Principles of electronic instrumentation
著者
書誌事項
Principles of electronic instrumentation
Edward Arnold, 1990
2nd ed
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注記
Includes bibliographical references and index
内容説明・目次
内容説明
This second edition includes additional chapters on micro-electronic device technology, transducers and optoelectronic measurements. Emphasis is placed on physical principles and their practical implementation.
目次
- Part 1 Modern semiconductor devices: physical basis of semiconductor device operation
- single junction devices
- optoelectronic devices and displays
- bulk semiconductor mechanisms. Part 2 Microelectrical device technology: the planar technique
- preparation of a pure silicon slice and controlled oxidation
- preparation of masks and photolithography
- selective doping
- thin-film deposition, isolation, interconnection and encapsulation
- microcircuit functions and limits of circuit integration. Part 3 Linear circuit design and building blocks of analogue circuiting: black box representation
- equivalent circuits
- interrelation between the various parameters
- analysis of commonly used linear circuits
- high frequency circuits in general
- large - signal circuit design criteria
- building blocks of analogue circuiting. Part 4 Logic design and building blocks of digital circuiting: Boolean algebra and the physical implementation of its concepts
- minimisation of Boolean expressions
- binary numbers and codes
- digital IC terminology
- families of digital IC's
- combinational logic circuits and some commonly used MSI functional circuits assemblies
- sequential logic systems
- monastable circuits and clock pulse generators
- digital memories
- microprocessors. Part 5 Principles of digital-to-analogue converters and analogue-to-digital converters: digital to analogue - types of converters - converter terminology - conversion with magnitude and sign
- analogue to digital - types of converters - converter terminology
- appropriate choice of converters for certain applications. Part 6 Feedback theory and its applications: basic mathematical concepts in feedback theory
- flow diagrams and linear feedback systems
- feedback and its consequences
- instability of linear feedback systems
- stabilisation techniques
- practical applications. Part 7 Transducers: transducer terminology
- types of transducers
- conversion of optical signals into electrical ones
- modern digital transducers. Part 8 Frequency analysis: some properties of Fourier transforms and their applications
- spectral representation of signals
- some statistical techniques in signal analysis
- 2-transforms and sampled signals
- the time domain and frequency domain
- convultion, correlation and power spectra of waveforms
- sampling and reconstitution of electronic signals
- filters
- references. Part 9 Noise: sources of fundamental noise
- environmental noise - sources and minimisation
- noise measurements
- some commonly encountered experimental situations. Part 10 Principles of signal recovery: basic mathematical concepts and their physical implementation
- filtering
- signal recovery by autocorrelation
- phase-sensitive detection
- signal recovery by autocorrelation
- multipoint correlation by digital technique
- warehouse recovery
- multichannel averager
- the "box-car" detector
- computer-aided signal recovery.
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