obis list v1.51_gk020315.xls

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DLMS User Association

List of standardised OBIS codes

Generated: 28th November 2001

version 1.51Date: 02-03-14 (filename changed 2005-06-08)

File: OBIS list v1.51_GK020315replaces: V1.5Date: 02-03-12

File: OBISlistv1_5_GK020312.xls Authors: Paul Fuchs - Gyozo Kmethy

device

languagemessagespecification

This version contains abstract and electricity related objects.

References:

[1] IEC 62056-61 Electricity metering - Data exchange for meter reading, tariff and load control - Part61: Object identification system[2] IEC 62056-62 Electricity metering - Data exchange for meter reading, tariff and load control - Par62: Interface classes

This list is an extension to [1] and [2] and takes precedence over it between two amendments.

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Objective

The objective of this document is to list all OBIS codes defined in the IEC 62056-61 and pren13757 standards (DLMS UA Blue book) in the standard range.

This OBIS list table is used by the COSEM Conformance Test tool (CTT) for testing the OBIScodes used by the implementation under test.

Explanations

For this purpose, the tabke is machine (and human) readable.

Lines marked by 'com' are for the human reader, these lines are not interpreted by the tool.Lines marked by 'def' include range definitions for the different positions of the OBIS code.These definitions will apply in the lines below the definition.

In the column IC class, IC classes as defined in [1] and [2] are included.

In column Alt IC class alternative possibilities are proposed, the test tool will accept them.

"*" in this colum means any interface class. This is used only for manufacturer specific classes.

Lines filled grey show the start of a new range of identifiers. These are "com" lines and they are notinterpreted by the tool.

Fileds filled yellow highlight some proposals made by Gyozo Kmethy.

Red text means problems identified in [1] and [2]. These problems, after their solution will be in anamended version of the Blue Book, and then in the standards.

They do not cause problem for conformance testing.

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Change log:V 1.0 first releaseV 1.1 making it machine readableV 1.2 Introducing com lines and range definitionsV1.3 elimination of overlapping codes, better definition of threshold object codesV1.31 small modifications to eliminate bugs found by CTTV 1.41 modification of several lines following comments

Modifications in V 1.41line 3: comment addedline 7: value of d is 0-254 instead of 254line 10: comment added on using an energy type related identifier in Group A for abstractobjectsline 12: comment amendedline 53: value of Group E modified to 6-255. Comment modified.Line 60: comment addedLine 63: value of Group E modified to 2-254. Comment added.Line 68: Group A = 0 instead of 0-1, to avoid overlapping with electricity object. Commentamended.

Lines 69-76: Group A=0.Lines 120-166: A=0/1 instead of A=0Line 121: Device Id 1 is manufacturing number Line 131: Comment amendedLine 132: Comment amended. IEC 62056-62 D.1.1.19 has to be amended.Line 143: comment amended. IEC 62056-62 D1.1.20 has to be amended.Line 145: Reference to standards amendedLine 146: comment amended. IEC 62056-62 D.1.1.21 has to be amended.Line 155: IEC 62056-62 D.1.1.22 has to be amendedLine 161: Group E amended to 1-63.Line 166: Group modified to 0-255Line 180: Group E modified to 0-255Line 182: A = 0/1 instead of A = 0. Comment amended.Line 183: Comment amended.Line 200: comment deletedLine 206: IEC 62056-62 D.1.2.7 needs amendment to allow IC =1Line 214: IEC 62056-62 D.1.2.8 needs to be amended to allow IC = 3Line 251: Comment amended. The use of this object needs to be clarified.Line 258 to 264: Reference to standards amendedLine 265: Range definition amended (editorial only).Line 267: Range definition amended (editorial only)Line 345: meaning amended E=0 means totalLine 364: Comment amended. [2] D.1.2.1 needs to be amended to use "register".Line 368: Comment amended.Line 372: C codes for frequency taken out. Comment added: The meaning of D = 7 and D = 24is the same.Line 373: new line added for instantaneous value of frequency

Line 397:Comment amended.Line 411, 412: References added. Comment amended.Line 417: unitless quantity addedLine 419: Range definition amended to include D = 82, 91, 92Line 420-431: F modified to 0-255. [1] Annex A .3 has to be modified accordingly.Line 432, 433: Range definitions amended (editorial)Line 434 436: Range definitions amended (editorial)Line 450: Comment addedLine 458, 459: Range definition amended

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Line 460-463: Following a comment from Enermet, for new lines inserted to allow using D =24for voltage and harmonic current measurement. [1] Table 8 has to be amended accordingly.

Line 517: Comment amended.Line 523, 524, 532, 533: Range of E is amended.

Modifications in V1.42Lines 197 has been modified to allow reading the time stamps of the last 1-25 billing periods orof an unspecified number of recent billing periods.

Modifications in V1.43Note added on front pagelines 20,22, 24, 26, 28, 30, 32: In column D, 'd' replaced by '1-254'line 42: In column D, 'd' replaced by '1-254'line 166: in column A, '0,1' replaced by '0'line 182: '0/1' replaced by '0,1' (editorial)line 517: mdofied to align with line 66: 1.b.96.50-96.0-255.0-255line 373: missing IC class addedlines 460-463: missing IC classes added

Modifications in V 1.5 Abstract table is split out from electricity table. This abstract table is common for all logicaldevices measuring any media (electricity, HCA, Cooling etc.)With this, earlier line references are not valid any more.Abstract objectsLine 3: Comment amended.Line 4: definitions of b modified, c and d deleted. Def lines modified accordinglyLine 10: 0 is replaced by 255. Same change is made in all "com" lines on the top of the variousOBIS name groups.Line 13: Value group E modified to 1-254Line 37: Value group E modified to 1-254Line 46: Comment amendedLine 68: comment amendedLine 132: comment deletedLine 134, 135, 136, 138, 139: Proposal to allow IC = 4 revoked.Line 138: comment deletedLine 140: new OBIS code proposed by Siemens. 0,a.b.96.2.7.255: Date of activation of passivecalendar. Following line numbers are shifted by one.Line 168: new OBIS code proposed by Siemens and VDEW. 0.b.96.99.8.255, Name of standarddata set.Line 182: Value of Group e change from 0-255 to 0-127, to stay in the standard range.Line 185 amended to allow manufacturer specific codes in groups B to F.New line 186 added for manufacturer specific code in group B. All following line numbers areshifted up by one.Electricity related objectsLine 3: Comment amended.Line 4: definitions of b modified, c and d deleted. Def lines modified accordingly

Line 6 definition def a =1 addedLine 10: new com line added. All following line numbers are shifted up by one.Line 13: proposal to allow also A = 0 is revoked. Comment deleted. In this table in group A, Aalways equals to 1. This is to avoid any potential conflict with codes for energy type relatedgeneral purpose objects.Line 87: Meaning is amended: neutral current and voltage are also treated separatelyLine 89: def changed: 91, 92 taken out and moved to voltage and currentLine 99: comment amendedLine 164: com lines for neutral current and voltage moved to lines 263. 264

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Line 239: com for Group D aligned with range definition in the next line. C = 82, unitlessquantities taken out. They are treated as energy or power.Line 168: Group E modified from e (=1-63) to 1-63. Several other places as wellLine 192: the meaning is amended.lines 200, 201: IC 3 and 4 are allowed.Line 212: Comment addedLines 234, 236: New lines, to allow time integral 5 and 6 also per tariff. Following line numbersare shifted up by 2Line 254: Meaning amended: untiless quantity addedLine 259 and 269: definition of Group C amended: neutral current and voltage addedLine 272, 280, 282: IC = 7 added for max/min valuesLine 345: Value of D changed from d to 1 and E from 0-63 to 0-127Line 247, 348: Value of E is changed from 0-255 to 0-127 to stay in standard rangelines 350 to 355: Value of F changed from 0 to 255. IEC 62056-61 shall be amendedaccordingly.Line 359: Value of D, E, F changed from 1-255 to 0-255

Changes in V1.51 2002-03-15Editorial changes in several places.Abstract objects

In column A, "0,1" replaced by "&" to allow 0 and energy type related codes.Line 69: Value of Group d changed from 1 to 0.Electricity related objectsLine 6: definition of a=1 removed. All following line numbers are shifted by one.Line 17: line changed from "def" to "com"Line 27: new code 1.0.0.2.7.255 added, "passive calendar name". For display purposes only. Allfollowing lines numbers shifted by oneLine 59,60: comment deletedLines 13, 16, 62: proposal to allow also A = 0 is revoked. Comment deleted. In this table ingroup A, A always equals to 1. This is to avoid any potential conflict with codes for energy typerelated general purpose objects.Line 182: Group A modified to 0-127, 255line 187: Comment added to allow IC = 3 for display purposes only.Line 192: comment amended.Line 235, 236: comment addedLine 278: made a com lineLine 341,343,345: made a com line, to reserve with A=1 for future use

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DLMS User Association List of standard Abstract codes

com "com" in the first column means the row is for comment. The contents of this table serves as the basis of conformance testing COSEM Interface classes - use of Ocom These worksheet includes all abstract objects in the standard ranges. These codes are common for all energy type/media.com A B C D E F Meaning IC

classAlt ICclass

Reference

com b= 0-64

f = 0-99, 101-

126

[1] 5.2, 5.3,5.4, 5.5.,

5.6.1., A.3

Value group A(abstract data,

objects are theimplementatioeven for abstrameasured by thand 255 are resstandard rangetariffs. The stastandard rangestandard rangespecific. In all

com Range definitionscom "def" in the first column means a row which defines a range of values valid for group A,B,C,D,E,or F for the lines below that row.

com In Group A, the character '&' means that the value 0 and an energy type related code (e.g. in case of electgricity 1) can be used.def b=0-64def f = 0-99, 101-126com & b 255 255 255 255 Abstract objects [1] A.1 For abstract ob

implementatioused even for adoes not lead tGroup A.

com & b 1 255 255 255 Clock objects [2] D.1.1.1 For value of "a & b 1 0 0 255 Clock object, first instance 8 If just one object is in

2 "time" has sea.b.0.9.2.255. a.b.0.9.10.255method.

& b 1 0 1-254 255 Clock object, n th instance 8 If more than ongroup E shall n

com & b 2 255 255 255 PSTN setup objects& b 2 0 0 255 PSTN modem configuration 27 [2] D.1.1.2 If more than one objec

group B shall n& b 2 1 0 255 PSTN auto dial 29 [2] D.1.1.3 Idem& b 2 2 0 255 PSTN auto answer 28 [2] D.1.1.4 Idem

com & b 10 255 255 255 Script table objects [2] D.1.1.5 Implementationgroup D.

& b 10 0 0 255 Global meter reset 9& b 10 1-254 0 255 Global meter reset, implementation

specific9

& b 10 0 1 255 MDI reset/End of billing period 9

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& b 10 1-254 1 255 MDI reset/End of billing period,implementation specific

9

& b 10 0 100 255 Tariffication script table 9 Defines entry point iactivation of ce

& b 10 1-254 100 255 Tariffication script table,implementation specific

9

& b 10 0 101 255 Activate test mode 9& b 10 1-254 101 255 Activate test mode, implementation

specific9

& b 10 0 102 255 Activate normal mode 9& b 10 1-254 102 255 Activate normal mode, implementation

specific9

& b 10 0 103 255 Set output signals 9& b 10 1-254 103 255 Set output signals, implementation

specific9

& b 10 0 125 255 Broadcast script table 9 Allows standardising

& b 10 1-254 125 255 Broadcast script table, implementationspecific

9

com & b 11 255 255 255 Special days table objects [2] D.1.1.6 Defines and con

special days fo& b 11 0 0 255 Special days table 11

com & b 12 255 255 255 Schedule objects [2] D.1.1.7 Controls the beh& b 12 0 0 255 Schedule, first instance 10 If just one object is in& b 12 0 1-254 255 Schedule, n-th instance 10 If more than one objec

group E shall ncom & b 13 255 255 255 Activity calendar objects [2] D.1.1.8 Defines and con

& b 13 0 0 255 Activity calendar 20com & b 15 255 255 255 Single action schedule objects [2] D.1.1.9 Controls the be

& b 15 0 0 255 End of billing period 22 This is the only stan& b 15 1-254 0 255 End of billing period, manufacturer

specific.22 Implementation

group D.

com

& b 20 255 255 255 IEC local port setup objects [2] D.1.1.10 These COSEM othe communica

& b 20 0 0 255 IEC optical port setup 19 If more than one objeB shall number

& b 20 0 1 255 IEC electrical port setup 19 Idemcom & b 21 255 255 255 Standard readout profiles [2] D.1.1.11 These COSEM o

appear with IErelated to energ

& b 21 0 0 255 General local port readout 7 Idem& b 21 0 1 255 General display readout 7 Idem& b 21 0 2 255 Alternate display readout 7 Idem& b 21 0 3 255 Service display readout 7 Idem& b 21 0 4 255 List of configurable meter data 7 Idem

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& b 21 0 5 255 Additional readout profile 1 7 Idem& b 21 0 6-254 255 Additional readout profiles 2 to 249 7 Idem. E=255 means no

com & b 22 255 255 255 IEC HDLC setup objects [2] D.1.1.12 These COSEM association neg

& b 22 0 0 255 IEC HDLC setup object 23 If more than one objshall number th

com & b 23 255 255 255 IEC twisted pair (1) setup objects [2] D.1.1.13 These COSEM othe communica

& b 23 0 0 255 IEC twisted pair (1) setup objects 24 If more than one objecB shall number

com & b 24 255 255 255 MBUS setup objects Used by CEN parameters for

& b 24 0 0 255 MBUS setup objects 25 If more than one objB shall number

com & b 40 255 255 255 Association objects [2] D.1.1.14 If in one logical uniquely ident

& 0 40 0 0 255 Current association 12, 15 Class 12 is SN r& 0 40 0 1 255 Association instance 1 12, 15& 0 40 0 2-254 255 Association instance 2-254 12, 15 E = 255 means n

com & 0 41 255 255 255 SAP Assignment objects [2] D.1.1.15& 0 41 0 0 255 SAP Assignment object 17 SAP assignment of c

com & 0 42 255 255 255 COSEM Logical device nameobjects

[2] D.1.1.16 Unique identifie

0 0 42 0 0 255 COSEM Logical device name 1.3 If IC = 3 is used, Scaleoverlapping w

com 0 b 65 255 255 255 Utility tables objects [2] D.1.1.17 A = 0 to specifythe group selecdata of current

0 b 65 0 1-127 255 Standard tables 0-127 260 b 65 2-15 1-127 255 Standard tables 128-2047 260 b 65 16 1-127 255 Manufacturer tables 0-127 260 b 65 17-31 1-127 255 Manufacturer tables 128-2047 26

0 b 65 32 1-127 255 Std pending tables 0-127 260 b 65 33-47 1-127 255 Std pending tables 128-2047 26

0 b 65 48 1-127 255 Mfg pending tables 0-127 260 b 65 49-63 1-127 255 Mfg pending tables 128-2047 26

com & b 94 0 y =0-255

y =0-255

Country specific objects [1] 5.4.2Table 6

There are no regroup E and F D are reservedthat are alreadyidentified by a

com Range definition

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def y=0-255& b 94 0 y y Finnish identifiers *& b 94 1 y y USA identifiers *& b 94 2 y y Canadian identifiers *& b 94 7 y y Russian identifiers *& b 94 10 y y Czech identifiers *

& b 94 11 y y Bulgarian identifiers *& b 94 12 y y Croatian identifiers *& b 94 13 y y Irish identifiers *& b 94 14 y y Israeli identifiers *& b 94 15 y y Ukraine identifiers *& b 94 16 y y Yugoslavian identifiers *& b 94 27 y y South African identifiers *& b 94 30 y y Greek identifiers *& b 94 31 y y Dutch identifiers *& b 94 32 y y Belgian identifiers *& b 94 33 y y French identifiers *& b 94 34 y y Spanish identifiers *& b 94 35 y y Portuguese identifiers *& b 94 36 y y Hungarian identifiers *

& b 94 38 y y Slovenian identifiers *& b 94 39 y y Italian identifiers *& b 94 40 y y Romanian identifiers *& b 94 41 y y Swiss identifiers *& b 94 42 y y Slovakian identifiers *& b 94 43 y y Austrian identifiers *& b 94 44 y y United Kingdom identifiers *& b 94 45 y y Danish identifiers *& b 94 46 y y Swedish identifiers *& b 94 47 y y Norwegian identifiers *& b 94 48 y y Polish identifiers *& b 94 49 y y German identifiers *& b 94 55 y y Brazilian identifiers *& b 94 61 y y Australian identifiers *

& b 94 62 y y Indonesian identifiers *& b 94 64 y y New Zeeland identifiers *& b 94 65 y y Singapore identifiers *& b 94 81 y y Japanese identifiers *& b 94 86 y y Chinese identifiers *& b 94 90 y y Turkish identifiers *& b 94 91 y y Indian identifiers *

com & b 96 1 255 255 Device ID objects [1] 5.7[2] D.1.1.18

Non energy/chan

& b 96 1 0 255 Device ID 1, manufacturing number 1.3 ID numbers are instanceRegister is used,

& b 96 1 1 255 Device ID 2 1.3 Idem& b 96 1 2 255 Device ID 3 1.3 Idem

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& b 96 1 3 255 Device ID 4 1.3 Idem& b 96 1 4 255 Device ID 5 1.3 Idem& b 96 1 5 255 Device ID 6 1.3 Idem& b 96 1 6 255 Device ID 7 1.3 Idem& b 96 1 7 255 Device ID 8 1.3 Idem& b 96 1 8 255 Device ID 9 1.3 Idem

& b 96 1 9 255 Device ID 10 1.3 Idem& b 96 1 255 255 Device ID combined 7 If more than one of t

one instance ofID-s into a prof

com & b 96 2 255 255 Parameter changes, calibration andaccess objects

[1] Table 10[2] D.1.1.19

& b 96 2 0 255 Number of configuration programchanges

1,3 4 This code and thcase, the logica

& b 96 2 1 255 Date of last configuration programchange

1,3

& b 96 2 2 255 Date of last time switch programchange

1,3

& b 96 2 3 255 Date of last ripple control programchange

1,3

& b 96 2 4 255 Status of security switches 1,3 4& b 96 2 5 255 Date of last calibration 1,3& b 96 2 6 255 Date of next configuration program

change1,3

& b 96 2 7 255 Time of activation of the passivecalendar.

1,3 [2] 5.11 For display purpthe date of the acalendar, IC = 2

& b 96 2 10 255 Number of protected configurationprogram changes

1,3 4 This code and thcase the logicalchanges.

& b 96 2 11 255 Date of last protected configurationprogram change

1,3 s

com & b 96 3 255 255 Input/output control signals objects [1] Table 10[2] D.1.1.20

& b 96 3 1 255 State of the input control signals 1 3.4 [2] D.1.1.20 specifies Iwith Scaler = 0register to store

& b 96 3 2 255 State of the output control signals 1 3.4 Idemcom & b 96 4 255 255 State of internal control signals

objects[1] Table 10[2] D.1.1.21

& b 96 4 0 255 State of the internal control signals 1 3.4 [2] D.1.1.21 specifies ICwith Scaler = 0register to store

com & b 96 5 255 255 Internal operating status objects [1] Table 10

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& b 96 5 0 255 Internal operating status 1 3.4 Idemcom & b 96 6 0 0 Battery entries objects [1] Table 10

& b 96 6 0 255 Battery use time counter 1 3.4 It is proposed tthe value, the s

& b 96 6 1 255 Battery charge display 1 3.4 Idem& b 96 6 2 255 Date of next change 1 3.4 Idem

& b 96 6 3 255 Battery voltage 1 3.4 Idemcom & b 96 7 255 255 Number of power failures objects [1] Table 10

[2] D.1.1.22For simple couinformation, IC

& b 96 7 0 255 Total failure of all three phases longerthan internal autonomy

1.7 3 It is proposed to

& b 96 7 1 255 Phase L1 1.7 3 Idem& b 96 7 2 255 Phase L2 1.7 3 Idem& b 96 7 3 255 Phase L3 1.7 3 Idem

com & b 96 8 255 255 Operating time objects [1] Table 10& b 96 8 0 255 Time of operation 1 3 It is proposed to allo

& b 96 8 1-63 255 Time of registration rate 1 to 63 1 3 Idemcom & b 96 8 255 255 Time of registration 7 It is proposed tocom & b 96 9 255 255 Environment related parameters

objects

[1] Table 10

& b 96 9 0 255 Ambient temperature 1 3.4 If IC = 3 Register ortime can also b

com & b 96 50 255 255 Manufacturer specific abstractobjects, general service entries

[1] 5.7 In the manufactby another defiplaced. If this iD > 127

0 b 96 50-96 0-255 0-255 Manufacturer specific abstract objects 1,3,4,7

0 b 96 99 8 255 Name of the standard data set 1,3 For display purposes oncom 0 b 97 97 255 255 Error values objects [1] Table 11

[2] D.1.1.23Error code objechannel (value

0 b 97 97 0 255 Error 1 object 1.3 If IC = 3 Data is use0 b 97 97 1 255 Error 2 object 1.3 Idem0 b 97 97 2 255 Error 3 object 1.3 Idem0 b 97 97 3 255 Error 4 object 1.3 Idem0 b 97 97 4 255 Error 5 object 1.3 Idem0 b 97 97 5 255 Error 6 object 1.3 Idem0 b 97 97 6 255 Error 7 object 1.3 Idem0 b 97 97 7 255 Error 7 object 1.3 Idem0 b 97 97 8 255 Error 9 object 1.3 Idem0 b 97 97 9 255 Error 10 object 1.3 Idem0 b 97 97 255 255 Error profile object 7 If more than one Err

one instance ofcom 0 b 98 1 255 255 General list objects [1] Table 13

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0 b 98 1 0-127,25

5

f Data of billing period 7 F = 0-99 and 101 mF = 102-125 meaccces to data of

com 0 b 127 255 255 255 Inactive objects [1] Table 3& b 127 0-255 0-255 0-255 * Inactive objects are

can be of any int

com 0 255 255 255 255 255 Manufacturer specific abstractobjects

[1] 4.7, [1]5.2 Table 3[2] D.2

If any group B tconsidered as mexception of grostandard. In all gobjects can be oCOSEM object combination of i

0 128-254

0-255 0-255 0-255 0-255 Manufacturer specific abstract objects,Group B>127

* Objects that aremanufacturer sp

0 b 128-

254

0-255 0-255 0-255 Manufacturer specific abstract objects,

Group C>127

*

0 b 0-254 128-254

0-255 0-255 Manufacturer specific abstract objects,Group D>127

* Idem

0 b 0-254 0-254 128-254

0-255 Manufacturer specific abstract objects,Group E>127

* Idem

0 b 0-254 0-254 0-254 128-255 Manufacturer specific abstract objects,Group F>127

* Idem

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DLMS User Association List of standard Electricity codes

1

2

34567

89

10

11

12

13

14

151617

18

19

20

21

A B C D E F G H I J Kcom "com" in the first column means the row is for comment. The contents of this table serves as the basis of conformance testing COSEM Interface classes - uscom A B C D E F Meaning IC class Alt IC

classReference

com b= 064

f = 0-99, 101-

126

[1] 5.2, 5.3,5.4, 5.5.,5.6.1., A.3

Value g(abstracobjects aimplemeven formeasureand 255range ofstandard127. Groand 100value 25

com Range definitionscom "def" in the first column means a row which defines a range of values valid for group A,B,C,D,E,or F for the lines below that row.

def b=0-64def f = 0-99, 101-126com 1 b 255 255 255 255 Electricity related general purpose

objects[1] Table 12[2] D.1.2.3

The elec

com 1 b 0 255 255 255 Free ID-numbers for utilities1 b 0 0 0-9 255 Electricity ID 1-10 1.3 If IC = 31 b 0 0 255 255 Complete combined electricity ID 7 If more

of the ICcom 0.1 b 0 1 255 255 Billing period values/ reset counter

entries objects[1] Table 12[2] D.1.2.4

1 b 0 1 0 255 Billing period counter object 1.3 [1] Table 12[2] D.1.2.4

If IC = 3

1 b 0 1 1 255 Number of available billing periodsobject

1.3 [1] Table 12[2] D.1.2.4

Idem

com 1 b 0 1 2 255 Time stamps of the billing periodsobjects

[1] Table 12[1] A.3. [2]D.1.2.2

com Range definitioncom VZ = 0-99

1 b 0 1 2 f Time stamp of the billing period VZ(last reset), or time stamps of the 1-25most recent billing periods or timestamps of an unspecified number ofbilling periods.

7 VZ mea0,1.x.0.1

com 1 b 0 1 2 VZ-1 Time stamp of the billing period VZ-1 7 Idem

com 1 b 0 1 2 VZ-n Time stamp of the billing period VZ-n 7 Idem

com 1 b 0 2 255 255 Program entries objects [1] Table 12[2] D.1.2.5

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2223242526

27

28

29

30

31323334

35

3637

38

39

40

41

42

434445464748

49

505152

A B C D E F G H I J K1 b 0 2 0 255 Configuration program version number 1,3 If IC = 3 Data is u

1 b 0 2 1 255 Parameter record number 1,3 Idem1 b 0 2 2 255 Time switch program number 1,3 Idem1 b 0 2 3 255 RCR program number 1,3 Idem1 b 0 2 4 255 Meter connection diagram ID 1,3 Idem1 b 0 2 7 255 Passive calendar name 1,3 For display only

Siemenscom 1 b 0 3 255 255 Output pulse constants objects [1] Table 12

[2] D.1.2.6[2] D.1.2[2] D.1.2

1 b 0 3 0 255 RLW Active energy metrological LED 3 1

1 b 0 3 1 255 R LB Reactive energy metrological LED 3 1

1 b 0 3 2 255 R LS Apparent energy metrological LED 3 1

1 b 0 3 3 255 R AW Active energy output pulse 3 11 b 0 3 4 255 R AB Reactive energy output pulse 3 11 b 0 3 5 255 R AS Apparent energy output pulse 3 1

com 1 b 0 4 255 255 Ratios objects [1] Table 12[2] D.1.2.7

If a transby the defigure, on

1 b 0 4 0 255 Reading factor for power 1 3 In the whole grbe amend

1 b 0 4 1 255 Reading factor for energy 1 31 b 0 4 2 0-99,

255Transformer ratio - current (numerator) 1 3 F = V-y where

group F i1 b 0 4 3 0-99,

255Transformer ratio - voltage (numerator) 1 3

1 b 0 4 4 0-99,255

Overall transformer ratio (numerator) 1 3

1 b 0 4 5 0-99,255

Transformer ratio - current(denominator)

1 3

1 b 0 4 6 0-99,255

Transformer ratio - voltage(denominator)

1 3

1 b 0 4 7 0-99,255

Overall transformer ratio -(denominator)

1 3

com 1 b 0 6 255 255 Nominal values objects [1] Table 121 b 0 6 0 255 Voltage [V] 1.31 b 0 6 1 255 Basic/nominal current [A] 1.31 b 0 6 2 255 Frequency [Hz] 1.31 b 0 6 3 255 Maximum current [A] 1.31 b 0 6 4 0-99,

255Reference voltage for power qualitymeasurement

1.3 F = V-y wgroup F i

com 1 b 0 7 255 255 Input pulse constants objects [1] Table 12[2] D.1.2.6

[2] D.1.2

1 b 0 7 0 255 R EW [imp/kWh] (active energy) 3 1

1 b 0 7 1 255 R EB [imp/kvarh] (reactive energy) 3 1

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53

54

55

56

57

58

59

60

61

62

63646566676869707172

73

74

75

76

77

78

79808182

83

A B C D E F G H I J K1 b 0 7 2 255 R ES [imp/kVAh] (apparent energy) 3 1

com 1 b 0 8 255 255 Measurement-/registration periodduration objects

[1] Table 12[2] D.1.2.9

F = V-y wgroup F i

1 b 0 8 0 0-99,255

Measurement period 1, for averagevalue 1

1.3 Attribute

1 b 0 8 1 0-99,255

Measurement period 2, for averagevalue 2

1.3 Idem

1 b 0 8 2 0-99,255

Measurement period 3, forinstantaneous value

1.3 Idem

1 b 0 8 3 0-99,255

Measurement period 4, for test value 1.3 Idem

1 b 0 8 4 0-99,255

Recording interval 1, for load profile 1.3

1 b 0 8 5 0-99,255

Recording interval 2, for load profile 1.3

1 b 0 8 6 0-99,255

Billing period 1.3

com 1 b 0 9 255 255 Time entries objects [1] Table 12[2] D.1.2.9

1 b 0 9 0 255 Time expired since last end of billingperiod

1.3

1 b 0 9 1 255 Local time 1.3 For display o1 b 0 9 2 255 Local date 1.3 For display on

com 1 b 0 9 3 255 Reservedcom 1 b 0 9 4 255 Reserved

1 b 0 9 5 255 Week day (0 to 7) 1.31 b 0 9 6 255 Time of last reset 1.31 b 0 9 7 255 Date of last reset 1.3 Idem1 b 0 9 8 255 Output pulse duration 31 b 0 9 9 255 Clock synchronisation window 1.3 Part of method 51 b 0 9 10 255 Clock synchronisation method 1.3 The synchronisat

of this obcom 1 b 0 10 255 255 Coefficients objects [1] Table 12 F = V-y w

group F i1 b 0 10 0 0-99,

255Transformer magnetic losses 3 [1] Table 12 y can be set at an

1 b 0 10 1 0-99,255

Transformer thermal losses 3 [1] Table 12 Idem

1 b 0 10 2 0-99,255

Line resistance losses 3 [1] Table 12 Idem

1 b 0 10 3 0-99,255

Line reactance losses 3 [1] Table 12 Idem

com 1 b 0 11 255 255 Measurement methods objects [1] Table 12 It is propos

1 b 0 11 1 255 Algorithm for active power 1 3 [2] D.1.2.10 The algorithms a1 b 0 11 2 255 Algorithm for active energy 1 3 [2] D.1.2.11 Idem1 b 0 11 3 255 Algorithm for reactive power 1 3 [2] D.1.2.12 Idem

1 b 0 11 4 255 Algorithm for reactive energy 1 3 [2] D.1.2.13 Idem

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848586

8788899091929394

95969798

99100101102103

104

105106107108109110111112113114115116117118119120

A B C D E F G H I J K1 b 0 11 5 255 Algorithm for apparent power 1 3 [2] D 1.2.14 Idem1 b 0 11 6 255 Algorithm for apparent energy 1 3 [2] D.1.2.15 Idem1 b 0 11 7 255 Algorithm for power factor 1 3 [2] D.1.2.16 Idem

com 1 b c = 1-30, 33-

50, 53-70, 73-80, 82

255 255 255 Electrical energy related objects,except per phase current, per phase

voltage, neutral current, neutralvoltage and angles

[3] Table 4,5,8,9, [2]

D.1.2.1

com Range definitiondef c = 1-30, 33-50, 53-70, 73-80, 82com 1 b 1 255 255 255 Li Active power+com 1 b 2 255 255 255 L i Active power -com 1 b 3 255 255 255 Li Reactive power +com 1 b 4 255 255 255 Li Reactive power -com 1 b 5 255 255 255 Li Reactive power QI

com 1 b 6 255 255 255

Li Reactive power QIIcom 1 b 7 255 255 255 Li Reactive power QIIIcom 1 b 8 255 255 255 Li Reactive power QIVcom 1 b 9 255 255 255 Li Apparent power+com 1 b 10 255 255 255 Li Apparent power - If the appa

com 1 b 11 255 255 255 Current: any phasecom 1 b 12 255 255 255 Voltage: any phasecom 1 b 13 255 255 255 Average power factor com 1 b 14 255 255 255 Supply frequencycom 1 b 15 255 255 255

LI Active power QI+QIV+QII+QIII

com 1 b 16 255 255 255 LI Active power QI+QIV-QII-QIII

com 1 b 17 255 255 255 Li Active power QI

com 1 b 18 255 255 255 Li Active power QIIcom 1 b 19 255 255 255 Li Active power QIIIcom 1 b 20 255 255 255 Li Active power QIVcom 1 b 21 255 255 255 L1 Active power+com 1 b 22 255 255 255 L1 Active power-com 1 b 23 255 255 255 L1 Reactive power+com 1 b 24 255 255 255 L1 Reactive power-com 1 b 25 255 255 255 L1 Reactive power QIcom 1 b 26 255 255 255 L1 Reactive power QIIcom 1 b 27 255 255 255 L1 Reactive power QIIIcom 1 b 28 255 255 255 L1 Reactive power QIVcom 1 b 29 255 255 255 L1 Apparent power+com 1 b 30 255 255 255 L1 Apparent power-com 1 b 33 255 255 255 L1 Power factor

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121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153

154155156157158159160161162163

164

165

A B C D E F G H I J Kcom 1 b 34 255 255 255 L1 Frequencycom 1 b 35 255 255 255 L1 Active power QI+QIV+QII+QIIIcom 1 b 36 255 255 255 L1 Active power QI+QIV-QII-QIIIcom 1 b 37 255 255 255 L1 Active power QIcom 1 b 38 255 255 255 L1 Active power QII

com 1 b 39 255 255 255 L1 Active power QIIIcom 1 b 40 255 255 255 L1 Active power QIVcom 1 b 41 255 255 255 L2 Active power+com 1 b 42 255 255 255 L2 Active power-com 1 b 43 255 255 255 L2 Reactive power+com 1 b 44 255 255 255 L2 Reactive power-com 1 b 45 255 255 255 L2 Reactive power QIcom 1 b 46 255 255 255 L2 Reactive power QIIcom 1 b 47 255 255 255 L2 Reactive power QIIIcom 1 b 48 255 255 255 L2 Reactive power QIVcom 1 b 49 255 255 255 L2 Apparent power+com 1 b 50 255 255 255 L2 Apparent power-com 1 b 53 255 255 255 L2 Power factor com 1 b 54 255 255 255 L2 Frequency

com 1 b 55 255 255 255 L2 Active power QI+QIV+QII+QIIIcom 1 b 56 255 255 255 L2 Active power QI+QIV-QII-QIIIcom 1 b 57 255 255 255 L2 Active power QIcom 1 b 58 255 255 255 L2 Active power QIIcom 1 b 59 255 255 255 L2 Active power QIIIcom 1 b 60 255 255 255 L2 Active power QIVcom 1 b 61 255 255 255 L3 Active power+com 1 b 62 255 255 255 L3 Active power-com 1 b 63 255 255 255 L3 Reactive power+com 1 b 64 255 255 255 L3 Reactive power-com 1 b 65 255 255 255 L3 Reactive power QIcom 1 b 66 255 255 255 L3 Reactive power QIIcom 1 b 67 255 255 255 L3 Reactive power QIIIcom 1 b 68 255 255 255 L3 Reactive power QIV

com 1 b 69 255 255 255 L3 Apparent power+com 1 b 70 255 255 255 L3 Apparent power-com 1 b 73 255 255 255 L3 Power factor com 1 b 74 255 255 255 L3 Frequencycom 1 b 75 255 255 255 L3 Active power QI+QIV+QII+QIIIcom 1 b 76 255 255 255 L3 Active power QI+QIV-QII-QIIIcom 1 b 77 255 255 255 L3 Active power QIcom 1 b 78 255 255 255 L3 Active power QIIcom 1 b 79 255 255 255 L3 Active power QIIIcom 1 b 80 255 255 255 L3 Active power QIVcom 1 b 82 255 255 255 Unitless quantity (pulses or pieces)

objects1 b c 0 0 255 Billing period average (since last reset),

total3 4.5 [1] does n

attributes

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166

167

168

169

170171172173174175

176

177178

179

180181

182

183

184

185

186

187

188189

190

A B C D E F G H I J Kcom 1 b c 0 1 255 Billing period average (since last reset)

tariff 13 4.5

com 1 b c 0 63 255 Billing period average (since last reset)tariff 63

3 4.5

1 b c 0 1-63 255 Billing period average (since last reset)per tariff, current billing period

3 4.5 E =1-63,

com 1 b c 0 0-63 1 Billing period average (since last reset)per tariff, value of a past billing periode

7 [1] A.3 [2]D.1.2.1

The valuecontains t12.

com 1 b c 0 0-63 0 Idem, value of past billing period/oldervalue

7 [2] D.1.2.2 Idem

com 1 b c 0 0-63 99 Idem, older value 7com 1 b c 0 0-63 98 Idem, older value 7com 1 b c 0 0-63 101 Idem, most recent value 7 [1] A.3com 1 b c 0 0-63 102 Idem, two most recent values 7com 1 b c 0 0-63 125 25 most recent values 7com 1 b c 0 0-63 126 Unspecified number of most recent

values7

1 b c 0 0-63 f Billing period average (since last reset)per tariff, historic value

7

1 b c 1 0 255 Cumulative minimum 1 total 3 D = 1-6: Avera1 b c 1 1-63 255 Cumulative minimum 1 per tariff,

current billing period3

1 b c 1 0-63 f Cumulative mimimum 1 per tariff,historic values

7

1 b c 2 0 255 Cumulative maximum 1 total 31 b c 2 1-63 255 Cumulative maximum 1 per tariff,


1 b c 2 0-63 f Cumulative maximum 1 per tariff,historic values

7

1 b c 3 0 255 Minimum 1 7.4 3 IC = 7 is usedis capture

and "capt

1 b c 3 1-63 255 Minimum 1, per tariff, current billingperiod

7.4 3

1 b c 3 0-63 f Minimum 1, per tariff, historic values 7

1 b c 4 0 255 Current average 1 5 3 Attribute 2 of thregister o

1 b c 5 0 255 Last average 1 3 Attribute 3 of tsliding de(number_

1 b c 6 0 255 Maximum 1 7.4 3 Same as for M1 b c 6 1-63 255 Maximum 1, per tariff, current billing

period

7.4 3 Idem

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191

192

193

194

195

196

197

198

199

200

201

202203

204

205206

207

A B C D E F G H I J K1 b c 6 0-63 f Maximum 1, per tariff, historic value 7

1 b 1-13,15-20,21-30,

33, 35-50, 53,55-70,73, 75-

80

7 0 255 Instantaneous value (except forfrequency and per phase current andvoltage)

3 Typicallyinstantanesame.

1 b 14, 34,54, 74

7 0.255 255 Instantaneous value of frequency 3,4 No need for furthe

1 b c 8 0 255 Time integral 1, total, current billingperiod

3.4 [1] Table 5 Time integr

1 b c 8 1-63 255 Time integral 1, per tariff, current billingperiod

3.4 [2] D.1.2.1

1 b c 8 0-63 f Time integral 1, per tariff, historic value 7 Idem


3.4 Time integ


3.4 See at D =

1 b c 9 0-63 f Time integral 2, per tariff, historic value 7


3,4 [1] Table 5 Time integrthreshold

threshold value, the


3,4

1 b c 10 0-63 f Time integral 3, per tariff, historic value 7

1 b c 11 0 255 Cumulative minimum 2 total 3 D = 11-16, Aver1 b c 11 1-63 255 Cumulative minimum 2 per tariff,


1 b c 11 0-63 f Cumulative mimimum 2 per tariff,historic values

7


current billing period

3

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208209

210

211212213214

215

216

217

218

219220

221

222223

224

225226227228

229

230

231

232

233

234

A B C D E F G H I J K1 b c 12 0-63 f Cumulative maximum 2 per tariff,

historic values7

1 b c 13 0 255 Minimum 2 7.4 31 b c 13 1-63 255 Minimum 2, per tariff, current billing

period7.4 3


1 b c 14 0 255 Current average 2 5 See comment at1 b c 15 0 255 Last average 2 3 See comment at1 b c 16 0 255 Maximum 2 7.4 31 b c 16 1-63 255 Maximum 2, per tariff, current billing

period7.4 3

1 b c 16 0-63 f Maximum 2, per tariff, historic value 7

1 b c 21 0 255 Cumulative minimum 3 total 3 D = 21-26, Aver

1 b c 21 1-63 255 Cumulative minimum 3 per tariff,current billing period

3

1 b c 21 0-63 f Cumulative mimimum 3 per tariff,

historic values

7



1 b c 22 0-63 f Cumulative maximum 3 per tariff,historic values

7

1 b c 23 0 255 Minimum 3 7.4 31 b c 23 1-63 255 Minimum 3, per tariff, current billing

period7.4 3


1 b c 24 0 255 Current average 3 5 See comment at1 b c 25 0 255 Last average 3 3 See comment at1 b c 26 0 255 Maximum 3 7.4 3

1 b c 26 1-63 255 Maximum 3, per tariff, current billingperiod

7.4 3

1 b c 26 0-63 f Maximum 3, per tariff, historic value 7

1 b c 27 255 255 Current average 5 5 [1] Table 5 The value of a curr

1 b c 28 255 255 Current average 6 5 [1] Table 5 The value of a curr

1 b c 29 255 255 Time integral 5 3 4 Time integral 5,calculatedtime point

1 b c 29 0-63 255 Time integral 5, per tariff 3,4 Time integral ofinterval to

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235

236237238

239240241

242243244245246247248249250251252253

254255256

A B C D E F G H I J K1 b c 30 255 255 Time integral 6 3 4 Time integral 6

calculatedtime point

1 b c 30 0-63 255 Time integral 6, per tariff 3,4 Time integral ofinterval to

1 b c 55 255 255 Test Average 3 51 b c 58 255 255 Time integral 4 3 4 [1] Table 5 Test time integra

com c1 =11,12,

14,31,32,

34,51,52,

54,71,72,74, 91,

92

Threshold objects for current,voltage and frequency

com Range definitiondef c1 = 11,12,14,31,32,34, 51,52,54,71,72,74,91, 92

1 b c1 31 0 0-255 Under limit threshold 3 4 [1] table 5 [1] A.3.

Value F c

1 b c1 32 0 0-255 Under limit occurrence counter 3 4 Idem1 b c1 33 0 0-255 Under limit duration 3 4 Idem1 b c1 34 0 0-255 Under limit magnitude 3 4 Idem1 b c1 35 0 0-255 Over limit threshold 3 4 Idem1 b c1 36 0 0-255 Over limit occurrence counter 3 4 Idem1 b c1 37 0 0-255 Over limit duration 3 4 Idem1 b c1 38 0 0-255 Over limit magnitude 3 4 Idem1 b c1 39 0 0-255 Missing threshold 3 4 Idem1 b c1 40 0 0-255 Missing occurrence counter 3 4 Idem1 b c1 41 0 0-255 Missing duration 3 4 Idem

1 b c1 42 0 0-255 Missing magnitude 3 4 Idemcom 1 b c2 = 1-

10, 13,15-30,33, 35-50, 53,55-70,73, 75-80, 82

255 255 255 Threshold objects for demand, timeintegral, power factor and unitless

quantities

[2] D.1.2.8 For monitspecify thsame OBIthe threshattribute tvalue cros

com Range definitiondef c2 = 1-10,13,15-30,33,35-50,53,55-70,73,75-80,82

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257

258

259260261262

263264265266267268269

270

271

272

273

274275

276277

278279

280

A B C D E F G H I J K1 b c2 0-16,

21-30,55, 58

0 255 Threshold objects for demand, timeintegral and power factor

21 [2] 5.15,D.1.2.8

1 b c2 0-16,21-30,55, 58

1-63 255 Threshold objects for demand, t imeintegral and power factor per tariff

21

com 1 b c3 =31,32,51,52,71,72,91,92

255 255 255 Per phase current and voltagevalues

com 1 b 31 255 255 255 L1 current valuescom 1 b 32 255 255 255 L1 voltage values com 1 b 51 255 255 255 L2 current values

com 1 b 52 255 255 255 L2 voltage valuescom 1 b 71 255 255 255 L3 current valuescom 1 b 72 255 255 255 L3 voltage valuescom 1 b 91 255 255 255 Lo currrent (neutral) objects)com 1 b 92 255 255 255 Lo voltage (neutral) objectscom Range definition

def c3 = 31,32,51,52,71,72,91,921 b c3 0 0-63 255 Billing period average (since last reset)

per tariff 3,4,5

1 b c3 0 0-63 f Billing period average (since last reset)per tariff, historical values

7

1 b c3 1-6 0-63 255 Averaging scheme 1 values per tariff 3,4,5,7 4

1 b c3 1-6 0-63 f Averaging scheme 1 per tariff,

historical values

7

1 b c3 7 0 255 Instantaneous values, total 3.4 Includes allthen D = 7over this. S

com 1 b c3 7 1 255 Instantaneous values, 1 st harmonic 3.4com 1 b c3 7 127 255

Instantaneous values, 127 th harmonic3.4

1 b c3 7 1-127 255 Instantaneous values, n th harmonic 3.4com 1 b c3 7 128-

254255 Instantaneous values, manufacturer

specific3.4

com 1 b c3 7 255 255 Instantaneous values, reserved1 b c3 8-16 0-63 255 Time integral 1-3 and averaging

scheme 2 values per tariff 3,4,5,7

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281

282

283284

285

286

287

288

289290291292293294295296297298299300301302303304305306307308309310311312313314

A B C D E F G H I J K1 b c3 8-16 0-63 f Time integral 1-3 and averaging

scheme 2 per tariff and historicalvalues

7

1 b c3 21-23,25-26

0-63 255 Averaging scheme 3 values per tariff 3,4,5,7 Idem

1 b c3 21-23,25-26

0-63 f Averaging scheme 3 per tariff andhistorical values

7

1 b c3 24 0 255 Current average 3 values, total 3,4 [1] Table 8 hcom 1 b c3 24 1 255

Current average 3 values, 1st harmonic3,4

com 1 b c3 24 127 255 Current average 3 values, 127thharmonic

3,4

1 b c3 24 1-127 255 Current average 3 values, nthharmonic

3,4

1 b c3 27-30 0-63 255 Current average 5,6 and Time integral

5,6, values per tariff

3,4,5

1 b c3 27-30 0-63 f Current average 5,6 and Time integral5,6, per tariff and historical values

7

com 1 b 81 7 255 255 Angle measurement [1] 5.5.21 b 81 7 0 255 U(L1) - U(L1) 3 The referenc1 b 81 7 1 255 U(L1) - U(L2) 3 The referenc1 b 81 7 2 255 U(L1) - U(L3) 3 Idem1 b 81 7 4 255 U(L1) - I(L1) 3 Idem1 b 81 7 5 255 U(L1) - I(L2) 3 Idem1 b 81 7 6 255 U(L1) - I(L3) 3 Idem1 b 81 7 7 255 U(L1) - I(L0) 3 Idem1 b 81 7 10 255 U(L2) - U(L1) 3 The referenc1 b 81 7 11 255 U(L2) - U(L2) 3 No meaning1 b 81 7 12 255 U(L2) - U(L3) 31 b 81 7 14 255 U(L2) - I(L1) 31 b 81 7 15 255 U(L2) - I(L2) 31 b 81 7 16 255 U(L2) - I(L3) 31 b 81 7 17 255 U(L2) - I(L0) 31 b 81 7 20 255 U(L3) - U(L1) 3 The referenc1 b 81 7 21 255 U(L3) - U(L2) 31 b 81 7 22 255 U(L3) - U(L3) 3 No meaning1 b 81 7 24 255 U(L3) - I(L1) 31 b 81 7 25 255 U(L3) - I(L2) 31 b 81 7 26 255 U(L3) - I(L3) 31 b 81 7 27 255 U(L3) - I(L0) 31 b 81 7 40 255 I(L1) - U(L1) 3 The referenc1 b 81 7 41 255 I(L1) - U(L2) 31 b 81 7 42 255 I(L1) - U(L3) 3

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315316317318319320321322323324325326327328329330331332333

334335336337338339

340

341

342

343344

345346

347

348349350351352353

354

A B C D E F G H I J K1 b 81 7 44 255 I(L1) - I(L1) 3 No meanin1 b 81 7 45 255 I(L1) - I(L2) 31 b 81 7 46 255 I(L1) - I(L3) 31 b 81 7 47 255 I(L1) - I(L0) 31 b 81 7 50 255 I(L2) - U(L1) 3 The referen

1 b 81 7 51 255 I(L2) - U(L2) 31 b 81 7 52 255 I(L2) - U(L3) 31 b 81 7 54 255 I(L2) - I(L1) 31 b 81 7 55 255 I(L2) - I(L2) 3 No meanin1 b 81 7 56 255 I(L2) - I(L3) 31 b 81 7 57 255 I(L2) - I(L0) 31 b 81 7 60 255 I(L3) - U(L1) 3 The referen1 b 81 7 61 255 I(L3) - U(L2) 31 b 81 7 62 255 I(L3) - U(L3) 31 b 81 7 64 255 I(L3) - I(L1) 31 b 81 7 65 255 I(L3) - I(L2) 31 b 81 7 66 255 I(L3) - I(L3) 3 No meanin1 b 81 7 67 255 I(L3) - I(L0) 31 b 81 7 70 255 I(L0) - U(L1) 3 The referen

1 b 81 7 71 255 I(L0) - U(L2) 31 b 81 7 72 255 I(L0) - U(L3) 31 b 81 7 74 255 I(L0) - I(L1) 31 b 81 7 75 255 I(L0) - I(L2) 31 b 81 7 76 255 I(L0) - I(L3) 31 b 81 7 77 255 I(L0) - I(L0) 3 No meanin

com 1 b 96 255 255 255 Electricity-related service entriesobjects

com 1 b 96 50-96 0-255 0-255 Electricity-related service entries 1,3,4,7 These are noWith A = 1

com 1 b 97 97 255 255Electricity-related error objects

com 1 b 97 97 0-127,25

5

255 Electricity-related error messages 1.3 These are nWith A = 1

com 1 b 98 255 255 255 Electricity list objectscom 1 b 98 1 0-127 f Electricity list 7 These are n

shall be rescom 1 b 99 255 255 255 Electricity profile objects [1] 5.10

1 b 99 1 0-127 255Load profile with recording period 1

7 If only one

1 b 99 2 0-127 255Load profile with recording period 2

7 If only one

1 b 99 3 0 255 Load profile during test 7 Value of F1 b 99 10 1 255 Dips voltage profile 7 Idem1 b 99 10 2 255 Swells voltage profile 7 Idem1 b 99 10 3 255 Cuts voltage profile 7 Idem1 b 99 11 1-127 255 Voltage harmonic profile 7 Idem. n-th

1 b 99 12 1-127 255 Current harmonic profile 7 Idem. n-th

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355356357358

359

360

361

362

363

364

365

A B C D E F G H I J K1 b 99 13 0 255 Voltage unbalance profile 7 Idem1 b 99 98 0-255 255 Event log 7 If only one1 b 99 99 0-255 255 Certification data log 7 If only one

com 1 b 100 255 255 255 Reserved objectscom 1 b 100-

127,255

0-255 0-255 0-255 Reserved

com 1 b 128 255 255 255 Electricity related manufacturerspecific objects

If any grouconsideredexception standard. Iobjects caCOSEM ocombinati

1 128-254

0-255 0-255 0-255 0-255 Manufacturer specific electricity relatedobjects, Group B>127

* Objects thmanufactu

1 b 128-

254

0-255 0-255 0-255 Manufacturer specific electricity related

objects, Group C>127

*

1 b 0-254 128-254

0-255 0-255 Manufacturer specific electricity relatedobjects, Group D>127

* Idem

1 b 0-254 0-254 128-254

0-255 Manufacturer specific electricity relatedobjects, Group E>127

* Idem

1 b 0-254 0-254 0-254 128-255 Manufacturer specific electrici ty relatedobjects, Group F>127

* Idem

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Gas

obis list v1.51_gk020315.xls

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