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This book is an up-to-date text on electronic circuit design. The subject is dealt with from an experimental point of view, but this has not restricted the author to well-known or simple circuits. Indeed, some very recent and quite advanced circuit ideas are put forward for experimental work. Each chapter takes up a particular type of circuit, and then leads the reader on to gain an understanding of how these circuits work by proposing experimental circuits for the reader to build and make measurements on. This is the first book to take such a practical approach to this level. The book will be useful to final year undergraduates and postgraduates in electronics, practising engineers, and workers in all fields where electronic instrumentation is used and there is a need to understand electronics and the interface between the instrument and the user's own experimental system. The book's references will also be a very helpful guide to the literature.
Providing an introduction to good engineering practice for electrical and electronic engineers, this book is intended for first- and second-year undergraduate courses. It deals with engineering practice in relation to important topics such as reliability and maintainability, heat management and parasitic electrical effects, environmental influences, testing and safety. The coverage encompasses the properties, behaviour, fabrication and use of materials and components used in the fields of computing, digital systems, instrumentation, and control. The second edition has been revised extensively to reflect advances in technology, with new material on insulation-displacement jointing and electrical-safety testing.
Electronics for Scientists provides comprehensive coverage of a vital part of modern science courses. This book will give students and experimentalists a thorough knowledge of the concepts involved and their applications to practical situations. The text is graded into three parts, and is illustrated with line diagrams, plots from circuit simulators and photographs from oscilloscope traces. Part One assumes very little prior knowledge of electronics and provides a foundation for the book. Recognising that in the fast-moving electronic instrumentation industry, most instruments have a market lifetime of only a few years, in Parts 2 and 3, descriptions of specific circuits are deliberately avoided. Instead the 'electronic building blocks' approach is adopted, so that any instrument, old or brand new, can be analysed on a functional basis. Electronics for Scientists will be essential reading for all undergraduate science students and experimentalists using commercially available electronic instruments or innovating their own instruments for specific applications.
This book introduces the basic mathematical tools used to describe noise and its propagation through linear systems and provides a basic description of the improvement of signal-to-noise ratio by signal averaging and linear filtering. The text also demonstrates how op amps are the keystone of modern analog signal conditioning systems design, and il
A mainstream undergraduate text on electronic measurement for electrical and electronic engineers.
This book presents innovative solutions in the design of precision instrumentation amplifier and read-out ICs, which can be used to boost millivolt-level signals transmitted by modern sensors, to levels compatible with the input ranges of typical Analog-to-Digital Converters (ADCs). The discussion includes the theory, design and realization of interface electronics for bridge transducers and thermocouples. It describes the use of power efficient techniques to mitigate low frequency errors, resulting in interface electronics with high accuracy, low noise and low drift. Since this book is mainly about techniques for eliminating low frequency errors, it describes the nature of these errors and the associated dynamic offset cancellation techniques used to mitigate them.