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010   $a9786610847716
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100   $a20060623d2007      uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aFundamentals of instrumentation and measurement$b[electronic resource] /$fedited by Dominique Placko
205   $a1st edition
210   $aLondon ;$aNewport Beach, Calif. $cISTE$dc2007
215   $a1 online resource (556 p.)
225 1 $aInstrumentation and measurement series
300   $a"First published in France in 2000 by Herme?s Science Publications in two volumes entitled 'Mesure et instrumentation'"--T.p. verso.
311   $a1-905209-39-8 
320   $aIncludes bibliographical references and index.
327   $aFundamentals of Instrumentation and Measurement; Table of Contents; Introduction; Chapter 1. Measurement Instrumentation; 1.1. General introduction and definitions; 1.2. The historical aspects of measurement; 1.3. Terminology: measurement, instrumentation and metrology; 1.4. MIM interactions: measurement-instrumentation-metrology; 1.5. Instrumentation; 1.6. Is a classification of instruments possible?; 1.6.1. Classification of instruments used in cars; 1.7. Instrument modeling; 1.7.1. Model of a measurement instrument; 1.7.2. Load effects; 1.7.3. Estimating load effects
327   $a1.7.4. Effort and flow variables1.7.5. Features and operating points of a system; 1.7.6. Generalized impedance; 1.7.7. Determining the load effect; 1.7.8. Measurement with a car battery; 1.7.9. Determining impedances; 1.7.10. Generalized admittance; 1.8. Characteristics of an instrument; 1.8.1. Components of static transfer functions; 1.8.2. Dynamic characteristics; 1.8.3. Instrument performance; 1.8.4. Combining transfer functions; 1.9. Implementing measurement acquisition; 1.9.1. Principles and methodology of measurement; 1.9.2. Field measurement constraints: instrumentation on the road
327   $a1.10. Analyzing measurements obtained by an instrument1.10.1. Error reduction; 1.10.2. Base definitions; 1.11. Partial conclusion; 1.12. Electronic instrumentation; 1.13. Electronic instrumentation functionality; 1.13.1. Programmable instrumentation; 1.13.2. Example of an electronic instrument: how a piezoelectric sensor detects rattle in a combustion engine; 1.14. The role of instrumentation in quality control; 1.15. Conclusion; 1.16. Appendix; 1.17. Bibliography; Chapter 2. General Principles of Sensors; 2.1. General points; 2.1.1. Basic definitions; 2.1.2. Secondary definitions
327   $a2.2. Metrological characteristics of sensors2.2.1. Systematic errors; 2.2.2. Random uncertainties; 2.2.3. Analyzing random errors and uncertainties; 2.2.3.1. Evaluating random uncertainties. Standard deviations. Variances; 2.2.3.2. Decisions about random uncertainties; 2.2.3.3. Reliability, accuracy, precision; 2.3. Sensor calibration; 2.3.1. Simple calibration; 2.3.2. Multiple calibration; 2.3.3. Linking international measurement systems; 2.4. Band pass and response time; 2.4.1. Harmonic response; 2.4.2. Response time; 2.5. Passive sensor conditioners
327   $a2.5.1. The effect of polarization instabilities2.5.2. Effects of influence variables; 2.5.3. Conditioners of complex impedance sensors; 2.6. Conditioners for active sensors; 2.6.1. Direct reading; 2.6.2. Using operational amplifiers; 2.7. Bibliography; Chapter 3. Physical Principles of Optical, Thermal and Mechanical Sensors; 3.1. Optical sensors; 3.1.1. Energetic flux; 3.1.2. Luminous flux; 3.1.3. The relative luminous efficiency curve V(? ) of the human eye; 3.1.4. The black body: a reference for optical sensors; 3.1.4.1. Black body radiation; 3.1.4.2. Realization of black bodies
327   $a3.1.5. Radiation exchanges between a source and a detector
330   $aThis title presents the general principles of instrumentation processes. It explains the theoretical analysis of physical phenomena used by standard sensors and transducers to transform a physical value into an electrical signal. The pre-processing of these signals through electronic circuits - amplification, signal filtering and analog-to-digital conversion - is then detailed, in order to provide useful basic information. Attention is then given to general complex systems. Topics covered include instrumentation and measurement chains, sensor modeling, digital signal processing and diagnosti
410  0$aInstrumentation and measurement series.
606   $aMeasurement
606   $aEngineering instruments
606   $aScientific apparatus and instruments
606   $aDetectors
615  0$aMeasurement.
615  0$aEngineering instruments.
615  0$aScientific apparatus and instruments.
615  0$aDetectors.
676   $a530.8
676   $a620.0044
700   $aPlacko$b Dominique$01339521
701   $aPlacko$b Dominique$01339521
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a996216943903316
996   $aFundamentals of instrumentation and measurement$93065875
997   $aUNISA