IEC 61400-25-6-2016 Wind energy generation systems - Part 25-6 Communications for monitoring and control of wind power plants - Logical node classes and data cl.pdf

1、 IEC 61400-25-6 Edition 2.0 2016-12 INTERNATIONAL STANDARD Wind energy generation systems Part 25-6: Communications for monitoring and control of wind power plants Logical node classes and data classes for condition monitoring IEC 61400-25-6:2016-12(en) colour inside THIS PUBLICATION IS COPYRIGHT PR

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11、ation systems Part 25-6: Communications for monitoring and control of wind power plants Logical node classes and data classes for condition monitoring INTERNATIONAL ELECTROTECHNICAL COMMISSION ICS 27.180 ISBN 978-2-8322-3723-6 Registered trademark of the International Electrotechnical Commission War

12、ning! Make sure that you obtained this publication from an authorized distributor. colour inside 2 IEC 61400-25-6:2016 IEC 2016 CONTENTS FOREWORD . 5 INTRODUCTION . 7 1 Scope 9 2 Normative references 10 3 Terms and definitions 10 4 Abbreviated terms . 12 5 General . 14 5.1 Overview 14 5.2 Condition

13、monitoring information modelling . 14 5.3 Coordinate system applied for identifying direction and angles . 15 5.4 Operational state bin concept . 16 5.4.1 General . 16 5.4.2 Example of how to use active power as an operational state 16 6 Logical nodes for wind turbine condition monitoring . 16 6.1 G

14、eneral . 16 6.2 Logical nodes inherited from IEC 61400-25-2 17 6.3 Wind turbine condition monitoring logical node WCON 17 6.3.1 General . 17 6.3.2 CDCs applicable for the logical node WCON . 18 7 Common data classes for wind turbine condition monitoring 18 7.1 General . 18 7.2 Common data classes de

15、fined in IEC 61400-25-2 . 18 7.3 Conditions for data attribute inclusion . 18 7.4 Common data class attribute name semantic 19 7.5 Condition monitoring bin (CMB) 20 7.6 Condition monitoring measurement (CMM) . 21 7.7 Scalar value array (SVA). 22 7.8 Complex measurement value array (CMVA) 23 8 Common

16、 data class CMM attribute definitions . 24 8.1 General . 24 8.2 Attributes for condition monitoring measurement description . 25 8.2.1 General . 25 8.2.2 Condition monitoring sensor (trd) . 25 8.2.3 Shaft identification (shfId) and bearing position (brgPos) . 30 8.2.4 Measurement type (mxType) . 31

17、Annex A (informative) Recommended mxType values 33 A.1 General about tag names and datanames of the WCON Class 33 A.2 Mapping of measurement tags to mxTypes . 33 A.2.1 General . 33 A.2.2 Scalar values (MV)(Descriptors) 33 A.2.3 Array measurements (SVA) Frequency domain . 33 A.2.4 Array measurements

18、(SVA) Time domain . 33 A.3 mxType values 33 Annex B (informative) Application of data attributes for condition monitoring measurement description for measurement tag naming. 37 IEC 61400-25-6:2016 IEC 2016 3 B.1 General . 37 B.2 Naming principle using the data attributes in CMM CDC . 37 B.3 Examples

19、 38 Annex C (informative) Condition monitoring bins examples 39 C.1 Example 1: One dimensional bins . 39 C.2 Example 2: Two dimensional bins . 40 C.3 Example 3: Two dimensional bins with overlap . 42 Annex D (informative) Application example 45 D.1 Overview of CDCs essential to IEC 61400-25-6 45 D.2

20、 How to apply data to CDCs . 45 D.3 How to apply an alarm 47 Bibliography 49 Figure 1 Condition monitoring with separated TCD/CMD functions . 8 Figure 2 Schematic flow of condition monitoring information 9 Figure 3 Reference coordinates system for the drive train 15 Figure 4 Active power bin concept

21、 . 16 Figure 5 Sensor angular orientation as seen from the rotor end . 29 Figure 6 Sensor motion identification . 29 Figure 7 Sensor normal and reverse motion . 30 Figure 8 Principle of shaft and bearing identification along a drive train . 31 Figure B.1 Naming principles for trd data attribute . 37

22、 Figure C.1 Bin configuration example 1 40 Figure C.2 Bin configuration example 2 42 Figure C.3 Bin configuration example 3 44 Figure D.1 Linkage of the CDCs . 45 Table 1 Abbreviated terms applied . 13 Table 2 Coordinate system and wind turbine related characteristics . 15 Table 3 LN: Wind turbine c

23、ondition monitoring information (WCON) . 18 Table 4 Conditions for the presence of a data attribute 19 Table 5 Common data class attribute name semantic . 20 Table 6 CDC: Condition monitoring bin (CMB) . 21 Table 7 CDC: Condition monitoring measurement (CMM) 22 Table 8 CDC: Scalar value array (SVA)

24、23 Table 9 CDC: Complex measurement value array (CMVA) . 24 Table 10 Data attributes used for measurement description . 25 Table 11 Sensor identification convention for “trd” attribute 25 Table 12 Abbreviated terms for “trd” “location” description 26 Table 13 Sensor type code 28 Table 14 Reference c

25、ode for sensor sensitive axis orientation . 29 Table 15 Gearbox shaft and bearing identification 31 Table A.1 Examples of applicable mappings from tag to MxType . 34 Table B.1 Examples of Tag names and corresponding short datanames 38 4 IEC 61400-25-6:2016 IEC 2016 Table C.1 CMB example 1 . 39 Table

26、 C.2 CMB data object example 1 . 39 Table C.3 CMB example 2 . 41 Table C.4 CMB data object example 2 . 41 Table C.5 CMB example 3 . 43 Table C.6 CMB data object example 3 . 43 Table D.1 Object overview . 46 Table D.2 Name plate (LPL) . 46 Table D.3 CDC example: Condition monitoring measurement (CMM)

27、 . 47 Table D.4 CDC example: Condition monitoring bin (CMB) 47 Table D.5 CDC example: Alarm definition (ALM) 48 Table D.6 LN example: Alarm container definition 48 IEC 61400-25-6:2016 IEC 2016 5 INTERNATIONAL ELECTROTECHNICAL COMMISSION _ WIND ENERGY GENERATION SYSTEMS Part 25-6: Communications for

28、monitoring and control of wind power plants Logical node classes and data classes for condition monitoring FOREWORD 1) The International Electrotechnical Commission (IEC) is a worldwide organization for standardization comprising all national electrotechnical committees (IEC National Committees). Th

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39、rd IEC 61400-25-6 has been prepared by IEC technical committee 88: Wind energy generation systems. This second edition cancels and replaces the first edition published in 2010. This edition constitutes a technical revision. This edition includes the following significant technical changes with respe

40、ct to the previous edition: a) Major restructuring of the datamodel to accommodate needed flexibility. b) UFF58 format is no longer used. c) Access to data is now using the standard reporting and logging functions. d) Recommendations for creating datanames to accommodate needed flexibility have been

41、 defined. 6 IEC 61400-25-6:2016 IEC 2016 The text of this standard is based on the following documents: FDIS Report on voting 88/606/FDIS 88/611/RVD Full information on the voting for the approval of this International Standard can be found in the report on voting indicated in the above table. This

42、document has been drafted in accordance with the ISO/IEC Directives, Part 2. As the title of technical committee 88 was changed in 2015 from Wind turbines to Wind energy generation systems a list of all parts of the IEC 61400 series, under the general title Wind turbines and Wind energy generation s

43、ystems can be found on the IEC website. The committee has decided that the contents of this document will remain unchanged until the stability date indicated on the IEC website under “http:/webstore.iec.ch“ in the data related to the specific document. At this date, the document will be reconfirmed,

44、 withdrawn, replaced by a revised edition, or amended. A bilingual version of this publication may be issued at a later date. IMPORTANT The colour inside logo on the cover page of this publication indicates that it contains colours which are considered to be useful for the correct understanding of i

45、ts contents. Users should therefore print this document using a colour printer. IEC 61400-25-6:2016 IEC 2016 7 INTRODUCTION The IEC 61400-25 series defines information models and information exchange models for monitoring and control of wind power plants. The modelling approach (for information mode

46、ls and information exchange models) of IEC 61400-25-2 and IEC 61400-25-3 uses abstract definitions of classes and services such that the specifications are independent of specific communication protocol stacks, implementations, and operating systems. The mapping of these abstract definitions to spec

47、ific communication profiles is defined in IEC 61400-25-4 1 . This document defines an information model for condition monitoring information and explains how to use the existing definitions of IEC 61400-25-2 as well as the required extensions in order to describe and exchange information related to

48、condition monitoring of wind turbines. The models of condition monitoring information defined in this document may represent information provided by sensors or by calculation. In the context of this document, condition monitoring means a process with the purpose of observing components or structures

49、 of a wind turbine or wind power plant for a period of time in order to evaluate the state of the components or structures and any changes to it, in order to detect early indications of impending failures. With the objective to be able to monitor components and structures recorded under approximately the same conditions, this document introduces the operational state bin concept. The operational state bin concept is mult