Nanowire transistor circuits; Index
ÂŁ54.99 | $84.99 | Hardback | 9781107052406 April 2016 | 257 x 173 x 17 mm | 131 b/w illus. 5 tables | 265pp
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Synchrotron Radiation and Free-Electron Lasers Principles of Coherent X-Ray Generation Kwang-Je Kim Argonne National Laboratory, Illinois Zhirong Huang SLAC National Accelerator Laboratory, California Ryan Lindberg Argonne National Laboratory, Illinois Understand the core principles of high-brightness X-ray generation from both synchrotron and freeelectron laser sources with this authoritative guide. Including the most recent theoretical developments and experimental results, it is a comprehensive resource for students and researchers interested in high-brightness X-ray physics and technology. Contents
1. Preliminary concepts; 2. Synchrotron radiation; 3. Basic FEL physics; 4. 1D FEL analysis; 5. 3D FEL analysis; 6. Harmonic generation in high-gain FELs; 7. FEL oscillators and coherent hard X-rays; 8. Practical considerations and experimental results for high-gain FELs
ÂŁ89.99 | $110.00 | Hardback | 9781107162617 March 2017 | 256 x 178 x 18 mm | 100 b/w illus. 2 tables | 298pp
Circuits, Devices, RF/Microwave, Energy and Photonics Books 2018
X-Rays and Extreme Ultraviolet Radiation
Photo-Electro-Thermal Theory for LED Systems
Principles and Applications
Basic Theory and Applications
2nd Edition
Ron Hui The University of Hong Kong
David Attwood University of California, Berkeley Anne Sakdinawat SLAC National Accelerator Laboratory Master the physics and understand the current applications of modern X-ray and EUV sources with this comprehensive yet mathematically accessible guide. This second edition includes entirely new material on free electron lasers, laser high harmonic generation, X-ray and EUV optics, nanoscale imaging, and femtosecond and attosecond techniques. Contents
1. Introduction; 2. Radiation and scattering at EUV and X-ray wavelengths; 3. Wave propagation and refractive index at X-ray and EUV wavelengths; 4. Coherence at short wavelengths; 5. Synchrotron radiation; 6. X-ray and EUV free electron lasers; 7. Laser high harmonic generation; 8. Physics of hot dense plasmas; 9. Extreme ultraviolet and soft X-ray lasers; 10. X-ray and extreme ultraviolet optics; 11. X-ray and EUV imaging
3
Linking together the nonlinear interactions of heat, light, power and colour, this is a groundbreaking guide to Light-Emitting Diode (LED) Systems Theory. It provides straightforward explanations, design guidelines, and discussion of advanced applications, making it the ideal guide for engineers in both academia and industry. Contents
1. Basics of light science and device modelling; 2. Steady-state photo-electro-thermal (PET) theory for LED systems; 3. Dynamic PET theory for LED systems; 4. Determination of PET model parameters and internal variables; 5. Unifying PET theory with colorimetry; 6.Chromatic, photometric, and thermal modeling of LED systems; 7. Precise dimming and colour control of LED systems; 8. Applications of PET theory
ÂŁ49.99 | $64.99 | Hardback | 9781107165984 September 2017 | 235 x 157 x 13 mm | 150pp
ÂŁ54.99 | $64.99 | Hardback: 9781107062894 February 2017 | 255 x 176 x 30 mm | 278 colour illus. 8 tables | 652pp
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4
Circuits, Devices, RF/Microwave, Energy and Photonics Books 2018
Nonlinear Circuit Simulation and for Modeling Fundamentals Microwave Design JOSÉ CARLOS PEDRO, DAVID E. ROOT, JIANJUN XU, AND LUÍS CÓTIMOS NUNES
THE CAMBRIDGE RF AND MICROWAVE ENGINEERING SERIES
Principles of Photonics Jia-Ming Liu University of California, Los Angeles A comprehensive introduction to the fundamental concepts and major principles of photonics. Including numerous examples and exercises, this text is ideal for undergraduates in electrical engineering and physics taking single-semester courses in photonics. It is also an essential reference for students in other engineering disciplines, and for professionals who wish to gain a strong foundation in the area. Contents
Preface; Partial list of symbols; 1. Basic concepts of optical fields; 2. Optical properties of materials; 3. Optical wave propagation; 4. Optical coupling; 5. Optical interference; 6. Optical resonance; 7. Optical absorption and emission; 8. Optical amplification; 9. Laser oscillation; 10. Optical modulation; 11. Photodetection; Appendix A: symbols and notations; Appendix B: SI metric system; Appendix C: fundamental physical constants; Appendix D: Fourier-transform relations; Index
Nonlinear Circuit Simulation and Modeling Fundamentals for Microwave Design José Carlos Pedro Universidade de Aveiro, Portugal David E. Root Keysight Technologies, Santa Rosa Jianjun Xu Keysight Technologies, Santa Rosa Luís Cótimos Nunes Universidade de Aveiro, Portugal The Cambridge RF and Microwave Engineering Series
£59.99 | $99.99 | Hardback | 9781107164284
This practical, tutorial guide covers the theory and tools needed to design real-world microwave circuits. Covering everything from the basic properties of nonlinear systems to state-of-the-art circuit simulators and device models, it is a valuable resource for professionals and graduate students in microwave and RF engineering.
November 2016 | 254 x 195 x 27 mm | 117 b/w illus. | 446pp
Contents
1. Linear and nonlinear circuits; 2. Basic nonlinear microwave circuit analysis techniques; 3. Linear behavioral models in the frequency domain: S-parameters; 4. Nonlinear frequency domain behavioral models; 5. Linear device modeling; 6. Nonlinear device modeling; 7. Nonlinear microwave CAD tools in a power amplifier design example.
£74.99 | $99.99 | Hardback | 9781107140592 June 2018 | 247 x 174 mm | 222 b/w illus. 5 tables | 372pp
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Circuits, Devices, RF/Microwave, Energy and Photonics Books 2018
Microwave and RF Vacuum Electronic Power Sources Richard G. Carter Lancaster University The Cambridge RF and Microwave Engineering Series
An authoritative treatment of the theory and design of vacuum electron devices, based on the authorís 50 years of experience in the field. Mathematically accessible, and supported online by Mathcad worksheets, it is ideal for researchers, practitioners and graduate students working on vacuum electron devices or the systems employing them. Contents
1. Overview; 2. Waveguides; 3. Resonators; 4. Slow-wave structures; 5. Thermionic diodes; 6. Triodes and tetrodes; 7. Linear electron beams; 8. Electron flow in crossed fields; 9. Electron guns; 10. Electron collectors and cooling; 11. Beamwave interaction; 12. Gridded tubes; 13. Klystrons; 14. Travellingwave tubes; 15. Magnetrons; 16. Crossed-field amplifiers; 17. Fast-wave devices; 18. Emission and breakdown phenomena; 19. Magnets; 20. System integration; Appendix.
5
Microwave Electronics Giovanni Ghione Politecnico di Torino Marco Pirola Politecnico di Torino The Cambridge RF and Microwave Engineering Series
A self-contained guide to microwave electronics, covering passive and active components, linear, low-noise and power amplifiers, microwave measurements, and CAD techniques. It is the ideal text for graduate and senior undergraduate students taking courses in microwave and radiofrequency electronics, as well as professional microwave engineers. Contents
1. A system introduction to microwave electronics; 2. Passive elements and circuit layout; 3. CAD techniques; 4. Directional couplers and power dividers; 5. Active RF and microwave semiconductor devices; 6. Microwave linear amplifiers; 7. Low-noise amplifier design; 8. Power amplifiers; 9. Microwave measurements; 10. Computer-Aided Design (CAD) projects
£140.00 | $195.00 | Hardback | 9780521198622
£59.99 | $74.99 | Hardback | 9781107170278
March 2018 | 247 x 174 mm | 457 b/w illus. 55 tables | 838pp
November 2017 | 253 x 178 x 30 mm | 384 b/w illus. 18 tables | 596pp
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6
Circuits, Devices, RF/Microwave, Energy and Photonics Books 2018
Medical and Biological Microwave Sensors and Systems
Measurement Techniques for Radio Frequency Nanoelectronics
Isar Mostafanezhad University of Hawaii, Manoa
T. Mitch Wallis National Institute of Standards and Technology, Boulder
Olga Boric-Lubecke University of Hawaii, Manoa Jenshan Lin University of Florida The Cambridge RF and Microwave Engineering Series
Pavel Kabos National Institute of Standards and Technology, Boulder The Cambridge RF and Microwave Engineering Series
A comprehensive overview of recent advances in state-of-the-art medical and biological microwave sensors and systems. The book covers theory, design, and implementation, as well as details of experimental results, and is ideal for researchers and industry practitioners in the fields of electrical engineering, biomedical engineering, and medical physics.
Understand the fundamentals of radio frequency measurement of nanoscale devices with this practical, cross-disciplinary guide. Featuring numerous examples linking theoretical concepts with real-world applications, it is the ideal resource for researchers in both academia and industry new to the field of radio frequency nanoelectronics.
Contents
1. An introduction to radio frequency nanoelectronics; 2. Core concepts of microwave and RF measurements; 3. Extremeimpedance measurements; 4. On-wafer measurements of RF nanoelectronic devices; 5. Modeling and validation of RF nanoelectronic devices; 6. Characterization of nanofiber devices; 7. Instrumentation for near-field scanning microwave microscopy; 8. Probe-based measurement systems; 9. Radio frequency scanning probe measurements of materials; 10. Measurement of active nanoelectronic devices; 11. Dopant profiling in semiconductor nanoelectronics; 12. Depth profiling; 13. Dynamics of nanoscale magnetic systems; 14. Nanoscale electromagnetic measurements for life science applications
1. Implantable wireless medical devices for gastroesophagus applications J. C. Chiao and Smitha Rao; 2. Embedded microwaves sensors for intracranial pressure monitoring Usmah Kawoos, Mohammad-Reza Tofighi, Francis Kralick, Xu Meng and Arye Rosen; 3. Wireless intracranial pressure system for the assessment of traumatic brain injury Xu Meng, Kevin Browne, D. Kacy Cullen, Mohammad-Reza Tofighi, Usmah Kawoos and Arye Rosen; 4. Microwave biosensors for non-invasive molecular and cellular investigations Katia Grenier and David Dubuc; 5. Wearable radar tag systems for physiological monitoring Victor Lubecke and Aditya Singh; 6. Physiological radar sensor chip development Changzhi Li and Changzhan Gu; 7. Noise and interference reduction methods for microwave doppler radar vital signs monitors Isar Mostafanezhad, Olga Boric-Lubecke, Danilo Mandic and Ehsan Yavari; 8. Biomedical applications of UWB technology Aly Fathy and Yazhou Wang
ÂŁ95.00 | $120.00 | Hardback | 9781107056602 December 2017 | 253 x 177 x 18 mm | 205 b/w illus. 19 tables | 284pp
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Contents
ÂŁ94.99 | $120.00 | Hardback | 9781107120686 September 2017 | 253 x 178 x 18 mm | 102 b/w illus. 4 tables | 328pp
Circuits, Devices, RF/Microwave, Energy and Photonics Books 2018
Introduction to Microwave Imaging Natalia K. Nikolova McMaster University, Ontario EuMA High Frequency Technologies Series
A self-contained, introductory text covering the fundamentals of microwave and radar image generation. Including application examples and practical exercises, and accompanied online by sample MATLAB codes and color figures, this is an ideal resource for graduate students, researchers and professionals starting out in the field of microwave imaging. Contents
1. Scalar wave models in electromagnetic scattering; 2. Electromagnetic scattering: the vector model; 3. Scattering parameters in microwave imaging; 4. Linear inversion in real space; 5. Linear inversion in Fourier space; 6. Performance metrics in imaging; 7. Looking forward: nonlinear reconstruction; Appendix A. Maxwell’s equations; Appendix B. The electromagnetic vector wave and Helmholtz equations; Appendix C. Scalarized electromagnetic models; Appendix D. Causal, acausal and adjoint solutions to the wave equation; Index
£79.99 | $99.99 | Hardback | 9781107085565 July 2017 | 255 x 180 x 20 mm | 362pp
7
Microgrids and other Local Area Power and Energy Systems Alexis Kwasinski University of Texas, Austin Wayne Weaver Michigan Technological University Robert S. Balog Texas A & M University Covering all aspects of microgrid design, including formation, integration, planning, composition and operation, this self-contained resource is ideal for graduate students and professionals in electrical, mechanical and chemical engineering and materials science. Contents
Part I. Motivation:; 1. Introduction; 2. Component reliability and system availability; 3. Economics. Part II. Technologies: 4. Power electronic interfaces; 5. Power generation sources; 6. Energy storage; Part III. Integration:; 7. System architecture; 8. Operation and control; 9. Grid interaction; 10. Applications; 11. Appendix.
£69.99 | $99.99 | Hardback | 9781107012790 July 2016 | 253 x 180 x 23 mm | 361 b/w illus. 11 tables | 450pp
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8
Circuits, Devices, RF/Microwave, Energy and Photonics Books 2018
Renewable Energy Engineering Nicholas Jenkins Cardiff University Janaka Ekanayake University of Peradeniya, Sri Lanka TEXTBOOK
This book provides a quantitative yet accessible overview of renewable energy engineering practice including wind, hydro, solar thermal, photovoltaic, ocean and bioenergy. Suitable for engineering undergraduates as well as graduate students from other numerate degrees, the text is supported by worked examples, tutorial chapters providing background material and end-of-chapter problems. Contents
1. Energy in the modern world; 2. Wind energy; 3. Hydro power; 4. The solar energy resource; 5. Photovoltaic systems; 6. Solar thermal energy; 7. Marine energy; 8. Bioenergy; 9. Development and appraisal of renewable energy projects; 10. Electrical energy systems; Tutorial I. Electrical engineering; Tutorial II. Heat transfer; Tutorial III. Simple behaviour of fluids
£85.00 | $105.00 | Hardback | 9781107028487 £42.99 | $54.99 | Paperback | 9781107680227 April 2017 | 253 x 195 x 25 mm | 231 b/w illus. 43 colour illus. 54 tables | 460pp
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Get Funded An Insider’s Guide to Building An Academic Research Program Robert J. Trew North Carolina State University Learn the key principles involved in building an externally funded research program and understand the intricacies of the funding process with this practical guide. Including step-by-step advice on how to build successful relationships with program managers, it is ideal for new faculty members in engineering, the sciences and mathematics. Contents
1. Introduction; 2. A brief history of research funding in the United States; 3. The academic recruitment process: position announcement through performance reviews; 4. Getting started and marketing your research; 5. Know where the money is; 6. Making contact and communicating with program managers and program directors; 7. The proposal; 8. Cautions and other concerns; 9. You’re on your way
£25.99 | $32.99 | Paperback | 9781107657199 April 2017 | 235 x 157 x 21 mm | 290pp
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