Materials, Circuits and Devices
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A Handbook for EMC Testing and Measurement
- Author(s): David Morgan
- Publication Year: 1994
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During the 1980s the worldwide interest in electromagnetic compatibility (EMC) grew rapidly with the introduction of legislation to control the growing interference problems generated by the increased use of electronic equipment in industry and in the home. The European directive harmonising EMC measurements gave particular impetus to manufacturers and importers of electrical and electronic equipment in Europe to understand EMC design techniques and verification procedures. This book explains how equipment can be verified by testing. It discusses the nature of EMC standards world wide and describes in detail testing methods and their conduct and accuracy. In addition to standard EMC testing, topics including electrostatic discharge, nuclear electromagnetic pulse and lightning are also discussed. In the broad span of its subject matter, the interests of equipment manufacturers, EMC test engineers, project managers and company administrators are addressed. The testing of both military and commercial electronic equipment is covered. Particular emphasis is placed on the nature of EMC test equipment and how to use it to make reliable measurements.
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Advanced Technologies for Next Generation Integrated Circuits
- Editors: Ashok Srivastava; Saraju Mohanty
- Publication Year: 2020
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Although existing nanometer CMOS technology is expected to remain dominant for the next decade, new non-classical devices are being developed as the potential replacements of silicon CMOS, in order to meet the ever-present demand for faster, smaller, more efficient integrate circuits. Many new devices are based on novel emerging materials such as one-dimensional carbon nanotubes and two-dimensional graphene, non-graphene two-dimensional materials, and transition metal dichalcogenides. Such devices use on/off operations based on quantum mechanical current transport, and so their design and fabrication require an understanding of the electronic structures of materials and technologies. Moreover, new electronic design automation (EDA) tools and techniques need to be developed based on integrating devices from emerging novel material-based technologies. The aim of this book is to explore the materials and design requirements of these emerging integrated circuit technologies, and to outline their prospective applications. It will be useful for academics and research scientists interested in future directions and developments in design, materials and applications of novel integrated circuit technologies, and for research and development professionals working at the cutting edge of integrated circuit development.
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Advances in High-Power Fiber and Diode Laser Engineering
- Editor: Ivan Divliansky
- Publication Year: 2019
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Advances in High-Power Fiber and Diode Laser Engineering provides an overview of recent research trends in fiber and diode lasers and laser systems engineering. In recent years, many new fiber designs and fiber laser system strategies have emerged, targeting the mitigation of different problems which occur when standard optical fibers are used for making high-power lasers. Simultaneously, a lot of attention has been put to increasing the brightness and the output power of laser diodes. Both of these major laser development directions continue to advance at a rapid pace with the sole purpose of achieving higher power while having excellent beam quality. The book begins by introducing the principles of diode lasers and methods for improving their brightness. Later chapters cover quantum cascade lasers, diode pumped high power lasers, high average power LMA fiber amplifiers, high-power fiber lasers, beam combinable kilowatt all-fiber amplifiers, and applications of 2 μm thulium fiber lasers and high-power GHz linewidth diode lasers. Written by a team of authors with experience in academia and industrial research and development, and brought together by an expert editor, this book will be of use to anyone interested in laser systems development at the laboratory or commercial scale.
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Algorithmic and Knowledge-based CAD for VLSI
- Editors: Gaynor Taylor; Gordon Russell
- Publication Year: 1992
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This book covers algorithms and applications of techniques from the artificial intelligence community in CAD for VLSI.
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Analogue IC Design: The Current-Mode Approach
- Editors: C. Toumazou; F. J. Lidgey; D. G. Haigh
- Publication Year: 1993
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Analogue IC Design has become the essential title covering the current-mode approach to integrated circuit design. The approach has sparked much interest in analogue electronics and is linked to important advances in integratedcircuit technology, such as CMOS VLSI which allows mixed analogue and digital circuits and high-speed GaAs processing.
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Analogue-digital ASICs: circuit techniques, design tools and applications
- Editors: R. S. Soin; F. Maloberti; J. Franca
- Publication Year: 1991
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A wide-ranging book on the subject of mixed analogue digital ASICs, this title covers processing technology, circuit techniques and building blocks, design and applications, and CAD and supporting tools.
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Analysis and Design of CMOS Clocking Circuits for Low Phase Noise
- Author(s): Woorham Bae and Deog-Kyoon Jeong
- Publication Year: 2020
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As electronics continue to become faster, smaller and more efficient, development and research around clocking signals and circuits has accelerated to keep pace. This book bridges the gap between the classical theory of clocking circuits and recent technological advances, making it a useful guide for newcomers to the field, and offering an opportunity for established researchers to broaden and update their knowledge of current trends. The book begins by introducing the theory of Fourier transform and power spectral density, then builds on this foundation in chapter 2 to define phase noise and jitter. Chapter 3 discusses the theory and primary implementation of CMOS oscillators, including LC oscillators and ring oscillators, and chapter 4 introduces techniques for analysing their phase noise and jitter. Chapters 5-7 cover conventional clocking circuits; phase-locked loop (PLL) and delay-locked loop (DLL), which suppress the phase noise of CMOS oscillators. The building blocks of conventional PLLs/DLLs are described, and the dynamics of the PLL/DLL negative feedback loop explored in depth, with practical design examples. Chapters 8-11 address state-of-the-art circuit techniques for phase noise suppression, presenting the principles and practical issues in circuit implementation of sub-sampling phase detection techniques, all-digital PLL/DLL, injection-locked oscillator, and clock multiplying DLL. Extensive survey and discussion on state-of-the-art clocking circuits and benchmarks are covered in an Appendix.
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Asynchronous Circuit Applications
- Editors: Jia Di; Scott C. Smith
- Publication Year: 2019
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Unlike conventional synchronous circuits, asynchronous circuits are not coordinated by a clocking signal, but instead use handshaking protocols to control circuit behaviour. Asynchronous circuits have been found to offer several advantages, including high energy efficiency, flexible timing requirements, high modularity, low noise/EMI, and robustness to PVT variations. At the same time, growing pressures on the electronics industry for ever smaller, more efficient ICs are pushing the limits of conventional circuit technologies. These factors are spurring growing interest in asynchronous circuits amongst both the academic research and commercial RD communities. This book introduces a wide range of existing and potential applications for asynchronous circuits, each accompanied with the corresponding circuit design theory, sample circuit implementations, results, and analysis. It serves as an essential guide for academic researchers and students looking to broaden their thinking in advancing asynchronous applications and design methodologies, and provides practical advice to industrial engineers when considering the incorporation of asynchronous circuits in their own applications.
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CMOS-Based Sensors and Actuators for Life Science Applications
- Author(s): Ebrahim Ghafar-Zadeh ; Saghi Forouhi ; Tayebeh Azadmousavi
- Publication Year: 2023
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Emerging complementary metal-oxide semiconductor (CMOS) technologies and their ongoing downscaling trend have opened an avenue to developing integrated systems for life sciences. They offer great advantages for the monolithic integration of several active elements, and the implementation of millions of biosensors along with their transducers and readout circuits on a single chip. Benefits include the ability to make highly dense systems with high signal-to-noise ratios (SNRs), good accessibility and reliability. Moreover, the huge investment in CMOS foundries and the possibility of the batch production of various devices using CMOS have established it as an economical technology appropriate for the fabrication of affordable platforms for end-users. All these features make CMOS electronics a valuable technology for the implementation of integrated bio-systems such as lab-on-chips (LoCs) and point-of-care (PoC) devices.
This book offers deep multidisciplinary knowledge of different types of biosensors and bioactuators. The book covers the design and implementation of CMOS chips, including transducers, readouts and data equation circuitries. It also deals with microfluidic packaging techniques, and biological applications and protocols. The theoretical and practical aspects of CMOS biosensors are discussed, and the fundamentals of microfabrication. Several key life science applications are explored, including optical biosensors, thermal sensors, and a range of actuators.
CMOS-Based Sensors and Actuators for Life Science Applications offers a systematic and thorough approach to this complex multidisciplinary topic for researchers and engineers working in the field of microelectronic design and development, particularly those whose work has life sciences applications.
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Characterisation and Control of Defects in Semiconductors
- Editor: Filip Tuomisto
- Publication Year: 2019
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Characterisation and Control of Defects in Semiconductors Understanding the formation and introduction mechanisms of defects in semiconductors is essential to understanding their properties. Although many defect-related problems have been identified and solved over the past 60 years of semiconductor research, the quest for faster, cheaper, lower power, and new kinds of electronics generates an ongoing need for new materials and properties, and so creates new defect-related challenges. This book provides an up-to-date review of the experimental and theoretical methods used for studying defects in semiconductors, focussing on the most recent developments in the methods. These developments largely stem from the requirements of new materials - such as nitrides, the plethora of oxide semiconductors, and 2-D semiconductors - whose physical characteristics and manufacturing challenges are much more complex than in conventional Si/Ge or GaAs. Each chapter addresses both the identification and quantification of the defects and their characteristics, and goes on to suggest routes for controlling the defects and hence the semiconductor properties. The book provides valuable information and solutions for scientists and engineers working with semiconductors and their applications in electronics.
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Coaxial Electrical Circuits for Interference-Free Measurements
- Author(s): Shakil Awan ; Bryan Kibble ; Jürgen Schurr
- Publication Year: 2011
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The authors have between them more than 60 years of experience in making electrical measurements in National Measurement Laboratories. These laboratories are the source of measurement standards and techniques for science and engineering and are dedicated to maintaining the international system of units (SI) by establishing and disseminating the values of measurement standards with the lowest possible uncertainty. Careful attention to detail is required in designing measurement systems that eliminate electrical interference and are as simple and as close to first principles as possible. This book draws on their experience by offering guidance and best practice for designing sensitive electrical measurement circuits. In particular the book describes examples that demonstrate the elegance, flexibility and utility of balanced-current coaxial networks in obtaining the ultimate in noise-matching and interference elimination for precise and accurate voltage, current and power measurements. It also updates an earlier book on coaxial AC bridges by including recent AC measurements of quantum Hall resistance to establish a primary quantum standard of impedance and by extending impedance measurements in general to higher frequencies.
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Cross-Layer Reliability of Computing Systems
- Editors: Giorgio Di Natale; Dimitris Gizopoulos; Stefano Di Carlo; Alberto Bosio; Ramon Canal
- Publication Year: 2020
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Reliability has always been a major concern in designing computing systems. However, the increasing complexity of such systems has led to a situation where efforts for assuring reliability have become extremely costly, both for the design of solutions for the mitigation of possible faults, and for the reliability assessment of such techniques. Cross-layer reliability is fast becoming the preferred solution. In a cross-layer resilient system, physical and circuit level techniques can mitigate low-level faults. Hardware redundancy can be used to manage errors at the hardware architecture layer. Eventually, software implemented error detection and correction mechanisms can manage those errors that escaped the lower layers of the stack. This book presents state-of-the-art solutions for increasing the resilience of computing systems, both at single levels of abstraction and multi-layers. The book begins by addressing design techniques to improve the resilience of computing systems, covering the logic layer, the architectural layer and the software layer. The second part of the book focuses on cross-layer resilience, including coverage of physical stress, reliability assessment approaches, fault injection at the ISA level, analytical modelling for cross-later resiliency, and stochastic methods. Cross-Layer Reliability of Computing Systems is a valuable resource for researchers, postgraduate students and professional computer architects focusing on the dependability of computing systems.
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Design of High Frequency Integrated Analogue Filters
- Editor: Yichuang Sun
- Publication Year: 2002
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This book brings together the leading researchers, in high frequency analogue filters to highlight recent advances and identify promising directions for future development.
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Design of Terahertz CMOS Integrated Circuits for High-Speed Wireless Communication
- Author(s): Minoru Fujishima and Shuhei Amakawa
- Publication Year: 2019
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Communications technology at a frequency range into Terahertz (THz) levels has attracted attention because it promises near-fibre-optic-speed wireless links for the 5G and post-5G world. Transmitter and receiver integrated circuits based on CMOS, which has the ability to realize such circuits with low power consumption at a low cost, are expected to become increasingly widespread, with much research into the underlying electronics currently underway. This book describes recent research on terahertz CMOS design for high-speed wireless communication. The topics covered include fundamental technologies for terahertz CMOS design, amplifier design, physical design approaches, transceiver design, and future prospects. This concise source of key information, written by leading experts in the field, is intended for researchers and professional circuit designers working in RFIC and CMOS design for telecommunications.
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Designing Amplifier Circuits (Analog Circuit Design Series: Volume 1)
- Author(s): D. Feucht
- Publication Year: 2010
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This book is no longer available on the IET Digital Library.
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Designing Dynamic Circuit Response (Analog Circuit Design Series: Volume 2)
- Author(s): D. Feucht
- Publication Year: 2010
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This book is no longer available on the IET Digital Library.
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Designing High-Performance Amplifiers (Analog Circuit Design Series: Volume 3)
- Author(s): D. Feucht
- Publication Year: 2010
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This book is no longer available on the IET Digital Library.
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Designing Waveform-Processing Circuits (Analog Circuit Design Series: Volume 4)
- Author(s): D. Feucht
- Publication Year: 2010
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This book is no longer available on the IET Digital Library.
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Digital and Analogue Instrumentation: Testing and measurement
- Author(s): Nihal Kularatna
- Publication Year: 2003
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A substantial update of his earlier IEE book, Modern Electronic Test and Measuring Instruments, the author provides a state-of-the art review of modern families of digital instruments. For each family he covers internal design, use and applications, highlighting their advantages and limitations from a practical application viewpoint.The book also treats new digital instrument families such as DSOs, Arbitrary Function Generators, FFT analysers and many other common systems used by the test engineers, designers and research scientists.
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Digitally Enhanced Mixed Signal Systems
- Editors: Chadi Jabbour; Patricia Desgreys; Dominique Dallet
- Publication Year: 2019
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Digitally enhanced analog and mixed signal techniques are increasingly important to current and future circuit and system design. This book discusses how digital enhancement can be used to address key challenges relevant to analog components in terms of shrinking CMOS technology, increasing user demand for higher flexibility and data traffic in communications networks, and the drive to reduce power consumption. The book opens with an introduction to the main trends in current digitally enhanced systems, emphasising the impact of shrinking technology, and provides an overview of the principles of non-linear models. Later chapters cover pre-distortion and post-distortion techniques, analog-to-digital and digital-to-analog converters, clock generation, fixed-point refinement and adaptive filtering. Key themes of the book are the implementation approaches common between digital enhancement techniques and the trade-offs between complexity and performance for digitally enhanced devices and circuits. The book will be of particular interest to academic researchers and engineers working in analog and mixed signal circuit and system design.