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BS EN IEC 62056-6-2:2023

BS EN IEC 62056-6-2:2023

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Electricity metering data exchange. The DLMS®/COSEM suite – COSEM interface classes

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BSI 2023 536
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This part of IEC 62056 specifies a model of a meter as it is seen through its communication interface(s). Generic building blocks are defined using object-oriented methods, in the form of interface classes to model meters from simple up to very complex functionality. Annexes A to F (informative) provide additional information related to some interface classes.

PDF Catalog

PDF Pages PDF Title
2 undefined
4 European foreword
Endorsement notice
5 Annex ZA (normative) Normative references to international publications with their corresponding European publications
9 English
CONTENTS
19 FOREWORD
21 INTRODUCTION
23 1 Scope
2 Normative references
25 3 Terms, definitions and abbreviated terms
26 3.1 Terms and definitions related to the Image transfer process (see 4.4.6)
Figures
Figure 1 – The meaning of the definitions concerning the Image
27 3.2 Terms and definitions related to the S-FSK PLC setup classes (see 4.10)
28 3.3 Terms and definitions related to the PRIME NB OFDM PLC setup ICs (see 4.12)
29 3.4 Terms and definitions related to the ISO/IEC 14908 setup ICs (see 4.18)
30 3.5 Terms and definitions related to ZigBee® XE ZigBee® (see 4.15)
31 3.6 Terms and definitions related to Payment metering interface classes (see 4.6)
35 3.7 Terms and definitions related to the Arbitrator IC (see 4.5.12)
36 3.8 Abbreviated terms
40 4 The COSEM interface classes
4.1 Basic principles
4.1.1 General
41 4.1.2 Referencing methods
Figure 2 – An interface class and its instances
42 4.1.3 Reserved base_names XE “Reserved base_names” for special COSEM objects
4.1.4 Class description notation XE “Notation”
Tables
Table 1 – Reserved base_names for SN referencing
Table 2 – Interface class overview
45 4.1.5 Common data types XE “Data type”
Table 3 – Common data types
46 4.1.6 Data formats XE “Data format”
51 4.1.7 The COSEM server model XE “Server model”
Figure 3 – The COSEM server model
52 4.1.8 The COSEM logical device XE “Logical device”
Figure 4 – Combined metering device
53 4.1.9 Information security XE “Information security”
54 4.2 Overview of the COSEM interface classes
55 Figure 5 – Overview of the interface classes – Part 1
56 Figure 6 – Overview of the interface classes – Part 2
57 Figure 7 – Overview of the interface classes – Part 3
Table 4 – List of interface classes by class_id
60 4.3 Interface classes for parameters and measurement data
4.3.1 Data XE “Data” (class_id = 1, version = 0)
61 4.3.2 Register XE “Register” (class_id = 3, version = 0)
63 Table 5 – Enumerated values for physical units
65 4.3.3 Extended register XE “Extended register” (class_id = 4, version = 0)
Table 6 – Examples for scaler_unit
67 4.3.4 Demand register XE “Demand register” (class_id = 5, version = 0)
Figure 8 – The time attributes when measuring sliding demand XE “Sliding demand”
68 Figure 9 – The attributes in the case of block demand XE “Block demand”
Figure 10 – The attributes in the case of sliding demand (number of periods = 3)
71 4.3.5 Register activation XE “Register activation” (class_id = 6, version = 0)
73 4.3.6 Profile generic XE “Profile generic” (class_id = 7, version = 1)
77 Table 7 – Parameters for selective access to the buffer attribute
79 4.3.7 Utility tables XE “Utility tables” (class_id = 26, version = 0)
Table 8 – Parameters for selective access to the buffer attribute
80 4.3.8 Register table XE “Register table” (class_id = 61, version = 0)
83 4.3.9 Status mapping XE “Status mapping” (class_id = 63, version = 0)
84 4.3.10 Compact data (class_id: 62, version: 1)
88 Table 9 – Daily billing data
Table 10 – Attributes of the “Compact data“ object
89 Table 11 – A-XDR encoding of the data (SEQUENCE OF Get-Data-Result)
Table 12 – Diagnostic and Alarm data
90 Table 13 – Attributes of the “Compact data” object
Table 14 – Encoding the data read from the buffer attribute of a “Profile generic” object
Table 15 – Logbook data
91 Table 16 – Attributes of the “Compact data” object
Table 17 – Attributes of the “Compact data” object
92 4.4 Interface classes for access control and management
4.4.1 Overview
4.4.2 Client user identification XE “Client user identification”
Table 18 – A-XDR encoding of the data read from the buffer attribute
93 4.4.3 Association SN XE “Association SN” (class_id = 12, version = 4)
96 Table 19 – Parameters for selective access to the object_list and access_rights_list attribute
98 4.4.4 Association LN XE “Association LN” (class_id = 15, version = 3)
100 Table 20 – Parameters for selective access to the object_list attribute
105 4.4.5 SAP assignment XE “SAP assignment” (class_id = 17, version = 0)
4.4.6 Image transfer (class_id = 18, version = 0) XE “Image transfer”
111 Figure 11 – Image transfer process flow chart
113 4.4.7 Security setup (class_id = 64, version = 1)
119 4.4.8 Push XE “Push” interface classes and objects
120 Figure 12 – COSEM model of push operation
122 Figure 13 – Push windows XE “Push window” and delays
131 Table 21 – Encoding of selective access parameters with data_index XE “data_index”
132 4.4.9 COSEM data protection (class_id = 30, version = 0)
133 Figure 14 – COSEM model of data protection
135 Figure 15 – Example: Read protection_buffer attribute
142 Table 22 – Key information XE “Key information” required to establish data protection keys
143 Table 23 – Protection parameters of protection_parameters_get attribute
144 Table 24 – Protection parameters of protection_parameters_set attribute
145 Table 25 – Protection parameters of get_protected_attributes method
146 Table 26 – Protection parameters of set_protected_attributes method
147 4.4.10 Function control (class_id: 122, version: 0)
Table 27 – Protection parameters of invoke_protected_method method
149 4.4.11 Array manager (class_id = 123, version = 0)
150 Figure 16 – Example of managing an array
154 4.4.12 Communication port protection (class_id = 124, version = 0)
156 Table 28 – Example values for NCA and CLT
157 4.5 Interface classes for time- and event bound control
4.5.1 Clock XE “Clock” (class_id = 8, version = 0)
158 Figure 17 – The generalized time concept
161 4.5.2 Script table XE “Script table” (class_id = 9, version = 0)
162 4.5.3 Schedule XE “Schedule” (class_id = 10, version = 0)
Table 29 – Schedule
Table 30 – Special days XE “Special days” table
165 4.5.4 Special days table XE “Special days table” (class_id = 11, version = 0)
167 4.5.5 Activity calendar XE “Activity calendar” (class_id = 20, version = 0)
171 4.5.6 Register monitor XE “Register monitor” (class_id = 21, version = 0)
172 4.5.7 Single action schedule XE “Single action schedule” (class_id = 22, version = 0)
173 4.5.8 Disconnect control XE “Disconnect control” (class_id = 70, version = 0)
174 Figure 18 – State diagram of the Disconnect control IC
175 Table 31 – Disconnect control IC – states and state transitions
177 4.5.9 Limiter XE “Limiter” (class_id = 71, version = 0)
179 4.5.10 Parameter monitor XE “Parameter monitor” (class_id = 65, version = 1)
183 4.5.11 Sensor manager XE “Sensor manager” (class_id = 67, version = 0)
187 4.5.12 Arbitrator (class_id = 68, version = 0)
Figure 19 – Definition of upper and lower thresholds
Table 32 – Explicit presentation of threshold value arrays
Table 33 – Explicit presentation of action_sets
191 4.5.13 Modelling examples: tariffication and billing
192 Figure 20 – COSEM tariffication model (example)
Figure 21 – COSEM billing model (example)
193 4.6 Payment metering XE “Payment metering” related interface classes
4.6.1 Overview of the COSEM accounting model
194 Figure 22 – Outline Account model
195 4.6.2 Account XE “Account” (class_id = 111, version = 0)
Figure 23 – Diagram of attribute relationships
204 4.6.3 Credit interface class (class_id = 112, version = 0)
205 Figure 24 – Credit States when priority >0
Table 34 – Credit states
206 Table 35 – Credit state transitions
208 Figure 25 – Operation of current_credit_status flags
214 Figure 26 – Interaction of current_credit_amount and available_creditwith Token “Credit” and Emergency “Credit”
215 4.6.4 Charge XE “Charge” (class_id = 113, version = 0)
221 4.6.5 Token gateway XE “Token gateway” (class_id = 115, version = 0)
223 4.7 Interface classes for setting up data exchange via local ports and modems
4.7.1 IEC local port setup XE “Local port setup” (class_id = 19, version = 1)
225 4.7.2 IEC HDLC setup XE “HDLC setup class” (class_id = 23, version = 1)
227 4.7.3 IEC twisted pair XE “Twisted pair” (1) setup XE “IEC twisted pair (1) setup” (class_id = 24, version = 1)
229 Table 36 – ADS address elements
230 4.7.4 Modem configuration XE “Modem configuration” (class_id = 27, version = 1)
Table 37 – Fatal error register
231 4.7.5 Auto answer XE “Auto answer” (class_id = 28, version = 2)
235 4.7.6 Auto connect XE “Auto connect” (class_id = 29, version = 2)
237 4.7.7 GPRS modem setup (class_ XE “GPRS modem setup” id = 45, version = 0)
238 4.7.8 GSM diagnostic (class_id: 47, version: 2)
240 4.7.9 LTE monitoring (class_ XE “GPRS modem setup” id: 151, version: 1)
243 4.8 Interface classes for setting up data exchange via M-Bus
4.8.1 Overview
244 4.8.2 M-Bus slave port setup XE “M-Bus slave port setup” (class_id = 25, version = 0)
245 4.8.3 M-Bus client (class_id = 72, version = 1)
249 4.8.4 Wireless Mode Q channel XE “Wireless Mode Q channel” (class_id = 73, version = 1)
250 4.8.5 M-Bus master port setup XE “M-Bus master port setup” (class_id = 74, version = 0)
251 4.8.6 DLMS®/COSEM server M-Bus port setup (class_id = 76, version = 0)
253 4.8.7 M-Bus diagnostic (class_id = 77, version = 0)
255 4.9 Interface classes for setting up data exchange over the Internet
4.9.1 TCP-UDP setup XE “TCP-UDP setup” (class_id = 41, version = 0)
257 4.9.2 IPv4 setup XE “IPv4 setup” (class_id = 42, version = 0)
260 4.9.3 IPv6 setup (class_id = 48, version = 0)
264 4.9.4 MAC address setup (class_id = 43, version = 0)
4.9.5 PPP setup XE “PPP setup” (class_id = 44, version = 0)
269 4.9.6 SMTP setup XE “SMTP setup” (class_id = 46, version = 0)
270 4.9.7 NTP setup (class_id = 100, version = 0)
271 4.10 Interface classes for setting up data exchange using S-FSK PLC
4.10.1 General
272 4.10.2 Overview
Figure 27 – Object model of DLMS®/COSEM servers
273 Table 38 – Mapping IEC 613344512:2001 MIB variables toCOSEM IC attributes / methods
274 4.10.3 S-FSK Phy&MAC set-up (class_id = 50, version = 1)
279 4.10.4 S-FSK Active initiator (class_id = 51, version = 0)
Table 39 – MAC addresses in the S-FSK profile
281 4.10.5 S-FSK MAC synchronization timeouts (class_id = 52, version = 0)
283 4.10.6 S-FSK MAC counters (class_id = 53, version = 0)
286 4.10.7 IEC 61334-4-32 LLC setup (class_id = 55, version = 1)
287 4.10.8 S-FSK Reporting system list (class_id = 56, version = 0)
288 4.11 Interface classes for setting up the LLC layer for ISO/IEC 8802-2
4.11.1 General
4.11.2 ISO/IEC 8802-2 LLC Type 1 setup (class_id = 57, version = 0)
289 4.11.3 ISO/IEC 8802-2 LLC Type 2 setup (class_id = 58, version = 0)
290 4.11.4 ISO/IEC 8802-2 LLC Type 3 setup (class_id = 59, version = 0)
292 4.12 Interface classes for setting up and managing DLMS®/COSEM narrowband OFDM PLC profile for PRIME networks XE “NB OFDM PLC profile for PRIME networks”
4.12.1 Overview
293 4.12.2 Mapping of PRIME NB OFDM PLC PIB attributes to COSEM IC attributes
Figure 28 – Object model of DLMS®/COSEM servers
294 Table 40 – Mapping of PRIME NB OFDM PLC PIB attributes toCOSEM IC attributes
295 4.12.3 61334-4-32 LLC SSCS setup XE “61334-4-32 LLC SSCS setup” (class_id = 80, version = 0)
296 4.12.4 PRIME NB OFDM PLC Physical layer parameters
4.12.5 PRIME NB OFDM PLC Physical layer counters (class_id = 81, version = 0)
297 4.12.6 PRIME NB OFDM PLC MAC setup (class_id = 82, version = 0)
299 4.12.7 NB OFDM PLC MAC functional parameters (class_id = 83 version = 0)
301 4.12.8 PRIME NB OFDM PLC MAC counters (class_id = 84, version = 0)
302 4.12.9 PRIME NB OFDM PLC MAC network administration data (class_id = 85, version = 0)
305 4.12.10 PRIME NB OFDM PLC MAC address setup (class_id = 43, version = 0)
4.12.11 PRIME NB OFDM PLC Application identification (class_id = 86, version = 0)
306 4.13 Interface classes for setting up and managing the DLMS®/COSEM narrowband OFDM PLC profile for G3-PLC networks
4.13.1 Overview
307 4.13.2 Mapping of G3-PLC PIB attributes to COSEM IC attributes
Table 41 – Mapping of G3-PLC IB attributes to COSEM IC attributes
308 4.13.3 G3-PLC MAC layer counters XE “G3-PLC MAC layer counters” (class_id = 90, version = 1)
310 4.13.4 G3-PLC MAC setup XE “G3-PLC MAC setup” (class_id = 91, version = 2)
318 4.13.5 G3-PLC 6LoWPAN adaptation layer setup XE “G3-PLC 6LoWPAN adaptation layer setup” (class_id = 92, version = 2)
325 4.14 Interface classes for setting up and managing DLMS®/COSEM HS-PLC ISO/IEC 12139-1 neighbourhood networks
4.14.1 Overview
4.14.2 HS-PLC ISO/IEC 12139-1 MAC setup (class_id = 140, version = 0)
327 4.14.3 HS-PLC ISO/IEC 12139-1 CPAS setup (class_id = 141, version = 0)
4.14.4 HS-PLC ISO/IEC 12139-1 IP SSAS setup (class_id = 142, version = 0)
328 4.14.5 HS-PLC ISO/IEC 12139-1 HDLC SSAS setup (class_id = 143, version = 0)
329 4.15 ZigBee® XE “ZigBee®” setup classes
4.15.1 Overview
330 Figure 29 – Example of a ZigBee® network
Table 42 – Use of ZigBee® setup COSEM interface classes
331 4.15.2 ZigBee® SAS startup XE “ZigBee® SAS startup” (class_id = 101, version = 0)
333 4.15.3 ZigBee® SAS join XE “ZigBee® SAS join” (class_id = 102, version = 0)
334 4.15.4 ZigBee® SAS APS fragmentation XE “ZigBee® SAS APS fragmentation” (class_id = 103, version = 0)
335 4.15.5 ZigBee® network control XE “ZigBee® network control” (class_id = 104, version = 0)
341 4.15.6 ZigBee® tunnel setup XE “ZigBee® tunnel setup” (class_id = 105, version = 0)
342 4.16 Interface classes for setting up and managing the DLMS®/COSEM profile for LPWAN networks
4.16.1 General
4.16.2 Generic interface classes
346 Table 43 – C/D Rule 1
348 4.16.3 LPWAN specific interface classes
355 4.17 Interface classes for setting up and managing the DLMS®/COSEM profile for Wi-SUN networks
4.17.1 Wi-SUN setup (class_id = 95, version 0)
359 4.17.2 Wi-SUN diagnostic (class_id = 96, version 0)
363 4.17.3 RPL diagnostic (class_id = 97, version 0)
365 4.17.4 MPL diagnostic (class_id = 98, version 0)
367 4.18 Interface classes for setting up and managing the DLMS®/COSEM profile for ISO/IEC 14908 PLC networks
4.18.1 General
4.18.2 ISO/IEC 14908 identification (class_id = 130, version = 0)
368 4.18.3 ISO/IEC 14908 protocol setup (class_id = 131, version = 0)
4.18.4 ISO/IEC 14908 protocol status (class_id = 132, version = 0)
370 4.18.5 ISO/IEC 14908 diagnostic (class_id = 133, version = 0)
373 5 Previous versions XE “Version, previous” of interface classes
5.1 General
5.1.1 New versions of interface classes
5.1.2 New interface classes
5.1.3 Removal of interface classes
5.2 Previous versions XE “Version, previous” of interface classes – general
5.3 Previous versions of interface classes for parameters and measurement data
5.3.1 Profile XE “Profile” generic (class_id = 7, version = 0)
377 5.3.2 Compact data (class_id = 62, version = 0)
380 5.4 Previous versions of interface classes for access control and management
5.4.1 Association SN XE “Association SN” (class_id = 12, version = 0)
382 5.4.2 Association SN XE “Association SN” (class_id = 12, version = 1)
383 Table 44 – Parameters for selective access to the object_list attribute
385 5.4.3 Association SN XE “Association SN” (class_id = 12, version = 2)
388 Table 45 – Parameters for selective access to the object_list and access_rights_list attribute
389 5.4.4 Association SN (Class_id = 12, version =3)
392 Table 46 – Parameters for selective access to the object_list attribute
394 5.4.5 Association LN XE “Association LN” (class_id = 15, version = 0)
398 Table 47 – Parameters for selective access to the object_list attribute
399 5.4.6 Association LN XE “Association LN” (class_id = 15, version = 1)
404 5.4.7 Association LN XE “Association LN” (class_id = 15, version = 2)
410 5.4.8 Security setup (class_id = 64, version = 0)
412 5.4.9 Push Setup (class_id = 40, version = 0)
413 Figure 30 – Push windows and delays
417 5.4.10 Push Setup (class_id = 40, version = 1)
Table 48 – Encoding of selective access parameters with data_index XE “data_index”
424 5.5 Previous versions of interface classes for time- and event-bound control
5.5.1 Parameter monitor XE “Parameter monitor” (class_id = 65, version = 0)
425 5.6 Previous versions of payment metering related interface classes
426 5.7 Previous versions of interface classes for setting up data exchange via local ports and modems
5.7.1 IEC local port setup XE “Local port setup” (class_id = 19, version = 0)
427 5.7.2 IEC HDLC setup XE “HDLC setup class” , (class_id = 23, version = 0)
429 5.7.3 IEC twisted pair XE “Twisted pair” (1) setup XE “IEC twisted pair (1) setup” (class_id = 24, version = 0)
430 Table 49 – ADS address elements
431 5.7.4 PSTN modem configuration XE “PSTN modem configuration” (class_id = 27, version = 0)
433 5.7.5 Auto answer XE “Auto answer” (class_id = 28, version = 0)
435 5.7.6 PSTN auto dial XE “Auto dial” (class_id = 29, version = 0)
436 5.7.7 Auto connect XE “Auto connect” (class_id = 29, version = 1)
438 5.7.8 GSM diagnostic (class_id = 47, version = 0)
440 5.7.9 GSM diagnostic (class_id: 47, version: 1)
442 5.7.10 LTE monitoring (class_ XE “GPRS modem setup” id: 151, version: 0)
443 5.8 Previous versions of interface classes for setting up data exchange via M-Bus
5.8.1 M-Bus client XE “M-Bus client” (class_id = 72, version = 0)
448 5.9 Previous versions of interface classes for setting up data exchange over the internet
5.10 Previous versions of interface classes for data exchange using S-FSK PLC
5.10.1 S-FSK Phy&MAC setup (class_id = 50, version = 0)
453 5.10.2 S-FSK IEC 61334-4-32 LLC setup (class_id = 55, version = 0)
454 5.11 Previous versions of interface classes for setting up the LLC layer for ISO/IEC 8802-2
5.12 Previous versions of interface classes for setting up and managing DLMS®/COSEM narrowband OFDM PLC profile for PRIME networks
5.13 Previous versions of interface classes for setting up and managing DLMS®/COSEM narrowband OFDM PLC profile for G3-PLC networks
5.13.1 Mapping of G3-PLC IB attributes to COSEM IC attributes (Original version)
455 Table 50 – Mapping of G3-PLC IB attributes specifiedin ITU-T G.9903:2017 to COSEM IC attributes
456 5.13.2 G3 NB OFDM PLC MAC layer counters XE “M-Bus client” (class_id = 90, version = 0)
457 5.13.3 G3 NB OFDM PLC MAC setup XE “M-Bus client” (class_id = 91, version = 0)
461 5.13.4 G3 NB OFDM PLC 6LoWPAN adaptation layer setup XE “M-Bus client” (class_id = 92, version = 0)
467 5.13.5 Mapping of G3-PLC PIB attributes to COSEM IC attributes (previous version)
468 Table 51 – Mapping of G3-PLC IB attributes to COSEM IC attributes
469 5.13.6 G3-PLC MAC setup XE “G3-PLC MAC setup” (class_id = 91, version = 1)
475 5.13.7 G3-PLC 6LoWPAN adaptation layer setup XE “G3-PLC 6LoWPAN adaptation layer setup” (class_id = 92, version = 1)
481 5.14 Previous versions of interface classes for setting up and managing DLMS®/COSEM HS-PLC ISO/IEC 12139-1 neighbourhood networks
5.15 Previous versions of ZigBee® setup classes
6 Relation to OBIS
6.1 General
482 6.2 Abstract COSEM objects XE “COSEM objects, Abstract”
6.2.1 Use of value group C
Table 52 – Use of value group C for abstract objects in the COSEM context
483 6.2.2 Data of historical billing periods XE “Billing period”
484 Figure 31 – Data of historical billing periods – example with module 12, VZ = 5
485 6.2.3 Billing period values / reset counter entries
6.2.4 Other abstract general purpose OBIS codes
486 6.2.5 Clock XE “Clock” objects (class_id = 8)
6.2.6 Modem configuration XE “Modem configuration” and related objects
487 6.2.7 Script table objects XE “Script table” (class_id = 9)
488 6.2.8 Special days table XE “Special days table” objects (class_id = 11)
6.2.9 Schedule XE “Schedule” objects (class_id = 10)
489 6.2.10 Activity calendar XE “Activity calendar” objects (class_id = 20)
6.2.11 Register activation XE “Register activation” objects (class_id = 6)
6.2.12 Single action schedule XE “Single action schedule” objects (class_id = 22)
490 6.2.13 Register monitor XE “Register monitor” objects (class_id = 21)
6.2.14 Parameter monitor XE “Parameter monitor” objects (class_id = 65)
6.2.15 Limiter XE “Limiter” objects (class_id = 71)
6.2.16 Array manager objects (class_id = 123)
6.2.17 Payment metering related objects
491 6.2.18 IEC local port setup XE “Local port setup” objects (class_id = 19)
6.2.19 Standard readout profile XE “Standard readout profile” objects (class_id = 7)
492 6.2.20 IEC HDLC setup XE “HDLC setup” objects (class_id = 23)
6.2.21 IEC twisted pair (1) setup XE “IEC twisted pair (1) setup” objects (class_id = 24)
493 6.2.22 Objects related to data exchange over M-Bus
494 6.2.23 Objects to set up data exchange over the Internet XE “Internet”
495 6.2.24 Objects to set up Push Setup (class_id = 40)
496 6.2.25 Objects for setting up data exchange using S-FSK PLC
6.2.26 Objects for setting up the ISO/IEC 8802-2 LLC layer
497 6.2.27 Objects for data exchange using narrowband OFDM PLC for PRIME networks
6.2.28 Objects for data exchange using narrow-band OFDM PLC for G3-PLC networks
498 6.2.29 ZigBee® XE “ZigBee®” setup objects
6.2.30 Objects for setting up and managing data exchange using ISO/IEC 14908 PLC networks
6.2.31 Objects for data exchange using HS-PLC ISO/IEC 12139-1 ISO/EC 12139-1 networks
499 6.2.32 Objects for data exchange using Wi-SUN networks
6.2.33 Association XE “Association” objects (class_id = 12, 15)
500 6.2.34 SAP assignment XE “SAP assignment” object (class_id = 17)
6.2.35 COSEM logical device name XE “Logical Device Name” object
6.2.36 Information security related objects
501 6.2.37 Image transfer XE “Image transfer” objects (class_id = 18)
6.2.38 Function control objects (class_id = 122)
6.2.39 Communication port protection objects (class_id = 124)
6.2.40 Utility table XE “Utility tables” objects (class_id = 26)
502 6.2.41 Compact data objects (class_id = 62)
6.2.42 Device ID XE “Device ID” objects
503 6.2.43 Metering point ID XE “Metering point ID” objects
6.2.44 Parameter changes XE “Parameter changes” and calibration objects
6.2.45 I/O control signal XE “I/O control signal” objects
6.2.46 Disconnect control XE “Disconnect control” objects (class_id = 70)
504 6.2.47 Arbitrator XE “Arbitrator” objects (class_id = 68)
6.2.48 Status of internal control signals objects XE “Internal control signals” XE “Internal operating status”
6.2.49 Internal operating status objects XE “Internal control signals” XE “Internal operating status”
505 6.2.50 Battery XE “Battery” entries objects
6.2.51 Power failure XE “Power failure” monitoring objects
506 6.2.52 Operating time XE “Operating time” objects
6.2.53 Environment related parameters objects
6.2.54 Status register XE “Status register” objects
6.2.55 Event code XE “Event code” objects
507 6.2.56 Communication port log parameter XE “Communication port log parameter” objects
6.2.57 Consumer message XE “Consumer message” objects
6.2.58 Currently active tariff XE “Currently active tariff” objects
6.2.59 Event counter XE “Event counter” objects
508 6.2.60 Profile entry digital signature XE “Digital signature, profile entry” objects
6.2.61 Profile entry counter objects
6.2.62 Meter tamper XE “Tamper” event XE “Meter tamper event” related objects
509 6.2.63 Error register XE “Error register” objects
6.2.64 Alarm register XE “Alarm register” , Alarm filter XE “Alarm filter” and Alarm descriptor XE “Alarm descriptor” objects
510 6.2.65 General list objects XE “List objects – General”
6.2.66 Event log XE “Event log” objects (class_id 7)
511 6.2.67 Inactive objects XE “Inactive objects”
6.3 Electricity related COSEM objects XE “COSEM objects, Electricity”
6.3.1 Value group D XE “Value group D” definitions
6.3.2 ID numbers – Electricity XE “ID numbers, Electricity”
Table 53 – Representation of various values by appropriate ICs
512 6.3.3 Billing period values / reset counter entries XE “Billing period”
6.3.4 Other electricity related general purpose objects
513 6.3.5 Measurement algorithm XE “Algorithm”
514 Table 54 – Measuring algorithms – enumerated values
515 6.3.6 Metering point ID XE “Metering point ID” (electricity related)
6.3.7 Electricity related status objects
6.3.8 List objects – Electricity (class_id = 7) XE “List objects – Electricity”
516 6.3.9 Threshold values XE “Threshold value”
Table 55 – Threshold objects, electricity
517 6.3.10 Register monitor XE “Register monitor” objects (class_id = 21)
6.4 Coding of OBIS XE “OBIS” identifications
Table 56 – Register monitor objects, electricity
519 Annex A (informative)Additional information on Auto answer and Auto connect ICs
Figure A.1 – Network connectivity example for a GSM/GPRS network
521 Annex B (informative)Additional information to M-Bus client XE “M-Bus client” (class_id = 72, version 1)
Figure B.1 – Encryption key status diagram
522 Table B.1 – Encryption key is preset in the slave and cannot be changed
Table B.2 – Encryption key is preset in the slave and new key is set after installation
Table B.3 – Encryption key is not preset in the slave, but can be set, case a)
Table B.4 – Encryption key is not preset in the slave, but can be set, case b)
523 Annex C (informative)Additional information on IPv6 setup class (class_id = 48, version = 0)
C.1 General
C.2 IPv6 addressing XE “IPv6 addressing”
524 C.3 IPv6 header XE “IPv6 header” format
Figure C.1 – IPv6 address formats
525 Figure C.2 – IPv6 header format
Figure C.3 – Traffic class parameter format
526 C.4 IPv6 header extensions
C.4.1 Overview
C.4.2 Hop-by-Hop options
Table C.1 – IPv6 header vs. IPv6 IC
Table C.2 – Optional IPv6 header extensions vs. IPv6 IC
527 C.4.3 Destination options
C.4.4 Routing options
C.4.5 Fragment options
C.4.6 Security options
528 Annex D (informative)Overview of the narrow-band OFDM PLC technology for PRIME networks
529 Annex E (informative)Overview of the narrow-band OFDM PLC technology for G3-PLC XE “G3-PLC” networks
530 Annex F (informative)Significant technical changes with respectto IEC 62056-6-2, Edition 3.0:2017
531 Bibliography

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BS EN IEC 62056-6-2:2023
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