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Industrial process automation systems : design and implementation /
Industrial Process Automation Systems: Design and Implementation is a clear guide to the practicalities of modern industrial automation systems. Bridging the gap between theory and technician-level coverage, it offers a pragmatic approach to the subject based on industrial experience, taking in the...
| Clasificación: | Libro Electrónico |
|---|---|
| Autores principales: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Waltham, MA :
Butterworth-Heinemann,
[2015]
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| Temas: | |
| Acceso en línea: | Texto completo (Requiere registro previo con correo institucional) |
Tabla de Contenidos:
- Cover; Title Page; Copyright Page; Contents; Chapter 1
- Industrial Automation; 1.1
- Introduction; 1.2
- Innovators; 1.3
- Industrial revolutions; 1.4
- Evolution of automation from needs perspectives; 1.5
- Evolution of automation from technology perspectives; 1.6
- Challenges three decades back; 1.7
- Current challenges; 1.8
- Technology trends; 1.8.1
- Transmission media & Technology; 1.9
- Device connectivity; 1.10
- Automation system controllers; 1.10.1
- Control logics; 1.10.2
- Objectives of the plant information and control systems.
- 1.11
- The generic duties of an automation system in hierarchical form1.12
- Functional requirements of an integrated information and automation systems: A generic list; 1.13
- Conceptual/functional topology of an automation system; 1.13.1
- Physical architecture; Further readings; Chapter 2
- The Programmable Logic Controller; 2.1
- Introduction to the programmable logic controller; 2.2
- Hardware; 2.2.1
- Functional components of a PLC; 2.3
- Internal architecture; 2.3.1
- Sourcing and sinking; 2.3.2
- Programming PLCs; 2.4
- I/O devices; 2.4.1
- Input devices; 2.4.1.1
- Mechanical switches.
- 2.4.1.2
- Proximity switches2.4.1.3
- Photoelectric sensors and switches; 2.4.1.4
- Encoders; 2.4.1.5
- Temperature sensors; 2.4.1.6
- Resistive temperature detector; 2.4.1.7
- Thermodiodes and thermotransistors; 2.4.1.8
- Pressure sensors; 2.4.1.9
- Output devices; Relay; 2.4.1.10
- Directional control valves; 2.4.1.11
- Motors; 2.5
- I/O processing; 2.5.1
- Output units; 2.5.2
- Remote connections; 2.5.3
- Serial and parallel communications; 2.5.4
- Distributed systems; 2.5.5
- I/O addresses; 2.6
- Ladder and function block programming; 2.6.1
- Ladder diagrams.
- 2.6.2
- PLC ladder programming2.6.2.1
- AND; 2.6.2.2
- OR gate; 2.6.2.3
- Latching; 2.6.3
- Multiple outputs; 2.6.4
- Entering programs; 2.7
- Function blocks; 2.7.1
- Logic gates; 2.7.2
- Program examples; 2.8
- IL, SFC, and ST programming methods; 2.8.1
- Instruction lists; 2.8.2
- Sequential function charts; 2.8.2.1
- Branching and convergence; 2.8.2.2
- Actions; 2.8.3
- Structured text; 2.8.3.1
- Conditional statements; 2.8.3.2
- Iteration statements; Further readings; Chapter 3
- Distributed Control System; 3.1
- Introduction; 3.2
- Evolution of traditional control systems.
- 3.2.2.1
- Pneumatic control3.2.2.2
- Electronic analog control; 3.2.2.3
- Digital control; 3.2.2.4
- Modes of computer control; 3.2.2.5
- Direct digital control; 3.2.2.5.1
- Disadvantages of DDC; 3.2.3
- Supervisory control; 3.2.3.1
- Advantages of supervisory control; 3.2.3.2
- Disadvantages of supervisory control; 3.2.4
- Hierarchical computer control system; 3.3
- Distributed control systems; 3.3.1
- Programmable logic controllers; 3.3.2
- distributed control systems; 3.3.3
- DCS design considerations; 3.3.4
- Hierarchy of plant operations; 3.4
- Functional components of dcs.
- 3.4.1
- Field Communication.