| Description |
xi, 231 pages : illustrations ; 24 cm |
| Series |
Analog circuits and signal processing series |
|
Analog circuits and signal processing series.
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| Contents |
Contents note continued: 2.6.2.Capacitive Sensors Basic Interfacing -- 2.6.3.Temperature Sensors: Basic Interfacing and Control Systems -- References -- 3.The Voltage-Mode Approach in Sensor Interfaces Design -- 3.1.Introduction to Voltage-Mode Resistive Sensor Interfaces -- 3.2.The DC Excitation Voltage for Resistive Sensors -- 3.2.1.Uncalibrated DC-Excited Sensor Based Solutions -- 3.2.2.Fast DC-Excited Resistive Sensor Interfaces -- 3.3.The AC Excitation Voltage for Resistive Sensors -- 3.3.1.Uncalibrated AC-Excited Sensor Based Solutions -- 3.3.2.Evolutions of AC-Excited Sensor Based Solutions -- 3.3.3.Fast Uncalibrated AC-Excited Sensor Interfaces with Reduced Measurement Times -- 3.4.Voltage-Mode Approach in Capacitive Sensor Interfacing -- 3.5.Temperature Sensor Interfaces: Circuits for Temperature Control -- 3.5.1.An Integrated Temperature Control System for Resistive Gas Sensors -- References -- 4.The Current-Mode Approach in Sensor Interfaces Design -- |
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Contents note continued: 4.1.Introduction to Current-Mode Resistive Sensor Interfaces -- 4.2.The AC Excitation Voltage for Resistive/Capacitive Sensors -- 4.2.1.Wien Oscillators as Small Range Resistive/Capacitive Sensor Interfaces -- 4.2.2.Astable Multivibrator as Wide Range Resistive/Capacitive Sensor Interface -- 4.2.3.Uncalibrated Solution for High-Value Wide-Range Resistive/Capacitive Sensors -- 4.2.4.Uncalibrated Solution for Small-Range Resistive Sensors -- 4.3.Uncalibrated DC-Excited Resistive Sensor Interface -- References -- 5.Detection of Small and Noisy Signals in Sensor Interfacing: The Analog Lock-in Amplifier -- 5.1.Signal Recovery Techniques Overview: The SNR Enhancement -- 5.2.The Lock-in Amplifier -- 5.3.An Integrated LV LP Analog Lock-in Amplifier for Low Concentration Detection of Gas -- 5.4.An Automatic Analog Lock-in Amplifier for Accurate Detection of Very Small Gas Quantities -- References -- Appendix 1 The Second Generation Current-Conveyor (CCII) -- |
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Contents note continued: Appendix 2 Noise and Offset Compensation Techniques -- References |
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Machine generated contents note: 1.Physical and Chemical Sensors -- 1.1.Sensors and Transducers: Principles, Classifications and Characteristics -- 1.2.Sensor Main Parameters -- 1.3.Piezoelectric, Ferroelectric, Electret and Pyroelectric Sensors -- 1.4.Magnetic Field Sensors -- 1.5.Optical Radiation Sensors -- 1.6.Displacement and Force Sensors -- 1.7.Ion-Selective Electrodes Based Sensors -- 1.8.Gas Chromatograph and Gas Sensors -- 1.9.Humidity Sensors -- 1.10.Biosensors and Biomedical Sensors -- References -- 2.Resistive, Capacitive and Temperature Sensor Interfacing Overview -- 2.1.Resistive Sensors -- 2.2.Capacitive Sensors -- 2.3.Temperature and Thermal Sensors -- 2.4.Smart Sensor Systems -- 2.5.Circuits for Sensor Applications: Sensor Interfaces -- 2.5.1.Low-Voltage Low-Power Voltage-Mode and Current-Mode Analog Sensor Interfaces -- 2.6.Basic Sensor Interfacing Techniques: Introduction to Signal Conditioning -- 2.6.1.Resistive Sensors Basic Interfacing -- |
| Notes |
Formerly CIP. Uk |
| Bibliography |
Includes bibliographical references and index |
| Subject |
Integrated circuits.
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Metal oxide semiconductors, Complementary -- Design.
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| Author |
Ferri, Giuseppe, 1965-
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| LC no. |
2011931893 |
| ISBN |
9789048198276 (cased) |
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9789048198283 (eISBN) |
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