Title:
EIB : installation bus system
Publication Information:
Erlangen : Publicis, 2001
ISBN:
9783895781759
Available:*
Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
---|---|---|---|---|---|
Searching... | 30000010046331 | TJ223.M53 E42 2001 | Open Access Book | Book | Searching... |
On Order
Summary
Summary
The book was conceived as an easy-to-understand introduction to the technology and as a reinforcement of existing knowledge, but also as an in-depth reference. It provides detailed information on the basics of EIB, covering the fundamental principles of communication and automation technology, the EIB protocol structure including hardware and software implementation right through all necessary information on the planning, development and commissioning of EIB systems. This should be the book of choice for students, product manufacturers, software developers or experienced system integrators who do not need all information covered by the EIB manual with its 2000 pages volume.
Table of Contents
1 Introduction | p. 15 |
1.1 The Significance of Communication | p. 15 |
1.2 The Basics | p. 24 |
1.2.1 Hierarchies | p. 24 |
1.2.2 Principles of the ISO/OSI Model | p. 27 |
1.2.3 OSI levels | p. 27 |
1.2.4 Layer Layout | p. 31 |
1.2.5 Topologies | p. 33 |
1.2.6 Interaction Time Diagrams and SDL | p. 36 |
1.2.7 Tools | p. 39 |
1.2.8 EMC, Lightning and Overvoltage Protection | p. 41 |
1.3 Common Fieldbus Systems - An Overview | p. 42 |
1.3.1 Interbus | p. 43 |
1.3.2 P-NET | p. 44 |
1.3.3 Profibus | p. 47 |
1.3.4 CAN | p. 49 |
1.3.5 EIB | p. 51 |
1.3.6 LonWorks | p. 53 |
2 Networks, Disciplines, Applications | p. 56 |
2.1 Cabling in Functional Buildings | p. 56 |
2.2 Cabling in Domestic Buildings | p. 57 |
2.3 Building Categories | p. 59 |
2.4 Building Disciplines | p. 61 |
3 EIB Protocol | p. 63 |
3.1 Introduction | p. 63 |
3.1.1 OSI Model | p. 63 |
3.1.2 EIB in the OSI Model | p. 65 |
3.1.3 A Brief Overview of EIB | p. 68 |
3.2 Physical Layer | p. 69 |
3.2.1 Topology | p. 70 |
3.2.2 Logical Unit | p. 71 |
3.2.3 Medium Attachment Unit | p. 76 |
3.3 Data Link Layer | p. 79 |
3.3.1 Logical Link Control | p. 80 |
3.3.1.1 Types of Addressing | p. 81 |
3.3.1.2 Datagram Service (L_Data) | p. 82 |
3.3.2 Medium Access Control | p. 87 |
3.3.3 Frame Formats (LPDU) | p. 90 |
3.3.3.1 Data Frame | p. 90 |
3.3.3.2 Acknowledgement Frame | p. 94 |
3.3.4 Error Detection | p. 95 |
3.3.5 Bridges and Routers | p. 96 |
3.4 Network Layer | p. 96 |
3.4.1 Unicast (N_Data) | p. 98 |
3.4.2 Multicast (N_Group) and Broadcast (N_Broadcast) | p. 99 |
3.4.3 Routers | p. 101 |
3.4.3.1 Routers and End Device Addressing | p. 101 |
3.4.3.2 Routers and Group Addressing | p. 104 |
3.4.3.3 Services | p. 105 |
3.4.4 Network Protocol Data Unit (NPDU) | p. 108 |
3.5 Transport Layer | p. 109 |
3.5.1 Connection-Oriented Communication | p. 109 |
3.5.1.1 Connection Setup (T_Connect) | p. 111 |
3.5.1.2 Data Transfer (T_Data) | p. 113 |
3.5.1.3 Termination (T_Disconnect) | p. 117 |
3.5.2 Connectionless Communication | p. 122 |
3.5.2.1 Unicast (T_Data_Unack) | p. 122 |
3.5.2.2 Multicast (T_Group) | p. 123 |
3.5.2.3 Broadcast (T_Broadcast) | p. 124 |
3.5.3 Transport Protocol Data Unit (TPDU) | p. 125 |
3.6 Application Layer | p. 126 |
3.6.1 Communication Objects | p. 126 |
3.6.2 Device Configuration | p. 130 |
3.6.3 Memory Access | p. 134 |
3.6.4 Analog/Digital Converter Access | p. 136 |
3.6.5 Property Access | p. 136 |
3.6.6 Security | p. 139 |
3.6.7 Other Services | p. 141 |
3.6.8 Application Layer Protocol Data Unit (APDU) | p. 141 |
4 Application Environment and Network Management | p. 143 |
4.1 Application Environment | p. 143 |
4.1.1 Communication Objects | p. 143 |
4.1.2 EIB Objects | p. 148 |
4.2 Network Management | p. 149 |
4.2.1 Introduction | p. 150 |
4.2.2 Configuration Tables | p. 151 |
4.2.3 Network Configuration | p. 154 |
4.2.4 Device Configuration | p. 155 |
5 EIB Hardware | p. 157 |
5.1 Topology | p. 157 |
5.2 Media | p. 159 |
5.2.1 Twisted Pair | p. 159 |
5.2.1.1 Data Transmission Criteria | p. 160 |
5.2.1.2 Global Power Supply | p. 160 |
5.2.1.3 Connection Possibilities | p. 163 |
5.2.2 Radio Medium | p. 165 |
5.2.3 Powerline | p. 166 |
5.3 Communication End Devices | p. 167 |
5.3.1 Components of an End Device | p. 168 |
5.3.2 Transceivers | p. 169 |
5.3.2.1 Twisted Pair Transceiver | p. 169 |
5.3.2.2 Powerline Transceiver | p. 174 |
5.3.2.3 Radio Transceiver | p. 176 |
5.3.2.4 Internal Power Supply | p. 177 |
5.3.3 Processing Unit | p. 178 |
5.3.3.1 Twisted Pair Implementations | p. 178 |
5.3.3.2 PL Implementation (Operating System 1.x) | p. 181 |
5.3.3.3 RF Implementation (Operating System 2.x) | p. 181 |
5.3.4 Communication/Application Module Interface | p. 181 |
5.3.5 Certified Communication Module | p. 185 |
5.4 Couplers and Interfaces | p. 185 |
5.4.1 Twisted Pair Coupler | p. 186 |
5.4.2 Powerline Band Stop | p. 187 |
5.4.3 Powerline Phase Coupler and Repeater | p. 189 |
5.4.4 Media Couplers | p. 189 |
5.4.5 Data Interface | p. 191 |
6 EIB Software | p. 192 |
6.1 System Software | p. 194 |
6.1.1 Operating System Implementation 1.2 | p. 194 |
6.1.2 Operating System Implementation 2.x | p. 198 |
6.1.3 Operating System Implementation 70.x | p. 202 |
6.1.4 PL-Implementation | p. 204 |
6.1.5 RF-Implementation | p. 207 |
6.2 Interface to the Internal Application | p. 207 |
6.2.1 Group Addressing with Communication Objects | p. 207 |
6.2.2 Physical Addressing with EIB Objects | p. 210 |
6.2.3 Physical Addressing with Direct Memory Access | p. 212 |
6.3 Interface to External Applications | p. 212 |
6.3.1 Serial Protocols for PEI Configuration Types 12 and 16 | p. 213 |
6.3.2 Serial Protocol for PEI Configuration Type 10 (FT1.2) | p. 214 |
6.3.3 Message Exchange | p. 214 |
7 Integrating Building Networks | p. 216 |
7.1 Types of Couplings | p. 216 |
7.2 Using Couplings | p. 218 |
7.2.1 Extending the Range | p. 218 |
7.2.2 Remote Control | p. 219 |
7.2.3 Remote Maintenance and Remote Services | p. 220 |
7.3 Examples of Internet Access | p. 221 |
7.3.1 Java-Oriented Approach | p. 221 |
7.3.2 SNMP-Based Approach | p. 222 |
7.3.3 SOAP/HTTP-based approach | p. 224 |
7.4 IP Connectivity Models and Applications for EIB | p. 225 |
7.4.1 Device Network Protocol Transfer | p. 227 |
7.4.2 Common Datapoint Model | p. 228 |
7.4.3 Applications in EIB Controlled Buildings | p. 228 |
7.5 Security Aspects | p. 228 |
7.5.1 Data Security Concepts and Definitions | p. 229 |
7.5.2 Attacking Fieldbuses | p. 230 |
7.5.3 Secure Architecture Elements | p. 231 |
7.5.3.1 Chip Cards and Smart Cards | p. 231 |
7.5.3.2 Security Features of the Third Version of SNMP | p. 233 |
7.5.4 Construction of Secure System Architecture | p. 233 |
7.5.4.1 General Considerations | p. 234 |
7.5.4.2 Data Security at the Fieldbus Level | p. 234 |
7.5.4.3 Security Concepts for a Gateway and a Client | p. 236 |
8 Tools | p. 238 |
8.1 Development and Test Tools | p. 238 |
8.1.1 Integrated Development Environment | p. 239 |
8.1.2 Bus Monitor | p. 239 |
8.1.3 EIB Interworking Test Tool | p. 239 |
8.2 EIB Tool Software | p. 240 |
8.2.1 Application Areas of ETS | p. 241 |
8.2.2 Manufacturer Extensions of ETS | p. 242 |
8.2.3 ETS2 as the DDE Server | p. 242 |
8.2.4 ETS via Internet | p. 243 |
8.2.5 EIBnet/IP and iETS Gateway "Server" | p. 243 |
8.3 EIB Tool Environment Component Architecture | p. 243 |
8.3.1 An Overview of Previous EIB Components | p. 244 |
8.3.2 Models Behind the New eteC Components | p. 245 |
8.3.3 eteC Falcon | p. 246 |
8.3.4 eteC Eagle | p. 246 |
8.3.5 Other Components | p. 247 |
8.4 EIB OPC Server | p. 248 |
9 Facility Management | p. 249 |
9.1 Definition | p. 249 |
9.2 Prerequisites | p. 252 |
9.2.1 Profitability | p. 253 |
9.2.2 Data Acquisition | p. 255 |
9.2.3 Maintaining and Updating Data | p. 256 |
9.2.4 Facility Manager | p. 257 |
9.3 EDP Tools for Facility Management | p. 258 |
9.3.1 CAIFM Tools | p. 259 |
9.3.2 Facility Management and Fieldbus Systems | p. 260 |
9.3.3 System Architecture | p. 260 |
9.3.4 Facility Management and EIB | p. 261 |
9.4 Virtual Facility Management | p. 262 |
10 Standardization | p. 264 |
10.1 Interoperability | p. 264 |
10.2 EIB Interworking Standard | p. 268 |
10.3 The Standardization of EIB | p. 270 |
10.3.1 The Current Situation | p. 270 |
10.3.2 Relevant Standardization Committees | p. 271 |
10.4 Certification | p. 274 |
10.5 European Installation Bus Association--EIBA | p. 275 |
10.5.1 Development of EIB | p. 275 |
10.5.2 The Aims and Tasks of EIBA | p. 276 |
11 Performance Aspects | p. 278 |
11.1 Measurements on the Bus Level | p. 278 |
11.1.1 Latency Time Measurement | p. 278 |
11.1.2 Reaction Time Measurement | p. 279 |
11.1.3 Response Time Measurement | p. 280 |
11.1.4 Data Throughput | p. 280 |
11.2 Measurements on the User View | p. 284 |
11.2.1 Waiting Time Measurement | p. 284 |
11.2.2 Reliability Measurement | p. 285 |
12 Outlook | p. 287 |
12.1 Convergence | p. 287 |
12.2 BACnet | p. 289 |
12.3 EIB and Jini | p. 290 |
12.4 IEEE 1394 | p. 295 |
12.5 Intelligent Software Agents | p. 298 |
Abbreviations | p. 301 |
Bibliography | p. 304 |
Index | p. 311 |