| Contents: |
Part 1 FUNDAMENTALS OF INDUSTRIALS ELECTRONICS
SECTION I Supporting Technologies
1 Electronics
Darrell Vines Tom Baginski
1.1 Introduction
1.2 Diodes
1.3 Trasistors as Switches
1.4 Models for Transistors
1.5 Analog and Digital Circuits
2 Digital Control Circuits
Marc Courvoisier
Michel Combacau
Mario Paludetto
2.1 Logic Control
2.2 Sequence Control
2.3 Implementation Techniques
3 Computer Architecture
Victor P. Nelson
3.1 Hardware Organization
3.2 Computer Software
3.3 Imformation Representation in Digital
Computers
3.4 Specifying Instruction Operands
3.5 CPU Registers
3.6 Memory Organization
3.7 Computer Instruction Types
3.8 Interrupts and Exceptions
3.9 Evaluating Instruction Set Architectures
3.10 Computer System Design
3.11 Input/Output Device Interfaces
3.12 Microcontroller Architectures
3.13 Multiple Processor Architectures
4 Signal Processing James A. Heinen
Russell J. Niederjohn
4.1 Introduction
4.2 Continuous-Time Signals
4.3 Time-Domain Analysis of
Continuous-Time Signals
4.4 Frequency-Domain Analysis of
Continuous-Time Signals
4.5 Continuous-Time Signal Processors
4.6 Time-Domain Analysis of
Continuous-Time Signal Processors
4.7 Frequency-Domain Analysis of
Continuous-Time Signal Processors
4.8 Continuous-Time (Analog) Filters
4.9 Sampling
4.10 Discrete-Time Signals
4.11 Time-Domain Analysis of Discrete-Time Signals
4.12 Frequency-Domain Analysis of
Discrete-Time Signals
4.13 Discrete-Time Signal Processors
4.14 Time-Domain Analysis of Discrete-Time Signal Processors
4.15 Frequency-Domain Analysis of
Discrete-Time Signal Processors
4.16 Discrete-Time (Digital) Filters
4.17 Discrete-Time Analysis of
Continuous-Time Signals
4.18 Discrete-Time Processing of
Continuous-Time Signals
SECTION II Data Aquisition and Measurement Systems
5 Sensors
Charles W. Einolf, Jr.
5.1 Introduction
5.2 Passive Sensors
5.3 Active Sensors
6 Measurement System Architecture
6.1 Introduction
Patrick L. Walter
6.2 System Considerations
Patrick L. Walter
6.3 Signal Conditioning and Filtering
David Ryerson
6.4 Signal/Data Transmission Components Otis Solomon
William Boyer
6.5 Software Data Correction William Boyer
David Ryerson
6.6 Computers in Instrumentation Systems William Boyer
6.7 Software for Instrumentation Systems William Boyer
6.8 Calibration and Testing Richard Pettit
6.9 Digital Signal Processing Belle Upadhyaya
6.10 Signal Pick-up and Interface Circuitry Thaddeus Roppel
6.11 Thermal Effects in Industrial
Electronic Circuits Ray P. Reed
6.12 Lossless Waveform Compression
Giridhar Mandyam
Neeraj Magotra
Samuel D. Stearns
Li-Zhe Tan
Wes McCoy
6.13 3-D Measurement Techniques
Bernard C. Jiang
SECTION III Power Electronics
7 Introduction to Power Electronics Janos Bencze
7.1 Introduction
7.2 Power Supplies
7.3 Electric Drives
7.4 Application Examples
7.5 Future Trends
8 Overview: Devices and Components
Malay Trivedi Sameer Pendharkar
Krishna Shenai
8.1 Introduction
8.2 Diode
8.3 Thyristor
8.4 Transistors
8.5 New Devices
9 Devices and Components
9.1 Power Diodes
Imre Ipsits
9.2 Power Bipolar Junction Transistors (BJTs)
Imre Ipsits
9.3 Passive Networks Karoly Kurutz
10 Power MOSFETs
Vrej Barkhordarian
10.1 Introduction
10.2 Static Characteristics
10.3 Dynamic Characteristics
10.4 Applications
11 Insulated Gate Bipolar Transistors
Michael Robinson Richard Francis
Ranadeep Dutta
Al Diy
11.1 Introduction
11.2 Basic Structure and Operation
11.3 Design Considerations
11.4 Requirement for Anti-parallel Diode
11.5 Comparison Between the Power MOSFET,
IGBT, and MCT
11.6 IGBT Data Sheet Parameters
11.7 Appendix: Typical IGBT Data Sheet
12 Conversion
12.1 AC-DC Converters Attila Karpati
12.2 DC-DC Converters
Istvan Nagy
12.3 DC-AC Conversion Attila Karpati
12.4 AC-AC Conversion Sandor Halasz
12.5 Resonant Converters
Istvan Nagy
13 Motor Drives
13.1 Control Systems and Applications Takamasa Hori
13.2 DC Motor Control Systems Takamasa Hori
13.3 Induction Motor Control Systems Takamasa Hori
Hiroshi Nagase
Mitsuyuki Hombu
13.4 Synchronous Motor Control Systems Takamasa Hori
13.5 PM Synchronous Motor Control
M. F. Rahman
Khiang-Wee
13.6 Step Motor Drives Ronald H. Brown
13.7 Servo Drives Sandor Halasz
13.8 Switched Reluctance Motor Drives Jozsef Borka
14 Main Disturbances
14.1 Power Quality James Stanislawski
14.2 Reactive Power and Harmonics
Compensation Gerry Heydt
14.3 New Power Converters Prasad Enjeti
14.4 Uninterruptible Power Supplies (UPS)
Laura Steffek John Hecklesmiller
Dave Layden Brian Young
15 Electromagnetic Compatibility for Drives
Walt Maslowski
15.1 Compatibility: Emissions and Immunity
SECTION IV Factory Communications
16 Evolution of Factory Communication W. Timothy Strayer
Carmen M. Pancerella
16.1 Point-to-Point Communications
16.2 Network Communications
16.3 Advantages of Network Interconnection
16.4 Communications Requirements for
Distributed Systems
17 Open Systems Interconnection Basic
Reference Model
Robert M. Hines
17.1 Introduction
17.2 Physical Layer
17.3 Datalink Layer
17.4 Network Layer
17.5 Transport Layer
17.6 Session Layer
17.7 Presentation Layer
17.8 Application Layer
18 Local Area Networks
18.1 Ethernet and IEEE 802.3 Contention Bus
Alfred C. Weaver
18.2 IEEE 802.5 Token Ring John W. Sublett
18.3 IEEE 802.4 Token Bus
Alfred C. Weaver
18.4 Fieldbus
Jean-Dominique Decotignie
18.5 Fiber Distributed Data Interface (FDDI)
Robert W. Christie
18.6 Asynchronous Transfer Mode
Curtis L. Moffit
19 Manufacturing Automation Protocol (MAP) Juan R. Pimentel
19.1 History
19.2 Purpose
19.3 Description
19.4 Standards Used
19.5 Example of Use
20 Essential Communications Protocols
20.1 Datalink Protocols
Bert J. Dempsey
20.2 Network Protocols
Debapriya Sarkar
20.3 Transport Layer Protocols
Bert J. Dempsey
SECTION V System Control
21 Control System Fundamentals A. S. Hodel
21.1 Modeling
21.2 Controller Design
21.3 Intelligent Control
21.4 Other Control Approaches
22 Modeling for System Control A. John Boye
William L. Brogan
22.1 Introduction
22.2 Analytical Modeling
22.3 Defining the Problem
22.4 Determining the System Components
22.5 Writing the System Equations
22.6 Verifying the Model
22.7 Empirical or Experimental Modeling
23 Basic Feedback Concept
T. H. Lee
C. C. Hang K. K. Tan
23.1 Beneficial Effects of Feedback
23.2 Analysis of Design of Feedback
Control Systems
23.3 Implementation of Feedback Control Systems
24 Stability Analysis N. K. Sinha
24.1 Stability Analysis for Linear Systems
24.2 Stability of Linear Time-Invariant
Continuous-Time Systems
24.3 Stability of Linear Time-Invariant
Discrete-Time Systems
24.4 Nonlinear Systems
25 PID Control
James C. Hung
25.1 Introduction
25.2 Class |
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| The Industrial Electronics Handbook |
| by J. David Irwin, 1,728pp - 1997, ISBN: 0849383439 |
| A Volume in Electronic Engineering Systems Series |
| This is the first comprehensive reference created for engineers working with applications of electronic and electrical systems, apparatus, circuits and devices, process control, and industry equipment. This invaluable resource thoroughly evaluates the diverse range of subjects considered by electrical engineers in industry - electronics, factory communications, measurement and instrumentation, hardware, software, factory automation, and more. |
| Features |
- More than 2,000 pages in more than 110 chapters
- Fundamental aspects of electronics and signal processing covered related to industrial electronics
- Outstanding section on power electronics
- Singular coverage of factory communications and a complete survey of factory automation
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| $149.95 |
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