IEEE Std 382™-2006
(Revision of IEEE Std 382-1996)
IEEE Standard for Qualification of
Safety-Related Actuators for Nuclear
Power Generating Stations
I E E E
3 Park Avenue
New York, NY 10016-5997, USA
15 March 2007
IEEE Power Engineering Society
Sponsored by the
Nuclear Power Engineering Committee
Copyright The Institute of Electrical and Electronics Engineers, Inc.
Provided by IHS under license with IEEE
Not for ResaleNo reproduction or networking permitted without license from IHS
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Copyright The Institute of Electrical and Electronics Engineers, Inc.
Provided by IHS under license with IEEE
Not for ResaleNo reproduction or networking permitted without license from IHS
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IEEE Std 382™-2006
(Revision of
IEEE Std 382-1996)
IEEE Standard for Qualification of
Safety-Related Actuators for Nuclear
Power Generating Stations
Sponsor
Nuclear Power Engineering Committee
of the
IEEE Power Engineering Society
Approved 6 December 2006
IEEE-SA Standards Board
Copyright The Institute of Electrical and Electronics Engineers, Inc.
Provided by IHS under license with IEEE
Not for ResaleNo reproduction or networking permitted without license from IHS
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The Institute of Electrical and Electronics Engineers, Inc.
3 Park Avenue, New York, NY 10016-5997, USA
Copyright © 2007 by the Institute of Electrical and Electronics Engineers, Inc.
All rights reserved. Published 15 March 2007. Printed in the United States of America.
IEEE is a registered trademark in the U.S. Patent & Trademark Office, owned by the Institute of Electrical and Electronics
Engineers, Incorporated.
Print: ISBN 0-7381-5292-7 SH95602
PDF: ISBN 0-7381-5293-5 SS95602
No part of this publication may be reproduced in any form, in an electronic retrieval system or otherwise, without the prior
written permission of the publisher.
Abstract: Direction for the implementation of the requirements of IEEE Std 323™-2003 as they
apply to the specific features of safety-related actuator qualification are provided. This standard
establishes criteria for qualification of safety-related actuators, and actuator components, in
Nuclear Power Generating Stations in order to demonstrate their ability to perform their intended
safety functions under all required conditions.
Keywords: actuator components, AOV, HOV, MOV, nuclear power generating stations, safety-
related actuators, SOV
Copyright The Institute of Electrical and Electronics Engineers, Inc.
Provided by IHS under license with IEEE
Not for ResaleNo reproduction or networking permitted without license from IHS
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IEEE Standards documents are developed within the IEEE Societies and the Standards Coordinating
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iv Copyright © 2007 IEEE. All rights reserved.
Introduction
IEEE Std 382-2006, a revision of IEEE Std 382-1996, is based on a review of IEEE Std 382-1996, present
practices in equipment qualification, as well as, recent updates to mother standards IEEE Std 323™-2003
and IEEE Std 344™-2004.a
The following issues were clarified or changed in this revision:
a) Removed “Qualification cases” and Annex B. The environmental parameters provided conflicted
with IEEE Std 323-2003, which eliminated double peaks and values for environmental conditions.
Moreover, the values provided were not relevant for new plant construction.
b) Removed Annex C “Rational for normal thermal aging.” The methodology presented in Annex C is
not unique to actuators and is covered by IEEE Std 323-2003, IEEE Std 1205™-2000, and IEEE Std
101™-1987.
c) Revised Clause 2 “References.” Updated the references to reflect current revisions of IEEE Std 323-
2003 and IEEE Std 344-2004, and added IEEE Std 1205-2000 and IEEE Std 101-1987 to
compensate for the removal of Annex C from IEEE Std 382.
d) Revised 6.3.2 “Test sequence and requirements.” Eliminated the requirement that the test sequence
be performed in the sequence presented and clarified that the purpose of the test sequence is to place
the actuator in its worst case end-of-life condition prior to the design basis event. Added
intermediate inspections between each step in the test sequence to reflect current practices and
provide data for condition monitoring. Added cycle aging to the test sequence whereas they were
implicitly in the “Qualification cases” Part II of IEEE Std 382-1996.
e) Added new clause entitled “Cycle aging test” to Part II “Tests” section of this standard to provide
guidance as to the purpose and test requirements for the cycle aging test. Added flexibility for the
number of cycles performed with the main requirement being that the number of cycles be
representative for the application. Added guidance for how to incorporate manufacturer’s
recommended maintenance intervals into the qualification process.
f) Moved definitions that are shared with IEEE Std 323-2003 and IEEE Std 344-2004 to the Glossary
in Annex D.
g) Revised Clause 1 and Clause 4 of this standard to use the same wording and methods as presented in
the mother standard IEEE Std 323-2003.
h) Revised 6.1 “Type test parameter values” to reflect the fact that the environmental parameters have
been removed from this standard (i.e., Part II “Qualification cases,” and Annex B of IEEE Std 382-
1996 were deleted). This section is now better aligned with IEEE Std 323-2003.
aInformation on references can be found in Part I, Clause 2.
This introduction is not part of IEEE Std 382-2006, IEEE Standard for Qualification of Safety-Related Actuators
for Nuclear Power Generating Stations.
Copyright The Institute of Electrical and Electronics Engineers, Inc.
Provided by IHS under license with IEEE
Not for ResaleNo reproduction or networking permitted without license from IHS
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Copyright © 2007 IEEE. All rights reserved. v
Notice to users
Errata
Errata, if any, for this and all other standards can be accessed at the following URL: http://
standards.ieee.org/reading/ieee/updates/errata/index.html. Users are encouraged to check this URL for
errata periodically.
Interpretations
Current interpretations can be accessed at the following URL: http://standards.ieee.org/reading/ieee/interp/
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 respect to the existence or
validity of any patent rights in connection therewith. The IEEE shall not be responsible for identifying
patents or patent applications for which a license may be required to implement an IEEE standard or for
conducting inquiries into the legal validity or scope of those patents that are brought to its attention.
Participants
At the time this standard was completed, the Working Group on Qualification of Actuators (SC 2.3) had the
following membership:
William F. Sadowski, Chair
Pat G. McQuillian, Past Chair
The Subcommittee on Qualification (SC2) of Nuclear Power Engineering Committee that recommended
approval of this standard had the following membership:
Satish K. Aggarwal, Chair
Thomas R. Hencey III, Secretary
Chris Abernathy
Satish K. Aggarwal
Nissen M. Burstein
Jerry Daniels
James F. Gleason
Edward Mohtashemi
Ted Neckowicz
Chad Smith
Toni Wittamore
Bohumil Bartonicek
Paul D. Baughman
Anup K. Behera
Steven D. Benson
Brij Bharteey
Thomas Brewington
Nissen M. Burstein
Steve Casadevall
Suresh Channarasappa
Garry V. Chapman
Javier A. Chicote
Sun Yeong Choi
Choon-Hoon Chung
James M. Dean
Liviu Nicolae Delcea
Dennis E. Dellinger
Philip DiBenedetto
Michael Dougherty
Quang H. Duong
Frank Drumm
Yasutaka Eguchi
Walter Emerson
Artur J. Faya
Wells D. Fargo
Robert Francis
James F. Gleason
William L. Hadovski
Hideo Harada
Peter Helander
Jerrell C. Henley
Dirk C. Hopp
David A. Horvath
Yao-Tung Hsu
In-Koo Hwang
Craig S. Irish
Serena A. Jagtiani
Frank W. Kloer
Sushant Kapur
Mohsin Khan
Henry Leung
Bruce M. Lory
Pat G. McQuillan
Daniel R. Mikow
Todd Mitton
Asif Mohiuddin
Edward Mohtashemi
Carole Monchy-Leroy
Copyright The Institute of Electrical and Electronics Engineers, Inc.
Provided by IHS under license with IEEE
Not for ResaleNo reproduction or networking permitted without license from IHS
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vi Copyright © 2007 IEEE. All rights reserved.
At the time this standard was approved, the Nuclear Power Engineering Committee (NPEC) had the
following membership:
John Disosway, Chair
John MacDonald, Secretary
The following members of the individual balloting committee voted on this standard. Balloters may have
voted for approval, disapproval, or abstention.
Bill Newell
James Parello
Janez Pavsek
Jan S. Pirrong
Daniel J. Pomerening
Robert Queenan
Edward L. Quinn
John M. Richards
Fred Roy
Steve Sandberg
Glen E Schinzel
Roderick Simms
Kjell Spang
Richard G. Starck
Hirotsugu Suzuki
Marek Tengler
Marco Van Uffelen
Laszlo Varga
Carl Weber
John Wheless
John White
Toni Wittamore
Richard T. Wood
Toshio Yamamoto
Satish K. Aggarwal
Ijaz Ahmad
George Attarian
George Ballassi
Farouk D. Baxter
Brij M. Bharteey
Wesley W. Bowers
Daniel F. Brosnan
Nissen M. Burstein
Robert C. Carruth
John P. Carter
Stephen A. Fleger
Robert J. Fletcher
Robert Fuld
James Gleason
Dale T. Goodney
Britton P. Grim
William L. Hadovski
David A. Horvath
Paul R. Johnson
Harvey C. Leake
J. Scott Malcolm
Alexander Marion
Michael H. Miller
Gerald L. Nicely
Roger D. Parker
James Parello
Glen E. Schinzel
Neil P. Smith
James E. Stoner
James E. Thomas
John Waclo
John White
Paul L. Yanosy
David J. Zaprazny
Satish K. Aggarwal
Gary E. Arntson
Munnu Bajpai
William G. Bloethe
Wesley W. Bowers
Thomas N. Brewington
Daniel F. Brosnan
Nissen M. Burstein
Robert C. Carruth
Norbert N. Carte
Suresh Channarasappa
Garry V. Chapman
Danila Chernetsov
Tommy P. Cooper
John Disosway
Gary R. Engmann
Wells D. Fargo
Stephen A. Fleger
James F. Gleason
L. Gradin
Randall C. Groves
Ajit K. Gwal
Kuljit S. Hara
Wolfgang B. Haverkamp
Hamidreza Heidarisafa
David A. Horvath
Dennis Horwitz
Paul R. Johnson Jr.
James H. Jones
Joseph L. Koepfinger
G. L. Luri
John D. MacDonald
Omar S. Mazzoni
John E. Merando, Jr.
Gary L. Michel
Arthur S. Neubauer
Michael S. Newman
Charles Kamithi Ngethe
James Parello
Michael A. Roberts
Fredrick L. Roy
Bartien Sayogo
John H. Taylor
James E. Thomas
Mark A. Tillinghast
James W. Wilson, Jr.
David J. Zaprazny
Copyright The Institute of Electrical and Electronics Engineers, Inc.
Provided by IHS under license with IEEE
Not for ResaleNo reproduction or networking permitted without license from IHS
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Copyright © 2007 IEEE. All rights reserved. vii
When the IEEE-SA Standards Board approved this standard on 6 December 2006, it had the following
membership:
Steve M. Mills, Chair
Richard H. Hulett, Vice Chair
Don Wright, Past Chair
Judith Gorman, Secretary
*Member Emeritus
Also included are the following nonvoting IEEE-SA Standards Board liaisons:
Satish K. Aggarwal, NRC Representative
Richard DeBlasio, DOE Representative
Alan H. Cookson, NIST Representative
Catherine Berger
IEEE Standards Editor
Matthew Ceglia
IEEE Standards Program Manager, Technical Program Development
Mark D. Bowman
Dennis B. Brophy
William R. Goldbach
Arnold M. Greenspan
Robert M. Grow
Joanna N. Guenin
Julian Forster*
Mark S. Halpin
Kenneth S. Hanus
William B. Hopf
Joseph L. Koepfinger*
David J. Law
Daleep C. Mohla
T. W. Olsen
Glenn Parsons
Ronald C. Petersen
Tom A. Prevost
Greg Ratta
Robby Robson
Anne-Marie Sahazizian
Virginia C. Sulzberger
Malcolm V. Thaden
Richard L. Townsend
Walter Weigel
Howad L. Wolfman
Copyright The Institute of Electrical and Electronics Engineers, Inc.
Provided by IHS under license with IEEE
Not for ResaleNo reproduction or networking permitted without license from IHS
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viii Copyright © 2007 IEEE. All rights reserved.
Contents
1. Overview.............................................................................................................................................. 1
1.1 Scope............................................................................................................................................ 1
1.2 Purpose......................................................................................................................................... 1
2. Normative references ........................................................................................................................... 1
3. Definitions ........................................................................................................................................... 2
4. Introduction.......................................................................................................................................... 2
4.1 General......................................................................................................................................... 2
4.2 Requirements ............................................................................................................................... 3
5. Identification of the generic actuator group......................................................................................... 3
5.1 Generic actuator group identification .......................................................................................... 3
5.2 Selection of actuator units for type testing .................................................................................. 4
6. Qualification testing of selected actuators in generic actuator group.................................................. 4
6.1 Type test parameter values .......................................................................................................... 4
6.2 Type test plan............................................................................................................................... 5
6.3 Type test procedure...................................................................................................................... 6
6.4 Inspection..................................................................................................................................... 6
6.5 Acceptance criteria ...................................................................................................................... 7
6.6 Generic actuator group design modification................................................................................ 7
7. Qualification of actuator for specific application ................................................................................ 8
7.1 General......................................................................................................................................... 8
7.2 Actuator specif