Title: Industrial Communication Technology Handbook, 2nd Edition Author: Richard Zurawski ISBN: 1138071811 / 9781138071810 Format: Soft Cover Pages: 1756 Publisher: CRC Press Year: 2017 Availability: 2 to 3 weeks
Description
Contents
Featuring contributions from major technology vendors, industry consortia, and government and private research establishments, the Industrial Communication Technology Handbook, Second Edition provides comprehensive and authoritative coverage of wire- and wireless-based specialized communication networks used in plant and factory automation, automotive applications, avionics, building automation, energy and power systems, train applications, and more.
New to the Second Edition:
46 brand-new chapters and 21 substantially revised chapters
Inclusion of the latest, most significant developments in specialized communication technologies and systems
Addition of new application domains for specialized networks
The Industrial Communication Technology Handbook, Second Edition supplies readers with a thorough understanding of the application-specific requirements for communication services and their supporting technologies. It is useful to a broad spectrum of professionals involved in the conception, design, development, standardization, and use of specialized communication networks as well as academic institutions engaged in engineering education and vocational training.
Preface
Editor
Contributors
International Advisory Board
Part I : Field Area and Control Networks
Chapter 1 : Fieldbus Systems Fundamentals Chapter 2 : Networked Control Systems for Manufacturing : Parameterization, Differentiation, Evaluation and Application Chapter 3 : Configuration and Management of Networked Embedded Devices Chapter 4 : A Smart Transducer Interface Standard for Sensors and Actuators Chapter 5 : IO-Link Interface and System Chapter 6 : AS-Interface Chapter 7 : HART Over Legacy 4-20 mA Signal Base Chapter 8 : HART Device Networks Chapter 9 : The Common Industrial Protocol (CIP™) and the Family of CIP Networks Chapter 10 : Modbus Chapter 11 : PROFIBUS Chapter 12 : PROFInet Chapter 13 : The Sercos® Automation Bus Chapter 14 : FOUNDATION Fieldbus : History and Features Chapter 15 : INTERBUS
Part II : Industrial Ethernet
Chapter 16 : Switched Ethernet in Automation Chapter 17 : Real-Time Ethernet for Automation Applications Chapter 18 : Ethernet for Control Automation Technology Chapter 19 : Ethernet Powerlink Chapter 20 : IEEE 802.1 Audio/Video Bridging and Time-Sensitive Networking
Part III : Fault-Tolerant Clock Synchronization in Industrial Automation Networks
Chapter 21 : Clock Synchronization in Distributed Systems using NTP and PTP
Part IV : Accessing Factory Floor Data
Chapter 22 : Linking Factory Floor and the Internet Chapter 23 : MTConnect : Different Devices, Common Connection Chapter 24 : The Standard Message Specification for Industrial Automation Systems : ISO 9506 (MMS) Chapter 25 : Extending CEA-709 Control Networks across IP Channels Chapter 26 : Web Services for Embedded Devices
Part V : Safety Technologies in Industrial Networks and Network Security
Chapter 27 : PROFIsafe : Functional Safety with PROFIBUS and PROFINET Chapter 28 : The SafetyNet p Protocol Chapter 29 : Security in Industrial Communications
Part VI : Wireless Industrial Networks
Chapter 30 : Wireless LAN Technology for the Factory Floor : Challenges and Approaches Chapter 31 : WirelessHart Chapter 32 : ISA100 Chapter 33 : Comparison of WirelessHart and ISA 100 Chapter 34 : IEC-PAS 62601/WIA-PA Chapter 35 : Wireless Extensions of Real-Time Industrial Networks Chapter 36 : Wireless Sensor Networks for Automation Chapter 37 : Design and Implementation of a Truly Wireless Real-Time Sensor/Actuator Interface for Discrete Manufacturing Automation Chapter 38 : IPv6 over Low Power Wireless Personal Area Networks (6LoWPAN) and Constrained Application Protocol (CoAP)
Part VII : Time-Triggered Communication
Chapter 39 : Concepts of Time-Triggered Communication Chapter 40 : Time-Triggered Protocol (TTP/C) Chapter 41 : Time-Triggered CAN Chapter 42 : Time-Triggered Ethernet
Part VIII : Avionics and Aerospace
Chapter 43 : AS 15531/MIL-STD-1553B Digital Time Division Command/Response Multiplex Data Bus Chapter 44 : ASCB : Avionics Standard Communications Bus Chapter 45 : ARINC 429 Chapter 46 : ARINC 629 Chapter 47 : Commercial Standard Digital Bus Chapter 48 : SAFEbus Chapter 49 : Dimensioning of Civilian Avionics Networks : An AFDX Perspective
Part IX : Automotive Communication Technologies
Chapter 50 : In-Vehicle Communication Networks : A Historical Perspective and Review Chapter 51 : Standardized Basic System Software for Automotive Applications Chapter 52 : Controller Area Network Chapter 53 : FlexRay Communication Technology Chapter 54 : The LIN Standard
Part X : Building Automation
Chapter 55 : State of the Art in Smart Homes and Buildings Chapter 56 : Fundamentals of LonWorks®/CEA-709 Networks Chapter 57 : BACnet : The Communication Protocol for Building Automation and Control Networks Chapter 58 : KNX, A Worldwide Standard Protocol for Home and Building Automation : State of the Art and Perspectives Chapter 59 : Future Trends in Smart Homes and Buildings
Part XI : Energy and Power Systems
Chapter 60 : Protocols for Automatic Meter Reading Chapter 61 : Communication Protocols for Power System Automation Chapter 62 : IEC 61850 : A Single Standard for the Engineering, Automation, and Supervision of Power Systems on All Voltage Levels Chapter 63 : Fundamentals of the IEC 61400-25 Standard : Communications for Monitoring and Control of Wind Power Plants
Part XII : Communication Networks and Services in Railway Applications
Chapter 64 : Communication in Train Control Chapter 65 : Ethernet Extensions for TCN
Part XIII : SEMI
Chapter 66 : SEMI Interface and Communication Standards : An Overview and Case Study
Part XIV : Emerging Protocols and Technologies
Chapter 67 : BRAIN : Braided Ring Availability Integrity Network