Circuits, Devices and RF/Microwave Engineering Books 2015 by Cambridge University Press

Circuits, Devices, and RF/Microwave Engineering Books 2015

www.cambridge.org/engineering

Circuits 3 Devices 7 RF/Microwave Engineering

Also of Interest

Information on related journals

This catalogue contains a selection of our most recent publishing in Circuits, Devices, and RF/Microwave Engineering Please visit our website for a full and searchable listing of all our titles in print and also an extensive range of news, features, and resources. Our online ordering service is secure and easy to use.

Inside back cover

Useful contacts If you are interested in publishing your book with Cambridge please contact Julie Lancashire jlancashire@cambridge.org Further information about Circuits, Devices, and RF/Microwave Engineering titles: Rituleen Dhingra rdhingra@cambridge.org All other enquiries: telephone +44 1223 312393 or 1.800.872.7423 or email information@cambridge.org

Cambridge University Press advances knowledge, learning and research worldwide.

Prices and publication dates are correct at the time of going to press but are subject to alteration without notice.

Order online now at www.cambridge.org/engineering General enquiries: +44 1223 326050 When purchasing, please quote the product ISBNs. For information about our privacy and data protection policy, please visit www.cambridge.org/privacy or email mlist@cambridge.org

Circuits Textbook

Radio Frequency Integrated Circuits and Systems Hooman Darabi

Broadcom Corporation

This book provides in-depth coverage of the core topics together with cuttingedge developments and practical applications to prepare students for radio frequency (RF) design in industry. Detailed mathematical analyses are included, and theory is linked to practice through real-world application examples. Lecture slides and a solutions manual for instructors are provided online.

3 Advance praise: ‘[An] excellent textbook for students keenly interested to learn how to design IC transceivers. [Contains] lots of focused and relevant fundamental background from a viewpoint of the well-known industrial researcher. The book is also good as a convenient refresher for seasoned IC designers.’ Bogdan Staszewski, Delft University of Technology 2015 246 x 189 mm 528pp 542 b/w illus. 6 tables 166 exercises 978-0-521-19079-4 Hardback £49.99 / US$95.00 Publication April 2015 For all formats available, see

www.cambridge.org/9780521190794

Contents: 1. RF components; 2. RF signals and systems; 3. RF two-ports; 4. Noise; 5. Distortion; 6. Low-noise amplifiers; 7. Mixers; 8. Oscillators; 9. Power amplifiers; 10. Transceiver architectures. Advance praise: ‘Hooman Darabi has been at the forefront of the development of state-of-the-art CMOS wireless transceivers on a chip, many of which enable today’s mobile devices. He has selected what he considers are the fundamental concepts that underlie the circuits used in these wireless transceivers, and his perspective, drawn from the front lines of competitive product development, sets this book apart from others on the subject. In developing these concepts from first principles, this is much more than a cookbook or a compilation of case studies. It should be of high interest to practicing engineers and students alike.’ Asad Abidi, University of California, Los Angeles

eBooks available at www.cambridge.org/ebookstore

Circuits Highlight New Edition

The Art of Electronics Third edition Paul Horowitz

Harvard University, Massachusetts

and Winfield Hill Rowland Institute of Science, Harvard University, Massachusetts

At long last, here is the thoroughly revised and updated, and longanticipated, third edition of the hugely successful The Art of Electronics. Widely accepted as the best single authoritative text on electronic circuit design, it will be an indispensable reference and the gold standard for anyone in the field. Contents: 1. Foundations; 2. Bipolar transistors; 3. Field effect transistors; 4. Operational amplifiers; 5. Precision circuits; 6. Filters; 7. Oscillators and timers; 8. Low noise techniques and transimpedance; 9. Power regulation; 10. Digital electronics; 11. Programmable logic devices; 12. Logical interfacing; 13. Digital meets analog; 14. Computers, controllers, and data links; 15. Microcontrollers. Advance praise: ‘Who among us has not kept a cherished copy of AoE on our workbench throughout our careers? Engineers, hackers and makers of all stripes, rejoice for the third edition … has been worth the wait! Packed with tons of delicious knowledge to navigate electronics in both work and hobby. An encyclopedia of electronics knowledge, [The Art of Electronics] is a pleasure to read through for tips and tricks and is an unbeatable resource! Take a day out to read a chapter – you will learn things you didn’t even know you didn’t know. Or, refer to the pinouts, diagrams, and techniques

as necessary to guide you through a difficult project. If you think electrical engineering is magical then you must pick up this tome!’ Limor ‘Ladyada’ Fried, Adafruit Industries

Advance praise: ‘First of all, after I forklifted [Chapter 5] onto my reading table, I sat down and read it. It is simply spectacular. That may be overly exclamatory language but it is the only appropriate verbiage I can summon. Spectacular, deep and wide. I especially like the comments about interpreting specifications and the deconstruction of the Agilent voltmeters is just, well, wonderful.’ Jim Williams, Linear Technology Corp 2015 253 x 203 mm 1224pp 1470 b/w illus. 78 tables 978-0-521-80926-9 Hardback £59.99 / US$120.00 Publication April 2015 For all formats available, see

www.cambridge.org/9780521809269

Circuits

The MOS System Olof Engström

Chalmers University of Technology, Gothenberg

A detailed, up-to-date guide to modern MOS structures, describing key tools, cutting-edge models, novel phenomena and challenges for future development. Abstract concepts are supported by practical examples and presented alongside recent theoretical and experimental results. An ideal companion for researchers, graduate students and industrial development engineers. Contents: 1. Introduction; 2. Basic properties of the MOS system; 3. Basic properties of the gate stack; 4. Electron states at MOS interfaces; 5. Carrier capture at bulk oxide traps; 6. Electrical characterization by Fermi-probe technique; 7. Electrical characterization by thermal action; 8. Characterization of oxide/ silicon energy band alignment: internal photoemission and x-ray photoelectron spectroscopy; 9. Electron spin resonance; 10. MOS systems with silicon dioxide dielectrics; 11. MOS systems with high-k dielectrics; 12. Gate metals and effective work function; 13. Transmission probabilities and current leakage in gate oxides; 14. MOS systems on high-mobility channel materials.

Digitally-Assisted Analog and AnalogAssisted Digital IC Design Edited by Xicheng Jiang Broadcom, Irvine

Discover cutting-edge techniques for next-generation integrated circuit design, and deliver enhanced circuit performance in terms of speed, density, power, and cost. Written by leading experts in the field, this is an ideal resource for practicing engineers, graduate students, and researchers working in circuit design. Contents: 1. CMOS technology scaling and its implications; 2. FinFETs: from devices to architectures; 3. FDSOI technology and its implications to analog and digital design; 4. Challenges and emerging trend of DSP enabled frequency synthesizer; 5. Digitallyassisted design of data converters; 6. CMOS self-healing techniques for calibration and optimization of mm-wave transceivers; 7. Analog-assisted digital design in mobile SoCs; 8. Digitally-assisted RF design techniques; 9. Digital controller for switching power.

2014 247 x 174 mm 364pp 214 b/w illus. 978-1-107-00593-8 Hardback £70.00 / US$110.00

2015 247 x 174 mm 440pp 327 b/w illus. 30 tables 978-1-107-09610-3 Hardback c. £59.99 / c. US$90.00

For all formats available, see

Publication July 2015

www.cambridge.org/9781107005938

For all formats available, see

www.cambridge.org/9781107096103

For regular email alerts visit www.cambridge.org/alerts

Circuits Textbook

Digital Design

A Systems Approach William J. Dally Stanford University, California

and R. Curtis Harting Stanford University, California

Provides students with a system-level perspective and the tools they need to understand, analyze and design complete digital systems using Verilog. It goes beyond the design of simple combinational and sequential modules to show how such modules are used to build complete systems, reflecting digital design in the real world. Contents: Part I. Introduction: 1. The digital abstraction; 2. The practice of digital system design; Part II. Combinational Logic: 3. Boolean algebra; 4. CMOS logic circuits; 5. Delay and power of CMOS circuits; 6. Combinational logic design; 7. Verilog descriptions of combinational logic; 8. Combinational building blocks; 9. Combinational examples; Part III. Arithmetic Circuits: 10. Arithmetic circuits; 11. Fixed- and floating-point numbers; 12. Fast arithmetic circuits; 13. Arithmetic examples; Part IV. Synchronous Sequential Logic: 14. Sequential logic; 15. Timing constraints; 16. Datapath sequential logic; 17. Factoring finite-state machines; 18. Microcode; 19. Sequential examples; Part V. Practical Design: 20. Verification and test; Part VI. System Design: 21. System-level design; 22. Interface and system-level timing; 23. Pipelines; 24. Interconnect; 25. Memory systems; Part VII. Asynchronous Logic: 26. Asynchronous sequential circuits;

27. Flip-flops; 28. Metastability and synchronization failure; 29. Synchronizer design; Appendix A. Verilog coding style; References; Index of Verilog modules; Subject index. ‘This textbook sets a new standard for how digital system design is taught to undergraduates. The practical approach and concrete examples provides a solid foundation for anyone who wants to understand or design modern complex digital systems.’ Steve Keckler, The University of Texas at Austin

‘Dally and Harting blend circuit and architecture design in a clear and constructive manner on the basis of their exceptional experience in digital design. Students will discover a modern and effective way to understand the fundamental underpinning of digital design, by being exposed to the different abstraction levels and views of computing systems.’ Giovanni De Micheli, École Polytechnique Fédérale de Lausanne 2012 246 x 189 mm 634pp 469 b/w illus. 68 tables 639 exercises 978-0-521-19950-6 Hardback £49.99 / US$150.00 For all formats available, see

www.cambridge.org/9780521199506

Devices CMOS and Beyond

Logic Switches for Terascale Integrated Circuits Edited by Tsu-Jae King Liu University of California, Berkeley

and Kelin Kuhn

Fundamentals of Ultra-Thin-Body MOSFETs and FinFETs Jerry G. Fossum University of Florida

Cornell University, New York

and Vishal P. Trivedi

Learn how to overcome existing logic switch design challenges with this indepth, accessible, tutorial-style overview of the most promising successors to modern CMOS technology, written by leading researchers from industry and academia. Essential reading for academic researchers, professional engineers, and graduate students within the semiconductor community.

Understand the theory, design and applications of FD/SOI MOSFETs and 3-D FinFETs with this concise and clear guide to FD/UTB transistors. Topics covered include short-channel effects, quantummechanical effects, applications of UTB devices to floating-body DRAM and conventional SRAM, and nanoscale UTB CMOS performances.

Contents: 1. Energy-efficiency limits of digital circuits based on CMOS transistors; 2. Beyond transistor scaling: alternative device structures for the terascale regime; 3. Benchmarking alternative device structures for the terascale regime; 4. Extending CMOS with negative capacitance; 5. Designing a low voltage, high current tunneling transistor; 6. Tunnel transistors; 7. Graphene and 2D crystal tunnel transistors; 8. Bilayer pseudospin field effect transistor; 9. Computation and learning with metal-insulator transitions and emergent phases in correlated oxides; 10. The piezo-electronic transistor; 11. Mechanical switches; 12. Nanomagnetic logic: from magnetic ordering to magnetic computing; 13. Spin torque majority gate logic; 14. Spin wave phase logic; 15. Interconnect considerations.

Freescale Semiconductor, Arizona

Contents: Preface; List of physical constants; List of symbols; 1. Introduction; 2. Unique features of UTB MOSFETs; 3. Planar fully depleted SOI MOSFETs; 4. FinFETs; Appendix: UFDG; References; Index. 2013 234 x 156 mm 226pp 129 b/w illus. 15 tables 54 exercises 978-1-107-03041-1 Hardback £50.00 / US$80.00 For all formats available, see

www.cambridge.org/9781107030411

2015 247 x 174 mm 436pp 250 b/w illus. 978-1-107-04318-3 Hardback £75.00 / US$120.00 For all formats available, see

www.cambridge.org/9781107043183

Visit our website at www.cambridge.org/engineering

Devices

Silicon Photonics Design From Devices to Systems Lukas Chrostowski

University of British Columbia, Vancouver

and Michael Hochberg Coriant Advanced Technology Group

From design and simulation through to testing and fabrication, this handson introduction to silicon photonics engineering equips students with everything they need to begin creating foundry-ready designs. The text offers step-by-step tutorials, straightforward examples, illustrative source code fragments, and in-depth discussion of real-world issues and fabrication challenges, while additional resources are provided online. Contents: Part I. Silicon Photonics – Introduction: 1. Fabless Silicon Photonics: 1.1 Introduction; 1.2 Silicon photonics – the next fabless semiconductor industry; 1.3 Applications; 1.4 Technical challenges and the state of the art; 1.5 Opportunities; 2. Modelling and Design Approaches: 2.1 Optical Waveguide Mode Solver; 2.2 Wave Propagation; 2.3 Optoelectronic models; 2.4 Microwave Modelling; 2.5 Thermal Modelling; 2.6 Photonic Circuit Modelling; 2.7 Physical Layout; 2.8 Software Tools Integration; Part II. Silicon Photonics – Active Components: 3. Optical Materials and Waveguides: 3.1 Silicon-on-Insulator; 3.2 Waveguides; 3.3 Bent waveguides; 3.4 Code Listings; 3.5 Problems; 4. Fundamental Building Blocks: 4.1 Directional couplers; 4.2 Y-Branch; 4.3 Mach-Zehnder Interferometer; 4.4 Ring resonators; 4.5 Waveguide Bragg Grating Filters; 4.6 Code Listings; 4.7 Problems; 5. Optical I/O: 5.1 The challenge of optical coupling to silicon photonic chips; 5.2 Grating Coupler; 5.3 Edge Coupler; 5.4 Polarization; 5.5 Code Listings; 5.6 Problems; Part III. Silicon Photonics – Active Components: 6. Modulators: 6.1 Plasma Dispersion E; 6.2 PN Junction Phase

Shifter; 6.3 Micro-ring Modulators; 6.4 Forward-biased PIN Junction; 6.5 Active Tuning; 6.6 Thermo-Optic Switch; 6.7 Code Listings; 6.8 Problems; 7. Detectors: 7.1 Performance Parameters; 7.2 Fabrication; 7.3 Types of detectors; 7.4 Design Considerations; 7.5 Detector modelling; 7.5.2 Electronic Simulations; 7.6 Code Listings; 7.7 Problems; 8. Lasers: 8.1 External Lasers; 8.2 Laser Modelling; 8.3 Co-Packaging; 8.4 Hybrid Silicon Lasers; 8.5 Monolithic Lasers; 8.6 Alternative Light Sources; 8.7 Problems; Part IV. Silicon Photonics – System Design: 9. Photonic Circuit Modelling: 9.1 Need for photonic circuit modelling; 9.2 Components for System Design; 9.3 Compact Models; 9.4 Directional Coupler – Compact Model; 9.5 Ring Modulator – Circuit Model; 9.6 Grating Coupler – S Parameters; 9.7 Code Listings; 10. Tools and Techniques: 10.1 Process Design Kit (PDK); 10.2 Mask Layout; 11. Fabrication: 11.1 Fabrication Non-Uniformity; 11.2 Problems; 12. Testing and Packaging: 12.1 Electrical and Optical Interfacing; 12.2 Automated Optical Probe Stations; 12.3 Design for Test; 13. Silicon Photonic System Example: 13.1 Wavelength Division Multiplexed Transmitter. 2015 247 x 174 mm 437pp 250 colour illus. 978-1-107-08545-9 Hardback £65.00 / US$110.00 For all formats available, see

www.cambridge.org/9781107085459

Devices

Plasmonic Nanoelectronics and Sensing

Principles of Optics for Engineers

A*STAR Institute of High Performance Computing, Singapore

University of California, San Diego

Er-Ping Li

and Hong-Son Chu A*STAR Institute of High Performance Computing, Singapore

Covering plasmonic technology from fundamental theory and numerical methods to real fabricated components and devices for nanophotonics, nanoelectronic and sensing applications. Ideal for researchers, engineers and graduate students in the fields of nanophotonics and nanoelectronics as well as optical biosensing. Contents: 1. Fundamentals of plasmonics; 2. Plasmonic properties of metal nanostructures; 3. Frequency domain methods for modeling plasmonics; 4. Time domain simulation for plasmonic devices; 5. Passive plasmonic waveguidebased devices; 6. Silicon-based active plasmonic devices for on-chip integration; 7. Plasmonics for sensing applications. EuMA High Frequency Technologies Series

2014 247 x 174 mm 262pp 170 b/w illus. 10 tables 978-1-107-02702-2 Hardback £80.00 / US$125.00

Diffraction and Modal Analysis William S. C. Chang

Uniting classical and modern photonics approaches to optics by presenting optical analyses as solutions of Maxwell’s equations, this unique book enables students and practitioners to fully understand the interplay between the different methods. Diffraction and modal analysis are covered and applied to imaging, spectral analysis, signal processing, and optoelectronic devices. Contents: Introduction; 1. Optical plane waves in unbounded medium; 2. Superposition of plane waves and applications; 3. Scalar wave equation and diffraction of optical radiation; 4. Optical resonators and Gaussian beams; 5. Optical waveguides and fibers; 6. Guided wave interactions; 7. Passive guided wave devices; 8. Active optoelectronic guided wave components; Appendix. 2015 247 x 174 mm 240pp 61 b/w illus. 1 table 978-1-107-07490-3 Hardback £75.00 / US$125.00 Publication May 2015 For all formats available, see

www.cambridge.org/9781107074903

For all formats available, see

www.cambridge.org/97811070270

eBooks available at www.cambridge.org/ebookstore

Devices

Handbook of Bioelectronics

Directly Interfacing Electronics and Biological Systems Edited by Sandro Carrara École Polytechnique Fédérale de Lausanne

and Krzysztof Iniewski Redlen Technologies Inc.

A wide-ranging view of the state of the art in modern bioelectronics, with real-world examples, step-by-step design details, and hints and tips from the pioneers themselves. All aspects of modern bioelectronics are covered, providing an authoritative summary of the field and a perfect foundation for future developments in distributed diagnostic devices. Contents: 1. What is bioelectronics?; Part I. Electronic Components: 2. Molecular components for electronics; 3. Nanogaps based devices; 4. Organic thin-film transistors for biological applications; 5. Protein-based transistors; 6. Single molecule bioelectronics; 7. Biomemory device composed of recombinant protein variants; Part II. Biosensors: 8. Biosensors; 9. CNT and proteins for biosensors in personalized therapy; 10. CMOS nanowire biosensing systems; 11. Cell-array biosensors; 12. Pulse radar sensor for contactless respiratory rate monitoring; 13. MagCMOS; 14. Metamorphic neural interfaces with insects for remote controlled biobots; Part III. Fuel Cells: 15. Biological fuel cells; 16. Advances and applications of biofuel cells; 17. Switchable electrodes and biofuel cells logically controlled by chemical and biochemical signals; Part IV. Biomimetic Systems: 18. Biomimetic systems; 19. Epidermial electronics: flexible electronics for biomedical applications; 20. Bioelectronics brain using memristive polymer statistical systems; 21. Electronic design of synthetic genetic networks;

Part V. Bionics: 22. Bionics; 23. Bioelectronics interfaces for artificially driven human movements; 24. The bionic eye: a review of multi-electrode arrays; 25. CMOS technologies for retinal prosthesis; 26. Restoration of sight with photovoltaic retinal prosthesis; Part VI. Brain Interfaces: 27. Brain-machine interfaces; 28. ECG technology for the brain-machine interface; 29. Reducing the implant footprint: low-area neural recording; 30. High dimensional brain machine interface; 31. Miniaturized implantable UWB antennas optimized for wireless brain machine interfaces; 32. Intracranial epilepsy monitoring using a wireless neural recording system; 33. Low power building blocks for neural recording systems; 34. CMOS circuits for intracells brain-machine interfaces; Part VII. Labon-a-Chip: 35. Lab-on-a-chip; 36. CMOS spectrally-multiplexed FRET contact imaging microsystem for DNA analysis; 37. CMOS electrochemical biosensors: instrumentation and integration; 38. Digital microfluidic biochips: towards hardware/ software co-design and cyberphysical system integration; 39. CMOS based biomolecular sensor system-on-chip; Part VIII. Future Perspectives: 40. Future perspective in bioelectronics; 41. Real-time activity energy expenditure estimation for embedded ambulatory systems; 42. Innovative electronic systems for health management; 43. Linking the cyber and the biological world: the ensemble is the function; 44. Conclusion: personal electronics and distributed theragnostics. 2015 247 x 174 mm 584pp 470 b/w illus. 33 tables 978-1-107-04083-0 Hardback £150.00 / US$235.00 Publication May 2015 For all formats available, see

www.cambridge.org/9781107040830

Devices

Thin Film Transistor Circuits and Systems Reza Chaji

Ignis Innovation Inc., Kitchener, Ontario

and Arokia Nathan

Organic Electro-Optics and Photonics

Molecules, Polymers and Crystals Larry R. Dalton University of Washington

University of Cambridge

Peter Günter

This book provides a comprehensive review of the design challenges associated with building circuits and systems from thin-film transistors, including architecture, fabrication and design considerations.

Swiss Federal University (ETH), Zürich

Contents: 1. Introduction to displays, flat panel imagers, and associated backplane technologies; 2. Design specifications and considerations addressing compensation and driving schemes; 3. Hybrid voltagecurrent programming; 4. Enhanced-settling current programming; 5. Charge-based driving schemes; 6. High resolution architectures. 2013 228 x 152 mm 184pp 113 b/w illus. 11 tables 978-1-107-01233-2 Hardback £50.00 / US$80.00 For all formats available, see

www.cambridge.org/9781107012332

Mojca Jazbinsek ETH, Rainbow Photonics AG

O-Pil Kwon Ajou University

and Philip A. Sullivan Montana State University

This guide to modern organic electrooptic and photonic technologies provides a compelling insight into recent advances in organic electrooptic materials, from underlying quantum and statistical concepts to practical applications. A must-have for professionals and academic researchers in the fields of photonics, electrical engineering, materials science and engineering, and chemical engineering. Contents: 1. Introduction; 2. Nonlinear optical effects; 3. Electro-optic effects; 4. Molecular nonliner optics; 5. Acentric self-assembled films; 6. Crystalline materials; 7. Electrically poled organic materials and thermo-optic materials; 8. Overview of applications; 9. Organic electro-optic waveguides, switches, and modulators; 10. Nonliner optical infrared and terahertz frequency conversion; 11. Photorefractive effect and materials; 12. Conclusions and future prospects. 2015 247 x 174 mm 304pp 177 b/w illus. 18 tables 978-0-521-44965-6 Hardback £49.99 / US$79.99 Publication June 2015 For all formats available, see

www.cambridge.org/9780521449656

Visit our website at www.cambridge.org/engineering

RF/Microwave Engineering Dynamic Power Supply Transmitters

Envelope Tracking, Direct Polar, and Hybrid Combinations Earl McCune RF Communications Consulting, Santa Clara

Learn how envelope tracking, polar modulation, and hybrid designs using these techniques, really work. With case studies, real world examples and practical design advice for practitioners, this is an ideal resource for practising engineers, researchers and graduate students working on RF power amplifiers and transmitters. Contents: Part I. Motivations, Definitions, and Principles: 1. Motivations; 2. Definitions; 3. Dynamic power supply common principles; 4. Linear power amplifiers; 5. Envelope tracking principles; 6. Polar transmitter principles; Part II. DPST Circuit Issues: 7. Linear PA circuit considerations for ET; 8. Intentional circuit compression; 9. Dynamic power supplies (TX is power sig proc, not NRG based); 10. Device technologies: special issues for DPS use; 11. Hybrid system combinations; 12. Multistage modulation; Part III. Testing and Manufacturability: 13. Testing and calibration techniques; Appendix A. Switching transistor evaluation metrics across technologies. The Cambridge RF and Microwave Engineering Series

2015 247 x 174 mm 440pp 483 b/w illus. 5 tables 978-1-107-05917-7 Hardback c. £60.00 / c. US$95.00 Publication May 2015 For all formats available, see

www.cambridge.org/9781107059177

X-Parameters

Characterization, Modeling, and Design of Nonlinear RF and Microwave Components David E. Root Agilent Technologies

Jan Verspecht Agilent Technologies

Jason Horn Agilent Technologies

and Mihai Marcu Agilent Technologies

The definitive guide to X-parameters, written by the original inventors and developers of this powerful new paradigm, and containing real-world case studies, definitions, detailed derivations and exercises with solutions. An essential reference for researchers, engineers, scientists and students looking to remain on the cuttingedge of nonlinear RF and microwave engineering. Contents: 1. S-parameters; 2. X-parameters; 3. Small-signal sensitivities in the X-parameters; 4. X-parameter measurements; 5. Multi-tone multi-port X-parameters; 6. Memory. ‘This book is an excellent treatise by experts from Agilent on the assumption and use of x-parameters.’ Alfy Riddle, IEEE Microwave Magazine The Cambridge RF and Microwave Engineering Series

2013 247 x 174 mm 233pp 154 b/w illus. 978-0-521-19323-8 Hardback £65.00 / US$99.00 For all formats available, see

www.cambridge.org/9780521193238

Practical Digital Wireless Signals Earl McCune

Understand the meaning behind the mathematics of wireless signals and learn the intricacies and tradeoffs in signal selection and design with this practical guide. Based on over 30 years of industrial design experience, McCune provides a physical treatment of digital modulation, complementing the detailed mathematics found in more theoretical texts. Contents: Preface; Glossary and abbreviations; Terms and conventions; 1. Keying, states, and block diagram construction; 2. Common issues and signal characterization; 3. Important details on results from Shannon, Nyquist, and others; 4. Digital amplitude modulation: ASK; 5. Digital frequency modulation: FSK; 6. Digital phase modulation: PSK; 7. Combined digital modulations: QAM and OFDM; 8. Spread spectrum; 9. Wireless propagation and antenna fundamentals; 10. Principles of coding; 11. Multiple access techniques; 12. Signal trade-offs and system evolution; Appendix A. Phasor review; Appendix B. Decibels (dB) really are simple; Appendix C. Analog modulation basics; Appendix D. Quadrature modulation and demodulation principles; Appendix E. Polar modulation and demodulation principles; Appendix F. Derivative-zeroed pulse family; Appendix G. Selected DWC standards and their modulations.

details in the unique explanations that offer greater insight into principles they thought they already knew.’ High Frequency Electronics ‘… a fun tour of signals, noise, circuit techniques, wireless propagation limitations, the math of error correction codes, and the limits of information transfer.’ IEEE Microwave Magazine The Cambridge RF and Microwave Engineering Series

2013 244 x 170 mm 434pp 978-1-107-67409-7 Paperback £40.00 / US$75.00 Also available 978-0-521-51630-3 Hardback £74.99 / US$104.99 For all formats available, see

www.cambridge.org/9781107674097

Reviews of the hardback: ‘Any architect defining communications features for wireless products should find this book useful … a book you can actually read. … experienced readers … will find

For regular email alerts visit www.cambridge.org/alerts

RF/Microwave Engineering

Green RFID Systems Edited by Luca Roselli

Università degli Studi di Perugia, Italy

Learn how new materials and electronics technologies can make RFID systems more energy efficient and environmentally friendly. Experts show you how energy scavenging, passive/ chipless RFID, RFID passive sensors, networked RFID, energy harvesting, organic devices, and wide area electronics can be used to develop green solutions for the Internet of Things. Contents: 1. Contest analysis; 2. RFID background; 3. Energy scavenging and storage for RFID systems; 4. RFID technologies for RFID sensors and sensor tags; 5. Unconventional RFID systems; 6. Integrating tiny RFID and NFC based sensors with the Internet; 7. Materials for substrates; 8. Organic conductors and semiconductors: recent achievements and modeling; 9. RFID enabling new solutions; 10. Energy-efficient off-body communication using textile antennas. EuMA High Frequency Technologies Series

2014 247 x 174 mm 304pp 179 b/w illus. 18 tables 978-1-107-03040-4 Hardback £75.00 / US$120.00 For all formats available, see

www.cambridge.org/9781107030404

Microwave and Wireless Measurement Techniques Nuno Borges Carvalho

Universidade de Aveiro, Portugal

and Dominique Schreurs Katholieke Universiteit Leuven, Belgium

From typical metrology parameters for common wireless and microwave components to the implementation of measurement benches, this introduction to microwave/wireless metrology includes many practical examples, together with exercises at the end of each chapter and key information about measurement procedures for emerging technologies. Contents: 1. Measurement of wireless transceivers; 2. Instrumentation for wireless systems; 3. Signal excitation; 4. Test benches for wireless system characterization and modeling. ‘Microwave and Wireless Measurement Techniques is not only useful for students, technicians and engineers, but also for personnel writing specifications, and those having cognizance over sell-off and acceptance of hardware and systems. These personnel might include program managers, quality assurance/control, system integrators, government inspectors and contract administrators.’ Tom Perkins, High Frequency Electronics The Cambridge RF and Microwave Engineering Series

2013 247 x 174 mm 244pp 300 b/w illus. 978-1-107-00461-0 Hardback £65.00 / US$95.00 For all formats available, see

www.cambridge.org/9781107004610

RF/Microwave Engineering

Modern RF and Microwave Measurement Techniques

Edited by Valeria Teppati Swiss Federal University (ETH), Zürich

Andrea Ferrero Politecnico di Torino

and Mohamed Sayed Microwave and Millimeter Wave Solutions, Santa Rosa

Measurements: 12. Vector network analysis for nonlinear systems; 13. Load and sourcepull techniques; 14. Broadband signal measurements for linearity optimization; 15. Pulse and RF measurement. The Cambridge RF and Microwave Engineering Series

2013 247 x 174 mm 471pp 340 b/w illus. 10 tables 978-1-107-03641-3 Hardback £75.00 / US$120.00 For all formats available, see

www.cambridge.org/9781107036413

This comprehensive, hands-on review of the most up-to-date techniques in RF and microwave measurement combines fundamental theory with in-depth analysis of advanced modern instrumentation, methods and systems, alongside practical advice for RF and microwave engineers and researchers. Contents: Part I. General Concepts: 1. Transmission lines and scattering parameters; 2. Microwave interconnections, probing, and fixturing; Part II. Microwave Instrumentation: 3. Microwave synthesizers; 4. Real-time spectrum analysis and time-correlated measurements applied to non-linear system characterization; 5. Vector network analyzers; 6. Microwave power measurements; 7. Modular systems for RF and microwave measurements; Part III. Linear Measurements: 8. Two-port network analyzer calibration; 9. Multiport and differential S-parameter measurements; 10. Noise figure characterization; 11. TDR based S-parameters; Part IV. Non-Linear

eBooks available at www.cambridge.org/ebookstore

RF/Microwave Engineering

Advances in Multi-Band Microstrip Filters Edited by Vesna Crnojević-Bengin University of Novi Sad

The first book of its kind to focus on multi-band filters, this comprehensive work describes several competing design approaches including their theoretical foundations as well as practical design rules and comparisons of measured and simulated results. An ideal resource for both students and industry professionals interested in microwave engineering. Contents: 1. Introduction; 2. Design methods of multi-band filters; 3. Techniques for the synthesis of multi-band transfer functions; 4. Compact microwave multiband bandpass filters based on quarterwavelength resonators; 5. Dual-band filters based on grounded patch resonators; 6. Fractal-based multi-band microstrip filters; 7. Multi-band microstrip filters based on near-zero metamaterials; 8. Miniature microwave filters using multilayer technologies. EuMA High Frequency Technologies Series

2015 247 x 174 mm 336pp 276 b/w illus. 49 tables 978-1-107-08197-0 Hardback £89.99 / US$140.00 Publication July 2015 For all formats available, see

www.cambridge.org/9781107081970

White Space Communication Technologies

Edited by Nuno Borges Carvalho Universidade de Aveiro, Portugal

Alessandro Cidronali Università degli Studi di Firenze, Italy

and Roberto Gómez-García Universidad de Alcalá, Madrid

Increase the efficient use of time-varying available spectrum with this book, the first to describe RF hardware design for white space applications, including both analog and digital approaches. Including real-world examples, global spectrum regulations and policies, and cross analog and digital design guidelines to help cut design time and cost. Contents: Part I. White Space Technology Signal Processing and Digital Design: 1. White space technology, the background; 2. Transceiver challenges for white space radio; 3. Front-ends for software defined radio; Part II. Adaptable Receivers for White Space Technologies: 4. Reconfigurable RF front-ends for cognitive- and softwaredefined radio; 5. Filtering stages for white-space cognitive- and software-defined radio receivers; 6. Subsampling multistandard receiver design for cognitive radio systems; Part III. Adaptable Transceivers for White Space Technologies: 7. White spaces exploration using FGPA-based all-digital transmitters; 8. Interference active cancellation techniques for agile transceivers; 9. Highly efficient transmitter architectures. 2014 247 x 174 mm 300pp 208 b/w illus. 18 tables 978-1-107-05591-9 Hardback £75.00 / US$125.00 For all formats available, see

www.cambridge.org/9781107055919

RF/Microwave Engineering

Modern Small Antennas Kyohei Fujimoto

University of Tsukuba, Japan

and Hisashi Morishita National Defense Academy, Japan

If you need to design and develop small antennas, this complete cuttingedge guide covers everything you need to know, from fundamentals and basic theory to design techniques and evaluation. Many practical examples are included from a range of wireless systems, whilst a glossary brings you up to speed on the latest terminology. Contents: 1. Introduction; 2. Fundamentals of small antennas; 3. Properties of small antennas; 4. Fundamental limitations; 5. Subjects related to small antennas; 6. Principles and techniques for making small antennas; 7. Design of small antennas; 8. Practical small antennas; 9. Evaluation of small antenna performance; 10. Electromagnetic simulation.

‘A comprehensive glossary provides about forty pages of catalogued small antennas with references back to where they are introduced in the text. This feature greatly enhances the usefulness of the book as there are so many different types, styles and shapes of antennas discussed … a book that would be very handy for just about any designer of small or covert wireless communications, video, data, tag, security and sensor devices.’ Tom Perkins, High Frequency Electronics 2014 247 x 174 mm 488pp 100 b/w illus. 30 tables 978-0-521-87786-2 Hardback £70.00 / US$110.00 For all formats available, see

www.cambridge.org/9780521877862

‘At last: an approachable book addressing small antennas and their design … This book addresses the very important area of small antennas with both the theory and a lot of useful practical design information … Modern Small Antennas helps by providing not only the background theory, but also the practical implementation including: basic theory and fundamentals; design optimization; evaluation; measurements; and simulation techniques.’ Ian Poole, Radio-Electronics.com

For regular email alerts visit www.cambridge.org/alerts

RF/Microwave Engineering

Ultra-wideband RF System Engineering

Research Methods for Engineers

Karlsruhe Institute of Technology

Griffith University, Queensland

Werner Wiesbeck

Learn how to plan for success with this hands-on guide to conducting highquality engineering research, containing step-by-step instructions and essential tools and methods to plan for maximum impact. With a unique engineering perspective, this is the ideal book for students and academics looking to launch their research careers.

Edited by Thomas Zwick

Karlsruhe Institute of Technology

Jens Timmermann Astrium GmbH

and Grzegorz Adamiuk Astrium GmbH

This comprehensive summary of the state of the art in Ultra Wideband (UWB) system engineering takes you through all aspects of UWB design, from components through the propagation channel to system engineering aspects. Ideal for researchers as well as RF system and component engineers working in short range wireless technologies. Contents: 1. Introduction; 2. Fundamentals of UWB radio transmission; 3. UWB antennas; 4. UWB antenna arrays; 5. Monolithic integrated circuits for UWB transceivers; 6. UWB applications. ‘This book represents much of the progress that has been made in the past 20 years, enabled by great advances in hardware technology as well as techniques … The many references open doors to much more information. This UWB topic deserves close attention by researchers and entrepreneurs in our field in the years to come. There will undoubtedly be numerous practical applications for this not-so-new technology.’ Tom Perkins, High Frequency Electronics EuMA High Frequency Technologies Series

2013 247 x 174 mm 203pp 147 b/w illus. 11 tables 978-1-107-01555-5 Hardback £70.00 / US$110.00 For all formats available, see

www.cambridge.org/9781107015555

David V. Thiel

Contents: 1. Introduction to engineering research; 2. Literature search and review; 3. Developing a research plan; 4. Statistical analysis; 5. Optimisation techniques; 6. Survey research methods; 7. Research presentation; 8. The path forward; Appendix A. Matlab plot functions; Appendix B. Excel plot functions. 2014 228 x 152 mm 302pp 44 b/w illus. 53 exercises 978-1-107-03488-4 Hardback £65.00 / US$99.00 978-1-107-61019-4 Paperback £24.99 / US$39.99 For all formats available, see

www.cambridge.org/9781107034884

Also of Interest Textbook

Politecnico di Torino

The book’s seamless integration of mathematics and applications, and its focus on modeling practical problems and algorithmic solution methods, will be very appealing to a wide audience.’

and Laurent El Ghaoui

Stephen Boyd, Stanford University

Optimization Models Giuseppe C. Calafiore

University of California, Berkeley

Emphasizing practical understanding over the technicalities of specific algorithms, this elegant textbook teaches students how to recognize, simplify, model and solve optimization problems – and apply these basic principles to their own projects. Accompanied by an online solution manual, accessible only to instructors. Contents: 1. Introduction; Part I. Linear Algebra: 2. Vectors; 3. Matrices; 4. Symmetric matrices; 5. Singular value decomposition; 6. Linear equations and least-squares; 7. Matrix algorithms; Part II. Convex Optimization: 8. Convexity; 9. Linear, quadratic and geometric models; 10. Second-order cone and robust models; 11. Semidefinite models; 12. Introduction to algorithms; Part III. Applications: 13. Learning from data; 14. Computational finance; 15. Control problems; 16. Engineering design. ‘In Optimization Models, Calafiore and El Ghaoui have created a beautiful and very much needed on-ramp to the world of modern mathematical optimization and its wide range of applications. They lead an undergraduate, with not much more than basic calculus behind her, from the basics of linear algebra all the way to modern optimization-based machine learning, image processing, control, and finance, to name just a few applications. Until now, these methods and topics were accessible only to graduate students in a few fields, and the few undergraduates who brave the daunting prerequisites.

2014 246 x 189 mm 650pp 352 b/w illus. 126 exercises 978-1-107-05087-7 Hardback £48.00 / US$69.99 For all formats available, see

www.cambridge.org/9781107050877

Convex Optimization of Power Systems Joshua Adam Taylor University of Toronto

This mathematically rigorous guide to convex optimization for power systems engineering includes convex models for a variety of real-world applications, and a selection of problems and practical examples. An invaluable resource for students and researchers from industry and academia in power systems, optimization, and control. Contents: 1. Introduction; 2. Background; 3. Optimal power flow; 4. System operation; 5. Infrastructure planning; 6. Economics; 7. Future directions. 2015 247 x 174 mm 209pp 31 b/w illus. 3 tables 43 exercises 978-1-107-07687-7 Hardback £60.00 / US$95.00 For all formats available, see

www.cambridge.org/9781107076877

Visit our website at www.cambridge.org/engineering

Also of Interest

Smart Grid (R)Evolution

Electric Power Struggles Jennie C. Stephens University of Vermont

Elizabeth J. Wilson University of Minnesota

and Tarla Rai Peterson Swedish University of Agricultural Sciences

This book is designed for those interested in energy system change, renewable energy, sociotechnical transitions, electricity, climate mitigation, and climate change adaptation. The contribution this book makes is valuable because it goes beyond conventional technical and economic perspectives to explore the social implications of the diversity of smart grid futures. Contents: 1. Emerging smart grid struggles; 2. Promises and pitfalls of smart grid; 3. Technologies of smart grid; 4. Societal actors and dominant smart grid visions; 5. Smart meters measuring, monitoring and managing electricity; 6. Wind on the wires; 7. Community and small-scale grid innovation; 8. A changing climate and a smarter grid: critical linkages; 9. Smart grid revolution, evolution, both or neither. 2015 253 x 177 mm 218pp 11 b/w illus. 978-1-107-04728-0 Hardback £60.00 / US$95.00 For all formats available, see

www.cambridge.org/9781107047280

Numerical Analysis for Engineers and Scientists G. Miller

University of California, Davis

Striking a balance between theory and practice, this graduate-level text is perfect for students in the applied sciences. It provides full coverage of classical methods with a clear explanation of how they work, together with sample programs and many practical examples to help students get started. Contents: Preface; 1. Numerical error; 2. Direct solution of linear systems; 3. Eigenvalues and eigenvectors; 4. Iterative approaches for linear systems; 5. Interpolation; 6. Iterative methods and the roots of polynomials; 7. Optimization; 8. Data fitting; 9. Integration; 10. Ordinary differential equations; 11. Introduction to stochastic ODEs; 12. A big integrative example; A. Mathematical background; B. Answers; C. Sample codes; References; Index. 2014 247 x 174 mm 581pp 90 b/w illus. 25 tables 70 exercises 978-1-107-02108-2 Hardback £65.00 / US$99.00 For all formats available, see

www.cambridge.org/9781107021082

Also of Interest

Cambridge Handbook of Engineering Education Research Edited by Aditya Johri

Virginia Polytechnic Institute and State University

and Barbara M. Olds Colorado School of Mines

Helping to define and inform this growing field, this rich multidisciplinary volume is an ideal reference for graduate students and researchers. It draws on the social sciences, engineering, and computing, as well as on contemporary learning research examining how technology affects learners and learning environments, and social context in learning. Contents: Foreword; Introduction; 1. Chronological and ontological development of engineering education as a field of scientific inquiry; 2. Learning theories for engineering education practice and research; 3. Situative framework for engineering learning research; 4. The social nature of representational engineering knowledge; 5. Conceptual change and misconceptions in engineering education: curricular-, measurement-, and theoreticallyfocused approaches; 6. Engineers as problem solvers; 7. Professional engineering work; 8. Problem-based and project-based learning in EE – merging models; 9. Case studies in engineering; 10. Curriculum design in the middle years; 11. Engineering design education; 12. Adaptive expertise and knowledge fluency in design and innovation; 13. Learning disciplinary ideas and practices through engineering design; 14. Engineering identity; 15. Studying the career pathways of engineers: an illustration with two datasets; 16. Retention and persistence in engineering education; 17. Social justice and inclusion: women and minorities in engineering; 18. Community engagement

in engineering education as a way to increase inclusiveness; 19. Translating research to widespread practice in engineering education; 20. Research guided teaching practices: engineering threshold concepts as an approach to curriculum renewal; 21. Engineering instruction development: programs, best practices, and recommendations; 22. Understanding disciplinary cultures: the first step to cultural change; 23. Preparing engineering educators for engineering education research; 24. Studying teaching and learning in undergraduate engineering programs: conceptual frameworks to guide research on practice; 25. Design-based research in engineering education: current steps and next steps; 26. Quantitative and mixed-methods research: approaches and limitations; 27. Framing qualitative methods in engineering education research: established and emerging methodologies; 28. Conducting interpretive research in engineering education; 29. The science and design of assessment in engineering education; 30. Engineering communication; 31. Use of technology in engineering education; 32. Global and international issues in engineering education; 33. Engineering ethics; 34. The normative contents of engineering formation: engineering studies; 35. Interdisciplinarity in engineering practice; Conclusion. 2014 253 x 177 mm 786pp 63 b/w illus. 46 tables 978-1-107-01410-7 Hardback £75.00 / US$135.00 For all formats available, see

www.cambridge.org/9781107014107

For regular email alerts visit www.cambridge.org/alerts

Also of Interest

The Entrepreneurial Engineer

How to Create Value from Ideas Michael B. Timmons

17590787_7-1_17590787_7-1 12/01/15 4:52 PM Page 1

VOLUME 7 ISSUE 1

FEBRUARY 2015

INTERNATIONAL JOURNAL OF

Cornell University, New York

MICROWAVE AND WIRELESS TECHNOLOGIES

Rhett L. Weiss

CONTENTS

Cornell University, New York

Daniel P. Loucks Cornell University, New York

John R. Callister Cornell University, New York

and James E. Timmons

Written by teachers and successful entrepreneurs, this textbook includes guidance, instruction and practical lessons for the prospective entrepreneur. The book focuses on early stage financing of a start-up company, beginning with an emphasis on constructing an effective business plan and preparing solid financial statements. Contents: 1. Entrepreneur’s primer; 2. Recognizing opportunity; 3. Defining your opportunity; 4. Developing your business concept; 5. Creating your team; 6. Creating your company; 7. Financial accounting; 8. Business plans, presentations, and letters; 9. Fund raising; 10. Rules of investing; 11. Negotiation; 12. Management; 13. Project scheduling: critical path methods, program evaluation, and review techniques. 2013 253 x 177 mm 492pp 29 b/w illus. 29 tables 114 exercises 978-1-107-02472-4 Hardback £85.00 / US$145.00 978-1-107-60740-8 Paperback £40.00 / US$75.00 For all formats available, see

www.cambridge.org/9781107024724

RESEARCH PAPER Wideband, high-efficiency, high-power GaN amplifiers, using MIC and quasi-MMIC technologies, in the 1 GHz range Chamssedine Berrached, Diane Bouw, Marc Camiade, Kassem El-Akhdar, Denis Barataud and Guillaume Neveux

Design and analysis of stair-shape UWB antenna with flowery DGS Sukhdeep Kaur and Rajesh Khanna

Design and analysis of 80-W wideband asymmetrical Doherty amplifier Khaled Bathich and Georg Boeck

Two novel memory polynomial models for modeling of RF power amplifiers Per N. Landin, Kurt Barbé, Wendy Van Moer, Magnus Isaksson and Peter Händel

TDOA estimation method using 60 GHz OFDM spectrum Ahmadreza Jafari, Luca Petrillo, Julien sarrazin, David lautru, Philippe De Doncker and Aziz Benlarbi-Delai 31 A programmable compact wide-band RF feed network Mohammad S. Sharawi, Sameir E. Deif, Elias Ghafari and Daniel N. Aloi

Beam-steering in a three-element circular antenna-array Rachit Garg, Gaurav Mishra, Neetesh Purohit and Vishal Kesari

Cambridge Journals Online For further information about this journal please go to the journal web site at:

http://journals.cambridge.org/mrf

Transient response of dual-band-notched ultra-wideband antenna Jagannath Malik, Parth C. Kalaria and Machavaram V. Kartikeyan Design and implementation of Butler matrix-based beam-forming networks for low sidelobe level electronically scanned arrays Fanourios E. Fakoukakis, Theodoros N. Kaifas, Elias E. Vafiadis and George A. Kyriacou Multiband rectangular-shaped ring antenna embedded with inverted S- and C-shaped strips for WLAN/WiMAX/UWB applications Davinder Parkash and Rajesh Khanna The application of high-resolution methods for DOA estimation using a linear antenna array Lotfi Osman, Imen Sfar and Ali Gharsallah Azimuthally periodic wedge-shaped metal vane loaded circular ring frequency selective surface Garima Bharti, Kumud Ranjan Jha, Ghanshyam Singh and Rajeev Jyoti

Related Journals VOLUME 7 ISSUE 1

INTERNATIONAL JOURNAL OF

MICROWAVE AND WIRELESS TECHNOLOGIES journals.cambridge.org/mrf

Issue 1

ISSN: 1759â&#x20AC;&#x201C;0787

Volume 7

INTERNATIONAL JOURNAL OF MICROWAVE AND WIRELESS TECHNOLOGIES

FEBRUARY 2015

International Journal of Microwave and Wireless Technologies

February 2015 PP. 1â&#x20AC;&#x201C;106

Coverage includes: applied electromagnetic field theory (antennas, transmission lines and waveguides), components (passive structures and semiconductor device technologies), analogue and mixed-signal circuits, systems, optical-microwave interactions, electromagnetic compatibility, industrial applications, biological effects and medical applications. journals.cambridge.org/mrf

Wireless Power Transfer International Journal of Microwave and Wireless Technologies

Wireless Power Transfer

The journals covers RF technology, near-field energy transfer, energy conversion and management, electromagnetic harvesting, novel materials and fabrication techniques, energy storage elements, and RFIDrelated electronics.

WPT covers all methods of wireless power transfer, including mobile communications, medical implants, automotive technology, and spacecraft engineering. journals.cambridge.org/wpt

ebooks For institutional purchase Over 25,000 ebooks across multiple subject areas are available for institutional purchase from Cambridge University Press and our partner publishers. Browse Cambridge titles at ebooks.cambridge.org and partner titles at universitypublishingonline.org Please speak to your librarian about gaining access for your institution. Your librarian can contact us at

online@cambridge.org in the Americas or library.sales@cambridge.org for all other areas.

Cambridge Alerts for regular updates and to receive

20% off your next online purchase

www.cambridge.org/alerts

31451