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BS EN 13757-1:2021 – TC:2022 Edition

BS EN 13757-1:2021 – TC:2022 Edition

$280.87

Tracked Changes. Communication systems for meters – Data exchange

Published By Publication Date Number of Pages
BSI 2022 302
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This document specifies data exchange and communications for meters in a generic way. This document establishes a protocol specification for the Application Layer for meters and establishes several protocols for meter communications which can be applied depending on the application being fulfilled. This document also specifies the overall structure of the OBject Identification System (OBIS) and the mapping of all commonly used data items in metering equipment to their identification codes.” NOTE Electricity meters are not covered by this document, as the standardization of remote readout of electricity meters is a task for CENELEC/IEC.

PDF Catalog

PDF Pages PDF Title
1 30450462
171 A-30399638
172 undefined
179 1 Scope
2 Normative references
180 3 Terms and definitions
182 4 General description and security
4.1 Basic vocabulary
4.2 Layered protocols
4.2.1 General
183 4.2.2 7 Layer Protocol
4.2.3 IP Protocol
184 4.2.4 3 Layer Protocol
185 4.3 Security
4.3.1 General
186 4.3.2 Security Requirement Analysis/Threat Analysis
4.3.3 Key Management
4.3.3.1 General
187 4.3.3.2 Symmetrical or Asymmetrical Encryption
188 4.3.4 COSEM Application Layer Security
4.3.5 Transport Layer Security
189 5 Network Architecture
5.1 M/441 Mandate
190 5.2 General
5.3 Basic architecture
191 5.4 Metering Architecture
193 5.5 Singular access point
5.6 Self-configurable network
5.7 Hand held unit for local access
5.8 Network layers
5.9 Multiple access
194 6 Application Layers for Metering
6.1 General
6.2 COSEM Application Layer for Metering
6.3 Companion Specification
195 6.4 COSEM Basic Principles
196 6.5 Management of a COSEM Device
197 6.6 Lower layers
198 7 Data Exchange
7.1 General
7.2 Data exchange using direct local connection
7.2.1 General
7.2.2 Security
7.2.3 Physical layer
7.2.3.1 Optical interface
7.2.3.2 Electrical current loop interface
199 7.2.3.3 Electrical V.24/V.28 interface
7.2.4 Link Layer
7.3 Data exchange using wired local area network (LAN)
7.3.1 General
7.3.2 Twisted pair, baseband signalling
7.3.2.1 General
7.3.2.2 Physical layer
7.3.2.3 Link layer
200 7.3.3 Twisted pair, baseband limited systems
7.3.4 Twisted pair, carrier signalling
7.4 Data exchange using wide area network (WAN)
7.4.1 General
7.4.2 PSTN/GSM CSD based connection
7.4.2.1 General
7.4.2.2 Physical Layer EN 6205642
202 7.4.2.3 Link Layer EN 6205646
204 7.4.3 IP connection
7.4.3.1 General
205 7.4.3.2 IPv4 based connection
7.4.3.3 IPv6 based connection
7.4.3.4 IP security
206 7.5 Data exchange using M-Bus radio communication
7.5.1 General
7.5.2 Basic M-Bus radio networks
7.5.3 Routed M-Bus radio networks
7.5.4 Security over M-Bus radio networks
7.6 Data Exchange using HDLC
7.6.1 General
7.6.2 Security
207 7.6.3 Physical layer
7.6.3.1 General
7.6.3.2 Electrical current loop interface
7.6.3.3 Electrical V.24/V.28 interface
7.6.4 Link Layer
8 Upper Layer Protocols
8.1 Introduction
8.2 Transport sub-layer
8.2.1 Introduction
208 8.2.2 EN 6205646 related Transport sub-layer
8.2.3 EN 6205647 related Transport sub-layer
8.2.4 Transport sub-layer
210 8.3 Application sub-layer
8.3.1 General
8.3.2 Application layer structure
211 8.3.3 Service specification
8.3.4 Protocol specification
9 Cross-application data handling
9.1 General
212 9.2 Data tunnelling
9.2.1 General
9.2.2 M-Bus Application Layer transferred by DLMS
9.2.2.1 Setting up the interface
213 9.2.2.2 Simple Tunnelling
214 9.3 Data translation
10 Extensions to COSEM
10.1 Introduction
10.2 M-Bus tunnelling
215 10.3 Specific object type – Error Reporting Object
10.3.1 Introduction
10.3.2 General error object
10.3.2.1 General
10.3.2.2 Alert
216 10.3.2.3 Warning
10.3.2.4 Indication
10.3.3 Media specific error object
10.3.4 Manufacturer specific error object
11 Object Identification System (OBIS)
11.1 Object Identification System (Variable naming rules)
11.1.1 Introduction
217 11.1.2 Structure
11.1.3 Manufacturer, utility, consortia and country specific codes
218 11.1.4 Common value groups
11.1.4.1 General
11.1.4.2 Value group A
11.1.4.3 Value group B
219 11.1.4.4 Value group C (abstract objects)
220 11.1.4.5 Notes for value group C (abstract objects)
11.1.4.6 Value group D
11.1.4.7 Value group E
11.1.4.8 Value group F
11.2 Abstract Objects (A = 0)
221 11.3 Media specific value groups
11.3.1 General
11.3.2 Value groups specific to Heat Cost Allocators
11.3.2.1 Introduction
11.3.2.2 Value group C for HCA
222 11.3.2.3 Value group D for HCA
223 11.3.2.4 Value group E codes – HCA
11.3.2.5 General and service entry objects – HCA
225 11.3.2.6 Error register objects – HCA
11.3.2.7 List objects – HCA
226 11.3.2.8 Data profile objects – HCA
11.3.2.9 OBIS codes for HCA related objects (examples)
11.3.3 Value groups specific to Thermal Energy Meters
11.3.3.1 Introduction
227 11.3.3.2 Value group C for Thermal Energy Meters
228 11.3.3.3 Value group D for Thermal Energy Meters
229 11.3.3.4 Value group E codes – Thermal energy
11.3.3.5 General and service entry objects – Thermal Energy Meters
231 11.3.3.6 Error register objects – Thermal Energy meter
232 11.3.3.7 List objects – Thermal Energy meter
11.3.3.8 Data profile objects – Thermal Energy Meters
11.3.3.9 OBIS codes for thermal energy related objects (examples)
233 11.3.4 Value groups specific to Gas Meters
11.3.4.1 Introduction
234 11.3.4.2 Value group C for Gas
236 11.3.4.3 Value group D for Gas
249 11.3.4.4 Value group E codes
252 11.3.4.5 Value group F codes – Gas
253 11.3.4.6 General and service entry objects – Gas
261 11.3.4.7 Error register objects – Gas
262 11.3.4.8 List object – Gas
11.3.4.9 Data profile objects – Gas
264 11.3.5 Value groups specific to Water Meters (A = 8 and A = 9)
11.3.5.1 Introduction
11.3.5.2 Value group C for Water
11.3.5.3 Value group D for Water
265 11.3.5.4 Value group E codes – Water
11.3.5.5 General and service entry objects – Water
266 11.3.5.6 Error register objects – Water
267 11.3.5.7 List objects – water
11.3.5.8 Data profile objects – Water
11.3.5.9 OBIS codes for water related objects (examples)
268 11.4 Other media (Value group A = F)
11.4.1 General
11.4.2 Value group C codes – Other media
11.4.3 Value group D codes – Other media
11.4.4 Value group E codes – Other media
11.4.5 Value group F codes – Other media
269 11.5 Code presentation
11.5.1 Reduced ID codes (e.g. for EN 6205621)
11.5.2 Display
11.5.3 Special handling of value group F
271 Annex A (normative)Basic class meters
A.1 General
A.2 Mandatory contents of a COSEM logical Device
A.3 Basic requirements for Heat Cost Allocators
272 A.4 Basic requirements for thermal energy meters
A.5 Basic requirements for Gas meters
273 A.6 Basic requirements for Cold/Hot water meters
274 Annex B (informative)DLMS Glossary
B.1 Introduction
B.2 Activation mask
B.3 Activity calendar
B.4 Association LN
B.5 Association SN
B.6 Automatic capturing
275 B.7 Billing Period in COSEM
B.8 Capture
B.9 Channel
B.10 Clock
276 B.11 Current and last average value objects
B.12 Date and time
B.13 Daylight saving
B.14 Demand Register
278 B.15 Device ID
B.16 Error values
279 B.17 High level security
B.18 Interface modelling
B.19 I/O Control Signals
B.20 Interoperability
B.21 Logical device
280 B.22 Logical name referencing
B.23 Low level security
B.24 Manufacturer defined ID-s
B.25 Manufacturer specific abstract objects
B.26 Manufacturer specific class id
B.27 Manufacturer specific data and parameters
B.28 Manufacturer specific OBIS codes
281 B.29 Maximum and minimum value objects
B.30 Measurement of different media
B.31 Measurement method and tariffs
B.32 Measurement values series
B.33 Missing measurement values
B.34 Node
B.35 Password
282 B.36 Physical device
B.37 Power failure handling
B.38 Power failure monitoring
B.39 Preferred readout-values
283 B.40 Profile objects
B.41 Profile for billing periods
B.42 Profile generic interface class
B.43 Register interface class
B.44 Reset, IC Demand register
284 B.45 Reset, IC Extended register
B.46 Reset, IC Profile generic
B.47 Reset, IC Register
B.48 Reset, indication of source
B.49 Scaler
B.50 Scaler-unit
B.51 Schedule
B.52 Script
B.53 Script table interface class
285 B.54 Season
B.55 Selective access
B.56 Set date
B.57 Short name referencing
B.58 Special days table interface class
B.59 Standard readout definitions
B.60 Tariff
B.61 Tariffication
286 B.62 Threshold
B.63 Time integral value objects
B.64 Time setting, in relation with IC Schedule
B.64.1 General
B.64.2 Time setting forward
B.64.3 Time setting backward
B.64.4 Time synchronization
287 B.64.5 Daylight Saving
B.65 Time stamps (in relation with IC PSTN Auto dial)
B.66 Time stamp (in relation with billing periods)
B.67 Time synchronization
B.68 Unique identifier
B.69 Unit
293 B.70 Utility tables
294 Annex C (informative)Gas Volume Conversion
C.1 Introduction
C.2 Foreword to abstract data model of gas volume converter
C.3 Abstract data model of gas volume converter — Common objects in gas conversion and energy calculation
297 C.4 Principle of measurement for volume conversion and energy calculation
298 C.5 Data flow in volume conversion and energy calculation
299 Annex D (normative)Country specific identifiers

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BS EN 13757-1:2021 - TC
$280.87