BS EN 62056-31:2000
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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Electricity metering. Data exchange for meter reading, tariff and load control Use of local area networks on twisted pair with carrier signalling
Hardcopy , PDF
03-31-2014
English
12-15-2000
1 General
1.1 Scope
1.2 Normative references
2 General description
2.1 Basic vocabulary
2.2 Layers and protocols
2.3 Specification language
2.4 Communication services for local bus data
exchange without DLMS
2.4.1 Remote reading exchange
2.4.2 Remote programming exchange
2.4.3 Point to point remote transfer
exchange
2.4.4 Broadcast remote transfer frame
2.4.5 Bus initialization frame
2.4.6 Forgotten station call exchange
2.4.7 Frame fields
2.4.8 Principle of the energy remote supply
2.4.9 Non-energized station preselection
exchange
2.4.10 Communication exchange after
preselection
2.4.11 Alarm function
2.5 Communication services for local bus data
exchange with DLMS
2.6 Systems management
3 Local bus data exchange without DLMS
3.1 Physical layer
3.1.1 Physical-62056-31 protocol
3.1.2 Physical parameters
3.1.3 Timing diagrams
3.1.4 Physical services and service
primitives
3.1.5 State transitions
3.1.6 List and processing of errors
3.2 Data Link layer
3.2.1 Link-62056-31 protocol
3.2.2 Management of exchanges
3.2.3 Data Link services and service
primitives
3.2.4 Data Link parameters
3.2.5 State transitions
3.2.6 List and processing of errors
3.3 Application layer
3.3.1 Link-62056-31 protocol
3.3.2 Application services and service
primitives
3.3.3 Application parameters
3.3.4 State transitions
3.3.5 List and processing of errors
4 Local bus data exchange with DLMS
4.1 Physical layer
4.2 Data Link layer
4.2.1 Link-E/D protocol
4.2.2 Management of exchanges
4.2.3 Data Link services and service
primitives
4.2.4 Data Link parameters
4.2.5 State transitions
4.2.6 List and processing of errors
4.3 Application layer
4.3.1 Transport sub-layer
4.3.2 Application sub-layer
5 Local bus data exchange - Hardware
5.1 General
5.2 General characteristics
5.2.1 Signal transmission at 50 kHz
5.2.2 Energy supply signal transmission
5.2.3 Simple Secondary Station and multiple
Secondary Station
5.3 Bus specification
5.3.1 General characteristics
5.3.2 Cable characteristics
5.3.3 Wiring
5.4 Magnetic plug
5.4.1 Function
5.4.2 Common mechanical characteristics
5.4.3 Electrical Block diagram with simple
plug
5.4.4 Electrical Block Diagram with energy
supply plug
5.5 Functional specifications of Primary Station
transmitter (for 50 kHz signal)
5.6 Functional specifications of Primary Station
receiver (for 50 kHz signal)
5.7 Functional specification of Secondary Station
transmitter (for 50 kHz signal)
5.8 Functional specifications of Secondary Station
receiver (for 50 kHz signal)
Annex A (normative) Specification language
Annex B (normative) Timing types and characteristics
Annex C (normative) List of fatal errors
Annex D (normative) Coding the command code field of frames
Annex E (normative) Principle of the CRC
Annex F (normative) Random integer generation for response
from forgotten stations
Annex G (normative) Random number generation for
authentication (architecture without
DLMS)
Annex H (normative) Systems management implementation
Annex I (informative) Information about exchanges
Annex ZA (normative) Normative references to international
publications with their corresponding
European publications
Details two new architectures for local bus data exchange with stations either energized or not. The bus supplies energy for data exchange, for non-energized stations. First architecture completes the base protocol with remote transfer services. The second architecture gives operation of dlms services by using the same physical layer and medium. The compatibility guarantees possible use of Iec 61142 and iec 62056-31 equipment on the same bus.
Committee |
PEL/13
|
DevelopmentNote |
Supersedes BS EN 61142. (11/2000) Supersedes 97/201888 DC. (10/2005)
|
DocumentType |
Standard
|
Pages |
90
|
PublisherName |
British Standards Institution
|
Status |
Superseded
|
SupersededBy | |
Supersedes |
Describes two new architectures for local bus data exchange with stations either energized or not. For non-energized stations, the bus supplies energy for data exchange. The first architecture completes the base protocol (IEC 61142) with remote transfer services. The second architecture allows operation of DLMS services using the same physical medium and the same physical layer. This complete compatibility guarantees the possibility of using IEC 61142 and IEC 62056-31 equipment on the same bus. This standard replaces IEC 61142 (1993).
This publication is of high relevance for Smart Grid.
Standards | Relationship |
NBN EN 62056-31 : 2000 | Identical |
NF EN 62056-31 : 2000 | Identical |
DIN EN 62056-31 : 2000 | Identical |
IEC 62056-31:1999 | Identical |
I.S. EN 62056-31:2000 | Identical |
SN EN 62056-31 : 2000 | Identical |
UNE-EN 62056-31:2001 | Identical |
EN 62056-31:2000 | Identical |
IEC TS 62056-51:1998 | Electricity metering - Data exchange for meter reading, tariff and load control - Part 51: Application layer protocols |
IEC 61334-4-41:1996 | Distribution automation using distribution line carrier systems - Part 4: Data communication protocols - Section 41: Application protocol - Distribution line message specification |
TIA 485 : A1998(R2012) | ELECTRICAL CHARACTERISTICS OF GENERATORS AND RECEIVERS FOR USE IN BALANCED DIGITAL MULTIPOINT SYSTEMS |
ISO/IEC 8482:1993 | Information technology Telecommunications and information exchange between systems Twisted pair multipoint interconnections |
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