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控制系统技术概论(英文版·原书第7版)

控制系统技术概论(英文版·原书第7版)

作者:(美)贝特森(Bateson,R.N.) 著

出版社:机械工业出版社

出版时间:2006-04-01

ISBN:9787111187097

定价:¥69.00

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内容简介
  《控制系统技术概论(英文版·原书第7版)》的作者有长达10年的控制工程技术工作经历,加之非常明确的编著目的——培养学生掌握闭环控制系统构建、控制器设计、系统现场调试等方面的技术与方法,使本书具有理论联系实际、工程背景强的基本特色和鲜明特点。1.总体结构独特,突出工程实践;全书正文由五部分组成,思路开阔,内容由浅入深,层次分明,系统性强。第一部分“引论”共四章,占全书除附录外的23.3%篇幅,这在其他同类书籍中较为少见,有利于初学者对自动控制的概念、闭环系统的基本组成与常用部件、系统类型、控制的目的与评价标准等有一个全面、清晰的认识。2.内容融合多门课程,结合技术标准;本书以闭环控制系统的分析、设计为主线,涉及的被控对象包括电系统、气动系统、液压系统、热力系统、机械系统等,将自动控制理论、自动检测技术、自动检测技术、电机气动基础、电力电子技术、过程控制系统、运动控制系统、电气控制与PLC等多门课程融合在一起,形成一个有机的整体。3.论述深度把握合理,采用启发性方式叙述;书中每章前都列出该章学习目的和需要重点掌握的内容,便于读者目标明确地学习,并自我衡量是否达到本章学习要求。全书的16章中有14章都引论。引论的内容起到如下几个作用:①概括全章的内容;②承上启下,提出问题,以便在此后的各节中逐一解决;③阐明重要要领。4.插图强调联系实际,习题侧重工程训练。全书的插图经过精心设计,直观、清晰,有助于概念的理解。书中有相当数量的工程图,如气动控制阀的机械结构图、工业传送带控制系统电气控制原理图等等,体现了与工程紧密联系的特点。一插图配有较大篇幅的文明说明,一方面方便了读者,另一一方面使正文的文字简练。
作者简介
暂缺《控制系统技术概论(英文版·原书第7版)》作者简介
目录
Preface VII
PART0NE  INTRODUCTIOI
CHAPTER I Basic Concepts and Terminology
1.1  Introduction
1.2  Block Diagrams and Transfer Functions
1.3  Open-Loop Control
1.4  Closed-Loop Control: Feedback
1.5  Control System Drawings
1.6  Nonlinearities
1.7  Benefits of Automatic Control
1.8  Load Changes
1.9  Damping and Instability
1.11  Criteria of Good Control
1.12  Block Diagram Simplification
CHAPTER 2 Types of Control
2.1  Introduction
2.2  Analog and Digital Control
2.3  Regulator and Follow-Up Systems
2.4  Process Control
2.5  Servomechanisms
2.6  Sequential Control
2.7  Numerical Control
2.8  Robotics
Contents
2.9  The Evolution of Control Systems
2.10  Examples of Control Systems
CHAPTER 3 The Common Elements of System Components
3.1   Introduction
3.2  Electrical Elements
3.3  Liquid Flow Elements
3.4  Gas Flow Elements
3.5  Thermal Elements
3.6  Mechanical Elements
CHAPTER 4 Laplace Transforms and Transfer Functions
4.1   Introduction
4.2  Input/Output Relationships
4.3  Laplace Transforms
4.4  Inverse Laplace Transforms
4.5  Transfer Functions
4.6  Initial and Final Value Theorems
4.7  Frequency Response: Bode Plots
PARTTW0 MEASUREMENT
CHAPTER 5 Measuring Instrument Characteristics
5.1  Introduction
5.2  Statistics
5.3  Operating Characteristics
5.4  Static Characteristics
5.5   Dynamic Characteristics
5.6  Selection Criteria
CHAPTER 6 Signal Conditioning
6.1  Introduction
6.2  The Operational Amplifier
6,3  Op-Amp Circuits
6.4  Analog Signal Conditioning
6.5  Digital Signaling Conditioning
CHAPTER 7 Position, Motion, and Force Sensors
7.1   Introduction
7.2  Position and Displacement Measurement
Contents
7.3  Velocity Measurement
7.4  Acceleration Measurement
7.5   Force Measurement
CHAPTER 8 Process Variable Sensors
8.1   Temperature Measurement
8.2  Flow Rate Measurement
8.3  Pressure Measurement
8.4  Liquid Level Measurement
PARTTHREE MANIPULATK
CHAPTER 9 Switches, Actuators, Valves, and Heaters
9.1  Mechanical Switching Components
9.2  Solid-State Components
9.3  Hydraulic and Pneumatic Valves and Actuators
9.4  Control Valves
9.5  Electric Heating Elements
CHAPTER I0 Electric Motors
10.1  Introduction
10.2  AC Motors
10.3  DC Motors
10.4  Stepping Motors
10.5  AC Adjustable-Speed Drives
10.6  DC Motor Amplifiers and Drives
PARTFOUR CONTR
CHAPTER 11 Control of Discrete Processes
11.1  Introduction
11.2  Time-Driven Sequential Processes
11.3  Event-Driven Sequential Processes
11.4  Time/Event-Driven Sequential Processes
CHAPTER 12 Programmable Logic Controllers
12.1 Introduction
12.2 PLC Hardwarev
Contents
12.3  PLC Programming and Operation
12.4  PLC Programming Functions
CHAPTER 13 Control of Continuous Processes
13.1  Introduction
13.2  Modes of Control
13.3  Electronic Analog Controllers
13.4  Digital Controllers
13.5  Advanced Control
13.6  Fuzzy Logic Controllers
PARTFIVE ANALYSIS AND DESIGN
CHAPTER 14 Process Characteristics
14.1  Introduction
14.2  The Integral or Ramp Process
14.3  The First-Order Lag Process
14.4  The Second-Order Lag Process
14.5  The Dead-Time Process
14.6  The First-Order Lag Plus Dead-Time Process
CHAPTER 15 Methods of Analysis
15.1  Introduction
15.2  Overall Bode Diagram of Several Components
15.3  Open-Loop Bode Diagrams
15.4  Closed-Loop Bode Diagrams
15.5  Error Ratio and Deviation Ratio
15.6  Computer-Aided Bode Plots
15.7  Stability
15.8  Gain and Phase Margin
15.9  Nyquist Stability Criterion
15.10 Root Locus
CHAPTER 16 Controller Design
16.1  Introduction
16.2  The Ultimate Cycle Method
16.3  The Process Reaction Method
16.4  Self-Tuning Adaptive Controllers
16.5  Computer-Aided PID Controller Design
16.6  Example Design of a Three-Loop Control System
16.7  Control System Compensation
Contents
APPENDIX A Properties at Materials
Properties of Solids
Melting Point and Latent Heat of Fusion
Properties of Liquids
Properties of Gases
Standard Atmospheric Conditions
APPENDIX B Units and Conversion
Systems of Units
Conversion Factors
APPENDIX C Binary Codes
Powers of 2
Octal and Binary Equivalents
Decimal, Hexadecimal, and Binary Equivalents
One's and Two's Complements
The Gray Code
Binary Codes for Decimal Digits
Seven-Bit ASCII Code
APPENDIX D Instrumentation Symbols and Identification
Purpose
Scope
Definition
Outline of the Identification System
APPENDIX E Complex Numbers
Introduction
Rectangular and Polar Forms of Complex Numbers
Conversion of Complex Numbers
Graphical Representation of Complex Numbers
Addition and Subtraction of Complex Numbers
Multiplication and Division of Complex Numbers
Integer Power of a Complex Number
Roots of a Complex Number
APPENDIX F Communications
Communication Interfaces
Local Area Networks
Communication Protocols
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