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SIST EN 13757-5:2016

(Main)

Communication systems for meters - Part 5: Wireless M-Bus relaying

Communication systems for meters - Part 5: Wireless M-Bus relaying

This European Standard specifies the protocols to use when performing relaying in wireless meter readout networks. This European Standard is an extension to wireless meter readout specified in EN 13757-4. It supports the routing of modes P and Q, and simple single-hop repeating of modes S, T, C, F and N.
The main use of this standard is to support simple retransmission as well as routed wireless networks for the readout of meters.
NOTE   Electricity meters are not covered by this standard, as the standardisation of remote readout of electricity meters is a task for IEC/CENELEC.

Kommunikationssysteme für Zähler - Teil 5: Weitervermittlung für den drahtlosen M-Bus

Diese Europäische Norm legt die Protokolle fest, die bei der Weitervermittlung in zur Auslesung von Zählern dienenden Funknetzen anzuwenden sind. Diese Europäische Norm ist eine Erweiterung der in EN 13757 4 festgelegten Zählerauslesung über Funk. Sie unterstützt das Routing der Betriebsarten P und Q und die einfache Single-Hop-Übertragungswiederholung der Betriebsarten S, T, C, F und N.
Hauptzweck dieser Norm ist, die einfache Übertragungswiederholung sowie geroutete Funknetzwerke für die Auslesung von Zählern zu unterstützen.
ANMERKUNG   Elektrizitätszähler werden von dieser Norm nicht abgedeckt, weil die Normung der Fernauslesung von Elektrizitätszählern Aufgabe von IEC/CENELEC ist.

Systèmes de communication pour compteurs - Partie 5: Relais de transmission sans fil M-Bus

La présente Norme européenne spécifie les protocoles à utiliser lors de l’utilisation de relais dans le cadre de réseaux de relevés de compteurs par radio. La présente Norme européenne est une extension des échanges de données des compteurs par radio spécifiés dans l’EN 13757-4. Elle prend en charge le routage des modes P et Q, et la répétition par saut unique des modes S, T, C, F et N.
Le principal objet de la présente norme est de prendre en charge la retransmission simple et les réseaux radio routés dans le cadre du relevé des compteurs.
NOTE   Les compteurs d’énergie électrique ne sont pas concernés par la présente norme car la normalisation du télérelevé des compteurs d’énergie électrique est assurée par la CEI et le CENELEC.

Komunikacijski sistemi za merilnike - 5. del: Brezžično odčitavanje M-Bus

Ta evropski standard določa protokole, ki jih je treba upoštevati pri odčitavanju števcev prek brezžičnih omrežij. Ta evropski standard je razširitev k brezžičnemu odčitavanju števcev, navedenemu v standardu EN 13757-4. Podpira usmerjanje prek načinov P in Q ter enostavno ponavljanje prek načinov z enim skokom S, T, C, F in N.
Ta standard se uporablja predvsem za podporo enostavnega ponovnega prenosa in usmerjenih brezžičnih omrežij za odčitavanje števcev.
OPOMBA: Merilniki električne energije v tem standardu niso obravnavani, saj standardizacija daljinskega odčitavanja merilnikov električne energije sodi v pristojnost odborov IEC/CENELEC.

General Information

Status
Published
Public Enquiry End Date
09-Mar-2014
Publication Date
25-Jan-2016
ICS
33.200 - Telecontrol. Telemetering
Technical Committee
I13 - Imaginarni 13
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
20-Jan-2016
Due Date
26-Mar-2016
Completion Date
26-Jan-2016
Mandate
M/441 - Standardisation mandate to CEN, CENELEC and ETSI in the field of measuring instruments for the development of an open architecture for utility meters involving communication protocols enabling interoperability
M/490 - Standardisation mandate to the European Standardisation Organisations (ESOs) to support European Smart Grid deployment
Ref Project
EN 13757-5:2015 - Communication systems for meters - Part 5: Wireless M-Bus relaying

Relations

Replaces
SIST EN 13757-5:2008 - Communication systems for meters and remote reading of meters - Part 5: Wireless relaying
Effective Date
01-Mar-2016

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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Kommunikationssysteme für Zähler - Teil 5: Weitervermittlung für den drahtlosen M-BusSystèmes de communication pour compteurs - Partie 5: Relais de transmission sans fil M-BusCommunication systems for meters - Part 5: Wireless M-Bus relaying33.200Daljinsko krmiljenje, daljinske meritve (telemetrija)Telecontrol. TelemeteringICS:Ta slovenski standard je istoveten z:EN 13757-5:2015SIST EN 13757-5:2016en01-marec-2016SIST EN 13757-5:2016SLOVENSKI
STANDARDSIST EN 13757-5:20081DGRPHãþD



SIST EN 13757-5:2016



EUROPEAN STANDARD NORME EUROPÉENNE EUROPÄISCHE NORM
EN 13757-5
November 2015 ICS 33.200; 35.100.10; 35.100.20 Supersedes EN 13757-5:2008
English Version
Communication systems for meters - Part 5: Wireless M-Bus relaying
Systèmes de communication - Partie 5: Relais de transmission sans fil M-Bus
Kommunikationssysteme für Zähler - Teil 5: Weitervermittlung This European Standard was approved by CEN on 22 August 2015.
CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this European Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management Centre has the same status as the official versions.
CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
CEN-CENELEC Management Centre:
Avenue Marnix 17,
B-1000 Brussels © 2015 CEN All rights of exploitation in any form and by any means reserved worldwide for CEN national Members. Ref. No. EN 13757-5:2015 E SIST EN 13757-5:2016



EN 13757-5:2015 (E) 2 Contents
Page European foreword . 5 1 Scope . 6 2 Normative references . 6 3 Terms and definitions . 6 4 Symbols . 9 5 Introduction . 9 5.1 General . 9 5.2 Use of retransmission . 9 5.3 Repeating . 10 5.4 Relaying . 12 5.4.1 Overview . 12 5.4.2 Use of routers . 15 5.4.3 Use of gateways . 15 5.4.4 Data duplication . 16 5.4.5 Use of power strobed units . 17 5.4.6 Error handling . 18 5.4.7 Time synchronization . 18 5.5 Protocol possibilities . 20 6 Mode P, protocol using routers . 20 6.1 General . 20 6.2 Physical Layer protocol. 20 6.2.1 General . 20 6.2.2 Transmitter . 21 6.2.3 Receiver . 22 6.3 Data encoding . 23 6.3.1 Manchester encoding . 23 6.3.2 Order of transmission of the encoded data . 23 6.3.3 Wake up and preamble chip sequences . 23 6.4 Data Link Layer protocol . 23 6.4.1 General . 23 6.4.2 Frame format . 23 6.4.3 C-field . 25 6.4.4 M- and A-fields . 26 6.4.5 The CI-field . 26 6.4.6 Message handling . 26 6.4.7 Timing requirements . 27 6.5 Network Layer protocol . 28 6.5.1 General . 28 6.5.2 Network Layer format . 28 6.5.3 Relaying rules . 29 6.6 Application Layer protocol . 30 6.6.1 CI-field . 30 6.6.2 Error reporting service . 30 6.6.3 Network management service . 32 SIST EN 13757-5:2016



EN 13757-5:2015 (E) 3 7 Mode R2, protocol using gateways . 38 7.1 General . 38 8 Mode Q, protocol supporting precision timing . 38 8.1 General . 38 8.2 Physical Layer protocol . 38 8.2.1 General . 38 8.2.2 Transmitter . 38 8.2.3 Receiver . 39 8.3 Data Encoding . 40 8.3.1 NRZ encoding . 40 8.3.2 Order of transmission of the encoded data . 40 8.3.3 Wake up and preamble bit sequences . 41 8.4 Data Link Layer protocol . 41 8.4.1 General . 41 8.4.2 Frame format . 41 8.4.3 Normal Data Link Layer frame handling . 44 8.4.4 Search Link Layer frame handling . 45 8.5 Mode Q, Network Layer protocol . 47 8.5.1 General . 47 8.5.2 Network layer format . 47 8.5.3 Address conversion rules . 50 8.5.4 Routing rules . 50 8.5.5 Timing requirements . 53 8.6 Mode Q, Application Layer protocol . 54 8.6.1 General . 54 8.6.2 EN 13757-1 Application Layer . 54 8.6.3 Error reporting . 55 8.6.4 Alarm reporting . 57 8.6.5 Network Management service . 58 8.6.6 Timing requirements . 62 8.6.7 COSEM extension. 63 9 Single-hop repeaters . 64 9.1 General . 64 9.1.1 Ways of operating . 64 9.1.2 Unregistered repetition . 64 9.1.3 Registered repetition . 65 9.1.4 Assigned repetition . 65 9.2 Physical Layer protocol and data encoding . 65 9.3 Media Access duty cycle . 66 9.4 Timing . 66 9.4.1 General . 66 9.4.2 Uplink delay – default time slot . 66 9.4.3 Uplink delay – optional timeslot . 67 9.4.4 Uplink delay - randomly delayed repetition . 67 9.4.5 Downlink delay and FAC-Transmission delay. 67 9.4.6 Installation announcement delay . 68 9.4.7 Other Device response delay . 68 9.5 Data Link Layer protocol . 68 9.5.1 General . 68 9.5.2 C-Field . 68 9.5.3 Address . 69 9.6 Transport Layer and Extended Link Layer protocol . 69 SIST EN 13757-5:2016



EN 13757-5:2015 (E) 4 9.6.1 General . 69 9.6.2 Hop Count, (H-field) . 69 9.6.3 Repeated Access (R-field) . 70 9.6.4 Transfer of H- and R-fields within a frame . 70 9.7 Application Layer Protocol . 71 9.7.1 General . 71 9.7.2 Common functions . 71 9.7.3 CI field . 72 9.7.4 Repeater management data elements . 72 9.8 Error Reporting Services . 75 9.8.1 General . 75 9.8.2 Error type . 75 9.9 Management Functions . 76 9.9.1 General . 76 9.9.2 Data elements . 76 9.9.3 Meter Management . 78 9.9.4 Get List . 81 9.9.5 Radio Scan List . 84 9.9.6 Repeater Status . 86 Annex A (informative)
Timing Diagrams for a Single Hop Repeater . 89 Annex B (informative)
Message examples . 100 B.1 Command to Repeater and response . 100 B.1.1 General . 100 B.1.2 Configuration . 100 B.1.3 Detailed data, command . 101 B.1.4 Detailed data, acknowledge . 102 B.2 Readout of Radio Scan List . 102 B.2.1 General . 102 B.2.2 Configuration . 102 B.2.3 Detailed data, command . 103 B.2.4 Detailed data, acknowledge . 104 B.2.5 Detailed data, request . 105 B.2.6 Detailed data, response . 106 Bibliography . 108
SIST EN 13757-5:2016



EN 13757-5:2015 (E) 5 European foreword This document (EN 13757-5:2015) has been prepared by Technical Committee CEN/TC 294 “Communication systems for meters”, the secretariat of which is held by DIN. This European Standard shall be given the status of a national standard, either by publication of an identical text or by endorsement, at the latest by May 2016, and conflicting national standards shall be withdrawn at the latest by May 2016. Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. CEN [and/or CENELEC] shall not be held responsible for identifying any or all such patent rights. This document supersedes EN 13757-5:2008. This document has been prepared under a mandate given to CEN by the European Commission and the European Free Trade Association. EN 13757 comprises the following parts: — Part 1: Data exchange — Part 2: Physical and link layer — Part 3: Dedicated application layer — Part 4: Wireless meter readout (Radio meter reading for operation in SRD bands) — Part 5: Wireless M-Bus relaying — Part 6: Local Bus According to the CEN-CENELEC Internal Regulations, the national standards organizations of the following countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the United Kingdom. SIST EN 13757-5:2016



EN 13757-5:2015 (E) 6 1 Scope This European Standard specifies the protocols to use when performing relaying in wireless meter readout networks. This European Standard is an extension to wireless meter readout specified in EN 13757-4. It supports the routing of modes P and Q, and simple single-hop repeating of modes S, T, C, F and N. The main use of this European Standard is to support simple retransmission as well as routed wireless networks for the readout of meters. NOTE Electricity meters are not covered by this standard, as the standardization of remote readout of electricity meters is a task for IEC/CENELEC. 2 Normative references The following documents, in whole or in part, are normatively referenced in this document and are indispensable for its application. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. EN 13757-1:2014, Communication systems for meters — Part 1: Data exchange EN 13757-3:2013, Communication systems for meters and remote reading of meters — Part 3: Dedicated application layer EN 13757-4:2013, Communication systems for meters and remote reading of meters — Part 4: Wireless meter readout (Radio meter reading for operation in SRD bands) EN 60870-5-1:1993, Telecontrol equipment and systems — Part 5: Transmission protocols — Section 1: Transmission frame formats (IEC 60870-5-1:1990) EN 60870-5-2:1993, Telecontrol equipment and systems — Part 5: Transmission protocols — Section 2: Link transmission procedures (IEC 60870-5-2:1992) EN 62054-21:2004, Electricity metering (a.c.) — Tariff and load control — Part 21: Particular requirements for time switches (EN 62054-21:2002) RFC 1662 July 1994, HDLC-like Framing, Appendix C. Fast Frame Check Sequence (FCS) Implementation ETSI EN 300 220-1:2012, Electromagnetic compatibility and Radio spectrum Matters (ERM); Short Range Devices (SRD); Radio equipment to be used in the 25 MHz to 1 000 MHz frequency range with power levels ranging up to 500 mW; Part 1: Technical characteristics and test methods CEPT/ERC/REC 70-03, Relating to the use of short range devices (SRD) 3 Terms and definitions For the purposes of this document, the following terms and definitions apply. 3.1 Bidirectional Single Hop Repeater BSHR repeater retransmitting original frames in upstream as well as downstream direction Note 1 to entry: The 'H' bit in the Extended Link Layer shows whether or not frames are original or repeated. SIST EN 13757-5:2016



EN 13757-5:2015 (E) 7 3.2 block sub-element of a frame Note 1 to entry: For an EN 60870-5-1 based protocol; this will be up to 16 bytes of user data completed by a CRC check. 3.3 downlink transmission in downstream direction 3.4 downstream transmission of data in the direction from the Data Collecting Unit to the Meter 3.5 end node Meter or Data Collecting Unit Note 1 to entry: The Data Collecting Unit is named Other Device in EN 13757-4. 3.6 frame set of data encapsulated by a header and optionally a trailer Note 1 to entry: For an EN 60870-5-1 based protocol this will be a start character followed by up to 16 blocks of data. 3.7 gateway intermediate node in a data communications network, connected to two or more logical networks, where the protocols or modes used on the logical networks are different 3.8 hop transfer of a set of data from one node to an adjacent node, as one of the steps in the transfer of data between end nodes 3.9 intermediate node node in a network sitting in-between a Data Collecting Unit and a Meter 3.10 meter assignment exclusively pairing a Meter to a repeater Note 1 to entry: This is performed by Network Control. This allows access and downstream communication to the meter. 3.11 meter registration registration of a meter in one or several repeaters Note 1 to entry: This allows the repeater to repeat the transmissions from the Meter upstream. SIST EN 13757-5:2016



EN 13757-5:2015 (E) 8 3.12 Network control NC logical unit to control and supervise repeaters in the network Note 1 to entry: Network Control may be located in a Data Collecting Unit, in a repeater or in a dedicated device outside the network. 3.13 node unit in a network that is able to send and receive data 3.14 Other Device Data Collecting Unit Note 1 to entry: This is the term used in EN 13757-4. 3.15 primary station network node that controls all of the data exchange in a simple network with one central node, unbalanced data transfer and multiple remote nodes Note 1 to entry: All data transfer will (normally) be controlled by the primary station. A Data Collecting Unit will be a primary station. 3.16 radio scan list list of all Meters having sent a valid frame Note 1 to entry: Entries in this list w
...

SLOVENSKI STANDARD
oSIST prEN 13757-5:2014
01-februar-2014
.RPXQLNDFLMVNLVLVWHPL]DPHULOQLNHLQGDOMLQVNRRGþLWDYDQMHGHO%UH]åLþQR
RGþLWDYDQMH
Communication systems for meters and remote reading of meters - Part 5: Wireless
relaying
Kommunikationssysteme für Zähler und deren Fernablesung - Teil 5: Weitervermittlung
Systèmes de communication et de télérelevé des compteurs - Partie 5 : Transmission
sans fil
Ta slovenski standard je istoveten z: prEN 13757-5
ICS:
33.200 Daljinsko krmiljenje, daljinske Telecontrol. Telemetering
meritve (telemetrija)
35.100.10 )L]LþQLVORM Physical layer
35.100.20 Podatkovni povezovalni sloj Data link layer
oSIST prEN 13757-5:2014 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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oSIST prEN 13757-5:2014

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oSIST prEN 13757-5:2014


EUROPEAN STANDARD
DRAFT
prEN 13757-5
NORME EUROPÉENNE

EUROPÄISCHE NORM

November 2013
ICS 33.200; 35.100.10; 35.100.20 Will supersede EN 13757-5:2008
English Version
Communication systems for meters and remote reading of
meters - Part 5: Wireless relaying
Systèmes de communication et de télérelevé des Kommunikationssysteme für Zähler und deren
compteurs - Partie 5 : Transmission sans fil Fernablesung - Teil 5: Weitervermittlung
This draft European Standard is submitted to CEN members for enquiry. It has been drawn up by the Technical Committee CEN/TC 294.

If this draft becomes a European Standard, CEN members are bound to comply with the CEN/CENELEC Internal Regulations which
stipulate the conditions for giving this European Standard the status of a national standard without any alteration.

This draft European Standard was established by CEN in three official versions (English, French, German). A version in any other language
made by translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management
Centre has the same status as the official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania,
Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and United
Kingdom.

Recipients of this draft are invited to submit, with their comments, notification of any relevant patent rights of which they are aware and to
provide supporting documentation.

Warning : This document is not a European Standard. It is distributed for review and comments. It is subject to change without notice and
shall not be referred to as a European Standard.


EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Avenue Marnix 17, B-1000 Brussels
© 2013 CEN All rights of exploitation in any form and by any means reserved Ref. No. prEN 13757-5:2013: E
worldwide for CEN national Members.

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oSIST prEN 13757-5:2014
prEN 13757-5:2013 (E)
Contents
Page
Foreword .9
1 Scope . 10
2 Normative references . 10
3 Terms and definitions . 10
4 Symbols . 13
5 Introduction . 13
5.1 General . 13
5.2 Use of retransmission . 13
5.3 Repeating . 14
5.4 Relaying . 15
5.4.1 Overview . 15
5.4.2 Use of routers . 17
5.4.3 Use of gateways . 18
5.4.4 Data duplication . 18
5.4.5 Use of power strobed units . 19
5.4.6 Error handling . 20
5.4.7 Time synchronisation . 20
5.5 Protocol possibilities . 22
6 Mode P, protocol using routers . 22
6.1 General . 22
6.2 Physical Layer protocol . 22
6.2.1 General . 22
6.2.2 Transmitter . 23
6.2.3 Receiver . 24
6.3 Data encoding . 24
6.3.1 Manchester encoding . 24
6.3.2 Order of transmission of the encoded data . 24
6.3.3 Wake up and preamble chip sequences . 25
6.4 Data Link Layer protocol . 25
6.4.1 General . 25
6.4.2 Frame format . 25
6.4.3 C-field . 27
6.4.4 M- and A-fields . 28
6.4.5 The CI-field . 28
6.4.6 Message handling . 29
6.4.7 Timing requirements . 30
6.5 Network Layer protocol . 30
6.5.1 General . 30
6.5.2 Relaying rules . 31
6.6 Application Layer protocol . 32
6.6.1 CI-field . 32
6.6.2 Error reporting service . 33
6.6.3 Network management service . 36
7 Mode R2, protocol using gateways . 42
7.1 General . 42
2

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oSIST prEN 13757-5:2014
prEN 13757-5:2013 (E)
8 Mode Q, protocol supporting precision timing . 42
8.1 General . 42
8.2 Physical Layer protocol . 42
8.2.1 General . 42
8.2.2 Transmitter . 43
8.2.3 Receiver . 44
8.3 Data Encoding . 44
8.3.1 NRZ encoding . 44
8.3.2 Order of transmission of the encoded data . 45
8.3.3 Wake up and preamble bit sequences . 45
8.4 Data Link Layer protocol . 45
8.4.1 General . 45
8.4.2 Frame format . 45
8.4.3 Normal Data Link Layer frame handling . 48
8.4.4 Search Link Layer frame handling . 50
8.5 Mode Q, Network Layer protocol . 51
8.5.1 General . 51
8.5.2 Network layer format . 52
8.5.3 Address conversion rules . 54
8.5.4 Routing rules . 55
8.5.5 Timing requirements . 58
8.6 Mode Q, Application Layer protocol . 58
8.6.1 General . 58
8.6.2 EN 13757-1 Application Layer . 59
8.6.3 Error reporting . 59
8.6.4 Alarm reporting . 61
8.6.5 Network Management service . 62
8.6.6 Timing requirements . 68
8.6.7 COSEM extension. . 68
9 Single-hop repeaters . 70
9.1 General . 70
9.1.1 Ways of operating . 70
9.1.2 Unregistered repetition . 70
9.1.3 Registered repetition . 70
9.1.4 Assigned repetition . 71
9.2 Physical Layer protocol and data encoding . 71
9.3 Media Access duty cycle . 71
9.4 Timing . 72
9.4.1 General . 72
9.4.2 Uplink delay – default time slot . 72
9.4.3 Uplink delay – optional timeslot . 72
9.4.4 Uplink delay - randomly delayed repetition . 73
9.4.5 Downlink delay and FAC-Transmission delay. 73
9.4.6 Installation announcement delay . 73
9.4.7 Other Device response delay . 74
9.5 Data Link Layer protocol . 74
9.5.1 General . 74
9.5.2 C-Field . 74
9.5.3 Address . 75
9.6 Transport Layer and Extended Link Layer protocol . 75
9.6.1 General . 75
9.6.2 Hop Count, (H-field) . 75
9.6.3 Repeated Access (R-field) . 75
9.6.4 Transfer of H- and R-fields within a frame . 76
9.7 Application Layer Protocol . 77
9.7.1 General . 77
9.7.2 Common functions . 77
9.7.3 CI field . 77
9.7.4 Repeater management data elements . 78
3

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oSIST prEN 13757-5:2014
prEN 13757-5:2013 (E)
9.8 Error Reporting Services . 81
9.8.1 General . 81
9.8.2 Error type . 81
9.9 Management Functions . 82
9.9.1 General . 82
9.9.2 Data elements . 83
9.9.3 Meter Management . 85
9.9.4 Get List . 88
9.9.5 Radio Scan List . 92
9.9.6 Repeater Status. 94
Annex A (informative) Timing Diagrams for a Single Hop Repeater . 97
Annex B (informative) Message examples . 107
B.1 Command to Repeater and response . 107
B.1.1 General . 107
B.1.2 Configuration . 107
B.1.3 Detailed data, command . 108
B.1.4 Detailed data, acknowledge . 109
B.2 Readout of Radio Scan List . 109
B.2.1 General . 109
B.2.2 Configuration . 109
B.2.3 Detailed data, command . 111
B.2.4 Detailed data, acknowledge . 112
B.2.5 Detailed data, request . 113
B.2.6 Detailed data, response . 114
Bibliography . 116

Tables
Table 1 — Mode P, General . 22
Table 2 — Mode P, Transmitter . 23
Table 3 — Mode P, Receiver . 24
Table 4 — First block format . 25
Table 5— Second block format . 26
Table 6 — Optional blocks format . 26
Table 7 — Initiating function codes . 27
Table 8 — Acknowledging function codes . 28
Table 9 — Higher layer format . 30
Table 10 — Network Layer format . 31
Table 11 — Application Layer, Control Information field . 32
Table 12 — Error status data format . 33
Table 13 — Type field, Error status information . 34
Table 14 — Relay error format . 35
4

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oSIST prEN 13757-5:2014
prEN 13757-5:2013 (E)
Table 15 — Network management data format . 36
Table 16 — F-field, Network management function list . 36
Table 17 — Time sync data format . 37
Table 18 — Forward time sync data format . 38
Table 19 — Known nodes request format . 38
Table 20 — Known nodes response format . 39
Table 21 — Clear nodes list command format . 40
Table 22 — Relaying error status request format . 40
Table 23 — Relaying error status response format . 41
Table 24 — Mode Q, General . 42
Table 25 — Mode Q, Transmitter . 43
Table 26 — Mode Q, Receiver . 44
Table 27 — Data Link Layer frame format, Data frame . 45
Table 28 — Data Link Layer frame format, Acknowledge frame . 45
Table 29— FC field structure . 47
Table 30 — Search request data field format . 50
Table 31 — Search response data field format . 50
Table 32 — Search timing . 51
Table 33 — Network Layer information format . 52
Table 34 — Network Control field structure . 53
Table 35 — Network routing timing . 58
Table 36 — Application Layer information format . 58
Table 37 — Application Layer, Tag field . 58
Table 38 — Type field, Error status information . 59
Table 39 — Routing error format . 60
Table 40 — Alarm information data format . 61
Table 41 — Type field, Alarm information . 62
Table 42 — Network management data format . 62
Table 43 — Types of network management functions .
...

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SIST EN 13757-1:2022(Main)
Communication systems for meters - Part 1: Data exchange
EN 13757-1:2021

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.

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SIST EN 50710:2021(Main)
Requirements for the provision of secure remote services for fire safety systems and security systems
EN 50710:2021

This document specifies the minimum requirements for secure remote services (e. g. via IP connections) to the following systems:
a) fire safety systems including, but not limited to, fire detection and fire alarm systems, fixed firefighting systems, smoke and heat control
systems,
b) security systems including, but not limited to, intruder and hold-up alarm systems, electronic access control systems, external perimeter security systems and video surveillance systems,
c) social alarm systems,
d) a combination of such systems
The scope doesn´t cover:
a) the alarm transmission infrastructure,
b) the use of remote access performed by end-users

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SIST EN 13757-4:2019(Main)
Communication systems for meters - Part 4: Wireless M-Bus communication
EN 13757-4:2019

This European Standard specifies the requirements of parameters for the physical and the link layer for systems using radio to read remote meters. The primary focus is to use the Short Range Device (SRD) unlicensed telemetry bands. The standard encompasses systems for walk-by, drive-by and fixed installations. As a broad definition, this European Standard can be applied to various application layers.

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SIST EN 13757-2:2018(Main)
Communication systems for meters - Part 2: Wired M-Bus communication
EN 13757-2:2018

This draft European standard is applicable to the physical and link layer parameters of baseband communication over twisted pair (M Bus) for meter communication systems. It is especially applicable to thermal energy meters, heat cost allocators, water meters and gas meters.
NOTE    It is usable also for other meters (like electricity meters) and for sensors and actuators. For generic descriptions concerning communication systems for meters and remote reading of meters see EN 13757-1.

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SIST EN 13757-7:2018(Main)
Communication systems for meters - Part 7: Transport and security services
EN 13757-7:2018

This draft European Standard specifies Transport and Security Services for communication systems for meters and remote reading of meters.
This draft European Standard specifies secure communication capabilities by design and supports the building of a secure system architecture.
This draft European standard is applicable to the protection of consumer data to ensure privacy.
This draft European Standard is intended to be used with the lower layer specifications determined in EN 13757-2, EN 13757-3, EN 13757-4, EN 13757-5 and EN 13757-6.

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SIST EN 13757-3:2018(Main)
Communication systems for meters - Part 3: Application protocols
EN 13757-3:2018

This European Standard specifies application protocols for communication systems for meters.
This European Standard specifies application protocols, especially the M-Bus application protocol.
This European Standard is intended to be used with the lower layer specifications determined in
EN 13757-2, EN 13757-4, EN 13757-5, EN 13757-6 and EN 13757-7.

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SIST-TP CEN/TR 17167:2018(Main)
Communication system for meters - Accompanying TR to EN 13757-2,-3 and -7, Examples and supplementary information
CEN/TR 17167:2018

This Technical Report contains additional information to the requirements determined in EN 13757-2, EN 13757-3 and EN 13757-7, in particular examples for the implementation, Datagram examples secured by security mechanism of part 7 and additional non-normative requirements beyond meter communication itself.

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SIST EN 16603-70-41:2017(Main)
Space engineering - Telemetry and telecommand packet utilization
EN 16603-70-41:2017

This Standard addresses the utilization of telecommand packets and telemetry packets for the purposes of remote monitoring and control of spacecraft subsystems and payloads.
This Standard does not address mission­specific payload data packets, but the rules contained herein can be extended to suit the requirements of any mission.
This Standard does not address audio and video data as they are not contained within either telecommand or telemetry packets.
This Standard defines a set of services that satisfy all the fundamental operational requirements for spacecraft monitoring and control during spacecraft integration, testing and flight operations, refer to ECSS-E-ST-70-11. It also specifies the structure and contents of the telecommand packets used to transport the requests and the telemetry packets used to transport the reports.

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SIST EN 16836-3:2017(Main)
Communication systems for meters - Wireless mesh networking for meter data exchange - Part 3: Energy profile specification dedicated application layer
EN 16836-3:2016

This European Standard specifies the application layer of a communication protocol for the exchange of data from metering devices to other devices within a mesh network. This European Standard makes reference to a number of documents whereby core requirements are specified. This referencing is in compliance with the Bridge Consortium and additionally the Memorandum of Understanding between the ZigBee Alliance and CEN/CENELEC.
The EN 16836 series represents a feature subset of a larger standard and as such not all of the features specified in the referenced documents are specified in this standard, due to some features being outside the scope of CEN/TC 294. Where this is the case the out of scope feature has either been omitted or specified as excluded.

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SIST EN 16836-1:2017(Main)
Communication systems for meters - Wireless mesh networking for meter data exchange - Part 1: Introduction and standardization framework
EN 16836-1:2016

This European Standard gives the standardization framework of communication systems applicable to the exchange of data from metering devices to other devices within a mesh network.
This European Standard specifies how to interpret prEN 16836-2:2015 and prEN 16836-3:2015 which give a list of references to the ZigBee documents. This series is applicable to communications systems that involve messages and networking between a meter or multiple meters and other devices in a mesh network, such as in home displays (IHDs) and communications hubs. This European Standard allows routing between devices and also allows channel agility to avoid contention with other networks of the same type, or indeed networks of other types operating in the same frequency bands.
This European Standard is designed to support low power communications for devices such as gas and water meters which can make data from such devices available on the mesh network at any time through a proxy capability within a permanently powered device.

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