This book is the first graduate-level textbook presenting a comprehensive treatment of Data Converters. It provides comprehensive definition of the parameters used to specify data converters, and covers all the architectures used in Nyquist-rate data converters. The book uses Simulink and Matlab extensively in examples and problem sets. This is a textbook that is also essential for engineering professionals as it was written in response to a shortage of organically organized material on the topic. The book assumes a solid background in analog and digital circuits as well as a working knowledge of simulation tools for circuit and behavioral analysis.

After an overview of major scientific discoveries of the 18th and 19th centuries, which created electrical science as we know and understand it and led to its useful applications in energy conversion, transmission, manufacturing industry and communications, this Circuits and Systems History book fills a gap in published literature by providing a record of the many outstanding scientists, mathematicians and engineers who laid the foundations of Circuit Theory and Filter Design from the mid-20th Century. Additionally, the book records the history of the IEEE Circuits and Systems Society from its origins as the small Circuit Theory Group of the Institute of Radio Engineers (IRE), which merged with the American Institute of Electrical Engineers (AIEE) to form IEEE in 1963, to the large and broad-coverage worldwide IEEE Society which it is today.Many authors from many countries contributed to the creation of this book, working to a very tight time-schedule. The result is a substantial contribution to their enthusiasm and expertise which it is hoped that readers will find both interesting and useful. It is sure that in such a book omissions will be found and in the space and time available, much valuable material had to be left out. It is hoped that this book will stimulate an interest in the marvellous heritage and contributions that have come from the many outstanding people who worked in the Circuits and Systems area.

Analog Design for CMOS VLSI Systems is a comprehensive text that offers a detailed study of the background principles and the analog design techniques for CMOS-VLSI implementation. The book covers the physical operation and the modelling of MOS transistors. Discusses the key features of integrated passive components and studies basic building blocks and voltage and current references before considering in great details the design of op-amps and comparators.

The book is primarily intended for use as a graduate-level textbook and for practising engineers. It is expected that the reader should be familiar with the concepts taught in basic introductory courses in analog circuits. Relying on that proper background knowledge the book presents the material on an intuitive basis with a minimum use of mathematical quantitative analysis. Therefore, the insight induced by the book will favour that kind of knowledge gathering required for the design of high-performance analog circuits. The book favours this important process with a number of inserts providing hints or advises on key features of the topic studied.

An interesting peculiarity of the book is the use of numbers. The equations describing the circuit operation are guidelines for the designer. It is important to assess performances in a quantitative way. To achieve this target the book provides a number of examples on computer simulations using Spice. Moreover, in order to acquire the feeling of the technological progress, three different hypothetical technologies are addressed and used.

Detailed examples and the many problems make Analog Design for CMOS VLSI Systems a comprehensive textbook for a graduate-level course on analog circuit design. Moreover, the book will efficiently serve the practical needs of a wide range of circuit design and system design engineers.

This book describes new circuits and systems for implantable wireless neural monitoring systems and explains the design of a batteryless, remotely-powered implantable micro-system, designed for continuous neural monitoring. Following new trends in implantable biomedical applications, the authors demonstrate a system which is capable of efficient remote powering and reliable data communication. Novel architecture and design methodologies are used for low power and small area wireless communication link. Additionally, hermetically sealed packaging and in-vivo validation of the implantable device is presented.

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This book describes new circuits and systems for implantable wireless neural monitoring systems and explains the design of a batteryless, remotely-powered implantable micro-system, designed for continuous neural monitoring. Following new trends in implantable biomedical applications, the authors demonstrate a system which is capable of efficient remote powering and reliable data communication. Novel architecture and design methodologies are used for low power and small area wireless communication link. Additionally, hermetically sealed packaging and in-vivo validation of the implantable device is presented.

This book describes new circuits and systems for implantable biomedical applications and explains the design of a batteryless, remotely-powered implantable micro-system, designed for long-term patient monitoring. Following new trends in implantable biomedical applications, the authors demonstrate a system which is capable of efficient, remote powering and reliable data communication. Novel architecture and design methodologies are used to transfer power with a low-power, optimized inductive link and data is transmitted by a reliable communication link. Additionally, an electro-mechanical solution is presented for tracking and monitoring the implantable system, while the patient is mobile.