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by Vadim P. Deynega, Nestor O. Shpak, Sergey Y. Yurish, Nikolay V. Kirianaki
Data Acquisition and Signal Processing for Smart Sensors
Cover Page
Title Page
Copyright
CONTENTS
PREFACE
Who Should Read this Book?
How this Book is Organized
LIST OF ABBREVIATIONS AND SYMBOLS
INTRODUCTION
CHAPTER 1: SMART SENSORS FOR ELECTRICAL AND NON-ELECTRICAL, PHYSICAL AND CHEMICAL VARIABLES: TENDENCIES AND PERSPECTIVES
1.1 Temperature IC and Smart Sensors
1.2 Pressure IC and Smart Sensors and Accelerometers
1.3 Rotation Speed Sensors
1.4 Intelligent Opto Sensors
1.5 Humidity Frequency Output Sensors
1.6 Chemical and Gas Smart Sensors
Summary
CHAPTER 2: CONVERTERS FOR DIFFERENT VARIABLES TO FREQUENCY-TIME PARAMETERS OF THE ELECTRIC SIGNAL
2.1 Voltage-to-Frequency Converters (VFCs)
2.2 Capacitance-to-Period (or Duty-Cycle) Converters
Summary
CHAPTER 3: DATA ACQUISITION METHODS FOR MULTICHANNEL SENSOR SYSTEMS
3.1 Data Acquisition Method with Time-Division Channelling
3.2 Data Acquisition Method with Space-Division Channelling
3.3 Smart Sensor Architectures and Data Acquisition
3.4 Main Errors of Multichannel Data Acquisition Systems
3.5 Data Transmission and Error Protection
Summary
CHAPTER 4: METHODS OF FREQUENCY-TO-CODE CONVERSION
4.1 Standard Direct Counting Method (Frequency Measurement)
4.2 Indirect Counting Method (Period Measurement)
4.3 Combined Counting Method
4.4 Method for Frequency-to-Code Conversion Based on Discrete Fourier Transformation
4.5 Methods for Phase-Shift-to-Code Conversion
Summary
CHAPTER 5: ADVANCED AND SELF-ADAPTING METHODS OF FREQUENCY-TO-CODE CONVERSION
5.1 Ratiometric Counting Method
5.2 Reciprocal Counting Method
5.3 M/T Counting Method
5.4 Constant Elapsed Time (CET) Method
5.5 Single- and Double-Buffered Methods
5.6 DMA Transfer Method
5.7 Method of Dependent Count
5.8 Method with Non-Redundant Reference Frequency
5.9 Comparison of Methods
5.10 Advanced Method for Phase-Shift-to-Code Conversion
Summary
CHAPTER 6: SIGNAL PROCESSING IN QUASI-DIGITAL SMART SENSORS
6.1 Main Operations in Signal Processing
6.2 Weight Functions, Reducing Quantization Error
Summary
CHAPTER 7: DIGITAL OUTPUT SMART SENSORS WITH SOFTWARE-CONTROLLED PERFORMANCES AND FUNCTIONAL CAPABILITIES
7.1 Program-Oriented Conversion Methods Based on Ratiometric Counting Technique
7.2 Design Methodology for Program-Oriented Conversion Methods
7.3 Adaptive PCM with Increased Speed
7.4 Error Analysis of PCM
7.5 Correction of PCM's Systematic Errors
7.6 Modified Method of Algorithm Merging for PCMs
Summary
CHAPTER 8: MULTICHANNEL INTELLIGENT AND VIRTUAL SENSOR SYSTEMS
8.1 One-Channel Sensor Interfacing
8.2 Multichannel Sensor Interfacing
8.3 Multichannel Adaptive Sensor System with Space-Division Channelling
8.4 Multichannel Sensor Systems with Time-Division Channelling
8.5 Multiparameters Sensors
8.6 Virtual Instrumentation for Smart Sensors
8.7 Estimation of Uncertainty for Virtual Instruments
Summary
CHAPTER 9: SMART SENSOR DESIGN AT SOFTWARE LEVEL
9.1 Microcontroller Core for Smart Sensors
9.2 Low-Power Design Technique for Embedded Microcontrollers
Summary
CHAPTER 10: SMART SENSOR BUSES AND INTERFACE CIRCUITS
10.1 Sensor Buses and Network Protocols
10.2 Sensor Interface Circuits
Summary
FUTURE DIRECTIONS
REFERENCES
APPENDIX A: WHAT IS ON THE SENSORS WEB PORTAL?
GLOSSARY OF SMART SENSOR TERMS
INDEX
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