1. MECHATRONICS SYSTEM DESIGN
What is Mechatronics? Integrated Design Issues in Mechatronics. The
Mechatronics Design Process. Mechatronics Key Elements.
Applications in Mechatronics. Summary. References. Problems.
2. MODELING AND SIMULATION OF PHYSICAL SYSTEMS
Operator Notation and Transfer Functions. Block Diagrams,
Manipulations, and Simulation. Block Diagram Modeling—Direct
Method. Block Diagram Modeling—Analogy Approach. Electrical
Systems. Mechanical Translational Systems. Mechanical Rotational
Systems. Electrical–Mechanical Coupling. Fluid Systems. Summary.
References. Problems. Appendix to Chapter 2.
3. SENSORS AND TRANSDUCERS
Introduction to Sensors and Transducers. Sensitivity
Analysis—Influence of Component Variation. Sensors for Motion and
Position Measurement. Digital Sensors for Motion Measurement.
Force, Torque, and Tactile Sensors. Vibration—Acceleration Sensors.
Sensors for Flow Measurement. Temperature Sensing Devices. Sensor
Applications. Summary. References. Problems.
4. ACTUATING DEVICES
Direct Current Motors. Permanent Magnet Stepper Motor. Fluid Power
Actuation. Fluid Power Design Elements. Piezoelectric Actuators.
Summary. References. Problems.
5. SYSTEM CONTROL—LOGIC METHODS
Number Systems in Mechatronics. Binary Logic. Karnaugh Map
Minimization. Programmable Logic Controllers. Summary. References.
Problems.
6. SIGNALS, SYSTEMS, AND CONTROLS
Introduction to Signals, Systems, and Controls. Laplace Transform
Solution of Ordinary Differential Equations. System Representation.
Linearization of Nonlinear Systems. Time Delays. Measures of System
Performance. Root Locus. Bode Plots. Controller Design Using Pole
Placement Method. Summary. References. Problems.
7. SIGNAL CONDITIONING AND REAL TIME INTERFACING
Introduction. Elements of a Data Acquisition and Control System.
Transducers and Signal Conditioning. Devices for Data Conversion.
Data Conversion Process. Application Software. Summary.
References.
8. CASE STUDIES
Comprehensive Case Studies. Data Acquisition Case Studies. Data
Acquisition and Control Case Studies. Summary. References.
Problems.
APPENDIX 1 DATA ACQUISITION CARDS
APPENDIX 2 STRAIN GAUGE EXPERIMENT
Dr. Devdas Shetty serves as Dean and Professor at the School of
Engineering and Applied Sciences at the University of the District
of Columbia, Washington D.C. Dr. Shetty previously served as Dean
of Engineering at Lawrence Technological Institute and Dean of
Research at the University of Hartford.
At the University of Hartford, Dr. Shetty was Director of the
Engineering Applications Center, through which he established
partnerships with more than 50 Connecticut industries. At Lawrence
Technological University, he initiated several new academic
programs, established partnerships, and contributed to curricular
innovation. Prior to going to Hartford, he held academic positions
at the Albert Nerkin School of Engineering at the Cooper Union for
the Advancement of Science and Art in New York City.
Dr. Shetty is the author of three books and more than 200
scientific articles and has obtained six patents. His research work
has been cited for contribution to the understanding of engineering
surface measurement, for intellectual achievements in mechatronics,
and for contributions to product design. He is the recipient of
academic and research grants from organizations such as the
National Science Foundation, Society of Manufacturing Engineers,
U.S. Army, and U.S. Air Force. Shetty led research efforts in a
U.S. Army research project on unmanned aerial vehicles. In
partnership with Albert Einstein College of Medicine in New York,
he invented the patented mechatronics process for supporting
patients. He has chaired several international conferences and
presented keynote lectures. Honors received by Dr. Shetty include
the James Frances Bent award for Creativity, the Edward S. Roth
National Award for Manufacturing from the Society of Manufacturing
Engineers, the American Society of Mechanical Engineering Faculty
Award, and the Society of Manufacturing Engineers Honor Award. He
is an elected member of the Connecticut Academy of Science and
Engineering. Richard Kolk is Senior Vice President, Engineering &
Technology, of PaceControls. He is a Willis Carrier Fellow and
commercial control engineering manager. During his 23-year career
with United Technologies and Carrier Corporation, Mr. Kolk has lead
PaceControls’ research and development team in the development of
next-generation products, and in its ongoing joint product
development activities. Mr. Kolk earned a B.S.E.E. degree from the
University of Connecticut, and an M.S.E.E. degree from California
State University-Long Beach. He served as an adjunct professor for
over 20 years at the University of Hartford, where he was awarded
the Gordon Clark Ramsey Award for Creative Teaching Excellence. Dr.
Devdas Shetty serves as Dean and Professor at the School of
Engineering and Applied Sciences at the University of the District
of Columbia, Washington D.C. Dr. Shetty previously served as Dean
of Engineering at Lawrence Technological Institute and Dean of
Research at the University of Hartford.
At the University of Hartford, Dr. Shetty was Director of the
Engineering Applications Center, through which he established
partnerships with more than 50 Connecticut industries. At Lawrence
Technological University, he initiated several new academic
programs, established partnerships, and contributed to curricular
innovation. Prior to going to Hartford, he held academic positions
at the Albert Nerkin School of Engineering at the Cooper Union for
the Advancement of Science and Art in New York City.
Dr. Shetty is the author of three books and more than 200
scientific articles and has obtained six patents. His research work
has been cited for contribution to the understanding of engineering
surface measurement, for intellectual achievements in mechatronics,
and for contributions to product design. He is the recipient of
academic and research grants from organizations such as the
National Science Foundation, Society of Manufacturing Engineers,
U.S. Army, and U.S. Air Force. Shetty led research efforts in a
U.S. Army research project on unmanned aerial vehicles. In
partnership with Albert Einstein College of Medicine in New York,
he invented the patented mechatronics process for supporting
patients. He has chaired several international conferences and
presented keynote lectures. Honors received by Dr. Shetty include
the James Frances Bent award for Creativity, the Edward S. Roth
National Award for Manufacturing from the Society of Manufacturing
Engineers, the American Society of Mechanical Engineering Faculty
Award, and the Society of Manufacturing Engineers Honor Award. He
is an elected member of the Connecticut Academy of Science and
Engineering.
1. MECHATRONICS SYSTEM DESIGN What is Mechatronics? Integrated Design Issues in Mechatronics. The Mechatronics Design Process. Mechatronics Key Elements. Applications in Mechatronics. Summary. References. Problems. 2. MODELING AND SIMULATION OF PHYSICAL SYSTEMS Operator Notation and Transfer Functions. Block Diagrams, Manipulations, and Simulation. Block Diagram Modeling-Direct Method. Block Diagram Modeling-Analogy Approach. Electrical Systems. Mechanical Translational Systems. Mechanical Rotational Systems. Electrical-Mechanical Coupling. Fluid Systems. Summary. References. Problems. Appendix to Chapter 2. 3. SENSORS AND TRANSDUCERS Introduction to Sensors and Transducers. Sensitivity Analysis-Influence of Component Variation. Sensors for Motion and Position Measurement. Digital Sensors for Motion Measurement. Force, Torque, and Tactile Sensors. Vibration-Acceleration Sensors. Sensors for Flow Measurement. Temperature Sensing Devices. Sensor Applications. Summary. References. Problems. 4. ACTUATING DEVICES Direct Current Motors. Permanent Magnet Stepper Motor. Fluid Power Actuation. Fluid Power Design Elements. Piezoelectric Actuators. Summary. References. Problems. 5. SYSTEM CONTROL-LOGIC METHODS Number Systems in Mechatronics. Binary Logic. Karnaugh Map Minimization. Programmable Logic Controllers. Summary. References. Problems. 6. SIGNALS, SYSTEMS, AND CONTROLS Introduction to Signals, Systems, and Controls. Laplace Transform Solution of Ordinary Differential Equations. System Representation. Linearization of Nonlinear Systems. Time Delays. Measures of System Performance. Root Locus. Bode Plots. Controller Design Using Pole Placement Method. Summary. References. Problems. 7. SIGNAL CONDITIONING AND REAL TIME INTERFACING Introduction. Elements of a Data Acquisition and Control System. Transducers and Signal Conditioning. Devices for Data Conversion. Data Conversion Process. Application Software. Summary. References. 8. CASE STUDIES Comprehensive Case Studies. Data Acquisition Case Studies. Data Acquisition and Control Case Studies. Summary. References. Problems. APPENDIX 1 DATA ACQUISITION CARDS APPENDIX 2 STRAIN GAUGE EXPERIMENT for Additional Case Studies.
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