过程控制与分布式技术和现场总线技术(朱晓青)
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作者: 朱晓青
出版时间:2013年8月
出版社:化学工业出版社
- 化学工业出版社
- 9787122172358
- 104345
- 2013年8月
- 本科电气
- 本科
内容简介
本书用英文较系统地介绍了有关过程控制的基本理论,以及运用分布式技术、现场总线技术实现过程控制的基本原理与方法。全书共分7章,分别介绍了过程控制与仪表系统的基本概念、分布式控制系统的基本原理与构成、SCADA、PLC及智能仪表的基本构成、现场总线技术与现场总线仪表的基本原理与结构以及有关通信技术、可靠性技术和工程实践等方面的有关问题。
本书可作为控制理论与控制工程类专业研究生或自动化与测控类专业本科生相关双语课程教材或教学参考书,也可作为工程技术人员的参考资料。
本书可作为控制理论与控制工程类专业研究生或自动化与测控类专业本科生相关双语课程教材或教学参考书,也可作为工程技术人员的参考资料。
目录
Chapter 1 Introductions and Fundamentals 1
1.1 Fundamentals for Process control 1
1.1.1 Basic industrial control system 1
1.1.2 PID Algorithms 2
1.1.3 Modifications of the PID Algorithm 3
1.1.4 PID Parameter tuning 5
1.1.5 Configuration of PID 7
1.1.6 Advanced process control (APC) 11
1.2 Fundamentals for Instruments 12
1.2.1 Measuring devices 13
1.2.2 Controllers 32
1.2.3 Actuators 35
1.2.4 Other instruments 44
1.3 Techniques for Distributed systems 48
1.3.1 Definitions of distributed systems 48
1.3.2 Goals for distributed systems 49
1.3.3 Types of distributed systems 50
1.3.4 The main techniques used in distributed systems 50
1.4 Distributed control systems (DCS) 52
1.4.1 Definitions of distributed control systems 52
1.4.2 The Structure of DCS 53
1.4.3 Characteristics of DCS 54
1.4.4 Some typical DCS and their architecture 54
Summary 58
Problems 59
Chapter 2 Distributed Control Systems (DCS) 60
2.1 Process Control Unit (PCU) 61
2.1.1 Hardware of PCU 61
2.1.2 Software of PCU 65
2.2 Engineering Work Station (EWS) 74
2.2.1 System Planning 74
2.2.2 Configuration 75
2.3 Operation Station (or Man Machine Interface, MMI) 77
2.3.1 Display of Process Parameters 77
2.3.2 Operator-Interface geometry or ergonomics 78
2.3.3 Function of MMI in DCS 79
2.3.4 The development of displayers 84
Summary 87
Problems 88
Chapter 3 SCADAs, PLCs, and Intelligent Instruments 89
3.1 SCADAs 89
3.1.1 Introduction of SCADA 89
3.1.2 Hardware of SCADA 89
3.1.3 Software of SCADA 95
3.2 PLCs 98
3.2.1 The fundamentals of logic control techniques 99
3.2.2 Hardware of PLC 100
3.2.3 Software of PLC 105
3.3 Intelligent Instruments 112
3.3.1 Single-Loop Controllers (SLC) 112
3.3.2 Data Acquisition Units (DAQ) 114
Summary 116
Problems 117
Chapter 4 Communications for Distributed Systems 118
4.1 Basic concept for communications 118
4.1.1 Some nomenclatures for communications 119
4.1.2 The representation of binary number 120
4.1.3 Error control 124
4.1.4 Channel 125
4.1.5 Modem 126
4.1.6 Multiplexers 128
4.2 Networks 129
4.2.1 Network topologies 130
4.2.2 Communication Protocol and OSI Model 131
4.2.3 Network components 136
4.3 OPC Techniques 140
4.3.1 Introduction 140
4.3.2 OPC Fundamentals 141
4.3.3 OPC Architecture 142
Summary 143
Problems 144
Chapter 5 Reliability Aspects 145
5.1 Performance Specifications of Reliability 145
5.2 System Reliability Analyze 148
5.2.1 System Reliability Model 148
5.2.2 System Reliability Test 149
5.3 Reliability consideration in Distributed Systems 150
5.3.1 Quality management 150
5.3.2 Fault containment technology 150
5.3.3 Redundancy 150
Summary 154
Problems 154
Chapter 6 Fieldbus Devices and Systems 155
6.1 Characteristics and Structures of Fieldbus Control System (FCS) 155
6.1.1 Definition 155
6.1.2 FCS Features and Architectures 155
6.1.3 Structures of FCS 157
6.1.4 Fieldbus Category 159
6.2 Some typical fieldbuses 159
6.2.1 AS-Interface 159
6.2.2 CAN bus 160
6.2.3 LonWorks 161
6.2.4 Interbus 161
6.2.5 Profibus 162
6.2.6 ControlNet 162
6.2.7 CC-Link 163
6.2.8 Foundation Fieldbus (FF) 164
6.2.9 HART 165
6.3 International Standard for Fieldbus 166
6.4 Communication Mechanism in Fieldbus 167
6.4.1 OSI Model and Fieldbus 167
6.4.2 Foundation fieldbus Technology 167
6.4.3 Profibus Technology 180
6.4.4 Standardization of Fieldbus Technology 189
6.5 Fieldbus Device 190
6.5.1 Fieldbus Instrumentations 190
6.5.2 Profibus-DP Devices 200
Summary 203
Problems 203
Chapter 7 Engineering Aspects 204
7.1 Engineering Design for Process Control 204
7.1.1 Design Procedure 204
7.1.2 Piping and Instrument Drawing (P&ID) 204
7.1.3 Instrument Loop Diagrams 207
7.1.4 SAMA Diagrams 208
7.2 Configuration 211
7.2.1 Some Important Blocks in Foundation Fieldbus Control System 212
7.2.2 Control strategy configuration 216
Summary 221
Problems 221
References 222
1.1 Fundamentals for Process control 1
1.1.1 Basic industrial control system 1
1.1.2 PID Algorithms 2
1.1.3 Modifications of the PID Algorithm 3
1.1.4 PID Parameter tuning 5
1.1.5 Configuration of PID 7
1.1.6 Advanced process control (APC) 11
1.2 Fundamentals for Instruments 12
1.2.1 Measuring devices 13
1.2.2 Controllers 32
1.2.3 Actuators 35
1.2.4 Other instruments 44
1.3 Techniques for Distributed systems 48
1.3.1 Definitions of distributed systems 48
1.3.2 Goals for distributed systems 49
1.3.3 Types of distributed systems 50
1.3.4 The main techniques used in distributed systems 50
1.4 Distributed control systems (DCS) 52
1.4.1 Definitions of distributed control systems 52
1.4.2 The Structure of DCS 53
1.4.3 Characteristics of DCS 54
1.4.4 Some typical DCS and their architecture 54
Summary 58
Problems 59
Chapter 2 Distributed Control Systems (DCS) 60
2.1 Process Control Unit (PCU) 61
2.1.1 Hardware of PCU 61
2.1.2 Software of PCU 65
2.2 Engineering Work Station (EWS) 74
2.2.1 System Planning 74
2.2.2 Configuration 75
2.3 Operation Station (or Man Machine Interface, MMI) 77
2.3.1 Display of Process Parameters 77
2.3.2 Operator-Interface geometry or ergonomics 78
2.3.3 Function of MMI in DCS 79
2.3.4 The development of displayers 84
Summary 87
Problems 88
Chapter 3 SCADAs, PLCs, and Intelligent Instruments 89
3.1 SCADAs 89
3.1.1 Introduction of SCADA 89
3.1.2 Hardware of SCADA 89
3.1.3 Software of SCADA 95
3.2 PLCs 98
3.2.1 The fundamentals of logic control techniques 99
3.2.2 Hardware of PLC 100
3.2.3 Software of PLC 105
3.3 Intelligent Instruments 112
3.3.1 Single-Loop Controllers (SLC) 112
3.3.2 Data Acquisition Units (DAQ) 114
Summary 116
Problems 117
Chapter 4 Communications for Distributed Systems 118
4.1 Basic concept for communications 118
4.1.1 Some nomenclatures for communications 119
4.1.2 The representation of binary number 120
4.1.3 Error control 124
4.1.4 Channel 125
4.1.5 Modem 126
4.1.6 Multiplexers 128
4.2 Networks 129
4.2.1 Network topologies 130
4.2.2 Communication Protocol and OSI Model 131
4.2.3 Network components 136
4.3 OPC Techniques 140
4.3.1 Introduction 140
4.3.2 OPC Fundamentals 141
4.3.3 OPC Architecture 142
Summary 143
Problems 144
Chapter 5 Reliability Aspects 145
5.1 Performance Specifications of Reliability 145
5.2 System Reliability Analyze 148
5.2.1 System Reliability Model 148
5.2.2 System Reliability Test 149
5.3 Reliability consideration in Distributed Systems 150
5.3.1 Quality management 150
5.3.2 Fault containment technology 150
5.3.3 Redundancy 150
Summary 154
Problems 154
Chapter 6 Fieldbus Devices and Systems 155
6.1 Characteristics and Structures of Fieldbus Control System (FCS) 155
6.1.1 Definition 155
6.1.2 FCS Features and Architectures 155
6.1.3 Structures of FCS 157
6.1.4 Fieldbus Category 159
6.2 Some typical fieldbuses 159
6.2.1 AS-Interface 159
6.2.2 CAN bus 160
6.2.3 LonWorks 161
6.2.4 Interbus 161
6.2.5 Profibus 162
6.2.6 ControlNet 162
6.2.7 CC-Link 163
6.2.8 Foundation Fieldbus (FF) 164
6.2.9 HART 165
6.3 International Standard for Fieldbus 166
6.4 Communication Mechanism in Fieldbus 167
6.4.1 OSI Model and Fieldbus 167
6.4.2 Foundation fieldbus Technology 167
6.4.3 Profibus Technology 180
6.4.4 Standardization of Fieldbus Technology 189
6.5 Fieldbus Device 190
6.5.1 Fieldbus Instrumentations 190
6.5.2 Profibus-DP Devices 200
Summary 203
Problems 203
Chapter 7 Engineering Aspects 204
7.1 Engineering Design for Process Control 204
7.1.1 Design Procedure 204
7.1.2 Piping and Instrument Drawing (P&ID) 204
7.1.3 Instrument Loop Diagrams 207
7.1.4 SAMA Diagrams 208
7.2 Configuration 211
7.2.1 Some Important Blocks in Foundation Fieldbus Control System 212
7.2.2 Control strategy configuration 216
Summary 221
Problems 221
References 222
