Introduction to Mechatronic Design

Specificaties
Gebonden, blz. | Engels
Pearson Education | 2011
ISBN13: 9780131433564
Rubricering
Pearson Education e druk, 2011 9780131433564
€ 272,14
Levertijd ongeveer 9 werkdagen
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Samenvatting

For upper level and graduate Mechatronics courses in Electrical, Computing, or Mechanical & Aerospace Engineering.

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Unlike other texts on mechatronics that focus on derivations and calculations, Introduction to Mechatronic Design, 1e, takes a narrative approach, emphasizing the importance of building intuition and understanding before diving into the math. The authors believe that integration is the core of mechatronics—and students must have a command of each of the domains to create the balance necessary for successful mechatronic design—and devote sections of the book to each area, including mechanical, electrical, and software disciplines, as well as a section on system design and engineering. A robust package of teaching and learning resources accompanies the book.

Specificaties

ISBN13:9780131433564
Taal:Engels
Bindwijze:Gebonden

Inhoudsopgave

<p style="MARGIN: 0px">Part 1: Introduction</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px"> Preface</p> <p style="MARGIN: 0px"><strong>Chapter 1 Introduction</strong></p> <p style="MARGIN: 0px">1.1 Philosophy</p> <p style="MARGIN: 0px">1.3 Who Should Study Mechatronics? </p> <p style="MARGIN: 0px">1.3 How to Use this Book</p> <p style="MARGIN: 0px">1.4 Summary</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">&nbsp;</p> <p style="MARGIN: 0px">Part 2: Software</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px"><strong>Chapter 2 What’s a Micro?</strong></p> <p style="MARGIN: 0px">2.1 Introduction</p> <p style="MARGIN: 0px">2.2 What IS a “Micro”?</p> <p style="MARGIN: 0px">2.3 Microprocessors, Microcontrollers, Digital Signal Processors (DSP’s) and More</p> <p style="MARGIN: 0px">2.4 Microcontroller Architecture</p> <p style="MARGIN: 0px">2.5 The Central Processing Unit (CPU)</p> <p style="MARGIN: 0px">2.5.1 Representing Numbers in the Digital Domain</p> <p style="MARGIN: 0px">2.5.2 The Arithmetic Logic Unit (ALU) </p> <p style="MARGIN: 0px">2.6 The Data Bus and the Address Bus</p> <p style="MARGIN: 0px">2.7 Memory</p> <p style="MARGIN: 0px">2.8 Subsystems and Peripherals</p> <p style="MARGIN: 0px">2.9 Von Neumann Architecture</p> <p style="MARGIN: 0px">2.10 The Harvard Architecture</p> <p style="MARGIN: 0px">2.11 Real World Examples</p> <p style="MARGIN: 0px">2.11.1 The Freescale MC9S12C32 Microcontroller</p> <p style="MARGIN: 0px">2.11.2 The Microchip PIC12F609 Microcontroller</p> <p style="MARGIN: 0px">2.12 Where to Find More Information</p> <p style="MARGIN: 0px">2.13 Homework Problems</p> <p style="MARGIN: 0px">&nbsp;</p> <p style="MARGIN: 0px"><strong>Chapter 3 Microcontroller Math and Number Manipulation</strong></p> <p style="MARGIN: 0px">3.1 Introduction</p> <p style="MARGIN: 0px">3.2 Number Bases and Counting</p> <p style="MARGIN: 0px">3.3 Representing Negative Numbers</p> <p style="MARGIN: 0px">3.4 Data Types</p> <p style="MARGIN: 0px">3.5 Sizes of Common Data Types</p> <p style="MARGIN: 0px">3.6 Arithmetic on Fixed Size Variables</p> <p style="MARGIN: 0px">3.7 Modulo Arithmetic</p> <p style="MARGIN: 0px">3.8 Math Shortcuts</p> <p style="MARGIN: 0px">3.8 Boolean Algebra</p> <p style="MARGIN: 0px">3.9 Manipulating Individual Bits</p> <p style="MARGIN: 0px">3.10 Testing Individual Bits</p> <p style="MARGIN: 0px">3.11 Homework Problems</p> <p style="MARGIN: 0px">&nbsp;</p> <p style="MARGIN: 0px"><strong>Chapter 4: Programming Languages</strong></p> <p style="MARGIN: 0px">4.1 Introduction</p> <p style="MARGIN: 0px">4.2 Machine Language</p> <p style="MARGIN: 0px">4.3 Assembly Language</p> <p style="MARGIN: 0px">4.4 High-Level Languages</p> <p style="MARGIN: 0px">4.5 Interpreters</p> <p style="MARGIN: 0px">4.6 Compilers</p> <p style="MARGIN: 0px">4.7 Hybrid Compiler/Interpreters</p> <p style="MARGIN: 0px">4.8 Integrated Development Environments (IDEs)</p> <p style="MARGIN: 0px">4.9 Choosing a Programming Language</p> <p style="MARGIN: 0px">4.10 Homework Problems</p> <p style="MARGIN: 0px">&nbsp;</p> <p style="MARGIN: 0px"><strong>Chapter 5: Program Structures for Embedded Systems</strong></p> <p style="MARGIN: 0px">5.1 Background</p> <p style="MARGIN: 0px">5.2 Event Driven Programming</p> <p style="MARGIN: 0px">5.3 Event Checkers</p> <p style="MARGIN: 0px">5.4 Services</p> <p style="MARGIN: 0px">5.5 Building an Event Driven Program</p> <p style="MARGIN: 0px">5.6 An Example</p> <p style="MARGIN: 0px">5.7 Summary of Event Driven Programming</p> <p style="MARGIN: 0px">5.8 State Machines</p> <p style="MARGIN: 0px">5.9 A State Machine in Software</p> <p style="MARGIN: 0px">5.10 The Cockroach Example as a State Machine</p> <p style="MARGIN: 0px">5.11 Summary</p> <p style="MARGIN: 0px"> Homework Problems</p> <p style="MARGIN: 0px">&nbsp;</p> <p style="MARGIN: 0px"><strong>Chapter 6 Software Design</strong></p> <p style="MARGIN: 0px">6.1 Introduction</p> <p style="MARGIN: 0px">6.2 Building as a Metaphor for Creating Software</p> <p style="MARGIN: 0px">6.3 Introducing Some Software Design Techniques</p> <p style="MARGIN: 0px">6.3.1 Decomposition</p> <p style="MARGIN: 0px">6.3.2 Abstraction and Information Hiding</p> <p style="MARGIN: 0px">6.3.3 Pseudo-Code</p> <p style="MARGIN: 0px">6.4 Software Design Process</p> <p style="MARGIN: 0px">6.4.1 Generating Requirements</p> <p style="MARGIN: 0px">6.4.2 Defining the Program Architecture</p> <p style="MARGIN: 0px">6.4.3 The Performance Specification</p> <p style="MARGIN: 0px">6.4.4 The Interface Specification</p> <p style="MARGIN: 0px">6.4.5 Detail Design</p> <p style="MARGIN: 0px">6.4.6 Implementation</p> <p style="MARGIN: 0px">6.4.6.1 Intra-Module Organization</p> <p style="MARGIN: 0px">6.4.6.2 Writing the Code</p> <p style="MARGIN: 0px">6.4.7 Unit Testing</p> <p style="MARGIN: 0px">6.4.8 Integration</p> <p style="MARGIN: 0px">6.5 The Sample Problem</p> <p style="MARGIN: 0px">6.5.1 Requirements for the Morse Code Receiver</p> <p style="MARGIN: 0px">6.5.2 The Morse Code Receiver System Architecture</p> <p style="MARGIN: 0px">6.5.3 The Morse Code Receiver Software Architecture</p> <p style="MARGIN: 0px">6.5.4 The Morse Code Receiver Performance Specifications</p> <p style="MARGIN: 0px">6.5.5 The Morse Code Receiver Interface Specification</p> <p style="MARGIN: 0px">6.5.5.1 The Button Module Interface Specification</p> <p style="MARGIN: 0px">6.5.5.2 The Morse Elements Module Interface Specification</p> <p style="MARGIN: 0px">6.5.5.3 The Morse Decode Module Interface Specification</p> <p style="MARGIN: 0px">6.5.5.4 The LCD Display Module Interface Specification</p> <p style="MARGIN: 0px">6.5.6 The Morse Code Receiver Detail Design</p> <p style="MARGIN: 0px">6.5.6.1 Button Module Detail Design</p> <p style="MARGIN: 0px">6.5.6.2 Morse Elements Detail Design</p> <p style="MARGIN: 0px">6.5.6.3 Morse Decode Detail Design</p> <p style="MARGIN: 0px">6.5.6.4 Display Detail Design</p> <p style="MARGIN: 0px">6.5.6.5 Main Detail Design</p> <p style="MARGIN: 0px">6.5.7 The Morse Code Receiver Implementation</p> <p style="MARGIN: 0px">6.5.8 The Morse Code Receiver Unit Testing. 6-28</p> <p style="MARGIN: 0px">6.5.9 The Morse Code Receiver Integration</p> <p style="MARGIN: 0px">6.6 Homework Problems</p> <p style="MARGIN: 0px">&nbsp;</p> <p style="MARGIN: 0px"><strong>Chapter 7 Communications</strong></p> <p style="MARGIN: 0px">7.1: Introduction</p> <p style="MARGIN: 0px">7.2: Without a Medium, there is no Message</p> <p style="MARGIN: 0px">7.3: Bit-Parallel and Bit-Serial Communications</p> <p style="MARGIN: 0px">7.3.1: Bit-Serial Communications</p> <p style="MARGIN: 0px">7.3.1.1: Synchronous Serial Communications</p> <p style="MARGIN: 0px">7.3.1.2: Asynchronous Serial Communications</p> <p style="MARGIN: 0px">7.3.2: Bit Parallel Communications</p> <p style="MARGIN: 0px">7.4: Signaling Levels</p> <p style="MARGIN: 0px">7.4.1: TTL/CMOS Levels</p> <p style="MARGIN: 0px">7.4.2: RS-232</p> <p style="MARGIN: 0px">7.4.3: RS-485 </p> <p style="MARGIN: 0px">7.5: Communicating Over Limited Bandwidth Channels</p> <p style="MARGIN: 0px">7.5.1: Telephones and Modems</p> <p style="MARGIN: 0px">7.5.1.1: Modulation Techniques</p> <p style="MARGIN: 0px">7.5.1.2: Amplitude Modulation (AM)</p> <p style="MARGIN: 0px">7.5.1.3: Frequency Modulation (FM)</p> <p style="MARGIN: 0px">7.5.1.4: Phase Modulation (PM)</p> <p style="MARGIN: 0px">7.5.1.5: Quadrature Amplitude Modulation (QAM)</p> <p style="MARGIN: 0px">7.6: Communicating with Light</p> <p style="MARGIN: 0px">7.7: Communicating over a Radio</p> <p style="MARGIN: 0px">7.7.1: RF Remote Controls</p> <p style="MARGIN: 0px">7.7.2: RF Data Links</p> <p style="MARGIN: 0px">7.7.3: RF Networks</p> <p style="MARGIN: 0px">7.8: Homework Problems</p> <p style="MARGIN: 0px">&nbsp;</p> <p style="MARGIN: 0px"><strong>Chapter 8 : Microcontroller Peripherals</strong></p> <p style="MARGIN: 0px">8.1 : Accessing the Control Registers</p> <p style="MARGIN: 0px">8.2 : The Parallel Input/Output Subsystem</p> <p style="MARGIN: 0px">8.2.1 : The Data Direction Register</p> <p style="MARGIN: 0px">8.2.2 : The Input/Output Register(s)</p> <p style="MARGIN: 0px">8.2.3 : Shared Function Pins</p> <p style="MARGIN: 0px">8.3 : Timer Subsystems</p> <p style="MARGIN: 0px">8.3.1 : Timer Basics</p> <p style="MARGIN: 0px">8.3.2 : Timer Overflow</p> <p style="MARGIN: 0px">8.3.3 : Output Compare</p> <p style="MARGIN: 0px">8.3.4 : Input Capture</p> <p style="MARGIN: 0px">8.3.5 : Combining Input Capture and Output Compare to Control an Engine</p> <p style="MARGIN: 0px">8.4 : Pulse Width Modulation (PWM)</p> <p style="MARGIN: 0px">8.5 : PWM Using the Output Compare System</p> <p style="MARGIN: 0px">8.6 : The Analog-to-Digital (A/D) Converter Subsystem</p> <p style="MARGIN: 0px">8.6.1 : The Process for Converting an Analog Input to a Digital Value</p> <p style="MARGIN: 0px">8.6.2 : The A/D Converter Clock</p> <p style="MARGIN: 0px">8.6.3 : Multiplexer Switching Transients and DC Effects</p> <p style="MARGIN: 0px">8.6.4 : Automating the A/D Conversion Process</p> <p style="MARGIN: 0px">8.7 : Homework Problems</p> <p style="MARGIN: 0px"></p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">&nbsp;</p> <p style="MARGIN: 0px">Part 3: Electronics</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px"><strong>Chapter 9 Basic Circuit Analysis and Passive Components</strong></p> <p style="MARGIN: 0px">9.1 Voltage, Current and Power</p> <p style="MARGIN: 0px">9.2 Circuits and Ground</p> <p style="MARGIN: 0px">9.3 Laying Down the Laws</p> <p style="MARGIN: 0px">9.4 Resistance</p> <p style="MARGIN: 0px">9.4.1 Resistors in Series and Parallel</p> <p style="MARGIN: 0px">9.4.2 The Voltage Divider</p> <p style="MARGIN: 0px">9.5 Thevenin Equivalents</p> <p style="MARGIN: 0px">9.6 Capacitors</p> <p style="MARGIN: 0px">9.6.1 Capacitors in Series and Parallel</p> <p style="MARGIN: 0px">9.6.2 Capacitors and Time-Varying Signals</p> <p style="MARGIN: 0px">9.7 Inductors</p> <p style="MARGIN: 0px">9.7.1 Inductors and Time-Varying Signals</p> <p style="MARGIN: 0px">9.8 The Time and Frequency Domains</p> <p style="MARGIN: 0px">9.9 Circuit Analysis with Multiple Component Types</p> <p style="MARGIN: 0px">9.9.1 Basic RC Circuit Configurations</p> <p style="MARGIN: 0px">9.9.2 Low-Pass RC Filter Behavior in the Time Domain</p> <p style="MARGIN: 0px">9.9.3 High-Pass RC Filter Behavior in the Time Domain</p> <p style="MARGIN: 0px">9.9.4 RL Circuit Behavior in the Time Domain</p> <p style="MARGIN: 0px">9.9.5 Low-Pass RC Filter Behavior in the Frequency Domain</p> <p style="MARGIN: 0px">9.9.6 High-Pass RC Filter Behavior in the Frequency Domain</p> <p style="MARGIN: 0px">9.9.7 High-Pass RC Filter with a DC Bias</p> <p style="MARGIN: 0px">9.10 Simulation Tools</p> <p style="MARGIN: 0px">9.10.1 Limitations of Simulation Tools</p> <p style="MARGIN: 0px">9.11 Real Voltage Sources</p> <p style="MARGIN: 0px">9.12 Real Measurements</p> <p style="MARGIN: 0px">9.12.1 Measuring Voltage</p> <p style="MARGIN: 0px">9.12.2 Measuring Current</p> <p style="MARGIN: 0px">9.13 Real Resistors</p> <p style="MARGIN: 0px">9.13.1 A Model for a Real Resistor</p> <p style="MARGIN: 0px">9.13.2 Resistor Construction Basics</p> <p style="MARGIN: 0px">9.13.3 Carbon Film Resistors</p> <p style="MARGIN: 0px">9.13.4 Metal Film Resistors</p> <p style="MARGIN: 0px">9.13.5 Power Dissipation in Resistors</p> <p style="MARGIN: 0px">9.13.6 Potentiometers</p> <p style="MARGIN: 0px">9.13.7 Multi-Resistor Packages</p> <p style="MARGIN: 0px">9.13.8 Choosing Resistors</p> <p style="MARGIN: 0px">9.14 Real Capacitors</p> <p style="MARGIN: 0px">9.14.1 A Model for a Real Capacitor</p> <p style="MARGIN: 0px">9.14.2 Capacitor Construction Basics</p> <p style="MARGIN: 0px">9.14.3 Polar vs. Non-Polar Capacitors</p> <p style="MARGIN: 0px">9.14.4 Ceramic Disk Capacitors</p> <p style="MARGIN: 0px">9.14.5 Monolithic Ceramic Capacitors</p> <p style="MARGIN: 0px">9.14.6 Aluminum Electrolytic Capacitors</p> <p style="MARGIN: 0px">9.14.7 Tantalum Capacitors</p> <p style="MARGIN: 0px">9.14.8 Film Capacitors</p> <p style="MARGIN: 0px">9.14.9 Electric Double Layer Capacitors / Super capacitors</p> <p style="MARGIN: 0px">9.14.10 Capacitor Labeling</p> <p style="MARGIN: 0px">9.14.10.1 Ceramic Capacitor (Disc and MLC) Labeling</p> <p style="MARGIN: 0px">9.14.10.2 Aluminum Electrolytic Capacitor Labeling</p> <p style="MARGIN: 0px">9.14.10.3 Tantalum Capacitor Labeling</p> <p style="MARGIN: 0px">9.14.10.4 Film Capacitor Labeling</p> <p style="MARGIN: 0px">9.14.11 Choosing a Capacitor</p> <p style="MARGIN: 0px">9.15 Homework Problems</p> <p style="MARGIN: 0px">&nbsp;</p> <p style="MARGIN: 0px"><strong>Chapter 10 Semiconductors</strong></p> <p style="MARGIN: 0px">10.1 Doping, Holes and Electrons</p> <p style="MARGIN: 0px">10.2 Diodes</p> <p style="MARGIN: 0px">10.2.1 The VI Characteristic for Diodes</p> <p style="MARGIN: 0px">10.2.2 The Magnitude of V<sub>f</sub></p> <p style="MARGIN: 0px">10.2.3 Reverse Recovery</p> <p style="MARGIN: 0px">10.2.4 Schottky Diodes</p> <p style="MARGIN: 0px">10.2.5 Zener Diodes</p> <p style="MARGIN: 0px">10.2.6 Light Emitting Diodes</p> <p style="MARGIN: 0px">10.2.7 Photo-Diodes</p> <p style="MARGIN: 0px">10.3 Bipolar Junction Transistors</p> <p style="MARGIN: 0px">10.3.1 The Darlington Pair</p> <p style="MARGIN: 0px">10.3.2 The Photo-Transistor</p> <p style="MARGIN: 0px">10.4 MOSFETs</p> <p style="MARGIN: 0px">10.5 hoosing Between BJTs and MOSFETs</p> <p style="MARGIN: 0px">10.5.1 When Will a BJT be the Best (or Only) Choice?</p> <p style="MARGIN: 0px">10.5.2 When Will a MOSFET be the Best (or Only) Choice?</p> <p style="MARGIN: 0px">10.5.3 How Do You Choose When Either a MOSFET or a BJT Could Work?</p> <p style="MARGIN: 0px">10.6 Multi-Transistor Circuits</p> <p style="MARGIN: 0px">10.7 Reading Transistor Data Sheets</p> <p style="MARGIN: 0px">10.7.1 Reading a BJT Data Sheet</p> <p style="MARGIN: 0px">10.7.2 Reading a MOSFET Data Sheet</p> <p style="MARGIN: 0px">10.7.3 A Sample Application</p> <p style="MARGIN: 0px">10.7.4 A Potpourri of Transistor Circuits</p> <p style="MARGIN: 0px">10.8 Homework Problems</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">&nbsp;</p> <p style="MARGIN: 0px"><strong>Chapter 11 : Operational Amplifiers</strong></p> <p style="MARGIN: 0px">11.1 : Operational Amplifier Behavior</p> <p style="MARGIN: 0px">11.2 : Negative Feedback</p> <p style="MARGIN: 0px">11.3 : The Ideal Op-Amp</p> <p style="MARGIN: 0px">11.4 : Analyzing Op-Amp Circuits</p> <p style="MARGIN: 0px">11.4.1 : The Golden Rules</p> <p style="MARGIN: 0px">11.4.2 : The Non-Inverting Op-Amp Configuration</p> <p style="MARGIN: 0px">11.4.3 : The Inverting Op-Amp Configuration</p> <p style="MARGIN: 0px">11.4.3.1 : The Virtual Ground</p> <p style="MARGIN: 0px">11.4.3.2 : There is Nothing Magic About Ground</p> <p style="MARGIN: 0px">11.4.4 : The Unity Gain Buffer</p> <p style="MARGIN: 0px">11.4.5 : The Difference Amplifier Configuration</p> <p style="MARGIN: 0px">11.4.6 : The Summer Configuration</p> <p style="MARGIN: 0px">11.4.7 : The Trans-Resistive Configuration</p> <p style="MARGIN: 0px">11.4.8 : Computation with Op-Amps</p> <p style="MARGIN: 0px">11.5 : The Comparator</p> <p style="MARGIN: 0px">11.5.1 : Comparator Circuits</p> <p style="MARGIN: 0px">11.6 : Homework Problems</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">&nbsp;</p> <p style="MARGIN: 0px"><strong>Chapter 12 : Real Operational Amplifiers and Comparators</strong></p> <p style="MARGIN: 0px">12.1 : Real Op-Amp Characteristics — How the Ideal Assumptions Fail</p> <p style="MARGIN: 0px">12.1.1 : Non-Infinite Gain</p> <p style="MARGIN: 0px">12.1.2 : Variation in Open Loop Gain with Frequency</p> <p style="MARGIN: 0px">12.1.3 : Input Current is Not Zero</p> <p style="MARGIN: 0px">12.1.3.1 : Input Bias Current and Input Offset Current</p> <p style="MARGIN: 0px">12.1.3.2 : Input Impedance</p> <p style="MARGIN: 0px">12.1.4 : The Output Voltage Source is Not Ideal</p> <p style="MARGIN: 0px">12.1.5 : Other Non-Idealities</p> <p style="MARGIN: 0px">12.1.5.1 : Input Offset Voltage</p> <p style="MARGIN: 0px">12.1.5.2 : Power Supplies</p> <p style="MARGIN: 0px">12.1.5.3 : Input Common Mode Voltage Range</p> <p style="MARGIN: 0px">12.1.5.5 : Input Common Mode Rejection Ratio</p> <p style="MARGIN: 0px">12.1.5.6 : Temperature Effects</p> <p style="MARGIN: 0px">12.2 : Reading an Op-Amp Data Sheet</p> <p style="MARGIN: 0px">12.2.1 : Maxima, Minima and Typical Values</p> <p style="MARGIN: 0px">12.2.2 : The Front Page</p> <p style="MARGIN: 0px">12.2.3 : The Absolute Maximum Ratings Section</p> <p style="MARGIN: 0px">12.2.4 : The Electrical Characteristics Section</p> <p style="MARGIN: 0px">12.2.5 : The Packaging Section</p> <p style="MARGIN: 0px">12.2.6 : The Typical Applications Section</p> <p style="MARGIN: 0px">12.3 : Reading a Comparator Data Sheet</p> <p style="MARGIN: 0px">12.3.1 : Comparator Packaging</p> <p style="MARGIN: 0px">12.4 : Comparing Op-Amps</p> <p style="MARGIN: 0px">12.5 : Homework Problems</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">&nbsp;</p> <p style="MARGIN: 0px"><strong>Chapter 13 Sensors</strong></p> <p style="MARGIN: 0px">13.1 Introduction</p> <p style="MARGIN: 0px">13.2 Sensor Output &amp; Microcontroller Inputs</p> <p style="MARGIN: 0px">13.3 Sensor Design</p> <p style="MARGIN: 0px">13.3.1 Measuring Temperature with a Thermistor</p> <p style="MARGIN: 0px">13.3.2 Measuring Acceleration</p> <p style="MARGIN: 0px">13.3.3 Definitions of Sensor Performance Characteristics</p> <p style="MARGIN: 0px">13.4 Fundamental Sensors and Interface Circuits</p> <p style="MARGIN: 0px">13.4.1 Switches as Sensors</p> <p style="MARGIN: 0px">13.4.2 Interfacing to Switches</p> <p style="MARGIN: 0px">13.4.3 Resistive Sensors</p> <p style="MARGIN: 0px">13.4.4 Interfacing to Resistive Sensors</p> <p style="MARGIN: 0px">13.4.4.1 Using a Resistive Sensor in a Voltage Divider</p> <p style="MARGIN: 0px">13.4.4.2 Measuring Resistance Using a Current Source</p> <p style="MARGIN: 0px">13.4.4.3 The Constant Current Circuit</p> <p style="MARGIN: 0px">13.4.4.4 The Wheatstone Bridge</p> <p style="MARGIN: 0px">13.4.5 Capacitive Sensors</p> <p style="MARGIN: 0px">13.4.6 Interfacing to Capacitive Sensors</p> <p style="MARGIN: 0px">13.4.6.1 Measuring Capacitance with a Step Input</p> <p style="MARGIN: 0px">13.4.6.2 Measuring Capacitance with an Oscillator</p> <p style="MARGIN: 0px">13.4.6.3 Measuring Capacitance with a Wheatstone Bridge</p> <p style="MARGIN: 0px">13.5 A Survey of Sensors</p> <p style="MARGIN: 0px">13.5.1 Light Sensors</p> <p style="MARGIN: 0px">13.5.1.1 Photodiodes</p> <p style="MARGIN: 0px">13.5.1.2 Phototransistors</p> <p style="MARGIN: 0px">13.5.1.3 Emitter-Detector Pair Modules</p> <p style="MARGIN: 0px">13.5.1.4 Photocells</p> <p style="MARGIN: 0px">13.5.2 Strain Sensors</p> <p style="MARGIN: 0px">13.5.2.1 Metal Foil Strain Gages</p> <p style="MARGIN: 0px">13.5.2.2 Piezoresistive Strain Gages</p> <p style="MARGIN: 0px">13.5.2.3 Load Cells</p> <p style="MARGIN: 0px">13.5.3 Temperature Sensors</p> <p style="MARGIN: 0px">13.5.3.1 Thermocouples</p> <p style="MARGIN: 0px">13.5.3.2 Thermistors</p> <p style="MARGIN: 0px">13.5.4 Magnetic Field Sensors</p> <p style="MARGIN: 0px">13.5.4.1 Hall Effect Sensors</p> <p style="MARGIN: 0px">13.5.4.3 Reed Switches</p> <p style="MARGIN: 0px">13.5.5 Proximity Sensors</p> <p style="MARGIN: 0px">13.5.5.1 Capacitive Proximity Sensors</p> <p style="MARGIN: 0px">13.5.5.2 Inductive Proximity Sensors</p> <p style="MARGIN: 0px">13.5.5.3 Ultrasonic Proximity Sensors</p> <p style="MARGIN: 0px">13.5.6 Position Sensors</p> <p style="MARGIN: 0px">13.5.6.1 Potentiometers</p> <p style="MARGIN: 0px">13.5.6.2 Optical Encoders</p> <p style="MARGIN: 0px">13.5.6.3 Inductive Pickups / Gear Tooth Sensors</p> <p style="MARGIN: 0px">13.5.6.4 Reflective Infrared Sensors</p> <p style="MARGIN: 0px">13.5.6.5 Capacitive Displacement Sensors</p> <p style="MARGIN: 0px">13.5.6.6 Ultrasonic Displacement Sensors</p> <p style="MARGIN: 0px">13.5.6.7 Flex Sensors</p> <p style="MARGIN: 0px">13.5.7 Acceleration Sensors</p> <p style="MARGIN: 0px"></p>
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        Introduction to Mechatronic Design