A Foundation Course
E-Book, Englisch, 898 Seiten
ISBN: 978-1-4200-8212-8
Verlag: Taylor & Francis
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
This book explains the fundamentals of integrating different types of components and functions, both mechanical and electrical, to achieve optimal operation that meets a desired set of performance specifications. This integration will benefit performance, efficiency, reliability, cost, and environmental impact. With useful features that distinguish it from other comparable books, this solid learning tool:
- Prioritizes readability and convenient reference
- Develops and presents key concepts and formulas, summarizing them in windows, tables, and lists in a user-friendly format
- Includes numerous worked examples, problems, and exercises related to real-life situations and the practice of mechatronics
- Describes and employs MATLAB®, Simulink®, LabVIEW®, and associated toolboxes, providing various illustrative examples for their use
- Explores the limitations of available software tools and teaches the reader how to choose proper tools to solve a given problem and interpret and assess the validity of the results
The text conveys the considerable experience that author Clarence de Silva gained from teaching mechatronics at the graduate and professional levels, as well as from his time working in industry for organizations such as IBM, Westinghouse Electric, and NASA. It systematically and seamlessly incorporates many different underlying engineering fundamentals into analytical methods, modeling approaches, and design techniques for mechatronics—all in a single resource.
Zielgruppe
Undergraduate students in mechanical, aero, civil, structural, and electrical engineering; mechanical engineers and component designers working in mechatronics, as well as nanotechnology
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
Mechatronic Engineering
Mechatronic Systems
Modeling and Design
Mechatronic Design Concept
Evolution of Mechatronics
Application Areas
Study of Mechatronics
Organization of the Book
Basic Elements and Components
Mechanical Elements
Fluid Elements
Thermal Elements
Mechanical Components
Passive Electrical Elements and Materials
Active Electronic Components
Light Emitters and Displays
Light Sensors
Modeling of Mechatronic Systems
Dynamic Systems and Models
Lumped Elements and Analogies
Analytical Model Development
Model Linearization
Linear Graphs
Transfer Functions and Frequency-Domain Models
Thevenin’s Theorem for Electrical Circuits
Block Diagrams
Response Analysis
Computer Simulation
Component Interconnection and Signal Conditioning
Impedance Characteristics
Amplifiers
Filters
Modulators and Demodulators
Analog-Digital Conversion
Bridge Circuits
Instrument Ratings and Error Analysis
Linearity
Instrument Ratings
Bandwidth
Signal Sampling and Aliasing Distortion
Bandwidth Design of A Control System
Instrument Error Analysis
Statistical Process Control
Sensors and Transducers
Potentiometer
Variable-Inductance Transducers
Variable-Capacitance Transducers
Piezoelectric Sensors
STRAIN GAGES
Torque Sensors
Tactile Sensing
Cyroscopic Sensors
Optical Sensors and Lasers
Ultrasonic Sensors
Thermo-Fluid Sensors
Digital Transducers
Miscellaneous Digital Transducers
Image Sensors
Actuators
Stepper Motors
DC Motors
Induction Motors
Miscellaneous Actuators
Hydraulic Actuators
Digital Hardware and Microcontrollers
Number Systems and Codes
Logic and Boolean Algebra
Combinational Logic Circuits
Sequential Logic Devices
Practical Considerations of IC Chips
Microcontrollers
Control Systems
Control System Structure
Control System Performance
Control Schemes
Stability
Advanced Control
Fuzzy Logic Control
Digital Control
Case Studies in Mechatronics
Engineering Design
Robotics Case Study
Iron Butcher Case Study
Projects
Appendices
