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The standard laboratory tools in the modern scientific world include a wide variety of electronic instruments used in measurement and control systems. This book provides a firm foundation in principles, operation, design, and applications of electronic instruments. Commencing with electromechanical instruments, the specialized instruments such as signal analyzers, counters, signal generators, and digital storage oscilloscope are treated in detail. Good design practices such as grounding and shielding are emphasized. The standards in quality management, basics of testing, compatibility, calibration, traceability, metrology and various ISO 9000 quality assurance guidelines are explained as well. The evolution of communication technology in instrumentation is an important subject. A single chapter is devoted to the study of communication methods used in instrumentation technology. There are some areas where instrumentation needs special type of specifications-one such area is hazardous area. The technology and standards used in hazardous areas are also discussed. An instrumentation engineer is expected to draw and understand the instrumentation drawings. An Appendix explains the symbols and standards used in P&I diagrams with several examples. Besides worked-out examples included throughout, end-of-chapter questions and multiple choice questions are also given to judge the student's understanding of the subject. Practical and state-of-the-art in approach, this textbook will be useful for students of electrical, electronics, and instrumentation engineering.
This text integrates engineering principles with real applications from a systems perspective, providing a framework for developing electronic instrumentation, from hand-held devices to consoles. It offers practical design solutions, describes the interactions, trade-offs, and priorities encountered and then gives specific examples. Written as a principle text for a senior design class, it also serves as a reference handbook for practicing engineers. While the focus is on projects often found in medium sized companies, many of the principles presented apply to larger companies as well.
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.
The book provides a readable introduction to ordinary workshop and laboratory instrumentation. Material is presented through a careful blend of theory and practice to provide a practical book for those who will soon be in the real world, working with electronics. KEY TOPICS: Contains a section on measurement math and statistics. Discusses technology from the late 19 century to the present to provide a context for the development of current and future technological innovations. Presents the theories and process of measurement to provide readers with an understanding of the practical uses of the instruments being studied. Includes practical material that is oriented toward various fields of measurement: electronic communications, audio, components testing, medical electronics and servicing.
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.
Design and Development of Medical Electronic Instrumentation fills a gap in the existing medical electronic devices literature by providing background and examples of how medical instrumentation is actually designed and tested. The book includes practical examples and projects, including working schematics, ranging in difficulty from simple biopotential amplifiers to computer-controlled defibrillators. Covering every stage of the development process, the book provides complete coverage of the practical aspects of amplifying, processing, simulating and evoking biopotentials. In addition, two chapters address the issue of safety in the development of electronic medical devices, and providing valuable insider advice.
Instrument Technology, Volume 3: Telemetering and Automatic Control deals with advances in telemetering instruments used in automatic control of industrial processes. The focus is on instruments used to transmit to a control room an indication of the value of a measured variable, and on instruments and mechanisms used to control process variables. The basic physical principles are discussed and the actual instruments are classified according to the principle upon which they are based. This volume consists of two chapters and begins with an overview of telemetering and pneumatic methods of telemetering. Electrical telemetering systems are described in terms of telemetering by variation of an electrical quantity, balanced bridge systems, and position systems. The second chapter discusses the theory of automatic control and illustrates the automation of temperature control in furnaces. The construction and operation of some of the simple, self-acting process controllers are explained and the more elaborate controllers are described. This monograph will be useful to students and those involved in the craft and science of instrumentation.
This book covers principles of measurement, instruments, and instrumentation...a systems viewpoint, and covers the analysis of measurement problems associated with systems.
With the availability of advanced technologies, digital systems, and communications, portable instruments are rapidly evolving from simple, stand alone, low-accuracy measuring instruments to complex multifunctional, network integrated, high-performance digital devices with advanced interface capabilities. The relatively brief treatments these instr