1、g3g3g3g3g3IEEE 3 Park Avenue New York, NY 10016-5997 USA 10 August 2012 IEEE Standards Coordinating Committee 31 onAutomatic Meter Reading and Energy Management IEEE Std 1377-22012(Revision of IEEE Std 1377-1997) IEEE Standard for Utility Industry Metering Communication Protocol Application Layer (E
2、nd Device Data Tables) Sponsored by the IEEE Std 1377TM-2012 (Revision of IEEE Std 1377-1997) IEEE Standard for Utility Industry Metering Communication Protocol Application Layer (End Device Data Tables) Sponsor IEEE Standards Coordinating Committee 31 on Automatic Meter Reading and Energy Managemen
3、t Approved 14 May 2012 IEEE-SA Standards Board Abstract: Common structures are provided in this standard for encoding data in communication between End Devices (meters, home appliances, IEEE 1703 Nodes) and Utility enterprise collection and control systems using binary codes and Extensible Markup La
4、nguage (XML) content. The Advanced Metering Infrastructure (AMI) and SmartGrid requirements are addressed as identified by the Office of Electricity Delivery and Energy Reliability of the U.S. Department of Energy and by the Smart Metering Initiative of the Ontario Ministry of Energy (Canada) and of
5、 Measurement Canada. Sets of tables are exposed that are grouped together into sections that pertain to a particular feature-set and related function such as Time-of-use, Load Profile, Security, Power Quality, and more. Each standard Table Set (Data Model) can be expanded or restricted by the Manufa
6、cturer of the IEEE 1377 Device or home appliance using XML/TDL descriptive registered syntax (XML-based Table Definition Language) and enterprise data-value management using EDL (Exchange Data Language) in a manner that is machine readable. Published jointly with NEMA and Measurement Canada, Tables
7、are provided in support of Gas, Water, and Electric sensors and related appliances. Tables are also provided for network configuration and management by referencing its companion standard IEEE Std 1703TM-2012. IEEE Std 1377-2012 is co-published as ANSI C12.19 and MC12.19. Keywords: ANSI C12.19, End
8、Device, IEEE 1377, Utility Tables The Institute of Electrical and Electronics Engineers, Inc. 3 Park Avenue, New York, NY 10016-5997, USA Copyright 2012 by The Institute of Electrical and Electronics Engineers, Inc. All rights reserved. Published 10 August 2012. Printed in the United States of Ameri
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22、ained from the IEEE Standards Association. vi Copyright 2012 IEEE. All rights reserved. Participants At the time this IEEE standard was originally completed, the End Device/Telemetry Interface Unit Subcommittee Working Group had the following membership: Avygdor Moise, Chair Kostas Tolios, Vice Chai
23、r Michael Anderson, Vice Chair Terry L. Penn, Editor Edward J. Beroset Brent Cain David Haynes Brad Johnson Herman Millican Lawrence Kotewa Vuong Nguyen Dan Nordell Aaron Snyder Richard Tucker Michel Veillette Virginia ZinkowskiWe also wish to thank the following members of ANSI C12 SC17 WG2 for the
24、ir significant contributions to the making of this standard: Paul Aubin Shawn Bagley Norbert Balko Ron Begley William Beverly Gregory Bray William Buckley Martin Burns Kah-Fae Chan Thomas Chen Stuart Garland Raymond Gaudreault Ken Gilmer Greg Gomez Don Grundhauser Mark Iacoviello Janice Jennings Jea
25、n Joly Alex Lunycz Keith Martin Peter Martin William Mazza Robert McMichael John Newbury Jack Pazdon Marc Purc Bin Qiu Wesley Ray William Rush Chris Schafer Brian Seal Kendall Smith Richard Stetler David Taylor John Taylor David Wiseman Ted YorkThe following members of the individual balloting commi
26、ttee voted on this standard. Balloters may have voted for approval, disapproval, or abstention. Ali Al Awazi Michael Anderson Chris Bagge Hugh Barrass H. Stephen Berger William Byrd Brent Cain Keith Chow Sourav Dutta Herbert Falk Sergiu Goma Randall Groves David Halasz David Haynes Werner Hoelzl Lia
27、ng Ji Piotr Karocki Stanley Klein Lawrence Kotewa Jim Kulchisky Paul Lambert Richard Lancaster Greg Luri Faramarz Maghsoodlou Anthony Mazy Gary Michel Avygdor Moise Jose Morales Michael S. Newman Satoshi Obara Chris Osterloh Amit Patel Terry L. Penn Charles Petras Michael Rush Bartien Sayogo Gil Shu
28、ltz James Smith Jerry Smith Aaron Snyder James St. Clair David Tepen Richard Tucker Scott Weikel Paul Work vii Copyright 2012 IEEE. All rights reserved. When the IEEE-SA Standards Board approved this standard on 14 May 2012, it had the following membership: Richard H. Hulett, Chair John Kulick, Vice
29、 Chair Robert Grow, Past Chair Satish Aggarwal Masayuki Ariyoshi Peter Balma William Bartley Ted Burse Clint Chaplin Wael Diab Jean-Philippe Faure Alexander Gelman Paul Houz Jim Hughes Young Kyun Kim Joseph L. Koepfinger* David J. Law Thomas Lee Hung Ling Oleg Logvinov Ted Olsen Gary Robinson Jon Wa
30、lter Rosdahl Mike Seavey Yatin Trivedi Phil Winston Yu Yuan *Member EmeritusAlso included are the following nonvoting IEEE-SA Standards Board liaisons: Richard DeBlasio, DOE Representative Michael Janezic, NIST Representative Catherine Berger IEEE Standards Program Manager, Document Development Matt
31、hew J. Ceglia IEEE Client Services Manager, Professional Services viii Copyright 2012 IEEE. All rights reserved. Introduction This introduction is not part of IEEE Std 1377-2012, IEEE Standard for Utility Industry Metering Communication Protocol Application Layer (End Device Data Tables). The body o
32、f this standard was developed jointly with ANSI C12.19 and MC12.19. The joint agreement calls for the standards and regulatory organizations IEEE, ANSI, and MC to maintain the body of this standard in step and congruent as they publish versions and revisions of the standard. A number of editorial er
33、rors and error of omission were discovered since the publication of ANSI C12.19-2008, just before the acceptance of IEEE Std 1377-2012. These errors are listed in Annex N, “(normative) Listing of editorial errors and errors of omission in ANSI C12.19-2008”. All reported errors were identified in the
34、 body of this standard and highlighted to indicate that the text was in error and was corrected. Errors of omission were corrected in the body of this document and similarly highlighted. Other minor editorial changes have been made to this standard, but they have not been highlighted. The second ver
35、sion of this standard was developed under the auspices of the secretariat of ANSI ASC 12 SC17 WG2. For that reason, the document contains references to ANSI standards, which in a number of them are cross published by the IEEE. These standard references can be interchangeably replaced with the corres
36、ponding IEEE standards (or MC reference numbers) as follows: ANSI Standard IEEE Standard MC Reference ANSI C12.18 IEEE Std 1701TMMC12.18 ANSI C12.19 IEEE Std 1377TMMC12.19 ANSI C12.21 IEEE Std 1702TMMC12.21 ANSI C12.22 IEEE Std 1703TMMC12.22 All communications to Measurement Canada (MC) in regard to
37、 MC referenced Standard should be directed to: Measurement Canada Standards Building #4 151 Tunneys Pasture Driveway Ottawa, ON K1A 0C9 Canada IEEE Std 1377-2012 provides a common data structure for use in transferring data to and from utility End Devices, typically meters. It has been approved afte
38、r considerable cooperative effort among utilities, meter manufacturers, automated meter reading service companies, ANSI, Measurement Canada (for Industry Canada), NEMA, IEEE, Utilimetrics, and other interested parties. The standard data structure is defined as sets of tables. The tables are grouped
39、together into sections called decades. Each Decade pertains to a particular feature-set and related function such as Time-of-use, Load Profile, and so on. Table data is transferred from or to the End Device by reading from or writing to a particular table or portion of a table. Specific actions may
40、be requested to be executed by the End Device through Procedure invocations. The second release of the standard represents a philosophical departure from the first release in 1997. This release of the standard is intended to accommodate the concept of an advanced metering infrastructure such as that
41、 identified ix Copyright 2012 IEEE. All rights reserved. by the Office of Electricity Delivery and Energy Reliability of the U.S. Department of Energy; the Smart Metering Initiative of the Ontario Ministry of Energy (Canada); and the stated requirements of Measurement Canada for the approval of a me
42、tering device for use in Canada. This standard covers a broader range of functionality relative to its previous version; however, it does not follow that implementations of this broader range of functionality need to be large or complex. Implementers are encouraged to choose an appropriate subset th
43、at is suitable for their needs. Therefore, it is very unlikely for any one End Device to embed all tables or even the majority of the tables described herein. Implementers are encouraged to deploy their desired functionalities using complete and consistent suites of standard tables from standard dec
44、ades to the largest extent practical. Readers who are acquainted with IEEE Std 1377-1997 will discover that the new version contains many changes. The changes may be categorized as follows: Additions of new features or new functionality through the introduction of new tables, decades, or syntax. Ext
45、ensions or improvements to preexisting functionality in support of contemporary and anticipated industry needs. Corrections of errors and provision of clarifications that address known deficiencies and documentation of the accepted or anticipated industry practice. Introduction of XML-based table de
46、scription language (TDL/EDL) and documentation of services supporting the needs expressed by initiatives such as Smart Metering, Advanced Metering Infrastructure, and the like. Removal of features that were found undesirable. Provision of guidelines for implementers of this standard and developers o
47、f future versions of the standard on backward compatibility and planned phase-out of obsolete features. Some of the many new features introduced in this revision of the standard include: Addition of new data types in support of high-precision sub-second time stamps, such as HTIME_DATE and HTIME. Cre
48、ation of new syntax for the aggregation of transmitted characters into strings, STRING. Creation of new syntax for the aggregation of transmitted Octets into opaque blobs, BINARY. Addition of new Decade 9, Telephone tables. This Decade imports and supersedes the tables and syntax defined in ANSI C12
49、21/MC12.21/IEEE 1702. Creation of new Decade 11, Load Control and Pricing Tables. This Decade provides for demand-side management capabilities, including load control, demand response, prepayment, and direct customer billing functions. Creation of Decade 14, Extended User-defined Tables. This Decade provides capability for transmitting and receiving a contiguous stream of element and subelement data. The data are referenced methodically to the legitimate and formal IEEE 1377 data element. Creation of Decade 15, Quality-of-service Tables. Thi
