Micromechatronics: Modeling, Analysis, and Design with MATLAB, Second Edition Book

Introduction to Mechatronic Systems

Outline of Basic Fundamentals

Introduction to Taxonomy of Electromechanical System Synthesis and Design

Electromagnetic and Electromechanics Fundamental

Introduction to Design and Analysis

Energy Conversion and Force Production in Electromechanical Motion Devices

Fundamentals of Electromagnetics

Classical Mechanics and Its Application

Application of Electromagnetics and Classical Mechanics to Electromechanical Systems and Devices

Simulation of Systems in MATLAB Environment

Electrostatic and Variable Reluctance Electromechanical Motion Devices

Introduction

Electrostatic Actuators

Variable Reluctance Electromagnetic Actuators

Permanent-Magnet Direct-Current Motion Devices and Actuators

Permanent-Magnet Motion Devices and Electric Machines: Introduction

Radial Topology Permanent-Magnet Direct-Current Electric Machines

Axial Topology Permanent-Magnet Direct-Current Electric Machines

Translation Permanent-Magnet Electromechanical Motion Devices

Induction Machines

Introduction and Fundamentals

Torque-Speed Characteristics and Control of Induction Motors

Two-Phase Induction Motors

Three-Phase Induction Motors in the Machine Variables

Power Converters

Permanent-Magnet Synchronous Machines and Their Applications

Introduction to Synchronous Machines

Radial Topology Permanent-Magnet Synchronous Machines

Axial Topology Permanent-Magnet Synchronous Machines

Electronics and Power Electronics Solutions in Mechatronic Systems

Operational Amplifiers

Power Amplifiers and Power Converters

Control and Optimization of Mechatronic Systems

Basics and Introduction to Control and Optimization

Equations of Motion: Electromechanical Systems Dynamics in the State-Space Form and Transfer Functions

Analog and Digital Proportional-Integral-Derivative Control

Hamilton—Jacobi Theory and Optimal Control

Stabilization Problem for Linear Systems Using Hamilton—Jacobi Concept

Tracking Control of Linear Systems

State Transformation Method and Tracking Control

Time-Optimal Control

Sliding-Mode Control

Constrained Control of Nonlinear Electromechanical Systems

Optimization of Systems Using Nonquadratic Performance Functionals

Lyapunov Stability Theory in Analysis and Control

Minimal-Complexity Control Laws Design

Control of Linear Discrete-Time Systems Using the Hamilton—Jacobi Theory

Discussions on Physics and Essence of Control

Electroactive and Magnetoactive Materials

Introduction

Piezoelectricity

Piezoelectric Phenomena

Ferroelectric Perovskites

Fabrication of Electroactive Ceramics

Piezoelectric Ceramics

Electrostrictive Ceramics

Single-Crystal Piezoceramics

Piezopolymers

Magnetostrictive Materials

Summary and Conclusions

Problems and Exercises

Induced-Strain Actuators

Introduction

Active Material Induced-Strain Actuators

Construction of Induced-Strain Actuators

Modeling of Induced-Strain Actuators

Principles of Induced-Strain Structural Actuation

Induced-Strain Actuation under Dynamic Operation

Energy-Based Comparison of Induced-Strain Actuators

Efficient Design of Induced-Strain Actuator Applications

Power Supply Issues in Induced-Strain Actuation

Shape Memory Alloy Actuators

Summary and Conclusions

Problems and Exercises

Piezoelectric Wafer Active Sensors

Introduction

Review of Elastic Waves and Structural Vibration

PWAS Resonators

PWAS Attached to Structures

PWAS Ultrasonic Transducers

PWAS Modal Sensors

Case Study: Multimethod Damage Detection in Aging Aircraft

Panel Specimens

Summary and Conclusions

Problems and Exercises

Microcontrollers for Sensing, Actuation, and Process Control

Introduction

Microcontroller Architecture

Programming the Microcontrollers

Parallel Communication with Microcontrollers

Serial Communication with Microcontrollers

Microcontroller Timer Functions

Analog/Digital Conversion with Microcontrollers

Functional Modules

Actuation Applications of Microcontrollers

Sensing Applications of Microcontrollers

Microcontroller Process Control

Problems and Exercises

Fundamentals of Microfabrication

Introduction and Basic Processes

Microfabrication and Micromachining of ICs, Microstructures, and Microdevices

Bulk and Surface Micromachining, and Application of Microfabrication

Index

References appear at the end of each chapter.