ISO/IEC 8802-3:1990

I NTER NAT1 ON AL
ISOIIEC
STANDARD
8802-3
ANSVIEEE
Std 802.3
Second edition
1990-09-2 1
Information processing systems -
Local area networks -
Part 3 :
Carrier sense multiple access with collision
detection (CSMAKD) access method and
physical layer specifications
Systèmes de traitement de l'information - Réseaux locaux -
Partie 3 : Accès multiple par surveillance du signal et détection de collision et
spécifications pour la couche physique
Reference number
ISO/IEC 8802-3 : 1990 (E)
ANSI/IEEE
Std 802.3-1990 Edition

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Abstract: This Local Area Network (LAN) standard, ISOlIEC 8802-3 : 1990 [ANSIIIEEE Std 802.3-
1990 Edition], specifies the media access control characteristics for the Carrier Sense Multiple Ac-
It also specifies the media, Medium At-
cess with Collision Detection (CSWCD) access method.
tachment Unit (MAU) and physical layer repeater unit for 10 Mb/s baseband systems. Specifica-
tions for MAU types 10BASE5, 10BASE2, and FOlRL (fiber optic inter-repeater link) are included.
Layer and sublayer interface specifications are aligned to the IS0 Open Systems Interconnection
Basic Reference Model and 8802 models. The 8802-3 internal model is defined and used.
First Printing
ISBN 1-55937-049-1
of Congress Catalog Card Number 90-083842
Library
Copyright O 1990 by
The Institute of Electrical and Electronics Engineers, Inc
345 East 47th Street, New York, NY 10017, USA
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.
September 21, 1990 SH13482

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International Standard l[sO/iEC 88023 : 1990
ANSUIEEE Std 802.3-1990 Edition
(This edition contallis ANSVIEEE Std 802.3-198t?,
mm std 802&-198& and ANsImm Std 802.3d-1987)
Information processing systems-
Local area networks-
Part 3:
Carrier sense multiple access with
collision detection (CSWCD)
access method and
physical layer specifications
Sponsor
Technid Committee on Computer Communications
ofthe
IEEEconiputerSociety
Approved June 9,1988 (ANSVIEEE Std 802.3-1988)
Approved October 20,1988 (ANSVIEEE Std 802.3a-1988)
Approved December 12,1985 (ANSIAEEE Std 802.3~-1985)
Approved December 10,1987 (ANSVIEEE Std 802.3d-1987)
IEEXStandardSBoard
Approved January 12,1989 (ANSUIEEE Std 802.3-1988 and 802.3a-1988)
Approved June 4,1986 (ANSUIEEE SM 802.3~-1985)
Approved February 9,1989 (ANSI/IEEE Std 802.3d-1987)
American National Standards Institute
Approved 1990 by the
International Organization for Standardization
and by the
International Electrotechnical Commission
Adopted as an International Standard by the
International Organization for Standardization
and by the
Commission
International Electrotechnical
American National Slandard
Published by
The Institute of Electrical and Electronics Engineers, Inc.

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International standard ISOrnC 88023 : 1990
IS0 (the International Organization for Standardization) and IEC (the Inter-
sion) together form a system for worldwide
national Elec tro tec
1 bodies that are members of IS0 or IEC par-
standardization as a
ticipate in the development of International Standards through technical com-
mittees established by the respective organization to deal with particular fields of
technical activity. IS0 a nical committees collaborate in fields of
organizations, governmental and non-
mutual interest. Other
governmental, in liaison with IS0 and IEC, also take part in the work.
In the field of information technology, IS0 and IEC have established a joint
technical committee, ISO/IEC JTC 1. Draft International Standards adopted by
the joint technical committee are circulated to the national bodies for approval
before their acceptance as International Standa y are approved in accor-
al by the national bodies
dance with procedures
voting.
d by IS0 Technical Committee 97,
In 1985, IEEE Standa
system, as draft International Standard ISO/DIS 8802-3.
s described above, the Standard was subsequently approved
by IS0 and published as IS0 8802-3 : ,1989, incorporating IS0 8802-3/DAD 1
which had resulted from the adoption by IS0 in 1987 of ANSVIEEE Std 802.3a.
This new edition incorporates dendurn 2, Repeater set and repeater unit speci-
fication for use with IOBASES IOBASE2 networks, which was approved in
1988, and Addendum 5, Mediu
cation for a vendor independent fibre optic inter repeater link
approved in 1989.
For the purpose of assigning global addresses, the Institute of Electrical and
SA, has been designated by the IS0 Council as the
Electronics Engineers, In
unications on this subject should be addressed to
Registration Authority.
Registration Autho
ics Engineers, Inc.
c/o The Institute of Electri
445 Hoes Lane
PO Box 1331
Piscataway, NJ 08855-1331
USA
During the preparation of this Internationa tandard, information was
gathered on patents upon which application of the standard might depend. Rel-
evant patents were identified as belonging to Xerox poration. However, IS0
and IEC cannot give authoritative or comprehen information about evi-
dence, validity or scope of patent and like rights. The patent-holder has stated
that licences will be granted under reasonable terms and conditions and com-
munications on this subject should be addressed to
Xerox Corporation
PO Box 1600
Stamford, CT 06904
USA
International Organization for Standardization/International Electrotechnical Commission
Case postale 56 CH-121 1 Genève 20 Switzerland

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Foreword to Intemational Standard ISO/iEC 8802-3 : 1990
This standard is part of a family of standards for Local Area Networks
(LANs). The relationship between this standard and the other members of the
family is shown below. (The numbers in the figure refer to IS0 Standard
numbers.)
I i
8802-2
DATA
LINK
LAYER
PHYSICAL
LAYER
El
This family of standards deals with the physical and data link layers as
defined by the IS0 Open Systems Interconnection Basic Reference Model (IS0
7498 : 1984). The access standards define four types of medium access tech-
nologies and associated physical media, each appropriate for particular appli-
cations or system objectives. The standards defining these technologies are
(1) ISO/IEC 8802-3 [ANSI/IEEE Std 802.3-1990 Edition], a bus utilizing
CSMNCD as the access method,
(2) ISO/IEC 8802-4 [ANSVIEEE Std 802.4-19901, a bus utilizing token pass-
ing as the access method,
(3) IS0 8802-7, a ring utilizing slotted ring as the access method.
IS0 8802-2 CANSYIEEE Std 802.2-19891, Logical Link Control protocol, is
used in conjunction with the medium access standards.
The reader of this document is urged to become familiar with the complete
family of standards.
The main body of this standard serves for both the IS0 8802-3 : 1989 and IEEE
802.3-1990 standards. IS0 and IEEE each have unique foreword sections. The
Annex applies to the IEEE standard only. The Appendixes serve as useful ref-
erence material to both standards.

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ANSUiEEE SM 802.3.1990 Edition
IEEE Standards documents are developed within the Technical Committees
of the IEEE Societies and the Standards Coordinating Committees of the IEEE
Standards Board. Members of the committees serve voluntarily and without
compensation. They are not necessarily members of the Institute. The stan-
dards developed within IEEE represent a consensus of the broad expertise on the
subject within the Institute as well as those activities outside of IEEE which have
expressed an interest in participating in the development of the standard.
Use of an IEEE Standard is wholly voluntary. The existence of an IEEE
Standard does not imply that there are no other ways to produce, test, measure,
purchase, market, or provide other goods and services related to the scope of the
IEEE Standard. Fur ore, the viewpoint expressed at the time a standard is
approved and issue ect to change brought about through developments in
the state of the a ents received from users of the standard. Every
IEEE Standard is review at least once every five years for revision
or reaffirmation. When a document is more than five years old, and has not
been reaffirmed, it is reasonable to conclude that its contents, although still of
some value, do not wholly reflect the present state of the art. Users are cautioned
ne that they have the latest edition of any IEEE Standard.
IEEE Standards are welcome from any interested
bership affiliation with IEEE. Suggestions for
Id be in the form of a proposed change of text, to-
gether with appropriate supporting comments.
Interpretations: Occasionally questions may arise regarding the meaning of
portions of standards as they relate to specific applications. When the need for
interpretations is brought to the attention of IEEE, the Institute will initiate ac-
tion to prepare appropriate responses. Since IEEE Standards represent a con-
sensus of all concerned interests, it is important to ensure that any interpreta-
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instant response to interpretation requests except in those cases where the mat-
ter has previously received formal consideration.
Comments on standards and requests for interpretations should be addressed
to:
Secretary, IEEE Standards Board
345 East 47th Street
New York, NY 10017
USA
'I
IEEE Standards documents are adopted by the Institute of Electrical and
Electronics Engineers without regard to whether their adoption may involve
patents on articles, materials, or processes. Such adoptions does not assume
any liability to any patent owner, nor does it assume any obligation whatever to
I Darties adonting. the standards documents.

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Foreword to ANSI/iEEE Std 802.3-1990 Edition
(This edition contains ANSYIEEE Std 802.3-1988,
ANSI/lEEE SM 802&-1985, mdANSI/IEEE Std 8025d-1987)
(This Fomword is not a part ofthis International Standard or of ANSI/IEEE Std 802.3-1990 Edition.)
This standard is part of a family of standards for Local Area Networks
(LANs). The relationship between this standard and other members of the
family is shown below. (The numbers in the figure refer to IEEE standard
numbers. )
802.1 I
I 802.2 I DATA LINK LAYER
PHYSICAL LAYER
This family of standards deals with the Physical and Data Link Layers as
defined by the IS0 Open Systems Interconnection Basic Reference Model (IS0
7498 : 1984). The access standards define three types of medium access tech-
nologies and associated physical media, each appropriate for particular appli-
cations or system objectives. The standards defining these technologies are
(1) ANSI/IEEE Std 802.3-1990 Edition [ISO/IEC 8802-31, a bus utilizing
CSMNCD as the access method,
(2) ANSI/IEEE Std 802.4-1990 [ISO/IEC 8802-41, a bus utilizing token
passing as the access method,
(3) ANSI/IEEE Std 802.5-1989, a ring utilizing token passing as the access
method.
Other access methods (for example, metropolitan area networks and inte-
grated voice-data networks) are under investigation.
802.2-1989 [IS0 8802-21, the Logical Link Control standard,
ANSUIEEE Std
is used in conjunction with the medium access standards.
802.1* (a series of related standards) describes the relationship
IEEE
* IEEE Std 802.U-1990, Overview and Architecture of Network Standards; IEEE Std 802.133-1990,
MAC (Media Access Control) Bridges; and IEEE Std 802.13-1990, System Load Protocol have been
approved as IEEE Standards, but are not yet published. Other projects in the 802.1 series are cur-
rently under development.

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among the family of 802 standards and their relationship to the IS0 Open
Systems Interconnection Basic Reference Model in more
will also contain networking management stand
internetworking.
The reader of this standard is urged to become familiar with the complete
family of standards.
The local area network access mechanism specified by this standard may
include patented matter. The IEEE Standards Office calls attention to the fact
that it is claimed that the process of the local area network access mechanism
described throughout this standard is the subject of United States patent num-
bers 4 063 220 and 4 O99 024 and corresponding patents of foreign countries
owned by the Xerox Corporation. Although these patents appear to cover the ac-
cess mechanism subject in this standard, the IEEE takes no position with re-
spect to patent validity. The Xerox Corporation has assured the IEEE that it is
willing to grant a license under these patents on reasonable and nondiscrim-
inatory terms and conditions to anyone wishing to obtain such a license. The
Xerox Corporation's undertakings in this respect are on file with the IEEE
e
Standards Ofice and the license details may be obtained from the Office of
General Counsel of Xerox Corporation, whose address is Post Office Box 1600,
Stamford, Connectic
This edition of th a 10 Mb/s baseband implementation of
the Physical Layer D access method. It is anticipated that
future editions of the standard may provide additional implementations of the
physical layer to support different needs (for example, media, and data rates).
This standard contains state-of-the-art material. The area covered by this
standard is undergoing
s are anticipated to this standard
material, to correct possible er-
ns should contact
Institute of Electrical and Electronics Engineers, Inc
PO Box 1331,445 Hoes Lane
Piscataway, NJ 08855-1331
The IEEE 802.3 Working Group acknowledges and appreciates that many
0
concepts embodied in this standard are based largely upon the CSMNCD ac-
cess method earlier described in The Ethernet specification as written jointly
by individuals from oration, Digital Equipment Corporation, and
Intel Corporation. A is also expressed to Robert M. Metcalfe and
David R. Boggs for their pioneering work in establishing the original con-
cepts.

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When the IEEE 802.3 Working Group approved the original standard
(ANSUIEEE Std 802.3-1985) in 1983, it had the following membership:
Donald C. Loughry, Chair
Phil L. Arst Donald E. Kotas Robert S. Printis
Robert F. Bridge William P. Lidinsky Gary S. Robinson
Charles Brill Laurie Lindsey Robert Rosenthal
G. J. Clancy William D. Livingston Gary Stephens
John Davidson Andy Luque Daniel P. Stokesberry
Daniel Maltbie F. Sumner
Ralph DeMent Ken.
Daniel Sze
Hank (H. N.) Dorris Jerry McDowell
Judith Estrin C. Kenneth Miller Victor J. Tarassov
Richard Fabbri Robert L. Morrell P. E. Wainwright
Ingrid Fromm Wendell Nakamine Lyle Weiman
Milton C. Harper W. P. Neblett Hugh E. White
Bryan Hoover James Nelson Choa-Ping Wu
George D. Jelatis Thomas L. Phinney Nick Zades
Harold W. Katz David Potter Mo R. Zonoun
Additional individuals who contributed actively in the development of the
original standard (ANSVIEEE Std 802.3-1985) throughout its elaboration were
Juan Bulnes Dean Lindsay Mark Townsend
Ron Crane Then. T. Liu Roger Van Brunt
Dane Elliot Robert Moles Bo Vicklund
Alan Flatman Tony Lauck Chris Wargo
Maris Graube Joseph St. Amand Richard Williams
Guy Harkins Richard Seifert Ron Yara
Nathan Tobol
The ECMA TC24 Committee on Communication Protocols also provided
helpful input in the development of this standard.
When the IEEE 802.3 Working Group approved ANSYIEEE Std 802.3a-1988
(Section 10) in November 1984, it had the following membership:
Donald C. Loughry, Chair
Alan Flatman, Chair, ope lOBASE2 Task Force
Menachem Abraham Guy Harkins Joseph Rickert
R. V. Balakrishnan Greg Hopkins Gary Robinson
Joe Kennedy Robert Rosenthal
William Belknap
Charles Brill Hiroshi Kobayashi Joseph St. Amand
Juan Bulnes Tony Lauck Walter Schreuer
Stephen Soto
Stephen Cooper William Livingston
Hugh Logan Gary Spencer
Ronald Crane
John Davidson Leland Long Robert Summers
Mark Devon Andy Lugue Pat Thaler
Geoff Thompson
Phil Edholm Daniel Maltbie
Gregory Ennis Steven Moustakas Wendell Turner
David White
Judy Estrin Wendell Nakamine
Richard Fransen Lloyd Oliver Lawrence White
Rich Williams
Ingrid Fromm Aidan Paul
Robert Galin David Potter Ronald Yara
Eugene Reilly Mo Zonoun
Rich Graham

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The following persons were on the balloting committee that approved
ANSYIEEE Std 802.3-1985 for submission to the IEEE Standards Board:
W. Adams R. Harrington C. Ostereicher
R. Appleby H. Heilborn M. Papa
G. Arnold L. Heselton S. Peter
Y. Baeg D. Hislop D. Phuoc
E. Beauregard C. Hobbs T. Phinney
J. Becker S. Hollander G. Power
E. Bergaimini P. Hutton A. Reddi
Boorstyn P. Induiago M. Repko
A. Carrato T. Ishida F. Restivo
G. Carson J. Jelemenshy L. Rich
S. Chakradarti O. Kahn D. Rine
S. Chandra S. Kak R. Rosenthal
F. Chang K. Katzeff P. Ruosadri
S. Samoylenko
C. Chao C. Kessler
C. Chen D. Kirschen B. Sashi
R. Kolm A. Sauer
P. Chen
K. Chon T. Kuki N. Schneidewind
R. Chow R. Kunkel O. Serlin
G. Clinque W. Lai D. Shepard
I. Cotton V. Lasker D. Sloyer
D. Cox N. Lau H. Solomon
R. DeJardins R. Laughlin G. Stephens
D. Dickel F. Lim C. Stillebroer
C. Eldridge T. Liu K. Sumner
P. Enslow J. Loo E. Sykas
J. Fendirch K. Loughner A. Tantawi
M. Figuerea D. Loughry D. Tether
D. Fisher T. Louhenkillbi J. Tourret
J. Fletcher D. Manchester K. Tu
W. Franta M. Marco D. Umbaugh
R. Gagliano D. Matters J. Vorhies
D. Gan D. McInode A. Weissberger
M. Graube D. Michels W. Wenker
M. Greene L. Moraes T. Wicklund
R. Gustin D. Morriss T. Wolf
K. Harbaugh J. Murayama F. Wolff
G. Harkins R. Nelson R. Youg
D. Ofsevit

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The following persons were on the balloting committee that approved
ANSIDEEE Std 802.3a-1988 (Section 10) for submission to the IEEE Standards
Board:
Marshall Abrams Keith W. Harbaugh Marco Meli
S. M. Harris David S. Millman
John Adams
William B. Adams J. Scott Haugdahl Aditya N. Mishra
S. R. Ahuja Sharon Healy Richard J. Moff
Kit Athul C. W. Hobbs David E. Morgan
William Ayen Jim P. Hong Mike Morganti
Yong-Myung Baeg Paul L. Hutton Kinji Mori
Wesley A. Ballenger, Jr. Richard Iliff D. J. Morris
George D. Jelatis H. T. Mouftah
Edward0 W. Bergamini
Guy Juanole Dale A. Murray
Henk F. Boley
Betty Brannick Siegel L. Junker Ruth Nelson
George S. Carson Karl H. Kellermayr J. Duane Northcutt
Po Chen Mladen Kezunovic Charles Ostereicher
L. Y. Cheung Samuel Kho David Ofsevit
Kilnam Chon David Kollm Young Oh
T. Ricky Chow Sastri L. Kota George Parowski
Thomas L. Phinney
David Cohen Hirayr M. Kudyan
Allen F. Conrad Takahiko Kuki Nikitas Pimopoulos
David Potter
Ira W. Cotton Lee LaBarre
Robert S. Crowder Wai-Sum Lai John Potvcek
Gary S. Robinson
Michel Diaz Valerie Lasker
Marya Repko
Mitchell G. Duncan Lanse M. Leach
Philip H. Enslow, Jr. Y. S. Lee Robert Rosenthal
Edward
Stephen E. Levin Gian Paolo Rossi
Judith Estrin
John W. Fendrich F. C. Lim David J. Rypka
Harvey A. Freeman Don C. Loughry S. I. Samoylenko
Patrick Gonia Joseph F. P. Luhukay Norman F. Schneidewind
Ambuj Goya1 Wo-Shun Luk Oscar Sepulveda
Omri Serlin
Michael D. Graebner Marco Marsan
Joseph Massi D. Sheppard
Maris Graube
Nobuhiro Hamada Darrell B. McIndoe R. M. Simmons
Joseph L. Hammond Patrick S. McIntosh David W. Sloyer
When the IEEE Standards Board approved ANSILEEE Std 802.3-1988 on
June 9, 1988, and ANSVIEEE Std 802.3a-1988 on October 20, 1988, it had the
following membership:
Donald C. Fieckenstein, Chair Marco Migliaro,Vice Chair
Andrew G. Salem, Secretary
John W. Horch L. Bruce McClung
Arthur A. Blaisdell
Jack M. Kinn Donald T. Michael*
Fletcher J. Buckley
James M. Daly Frank D. Kirschner Richard E. Mosher
Stephen R. Dillon Frank C. Kitzantides L. John Rankine
S. Robinson
Eugene P. Fogarty Joseph L. Koepfinger* Gary
Frank L. Rose
Jay Forster* Irving Kolodny
Helen M. Wood
Thomas L. Hannan Edward Lohse
John E. Mav, Jr. Karl H. Zaininger
Kenneth D. Hendrix
Theodore W. Hissey, Jr. Lawrence V. McCall Donald W. Zip&
*Member emeritus

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When the IEEE 802.3 Working Group approved ANSUIEEE Std 802.3~-1985
(9.1-9.8) in July 1985, it had the following membership:
Donald C. Loughry, Chair
Geoffrey O. Thompson, Chair, Repeater Task Force
Menachem Abraham Hacene Hariti Aidan Paul
Keith Albright Guy Harkins David Potter
R. V. Balakrishnan Fred Huang Eric Rawson
William Belknap Stephen Janshego Joseph Rickert
Richard Bennett Donald Johnson Gary Robinson
Charles Brill Kwi-Yung Jung Timothy Rock
David Roos
Juan Bulnes Paul Kellam
Robert Rosenthal
Stephen Cooper Joe Kennedy
Joseph St. Amand
Paul Eastman Hiroshi Kobayashi
Lee LaBarre Walter Schreuer
Phil Edholm
Gregory Ennis Tony Lauck Semir Sirazi
Alan Flatman John Laynor David Smith
Richard Fransen William Livingston Stephen Soto
Ingrid Fromm Terry Lockyer Robert Summers
Pat Thaler
Robert Galin James Lucas
Wendell Turner
Sharad Gandhi Andy Luque
Rich Graham Daniel Maltbie Marc Warshaw
Ronald Yara
Richard Gumpertz Steven Moustakas
Lloyd Oliver

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The following persons were on the balloting committee that approved
ANSYIEEE Std 802.3~-1985 (9.1-9.8) for submission to the IEEE Standards
Board:
E.D. Jensen
Robert S. Crowder
Marshall Abrams
Guy Juanole
Michel Diaz
John Adams
Karl H. Kellermayr
Philip H. Enslow, Jr.
William B. Adams
Mladen Kozunovic
Judith Estrin
S. R. Ahuja
Samuel Kho
John W. Fendrich
P. D. Amer
David Kollm
Harvey A. Freeman
Kit Athul
Sastri L. Kota
R. J. Gagliano
William Ayen
Hirayr M. Kudyan
Patrick Gonia
Yong-Myung Baeg
Takahiko Kuki
Wesley A. Ballenger, Jr. Ambuj Goya1
Lee LaBsrre
Michael D. Graebner
Edward0 W. Bergamini
Wai-Sum Lai
Maris Graube
H. F. Boley
Lanse M. Leach
Paul W. Campbell, Jr. Nobushiro Hamada
Stephen E. Levin
George S. Carson Joseph L. Hammond
F. C. Lim
S. M. Harris
Po Chen
William Livingston
J. Scott Haugdahl
L. Y. Cheung
Don C. Loughry
C. W. Hobbs
Kilnam Chon
Joseph F. P. Luhukay
Jim P. Hong
T. Ricky Chow
Meli Marco
W. F. Chow Paul L. Hutton
Marco Marsan
Richard Iliff
David Cohen
Joseph Massi
George D. Jelatis
Allen F. Conrad
Ahmed N. Tantaui
Gary S. Robinson
Darrell B. McIndoe
Mario Tokoro
Marya Repko
Patrick S. McIntosh
H. C. Torng
Robert Rosenthal
David S. Millman
Donald F. Towsley
Gian Paolo Rossi
Aditya N. Mishra
Wei-Tek Tsai
David J. Rypka
David E. Morgan
M. Tsuchiya
S. I. Samoylenko
Mike Morganti
Richard Tung
Norman F. Schneidewind
Kinji Mori ,
Stanko Turk
Oscar Sepulveda
D. J. Morris
L. David Umbaugh
Omri Serlin
H. T. Mouftah
James Vorhies
Dale A. Murray D. Sheppard
S. C. Wang
R. M. Simmons Pearl
Ruth Nelson
Don Weir
L. Sintonen
J. Duane Northcutt
Alan J. Weissberger
David W. Sloyer
Charles Oestereicher
William J. Wenker
Stephen Soto
Young Oh
J. Whitaker
Fred Strauss Earl
George Parowski
Michael Willett
Bart W. Stuck
Thomas L. Phinney
Tsong-Ho Wu
Tatsuya Suda
David Potter
Oren Yuen
Efstathios D. Sykas
John Potvcek
Daniel T. W. Sze
When the IEEE Standards Board approved ANSVIEEE Std 802.3~-1985 (9.1-
9.8) on December 12, 1985, it had the following membership:
John P. Riganati, Vice Chair
John E. May, Chair
Sava I. Sherr, Secretary
James H. Beall Jay Forster Lawrence V. McCall
Fletcher J. Buckley Daniel L. Goldberg Donald T. Michael*
Rene Castenschiold Kenneth D. HenArix Frank L. Rose
Edward Chelotti Irvin N. Howell Clifford O. Swanson
Jack Kinn J. Richard Weger
Edward J. Cohen
Paul G. Cummings Joseph L. Koepfinger* W. B. Wilkens
Donald C. Fleckenstein Irving Kolodny Charles J. Wylie
R. F. Lawrence
*Member emeritus

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When the IEEE 802.3 Working Group approved ANSYIEEE Std 802.3d-1987
(9.91, it had the following membership:
Donald C. Loughry, Chair
Steven Moustakas, Chair, Task Force
Menachem Abraham Lloyd Hasley Timothy Rock
Keith Albright Hawming Haung David Roos
Keith Amundsen Charles Hoffner Walter Schruer
Jean-Pierre Astorg Michael Hughes Semir Sirazi
R. V. Balakrishnan
Donald Johnson David Smith
Richard Bennett Mze Johnson Robert Summers
Charles Brill Kwi-Yung Jung Pat Thaler
Juan Bulnes Matt Kaltenbach Geoff Thompson
Robert Campbell Paul Kellam
Nathan Tobol
Luigi Canavese
Scott Kesler Carlos Tomaszewski
Albert Claessen Hiroshi Kobayashi Wendell Turner
Peter Dawe Hidetsune Kurokawa Joseph Wiencko
Peter Desaulniers Lee LaBarre Bruce Williams
Raymond Duley Ed Lare
Jeff Ebeling
Wayne Lindquist OBSERVERS
Gianfranco Enrico Terry Lockyer
Alan Flatman Don Loughry Allen Cherin
Richard Fransen James Lucas
John Decramer
Ingrid Fromm Andy Luque Paul Eastman
Robert Galin Lloyd Oliver Shinji Emori
Mark Gerhold Aidan Paul Jiro Kashio
Adi Golbert Roy Pierce Michael Lee
Rich Graham Eric Rawson Luciano Marchitto
Joseph Rickert Jim Montrose
Gary Robinson Peter Tarrant
The IEC TC83 Committee on Information Technology Equipment also
provided very helpful input to the development of the FOIRL Standard (9.9).

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The following persons were on the balloting committee that approved
ANSYIEEE Std 802.3d-1987 (9.9) for submission to the IEEE Standards Board:
Gary S. Robinson
William B. Adams M. Kezunovic
S. R. Ahuja Samuel Kno Robert Rosenthal
Gian Paolo Rossi
Kit Athul S. E. Kille
David J. Rypka
William Ayen David Kollm
Eduardo W. Bergamini Takahiko Kuki S. I. Samaylenko
Norman F. Schneidewind
Paul W. Campbell, Jr. Lee LaBarre
George S. Carson Wai-Sum Lai Omri Serlin
Po Chen Lanse M. Leach D. Sheppard
L. Y. Cheung Edward Y. Lee Ron Simmons
Kilnam Chon R. C. Lightburn J. B. Sinclair
L. Sintonen
W. F. Chow F. C. Lim
Michael Coden William D. Livingston Tom Stack
Care1 M. Stillebroer
A. F. Conrad Don C. Loughry
Joseph F. P. Luhukay Fred Strauss
Robert S. Cmwder
WO-Shun Luk Tatsuya Suda
Michel Diaz
Marco Ajmone Marsan P. Sugar
N. I. Dimopoulos
Joseph Massi Efstathios D. Sykas
M. G. Duncan
Philip H. Enslow, Jr. Marco Meli Daniel T. W. Sze
Judith Estrin Darrel B. McIndoe Ahmed N. Tantawi
P. S. McIntosh H. C. Torng
John W. Fendrich
Harvey A. Freeman David S. Millman D. F. Towsley
Patrick S. Gonia Aditya N. Mishra Wei-Tek Tsai
Stanko Turk
R. L. Gordon David E. Morgan
L. David Umbaugh
A. Goya1 Mike Morganti
M. D. Graebner Kanji Mori J. T. Vorhies
Maris Graube David Morris Pearl S. C. Wang
Joseph L. Hammond H. H. T. Mouftah Don Weir
Alan J. Weissburger
Stephen Harris Dale N. Murray
J. Scott Haugdahl R. R. Nelson W. J. Wenker
C. W. Hobbs J. D. Northcut Earl J. Whitaker
Bryan Whittle
Paul Hutton Charles Oestereicher
Richard Illif Young Oh Michael Willett
David C. Wood
E. D. Jenson George Parowski
Tsong-Hu Wu
Guy Juanole Thomas L. Phinney
Oren Yuen
Karl H. Kellermayr J. M. Potucek
Marya Repko
When the IEEE Standards Board approved ANSIAEEE Std 802.3d-1987 (9.9)
on December 12, 1985, it had the following membership:
Donald C. Fieckenstein, Chair Marco MigIiaro,Vice Chair
Andrew G. Salem, Secretary
Leslie R. Kerr Donald T. Michael*
James H. Beall
Dennis Bodson Jack Kinn L. John Rankine
Marshall L. Cain Irving Kolodny John P. Riganati
Gary S. Robinson
James M. Daly Joseph L. Koepfinger*
Frank L. Rose
Stephen R. Dillon Edward Lohse
John May Robert E. Rountree
Eugene P. Fogarty
Lawrence V. McCall William R. Tackaberry
Jay Forster
William B. Wilkens
Kenneth D. Hendrix L. Bruce McClung
Helen M. Wood
Irvin N. Howell
*Member emeritus

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Contents
SECTION PAGE
1 . Introduction . 21
1.1 Overview . 21
1.1.1 Basic Concepts . 21
1.1.2 Architectural Perspectives . 21
1.1.3 Layer Interfaces . 23
1.1.4 Application Areas . 23
1.2 Notation . 23
1.2.1 State Diagram Conventions . 23
1.2.2 Service Specification Method and Notation . 25
1.2.3 Physical Layer and Media Notation . 26
1.2.4 Physical Layer Message Notation . 26
1.3 References . 27
1.4 Definitions . 28
2 . MAC Service Specification . 29
Scope and Field of Application . 29
2.2 Overview of the Service . 29
2.2.1 General Description of Services Provided by the Layer . 29
2.2.2 Model Used for the Service Specification . 30
2.2.3 Overview of Interaction . 30
2.2.4 Basic Services and Options . 30
2.3 Detailed Service Specification . 30
TA.request . 30
TA.indication . .
...