Description

Book Synopsis
Introduction to Mechatronics and Measurement Systems, Fifth Edition, provides comprehensive and accessible coverage of the field of mechatronics for mechanical, electrical and aerospace engineering majors. The author presents a concise review of electrical circuits, solid-state devices, digital circuits, and motors- all of which are fundamental to understanding mechatronic systems.

Mechatronics design considerations are presented throughout the text, and in Design Example features. The text''s numerous illustrations, examples, class discussion items, and chapter questions & exercises provide an opportunity to understand and apply mechatronics concepts to actual problems encountered in engineering practice. This text has been tested over several years to ensure accuracy.

Introduction to Mechatronics and Measurement Systems, Fifth Edition -  is a multifaceted resource which is designed to serve as a text for modern instrumentation and measurements courses, hybrid elect

Table of Contents
Lists
Class Discussion Items
Examples
Design Examples
Threaded Design Examples

Preface

Chapter 1
Introduction
1.1 Mechatronics
1.2 Measurement Systems
1.3 Threaded Design Examples

Chapter 2
Electric Circuits and Components
2.1 Introduction
2.2 Basic Electrical Elements
2.3 Kirchhoff’s Laws
2.4 Voltage and Current Sources and Meters
2.5 Thevenin and Norton Equivalent Circuits
2.6 Alternating Current Circuit Analysis
2.7 Power in Electrical Circuits
2.8 Transformer
2.9 Impedance Matching 47
2.10 Practical Considerations

Chapter 3
Semiconductor Electronics
3.1 Introduction
3.2 Semiconductor Physics as the Basis for Understanding Electronic Devices
3.3 Junction Diode
3.4 Bipolar Junction Transistor
3.5 Field-Effect Transistors

Chapter 4
System Response
4.1 System Response
4.2 Amplitude Linearity
4.3 Fourier Series Representation of Signals
4.4 Bandwidth and Frequency Response
4.5 Phase Linearity
4.6 Distortion of Signals
4.7 Dynamic Characteristics of Systems
4.8 Zero-Order System
4.9 First-Order System
4.10 Second-Order System
4.11 System Modeling and Analogies

Chapter 5
Analog Signal Processing Using Operational Amplifiers
5.1 Introduction
5.2 Amplifiers
5.3 Operational Amplifiers
5.4 Ideal Model for the Operational Amplifier
5.5 Inverting Amplifier
5.6 Noninverting Amplifier
5.7 Summer
5.8 Difference Amplifier
5.9 Instrumentation Amplifier
5.10 Integrator
5.11 Differentiator
5.12 Sample and Hold Circuit
5.13 Comparator
5.14 The Real Op Amp

Chapter 6
Digital Circuits
6.1 Introduction
6.2 Digital Representations
6.3 Combinational Logic and Logic Classes
6.4 Timing Diagrams
6.5 Boolean Algebra
6.6 Design of Logic Networks
6.7 Finding a Boolean Expression Given a Truth Table
6.8 Sequential Logic
6.9 Flip-Flops
6.10 Applications of Flip-Flops
6.11 TTL and CMOS Integrated Circuits
6.12 Special Purpose Digital Integrated Circuits
6.13 Integrated Circuit System Design

Chapter 7
Microcontroller Programming and Interfacing
7.1 Microprocessors and Microcomputers
7.2 Microcontrollers
7.3 The PIC16F84 Microcontroller
7.4 Programming a PIC
7.5 PicBasic Pro
7.6 Using Interrupts
7.7 The Arduino Prototyping Platform
7.8 Interfacing Common PIC Peripherals
7.9 Interfacing to the PIC
7.10 Serial Communication
7.11 Method to Design a Microcontroller-Based System
7.12 Practical Considerations

Chapter 8
Data Acquisition
8.1 Introduction
8.2 Reconstruction of Sampled Signals
8.3 Quantizing Theory
8.4 Analog-to-Digital Conversion
8.5 Digital-to-Analog Conversion
8.6 Virtual Instrumentation, Data Acquisition, and Control
8.7 Practical Considerations

Chapter 9
Sensors
9.1 Introduction
9.2 Position and Speed Measurement
9.3 Stress and Strain Measurement
9.4 Temperature Measurement
9.5 Vibration and Acceleration Measurement
9.6 Pressure and Flow Measurement
9.7 Semiconductor Sensors and Microelectromechanical Devices

Chapter 10
Actuators
10.1 Introduction
10.2 Electromagnetic Principles
10.3 Solenoids and Relays
10.4 Electric Motors
10.5 DC Motors
10.6 Stepper Motors
10.7 RC Servo Motors
10.8 Selecting a Motor
10.9 Hydraulics
10.10 Pneumatics

Chapter 11
Mechatronic Systems—Control Architectures and Case Studies
11.1 Introduction
11.2 Control Architectures
11.3 Introduction to Control Theory

Appendix A
Measurement Fundamentals
A.1 Systems of Units
A.2 Significant Figures
A.3 Statistics
A.4 Error Analysis

Appendix B
Physical Principles

Appendix C
Mechanics of Materials
C.1 Stress and Strain Relations

Index

ISE Introduction to Mechatronics and Measurement

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A Paperback / softback by David Alciatore

15 in stock


    View other formats and editions of ISE Introduction to Mechatronics and Measurement by David Alciatore

    Publisher: McGraw-Hill Education
    Publication Date: 23/05/2018
    ISBN13: 9781260085198, 978-1260085198
    ISBN10: 1260085198
    Also in:
    Technology, Engineering & Agriculture Mechanical engineering and materials

    Description

    Book Synopsis
    Introduction to Mechatronics and Measurement Systems, Fifth Edition, provides comprehensive and accessible coverage of the field of mechatronics for mechanical, electrical and aerospace engineering majors. The author presents a concise review of electrical circuits, solid-state devices, digital circuits, and motors- all of which are fundamental to understanding mechatronic systems.

    Mechatronics design considerations are presented throughout the text, and in Design Example features. The text''s numerous illustrations, examples, class discussion items, and chapter questions & exercises provide an opportunity to understand and apply mechatronics concepts to actual problems encountered in engineering practice. This text has been tested over several years to ensure accuracy.

    Introduction to Mechatronics and Measurement Systems, Fifth Edition -  is a multifaceted resource which is designed to serve as a text for modern instrumentation and measurements courses, hybrid elect

    Table of Contents
    Lists
    Class Discussion Items
    Examples
    Design Examples
    Threaded Design Examples

    Preface

    Chapter 1
    Introduction
    1.1 Mechatronics
    1.2 Measurement Systems
    1.3 Threaded Design Examples

    Chapter 2
    Electric Circuits and Components
    2.1 Introduction
    2.2 Basic Electrical Elements
    2.3 Kirchhoff’s Laws
    2.4 Voltage and Current Sources and Meters
    2.5 Thevenin and Norton Equivalent Circuits
    2.6 Alternating Current Circuit Analysis
    2.7 Power in Electrical Circuits
    2.8 Transformer
    2.9 Impedance Matching 47
    2.10 Practical Considerations

    Chapter 3
    Semiconductor Electronics
    3.1 Introduction
    3.2 Semiconductor Physics as the Basis for Understanding Electronic Devices
    3.3 Junction Diode
    3.4 Bipolar Junction Transistor
    3.5 Field-Effect Transistors

    Chapter 4
    System Response
    4.1 System Response
    4.2 Amplitude Linearity
    4.3 Fourier Series Representation of Signals
    4.4 Bandwidth and Frequency Response
    4.5 Phase Linearity
    4.6 Distortion of Signals
    4.7 Dynamic Characteristics of Systems
    4.8 Zero-Order System
    4.9 First-Order System
    4.10 Second-Order System
    4.11 System Modeling and Analogies

    Chapter 5
    Analog Signal Processing Using Operational Amplifiers
    5.1 Introduction
    5.2 Amplifiers
    5.3 Operational Amplifiers
    5.4 Ideal Model for the Operational Amplifier
    5.5 Inverting Amplifier
    5.6 Noninverting Amplifier
    5.7 Summer
    5.8 Difference Amplifier
    5.9 Instrumentation Amplifier
    5.10 Integrator
    5.11 Differentiator
    5.12 Sample and Hold Circuit
    5.13 Comparator
    5.14 The Real Op Amp

    Chapter 6
    Digital Circuits
    6.1 Introduction
    6.2 Digital Representations
    6.3 Combinational Logic and Logic Classes
    6.4 Timing Diagrams
    6.5 Boolean Algebra
    6.6 Design of Logic Networks
    6.7 Finding a Boolean Expression Given a Truth Table
    6.8 Sequential Logic
    6.9 Flip-Flops
    6.10 Applications of Flip-Flops
    6.11 TTL and CMOS Integrated Circuits
    6.12 Special Purpose Digital Integrated Circuits
    6.13 Integrated Circuit System Design

    Chapter 7
    Microcontroller Programming and Interfacing
    7.1 Microprocessors and Microcomputers
    7.2 Microcontrollers
    7.3 The PIC16F84 Microcontroller
    7.4 Programming a PIC
    7.5 PicBasic Pro
    7.6 Using Interrupts
    7.7 The Arduino Prototyping Platform
    7.8 Interfacing Common PIC Peripherals
    7.9 Interfacing to the PIC
    7.10 Serial Communication
    7.11 Method to Design a Microcontroller-Based System
    7.12 Practical Considerations

    Chapter 8
    Data Acquisition
    8.1 Introduction
    8.2 Reconstruction of Sampled Signals
    8.3 Quantizing Theory
    8.4 Analog-to-Digital Conversion
    8.5 Digital-to-Analog Conversion
    8.6 Virtual Instrumentation, Data Acquisition, and Control
    8.7 Practical Considerations

    Chapter 9
    Sensors
    9.1 Introduction
    9.2 Position and Speed Measurement
    9.3 Stress and Strain Measurement
    9.4 Temperature Measurement
    9.5 Vibration and Acceleration Measurement
    9.6 Pressure and Flow Measurement
    9.7 Semiconductor Sensors and Microelectromechanical Devices

    Chapter 10
    Actuators
    10.1 Introduction
    10.2 Electromagnetic Principles
    10.3 Solenoids and Relays
    10.4 Electric Motors
    10.5 DC Motors
    10.6 Stepper Motors
    10.7 RC Servo Motors
    10.8 Selecting a Motor
    10.9 Hydraulics
    10.10 Pneumatics

    Chapter 11
    Mechatronic Systems—Control Architectures and Case Studies
    11.1 Introduction
    11.2 Control Architectures
    11.3 Introduction to Control Theory

    Appendix A
    Measurement Fundamentals
    A.1 Systems of Units
    A.2 Significant Figures
    A.3 Statistics
    A.4 Error Analysis

    Appendix B
    Physical Principles

    Appendix C
    Mechanics of Materials
    C.1 Stress and Strain Relations

    Index

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