IEC 61158-4-13:2014

IEC 61158-4-13 ®
Edition 2.0 2014-08
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
Industrial communication networks – Fieldbus specifications –
Part 4-13: Data-link layer protocol specification – Type 13 elements

Réseaux de communication industriels – Spécifications des bus de terrain –
Partie 4-13: Spécification du protocole de la couche liaison de données –
Éléments de type 13
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IEC 61158-4-13 ®
Edition 2.0 2014-08
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
Industrial communication networks – Fieldbus specifications –

Part 4-13: Data-link layer protocol specification – Type 13 elements

Réseaux de communication industriels – Spécifications des bus de terrain –

Partie 4-13: Spécification du protocole de la couche liaison de données –

Éléments de type 13
INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
COMMISSION
ELECTROTECHNIQUE
PRICE CODE
INTERNATIONALE
CODE PRIX XC
ICS 25.040.40; 35.100.20; 35.110 ISBN 978-2-8322-1725-2

– 2 – IEC 61158-4-13:2014 © IEC 2014
CONTENTS
FOREWORD . 5
INTRODUCTION . 7
1 Scope . 8
1.1 General . 8
1.2 Specifications . 8
1.3 Procedures . 8
1.4 Applicability . 9
1.5 Conformance . 9
2 Normative references . 9
3 Terms, definitions, symbols, abbreviations and conventions . 9
3.1 Reference model terms and definitions . 9
3.2 Service convention terms and definitions . 11
3.3 Data-link service terms and definitions . 12
3.4 Symbols and abbreviations . 16
3.5 Common conventions . 17
3.6 Additional conventions . 18
4 Overview of the DL-protocol . 18
4.1 Overview . 18
4.2 General description . 18
4.3 Service assumed from the PhL . 21
4.4 DLL architecture . 22
4.5 Local parameters and variables . 23
5 General structure and encoding of PhPDUs and DLPDU and related elements of
procedure . 26
5.1 Overview . 26
5.2 MA_PDU structure and encoding . 26
5.3 Common MAC frame structure, encoding and elements of procedure . 26
5.4 Invalid DLPDU . 28
6 DLPDU-specific structure, encoding and elements of procedure . 29
6.1 General . 29
6.2 Overview . 29
6.3 Start of synchronization (SoC) . 29
6.4 PollRequest (PReq) . 31
6.5 Poll response (PRes) . 34
6.6 Start of asynchronous (SoA) . 37
6.7 Asynchronous send (ASnd) . 41
7 DLE elements of procedure . 45
7.1 Overall structure . 45
7.2 Cycle state machine (CSM) . 45
7.3 Isochronous transmission TX/RX control (ITC) . 64
7.4 Asynchronous transmission TX/RX control (ATC) . 69
7.5 Asynchronous slot scheduler (ASS) . 74
7.6 Exception signaling (ES) . 75
7.7 NMT signaling (NS) . 78
7.8 DLL management protocol . 79
Bibliography . 83

Figure 1 – Relationships of DLSAPs, DLSAP-addresses and group DL-addresses . 14
Figure 2 – Slot communication network management . 19
Figure 3 – Overall flow of data frames during one cycle . 19
Figure 4 – Interaction of PhS primitives to DLE . 21
Figure 5 – Data-link layer internal architecture . 23
Figure 6 – Type 13 fieldbus DLPDU . 26
Figure 7 – State transition diagram of the MNs CSM . 51
Figure 8 – State transition diagram of MNs CSM at CSM_MS_NON_CYCLIC . 53
Figure 9 – State transition diagram of MNs CSM at CSM_MS_CYCLIC . 55
Figure 10 – State transition diagram of the CNs CSM . 59
Figure 11 – State transition diagram of CNs CSM at CSM_CS_NON_CYCLIC . 60
Figure 12 – State transition diagram of CNs CSM at CSM_CS_CYCLIC . 61
Figure 13 – Multiple slot assignment example . 65
Figure 14 – Time triggered PRes example . 67
Figure 15 – State transition diagram of ITC . 68
Figure 16 – State transition diagram of ATC . 71
Figure 17 – State transition diagram of ASS . 74
Figure 18 – State transition diagram of ES . 77
Figure 19 – State transition diagram of NS. 79
Figure 20 – State transition diagram of DLM . 81

Table 1 – Data-link layer components . 22
Table 2 – MAC multicast addresses . 27
Table 3 – Message types . 27
Table 4 – Node ID assignment . 28
Table 5 – Structure of SoC DLPDU . 30
Table 6 – Structure of SoC-Flag . 30
Table 7 – Structure of PReq DLPDU . 32
Table 8 – Structure of PReq-Flag . 33
Table 9 – Structure of PRes DLPDU . 34
Table 10 – Structure of PRes-Flag . 35
Table 11 – Structure of SoA DLPDU . 38
Table 12 – Structure of SoA-Flag . 38
Table 13 – Definition of the RequestedServiceID in the SoA DLPDU. 39
Table 14 – Structure of ASnd DLPDU . 42
Table 15 – Definition of the ServiceID in the ASnd DLPDU . 42
Table 16 – Structure of NMTRequest user data. 43
Table 17 – Primitives exchanged between CSM and ITC . 46
Table 18 – Parameters used with primitives exchanged between CSM and ITC . 46
Table 19 – Primitives exchanged between CSM and ATC . 47
Table 20 – Parameters used with primitives exchanged between CSM and ATC . 47
Table 21 – Primitives exchanged between CSM and ASS . 48

– 4 – IEC 61158-4-13:2014 © IEC 2014
Table 22 – Parameters used with primitives exchanged between CSM and ASS . 48
Table 23 – Primitives exchanged between CSM and ES . 49
Table 24 – Parameters used with primitives exchanged between CSM and ES . 49
Table 25 – Primitives exchanged between CSM and NS . 49
Table 26 – Parameters used with primitives exchanged between CSM and NS . 50
Table 27 – Primitives exchanged between CSM and DLM . 50
Table 28 – Parameters used with primitives exchanged between CSM and DLM . 50
Table 29 – Transitions of the MNs CSM . 52
Table 30 – Transitions of MNs CSM at CSM_MS_NON_CYCLIC . 53
Table 31 – Transitions of MNs CSM at CSM_MS_CYCLIC . 56
Table 32 – Transitions of the CNs CSM . 59
Table 33 – Transitions of CNs CSM at CSM_CS_NON_CYCLIC . 60
Table 34 – Transitions of CNs CSM at CSM_CS_CYCLIC . 61
Table 35 – CSM function table . 63
Table 36 – Example of isochronous slot assignment . 66
Table 37 – Primitives exchanged between ITC and DLS-user . 67
Table 38 – Parameters used with primitives exchanged between ITC and DLS-user . 68
Table 39 – Transitions of ITC . 68
Table 40 – ITC function table . 69
Table 41 – Primitives exchanged between ATC and DLS-user . 69
Table 42 – Parameters used with primitives exchanged between ATC and DLS-user . 70
Table 43 – Primitives exchanged between ATC and ES . 71
Table 44 – Parameters used with primitives exchanged between ATC and ES . 71
Table 45 – Transitions of ATC . 72
Table 46 – ATC function table . 74
Table 47 – Transitions of ASS . 75
Table 48 – ASS function table . 75
Table 49 – Primitives exchanged between ES and DLS-user . 76
Table 50 – Parameters used with primitives exchanged between ES and DLS-user . 76
Table 51 – Transitions of ES . 77
Table 52 – Primitives exchanged between NS and DLS-user . 78
Table 53 – Parameters used with primitives exchanged between NS and DLS-user . 78
Table 54 – Transitions of NS . 79
Table 55 – Primitives exchanged between DLM and DLS-user . 79
Table 56 – Parameters used with primitives exchanged between DLM and DLS-user. 80
Table 57 – Transitions of DLM . 81
Table 58 – DLM function table . 82

INTERNATIONAL ELECTROTECHNICAL COMMISSION
____________
INDUSTRIAL COMMUNICATION NETWORKS –
FIELDBUS SPECIFICATIONS –
Part 4-13: Data-link layer protocol specification –
Type 13 elements
FOREWORD
1) The International Electrotechnical Commission (IEC) is a worldwide organization for standardization comprising
all national electrotechnical committees (IEC National Committees). The object of IEC is to promote
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2) The formal decisions or agreements of IEC on technical matters express, as nearly as possible, an international
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between any IEC Publication and the corresponding national or regional publication shall be clearly indicated in
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5) IEC itself does not provide any attestation of conformity. Independent certification bodies provide conformity
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6) All users should ensure that they have the latest edition of this publication.
7) No liability shall attach to IEC or its directors, employees, servants or agents including individual experts and
members of its technical committees and IEC National Committees for any personal injury, property damage or
other damage of any nature whatsoever, whether direct or indirect, or for costs (including legal fees) and
expenses arising out of the publication, use of, or reliance upon, this IEC Publication or any other IEC
Publications.
8) Attention is drawn to the Normative references cited in this publication. Use of the referenced publications is
indispensable for the correct application of this publication.
9) Attention is drawn to the possibility that some of the elements of this IEC Publication may be the subject of
patent rights. IEC shall not be held responsible for identifying any or all such patent rights.
Attention is drawn to the fact that the use of the associated protocol type is restricted by its
intellectual-property-right holders. In all cases, the commitment to limited release of
intellectual-property-rights made by the holders of those rights permits a layer protocol type to
be used with other layer protocols of the same type, or in other type combinations explicitly
authorized by its intellectual-property-right holders.
NOTE Combinations of protocol types are specified in IEC 61784-1 and IEC 61784-2.
International Standard IEC 61158-4-13 has been prepared by subcommittee 65C: Industrial
networks, of IEC technical committee 65: Industrial-process measurement, control and
automation.
This second edition cancels and replaces the first edition published in 2007. This edition
constitutes a technical revision. The main changes with respect to the previous edition are
listed below:
– 6 – IEC 61158-4-13:2014 © IEC 2014
• addition of a new communication class,
• corrections and
• editorial improvements.
The text of this standard is based on the following documents:
FDIS Report on voting
65C/762/FDIS 65C/772/RVD
Full information on the voting for the approval of this standard can be found in the report on
voting indicated in the above table.
This publication has been drafted in accordance with ISO/IEC Directives, Part 2.
A list of all the parts of the IEC 61158 series, under the general title Industrial communication
networks – Fieldbus specifications, can be found on the IEC web site.
The committee has decided that the contents of this publication will remain unchanged until
the stability date indicated on the IEC web site under http://webstore.iec.ch in the data related
to the specific publication. At this date, the publication will be:
• reconfirmed;
• withdrawn;
• replaced by a revised edition, or
• amended.
INTRODUCTION
This part of IEC 61158 is one of a series produced to facilitate the interconnection of
automation system components. It is related to other standards in the set as defined by the
“three-layer” fieldbus reference model described in IEC 61158-1.
The data-link protocol provides the data-link service by making use of the services available
from the physical layer. The primary aim of this standard is to provide a set of rules for
communication expressed in terms of the procedures to be carried out by peer data-link
entities (DLEs) at the time of communication. These rules for communication are intended to
provide a sound basis for development in order to serve a variety of purposes:
a) as a guide for implementors and designers;
b) for use in the testing and procurement of equipment;
c) as part of an agreement for the admittance of systems into the open systems environment;
d) as a refinement to the understanding of time-critical communications within OSI.
This standard is concerned, in particular, with the communication and interworking of sensors,
effectors and other automation devices. By using this standard together with other standards
positioned within the OSI or fieldbus reference models, otherwise incompatible systems may
work together in any combination.

– 8 – IEC 61158-4-13:2014 © IEC 2014
INDUSTRIAL COMMUNICATION NETWORKS –
FIELDBUS SPECIFICATIONS –
Part 4-13: Data-link layer protocol specification –
Type 13 elements
1 Scope
1.1 General
The data-link layer provides basic time-critical messaging communications between devices in
an automation environment.
This protocol provides communication opportunities to all participating data-link entities
a) in a synchronously-starting cyclic manner, according to a pre-established schedule, and
b) in a cyclic or acyclic asynchronous manner, as requested each cycle by each of those
data-link entities.
Thus this protocol can be characterized as one which provides cyclic and acyclic access
asynchronously but with a synchronous restart of each cycle.
1.2 Specifications
This standard specifies
a) procedures for the timely transfer of data and control information from one data-link user
entity to a peer user entity, and among the data-link entities forming the distributed data-
link service provider;
b) procedures for giving communications opportunities to all participating DL-entities,
sequentially and in a cyclic manner for deterministic and synchronized transfer at cyclic
intervals up to one millisecond;
c) procedures for giving communication opportunities available for time-critical data
transmission together with non-time-critical data transmission without prejudice to the
time-critical data transmission;
d) procedures for giving cyclic and acyclic communication opportunities for time-critical data
transmission with prioritized access;
e) procedures for giving communication opportunities based on ISO/IEC 8802-3 medium
access control, with provisions for nodes to be added or removed during normal operation;
f) the structure of the fieldbus DLPDUs used for the transfer of data and control information
by the protocol of this standard, and their representation as physical interface data units.
1.3 Procedures
The procedures are defined in terms of
a) the interactions between peer DL-entities (DLEs) through the exchange of fieldbus
DLPDUs;
b) the interactions between a DL-service (DLS) provider and a DLS-user in the same system
through the exchange of DLS primitives;
c) the interactions between a DLS-provider and a Ph-service provider in the same system
through the exchange of Ph-service primitives.

1.4 Applicability
These procedures are applicable to instances of communication between systems which
support time-critical communications services within the data-link layer of the OSI or fieldbus
reference models, and which require the ability to interconnect in an open systems
interconnection environment.
Profiles provide a simple multi-attribute means of summarizing an implementation’s
capabilities, and thus its applicability to various time-critical communications needs.
1.5 Conformance
This standard also specifies conformance requirements for systems implementing these
procedures. This standard does not contain tests to demonstrate compliance with such
requirements.
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and
are indispensable for its application. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any
amendments) applies.
IEC 61588, Precision clock synchronization protocol for networked measurement and control
systems
ISO/IEC 7498-1, Information technology – Open Systems Interconnection – Basic Reference
Model: The Basic Model
ISO/IEC 7498-3, Information technology – Open Systems Interconnection – Basic Reference
Model: Naming and addressing
ISO/IEC 8802-3:2000, Information technology – Telecommunications and information
exchange between systems – Local and metropolitan area networks – Specific requirements –
Part 3: Carrier sense multiple access with collision detection (CSMA/CD) access method and
physical layer specifications
ISO/IEC 10731, Information technology – Open Systems Interconnection – Basic Reference
Model – Conventions for the definition of OSI services
3 Terms, definitions, symbols, abbreviations and conventions
For the purposes of this document, the following terms, definitions, symbols, abbreviations
and conventions apply.
3.1 Reference model terms and definitions
This standard is based in part on the concepts developed in ISO/IEC 7498-1 and
ISO/IEC 7498-3, and makes use of the following terms defined therein:

– 10 – IEC 61158-4-13:2014 © IEC 2014
3.1.1 DL-address [7498-3]
3.1.2 DL-address-mapping [7498-1]
3.1.3 called-DL-address [7498-3]
3.1.4 calling-DL-address [7498-3]
3.1.5 centralized multi-end-point-connection [7498-1]
3.1.6 DL-connection [7498-1]
3.1.7 DL-connection-end-point [7498-1]
3.1.8 DL-connection-end-point-identifier [7498-1]
3.1.9 DL-connection-mode transmission [7498-1]
3.1.10 DL-connectionless-mode transmission [7498-1]
3.1.11 correspondent (N)-entities [7498-1]
correspondent DL-entities  (N=2)
correspondent Ph-entities  (N=1)
3.1.12 DL-duplex-transmission [7498-1]
3.1.13 (N)-entity [7498-1]
DL-entity  (N=2)
Ph-entity  (N=1)
3.1.14 DL-facility [7498-1]
3.1.15 flow control [7498-1]
3.1.16 (N)-layer [7498-1]
DL-layer  (N=2)
Ph-layer  (N=1)
3.1.17 layer-management [7498-1]
3.1.18 DL-local-view [7498-3]
3.1.19 DL-name [7498-3]
3.1.20 naming-(addressing)-domain
[7498-3]
3.1.21 peer-entities [7498-1]
3.1.22 primitive name [7498-3]
3.1.23 DL-protocol [7498-1]
3.1.24 DL-protocol-connection-identifier [7498-1]
3.1.25 DL-protocol-data-unit [7498-1]
3.1.26 DL-relay [7498-1]
3.1.27 reset [7498-1]
3.1.28 responding-DL-address [7498-3]
3.1.29 routing [7498-1]
3.1.30 segmenting [7498-1]
3.1.31 (N)-service [7498-1]
DL-service  (N=2)
Ph-service  (N=1)
3.1.32 (N)-service-access-point [7498-1]
DL-service-access-point  (N=2)
Ph-service-access-point  (N=1)
3.1.33 DL-service-access-point-address [7498-3]
3.1.34 DL-service-connection-identifier [7498-1]
3.1.35 DL-service-data-unit [7498-1]
3.1.36 DL-simplex-transmission [7498-1]
3.1.37 DL-subsystem [7498-1]
3.1.38 systems-management [7498-1]
3.1.39 DLS-user-data [7498-1]
3.2 Service convention terms and definitions
This standard also makes use of the following terms defined in ISO/IEC 10731 as they apply
to the data-link layer:
3.2.1 acceptor
3.2.2 asymmetrical service
3.2.3 confirm (primitive);
requestor.deliver (primitive)
3.2.4 deliver (primitive)
3.2.5 DL-confirmed-facility
3.2.6 DL-facility
3.2.7 DL-local-view
3.2.8 DL-mandatory-facility
3.2.9 DL-non-confirmed-facility
3.2.10 DL-provider-initiated-facility
3.2.11 DL-provider-optional-facility
3.2.12 DL-service-primitive;
primitive
3.2.13 DL-service-provider
3.2.14 DL-service-user
3.2.15 DLS-user-optional-facility
3.2.16 indication (primitive);
acceptor.deliver (primitive)
– 12 – IEC 61158-4-13:2014 © IEC 2014
3.2.17 multi-peer
3.2.18 request (primitive);
requestor.submit (primitive)
3.2.19 requestor
3.2.20 response (primitive);
acceptor.submit (primitive)
3.2.21 submit (primitive)
3.2.22 symmetrical service
3.3 Data-link service terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.3.1
async-only CN
CN that is accessed only by polling
3.3.2
asynchronous period
second part of the Type 13 cycle, starting with a start of asynchronous (SoA) frame
3.3.3
basic Ethernet mode
mode that provides legacy Ethernet communication
3.3.4
continuous-time-triggered
communication class where isochronous communication takes place every cycle
Note 1 to entry:  The data sent from MN to various CNs are packed into a PollResponse. No PollRequest to these
CNs is necessary. The CNs send their PollResponse time triggered. (An alternative to continuous).
Note 2 to entry:  There are three node classes: continuous, multiplexed and continuous-time-triggered. Each node
is a member of exactly one of these classes.
3.3.5
continuous
communication class where isochronous communication takes place every cycle (the opposite
to multiplexed)
Note 1 to entry:  There are three node classes: continuous, multiplexed and continuous-time-triggered. Each node
is a member of exactly one of these classes.
3.3.6
controlled node (CN)
network node without the ability to manage the SCNM mechanism
3.3.7
cycle state machine
state machine that controls the data-link layer cycle and is itself controlled by the NMT state
machine which determines the current operating mode
3.3.8
cycle time
time between two consecutive start of cyclic (SoC) frames

Note 1 to entry:  The Cycle Time includes the time for data transmission and some idle time before the beginning
of the next cycle.
3.3.9
DLCEP-address
DL-address which designates either
a) one peer DL-connection-end-point, or
b) one multi-peer publisher DL-connection-end-point and implicitly the corresponding set of
subscriber DL-connection-end-points where each DL-connection-end-point exists within a
distinct DLSAP and is associated with a corresponding distinct DLSAP-address
3.3.10
DL-segment,
link,
local link
single DL-subnetwork in which any of the connected DLEs may communicate directly, without
any intervening DL-relaying, whenever all of those DLEs that are participating in an instance
of communication are simultaneously attentive to the DL-subnetwork during the period(s) of
attempted communication
3.3.11
DLSAP
distinctive point at which DL-services are provided by a single DL-entity to a single higher-
layer entity
Note 1 to entry:  This definition, derived from ISO/IEC 7498-1, is repeated here to facilitate understanding of the
critical distinction between DLSAPs and their DL-addresses.
3.3.12
DL(SAP)-address
either an individual DLSAP-address, designating a single DLSAP of a single DLS-user, or a
group DL-address potentially designating multiple DLSAPs, each of a single DLS-user
Note 1 to entry:  This terminology is chosen because ISO/IEC 7498-3 does not permit the use of the term DLSAP-
address to designate more than a single DLSAP at a single DLS-user.
3.3.13
(individual) DLSAP-address
DL-address that designates only one DLSAP within the extended link
Note 1 to entry:  A single DL-entity may have multiple DLSAP-addresses associated with a single DLSAP (see
Figure 1).
– 14 – IEC 61158-4-13:2014 © IEC 2014
DLS-user-entity
DLS-user-entity
DLS-users
DLSAP DLSAP DLSAP
DLSAP-
address DLSAP-
DLSAP-
group DL-
address
addresses
address
DL-layer
DL-entity
PhSA P PhSA P
Ph-layer
NOTE 1 DLSAPs and PhSAPs are depicted as ovals spanning the boundary between two adjacent layers.
NOTE 2 DL-addresses are depicted as designating small gaps (points of access) in the DLL portion of a DLSAP.
NOTE 3 A single DL-entity may have multiple DLSAP-addresses and group DL-addresses associated with a
single DLSAP.
Figure 1 – Relationships of DLSAPs, DLSAP-addresses and group DL-addresses
3.3.14
Type 13 fieldbus cycle
fixed time interval consecutively repeated which is organized by the MN
3.3.15
Type 13 fieldbus node ID
unique number within one Type 13 network used to address a Type 13 fieldbus node
3.3.16
frame
denigrated synonym for DLPDU
3.3.17
isochronous data
data which is transmitted every cycle (or every nth cycle in case of multiplexed isochronous
data)
3.3.18
isochronous period
period within each cycle that offers deterministic operation through being reserved for the
exchange of (continuous or multiplexed) isochronous data
3.3.19
legacy Ethernet
Ethernet as standardized in ISO/IEC 8802-3 (non-deterministic operation in non-time-critical
environments)
3.3.20
managing node
node that can manage the SCNM mechanism
3.3.21
multiplexed
communication class where cyclic communication takes place in such a way that m nodes are
served in s cycles (an alternative to continuous)
3.3.22
multiplexed timeslot
timeslot assigned to multiplexed isochronous data and shared among multiple nodes
3.3.23
multipoint connection
connection from one node to many nodes
Note 1 to entry:  Multipoint connection allows data transfer from a single publisher to many subscriber nodes.
3.3.24
multi-peer DLC
centralized multi-end-point DL-connection offering DL-duplex-transmission between a single
distinguished DLS-user known as the publisher or publishing DLS-user, and a set of peer but
undistinguished DLS-users known collectively as the subscribers or subscribing DLS-users,
where the publishing DLS-user can send to the subscribing DLS-users as a group (but not
individually), and the subscribing DLS-users can send to the publishing DLS-user (but not to
each other)
3.3.25
NetTime
clock time of the MN as distributed to all CNs within the SoC frame
3.3.26
network management
management functions and services that perform network initialization, configuration and error
handling
3.3.27
node
single DL-entity as it appears on one local link
3.3.28
PollRequest
frame which is used in the isochronous part of a communications cycle
3.3.29
PollResponse
frame which is used in the isochronous part of a communications cycle to respond to a
PollRequest frame
3.3.30
process data object
object for isochronous data exchange between nodes
3.3.31
protocol
convention about the data formats, time sequences, and error correction in the data exchange
of communication systems
– 16 – IEC 61158-4-13:2014 © IEC 2014
3.3.32
receiving DLS-user
DL-service user that acts as a recipient of DLS-user-data
Note 1 to entry:  A DL-service user can be concurrently both a sending and receiving DLS-user.
3.3.33
sending DLS-user
DL-service user that acts as a source of DLS-user-data
3.3.34
service data object
object for asynchronous data exchange between nodes
3.3.35
slot communication network management
mechanism which ensures that there are no collisions during physical network access of any
of the networked nodes, thus providing deterministic communication via legacy Ethernet
3.4 Symbols and abbreviations
ASnd Asynchronous send (Type 13 frame type)
ASS Asynchronous slot scheduler
ATC Asynchronous transmissionTX/RX control
CN Controlled node
CSM Cycle state machine
DL- Data-link layer (as a prefix)
DLC DL-connection
DLCEP DL-connection-end-point
DLE DL-entity (the local active instance of the data-link layer)
DLL DL-layer
DLPDU DL-protocol-data-unit
DLM DL-management
DLMS DL-management service
DLS DL-service
DLSAP DL-service-access-point
DLSDU DL-service-data-unit
ES Exception signaling
FIFO First-in first-out (queuing method)
ITC Isochronous transmission RX/TX control
MAC Media access control
MN Managing node
NMT Network management
NS NMT signaling
OSI Open systems interconnection
PDO Process data object
PDU Protocol data unit
Ph- Physical layer (as a prefix)
PhL Ph-layer
PhPDU Ph-protocol-data-unit
PhS Ph-service
PReq PollRequest (Type 13 frame type)
PRes PollResponse (Type 13 frame type)
SCNM Slot communication network management
SDO Service data object
SoA Start of asynchronous (Type 13 frame type)
SoC Start of cyclic (Type 13 frame type)
UDT Unspecified-data transfer
3.5 Common conventions
This standard uses the descriptive conventions given in ISO/IEC 10731.
The service model, service primitives, and time-sequence diagrams used are entirely abstract
descriptions; they do not r
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