Road vehicles — In-vehicle Ethernet — Part 6: Electrical 100-Mbit/s physical entity requirements and conformance test plan

This document specifies advanced features of an ISO/IEC/IEEE 8802-3 automotive Ethernet PHY (often also called transceiver), e.g. for diagnostic purposes for automotive Ethernet PHYs. This document specifies: — advanced PHY features; — wake-up and sleep features; — PHY test suite; — PHY control IUT requirements and conformance test plan; — PCS test suite; — PCS IUT requirements and conformance test plan; — PMA test suite; and — PMA IUT requirements and conformance test plan.

Véhicules routiers — Ethernet embarqué — Partie 6: Exigences et plan de tests de conformité de l’entité physique à 100-Mbit/s électrique

General Information

Status
Published
Publication Date
04-Nov-2021
Current Stage
6060 - International Standard published
Start Date
05-Nov-2021
Due Date
03-Jan-2021
Completion Date
05-Nov-2021
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INTERNATIONAL ISO
STANDARD 21111-6
First edition
2021-11
Road vehicles — In-vehicle Ethernet —
Part 6:
Electrical 100-Mbit/s physical entity
requirements and conformance test
plan
Véhicules routiers — Ethernet embarqué —
Partie 6: Exigences et plan de tests de conformité de l’entité physique
à 100-Mbit/s électrique
Reference number
ISO 21111-6:2021(E)
© ISO 2021

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ISO 21111-6:2021(E)
COPYRIGHT PROTECTED DOCUMENT
© ISO 2021
All rights reserved. Unless otherwise specified, or required in the context of its implementation, no part of this publication may
be reproduced or utilized otherwise in any form or by any means, electronic or mechanical, including photocopying, or posting on
the internet or an intranet, without prior written permission. Permission can be requested from either ISO at the address below
or ISO’s member body in the country of the requester.
ISO copyright office
CP 401 • Ch. de Blandonnet 8
CH-1214 Vernier, Geneva
Phone: +41 22 749 01 11
Email: copyright@iso.org
Website: www.iso.org
Published in Switzerland
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ISO 21111-6:2021(E)
Contents Page
Foreword . vi
Introduction .vii
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 1
4 Symbols and abbreviated terms.2
4.1 Symbols . 2
4.2 Abbreviated terms . 2
5 Conventions . 4
6 Wake-up and sleep features.4
6.1 Extension of physical coding sub-layer . 4
6.2 Service primitives and interfaces . 6
6.3 Power sequencing states . 7
6.4 Command definitions . 8
6.4.1 General . 8
6.4.2 Low power sleep (LPS) . 8
6.4.3 Wake-up request (WUR) . 9
6.4.4 Wake-up pulse (WUP) . 9
6.5 Generation of scrambling bits Sdn[2:0] . 9
6.6 PCS PHY control state diagram . . 10
7 CTP test system and CTC structure .12
7.1 General .12
7.2 Test system set-up – Transmit test system . 13
7.3 Test system set-up – Receive test system . 14
7.4 CTC structure . 15
8 PHY – Control IUT conformance test plan (with MII access) .16
8.1 PHY – Group 1: PHY control and timers (with MII access) . 16
8.1.1 Overview . 16
8.1.2 CTC_4.1.1 – PMA reset (with MII access) . 16
8.1.3 CTC_4.1.2 – Value of minwait_timer – minwait_timer in TRAINING state
(with MII access) . 17
8.1.4 CTC_4.1.3 – Value of maxwait_timer (with MII access) . 21
8.1.5 CTC_4.1.4 – Value of stabilize_timer (with MII access) .22
8.2 PHY – Group 2: PHY control state diagram (with MII access) . 23
8.2.1 Overview . 23
8.2.2 CTC_4.2.1 – PHY control state diagram - DISABLE TRANSMITTER state (with
MII access) . 23
8.2.3 CTC_4.2.2 – PHY control state diagram - SLAVE SILENT state (with MII
access) . 24
8.2.4 CTC_4.2.3 – PHY control state diagram – TRAINING state (with MII access) .25
8.2.5 CTC_4.2.4 – PHY control state diagram – SEND IDLE state (with MII access) .28
8.2.6 CTC_4.2.5 – PHY control state diagram – SEND IDLE OR DATA state (with
MII access) . 31
8.3 PHY – Group 3: PHY link monitor state diagram (with MII access). 35
8.3.1 Overview . 35
8.3.2 CTC_4.3.1 – Link monitor state diagram – IUT does not enter the LINK OK
state (with MII access).36
9 PCS – IUT conformance test plan (with MII access) .38
9.1 PCS – Group 1: PCS transmit (with MII access).38
9.1.1 Overview .38
9.1.2 CTC_3.1.1 – PCS signalling (with MII access) .39
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ISO 21111-6:2021(E)
9.1.3 CTC_3.1.2 – PCS reset (with MII access) . 41
9.1.4 CTC_3.1.3 – PCS transmit proper SSD (with MII access) . 41
9.1.5 CTC_3.1.4 – PCS transmit proper ESD (with MII access) . 42
9.1.6 CTC_3.1.5 – PCS transmit ESD with tx_error (with MII access). 43
9.1.7 CTC_3.1.6 – PCS transmission of stuff bits (with MII access) .44
9.1.8 CTC_3.1.7 – PCS tx_error (with MII access) .44
9.2 PCS – Group 2: PCS transmit state diagram (with MII access) .46
9.2.1 Overview .46
9.2.2 CTC_3.2.1 – PCS transmit state diagram - SEND IDLE state (with MII access) .46
9.2.3 CTC_3.2.2 – PCS transmit state diagram - SSD1 VECTOR and SSD2 VECTOR
states (with MII access) . 47
9.2.4 CTC_3.2.3 – PCS transmit state diagram - SSD3 VECTOR state (with MII
access) . 47
9.2.5 CTC_3.2.4 – PCS transmit state diagram - TRANSMIT DATA state (with MII
access) .49
9.2.6 CTC_3.2.5 – PCS transmit state diagram - ESD1 VECTOR state (with MII
access) .50
9.2.7 CTC_3.2.6 – PCS transmit state diagram - ESD2 VECTOR state (with MII
access) .50
9.2.8 CTC_3.2.7 – PCS transmit state diagram - ESD3 VECTOR state (with MII
access) . 51
9.2.9 CTC_3.2.8 – PCS transmit state diagram - ERR ESD1 VECTOR state (with MII
access) . 52
9.2.10 CTC_3.2.9 – PCS transmit state diagram - ERR ESD2 VECTOR state (with MII
access) . 53
9.2.11 CTC_3.2.10 – PCS transmit state diagram - ERR ESD3 VECTOR state (with
MII access) .54
9.3 PCS – Group 3: PCS receive (with MII access) .54
9.3.1 Overview .54
9.3.2 CTC_3.3.1 – PCS receive signalling (with MII access) .54
9.3.3 CTC_3.3.2 – PCS automatic polarity detection (with MII access) .55
9.3.4 CTC_3.3.3 – PCS receive SSD (with MII access) .56
9.3.5 CTC_3.3.4 – PCS receive ESD (with MII access) . 57
9.3.6 CTC_3.3.5 – PCS receive ERR ESD3 (with MII access) . 57
9.3.7 CTC_3.3.6 – PCS reception of stuff bits (with MII access) .58
9.3.8 CTC_3.3.7 – PCS de-interleave ternary pairs (with MII access) . 59
9.4 PCS – Group 4: PCS receive state diagram (with MII access) . 59
9.4.1 Overview . 59
9.4.2 CTC_3.4.1 – PCS receive state diagram (with MII access) - IDLE state . 59
9.4.3 CTC_3.4.2 – PCS receive state diagram (with MII access) - CHECK SSD2 state .60
9.4.4 CTC_3.4.3 – PCS receive state diagram (with MII access) - CHECK SSD3 state . 61
9.4.5 CTC_3.4.4 – PCS receive state diagram (with MII access) - SSD state . 61
9.4.6 CTC_3.4.5 – PCS receive state diagram (with MII access) - BAD SSD state . 62
9.4.7 CTC_3.4.6 – PCS receive state diagram (with MII access) - FIRST SSD state .63
9.4.8 CTC_3.4.7 – PCS receive state diagram (with MII access) - SECOND SSD state .64
9.4.9 CTC_3.4.8 – PCS receive state diagram (with MII access) - THIRD SSD state .65
9.4.10 CTC_3.4.9 – PCS receive state diagram (with MII access) - DATA state .65
9.4.11 CTC_3.4.10 – PCS receive state diagram (with MII access) - CHECK ESD2
state .66
9.4.12 CTC_3.4.11 – PCS receive state diagram (with MII access) - CHECK ESD3
state . 67
9.4.13 CTC_3.4.12 – PCS receive state diagram (with MII access) – BAD ESD2 state .68
9.4.14 CTC_3.4.13 – PCS receive state diagram (with MII access) - BAD END and
RX ERROR states . 69
9.5 PCS – Group 5: PCS JAB state diagram (with MII access) . 70
9.5.1 Overview . 70
9.5.2 CTC_3.5.1 – PCS JAB state diagram (with MII access) - rcv_max_timer . 70
10 PMA – IUT requirements and conformance test plan (with MII access) .71
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ISO 21111-6:2021(E)
10.1 PMA – Group 1: PMA electrical measurements (with MII access) . 71
10.1.1 Overview . 71
10.1.2 CTC_5.1.1 – PMA maximum transmitter output droop (with MII access) . 71
10.1.3 CTC_5.1.2 – PMA transmitter distortion (with MII access) .72
10.1.4 CTC_5.1.3 – PMA transmitter timing jitter (with MII access) .73
10.1.5 CTC_5.1.4 – PMA transmitter power spectral density (PSD) (with MII
access) .74
10.1.6 CTC_5.1.5 – PMA transmit clock frequency (with MII access). 76
10.1.7 CTC_5.1.6 – PMA MDI return loss (with MII access) .77
10.1.8 CTC_5.1.7 – PMA MDI mode conversion loss (with MII access) .79
10.1.9 CTC_5.1.8 – PMA transmitter peak differential output (with MII access) .82
10.2 PMA – Group 2: PMA receive tests (with MII access) .83
10.2.1 Group 2 overview.83
10.2.2 CTC_5.2.1 – PMA bit error rate verification (with MII access) .83
10.2.3 CTC_5.2.2 – PMA receiver frequency tolerance (with MII access) .84
10.2.4 CTC_5.2.3 – PMA alien crosstalk noise rejection (with MII access).85
Annex A (informative) PHY control – Test suite .87
Annex B (normative) PCS – Test suite .91
Annex C (normative) PMA – Test system set-ups .110
Bibliography . 123
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ISO 21111-6:2021(E)
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards
bodies (ISO member bodies). The work of preparing International Standards is normally carried out
through ISO technical committees. Each member body interested in a subject for which a technical
committee has been established has the right to be represented on that committee. International
organizations, governmental and non-governmental, in liaison with ISO, also take part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular, the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www.iso.org/directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www.iso.org/patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation of the voluntary nature of standards, the meaning of ISO specific terms and
expressions related to conformity assessment, as well as information about ISO's adherence to
the World Trade Organization (WTO) principles in the Technical Barriers to Trade (TBT), see
www.iso.org/iso/foreword.html.
This document was prepared by Technical Committee ISO/TC 22, Road vehicles, Subcommittee SC 31,
Data communication.
A list of all parts in the ISO 21111 series can be found on the ISO website.
Any feedback or questions on this document should be directed to the user’s national standards body. A
complete listing of these bodies can be found at www.iso.org/members.html.
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ISO 21111-6:2021(E)
Introduction
The ISO 21111 series includes in-vehicle Ethernet requirements and test plans that are disseminated in
other International Standards and complements them with additional test methods and requirements.
The resulting requirement and test plans are structured in different documents following the Open
Systems Interconnection (OSI) reference model and grouping the documents that depend on the
physical media and bit rate used.
In general, the Ethernet requirements are specified in ISO/IEC/IEEE 8802-3. The ISO 21111 series
provides supplemental specifications (e.g. wake-up, I/O functionality), which are required for in-vehicle
Ethernet applications. In road vehicles, Ethernet networks are used for different purposes requiring
different bit-rates. Currently, the ISO 21111 series specifies the 1-Gbit/s optical and 100-Mbit/s
electrical physical layer.
The ISO 21111 series contains requirement specifications and test methods related to the in-vehicle
Ethernet. This includes requirement specifications for physical layer entity (e.g. connectors, physical
layer implementations) providers, device (e.g. electronic control units, gateway units) suppliers, and
system (e.g. network systems) designers. Additionally, there are test methods specified for conformance
testing and for interoperability testing.
Safety (electrical safety, protection, fire, etc.) and electromagnetic compatibility (EMC) requirements
are out of the scope of the ISO 21111 series.
The structure of the specifications given in the ISO 21111 series complies with the Open Systems
[1] [3]
Interconnection (OSI) reference model is specified in ISO/IEC 7498-1 and ISO/IEC 10731 .
ISO 21111-1 defines the terms which are used in this series of standards and provides an overview
of the standards for in-vehicle Ethernet including the complementary relations to ISO/IEC/IEEE 8802-
3 and the amendments, the document structure, type of physical entities, in-vehicle Ethernet specific
functionalities, and so on.
ISO 21111-2 specifies the interface between reconciliation sublayer and physical entity including
reduced gigabit media independent interface (RGMII), and the common physical entity wake-up and
synchronised link sleep functionalities, independent from physical media and bit rate.
ISO 21111-3 specifies supplemental requirements to a physical layer capable of transmitting
1-Gbit/s over plastic optical fibre compliant with ISO/IEC/IEEE 8802-3, with specific application to
communications inside road vehicles, and a test plan for physical entity conformance testing.
[3]
ISO 21111-4 specifies the optical components requirements and test methods for 1-Gbit/s optical in-
vehicle Ethernet.
ISO 21111-5 specifies, for 1-Gbit/s optical in-vehicle Ethernet, requirements on the physical layer at
system level, requirements on the interoperability test set-ups, the interoperability test plan that checks
the requirements for the physical layer at system level, requirements on the device-level physical layer
conformance test set-ups, and device-level physical layer conformance test plan that checks a set of
requirements for the OSI physical layer that are relevant for device vendors.
This document specifies advanced features of an ISO/IEC/IEEE 8802-3 in-vehicle Ethernet physical
layer (often also called transceiver), e.g. for diagnostic purposes for in-vehicle Ethernet physical layers.
It specifies advanced physical layer features, wake-up and sleep features, physical layer test suite,
physical layer control requirements and conformance test plan, physical sublayers test suite, and
physical sublayers requirements and conformance test plan.
ISO 21111-7 specifies the implementation for ISO/IEC/IEEE 8802-3, which defines the interface
implementation for automotive applications together with requirements on components used to realize
this Bus Interface Network (BIN). ISO 21111-7 also defines further testing and system requirements
for systems implemented according to the system specification. In addition, ISO 21111-7 defines
the channels for tests of transceivers with a test wiring harness that simulates various electrical
communication channels.
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ISO 21111-6:2021(E)
ISO 21111-8 specifies the transmission media, the channel performance, and the tests for an ISO/IEC/
IEEE 8802-3 in-vehicle Ethernet.
ISO 21111-9 specifies the data link layer requirements and conformance test plan. It specifies the
requirements and test plan for devices and systems with bridge functionality.
ISO 21111-10 specifies the application to session layer requirements and conformance test plan. It
specifies the requirements and conformance test plan for devices and systems that include functionality
related with OSI layers from 7 to 5.
ISO 21111-11 specifies the transport to network layer requirements and conformance test plan. It
specifies the requirements and conformance test plan for devices and systems that include functionality
related with OSI layers from 4 and 3.
Figure 1 shows the parts of the ISO 21111 series and the document structure.
Figure 1 — In-vehicle Ethernet document reference according to OSI model
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INTERNATIONAL STANDARD ISO 21111-6:2021(E)
Road vehicles — In-vehicle Ethernet —
Part 6:
Electrical 100-Mbit/s physical entity requirements and
conformance test plan
1 Scope
This document specifies advanced features of an ISO/IEC/IEEE 8802-3 automotive Ethernet PHY (often
also called transceiver), e.g. for diagnostic purposes for automotive Ethernet PHYs.
This document specifies:
— advanced PHY features;
— wake-up and sleep features;
— PHY test suite;
— PHY control IUT requirements and conformance test plan;
— PCS test suite;
— PCS IUT requirements and conformance test plan;
— PMA test suite; and
— PMA IUT requirements and conformance test plan.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements of this document. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any amendments) applies.
ISO/IEC 9646-1, Information technology — Open Systems Interconnection — Conformance testing
methodology and framework — Part 1: General concepts
ISO 21111-1, Road vehicles — In-vehicle Ethernet — Part 1: General information and definitions
ISO 21111-2, Road vehicles — In-vehicle Ethernet — Part 2: Common physical entity requirements
ISO/IEC/IEEE 8802-3:2021, Telecommunications and exchange between information technology systems
— Requirements for local and metropolitan area networks — Part 3: Standard for Ethernet
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO 21111-1, ISO/IEC 9646-1 and
the following apply.
ISO and IEC maintain terminology databases for use in standardization at the following addresses:
— ISO Onlin
...

FINAL
INTERNATIONAL ISO/FDIS
DRAFT
STANDARD 21111-6
ISO/TC 22/SC 31
Road vehicles — In-vehicle Ethernet —
Secretariat: DIN
Voting begins on:
Part 6:
2021-08-12
Electrical 100-Mbit/s physical entity
Voting terminates on:
requirements and conformance test
2021-10-07
plan
Véhicules routiers — Ethernet embarqué —
Partie 6: Exigences et plan de tests de conformité de l’entité physique
à 100-Mbit/s électrique
RECIPIENTS OF THIS DRAFT ARE INVITED TO
SUBMIT, WITH THEIR COMMENTS, NOTIFICATION
OF ANY RELEVANT PATENT RIGHTS OF WHICH
THEY ARE AWARE AND TO PROVIDE SUPPOR TING
DOCUMENTATION.
IN ADDITION TO THEIR EVALUATION AS
Reference number
BEING ACCEPTABLE FOR INDUSTRIAL, TECHNO-
ISO/FDIS 21111-6:2021(E)
LOGICAL, COMMERCIAL AND USER PURPOSES,
DRAFT INTERNATIONAL STANDARDS MAY ON
OCCASION HAVE TO BE CONSIDERED IN THE
LIGHT OF THEIR POTENTIAL TO BECOME STAN-
DARDS TO WHICH REFERENCE MAY BE MADE IN
©
NATIONAL REGULATIONS. ISO 2021

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ISO/FDIS 21111-6:2021(E)

COPYRIGHT PROTECTED DOCUMENT
© ISO 2021
All rights reserved. Unless otherwise specified, or required in the context of its implementation, no part of this publication may
be reproduced or utilized otherwise in any form or by any means, electronic or mechanical, including photocopying, or posting
on the internet or an intranet, without prior written permission. Permission can be requested from either ISO at the address
below or ISO’s member body in the country of the requester.
ISO copyright office
CP 401 • Ch. de Blandonnet 8
CH-1214 Vernier, Geneva
Phone: +41 22 749 01 11
Email: copyright@iso.org
Website: www.iso.org
Published in Switzerland
ii © ISO 2021 – All rights reserved

---------------------- Page: 2 ----------------------
ISO/FDIS 21111-6:2021(E)

Contents Page
Foreword .vi
Introduction .vii
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 1
4 Symbols and abbreviated terms . 2
4.1 Symbols . 2
4.2 Abbreviated terms . 2
5 Conventions . 4
6 Wake-up and sleep features . 4
6.1 Extension of physical coding sub-layer . 4
6.2 Service primitives and interfaces . 6
6.3 Power sequencing states . 7
6.4 Command definitions . 8
6.4.1 General. 8
6.4.2 Low power sleep (LPS). 9
6.4.3 Wake-up request (WUR) . 9
6.4.4 Wake-up pulse (WUP) . 9
6.5 Generation of scrambling bits Sdn[2:0] .9
6.6 PCS PHY control state diagram .10
7 CTP test system and CTC structure .12
7.1 General .12
7.2 Test system set-up – Transmit test system .13
7.3 Test system set-up – Receive test system .14
7.4 CTC structure .15
8 PHY – Control IUT conformance test plan (with MII access) .16
8.1 PHY – Group 1: PHY control and timers (with MII access) .16
8.1.1 Overview .16
8.1.2 CTC_4.1.1 – PMA reset (with MII access) .16
8.1.3 CTC_4.1.2 – Value of minwait_timer – minwait_timer in TRAINING state
(with MII access).17
8.1.4 CTC_4.1.3 – Value of maxwait_timer (with MII access) .21
8.1.5 CTC_4.1.4 – Value of stabilize_timer (with MII access) .22
8.2 PHY – Group 2: PHY control state diagram (with MII access) .23
8.2.1 Overview .23
8.2.2 CTC_4.2.1 – PHY control state diagram - DISABLE TRANSMITTER state (with
MII access) .23
8.2.3 CTC_4.2.2 – PHY control state diagram - SLAVE SILENT state (with MII access) .24
8.2.4 CTC_4.2.3 – PHY control state diagram – TRAINING state (with MII access).25
8.2.5 CTC_4.2.4 – PHY control state diagram – SEND IDLE state (with MII access) .28
8.2.6 CTC_4.2.5 – PHY control state diagram – SEND IDLE OR DATA state (with
MII access) .31
8.3 PHY – Group 3: PHY link monitor state diagram (with MII access) .35
8.3.1 Overview .35
8.3.2 CTC_4.3.1 – Link monitor state diagram – IUT does not enter the LINK OK
state (with MII access) .36
9 PCS – IUT conformance test plan (with MII access) .38
9.1 PCS – Group 1: PCS transmit (with MII access) .38
9.1.1 Overview .38
9.1.2 CTC_3.1.1 – PCS signalling (with MII access) .39
9.1.3 CTC_3.1.2 – PCS reset (with MII access) .41
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ISO/FDIS 21111-6:2021(E)

9.1.4 CTC_3.1.3 – PCS transmit proper SSD (with MII access) .41
9.1.5 CTC_3.1.4 – PCS transmit proper ESD (with MII access) .42
9.1.6 CTC_3.1.5 – PCS transmit ESD with tx_error (with MII access) .43
9.1.7 CTC_3.1.6 – PCS transmission of stuff bits (with MII access) .44
9.1.8 CTC_3.1.7 – PCS tx_error (with MII access).44
9.2 PCS – Group 2: PCS transmit state diagram (with MII access) .46
9.2.1 Overview .46
9.2.2 CTC_3.2.1 – PCS transmit state diagram - SEND IDLE state (with MII access) .46
9.2.3 CTC_3.2.2 – PCS transmit state diagram - SSD1 VECTOR and SSD2 VECTOR
states (with MII access) .47
9.2.4 CTC_3.2.3 – PCS transmit state diagram - SSD3 VECTOR state (with MII access) .47
9.2.5 CTC_3.2.4 – PCS transmit state diagram - TRANSMIT DATA state (with MII
access) .49
9.2.6 CTC_3.2.5 – PCS transmit state diagram - ESD1 VECTOR state (with MII access) .50
9.2.7 CTC_3.2.6 – PCS transmit state diagram - ESD2 VECTOR state (with MII access) .50
9.2.8 CTC_3.2.7 – PCS transmit state diagram - ESD3 VECTOR state (with MII access) .51
9.2.9 CTC_3.2.8 – PCS transmit state diagram - ERR ESD1 VECTOR state (with MII
access) .52
9.2.10 CTC_3.2.9 – PCS transmit state diagram - ERR ESD2 VECTOR state (with MII
access) .53
9.2.11 CTC_3.2.10 – PCS transmit state diagram - ERR ESD3 VECTOR state (with
MII access) .53
9.3 PCS – Group 3: PCS receive (with MII access) .54
9.3.1 Overview .54
9.3.2 CTC_3.3.1 – PCS receive signalling (with MII access) .54
9.3.3 CTC_3.3.2 – PCS automatic polarity detection (with MII access) .55
9.3.4 CTC_3.3.3 – PCS receive SSD (with MII access) .56
9.3.5 CTC_3.3.4 – PCS receive ESD (with MII access) .57
9.3.6 CTC_3.3.5 – PCS receive ERR ESD3 (with MII access) .57
9.3.7 CTC_3.3.6 – PCS reception of stuff bits (with MII access) .58
9.3.8 CTC_3.3.7 – PCS de-interleave ternary pairs (with MII access) .59
9.4 PCS – Group 4: PCS receive state diagram (with MII access) .59
9.4.1 Overview .59
9.4.2 CTC_3.4.1 – PCS receive state diagram (with MII access) - IDLE state .59
9.4.3 CTC_3.4.2 – PCS receive state diagram (with MII access) - CHECK SSD2 state .60
9.4.4 CTC_3.4.3 – PCS receive state diagram (with MII access) - CHECK SSD3 state .61
9.4.5 CTC_3.4.4 – PCS receive state diagram (with MII access) - SSD state .61
9.4.6 CTC_3.4.5 – PCS receive state diagram (with MII access) - BAD SSD state .62
9.4.7 CTC_3.4.6 – PCS receive state diagram (with MII access) - FIRST SSD state .63
9.4.8 CTC_3.4.7 – PCS receive state diagram (with MII access) - SECOND SSD state .64
9.4.9 CTC_3.4.8 – PCS receive state diagram (with MII access) - THIRD SSD state .65
9.4.10 CTC_3.4.9 – PCS receive state diagram (with MII access) - DATA state . .66
9.4.11 CTC_3.4.10 – PCS receive state diagram (with MII access) - CHECK ESD2 state .66
9.4.12 CTC_3.4.11 – PCS receive state diagram (with MII access) - CHECK ESD3 state .67
9.4.13 CTC_3.4.12 – PCS receive state diagram (with MII access) – BAD ESD2 state .68
9.4.14 CTC_3.4.13 – PCS receive state diagram (with MII access) - BAD END and
RX ERROR states .69
9.5 PCS – Group 5: PCS JAB state diagram (with MII access) .70
9.5.1 Overview .70
9.5.2 CTC_3.5.1 – PCS JAB state diagram (with MII access) - rcv_max_timer .70
10 PMA – IUT requirements and conformance test plan (with MII access) .71
10.1 PMA – Group 1: PMA electrical measurements (with MII access) .71
10.1.1 Overview .71
10.1.2 CTC_5.1.1 – PMA maximum transmitter output droop (with MII access).71
10.1.3 CTC_5.1.2 – PMA transmitter distortion (with MII access) .72
10.1.4 CTC_5.1.3 – PMA transmitter timing jitter (with MII access) .73
10.1.5 CTC_5.1.4 – PMA transmitter power spectral density (PSD) (with MII access) .74
10.1.6 CTC_5.1.5 – PMA transmit clock frequency (with MII access).76
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ISO/FDIS 21111-6:2021(E)

10.1.7 CTC_5.1.6 – PMA MDI return loss (with MII access) .77
10.1.8 CTC_5.1.7 – PMA MDI mode conversion loss (with MII access) .79
10.1.9 CTC_5.1.8 – PMA transmitter peak differential output (with MII access) .82
10.2 PMA – Group 2: PMA receive tests (with MII access) .83
10.2.1 Group 2 overview .83
10.2.2 CTC_5.2.1 – PMA bit error rate verification (with MII access) .83
10.2.3 CTC_5.2.2 – PMA receiver frequency tolerance (with MII access) .84
10.2.4 CTC_5.2.3 – PMA alien crosstalk noise rejection (with MII access) .85
Annex A (informative) PHY control – Test suite .87
Annex B (normative) PCS – Test suite .91
Annex C (normative) PMA – Test system set-ups .110
Bibliography .124
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ISO/FDIS 21111-6:2021(E)

Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards
bodies (ISO member bodies). The work of preparing International Standards is normally carried out
through ISO technical committees. Each member body interested in a subject for which a technical
committee has been established has the right to be represented on that committee. International
organizations, governmental and non-governmental, in liaison with ISO, also take part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular, the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www .iso .org/ directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www .iso .org/ patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation of the voluntary nature of standards, the meaning of ISO specific terms and
expressions related to conformity assessment, as well as information about ISO's adherence to the
World Trade Organization (WTO) principles in the Technical Barriers to Trade (TBT), see www .iso .org/
iso/ foreword .html.
This document was prepared by Technical Committee ISO/TC 22, Road vehicles, Subcommittee SC 31,
Data communication.
A list of all parts in the ISO 21111 series can be found on the ISO website.
Any feedback or questions on this document should be directed to the user’s national standards body. A
complete listing of these bodies can be found at www .iso .org/ members .html.
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ISO/FDIS 21111-6:2021(E)

Introduction
The ISO 21111 series includes in-vehicle Ethernet requirements and test plans that are disseminated in
other International Standards and complements them with additional test methods and requirements.
The resulting requirement and test plans are structured in different documents following the Open
Systems Interconnection (OSI) reference model and grouping the documents that depend on the
physical media and bit rate used.
In general, the Ethernet requirements are specified in ISO/IEC/IEEE 8802-3. The ISO 21111 series
provides supplemental specifications (e.g. wake-up, I/O functionality), which are required for in-vehicle
Ethernet applications. In road vehicles, Ethernet networks are used for different purposes requiring
different bit-rates. Currently, the ISO 21111 series specifies the 1-Gbit/s optical and 100-Mbit/s
electrical physical layer.
The ISO 21111 series contains requirement specifications and test methods related to the in-vehicle
Ethernet. This includes requirement specifications for physical layer entity (e.g. connectors, physical
layer implementations) providers, device (e.g. electronic control units, gateway units) suppliers, and
system (e.g. network systems) designers. Additionally, there are test methods specified for conformance
testing and for interoperability testing.
Safety (electrical safety, protection, fire, etc.) and electromagnetic compatibility (EMC) requirements
are out of the scope of the ISO 21111 series.
The structure of the specifications given in the ISO 21111 series complies with the Open Systems
[1] [3]
Interconnection (OSI) reference model is specified in ISO/IEC 7498-1 and ISO/IEC 10731 .
ISO 21111-1 defines the terms which are used in this series of standards and provides an overview of
the standards for in-vehicle Ethernet including the complementary relations to ISO/IEC/IEEE 8802-3
and the amendments, the document structure, type of physical entities, in-vehicle Ethernet specific
functionalities, and so on.
ISO 21111-2 specifies the interface between reconciliation sublayer and physical entity including
reduced gigabit media independent interface (RGMII), and the common physical entity wake-up and
synchronised link sleep functionalities, independent from physical media and bit rate.
ISO 21111-3 specifies supplemental requirements to a physical layer capable of transmitting
1-Gbit/s over plastic optical fibre compliant with ISO/IEC/IEEE 8802-3, with specific application to
communications inside road vehicles, and a test plan for physical entity conformance testing.
[3]
ISO 21111-4 specifies the optical components requirements and test methods for 1-Gbit/s optical in-
vehicle Ethernet.
ISO 21111-5 specifies, for 1-Gbit/s optical in-vehicle Ethernet, requirements on the physical layer at
system level, requirements on the interoperability test set-ups, the interoperability test plan that checks
the requirements for the physical layer at system level, requirements on the device-level physical layer
conformance test set-ups, and device-level physical layer conformance test plan that checks a set of
requirements for the OSI physical layer that are relevant for device vendors.
This document specifies advanced features of an ISO/IEC/IEEE 8802-3 in-vehicle Ethernet physical
layer (often also called transceiver), e.g. for diagnostic purposes for in-vehicle Ethernet physical layers.
It specifies advanced physical layer features, wake-up and sleep features, physical layer test suite,
physical layer control requirements and conformance test plan, physical sublayers test suite, and
physical sublayers requirements and conformance test plan.
ISO 21111-7 specifies the implementation for ISO/IEC/IEEE 8802-3, which defines the interface
implementation for automotive applications together with requirements on components used to realize
this Bus Interface Network (BIN). ISO 21111-7 also defines further testing and system requirements
for systems implemented according to the system specification. In addition, ISO 21111-7 defines
the channels for tests of transceivers with a test wiring harness that simulates various electrical
communication channels.
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ISO/FDIS 21111-6:2021(E)

ISO 21111-8 specifies the transmission media, the channel performance, and the tests for an
ISO/IEC/IEEE 8802-3 in-vehicle Ethernet.
ISO 21111-9 specifies the data link layer requirements and conformance test plan. It specifies the
requirements and test plan for devices and systems with bridge functionality.
ISO 21111-10 specifies the application to session layer requirements and conformance test plan. It
specifies the requirements and conformance test plan for devices and systems that include functionality
related with OSI layers from 7 to 5.
ISO 21111-11 specifies the transport to network layer requirements and conformance test plan. It
specifies the requirements and conformance test plan for devices and systems that include functionality
related with OSI layers from 4 and 3.
Figure 1 shows the parts of the ISO 21111 series and the document structure.
Figure 1 — In-vehicle Ethernet document reference according to OSI model
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FINAL DRAFT INTERNATIONAL STANDARD ISO/FDIS 21111-6:2021(E)
Road vehicles — In-vehicle Ethernet —
Part 6:
Electrical 100-Mbit/s physical entity requirements and
conformance test plan
1 Scope
This document specifies advanced features of an ISO/IEC/IEEE 8802-3 automotive Ethernet PHY (often
also called transceiver), e.g. for diagnostic purposes for automotive Ethernet PHYs.
This document specifies:
— advanced PHY features;
— wake-up and sleep features;
— PHY test suite;
— PHY control IUT requirements and conformance test plan;
— PCS test suite;
— PCS IUT requirements and conformance test plan;
— PMA test suite; and
— PMA IUT requirements and conformance test plan.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements of this document. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any amendments) applies.
ISO/IEC 9646-1, Information technology — Open Systems Interconnection — Conformance testing
methodology and framework — Part 1: General concepts
ISO 21111-1, Road vehicles — In-vehicle Ethernet — Part 1: General information and definitions
ISO 21111-2, Road vehicles — In-vehicle Ethernet — Part 2: Common physical entity requirements
ISO/IEC/IEEE 8802-3:2021, Telecommunications and exchange between information technology
systems — Requirements for local and metropolitan area networks — Part 3: Standard for Ethernet
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO 21111-1, ISO/IEC 9646-1 and
the following apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— ISO Online browsing platform: available at https:// www .iso .org/ obp
— IEC Electropedia: available at http:// www .electropedia .org/
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ISO/FDIS 21111-6:2021(E)

3.1
automotive cable
balanced 100-Ω one pair cable having characteristics defined in ISO/IEC/IEEE 8802-3:2021, 96.7
physical layer specifications and management parameters for 100-Mbit/s operation over a single
balanced twisted pair cable
3.2
short automotive cable
cable complying with automotive cable (3.1) used for test purposes and limited in length to reduce the
amount of loss between the IUT transmitter and test and measurement equipment
3.3
PHY frame
normal data transmission consisting of SEND_N code groups defined in ISO/IEC/IEEE 8802-3:2021,
96.3.3.3.7 and which begins with a valid start-of-stream delimiter (SSD) and ends w
...

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