IEC 61987-14:2016

IEC 61987-14 ®
Edition 1.0 2016-04
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
Industrial-process measurement and control – Data structures and elements in
process equipment catalogues –
Part 14: Lists of properties (LOP) for temperature measuring equipment for
electronic data exchange
Mesure et commande dans les processus industriels – Structures de données
et éléments dans les catalogues d'équipement de processus –
Partie 14: Liste de propriétés (LOP) des équipements de mesure de température
pour l'échange électronique de données

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IEC 61987-14 ®
Edition 1.0 2016-04
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
Industrial-process measurement and control – Data structures and elements in

process equipment catalogues –

Part 14: Lists of properties (LOP) for temperature measuring equipment for

electronic data exchange
Mesure et commande dans les processus industriels – Structures de données

et éléments dans les catalogues d'équipement de processus –

Partie 14: Liste de propriétés (LOP) des équipements de mesure de température

pour l'échange électronique de données

INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
COMMISSION
ELECTROTECHNIQUE
INTERNATIONALE
ICS 25.040.40; 35.100.20 ISBN 978-2-8322-3239-2

– 2 – IEC 61987-14:2016  IEC 2016
CONTENTS
FOREWORD . 3
INTRODUCTION . 5
1 Scope . 6
2 Normative references. 6
3 Terms and definitions . 6
4 General . 7
4.1 Overview. 7
4.2 Special considerations . 7
4.3 Depiction of OLOPs and DLOPs . 8
4.4 Examples of DLOP block usage . 8
4.4.1 DLOP “Radiation thermometer” . 8
4.4.2 DLOP “Insert/element” . 11
Annex A (normative) Operating list of properties for temperature measuring equipment . 15
Annex B (normative) Device lists of properties for temperature measuring equipment . 16
B.1 Temperature gauges . 16
B.2 Temperature transmitters . 16
B.2.1 Contact temperature transmitter . 16
B.2.2 Radiation thermometer . 16
B.2.3 Temperature transmitter . 16
B.3 Components . 17
B.3.1 Temperature connection head . 17
B.3.2 Insert/element . 17
B.3.3 Separate temperature transmitter . 17
B.3.4 Thermowell . 17
B.3.5 Thermowell extension . 18
Annex C (normative) Property library . 19
Annex D (normative) Block library for considered device types . 20
Bibliography . 21

Figure 1 – Basic components of a TC/RTD temperature assembly . 8

Table 1 – Example for “Radiation thermometer” . 8
Table 2 – Example for “Insert/element” . 11

INTERNATIONAL ELECTROTECHNICAL COMMISSION
____________
INDUSTRIAL-PROCESS MEASUREMENT AND CONTROL –
DATA STRUCTURES AND ELEMENTS IN
PROCESS EQUIPMENT CATALOGUES –

Part 14: Lists of properties (LOP) for temperature
measuring equipment for electronic data exchange

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
international co-operation on all questions concerning standardization in the electrical and electronic fields. To
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6) All users should ensure that they have the latest edition of this publication.
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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.
International Standard IEC 61987-14 has been prepared by subcommittee 65E: Devices and
integration in enterprise systems, of IEC technical committee 65: Industrial-process
measurement, control and automation.
The text of this standard is based on the following documents:
CDV Report on voting
65E/458/CDV 65E/489/RVC
Full information on the voting for the approval of this standard can be found in the report on
voting indicated in the above table.

– 4 – IEC 61987-14:2016  IEC 2016
This publication has been drafted in accordance with the ISO/IEC Directives, Part 2.
A list of all parts in the IEC 61987 series, published under the general title Industrial-process
measurement and control – Data structures and elements in process equipment catalogues,
can be found on the IEC website.
The committee has decided that the contents of this publication will remain unchanged until
the stability date indicated on the IEC website 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
The exchange of product data between companies, business systems, engineering tools, data
systems within companies and, in the future, control systems (electrical, measuring and
control technology) can run smoothly only when both the information to be exchanged and the
use of this information has been clearly defined.
Prior to this standard, requirements on process control devices and systems were specified by
customers in various ways when suppliers or manufacturers were asked to quote for suitable
equipment. The suppliers in their turn described the devices according to their own
documentation schemes, often using different terms, structures and media (paper, databases,
CDs, e-catalogues, etc.). The situation was similar in the planning and development process,
with device information frequently being duplicated in a number of different information
technology (IT) systems.
Any method that is capable of recording all existing information only once during the planning
and ordering process and making it available for further processing, gives all parties involved
an opportunity to concentrate on the essentials. A precondition for this is the standardization
of both the descriptions of the objects and the exchange of information.
This standard series proposes a method for standardization which will help both suppliers and
users of measuring equipment to optimize workflows both within their own companies and in
their exchanges with other companies. Depending on their role in the process, engineering
firms may be considered here to be either users or suppliers.
The method specifies measuring equipment by means of blocks of properties. These blocks
are compiled into lists of properties (LOPs), each of which describes a specific equipment
(device) type. This standard series covers both properties that may be used in an inquiry or a
proposal and detailed properties required for integration of the equipment in computer
systems for other tasks.
IEC 61987-10 defines structure elements for constructing lists of properties for electrical and
process control equipment in order to facilitate automatic data exchange between any two
computer systems in any possible workflow, for example engineering, maintenance or
purchasing workflow and to allow both the customers and the suppliers of the equipment to
optimize their processes and workflows. IEC 61987-10 also provides the data model for
assembling the LOPs.
IEC 61987-11 specifies the generic structure for operating and device lists of properties
(OLOPs and DLOPs). It lays down the framework for further parts of IEC 61987 in which
complete LOPs for device types measuring a given physical variable and using a particular
measuring principle will be specified. The generic structure may also serve as a basis for the
specification of LOPs for other industrial-process control instrument types such as control
valves and signal processing equipment.
IEC 61987-14 concerns temperature measuring equipment. It provides two operating LOPs for
contact and non-contact temperature transmitters or temperature gauges which can be used,
for example, as requests for various sorts of quotation. The DLOPs for the various
temperature transmitter and gauge types provided in this part of IEC 61987 can be used in
very different ways in the computer systems of equipment manufacturers and suppliers, in
CAE and similar systems of EPC contractors and other engineering companies and especially
in different plant maintenance systems of the plant owners. The OLOP and the DLOPs
provided correspond to the guidelines specified in in IEC 61987-10 and IEC 61987-11.
The List of Properties (LOPs) given in this standard are published in the Common Data
Dictionary of IEC as stated in the appendices A to C. In the event that the LOPs are not yet
available in the CDD, they may be found temporarily in the CDD maintenance area
(http://std.iec.ch/cdd/iec61987/cdddev.nsf/TreeFrameset?OpenFrameSet).

– 6 – IEC 61987-14:2016  IEC 2016
INDUSTRIAL-PROCESS MEASUREMENT AND CONTROL –
DATA STRUCTURES AND ELEMENTS IN
PROCESS EQUIPMENT CATALOGUES –

Part 14: Lists of properties (LOP) for temperature
measuring equipment for electronic data exchange

1 Scope
This part of IEC 61987 provides
– an operating list of properties (OLOP) for the description of the operating parameters and
the collection of requirements for temperature measuring equipment and
– device lists of properties (DLOP) for the description of a range of contact and non-contact
temperature measuring equipment types
The structures of the OLOP and the DLOPs correspond to the general structures defined in
IEC 61987-11 and agree with the fundamentals for the construction of LOPs defined in
IEC 61987-10.
Aspects other than the OLOP, needed in different electronic data exchange processes
described in IEC 61987-10, will be published in IEC 61987-92 .
The locations of the libraries of properties and of blocks used in the LOPs concerned are
listed in the Annexes C and D.
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 61360 (all parts), Standard data element types with associated classification scheme for
electric items
IEC 61987-10:2009, Industrial-process measurement and control – Data structures and
elements in process equipment catalogues – Part 10: Lists of Properties (LOPs) for Industrial-
Process Measurement and Control for Electronic Data Exchange – Fundamentals
IEC 61987-11:2012, Industrial-process measurement and control – Data structures and
elements in process equipment catalogues – Part 11: Lists of Properties (LOP) of measuring
equipment for electronic data exchange – Generic structures
3 Terms and definitions
For the purpose of this document, the terms and definitions in Clause 3 of IEC 61987-10:2009
and Clause 3 of IEC 61987-11:2012 also apply.
______________
Under consideration.
Definitions of specific temperature terms are to be found under the property attributes in the
CDD (Common Data Dictionary).
4 General
4.1 Overview
The LOPs provided by this document are intended for use in electronic data exchange
processes performed between any two computer systems. The two computer systems can
both belong to the same company or they can belong to different companies as described in
Annex C of IEC 61987-10:2009.
For the purpose of this standard, temperature measuring equipment has been subdivided into
two classes:
• non-contact temperature equipment: equipment variously known as radiation
thermometers or radiation pyrometers which by optical means provide spot, line or area
readings of temperature;
• contact temperature equipment: equipment comprising thermocouple or RTD temperature
transmitters as well as filled systems and mechanical temperature gauges.
The OLOP for non-contact and contact temperature measuring equipment is to be found in
Annex A while the DLOPs of the individual temperature device types are to be found in
Annex B.
Structural elements such as LOP type, block and property defined in this standard are
available in electronic form in the “Automation equipment” domain of the IEC Component Data
Dictionary (CDD).
4.2 Special considerations
Contact temperature measuring equipment using a thermocouple or RTD as sensing element
comprise several basic components which may be bought together or purchased separately,
see Figure 1. IEC 61987- 14 takes this into consideration by allowing the corresponding
blocks to be used individually or together.

– 8 – IEC 61987-14:2016  IEC 2016
Connection head
Thermowell
extension
Process connection
Thermowell
(protective tube)
Optional,
Insert/element Insert/element Insert/element
sheath/sleeve
with screw with head with
connections transmitter flying leads
IEC
Figure 1 – Basic components of a TC/RTD temperature assembly
4.3 Depiction of OLOPs and DLOPs
The properties of the OLOPs and DLOPs used in this part of IEC 61987 have been created in
conformance with the requirements of the IEC 61360 series. As such, the structural elements,
properties and attributes to be found in the IEC Component Data Dictionary are normative.
4.4 Examples of DLOP block usage
4.4.1 DLOP “Radiation thermometer”
A radiation thermometer is to make a spot measurement on a steel annealing process. For
this application, the “Radiation thermometer” DLOP might be configured as shown in Table 1,
whereby (“…” indicates a property or properties that have not been used).
Table 1 – Example for “Radiation thermometer”
2 Assigned value Unit
Name of LOP type, block or property

Application
application description Steel annealing

…
Input
…
Temperature measurement
Measuring range for temperature
…
lower range-limit of temperature 300 °C
upper range-limit of temperature 1 400 °C
______________
In the CDD, block names start with a capital letter, property names with a lower case letter.

2 Assigned value Unit
Name of LOP type, block or property
…
Parameters of non-contact temperature measurement
emissivity setting 0,30
…
number of outputs 1
Output_1
…
Analog current output
…
Assigned temperature range
lower range-value of temperature 350 °C
upper range-value of temperature 1 300 °C
…
Analog current output parameters
lower range end-value of current output 4 mA
upper range end-value of current output 20 mA
…
…
Digital communication
number of digital communication interfaces 1
Digital communication interface_1
…
type of digital communication PROFIBUS
Communication protocol
type of protocol PROFIBUS DP
protocol version DP-V2
…
type of device profile Temperature analog input
…
number of communication variables 1
Communication variable_1
…
assigned variable Temperature
…
Performance
…
Performance of non-contact temperature transmitter/radiation
temperature transmitter
noise equivalent temperature difference 0,1 °C
size-of-source effect 2 %
…
interchangeability 2,5 °C
temperature resolution 0,1 °C
exposure time 1 ms
– 10 – IEC 61987-14:2016  IEC 2016
2 Assigned value Unit
Name of LOP type, block or property
response time 3 ms
…
…
Rated operating conditions
…
Environmental design ratings
Normal environmental conditions

…
minimum ambient temperature –40 °C

maximum ambient temperature 100 °C

..
Normal process conditions
…
minimum operating emissivity 0,05

maximum operating emissivity 1
…
Mechanical and electrical construction [radiation thermometer]
…
Structural design of a radiation thermometer
…
type of target marking View finder
…
type of view finder TTL
…
Objective
…
measuring distance 1 000 mm
field of view 30 mm
…
…
number of transmitter housings 2
Transmitter housing_1
…
type of housing Electronic housing
…
degree of protection IP66
…
Transmitter housing_2
…
type of housing Protective and cooling/
heating housing
…
degree of protection IP69
…
2 Assigned value Unit
Name of LOP type, block or property
Purge system
type of purge Air purge with extension
tube
…
Power supply
number of electrical power input circuits 1
Electrical power input circuit_1
…
minimum rated voltage 11 V
maximum rated voltage 30 V
type of voltage DC
…
…
4.4.2 DLOP “Insert/element”
A temperature assembly is to have an insert/element with a PT100 sensing element. The
“Insert/element” DLOP might be configured as shown in Table 2, whereby (“…” indicates a
property or properties that have not been used).
Table 2 – Example for “Insert/element”
3 Assigned value Unit
Name of LOP type, block or property
…
Input
number of measured variables 1
Measured variable_1
…
Type of measured variable
measured variable type Temperature measurement
Temperature measurement
measured variable type Temperature measurement
type of temperature measurement RTD PT100
measuring principle Resistance measurement
Measuring range for temperature
lower range-limit of temperature –50 °C
upper range-limit of temperature 450 °C
minimum span for temperature
maximum turndown ratio
zero adjustment temperature value 0 °C
…
…
Number of outputs 1
______________
In the CDD, block names start with a capital letter, property names with a lower case letter.

– 12 – IEC 61987-14:2016  IEC 2016
3 Assigned value Unit
Name of LOP type, block or property
Output_1
Type of output
output type RTD/thermocouple probe output
RTD/thermocouple probe output
output type RTD/thermocouple probe output
type of temperature sensing element RTD thin film
designation of temperature sensing element PT100
style of connection 4 wire
reference standard IEC 60751
number of flying leads 4
Flying lead_1
designation of lead I+
description of lead Measuring current (+)
material of conductor Copper, silver plated
material of insulation PTFE
colour of lead Red
length of lead 80 mm
core cross-section AWG 28
Flying lead_2
designation of lead I-
description of lead Measuring current (-)
material of conductor Copper, silver plated
material of insulation PTFE
colour of lead Red
length of lead 80 mm
core cross-section AWG 28
Flying lead_3
designation of lead U+
description of lead Measured voltage (+)
material of conductor Copper, silver plated
material of insulation PTFE
colour of lead White
length of lead 80 mm
core cross-section AWG 28
Flying lead_4
designation of lead U-
description of lead Measured voltage (-)
material of conductor Copper, silver plated
material of insulation PTFE
colour of lead White
length of lead 80 mm
core cross-section AWG 28
…
Performance of temperature measuring devices

3 Assigned value Unit
Name of LOP type, block or property
Response time t50 in water 6 s
Response time t50 in air 15 s
Response time t90 in water 13 s
Response time t90 in air 35 s
…
Accuracy class A
Reference standard for accuracy class IEC 60751
Rated operating conditions
Environmental design ratings
Normal environmental conditions
number of ambient temperatures 1
Ambient temperature_1
operating temperature 20 °C
minimum ambient temperature –50 °C
maximum ambient temperature 200 °C
vibration resistance
reference standard for vibration resistance IEC 60751
mechanical shock resistance
reference standard for mechanical shock resistance IEC 60751
Mechanical and electrical construction
Overall dimensions and weight [1]
…
length 400 mm
width 44 mm
height 444 mm
…
Structural design
Structural design of an insert/element
standardized type of insert/element DIN43765-61-M-I-315
reference standard for insert/element DIN43765
type of connection to thermowell
type of connection to thermowell extension
type of connection to connection head Washer with spring-loaded
screws
…
length 315 mm
diameter of rod 6 mm
diameter of tip 6 mm
diameter of head 45 mm
shape of tip Straight
Material of sheath
designation of material Stainless steel
material code 1.4301
reference standard for material code EN 10027-2

– 14 – IEC 61987-14:2016  IEC 2016
3 Assigned value Unit
Name of LOP type, block or property
thickness of sheath 0,6 mm
insulation material between the sensing element wires Alumina powder
insulation material of sensing element wires Alumina powder
type of insert/element terminal block
type of insert/element mounting Spring-loaded M4 screws
distance of fastening screws 33 mm
number of temperature sensors 1
Temperature sensor_1
quantity of identical temperature sensors 1
type of temperature sensor RTD
style of temperature sensor Thin film
active length of sensor 5 mm
spacing of sensors
insulation resistance of sensor 100 MOhm
material of sensor conductor Platinum
type of sensor isolation Alumina powder
RTD
style of wiring 4 wires
…
reference standard for type of RTD sensor IEC 60751
Certificates and approvals
Quality certificate
Material test certificate
type of material test certificate 3.1 certificate
…
reference standard EN 10204
…
…
Annex A
(normative)
Operating list of properties for temperature measuring equipment

The OLOP has been created for all types of temperature measuring equipment. This OLOP is
assigned to the area of temperature measuring equipment in the classification scheme for
process measuring equipment (see Table A.1 in IEC 61987-11:2012):
– temperature transmitter IEC-ABA835
– temperature gauge IEC-ABA672
NOTE The OLOP is also to be found in the Properties Tree field and has the ID IEC-ABF867.
The OLOP is available with all blocks and properties in the IEC CDD at:
http://std.iec.ch/cdd/iec61987/iec61987.nsf/TreeFrameset?OpenFrameSet&ongletactif=1

______________
Website checked 2016 02 05.
– 16 – IEC 61987-14:2016  IEC 2016
Annex B
(normative)
Device lists of properties for temperature measuring equipment

B.1 Temperature gauges
The DLOP for a temperature gauge is assigned to the following node of the classification
(see Table A.1 of IEC 61987-11:2012):
– temperature gauge IEC- ABA672
NOTE The DLOP is also to be found in the Properties Tree and has the ID IEC- ABE759.
The DLOP is available with all blocks and properties in the IEC CDD at:
http://std.iec.ch/cdd/iec61987/iec61987.nsf/TreeFrameset?OpenFrameSet&ongletactif=1 .
B.2 Temperature transmitters
B.2.1 Contact temperature transmitter
The DLOP for a temperature transmitter (contact temperature transmitter) is assigned to the
following node of the classification:
– contact temperature transmitter IEC-ABA837
NOTE The DLOP is also to be found in the Properties Tree and has the ID IEC-ABE760.
The DLOP is available with all blocks and properties in the IEC CDD at:
http://std.iec.ch/cdd/iec61987/iec61987.nsf/TreeFrameset?OpenFrameSet&ongletactif=1 .
B.2.2 Radiation thermometer
The DLOP for a radiation temperature transmitter (non-contact temperature transmitter) is
assigned to the following node of the classification:
– radiation temperature transmitter IEC-ABE341
NOTE The DLOP is also to be found in the Properties Tree and has the ID IEC-ABE761.
The DLOP is available with all blocks and properties in the IEC CDD at:
http://std.iec.ch/cdd/iec61987/iec61987.nsf/TreeFrameset?OpenFrameSet&ongletactif=1 .
B.2.3 Temperature transmitter
The DLOP for a temperature transmitter is assigned to the following node of the classification:
– temperature transmitter (generic) IEC-ABE757
NOTE The DLOP is also to be found in the Properties Tree and has the ID IEC- ABE767.
______________
The DLOPs of Annex B correspond to the general classification scheme for measuring equipment to be found in
Annex A of IEC 61987-11:2012. DLOPs not referencing Annex A have been added to the CDD since
publication. Edition 2 of IEC 61987-11, currently in circulation, contains the additions and changes made to the
classification in the CDD since the publication of Ed. 1 in 2012.
Website checked 2016 02 05.
The DLOP is available with all blocks and properties in the IEC CDD at:
http://std.iec.ch/cdd/iec61987/iec61987.nsf/TreeFrameset?OpenFrameSet&ongletactif=1 .
B.3 Components
B.3.1 Temperature connection head
The DLOP for a temperature connection head is assigned to the following node of the
classification (see Table A.1 of IEC 61987-11):
– temperature connection head IEC-ABA848
NOTE The DLOP is also to be found in the Properties Tree and has the ID IEC- ABE762.
The DLOP is available with all blocks and properties in the IEC CDD at
http://std.iec.ch/cdd/iec61987/iec61987.nsf/TreeFrameset?OpenFrameSet&ongletactif=1 .
B.3.2 Insert/element
The DLOP for an insert/element is assigned to the following node of the classification
(see Table A.1 of IEC 61987-11):
– insert/element IEC-ABE362
NOTE The DLOP is also to be found in the Properties Tree and has the ID IEC- ABE763.
The DLOP is available with all blocks and properties in the IEC CDD at
http://std.iec.ch/cdd/iec61987/iec61987.nsf/TreeFrameset?OpenFrameSet&ongletactif=1 .
B.3.3 Separate temperature transmitter
The DLOP for a transmitter, in the sense of a component in a temperature measurement
assembly, is assigned to the following node of the classification
– separate temperature transmitter IEC-ABE446
NOTE The DLOP is also to be found in the Properties Tree and has the ID IEC-ABE764.
The DLOP is available with all blocks and properties in the IEC CDD at
http://std.iec.ch/cdd/iec61987/iec61987.nsf/TreeFrameset?OpenFrameSet&ongletactif=1
B.3.4 Thermowell
The DLOP for a thermowell (protective tube) is assigned to the following node of the
classification (see Table A.1 of IEC 61987-11):
– thermowell IEC-ABA860
NOTE The DLOP is also to be found in the Properties Tree and has the ID IEC-ABE765.
The DLOP is available with all blocks and properties in the IEC CDD at:
http://std.iec.ch/cdd/iec61987/iec61987.nsf/TreeFrameset?OpenFrameSet&ongletactif=1 .
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Website checked 2016 02 05.
– 18 – IEC 61987-14:2016  IEC 2016
B.3.5 Thermowell extension
The DLOP for a thermowell extension is assigned to the following node of the classification:
– thermowell extension IEC-ABE664
NOTE The DLOP is also to be found in the Properties Tree and has the ID IEC-ABE766.
The DLOP is available with all blocks and properties in the IEC CDD at:
http://std.iec.ch/cdd/iec61987/iec61987.nsf/TreeFrameset?OpenFrameSet&ongletactif=1

______________
Website checked 2016 02 05.
Annex C
(normative)
Property library
The properties used in the OLOP in Annex A and DLOPs in Annex B are available with all
attributes in the IEC CDD at:
http://std.iec.ch/cdd/iec61987/iec61987.nsf/TreeFrameset?OpenFrameSet&ongletactif=1 .

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Website checked 2016 02 05.
– 20 – IEC 61987-14:2016  IEC 2016
Annex D
(normative)
Block library for considered device types

The blocks used in the OLOPs in Annex A and DLOPs in Annex B are available with all
attributes in the IEC CDD at:
http://std.iec.ch/cdd/iec61987/iec61987.nsf/TreeFrameset?OpenFrameSet&ongletactif=1 .

______________
Website checked 2016 02 05.
Bibliography
IEC 60050 (all parts), International Electrotechnical Vocabulary
(available at IEC 60079-0:2011, Explosive atmospheres – Part 0: Equipment – General requirements
IEC 60947-5-6:1999, Low-voltage switchgear and controlgear – Part 5-6: Control circuit
devices and switching elements – DC interface for proximity sensors and switching amplifiers
(NAMUR)
IEC 61298-1:2008, Process measurement and control devices – General methods and
procedures for evaluating performance – Part 1: General considerations
IEC 61298-2:2008, Process measurement and control devices – General methods and
procedures for evaluating performance – Part 2: Tests under reference conditions
IEC 61298-3:2008, Process measurement and control devices – General methods and
procedures for evaluating performance – Part 3: Tests for the effects of influence quantities
IEC 61360-1, Standard data elements types with associated classification scheme for electric
items – Part 1: Definitions – Principles and methods
IEC 61360-2, Standard data element types with associated classification scheme for electric
components – Part 2: EXPRESS dictionary schema
IEC 61360-5, Standard data element types with associated classification scheme for electric
components – Part 5: Extensions to the EXPRESS dictionary schema
IEC 61784-1:2014, Industrial communication networks – Profiles – Part 1: Fieldbus profiles
IEC 61987-1, Industrial-process measurement and control – Data structures and elements in
process equipment catalogues – Part 1: Measuring equipment with analogue and digital
output
IEC 61987-92, Industrial-process measurement and control – Data structures and elements in
process equipment catalogues – Part 92: Lists of properties (LOP) of measuring equipment
for electronic data exchange – aspect LOPs
ISO 15926-2, Industrial automation systems and integration – Integration of life-cycle data for
process plants including oil and gas production facilities – Part 2: Data model
ISO TS 15926-4, Industrial automation systems and integration – Integration of life-cycle data
for process plants including oil and gas production facilities – Part 4: Initial reference data
ISO 13584-25, Industrial automation systems and integration – Parts library – Part 25: Logical
resource: Logical model of supplier library with aggregate values and explicit content
ISO 13584-42, Industrial automation systems and integration – Parts library – Part 42:
Description methodology: Methodology for structuring part families
______________
Under consideration.
Under consideration.
– 22 – IEC 61987-14:2016  IEC 2016
CWA 15295: 2005-08, Description of References and Data Models for Classification
ISA-TR20.00.01: 2001, Specification Forms for Process Measurement and Control
Instruments. Part 1: General Considerations
NE 100 Version 3.2: 2010, Use of Lists of Properties in Process Control Engineering
Workflows
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– 24 – IEC 61987-14:2016  IEC 2016
SOMMAIRE
AVANT-PROPOS . 25
INTRODUCTION . 27
1 Domaine d'application . 29
2 Références normatives . 29
3 Termes et définitions . 30
4 Généralités . 30
4.1 Vue d'ensemble . 30
4.2 Considérations spéciales . 30
4.3 Représentation des OLOP et des DLOP . 31
4.4 Exemples d'utilisation de blocs DLOP . 31
4.4.1 DLOP "Thermomètre à rayonnement" . 31
4.4.2 DLOP "Insert/élément" .
...