This document specifies the transformation of SysML (ISO/IEC 19514:2017) constructs to XSD (World Wide Web Consortium's XML schema definition language) constructs for the purpose of representing the SysML model represented in XMI (ISO/IEC 19509:2014) as XML (World Wide Web Consortium's XML) schemas. The specified mapping is a one-way transformation from SysML information model represented in XMI into an XML schema. These limitations make the mapping unsuitable for the transformation of arbitrary SysML models to XML schemas. The following are within the scope of this document: —   the specification of the structure, components, and conventions of the XSD for the STEP (ISO 10303-1) XML implementation method; —   the transformation of SysML metamodel constructs represented in XMI to XSD constructs for the purpose of representing SysML information models as XML schemas. The following are outside the scope of this document: —   the transformation of SysML metamodel constructs into XSD constructs that are not used in the STEP extended architecture; —   the transformation of SysML metamodel constructs into XSD constructs for other purposes than representing SysML constructs as STEP concepts; —   codes and scripts to transform SysML XMI to XSD schema; —   the transformation of SysML constraints (OCL, see ISO/IEC 19507) into Schematron (see ISO/IEC 19757‑3).

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This document specifies a mapping of SysML (ISO/IEC 19514:2017) constructs to EXPRESS (ISO 10303-11:2004) elements for the purpose of representing SysML model represented in XMI (ISO/IEC 19509:2014) as EXPRESS (ISO 10303-11:2004) schemas. The specified mapping is a one-way transformation from SysML information model represented in XMI into an EXPRESS schema. NOTE      Due to this limitation 10303-16 does not define the transformation of arbitrary SysML models to EXPRESS. The following are within the scope of this document: —   the transformation of SysML metamodel constructs represented in XMI to EXPRESS elements for the purpose of representing SysML information models as EXPRESS schemas. The following are outside the scope of this document: —   the transformation of SysML metamodel constructs into EXPRESS elements that are not used in the STEP Extended Architecture. NOTE      The STEP Extended Architecture is defined in References [8], [9] and [10]. —   the transformation of SysML metamodel constructs into EXPRESS elements for other purposes than representing SysML constructs as STEP concepts; —   codes and scripts to transform SysML XMI to EXPRESS schema; —   the transformation of SysML constraints (OCL[5]) into EXPRESS global and local rules; —   the transformation of EXPRESS elements into SysML constructs.

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This part of IEC 62769 specifies an FDI profile for IEC 62734 (ISA100 WIRELESS) 1.

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This document specifies the definition for services at the point of interaction between a client and server. The following are within the scope of this document: —   the specification of the structure, components and conventions for domain- and technology-independent services implementation methods for STEP (ISO 10303-1); —   transformation of the SysML metamodel constructs to OpenAPI constructs for RESTful web services (see OpenAPI:3.0.0[25] and IETF RFC7231). The following are outside the scope of this document: —   domain specific services definitions; —   the transformation of SysML metamodel constructs into OpenAPI constructs that are not used in the STEP extended architecture[12][13]; —   the transformation of SysML metamodel constructs into OpenAPI constructs for other purposes than representing SysML constructs as STEP concepts; —   codes and scripts to transform SysML XMI to OpenAPI schema; —   the transformation of SysML constraints into OpenAPI schema; —   implementation of technology-specific services definitions other than RESTful OpenAPI; —   definition of management and maintenance of information and data on a server.

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This part of IEC 62769 describes the concepts and overview of the Field Device Integration
(FDI) specifications. The detailed motivation for the creation of this technology is also described
(see 4.1). Reading this document is helpful to understand the other parts of this multi-part
standard.

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This part of IEC 62769 specifies the FDI Server. The overall FDI architecture is illustrated in
Figure 1. The architectural components that are within the scope of this document have been
highlighted in this figure.

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This part of the IEC 61784-3 series explains some common principles that can be used in the
transmission of safety-relevant messages among participants within a distributed network
which use fieldbus technology in accordance with the requirements of IEC 61508 (all parts) 1
for functional safety. These principles are based on the black channel approach. They can be
used in various industrial applications such as process control, manufacturing automation and
machinery.
This part and the IEC 61784-3-x parts specify several functional safety communication
profiles based on the communication profiles and protocol layers of the fieldbus technologies
in IEC 61784-1, IEC 61784-2 and IEC 61158 (all parts). These functional safety
communication profiles use the black channel approach, as defined in IEC 61508. These
functional safety communication profiles are intended for implementation in safety devices
exclusively.
NOTE 1 Other safety-related communication systems meeting the requirements of IEC 61508 (all parts) can exist
that are not included in IEC 61784-3 (all parts).
NOTE 2 It does not cover electrical safety and intrinsic safety aspects. Electrical safety relates to hazards such
as electrical shock. Intrinsic safety relates to hazards associated with potentially explosive atmospheres.
All systems are exposed to unauthorized access at some point of their life cycle. Additional
measures need to be considered in any safety-related application to protect fieldbus systems
against unauthorized access. IEC 62443 (all parts) will address many of these issues; the
relationship with IEC 62443 (all parts) is detailed in a dedicated subclause of this document.
NOTE 3 Implementation of a functional safety communication profile according to this document in a device is not
sufficient to qualify it as a safety device, as defined in IEC 61508 (all parts).
NOTE 4 The resulting SIL claim of a system depends on the implementation of the selected functional safety
communication profile within this system.
NOTE 5 Annex C explains the numbering scheme used for the technology-specific parts (IEC 61784-3-x) as well
as their common general structure.
NOTE 6 Annex D provides a guideline for the assessment and test of safety communication profiles as well as
safety-related devices using these profiles.

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This part of IEC 62769 defines the FDI Information Model. One of the main tasks of the
Information Model is to reflect the topology of the automation system. Therefore, it represents
the devices of the automation system as well as the connecting communication networks
including their properties, relationships, and the operations that can be performed on them.
The types in the AddressSpace of the FDI Server constitute a catalogue, which is built from
FDI Packages.
The fundamental types for the FDI Information Model are well defined in OPC UA for Devices
(IEC 62541-100). The FDI Information Model specifies extensions for a few special cases and
otherwise explains how these types are used and how the contents are built from elements of
DevicePackages.
The overall FDI architecture is illustrated in Figure 1. The architectural components that are
within the scope of this document have been highlighted in this illustration.

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This part of IEC 62769 specifies the FDI Client. The overall FDI architecture is illustrated in
Figure 1. The architectural components that are within the scope of this document have been
highlighted in this figure.

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This part of IEC 62769 specifies the FDI Packages. The overall FDI architecture is illustrated
in Figure 1. The architectural components that are within the scope of this document have
been highlighted in Figure 1.

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This part of IEC 62769 specifies the elements implementing communication capabilities called
Communication Devices (IEC 62769-5).
The overall FDI architecture is illustrated in Figure 1. The architectural components that are
within the scope of this document have been highlighted in this illustration. The document
scope with respect to FDI Packages is limited to Communication Devices. The Communication
Server shown in Figure 1 is an example of a specific Communication Device.

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This part of IEC 62769 specifies the technology mapping for the concepts described in the
Field Device Integration (FDI) standard. The technology mapping focuses on implementation
regarding the components FDI Client and User Interface Plug-in (UIP) that are specific only to
the WORKSTATION platform/.NET as defined in IEC 62769-4.

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This document specifies a procedure for data profiling to generate the foundation for performing data quality assessment. This profiling is applicable to data sets that are either originally in a structure of tables and columns or are the output from a transformation to create such a structure. NOTE 1   Data profiling is applicable to all types of database technology. The following are within the scope of this document: —   performing structure analysis to determine data element concepts; —   performing column analysis to identify relevant data elements, including statistics about a data set; —   performing relationship analysis to identify dependencies in a data set. The following are outside the scope of this document: —   methods for extracting and sampling data to be profiled from a data set; —   deriving data rules; —   measuring the extent of nonconformities in a data set. NOTE 2   ISO 8000‑8 specifies approaches to measuring data and information quality. This document can be used in conjunction with, or independently of, quality management systems standards.

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IEC 61784-3-13:2021 specifies a safety communication layer (services and protocol) based on CPF 13 of IEC 61784 2 and IEC 61158 Type 13. It identifies the principles for functional safety communications defined in IEC 61784 3 that are relevant for this safety communication layer. This safety communication layer is intended for implementation in safety devices only.
NOTE 1 It does not cover electrical safety and intrinsic safety aspects. Electrical safety relates to hazards such as electrical shock. Intrinsic safety relates to hazards associated with potentially explosive atmospheres. This document defines mechanisms for the transmission of safety-relevant messages among participants within a distributed network using fieldbus technology in accordance with the requirements of IEC 61508 (all parts) for functional safety. These mechanisms may be used in various industrial applications such as process control, manufacturing automation and machinery. This document provides guidelines for both developers and assessors of compliant devices and systems.

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IEC 61784-3-2:2021 specifies a safety communication layer (services and protocol) based on CPF 2 of IEC 61784 1, IEC 61784 2 and IEC 61158 Type 2. It identifies the principles for functional safety communications defined in IEC 61784 3 that are relevant for this safety communication layer. This safety communication layer is intended for implementation in safety devices only.
NOTE 1 It does not cover electrical safety and intrinsic safety aspects. Electrical safety relates to hazards such as electrical shock. Intrinsic safety relates to hazards associated with potentially explosive atmospheres.
This document defines mechanisms for the transmission of safety-relevant messages among participants within a distributed network using fieldbus technology in accordance with the requirements of IEC 61508 (all parts) for functional safety. These mechanisms may be used in various industrial applications such as process control, manufacturing automation and machinery. This document provides guidelines for both developers and assessors of compliant devices and systems.

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IEC 61784-3-8:2021 specifies a safety communication layer (services and protocol) based on CPF 8 of IEC 61784 1, IEC 61784-2 and IEC 61158 Type 18 and Type 23. It identifies the principles for functional safety communications defined in IEC 61784 3 that are relevant for this safety communication layer. This safety communication layer is intended for implementation in safety devices only.
NOTE 1 It does not cover electrical safety and intrinsic safety aspects. Electrical safety relates to hazards such as electrical shock. Intrinsic safety relates to hazards associated with potentially explosive atmospheres.
This document defines mechanisms for the transmission of safety-relevant messages among participants within a distributed network using fieldbus technology in accordance with the requirements of IEC 61508 (all parts) for functional safety. These mechanisms may be used in various industrial applications such as process control, manufacturing automation and machinery. This document provides guidelines for both developers and assessors of compliant devices and systems.

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IEC 61784-3-3:2021 specifies a safety communication layer (services and protocol) based on CPF 3 of IEC 61784-1, IEC 61784-2 (CP 3/1, CP 3/2, CP 3/4, CP 3/5 and CP 3/6) and IEC 61158 Types 3 and 10. It identifies the principles for functional safety communications defined in IEC 61784-3 that are relevant for this safety communication layer. This safety communication layer is intended for implementation in safety devices only.
NOTE 1 It does not cover electrical safety and intrinsic safety aspects. Electrical safety relates to hazards such as electrical shock. Intrinsic safety relates to hazards associated with potentially explosive atmospheres.
This document defines mechanisms for the transmission of safety-relevant messages among participants within a distributed network using fieldbus technology in accordance with the requirements of IEC 61508 (all parts) for functional safety. These mechanisms may be used in various industrial applications such as process control, manufacturing automation and machinery.
This document provides guidelines for both developers and assessors of compliant devices and systems.
NOTE 2 The resulting SIL claim of a system depends on the implementation of the selected functional safety communication profile within this system – implementation of a functional safety communication profile according to this document in a standard device is not sufficient to qualify it as a safety device.

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This document provides an overview of ISO 10303. ISO 10303 provides a representation of product information along with the necessary mechanisms and definitions to enable product data to be exchanged. The exchange is among different computer systems and environments associated with the complete product lifecycle, including product design, manufacture, use, maintenance, and final disposition of the product. This document defines the basic principles of product information representation and exchange used in ISO 10303. It specifies the characteristics of the various series of parts of ISO 10303 and the relationships among them. The following are within the scope of this document: —   scope statement for ISO 10303 as a whole; —   overview of ISO 10303; —   architectures of ISO 10303; —   structure of ISO 10303; —   terms and definitions used throughout ISO 10303; —   overview of data specification methods used in ISO 10303; NOTE  This includes the EXPRESS data specification language and graphical presentation of product information models. —   introduction to the series of parts of ISO 10303: —   integrated resources; —   application interpreted constructs; —   application modules; —   business object models; —   application protocols; —   implementation methods; —   usage guides; —   conformance testing methodology and framework; —   abstract test suites; —   scheme for identification of schemas and other information objects defined within parts of ISO 10303.

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IEC 62769-101-2:2020 is available as IEC 62769-101-2:2020 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.

IEC 62769-101-2:2020 specifies the IEC 62769 profile for IEC 61784 1, CP 1/2 (FOUNDATION™ Fieldbus HSE).

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IEC 62769-101-1:2020 is available as IEC 62769-101-1:2020 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.

IEC 62769-101-1:2020 specifies the IEC 62769 profile for IEC 61784 1_CP 1/1 (FOUNDATION™ Fieldbus H1) .

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IEC 61010-2-202:2020 is available as IEC 61010-2-202:2020 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.

IEC 61010-2-202:2020 constitutes Part 2-202 of a planned series of standards on industrial-process measurement, control and automation equipment. Safety terms of general use are defined in IEC 61010-1. More specific terms are defined in each part. This part incorporates the safety related requirements of electrically operated valve ACTUATORs and SOLENOIDs. This document does not cover functional safety aspects of electrically operated ACTUATORs and SOLENOIDs.

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IEC 61784-3:2021 explains some common principles that can be used in the transmission of safety-relevant messages among participants within a distributed network which use fieldbus technology in accordance with the requirements of IEC 61508 (all parts) for functional safety. These principles are based on the black channel approach. They can be used in various industrial applications such as process control, manufacturing automation and machinery.

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IEC 62769-6:2021 is available as IEC 62769-6:2021 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.
IEC 62769-6:2021 specifies the technology mapping for the concepts described in the Field Device Integration (FDI) standard. The technology mapping focuses on implementation regarding the components FDI Client and User Interface Plug-in (UIP) that are specific only to the WORKSTATION platform/.NET as defined in IEC 62769-4.

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IEC 62769-3:2021 is available as IEC 62769-3:2021 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.
IEC 62769-3:2021 specifies the FDI Server. The overall FDI architecture is illustrated in Figure 1. The architectural components that are within the scope of this document have been highlighted in this figure.

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IEC 62769-2:2021 is available as IEC 62769-2:2021 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.
IEC 62769-2:2021 specifies the FDI Client. The overall FDI architecture is illustrated in Figure 1. The architectural components that are within the scope of this document have been highlighted in this figure.

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IEC 62769-5:2021 is available as IEC 62769-5:2021 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.
IEC 62769-5:2021 defines the FDI Information Model. One of the main tasks of the Information Model is to reflect the topology of the automation system. Therefore, it represents the devices of the automation system as well as the connecting communication networks including their properties, relationships, and the operations that can be performed on them. The types in the AddressSpace of the FDI Server constitute a catalogue, which is built from FDI Packages. The fundamental types for the FDI Information Model are well defined in OPC UA for Devices (IEC 62541-100). The FDI Information Model specifies extensions for a few special cases and otherwise explains how these types are used and how the contents are built from elements of DevicePackages. The overall FDI architecture is illustrated in Figure 1. The architectural components that are within the scope of this document have been highlighted in this illustration.

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IEC 62769-4:2021 is available as IEC 62769-4:2021 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.
IEC 62769-4:2021 specifies the FDI Packages. The overall FDI architecture is illustrated in Figure 1. The architectural components that are within the scope of this document have been highlighted in Figure 1.

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    165 pages
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IEC 62769-1:2021 is available as IEC 62769-1:2021 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.
IEC 62769-1:2021 describes the concepts and overview of the Field Device Integration (FDI) specifications. The detailed motivation for the creation of this technology is also described (see 4.1). Reading this document is helpful to understand the other parts of this multi-part standard.

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IEC 62769-7:2021 is available as IEC 62769-7:2021 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.
IEC 62769-7:2021 specifies the elements implementing communication capabilities called Communication Devices (IEC 62769-5).
The overall FDI architecture is illustrated in Figure 1. The architectural components that are within the scope of this document have been highlighted in this illustration. The document scope with respect to FDI Packages is limited to Communication Devices. The Communication Server shown in Figure 1 is an example of a specific Communication Device.

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IEC 62769-150-1:2021 specifies an FDI profile for IEC 62734 (ISA100 WIRELESS)

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This part of IEC 62832 defines the general principles of the Digital Factory framework (DF
framework), which is a set of model elements (DF reference model) and rules for modelling
production systems.
This DF framework defines:
• a model of production system assets;
• a model of relationships between different production system assets;
• the flow of information about production system assets.
The DF framework does not cover representation of building construction, input resources (such
as raw production material, assembly parts), consumables, work pieces in process, nor end
products.
It applies to the three types of production processes (continuous control, batch control and
discrete control) in any industrial sector (for example aeronautic industries, automotive,
chemicals, wood).
NOTE This document does not provide an application scenario for descriptions based on ISO 15926 (all parts),
because ISO 15926 (all parts) uses a different methodology for describing production systems.
The representation of a production system according to this document is managed throughout
all phases of the production system life cycle (for example design, construction, operation or
maintenance). The requirements and specification of software tools supporting the DF
framework are out of scope of this document.

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This part of IEC 62832 specifies rules of the Digital Factory framework for managing information
of a production system throughout its life cycle. It also defines how information will be added,
deleted or changed in the DigitalFactory by the various activities during the life cycle of the
production system.
These rules include:
– rules to represent a production system with a DigitalFactory;
– rules to represent a PS asset or a role with a DFasset;
– rules to represent a relationship between PS assets with a DFassetLink;
– rules to represent a relationship between roles with a DFassetLink;
– rules to represent the hierarchy of PS assets in a production system;
– rules to check the compatibility between associated PS assets.
NOTE 1 "PS" and "DF" are used in IEC 62832 (all parts) as qualifiers, they are part of the concept names. See
IEC 62832-1:2020, Clause 3.
NOTE 2 Common rules are the base for the exchange of data between and within enterprises, between engineering
tools, and between departments.

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This part of IEC 62832 specifies detailed requirements for model elements of the Digital Factory
framework. It defines the nature of the information provided by the model elements, but not the
format of this information.
NOTE General requirements for the main model elements of the DF reference model are specified in IEC 62832-1.

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This part of IEC 62769 defines the protocol-specific definitions (PSDs) as defined in
IEC 62769-7 on generic protocol extensions for the Modbus®1-RTU protocol in accordance
with CPF 15 in IEC 61784-2.

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This part of IEC 62769 specifies an FDI profile of IEC 62769 for generic protocols. That
means that all interfaces are defined, and a host can add support for more protocols without
changing its implementation. Nevertheless, there are some protocol-specific definitions (PSD)
that need to be specified per protocol using this profile. Annex C specifies what PSDs need to
be defined per protocol so that FDI Device Packages, FDI Communication Packages for
Gateways and FDI Communication Servers, FDI Communication Servers, Gateways and
Devices supporting such a protocol can work together in a host not aware about this specific
protocol.
NOTE A host not using an FDI Communication Server but a proprietary mechanism for communication defines its
own means to deal with this profile to support several protocols without changing its implementation. This is
specific to the proprietary way how the communication driver is bound to the host.

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IEC 62769-101-1:2020 is available as IEC 62769-101-1:2020 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.IEC 62769-101-1:2020 specifies the IEC 62769 profile for IEC 61784 1_CP 1/1 (FOUNDATION™ Fieldbus H1) .

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IEC 62769-101-2:2020 is available as IEC 62769-101-2:2020 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.IEC 62769-101-2:2020 specifies the IEC 62769 profile for IEC 61784 1, CP 1/2 (FOUNDATION™ Fieldbus HSE).

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IEC TR 62541-1:2020 is available as IEC TR 62541-1:2020 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.
IEC 62541-1:2020 presents the concepts and overview of the OPC Unified Architecture (OPC UA). Reading this document is helpful to understand the remaining parts of this multi-part document set. Each of the other parts of IEC 62451 is briefly explained along with a suggested reading order.

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IEC TR 62541-2:2020 is available as IEC TR 62541-2:2020 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.
IEC 62541-2:2020 describes the OPC Unified Architecture (OPC UA) security model. It describes the security threats of the physical, hardware, and software environments in which OPC UA is expected to run. It describes how OPC UA relies upon other standards for security. It provides definition of common security terms that are used in this and other parts of the OPC UA specification. It gives an overview of the security features that are specified in other parts of the OPC UA specification. It references services, mappings, and Profiles that are specified normatively in other parts of the OPC UA Specification. It provides suggestions or best practice guidelines on implementing security. Any seeming ambiguity between this part and one of the other normative parts does not remove or reduce the requirement specified in the other normative part.

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This part of IEC 62541 defines the Information Model of the OPC Unified Architecture. The
Information Model describes standardized Nodes of a Server’s AddressSpace. These Nodes
are standardized types as well as standardized instances used for diagnostics or as entry
points to server-specific Nodes. Thus, the Information Model defines the AddressSpace of an
empty OPC UA Server. However, it is not expected that all Servers will provide all of these
Nodes.

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This part of IEC 62828 establishes specific procedures for testing level transmitters used in
measuring and control systems for industrial process and machinery control systems. For
general test procedures, reference is to be made to IEC 62828-1:2017, applicable to all types
of transmitters.
Throughout this document, the term "industrial transmitters" covers all types of transmitters
used in measuring and control systems for industrial processes and for machinery.
The requirements of this document are applicable to all level measurement principles.
Detailed description of transmitters is given for two main principles for improved clarity.

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This part of IEC 62541 defines the OPC Unified Architecture (OPC UA) PubSub
communication model. It defines an OPC UA publish subscribe pattern which complements
the client server pattern defined by the Services in IEC 62541-4. IEC TR 62541-1 gives an
overview of the two models and their distinct uses.
PubSub allows the distribution of data and events from an OPC UA information source to
interested observers inside a device network as well as in IT and analytics cloud systems.
This document consists of
• a general introduction of the PubSub concepts,
• a definition of the PubSub configuration parameters,
• mapping of PubSub concepts and configuration parameters to messages and transport
protocols, and
• a PubSub configuration model.
Not all OPC UA Applications will need to implement all defined message and transport
protocol mappings. IEC 62541-7 defines the Profile that dictates which mappings need to be
implemented in order to be compliant with a particular Profile.

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This part of IEC 62451 defines the information model associated with Programs in the OPC
Unified Architecture. This includes the description of the NodeClasses, standard Properties,
Methods and Events and associated behaviour and information for Programs.
The complete Address Space model including all NodeClasses and Attributes is specified in
IEC 62541‑3. The Services such as those used to invoke the Methods used to manage
Programs are specified in IEC 62541‑4.

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This part of IEC 62541 defines the OPC Unified Architecture (OPC UA) Services. The
Services defined are the collection of abstract Remote Procedure Calls (RPC) that are
implemented by OPC UA Servers and called by OPC UA Clients. All interactions between
OPC UA Clients and Servers occur via these Services. The defined Services are considered
abstract because no particular RPC mechanism for implementation is defined in this
document. IEC 62541‑6 specifies one or more concrete mappings supported for
implementation. For example, one mapping in IEC 62541‑6 is to XML Web Services. In that
case the Services described in this document appear as the Web service methods in the
WSDL contract.
Not all OPC UA Servers will need to implement all of the defined Services. IEC 62541‑7
defines the Profiles that dictate which Services need to be implemented in order to be
compliant with a particular Profile.

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