Fundamentals of instrumentation and measurement [[electronic resource] /] / edited by Dominique Placko |
Autore | Placko Dominique |
Edizione | [1st edition] |
Pubbl/distr/stampa | London ; ; Newport Beach, Calif., : ISTE, c2007 |
Descrizione fisica | 1 online resource (556 p.) |
Disciplina |
530.8
620.0044 |
Altri autori (Persone) | PlackoDominique |
Collana | Instrumentation and measurement series |
Soggetto topico |
Measurement
Engineering instruments Scientific apparatus and instruments Detectors |
ISBN |
1-118-61364-3
1-280-84771-9 9786610847716 0-470-61202-9 0-470-39467-6 1-84704-589-8 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Fundamentals 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
1.7.4. 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 1.10. 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 2.2. 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 2.5.1. 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(λ ) 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 3.1.5. Radiation exchanges between a source and a detector |
Record Nr. | UNINA-9910677545203321 |
Placko Dominique
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||
London ; ; Newport Beach, Calif., : ISTE, c2007 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Fundamentals of instrumentation and measurement [[electronic resource] /] / edited by Dominique Placko |
Autore | Placko Dominique |
Edizione | [1st edition] |
Pubbl/distr/stampa | London ; ; Newport Beach, Calif., : ISTE, c2007 |
Descrizione fisica | 1 online resource (556 p.) |
Disciplina |
530.8
620.0044 |
Altri autori (Persone) | PlackoDominique |
Collana | Instrumentation and measurement series |
Soggetto topico |
Measurement
Engineering instruments Scientific apparatus and instruments Detectors |
ISBN |
1-118-61364-3
1-280-84771-9 9786610847716 0-470-61202-9 0-470-39467-6 1-84704-589-8 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Fundamentals 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
1.7.4. 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 1.10. 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 2.2. 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 2.5.1. 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(λ ) 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 3.1.5. Radiation exchanges between a source and a detector |
Record Nr. | UNISA-996216943903316 |
Placko Dominique
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||
London ; ; Newport Beach, Calif., : ISTE, c2007 | ||
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Lo trovi qui: Univ. di Salerno | ||
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Giant magnetoresistance (GMR) sensors : from basis to state-of-the-art applications / / Candid Reig, Susana Cardoso de Freitas, Subhas Chandra Mukhopadhyay |
Autore | Reig Candid |
Edizione | [1st ed. 2013.] |
Pubbl/distr/stampa | Heidelberg [Germany] : , : Springer, , 2013 |
Descrizione fisica | 1 online resource (xii, 299 pages) : illustrations (some color) |
Disciplina | 621.381 |
Collana | Smart Sensors, Measurement and Instrumentation |
Soggetto topico |
Spintronics
Magnetoresistance Detectors |
ISBN | 3-642-37172-8 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Giant Magnetoresistance basis -- Noise in GMR and TMR sensors -- Resistive sensor interfacing -- GMR based sensors for IC current monitoring -- GMR sensors in automotive applications -- Compass applications using GMR sensors -- Commercial-off-the-shelf GMR based sensor on board OPTOS picosatellite -- High-spatial resolution GMR sensors – Part I Application in non-destructive evaluation -- High-spatial resolution GMR sensors – Part II Application in Biomedicine -- Magnetoresistive sensors for surface imaging. |
Record Nr. | UNINA-9910438057503321 |
Reig Candid
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Heidelberg [Germany] : , : Springer, , 2013 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
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Hall-effect sensors [[electronic resource] ] : theory and applications / / by Edward Ramsden |
Autore | Ramsden Ed |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier/Newnes, c2006 |
Descrizione fisica | 1 online resource (265 p.) |
Disciplina | 681/.2 |
Soggetto topico |
Hall effect
Detectors |
Soggetto genere / forma | Electronic books. |
ISBN |
1-281-07758-5
9786611077587 0-08-052374-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Hall-Effect Sensors: Theory and Applications; Copyright Page; Contents; Chapter 1. Hall-Effect Physics; 1.1 A Quantitative Examination; 1.2 Hall Effect in Metals; 1.3 The Hall Effect in Semiconductors; 1.4 A Silicon Hall-Effect Transducer; Chapter 2. Practical Transducers; 2.1 Key Transducer Characteristics; 2.2 Bulk Transducers; 2.3 Thin-Film Transducers; 2.4 Integrated Hall Transducers; 2.5 Transducer Geometry; 2.6 The Quad Cell; 2.7 Variations on the Basic Hall-Effect Transducer; 2.8 Examples of Hall Effect Transducers; Chapter 3. Transducer Interfacing
3.1 An Electrical Transducer Model 3.2 A Model for Computer Simulation; 3.3 Voltage-Mode Biasing; 3.4 Current-Mode Biasing; 3.5 Amplifiers; 3.6 Amplifier Circuits; 3.7 Analog Temperature Compensation; 3.8 Offset Adjustment; 3.9 Dynamic Offset Cancellation Technique; Chapter 4. Integrated Sensors: Linear and Digital Devices; 4.1 Linear Sensors; 4.2 Linear Transfer Curve; 4.3 Drift; 4.4 Ratiometry; 4.5 Output Characteristics; 4.6 Bandwidth; 4.7 Noise; 4.8 Power Supply Requirements for Linear Sensors; 4.9 Temperature Range; 4.10 Field-Programmable Linear Sensors; 4.11 Typical Linear Devices 4.12 Switches and Latches 4.13 Definition of Switch vs. Latch; 4.14 Switchpoint Stability; 4.15 Bipolar Switches; 4.16 Power Supply Requirements for Digital Sensors; 4.17 Output Drivers; 4.18 Typical Digital Devices; Chapter 5. Interfacing to Integrated Hall-Effect Devices; 5.1 Interface Issues-Linear Output Sensors; 5.2 Offset and Gain Adjustment; 5.3 Output Thresholding; 5.4 Interfacing to Switches and Latches; 5.5 The Pull-Up Resistor; 5.6 Interfacing to Standard Logic Devices; 5.7 Discrete Logic; 5.8 Driving Loads; 5.9 LED Interfaces; 5.10 Incandescent Lamps 5.11 Relays, Solenoids, and Inductive Loads 5.12 Wiring-Reduction Schemes; 5.13 Encoding and Serialization; 5.14 Digital-to-Analog Encoding; 5.15 Mini-Networks; 5.16 Voltage Regulation and Power Management; Chapter 6. Proximity-Sensing Techniques; 6.1 Head-On Sensing; 6.2 Slide-By Sensing; 6.3 Magnet Null-Point Sensing; 6.4 Float-Level Sensing; 6.5 Linear Position Sensing; 6.6 Rotary Position Sensing; 6.7 Vane Switches; 6.8 Some Thoughts on Designing Proximity Sensors; Chapter 7. Current-Sensing Techniques; 7.1 Resistive Current Sensing; 7.2 Free-Space Current Sensing 7.3 Free-Space Current Sensors II 7.4 Toroidal Current Sensors; 7.5 Analysis of Slotted Toroid; 7.6 Toroid Material Selection and Issues; 7.7 Increasing Sensitivity with Multiple Turns; 7.8 An Example Current Sensor; 7.9 A Digital Current Sensor; 7.10 Integrated Current Sensors; 7.11 Closed-Loop Current Sensors; Chapter 8. Speed and Timing Sensors; 8.1 Competitive Technologies; 8.2 Magnetic Targets; 8.3 Vane Switches; 8.4 Geartooth Sensing; 8.5 Geartooth Sensor Architecture; 8.6 Single-Point Sensing; 8.7 Single-Point/Fixed-Threshold Schemes; 8.8 Single-Point/Dynamic-Threshold Schemes 8.9 Differential Geartooth Sensors |
Record Nr. | UNINA-9910451078503321 |
Ramsden Ed
![]() |
||
Amsterdam ; ; Boston, : Elsevier/Newnes, c2006 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Hall-effect sensors [[electronic resource] ] : theory and applications / / by Edward Ramsden |
Autore | Ramsden Ed |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier/Newnes, c2006 |
Descrizione fisica | 1 online resource (265 p.) |
Disciplina | 681/.2 |
Soggetto topico |
Hall effect
Detectors |
ISBN |
1-281-07758-5
9786611077587 0-08-052374-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Hall-Effect Sensors: Theory and Applications; Copyright Page; Contents; Chapter 1. Hall-Effect Physics; 1.1 A Quantitative Examination; 1.2 Hall Effect in Metals; 1.3 The Hall Effect in Semiconductors; 1.4 A Silicon Hall-Effect Transducer; Chapter 2. Practical Transducers; 2.1 Key Transducer Characteristics; 2.2 Bulk Transducers; 2.3 Thin-Film Transducers; 2.4 Integrated Hall Transducers; 2.5 Transducer Geometry; 2.6 The Quad Cell; 2.7 Variations on the Basic Hall-Effect Transducer; 2.8 Examples of Hall Effect Transducers; Chapter 3. Transducer Interfacing
3.1 An Electrical Transducer Model 3.2 A Model for Computer Simulation; 3.3 Voltage-Mode Biasing; 3.4 Current-Mode Biasing; 3.5 Amplifiers; 3.6 Amplifier Circuits; 3.7 Analog Temperature Compensation; 3.8 Offset Adjustment; 3.9 Dynamic Offset Cancellation Technique; Chapter 4. Integrated Sensors: Linear and Digital Devices; 4.1 Linear Sensors; 4.2 Linear Transfer Curve; 4.3 Drift; 4.4 Ratiometry; 4.5 Output Characteristics; 4.6 Bandwidth; 4.7 Noise; 4.8 Power Supply Requirements for Linear Sensors; 4.9 Temperature Range; 4.10 Field-Programmable Linear Sensors; 4.11 Typical Linear Devices 4.12 Switches and Latches 4.13 Definition of Switch vs. Latch; 4.14 Switchpoint Stability; 4.15 Bipolar Switches; 4.16 Power Supply Requirements for Digital Sensors; 4.17 Output Drivers; 4.18 Typical Digital Devices; Chapter 5. Interfacing to Integrated Hall-Effect Devices; 5.1 Interface Issues-Linear Output Sensors; 5.2 Offset and Gain Adjustment; 5.3 Output Thresholding; 5.4 Interfacing to Switches and Latches; 5.5 The Pull-Up Resistor; 5.6 Interfacing to Standard Logic Devices; 5.7 Discrete Logic; 5.8 Driving Loads; 5.9 LED Interfaces; 5.10 Incandescent Lamps 5.11 Relays, Solenoids, and Inductive Loads 5.12 Wiring-Reduction Schemes; 5.13 Encoding and Serialization; 5.14 Digital-to-Analog Encoding; 5.15 Mini-Networks; 5.16 Voltage Regulation and Power Management; Chapter 6. Proximity-Sensing Techniques; 6.1 Head-On Sensing; 6.2 Slide-By Sensing; 6.3 Magnet Null-Point Sensing; 6.4 Float-Level Sensing; 6.5 Linear Position Sensing; 6.6 Rotary Position Sensing; 6.7 Vane Switches; 6.8 Some Thoughts on Designing Proximity Sensors; Chapter 7. Current-Sensing Techniques; 7.1 Resistive Current Sensing; 7.2 Free-Space Current Sensing 7.3 Free-Space Current Sensors II 7.4 Toroidal Current Sensors; 7.5 Analysis of Slotted Toroid; 7.6 Toroid Material Selection and Issues; 7.7 Increasing Sensitivity with Multiple Turns; 7.8 An Example Current Sensor; 7.9 A Digital Current Sensor; 7.10 Integrated Current Sensors; 7.11 Closed-Loop Current Sensors; Chapter 8. Speed and Timing Sensors; 8.1 Competitive Technologies; 8.2 Magnetic Targets; 8.3 Vane Switches; 8.4 Geartooth Sensing; 8.5 Geartooth Sensor Architecture; 8.6 Single-Point Sensing; 8.7 Single-Point/Fixed-Threshold Schemes; 8.8 Single-Point/Dynamic-Threshold Schemes 8.9 Differential Geartooth Sensors |
Record Nr. | UNINA-9910784062003321 |
Ramsden Ed
![]() |
||
Amsterdam ; ; Boston, : Elsevier/Newnes, c2006 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Hall-effect sensors : theory and applications / / by Edward Ramsden |
Autore | Ramsden Ed |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier/Newnes, c2006 |
Descrizione fisica | 1 online resource (265 p.) |
Disciplina | 681/.2 |
Soggetto topico |
Hall effect
Detectors |
ISBN |
1-281-07758-5
9786611077587 0-08-052374-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Hall-Effect Sensors: Theory and Applications; Copyright Page; Contents; Chapter 1. Hall-Effect Physics; 1.1 A Quantitative Examination; 1.2 Hall Effect in Metals; 1.3 The Hall Effect in Semiconductors; 1.4 A Silicon Hall-Effect Transducer; Chapter 2. Practical Transducers; 2.1 Key Transducer Characteristics; 2.2 Bulk Transducers; 2.3 Thin-Film Transducers; 2.4 Integrated Hall Transducers; 2.5 Transducer Geometry; 2.6 The Quad Cell; 2.7 Variations on the Basic Hall-Effect Transducer; 2.8 Examples of Hall Effect Transducers; Chapter 3. Transducer Interfacing
3.1 An Electrical Transducer Model 3.2 A Model for Computer Simulation; 3.3 Voltage-Mode Biasing; 3.4 Current-Mode Biasing; 3.5 Amplifiers; 3.6 Amplifier Circuits; 3.7 Analog Temperature Compensation; 3.8 Offset Adjustment; 3.9 Dynamic Offset Cancellation Technique; Chapter 4. Integrated Sensors: Linear and Digital Devices; 4.1 Linear Sensors; 4.2 Linear Transfer Curve; 4.3 Drift; 4.4 Ratiometry; 4.5 Output Characteristics; 4.6 Bandwidth; 4.7 Noise; 4.8 Power Supply Requirements for Linear Sensors; 4.9 Temperature Range; 4.10 Field-Programmable Linear Sensors; 4.11 Typical Linear Devices 4.12 Switches and Latches 4.13 Definition of Switch vs. Latch; 4.14 Switchpoint Stability; 4.15 Bipolar Switches; 4.16 Power Supply Requirements for Digital Sensors; 4.17 Output Drivers; 4.18 Typical Digital Devices; Chapter 5. Interfacing to Integrated Hall-Effect Devices; 5.1 Interface Issues-Linear Output Sensors; 5.2 Offset and Gain Adjustment; 5.3 Output Thresholding; 5.4 Interfacing to Switches and Latches; 5.5 The Pull-Up Resistor; 5.6 Interfacing to Standard Logic Devices; 5.7 Discrete Logic; 5.8 Driving Loads; 5.9 LED Interfaces; 5.10 Incandescent Lamps 5.11 Relays, Solenoids, and Inductive Loads 5.12 Wiring-Reduction Schemes; 5.13 Encoding and Serialization; 5.14 Digital-to-Analog Encoding; 5.15 Mini-Networks; 5.16 Voltage Regulation and Power Management; Chapter 6. Proximity-Sensing Techniques; 6.1 Head-On Sensing; 6.2 Slide-By Sensing; 6.3 Magnet Null-Point Sensing; 6.4 Float-Level Sensing; 6.5 Linear Position Sensing; 6.6 Rotary Position Sensing; 6.7 Vane Switches; 6.8 Some Thoughts on Designing Proximity Sensors; Chapter 7. Current-Sensing Techniques; 7.1 Resistive Current Sensing; 7.2 Free-Space Current Sensing 7.3 Free-Space Current Sensors II 7.4 Toroidal Current Sensors; 7.5 Analysis of Slotted Toroid; 7.6 Toroid Material Selection and Issues; 7.7 Increasing Sensitivity with Multiple Turns; 7.8 An Example Current Sensor; 7.9 A Digital Current Sensor; 7.10 Integrated Current Sensors; 7.11 Closed-Loop Current Sensors; Chapter 8. Speed and Timing Sensors; 8.1 Competitive Technologies; 8.2 Magnetic Targets; 8.3 Vane Switches; 8.4 Geartooth Sensing; 8.5 Geartooth Sensor Architecture; 8.6 Single-Point Sensing; 8.7 Single-Point/Fixed-Threshold Schemes; 8.8 Single-Point/Dynamic-Threshold Schemes 8.9 Differential Geartooth Sensors |
Record Nr. | UNINA-9910813157203321 |
Ramsden Ed
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||
Amsterdam ; ; Boston, : Elsevier/Newnes, c2006 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
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Harnessing bistable structural dynamics for vibration control, energy harvesting and sensing / / Ryan L. Harne, K. W. Wang |
Autore | Harne Ryan L. <1985-> |
Pubbl/distr/stampa | Chichester, West Sussex, England : , : Wiley, , 2017 |
Descrizione fisica | 1 online resource (xiii, 390 pages) |
Disciplina | 620.3/7 |
Collana | THEi Wiley ebooks |
Soggetto topico |
Damping (Mechanics)
Microharvesters (Electronics) Detectors Bistability Structural dynamics |
ISBN |
1-119-12807-2
1-119-12806-4 1-119-12805-6 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910158738003321 |
Harne Ryan L. <1985->
![]() |
||
Chichester, West Sussex, England : , : Wiley, , 2017 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
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Harnessing bistable structural dynamics for vibration control, energy harvesting and sensing / / Ryan L. Harne, K. W. Wang |
Autore | Harne Ryan L. <1985-> |
Pubbl/distr/stampa | Chichester, West Sussex, England : , : Wiley, , 2017 |
Descrizione fisica | 1 online resource (xiii, 390 pages) |
Disciplina | 620.3/7 |
Collana | THEi Wiley ebooks. |
Soggetto topico |
Damping (Mechanics)
Microharvesters (Electronics) Detectors Bistability Structural dynamics |
ISBN |
1-119-12807-2
1-119-12806-4 1-119-12805-6 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910817343803321 |
Harne Ryan L. <1985->
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Chichester, West Sussex, England : , : Wiley, , 2017 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
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Health monitoring of aerospace structures [[electronic resource] ] : smart sensor technologies and signal processing / / edited by W.J. Staszewski, C. Boller, and G.R. Tomlinson |
Pubbl/distr/stampa | West Sussex, England, : Hoboken, NJ, : J. Wiley, c2004 |
Descrizione fisica | 1 online resource (288 p.) |
Disciplina |
629.134/6
629.1346 |
Altri autori (Persone) |
StaszewskiW. J
BollerC (Christian) TomlinsonGeoffrey R |
Soggetto topico |
Airplanes - Inspection
Airframes - Deterioration Space vehicles - Inspection Detectors |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-26942-1
9786610269426 0-470-09283-1 0-470-09286-6 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Health Monitoring of Aerospace Structures; Contents; List of Contributors; Preface; ACKNOWLEDGEMENTS; 1 Introduction; 1.1 Health and Usage Monitoring in Aircraft Structures - Why and How?; 1.2 Smart Solution in Aircraft Monitoring; 1.3 End-User Requirements; 1.3.1 Damage Detection; 1.3.2 Load History Monitoring; 1.4 Assessment of Monitoring Technologies; 1.5 Background of Technology Qualification Process; 1.6 Technology Qualification; 1.6.1 Philosophy; 1.6.2 Performance and Operating Requirements; 1.6.3 Qualification Evidence - Requirements and Provision; 1.6.4 Risks
1.7 Flight Vehicle Certification1.8 Summary; References; 2 Aircraft Structural Health and Usage Monitoring; 2.1 Introduction; 2.2 Aircraft Structural Damage; 2.3 Ageing Aircraft Problem; 2.4 LifeCycle Cost of Aerospace Structures; 2.4.1 Background; 2.4.2 Example; 2.5 Aircraft Structural Design; 2.5.1 Background; 2.5.2 Aircraft Design Process; 2.6 Damage Monitoring Systems in Aircraft; 2.6.1 Loads Monitoring; 2.6.2 Fatigue Monitoring; 2.6.3 Load Models; 2.6.4 Disadvantages of Current Loads Monitoring Systems; 2.6.5 Damage Monitoring and Inspections; 2.7 Non-Destructive Testing 2.7.1 Visual Inspection2.7.2 Ultrasonic Inspection; 2.7.3 Eddy Current; 2.7.4 Acoustic Emission; 2.7.5 Radiography, Thermography and Shearography; 2.7.6 Summary; 2.8 Structural Health Monitoring; 2.8.1 Vibration and Modal Analysis; 2.8.2 Impact Damage Detection; 2.9 Emerging Monitoring Techniques and Sensor Technologies; 2.9.1 Smart Structures and Materials; 2.9.2 Damage Detection Techniques; 2.9.3 Sensor Technologies; 2.9.4 Intelligent Signal Processing; 2.10 Conclusions; References; 3 Operational Load Monitoring Using Optical Fibre Sensors; 3.1 Introduction; 3.2 Fibre Optics 3.2.1 Optical Fibres3.2.2 Optical Fibre Sensors; 3.2.3 Fibre Bragg Grating Sensors; 3.3 Sensor Target Specifications; 3.4 Reliability of Fibre Bragg Grating Sensors; 3.4.1 Fibre Strength Degradation; 3.4.2 Grating Decay; 3.4.3 Summary; 3.5 Fibre Coating Technology; 3.5.1 Polyimide Chemistry and Processing; 3.5.2 Polyimide Adhesion to Silica; 3.5.3 Silane Adhesion Promoters; 3.5.4 Experimental Example; 3.5.5 Summary; 3.6 Example of Surface Mounted Operational Load Monitoring Sensor System; 3.6.1 Sensors; 3.6.2 Optical Signal Processor; 3.6.3 Optical Interconnections 3.7 Optical Fibre Strain Rosette3.8 Example of Embedded Optical Impact Detection System; 3.9 Summary; References; 4 Damage Detection Using Stress and Ultrasonic Waves; 4.1 Introduction; 4.2 Acoustic Emission; 4.2.1 Background; 4.2.2 Transducers; 4.2.3 Signal Processing; 4.2.4 Testing and Calibration; 4.3 Ultrasonics; 4.3.1 Background; 4.3.2 Inspection Modes; 4.3.3 Transducers; 4.3.4 Display Modes; 4.4 Acousto-Ultrasonics; 4.5 Guided Wave Ultrasonics; 4.5.1 Background; 4.5.2 Guided Waves; 4.5.3 Lamb Waves; 4.5.4 Monitoring Strategy; 4.6 Piezoelectric Transducers 4.6.1 Piezoelectricity and Piezoelectric Materials |
Record Nr. | UNINA-9910143173003321 |
West Sussex, England, : Hoboken, NJ, : J. Wiley, c2004 | ||
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Lo trovi qui: Univ. Federico II | ||
|
Health monitoring of aerospace structures [[electronic resource] ] : smart sensor technologies and signal processing / / edited by W.J. Staszewski, C. Boller, and G.R. Tomlinson |
Pubbl/distr/stampa | West Sussex, England, : Hoboken, NJ, : J. Wiley, c2004 |
Descrizione fisica | 1 online resource (288 p.) |
Disciplina |
629.134/6
629.1346 |
Altri autori (Persone) |
StaszewskiW. J
BollerC (Christian) TomlinsonGeoffrey R |
Soggetto topico |
Airplanes - Inspection
Airframes - Deterioration Space vehicles - Inspection Detectors |
ISBN |
1-280-26942-1
9786610269426 0-470-09283-1 0-470-09286-6 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Health Monitoring of Aerospace Structures; Contents; List of Contributors; Preface; ACKNOWLEDGEMENTS; 1 Introduction; 1.1 Health and Usage Monitoring in Aircraft Structures - Why and How?; 1.2 Smart Solution in Aircraft Monitoring; 1.3 End-User Requirements; 1.3.1 Damage Detection; 1.3.2 Load History Monitoring; 1.4 Assessment of Monitoring Technologies; 1.5 Background of Technology Qualification Process; 1.6 Technology Qualification; 1.6.1 Philosophy; 1.6.2 Performance and Operating Requirements; 1.6.3 Qualification Evidence - Requirements and Provision; 1.6.4 Risks
1.7 Flight Vehicle Certification1.8 Summary; References; 2 Aircraft Structural Health and Usage Monitoring; 2.1 Introduction; 2.2 Aircraft Structural Damage; 2.3 Ageing Aircraft Problem; 2.4 LifeCycle Cost of Aerospace Structures; 2.4.1 Background; 2.4.2 Example; 2.5 Aircraft Structural Design; 2.5.1 Background; 2.5.2 Aircraft Design Process; 2.6 Damage Monitoring Systems in Aircraft; 2.6.1 Loads Monitoring; 2.6.2 Fatigue Monitoring; 2.6.3 Load Models; 2.6.4 Disadvantages of Current Loads Monitoring Systems; 2.6.5 Damage Monitoring and Inspections; 2.7 Non-Destructive Testing 2.7.1 Visual Inspection2.7.2 Ultrasonic Inspection; 2.7.3 Eddy Current; 2.7.4 Acoustic Emission; 2.7.5 Radiography, Thermography and Shearography; 2.7.6 Summary; 2.8 Structural Health Monitoring; 2.8.1 Vibration and Modal Analysis; 2.8.2 Impact Damage Detection; 2.9 Emerging Monitoring Techniques and Sensor Technologies; 2.9.1 Smart Structures and Materials; 2.9.2 Damage Detection Techniques; 2.9.3 Sensor Technologies; 2.9.4 Intelligent Signal Processing; 2.10 Conclusions; References; 3 Operational Load Monitoring Using Optical Fibre Sensors; 3.1 Introduction; 3.2 Fibre Optics 3.2.1 Optical Fibres3.2.2 Optical Fibre Sensors; 3.2.3 Fibre Bragg Grating Sensors; 3.3 Sensor Target Specifications; 3.4 Reliability of Fibre Bragg Grating Sensors; 3.4.1 Fibre Strength Degradation; 3.4.2 Grating Decay; 3.4.3 Summary; 3.5 Fibre Coating Technology; 3.5.1 Polyimide Chemistry and Processing; 3.5.2 Polyimide Adhesion to Silica; 3.5.3 Silane Adhesion Promoters; 3.5.4 Experimental Example; 3.5.5 Summary; 3.6 Example of Surface Mounted Operational Load Monitoring Sensor System; 3.6.1 Sensors; 3.6.2 Optical Signal Processor; 3.6.3 Optical Interconnections 3.7 Optical Fibre Strain Rosette3.8 Example of Embedded Optical Impact Detection System; 3.9 Summary; References; 4 Damage Detection Using Stress and Ultrasonic Waves; 4.1 Introduction; 4.2 Acoustic Emission; 4.2.1 Background; 4.2.2 Transducers; 4.2.3 Signal Processing; 4.2.4 Testing and Calibration; 4.3 Ultrasonics; 4.3.1 Background; 4.3.2 Inspection Modes; 4.3.3 Transducers; 4.3.4 Display Modes; 4.4 Acousto-Ultrasonics; 4.5 Guided Wave Ultrasonics; 4.5.1 Background; 4.5.2 Guided Waves; 4.5.3 Lamb Waves; 4.5.4 Monitoring Strategy; 4.6 Piezoelectric Transducers 4.6.1 Piezoelectricity and Piezoelectric Materials |
Record Nr. | UNISA-996213234703316 |
West Sussex, England, : Hoboken, NJ, : J. Wiley, c2004 | ||
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