1、IEEE Std 90003-2008 IEEE Std 90003-2008 IEEE Standard for Synchrophasor Data Transfer for Power Systems Sponsored by the Power System Relaying Committee IEEE 3 Park Avenue New York, NY 10016-5997 USA 28 December 2011 IEEE Power +1 978 750 8400. Permission to photocopy portions of any individual stan
2、dard for educational classroom use can also be obtained through the Copyright Clearance Center. iv Copyright 2011 IEEE. All rights reserved. Introduction This introduction is not part of IEEE Std C37.118.2-2011, IEEE Standard for Synchrophasor Data Transfer for Power Systems. Digital computer based
3、measurement, protection, and control systems have become common features of electric power systems. These measurement, protection, and control systems use sampled data to compute various quantities such as voltage and current phasors. Phasors are used in many protection and data acquisition function
4、s, and their utility is increased further by referencing them to a common time base. This can be accomplished by synchronizing the phasor estimate to a precise time source that is common to the various measuring sites. Phasor estimates synchronized to a common time source and referenced to a common
5、nominal frequency are defined as synchrophasors. Simultaneous measurement sets derived from synchronized phasors provide a vastly improved method for tracking power system dynamic phenomena for improved power system monitoring, protection, operation, and control. The original standard for synchropha
6、sors was IEEE Std 1344-1995 B3, which was reaffirmed in 2001.a This standard was replaced in 2005 by IEEE Std C37.118-2005 B6. IEEE Std C37.118-2005 provided additional clarification for the phasor and synchronized phasor definitions. The concepts of total vector error and compliance tests were intr
7、oduced. The message formats were updated from the original standard to improve information exchange with other systems such as a master station. Specifically, the sync, frame size, and station identification fields were added to the data frame, configuration frame, header frame, and command frame. A
8、nalog data was added to the data frame, the fraction-of-second (FRACSEC) field replaced the sample count field, and the status field was significantly modified to include time quality. The 2005 version of IEEE Std C37.118 included both measurement requirements and real-time data transfer requirement
9、s. To simplify widespread adoption and facilitate the use of other communication protocols for phasor data transfer, IEEE Std C37.118-2005 B6 was split into two standards: IEEE Std C37.118.1 for synchrophasor measurement requirements including dynamic performance, and IEEE Std C37.118.2-2011 (this s
10、tandard) with synchrophasor data transfer requirements.bThe previous requirements for data transfer are retained, and one new configuration frame has been added. Notice to users Laws and regulations Users of these documents should consult all applicable laws and regulations. Compliance with the prov
11、isions of this standard does not imply compliance to any applicable regulatory requirements. Implementers of the standard are responsible for observing or referring to the applicable regulatory requirements. IEEE does not, by the publication of its standards, intend to urge action that is not in com
12、pliance with applicable laws, and these documents may not be construed as doing so. aThe numbers in brackets correspond to those of the bibliography in Annex A. bInformation on references can be found in Clause 2. Copyrights This document is copyrighted by the IEEE. It is made available for a wide v
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17、e IEEE-SA web site at http:/standards.ieee.org. Errata Errata, if any, for this and all other standards can be accessed at the following URL: http:/standards.ieee.org/findstds/errata/index.html. Users are encouraged to check this URL for errata periodically. Interpretations Current interpretations c
18、an be accessed at the following URL: http:/standards.ieee.org/findstds/interps/index.html. Patents Attention is called to the possibility that implementation of this standard may require use of subject matter covered by patent rights. By publication of this standard, no position is taken with respec
19、t to the existence or validity of any patent rights in connection therewith. The IEEE is not responsible for identifying Essential Patent Claims for which a license may be required, for conducting inquiries into the legal validity or scope of Patents Claims or determining whether any licensing terms
20、 or conditions provided in connection with submission of a Letter of Assurance, if any, or in any licensing agreements are reasonable or non-discriminatory. Users of this standard are expressly advised that determination of the validity of any patent rights, and the risk of infringement of such righ
21、ts, is entirely their own responsibility. Further information may be obtained from the IEEE Standards Association. v Copyright 2011 IEEE. All rights reserved. vi Copyright 2011 IEEE. All rights reserved. Participants At the time this standard was submitted to the IEEE-SA Standards Board for approval
22、, the Synchrophasor Data Transfer for Power Systems Working Group had the following membership: Kenneth Martin, Chair Gustavo Brunello, Vice Chair Mark Adamiak Galina Antonova Gabriel Benmouyal Christoph Brunner Phuoc-Doc Bui Herbert Falk Allen Goldstein Yi Hu Takahiro Kase Mladen Kezunovic Yuchen L
23、u Rene Midence Jay Murphy Farnoosh Rahmatian Veselin Skendzic Fred Steinhauser Tim Tibbals Benton Vandiver Abu Zahid The following members of the individual balloting committee voted on this standard. Balloters may have voted for approval, disapproval, or abstention. William J. Ackerman Mark Adamiak
24、 Eric Allen M. Victoria Alonso Galina Antonova James Ariza Jack Arnold Ali Al Awazi Munnu Bajpai David Bassett Philip Beaumont Kenneth Behrendt Oscar Bolado Gustavo Brunello Arvind K. Chaudhary Luis Coronado Randall Crellin Gary Donner Michael Dood Randall Dotson Gary Engmann Herbert Falk Vasudev S.
25、 Gharpure Jeffrey Gilbert Jalal Gohari Allen Goldstein Roman Graf Stephen Grier Randall C. Groves Roger Hedding C. Huntley Gerald Johnson Innocent Kamwa Yuri Khersonsky James Kinney Stanley Klein Joseph L. Koepfinger Jim Kulchisky Chung-Yiu Lam Raluca Lascu Amir Makki Kenneth Martin Pierre Martin Jo
26、hn McDonald Michael McDonald Harish Mehta Gary Michel Adi Mulawarman Jerry Murphy R. Murphy Bruce Muschlitz Michael S. Newman Lorraine Padden Donald Parker Mark Peterson Robert Pettigrew Bruce Pickett Farnoosh Rahmatian Michael Roberts Charles Rogers Steven Sano Bartien Sayogo Thomas Schossig Robert
27、 Seitz Jose Antonio De La O Serna Gil Shultz Mark Simon Veselin Skendzic James Smith Jerry Smith Gary Stoedter Charles Sufana William Taylor Demetrios Tziouvaras Joe Uchiyama Eric Udren John Vergis Roel Vries John Wang Solveig Ward Ray Young Jian Yu Sergio Zimath vi Copyright 2011 IEEE. All rights r
28、eserved. When the IEEE-SA Standards Board approved this standard on 7 December 2011, it had the following membership: Richard H. Hulett, Chair John Kulick, Vice Chair Robert M. Grow, Past Chair Judith Gorman, Secretary Masayuki Ariyoshi William Bartley Ted Burse Clint Chaplin Wael Diab Jean-Philippe
29、 Faure Alexander Gelman Paul Houz Jim Hughes Joseph L. Koepfinger* David J. Law Thomas Lee Hung Ling Oleg Logvinov Ted Olsen Gary Robinson Jon Walter Rosdahl Sam Sciacca Mike Seavey Curtis Siller Phil Winston Howard L. Wolfman Don Wright *Member Emeritus Also included are the following nonvoting IEE
30、E-SA Standards Board liaisons: Satish K. Aggarwal, NRC Representative Richard DeBlasio, DOE Representative Michael Janezic, NIST Representative Lisa Perry IEEE Standards Program Manager, Document Development Soo H. Kim IEEE Standards Project Manager Contents 1. Overview 1 1.1 Scope . 1 1.2 Purpose 1
31、 1.3 General overview. 2 1.4 Need for this standard 2 2. Normative references 3 3. Definitions, acronyms, and abbreviations 3 3.1 Definitions . 3 3.2 Special terms 4 3.3 Abbreviations and acronyms . 4 4. Synchrophasor measurement 4 4.1 Introduction . 4 4.2 Synchrophasor definition. 5 4.3 Frequency a
32、nd rate of change of frequency definition 6 4.4 Measurement time tag from synchrophasors . 6 4.5 System time synchronization. 6 4.6 Synchrophasor transmission 7 4.7 Synchrophasor measurement . 7 5. Synchrophasor measurement system overview 7 5.1 Synchrophasor network . 7 5.2 Synchrophasor network el
33、ements 8 5.3 Multiple data streams from PMUs and PDCs 9 6. Synchrophasor message format 9 6.1 Message application 9 6.2 Message framework. 9 6.3 Data frame . 13 6.4 Configuration frame 17 6.5 Header frame . 24 6.6 Command frame 25 Annex A (informative) Bibliography . 27 Annex B (informative) Cyclic
34、redundancy codes. 28 Annex C (informative) System communications considerations 31 Annex D (informative) Message examples 33 Annex E (normative) Synchrophasor message mapping into communications 39 Annex F (informative) Synchrophasor communication methods for IP. 41 viii Copyright 2011 IEEE. All rig
35、hts reserved. IEEE Standard for Synchrophasor Data Transfer for Power Systems IMPORTANT NOTICE: This standard is not intended to ensure safety, security, health, or environmental protection. Implementers of the standard are responsible for determining appropriate safety, security, environmental, and
36、 health practices or regulatory requirements. This IEEE document is made available for use subject to important notices and legal disclaimers. These notices and disclaimers appear in all publications containing this document and may be found under the heading “Important Notice” or “Important Notices
37、 and Disclaimers Concerning IEEE Documents.” They can also be obtained on request from IEEE or viewed at http:/standards.ieee.org/IPR/disclaimers.html. 1. Overview 1.1 Scope This standard defines a method for exchange of synchronized phasor measurement data between power system equipment. It specifi
38、es messaging including types, use, contents, and data formats for real-time communication between phasor measurement units (PMU), phasor data concentrators (PDC), and other applications. 1.2 Purpose The purpose for this standard is to facilitate data exchange among measurement, data collection, and
39、application equipment. It provides a defined, open access method for all vendors to use to facilitate development and use of synchrophasors. It is a simple and direct method of data transmission and accretion within a phasor measurement system, which may be used directly or with other communication
40、protocols. This method was initially established by IEEE Std C37.118-2005 B6.11The numbers in brackets correspond to those of the bibliography in Annex A. 1 Copyright 2011 IEEE. All rights reserved. IEEE Std C37.118.2-2011 IEEE Standard for Synchrophasor Data Transfer for Power Systems 1.3 General o
41、verview This standard defines data transmission formats for real-time data reporting for synchronized phasor measurements used in electric power systems. Clause 1 provides the scope and need for the standard. Clause 2 references other standards that are related or may be useful in the study and appl
42、ication of this standard. Clause 3 defines terms, acronyms, and abbreviations found in this standard. Clause 4 provides background for synchrophasor measurement. Clause 5 describes synchrophasor measurement system. Clause 6 defines the real-time communication protocol and message formats. Six inform
43、ative annexes are provided to clarify the standard and give supporting information: Annex A is a bibliography. Annex B gives information about cyclic redundancy codes and the cyclic redundancy check (CRC) required by this standard. Annex C provides background in communication bandwidth. Annex D illu
44、strates the message formats defined in Clause 6 with complete message examples. Annex E defines message mapping into standard communication protocols. Annex F discusses synchrophasor communications methods for Internet Protocol (IP). 1.4 Need for this standard The 2005 version of IEEE Std C37.118 in
45、cludes both measurement requirements and real-time data transfer requirements. To simplify widespread adoption of synchrophasor measurement technology and facilitate the use of other communication protocols for phasor data transmission, IEEE Std C37.118-2005 B6 was split into two standards, one with
46、 measurement requirements and the other with the data transfer requirements. This allows other communication protocols and systems to be used with phasor measurement systems supporting the original purpose of the standard. This split facilitates harmonization of IEEE Std C37.118-2005 with IEC 61850.
47、 This standard includes only the data transfer portion of IEEE Std C37.118-2005, adding some corrections and improvements yet retaining the current messaging for backward compatibility. This approach supports the widely used method for current and developing deployments, and allows for a smooth tran
48、sition of synchrophasor systems to new protocols as needed. 2 Copyright 2011 IEEE. All rights reserved. IEEE Std C37.118.2-2011 IEEE Standard for Synchrophasor Data Transfer for Power Systems 2. Normative references The following referenced documents are indispensable for the application of this doc
49、ument (i.e., they must be understood and used, so each referenced document is cited in text and its relationship to this document is explained). For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments or corrigenda) applies. IEEE Std 754-1985, IEEE Standard for Binary Floating-Point Arithmetic.2,3IEEE Std C37.118.1, IEEE Standard for Synchrophasor Measurements for Power Systems. 3. Definitions, acronyms, and abbreviations 3.1 Definitions Fo
