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Disclosure to Promote the Right To Information
Whereas the Parliament of India has set out to provide a practical regime of right to information for citizens to secure access to information under the control of public authorities, in order to promote transparency and accountability in the working of every public authority, and whereas the attached publication of the Bureau of Indian Standards is of particular interest to the public, particularly disadvantaged communities and those engaged in the pursuit of education and knowledge, the attached public safety standard is made available to promote the timely dissemination of this information in an accurate manner to the public.
इंटरनेट मानक
“!ान $ एक न' भारत का +नम-ण”Satyanarayan Gangaram Pitroda
“Invent a New India Using Knowledge”
“प0रा1 को छोड न' 5 तरफ”Jawaharlal Nehru
“Step Out From the Old to the New”
“जान1 का अ+धकार, जी1 का अ+धकार”Mazdoor Kisan Shakti Sangathan
“The Right to Information, The Right to Live”
“!ान एक ऐसा खजाना > जो कभी च0राया नहB जा सकता है”Bhartṛhari—Nītiśatakam
“Knowledge is such a treasure which cannot be stolen”
“Invent a New India Using Knowledge”
है”ह”ह
IS 14776-2 (2000): Industrial Automation - Shop FloorProduction, Part 2: Application of the Reference Model forStandardization and Methodology [PGD 18: Industrial andProduction Automation Systems and Robotics]
IS 14776 ( Part 2 ) : 2000 lSO/TR 10314-2 : 1991
Indian Standard
INDUSTRIAL AUTOMATION - SHOP FLOOR PRODUCTION
PART 2 APPLICATION OFTHE REFERENCE MODEL FOR STANDARDIZATION AND METHODOLOGY
ICS 25.040.40
0 BIS2000
BUREAU OF INDIAN STANDARDS MANAKBHAVAN,9 BAHADURSHAHZAFARMARG
NEW DELHI 110002
August2000 Price Group 14
Industrial and Production Automation Systems and Robotics Sectional Committee, BP/PE 18
NATIONAL FOREWORD
This Indian Standard ( Part 1 ) which is identical with ISO/TR 103 14-2 : 1991 ~‘Industrial automation - Shop floor production - Part 2 : Application of the reference model for standardization and methodology’ issued by the International Organization for Standardization ( IS0 ), was adopted by the Bureau of Indian Standards on the recommendations of the Industrial and Production Automation Systems and Robotics, Sectional Committee and approval of the Basic & Production Engineering Division Council.
This standard describes Reference Model for Standardization and Methodology for identification of standard requirements for industrial automation. This Part deals with the ‘Application ofthe Reference Model and Methodology’ to the general area of industrial automation.
There is another standard on this subject which is published as Part 1 of this standard and is related to the requirements for reference model for standardization and its methodology for’identification of requirements.
The text of the IS0 Standard has been approved as suitable for publication as Indian Standard without deviations. Certain conventions are, however, not identical to those used in Indian Standards. Attention is particularly drawn to the following:
a) Wherever the words ‘report’ appear referring to this standard, they should-be read as ‘Indian Standard’.
b) Comma ( , ) has been used as a decimal marker in the International Standard while in Indian Standards, the current practice is to use a point ( . ) as the decimal marker.
Wherever the reference of IEC 44 and IEC 65 is given, these may be referred to corresponding sectional committees of ETDC, however corresponding to ISO/TC 184 and its sub committees/working groups, the work is being looked after by BP 18 under BPDC of Bureauof Indian Standards.
IS 14776(-Part 2) : 2000 ISOm 10314-2 : 1991
Contents
1 Scope
2 Methodology for identification of areas of stanW 2.1 An overview of the reference model 2.2 Procedures 2.3 Classification of areas for standards
3 Guide to using the proceduxes: structured questions 3.1 Structured questions 3.2 ~Procedure Al: Subject-Action Intemlationships 3.3 PmcedmA2: Subject-Subject Interrelationships 3.4 Procedure A3: Action-Action Intemlationships 3.5 ProcedureBl: Wnimntal (Contextual) Interrelationships 3.6 Procedure B2: Vertical Interrelationships
4 Identification of areas for smdardization 18
4.1 Procedure Al 18
4.2 Procedure A2 20
4.3 I’mcedureA3 22
4.4 FrocedureBl 24
4.5 ProcedureB2 25
5 Recommendations
Annexes
A Mapping of existing standah activities onto the model
B Illustrative areas of standards for cells of the matrices
1
9 9
1~0
12
14
l-6
17
25
26
34
(i)
IS 14776 (Part 2) : 2000 ISO/TR 10314-2 : 1991
Indian Standard
INDUSTRIAL AUTOMATION - SHOP FLOOR PRODUCTION
PART 2 APPLICATION OFTHE REFERENCE MODEL FOR STANDARDIZATION AND METHODOLOGY
1 SCOPE
This report presents and describes a means of identifying where new or revised manufacturing standards may be required. It establishes a Reference Model for Shop Floor Production, which is then used as the basis for developing a methodology for the identification and extraction of areas for standards. The assumptions used to develop the Reference Model are:
. the field of interest is the manufacture of discrete parts and in particular the ~production (physical realisation) of these parts,
. the Reference Model needs to be open-ended so that it can be revised to incorporate new technologies, and ’
l the Reference Model needs to be generic in nature so that it can be applied to a wide range of applications and is not directed to a particular organisational structure of manufacturing.
It is emphasised that the Reference Model:
l provides a conceptual framework for understanding discrete parts manufacturing and
. can be usedto identify areas of standards necessary to integrate manufacturing systems.
The Reference Model does not however provide a methodology for designing, implementing, operating and maintaining any existing or future manufacturing automation system There may be a need to develop other Reference Models which can be used for those purposes, perhaps based on the work described in this report. The development of such models is beyond the scope of this technical report.
IS 14776(Part2):2000 ISOm 10314-2 : 1991
2 METHODOLOGY FOR IDENTIFICATION OF AREAS OF STANDARDS
Procedures for using the reference model, a methodology, ate needed for a guide on how to use the reference model, how to identify areas for standardization and subsequently how to derive areas of standards requirements. These procedures are described in detail in the “Reference Model for Manufacturing Standards, Part l”, and are summarised below.
2.1 AN OVERVIEW OF THE REFERENCEMODEL
Discrete Parts Manufacturing has been represented by twelve major functions. These are:
1. Corporate Management 2. Finance
3. Marketing & Sales 4. Research & Development 5. Product Design 8z Production Engineering
6. Production management 7. Procurement 8. Shipping 9. Waste Material Treatment 10. Resources management 11. Maintenance Management 12. Shop Floor Production
The Reference Model &scribed here concentrates on the last of these twelve functions, Shop Floor Production, and its environment or Context Functions, which constitute the first eleven functions. Shop Floor Production is the primary function directly engaged in producing parts.
Shop Floor Production is represented in Part 1 by a four level Shop Floor Production Model or SFPM. It is quite likely that specific manufacturing implementations may require more or less than four levels, but four levels seem sufficient for the purpose of identifying areas of standards. The
four levels of activity are as shown in Figure 1 (reproduced from Part 1). namely:
Level 1 Equipment. Execute shop floor production processes.
Level 2 Station. Command shop floor production processes.
Level 3 Cell. Coordinate shop floor production processes.
Level 4 Section/~a.
Supervise shop floor production processes.
2
IS 14776(Part2):2ooo ISO/TTl 10314-2 : 1691
Level Sub-Actlvlty Responsiblllty
4 Section Supervise shop Supervising hnd coordinating the /Area floor production production and supporting the jobs
process and obtaining and allocating resources to the jobs
3 Cell Co-ordinate shop Sequencing and supervising floor production the jobs at the shop floor process production process
2 Station Command shop Directing and co-ordinating floor production the shop floor production process process
1 Equipment Execute shop Executing the job of shop floor floor production production according to commands process
Figure I - Shop FloorProduction Model (SFPM)
A Generic Activity Model or GAM has been developed to model the execution of the various activities at each of the four levels, as shown in Figure 2 (reproduced from Part 1). The internals
of the GAM represent an interrelated set of four subjects and four actions.
The four subjects are:
a) Control Information which includes:
0)
(ii)
(iii)
( iv)
command information, normally flowing from a higher level to a lo_wer level, which initiates, alters or terminates an activity,
status information which is generated in direct response-to acommaradaild normally flows in the opposite direction to the command,
request information which corresponds to control information for control interaction within a level (peer to peer), if any, and
response information -which corresponds to~status information for control interaction within a level (peer to peer), if any.
3
IS 14776 ( Part 2 ) : 2000 ISO~R 10314-2 : 1991
b) Data: all information other than control information required for or resulting
from the performance of an activity.
c> Material: Material is a production object of the manufacturing activity. Material
includes all the physical matter that enters the product during manufacturing: raw
materials, parts and assemblies, auxiliary materials, products and scrap material.
d) Resources: Resources are all the physical means required to carry out the
manufacturing that are not Material. Resources include transform, transport,
verify and storage equipment; tools and fixtures; data processing and
communication systems; software; basic resources such as supply material,
energy, space and time; and personnel.
The four actions are:
a>
b)
c>
d)
Transform: The act of changing control information, data, material or resources
from one form to another form, or one state to another state. Transform includes
encoding or parsing information, decomposing commands, and cutting, fomling,
assembling, or adjusting material or resources.
Transport: The act of moving control information, data, material, or resources
from one point in the enterprise to another.
Verify: The act of assessing the compliance of all transformed control
information, data, material and resources to determine their conformance to a
specification.
Store: The act of retaining control information, data, material or resources at a
specified location within Shop Floor Production until they are required to be
transported.
4
IS 14776(Part2):2000 ISO/TR 10314-2:1991
Material * ~ Material l
Information **
Resources
{ TP, TF, VE, ST) Information **
Resources
Information ** Resources
Information ** Resources
* Actions (TP, TF, VE, ST) on Material are defined only at Level 1
-TP = Transport TF = Transform VE = Verify ST = Store
l l Jnformation is defined in the text to include both control and data components. For strict hierarchies, horizontal -Information flows are restricted to data components
Figure 2 - Generic Activity Model (GAM)
IS 14776(Patt2):2000 ISWTR 10314-2:1991
2.2 PROCEDURES
As described above, the environment of the Shop Floor Production Model is represented by eleven context functions. The activities on each level can be represented by specific activity models corresponding to instances of the Generic Activity Model at the four levels of the SFPM.
Two types of procedures, A and B, have been developed to be applied to the Shop Floor Production Model and the Generic Activity Model in order to identify areas of standards requirements. Procedures of type A deal with interactions of subjects and actions within one GAM on a specific level. procedures of type B deal with interactions between the SFPM and its context functions, as wellas with interactions between two GAMs located at adjacent levels of the SFPM. Note that the subject “material” is defined only at level 1 of the SFPM.
Procedures A: the “Interrelationship within a level” procedures
These procedures are used for extracting areas of standards for interrelationship between Subject and Action, Subject and Subject, and Action and Action corresponding to each level of the SFPM.
For each activity, these procedures should be applied to extract areas where standards may
apply -
Procedure Al: Subject-Action interrelationship
For each activity in each level of the SFPM, consider any possible Subject-Action interrelationship for applicable areas of standards.
Procedure A2: Subject interrelationship
For each-activity in each level of the SFPM, consider any possible Subject-Subject interrelationship for applicable areas of standards.
Procedure A3: Action interrelationship
For each activity in each level of the SFPM, consider any possible Action-Action interrelationship for applicable areas of standards.
Procedures B: the “External” procedures
These procedures are used for extracting areas of standards for interrelationship between activities of the subjects of Shop Floor production and its manufacturing context in both a vertical (between levels) and contextual (horizontal, on the same level) structum.
For each activity these procedures should be applied to extract-areas where standards may
apply.
6
IS 14776(Part2):2000 ISO/lR 10314-2:1991
F%ocech.m B 1: Horizontal (Contextual) interrelationship
Consider any possible interrelationships between activities between the subjects of Shop Floor Production and its manufacturing context for applicable areas of standards.
Procedure B2: Vertical interrelationship
For each level of the SFPM consider any possible Subject interrelationship with the levels above and below for applicable areas of standards, and hence relevant Subject attributes. Note that there is no level to be considered below level 1, while the context functions should be considered as forming the level above level 4.
For each of these procedures matrices are developed in chapter 3 whose elements correspond to areas for standardization, and which can be populated by applying the procedures above.
2.3 CLASSIFICATION OF AREAS FOR STANDARDS
Part 1 of the Reference Model introduced an overall approach to identifying areas for standards (in Figure 5 of that document). However when extracting areas for standardization it is necessary to interpret the identified areas in terms of relevant technologies, and in terms of the qualities desired from the standards. The following Figure 3 shows how the general issues raised by the ‘*
Procedures of Part 1 (Al,A2,AS,Bl,B2) are made concrete by the introduction of the two concepts of Standard Viewpoints and Base Technologies.
The standard viewpoints are:
Performance Safety Compatibility Operability Reliability Maintainability Environment Description Qualification
The Base Technologies may change over time. BTs being considered at the present are:
Information Material / Products Product/Production Tool/Device Instrumentation/Control Computer and Communication Human Interface
i
8
s&u !odnna !A sa!bo~ouy3e~ eseg
JO sullal U! uo!geleAdlatul
-
-
C66C : z-tr CCOL ullosI OOOZ:(tWJd)9UPC SI
tS 14776(Part2):2666 ISO/lTi 10314-2 : 1691
3 GUIDE TO USING THE PROCEDURES: STRUCTURED QUESTIONS
This chapter provides a guide on how the matrices can be populated with identified areas for standardization, by means of the concept of ‘structured questions’ and some examples. The task of sample matrix population will be performed in Chapter 4.
3.1 STRUCTURED QUESTIONS
The A and B type procedures of Chapter 2 can be recast in a generic form of structured question which uses the concepts of actions, subjects, viewpoints and BTs, and for which the process of formulation is itself a process of identification of areas of possible standards requirements. The replacement of the generic concepts shown between braces ” { . . . } ” by particular concepts leads to specific questions whose answers are specific to the area of interest.
So in the following reformulation,
{viewpoint} can be replaced by any of Performance, Safety, Compatibility, Operability, Reliability, Maintainability, Environment, Description or Qualification;
<subject} can be replaced by any of Control Information, Data, Material or Resource;
{action) can be replaced by any of Transform, Transport, Verify or Store;
{level} can be replaced by any of Section/Area, Cell, Station or Equipment;
and (BT} can be replaced by any of Information, Material/ Products, Product/Production, Tool/Device, InstrumentationlContiol, Computer and Communication or Human Interface.
The five procedures then become five structured questions, which have the general form of “Are there or should therebe (viewpoint} standards for significant interactions between XYZ, realised in ~(BT} technology”, where XYZ represents an “inner question” which depends on the particular procedure. So the specific forms are:
SQ-Al: Are there or should there be {viewpoint) standards for significant interactions between {subject) and {action) at the {level) level, realised in {BT) technology?
SQ-A2: Are there or should there be (viewpoint) standards for sign-%ictit interactions between (subject} and (subject} at the (level) level, realised in (BT} technology?
SQ-A3: Are there or should there be (viewpoint) standards for significant interactions between {action) and {action} at the flevel_) level, realised in iBT} technology?
. 9
IS 14776(Part2):2000 ISOm 10314-2 : 1991
SQ-Bl: Are there or should there be {viewpoint} standards for significant interactions between (subject} of Shop Floor Production and its manufacturing context, realised in {BT} technology?
SQ-B2: Are there or should there be {viewpoint} standards for significant interactions between {subject} at {level} and {subject} at the levels above -or below, realised in {BT) tee hnolog y ?
As described in Part 1, the procedures can be represented in matrix form (as shown in Part l’s Figure 6). With this reformulation, the concepts {subject}, (action), {level}, {viewpoint} and {BT} can be used to label each axis (dimension) as appropriate. Because the inclusion of viewpoint and BTs results in about a hundredfold increase in the size of the matrices, they will be omitted in the following general discussion on populating the matrices, although their use may well be justified and necessary in particular circumstances. In particular, they will need to be re- introduced when considering the correspondence between the identified needs for standards anc& areas where actual standards exist or are being developed.
It is also necessary to distinguish between the problems of identifying an area where standards may be required (the objective of the Reference Model) and that of giving a name to such an area. Such a name needs to distinguish the area from others where necessary, but also to associate it with other areas where they should sensibly be aggregated (consolidated) into a larger standards area which applies across several levels, subjects, actions or viewpoints etc. Examples might be requirements for documentation of software, or a concern for traceability. The Reference Model does not itself help with these processes of naming or aggregation (consolidation). However the use of the concepts to label dimensions allows artificial names to be constructed for individual standards areas in the form of matrix coordinates.
For completeness, the following section elaborates the questions for each procedure (structured question).
3.2 PROCEDURE Al: SUBJECT-ACTION INTERRELATIONSHIPS
In procedure Al one is concerned with an individual Generic Activity Model (GAM) at a given level of the Shop Floor Production Model (SFPM), and tries to identify areas for standardization which may suggest themselves when contemplating the interrelation between subjects and actions within the GAM at the given level.
When each concept of SQ-Al is elaborated, this becomes “should there be or are there already standards to relate:
Clause 4.1 gives some possible interpretations for this structured question.
10
1 Level?”
IS 14776 ( Part 2 ) : 2ooo ISO/TR 10314-2 : 1991
The corresponding matrices for levels 1 to 4 are given in Figure 4. Note that Material is considered only at Level 1.
CONTROL INFORMATION
DATA MATERIAL RESOURCES
TRANSFORM 1 .Tf.C 1 .Tf.D 1 .Tf.M 1 .Tf.R
TRANSPORT 1 .Tp.C 1 .Tp.D 1 .Tp.M 1 .Tp.R
VERIFY 1 .v.c 1 .V.D 1 .V.M 1 .V.R
STORE I
1 .s.c 1 .S.D 1 .S.M I
1 .S.R I
PROCEDURE Al at level 1, Equipment
I CONTROL INFORMATION I
DATA I
RESOURCES I
1 TRANSFORM 1 2.Tf .C I 2.Tf.D 2.Tf.R I I I
I I
I
1 TRANSPORT 1 I I
1
2.Tp.C 2.Tp.D 2.Tp. R I
VERIFY 2.v.c 2.V.D 2.V.R
STORE 2.s.c 2.S.D 2.S.R
~PROCEDURE Al at level 2, Station
CONTROL INFORMATION
DATA RESOURCES
TRANSFORM 3.Tf .C 3.Tf.D 3.Tf.R
TRANSPORT 1 3.Tp.C I ” 3.Tp.D 1 3.Tp.R
VERIFY I 3.v.c I 3.V.D I 3.V.R
STORE I 3.s.c I 3.S.D I 3.S.R
PROCEDURE Al at level 3. Cell
I CONTROL INFORMATION
DATA RESOURCES I
1 TRANSFORM 1 4.Tf .C I 4.Tf.D I 4.Tf .R I TRANSPORT 4.Tp.C 4.Tp.D 4.Tp. R
I
I VERIFY I 4.v.c I 4.V.D I 4.V.R I
STORE 1 4.s.c I 4.S.D 4.S.R I
PROCEDURE Al at level 4, Section/Area
Figure 4 - Matrices for Procedure Al: Subject-Action Interrelationships
IS 14776(Part2):2000 ISO/TR 10314.2:lQQl
3.3 PROCEDURE A2: SUBJECT-SUBJECT INTERRELATIONSHIPS
For procedure A2 one again considers an individual GAM at a particular level of the SFPM, but this time considering the interrelation between the subjects of control information, material (at level 1 only), resources and data.
When each concept of SQ-A2 is elaborated, this becomes “should there be or are there already standards to relate:
{ ~orrnation } ’ with {formation} at the pilent} Level?”
Clause 4.2 gives some possible interpretations for this structured question.
The corresponding matrices for levels 1 to 4 are given in Figure 5. (Material is to be considered only at Level 1.)
12
IS 14776 ( Part 2 ) : 2000 ISO/TR 10314-2 : 1991 ’
CONTROL INFORMATION
DATA MATERIAL RESOURCES
CNTRL. INFO. 1 .c.c 1 .C.D 1 .C.M l.C.R
DATA l.D.C 1 .D.D 1 .D.M 1 .D.R
MATERIAL 1 .M.C 1 .M.D 1 .M.M 1 .M.R
RESOURCES 1 .R.C 1 .R.D 1 .R.M 1 .R.R
PROCEDURE A2 at level 1, Equipment
CONTROL INFORMATION
DATA RESOURCES
CNTRL. INFO. 2.c.c 2.C.D 2.C.R -
DATA 2.D.C 2.D.D 2.D.R
RESOURCES 2.R.C 2.R.D -2.R.R
PROCEDURE A2 at level 2, Station
I CONTROL INFORMATION
DATA R-ESOURCES I
CNTRL. INFO. 3.c.c 3.C.D 3.C.R
DATA 3.D.C 3.D.D 3.D.R
RESOURCES 3.R.C 3.R.D 3.R.R I
PROCEDURE A2 at level 3, Cell
CONTROL INFORMATION
DATA RESOURCES
CNTRL. INFO. 4.c.c 4.C.D 4.C.R
DATA 4.D.C 4.D.D 4.D.R
RESOURCES 4.R.C 4.R.D 4.R.R
~PROCEDURE A2 at level 4, Section/Area
Figure 5 - Matrices for Procedure A2: Subject-Subject Interrelationships
13 -
IS 14776(Part2):2ooO ISO/TR 10314-2 : 1991
3.4 PROCEDm A3: ACTION-ACI’ION ~TIONSHIPS
Procedure A3 examines the interrelation of actions within a GAM at a given level of the SFPM.
When each concept of SQ-A3 is elaborated,this becomes “should there be or are there already standards to relate:
{fgz} with{ g$}atthe {gint} Level?”
Clause 4.3 gives some possible interpretations for this structured question.
The corresponding matrices for levels 1 to 4 a~ given in Figure 6.
iS 14776(Part2):2000 ISOm 10314-2 : 1991
I I I I I TRANSFORM TRANSPORT VERIFY STORE
. TRANSFORM 1 .Tf .Tf 1 .Tf .Tp l.Tf.V 1 .Tf .S
TRANSPORT 1 .Tp.Tf 1 .Tp.Tp 1 .Tp.V 1 .Tp.S
VERIFY
STORE
1 .V.Tf 1 .V.Tp 1 .v.v 1 .v.s
1 .S.Tf 1 .S.Tp 1 .s.v 1 .s.s
PROCEDURE A3 at level 1, Equipment
I 1 TRANSFORM 1 TRANSPORT 1 VERIFY 1 STORE
TRANSFORM P.Tf.Tf 2.Tf.Tp 2.Tf.V 2.Tf .S I
1 TRANSPORT j 2.Tp.Tf 1 2.Tp.Tp 1 2.Tp.V 1 2.Tp.S 1
VERIFY
STORE
2.V.Tf
2.S.Tf
2.V.Tp
2.S.Tp
2.v.v 2.v.s
2.s.v 2.s.s
PROCEDURE A3 at level 2, Station
TRANSFORM TRANSPORT VERIN STORE
TRANSFORM 3.Tf.Tf 3.Tf.Tp 3.Tf .V 3.Tf.S
TRANSPORT 3.Tp.Tf 3.Tp.Tp 3.Tp.V 3.Tp.S
VERIFY 3.V.Tf 3.V.Tp 3.v.v 3.v.s
STORE I
3.S.Tf 3S.Tp
PROCEDURE A3 at level 3, Cell
3.s.v I 3.s.s
1
TRANSFORM TRANSPORT VERIFY STORE
TRANSFORM 4.Tf.Tf 4.Tf.Tp 4.Tf .V 4.Tf .S
1 TRANSPORT 1 4.Tp.Tf I 4.Tp.Tp I 4.Tp.V I 4.Tp.S I
PROCEDURE A3 at level 4, Station/Area
Figure 6 - Matrices for Procedure A3: Action-Action Interrelationships
15
IS 14776(Paft2):2000 lSO/TR 10314-2 : 1991
3.5 PROCEDURE ~1: HORIZONTAL (CONTEXTUAL) INTERRELATI~NSIIIPS
This procedure attempts to identify areas requiring standardization by considering the interface~of the eleven context functions with the shop floor production in terms of subjects.
When each concept of SQ-B 1 is elaborated, this becomes “should there be or are there already standards to relate:
Corporate Management
Marketing and Sales Research and Development Product Des, Production Eng. Control Information
SFP with Production Management in terms of ?”
Waste Material Treatment Resources Management Maintenance Management
Clause 4.4 gives some possible interpretations for this structured question.
The matrix of Figure 7 gives a framework to represent the activities of shop floor production. It appears from Figure 2 of Part 1 that most of corporate management’s, finance’s, marketing and sales’, and research and development’s interrelation with the shop floor production are predominantly established via product design, production engineering and production management. Remaining interrelations can at this time be governed only by guidelines, rather than standards.
coNTRoL INFORMATION DATA MATERIAL RESOURCES
Fl . CORPORATE MANAGEMENT Fl .C Fl .D Fl .M Fl .R
F2. FINANCE F2.C F2.D F2.M F2.R
F3. MARKETING & SALES F3.C F3.D F3.M F3.R
F4. R&D F4.C F4.D F4.M F4.R
F5. PRODUCT.DESIGNIPRODUC!TiON ENG. F5.C, F5.D * FS.hn F5.R
F6. PRODUCTION MANAGEMENT F6.C * F&D F6.M F6.R
F7. PROCUREMENT F7.C F7.D F7.M * F7.R
F8. SHIPPING F8.C F8.D * F8.M* F8.R
F9. WASTE MATERIALTREATMENT F9.C F9.D F9.M * F9.R
Fl 0. RESOURCE MANAGEMENT ~F1O.C F1O.D FIO.M FlO.R*
Fl 1. MAINTENANCE MANAGEMENT Fl1.C” F1l.D F11.M F11.R
PROCEDURE 81
Figure 7 - Matrix for Procedure BI : Horizontal (Contextual) Interrelationships
(The cells marked with asterisks were identified in Figure 2 of Part 1, in Typical Arrangements of Manufacturing Functions’.)
16
IS 14776 ( Part 2 ) : 2000 lSO/TR 10314.2 : 1991
3.6 PROCEDURE B2: VERTICAL INTERRFkATIONSHIPS
Procedure B2 is similar to procedure A2,~except that it deals with theinterrelation of subjects between a GAM onone level and a GAM on levels above or below, and the interrelation is in practice limited to transport of subjects.
When each concept of SQ-B2 is elaborated, this becomes “should there be or are there already
standards torelate:
~~~rmation} transported across the { EZiZEYJ Levels?”
Clause 4.5 gives some possible interpretations for this structured question.
If a transport relationship is identified between shop floor production and the eleven other major discrete part manufacturing functions in terms of subjects, then this relationship should be examined for level-specific standards requirements.
The corresponding matrix is given in Figure 8 for the typical example of interrelations between adjacent levels. Any interrelations between non-adjacent levels can be similarly represented and labelled.
SECTION
CELL
STATION
CONTROL INFORMATION
DATA RESOURCE
413 4/3.c 4/3.D 4/3.R
312 312.C 3/2.D 3/2.R
2/l 2/l .c 2/1.D 2/l .R EQUIPMENT I I I I
PROCEDURE B2
Figure 8 - Matrix for Procgdure B2: Vertkal Interrelationships for djacent levels
17
IS 14776 ( Part2) : 2000 ISO/TR 10314-2:1991
4 IDENTIFICATION OF AREASFOR STANDARDIZATION
The following tables show some example areas of identified standards requirements without reference to viewpoints or base technologies. Viewpoints and base technologies relating to existing standards-making are illustrated in Annex A. Annex B gives the same information, but ordered by the Procedure, Level and Cell identifiers..
In the tables, the entry “x” means no standards area was identified, “-‘I means there is no logical interpretation for the cell and “<c” means the entry is the same as that on the left.
4.1 PROCEDURE Al: Subject-Action interrelationships
There are two interpretations for the subject-action interrelation, corresponding to the two possible directions of actions and subjects; that is actions on subjects, or subjects required for actions.
So one interpretation is the action operating on the subject, as in say the transform of material. A
standard on the material transformation at level 1 corresponds to standard procedures for processing. Standards on the transportation of data at levels 2,3 and 4 correspond to standard protocols for data transmission, for example OS1 standards.
The other interpretation is an interrelation between actions and subjects which are necessary for actions or used in actions. Standards on resources for transformation at level 1 correspond to standards for machine tools, assembling machines,etc. Standards on control information for transformation at level 2 corresponds to standards for numerical control commands, robots control commands, etc.
Both interpretations are considered below.
(i) Action on subject
Al (action on subject): LEVEL-1
Tf
Control Information
Conversion of signals
Data Material
Conversion of signals Processing
TP Transmission of control information
Transmission of data Handrmg of material Transmission of power, Transport of fuel, Transport of tools, Transport of waste material
VI Verification of control information Verification of data
St Buffering of control information Buffering of data
Resource
Assembly of fixture, Training of personnel Conversion of energy
Inspection of material Inspection of machinery
Storage of material Storage of reusable resource (e.g. fixtures, dies, tools)
Note that material is considered only at Level 1.
18
IS 14776 ( Part 2~) : 2000 ISO/TR 10314-2 : 1991
Al (action on subject): LEVEL 2
Tf
TP
Vf
s t
Control informatioa Data
Directing and coordinating Processing of measured data equipment (NC data (industrial unit conversion), interpretation) Processing of resource data
Transmission of control information in/between station(s)
Verification of control information
Storage of control information
Transmission of data in/between station(s)
Verification of data
Storage of data
Resource
Training of personnel
Transmission of power
Monitoring and diagnosis station controller (numerical control, robot, programmable logic controller etc)
Storage of program
Al (action on subject): LEVEL 3
Tf
TP
VI
St
Control information
Controlling jobs
Data
Processing of operational data Processing of ~ewurcc data
Resource
Training of personnel
Transmission of control information in/between cells
Verification of control information
Transmission of data in/between cells
Verification of data
Transmission of power Transmission of program
Monitoring and diagnosis of cell controller
Storage of control information Storage of data Storage of program
Al (action on subject): LEVEL 4
Tf
TP
Vf
St
Control inform&ion
Job planning (including scheduling & resource allocation)
Corm01 information transmission in/between sections
Control information verification
Data
Operational data processing, Resources data processing
Data transmission in/between sections
Data verification
Resource
Human training
Power transmission, program transport
Section controller monitor 8~ diagnostics
Control information storage Data storage Program storage
(ii) Subjects necessary for actions
Al (subject for action): LEVEL 1
Tf
Control infurmatlon x
TP
X
Vf St
X X
Data X X X X
Material
Resource
X
Machine tool, Tool, Fixture
X X =X
Automatic guided Co-ordinate Automatic vehicle, Conveyor, measuring machine, warehouse Pallet Measuring devices
19
IS 14776 ( Part 2 ) : 2000 ISO/TR 10314-2 : 1991
.
Al (subject for action): LEVEL 2
Tf Tp’ . .. Vf St
Control information Commands to machine tool
Comman&*td Commands to Commands to Automatic g&kd Co-ordinate automatic warehouse ‘vehicle/iobot measuring machine
.-
Data Numerical control data
Automatic guided Automatic guided Automatic warehouse vehicle/robot ‘- vehicle/robot control data control. data ? cdntrol data
Resource Station controller cc << <<
Al (subject ‘for action): LEVEL 3
Tf
Control information Job controlling commands
TP
<<
Vf St
<< CC
Data Data for job scheduling (Standard operation procedure; Product model
<< CC
Resource Cell controller << CC <<
Al (subject for action): LEVEL 4
Tf TP Vf St
Control information Job planning commands
Data Data for job scheduling, Product model
<c
<C
CC <c
<< cc
Resource Section controller << << <c
4.2 PROCEDURE A2: Subject-Subject interrelationships
As with Procedure Al, several interpretations are possible for the interrelationships - these are that of a subject with itself, of subjects for subjects and of interfaces between subjects and subjects. All three interpretations are considered below.
(0 A2 (subject with itself)
Level 1 Level 2
Control information Control information definition =x
Data Data definition CC
Material Material definition X
Resource Resource definition c<
Level 3
<<
<<
X
<<
Level 4
<<
<<
X
<<
20
(ii) Subjects for subjects , .
A2 (subject (row) for subject (column)): LEtiL 1
IS 14776 ( Part 2 ) : 2000 lSO/TR 10314-2 : 1991
Control Information
Data
Material
Resource
Control Information _ Data Material
X X X
Control information b
pata presentation Material presentation presentation & @xification & specification & specification,
vocabulary
X X X
Sign-board Bar code label Package
Resource
X
Resource presentation & specification
X
Consumable resource (lubrication oil, filter, etc
A2 (subject (row) for subject (column)): LEVEL 2,3,4
Control information Data Resource
Control information x X X
Data Control information Data presentation Resource presentation presentation & specification 8c specification, & specification
Vocabulary
Resource Physical media (Tape, Flexible disk, etc.)
<< Consumable resource
(iii) Interface between subjects and subjects
A2 (interface between subjects): LEVEL 1
Control information Data Material Resource
Control information x X X X
Data X X X
Material
Resource
-
-
Part fastening Part fixturing
Connector. Device connection, End effector chuck, Modular tool, User interface
A2 (interface between subje‘cts): LEVEL 2,3,4
Control information Data Resource
Control information x X X
Data X X
Resource Connector, User interface
21
IS 14776(Part2):2000 ISO/TR 10314-2 : 1991
4.3 PROCEDURE A3: Action-Action interrelationships
There are three interlmtations for the action-action interrelation.
The first interpretation is an interrelation of ari action with itself. It suggests areas for standardization of relevant action definitions.
The second interpmation is an intemlation of actions which areexecuted simultaneously with close interactions. Standards on interrelation between transformation and verification at level 1 correspond to standards for in-process inspection.
The third interpretation is au interrelation of actions which are always executed sequentially.
All three interpretations are considered below.
As onemexample, standards on the interrelation between transportation and transportation at levels 2,3 and 4 correspond to standards for gateways orbridges of communication network.
(i) Action with itself
A3 (action with itself)
Level 1
Tf Transformation functional definition
TP Transportation functional definition
VI Verification functional definition
St Storage functioruil definition
GO Concurrent actions
A3 (concurrent actions): LEVEL 1
Level 2
c<
<<
<<
<<
Level 3
C<
<<
<<
<<
Level 4
c<
C<
<<
cc
Tf TP
Tf Concurrent processing Processing during transportation
TP - X
Vf -
St -
VI St
In process inspection Aging
In line inspection Live storage. Buffering
In line calibration X
X
A3 (concurrent actions): LEVEL 2,3,4
Tf TP Vf St
Tf Parallel processing x X X
TP - Broad band communication x Buffering
Vf - X X
St - X
22
IS 14776 ( Part 2 ) : 2000 ISO/TR 10314-2 : 1991
(iii) Sequential actions
A3 (sequential actions (row to column)): LEVEL 1
Tf
Tf
X
TP
Positioning at change of action
Vf St
X X
TP
Vf
Positioning at change of action
X
Change of Tp methods
Positioning at change of action
Positioning at Positioning at change of action change of action
X X
St X Positioning at change of action
X X
A3 (sequential actions (row to column)): LEVEL 2,3,4
Tf
TP
Vf
St
Tf
X
Encoding
X
X
TP
Decoding
Gateway. Bridge
Error checking
Logging
VI
X
Error checking
X
X
St
X
Information retrieval
X
X
23
IS 14776 ( Part 2 ) : 2000 ISOER 10314-2 : 1991
4.4 PROCEDURE B 1: Contextual (Horizontal) interrelationships
In filling out the fields of the matrix of Figure 7 an example of a typical question to ask is: ‘What areas of standardization can be identified through the interrelgtion between the specific
context function Product Design and Production Engineering with the shop floor production da ta?’
An answer to this question is “Product description data”. This example could be expanded by considering “Product description data” from theviewpoint of operability, qualification and maintainability with implementations in the Base Technologies of Product/Production, computer/communication and Human Interface.
Control information Data Material
F 1. Corporate Policy, General status management
F2. Finance X
Reports (schedule, X
capacity, quality)
Reports (shop floor X
cosling, pricing information)
F3. Marketing Shop floor production 81 sales order, Order status
F4. R&D X
I; 5~. Product designx /production eng.
Reports (schedule, capacity, quality)
Company standard product models
Engineering information, Prototypes Bill of materials plus drawings, Product models, Process/Operation plans
F6. Production Production schedule, management Production status
Production monitoring data, x Cost data, Quality data, Schedule, Capacity
F 7. Procurement Requests for materials Inventory data
Samples
Physical models
Raw material, Procured parts
Resources
X
Budget
Demonstration facilities
Updates (e.g. software)
Tooling, Software
Software
Storage space
F8. Shipping Product status for shipping Finished products x
Product inventory data
Product information,
F9. Waste material Containers treatment
FlO.Resource Resource request, management Resource status
Fll.Maintenance Maintenance request, management Calibration/
downtime sc$edule
Waste releases Waste description Waste
and quantity
Resource allocation data, x Resources, Services, Resource specification Consumable resources
Maintenance requirement, x Diagnostic programs, Calibration data, Diagnostic devices, Fault reports. Spare parts Machine usage data
24
IS 14776(Part2):2000 ISO/TR 10314-2 : 1991
4.5 PROCEDURE B2:Vertical interrelationships for adjacent .levels
B2 (vertical interrelationship)
l/2
Control information
Command and status for Equipment
Data Resource
Sensor data X
213 Process execution commands and status
Operational data Software updates
314 Job execution command and status
Operational data, Resource allocation data
Software updates
5 RECOMMENDATIONS
Section 4 has shown how tables which identify areas of standards can be generated using the procedures described in section 3. Annexes A and B show corresponding current and iillustrative standards-making activities as of late 1989. Using these annexes, standards-makers can identify potential areas for new work-items, while standards-users can identify some relevant standards for their own enterprise.
It is recommended that IS0 TC184 SC5 and all of its WGs should use TR 10314 - Reference Model for Shop Floor Production Standards, Parts 1 and 2, as an aid in project planning. Other committees such as the IS0 TC184 Advisory Group, other SCs of TC184,~other industrial automation TCs and SCs within IS0 and EC, and the SCIA are also~encouraged to use this model for planning purposes.
Given the flexibility of the model, it should be viable for some period of time, even though the specific examples of Annexes A and B will become outdated. Any gaps or shortcomings that are identified as the Reference Model is increasingly used should be referred to IS0 TC184 SC5
25
IS 14776-( Part 2) : 2000 ISO/TR 10314-2 : 1991
ANNEX A. MAPPING OF EXISTING STANDARDS ACTIVITIES ONTO THE MODEL
This Annex presents the results of reviewing various lists of standards-making activities against the Reference Model for Shop Floor Production Standards. While derived from a large list containing entries for many committees and projects related to manufacturing, information technology and communication standards, the information presented has been restricted to those industrial automation committees within the current scope of the Steering Committee on Industrial Automation (SCIA), that is to current projects within IS0 TC184, IEC TC65 and IEC TC44. The information is based on data gathered in late 1989 and will become outdated as new work items and committee activities are approved. While it represents the best understanding of the Working Group as of -early 1990, it is not intended to be a definitive list, nor to replace any IS0 or IEC list of approved activities.
The-headings for each table area as follows:
Orgn: IS0 or IEC Ctte: The relevant Technical Committee SC: . . . . Subcommittee (where appropriate) WG: . . . . Working Group (where appropriate) Ctte/Doc: Whether the work is an identified Report or Activity
(Rep/Act), or simply an identified general committee scope (Ctte) Scope of Activity or Standards document: (self explanatory) Example Standards Areas: (self explanatory) (Proc) Level Cell: The Procedure used, at what Level, and for which matrix cell.
(Where items appear at all four levels, the keyword “All” is used; an ampersand “&‘I shows where more than one cell is used; a multiplication symbol “*” is used for the product of two sets {so { Tp,V) * (M,R) would denote TpM, TpR, VM, VR))
Viewpoint: As defined in section 2.3 Base Technology: As defined in section 2.3
26
Orgn Ctte SC WG Ctte/Doc Scope of Activity or Standards Dot Example Standards Areas (Proc) Level Cell Viewpoint Base Technology
IEC TC 44 WG3 Rep/Act Electrical Equipment of industrial Machines - Part 1: Resource/Resource (A2) 1 RR Description Device/Tool General Requirements
IEC TC44 WG2 Rep/Act Electrical Equipment of Industrial Machines - Part 3: Ftesource/Flesource (A2) 1 RR Description Device/Tool Industrial Sewing Machines
IEC TC44
IEC TC44
WG5 Rep/Act IEC 558 - NC Equipment for machines Resource/Resource (A2) 2 RR Description Device/Tool
WG5 F&$/Act Interface between Numerical Controls and Ftesource/Resource (82) l/2 R Description Computer & Communi- Industrial Machines cations
I IEC TC 65 SC A WGlO Rep/Act Functtonal Safety of Programmabte Ekctrontc Veiify Resource (A2) 2,3,4 VR Safety Control Systems - Generic Aspects
IEC TC65 SCA WG6 Rep/Act Languageforprogrammablecontrolkr- Appfkatfon languages (inc Part 3)
IEC TC 65 SC A WG6 Rep/Ad PLCs - Part 1: General Information
Transform Control Information (Al) 2,3,4 TfC
Resource Standard (A2) 2,3,4 RR
Compatibility Information Control
Descriptton Contml
IEC TC 65 SC A WG6 Rep/Act PLCs - Part 2: Equipment Characteristics Resource Standard (A2) 2,3,4 RR Performance, Control Compatibility, Descriotion
IEC TC65 SCA WG6 Rep/Act PLCs- Part3: Programming Languages Transfon Control lnformatttn (Al) 2,3,4 TfC Compatibility lnformatton Control
IEC TC 65 SC A WG6 Rep/Act PLCs - Part 4: User Guidelines Data for Resource (A2) 2,3,4 DR Operability, Control Maintainability
IEC TC 65 SC A WG6 Rep/Act PLCs - Part : Messaging Service Specittcatton Transport Control Info/Data (Al) 2,3,4 TpC&?D; Compatibility Communfcation (82) 3i2.4/3 C&D
IEC TC 65 SC A WG8 Rep/Act Definition of test methods for safe operation of Verify Ftesource (Al) All VR Safety Control dtaital industrial-orocess eouiment
I IEC TC 65 SC A WG8 Rep/Act Evaluation of system pmpertks for the purposes of Resource Standard (A2) 2,3,4 RR Performance, Production system assessment (8 parts) Reliability I
IEC TC 65 SC A WG9 Rep/Act Safe Software
IEC TC65 SCA Rep/Act Analog Pneumatic Signals for Process Control Systems
Transform Control Info/Data
Transport Control Info/Data
(Al) All TfCBD
(Al) 1,2 TpC8D; (82) 2/l CBD
Safety Information
Compatibility Communication
IEC TC65 SCA Rep/Act Binary Direct Voltage Signals for Process Transport Controf Info/Data (Al) All tpC&D; Compatibility Communicattdn Measurement and Control Systems (82) All C&D
1 IEC TC 65 SC B WG5 Rep/Act Thermocouples - Part l(Amend) - Reference Tables Verify Resource (A2) 1 VR Performance Instrument I
6rgn Ctte SC WG CttelDoc Scope of Activity or Standards Dot Example Standards Areas
IEC TC 65 SC B WG5 Rep/Act Thermocouples - Part 2 (Amend) - Tolerances Resource Standard
iEC TC 65 SC B WG5 Rep/Act Thermocouples - Part 3: Extension (L Compensating Data for Resource Tables - Tolerances 81 Identification System
IEC TC 65 SC B WG9 Rep/Act Control Valves Data Sheet: Sizing equations for Data for Resource low flow control valves
IEC TC 65 SC B WG9 Rep/Act Noise Generated by Liquid Flow through Control Data for Resource Valves (Laboratory Measurement, Prediction)
IEC TC65 SCB Rep/Act Code of Practice for the Calculation of Response Data for Resource Times of Temperature Sensors etc.
IEC TC65 SC B Rep/Act Electrkal, Pneumatic Chart Recorders for Verify Resource Industrial-Process Control Systems - Part 2
(Proc) Level Cell
(A2) 1 RR
(A2) 1 DR
(A2) 1 DR
(A2) 1 DR
(A2) 1 DR
(A2) 1 VR
Viewpoint Base Technology
Compatibility Instrument
Compatibility, Instrument Performance
Compatibility, Instrument Performance
Compatibility, instrument Performance
Compatibility, instrument Performance
Performance Instrument
IEC TC65 SC B Rep/Act General Methods, Procs for Evaluation of Process Verify Resource (A2) All VR Performance instrument Measurement, Control Devices
IEC TC65 SCB Rep/Act Guidance for Inspection, Testing of Transmitters in Verify Resource (A2) 1 VR Performance instrument Industrial-Proc Control Sys - Part 2
IEC TC65 SCB Rep/Act IEC 546 Controffer performance Verify Resource (A2) 2,3,4 VR Performance, Control Reliability, Compatability
IEC TC65 SCB
IEC TC65 SCB
Rep/Act Evaluating Performance of Valve Positioners for Verify Ftesource (A2) 1 VR Performance, Control Industrial-Process Control Systems Compatability
Rep/Act Methods for Evaluating Performance of Instruments Verify Resource (A2) 1,2 VR Performance, Control with Two or Multistage Output etc.
IEC TC65 SCB
IEC TC65 SCB
Rep/Act Standard for Fire Safe Control Valves Resource Standard (A2) 1 RR Compatability Production
Rep/Act Standard on Calibration Procedures for Industrial Verify Resource (A2) 1 VR Performance, Instrument Temperature Sensors
I IEC TC65 SCC WGl Rep/Act Development of Reaf-tfme Architecture Transport Control Info/Data (Al) 2,3.4 TpCLkD: Compatability Communfcation (from ISA DS 72.03) (82) 2/1,3/T? C&D I
IEC TC65 SCC WGl Rep/Act PMS - MMS Companion Standard for Process Transport Control Info/Data (Al) 2,3,4 TpCXD; Compatibility Communfcation Control (82) 2/1,3)2;4J3 C&D
IEC TC see WGl Rep/Act Preparation of Standards Profiles for Comms Transport Control Info/Data (Al) 2.3,4 Tp’XD; Compatibility Communicatfon Needs of Process Control fndustry (B2) 3/2,4/3 C&D
Orgn Ctte SC WG CttelDoc Scope of Activity dr Standards Dot Example Standards Areas
IEC TC 65 SC C WG3 Rep/Act Amendments to Interface System for Progratwtabie Resource Standard (I Transport Measuring Instruments, 625-i (Aligning Pts 1:2) Control Info/Data
(Proc) Level Cell
(A2) 1 RR; (Al) 1 TpC&D; (B2) 2/l C&D
Viewpoint Base Technology
Compatibility Control
IEC TC 65 SC C WG3 Rep/Act Interfke Syhtem for Programmable Measuring Resource Standard 81 Transport (A2) 1 RR; Compatibility Control Instruments - Part 1 Control Info/Data (Al) 1 TpC&D;
(82) 2/l C&D
IEC TC 65 SC C WG3 Rep/Act InterfaceSystemfor ProgrammableMeasuring instruments - Part 2
Resource Standard 6 Transport Control Info/Data
(A2)l RR; (Al) 1 TpC&D; @212/l C&D
Compatibility Control
IEC TC 65 SC C WG3 Rep/Act Investigation of a Common Applitition Interface for Transform Control lhfo!Data (Al) 1 TfCdD Compatibility Communication 625-k using or not MMS I
IEC TC65 SCC WG3 Rep/Act PreparationofaModularlnstrument System Standard
Resource Standard (A2) 2,3.4 RR Compatibility Control
IEC TC65 SCC WG6 Rep/Act FetrhsStandard Transport Control Info/Data (Al) 1.2 TpC6o; (82) 2/l C&D
Compatibility Communication
IEC TC65 SCC wG6 Rep/Act PROWAY AllB Transport Contrd Info/Data (Al) 1,2 TpC6D; (82) 2/l CXD
Compatibility Comnwnicatlon
IEC TC65 SCC WG6 ReptAct PROWAY C Transport Control Info/Data (Al) 1,2 TpC&D; (S2) 2/l C6D
Compatibility Comrrwnication
IEC TC65 SCC WG6 Rep/Act PROWAY C(Addendum5MBhand lOMS/s) Transport Control Info/Data (Al) 1,2 TpC&D; Compatibility Comnnmication (82)2/l C&D
IEC TC55
IEC TC65
SWG Rep/Act Protection Against an Explosii Hazard when Resource Standard (A2) 1,2 RR; Safety Production Flammable Gas is Used etc. (82) 2/l R
WGl Rep/Act IEV: Chapter 351- Automatic Control Vocabulary (A2) All DD DesCriptkXl Human Interface
I IEC TC55 WG2 Rep/Act Environmental Conditions - Operating Conditions Resource Standard (A2) All RR Environment Production for lndustriat-Process Measurement - Part 1
I IEC TC65 WG2 ReplAct Environmental Con&ions - Operating Conditions Resource Standard (A2) All RR Environment Production for Industrial-Process Measuretint - Pari 2
I IEC TC65 WG4 Rep/Act Environmental Conditions - Continuous Wave Resource Standard (A2) All RR Environment Pioductii Con&&d hmut&v Reouirements
IEC TC65 WG4 Rep/Act Environmental Condn - Electromagnetii Compati- Resource Standard (AL’) All RR Envirornnent Production bility for Industrial-Process Measurement - Part 2
Orgn Ctte SC WG CttelDoc Scope of Activity or Standards Dot Example Standards Areas (Proc) Level Cell Viewpoint Base Technology I
IEC TC65 WG4 Rep/Act Environmental Condn - Electromagnetic Compati- Resource Standard (A2) All RR Environment Production
bflitv for Industrial-Process Measurement - Part 3 I
IEC TC 65 WG4 Rep/Act Environmental Condn - Electromagnetic Compati- Resource Standard (A2) All RR Environment Production bilfty for Iridustrfal-Process Measurement - Part 5 I
I IEC TC 65 Rep/Act Environmental Conditions - IEC 654, Operating R&okce Standard (A2) All RR Environment Production conditions for measuring and control equipment
IEC TC65 Rep/Act Environmental Conditions - IEC 654, Surge Voltage Resource Standard (A2) All RR Environment Production (Operating Environment;
IEC TC 65 Rep/Act Environmental Conditions - IEC 801, Electromap Resourck Standard (A2) All RR Environment Production netic compatability - (Operating Environment)
IS0 TC 184 SC 1 WG 1 Ctte Extended Formats and Data Structure Transform Control Information (Al) 2 TfC Compatability Information
IS0 TC184 SC1 WG2 Ctte Vocabularv WG2. Title onlv IA21 All DD Descriotion Human Interface
IS0 TC184 SC1 WG3 Ctte Coqanbn Standard to MMS (IS0 9506) Transport Control Information (82) 2/3; 3/4 k Compatability Information
IS0 TC 184 SC 1 Ctte Numerical Cdntrol of Machines SC1 Title onlv
IS0 TC184 SC2 WGl Ctte Terminology and Graphical Representation Data to Data (A2) All Db Description Human Interface
IS0 TC184 SC2 WG2 Ctte Performance and Test Methods Resource Verification (Al) 1.2VR Performance Produclioh
IS0 TC184 SC2 WG3 Cne Safety Transport, Transform, Verify 8 Store (Al) 1 (Tp,Tf,V,S) l (M,R}Safety Production Material 8 Resource
IS0 TC184 SC2 WG4 cni3 Robot Programing Languages - Application Transform Control Information (Al) 1,2 TfC Compatability Information
Languages
IS0 TC184 SC2 WG5 Cite Mechanical Interfaces Transport Ftesouroes (Al) 1 TpR Compatability Production
IS0 TC184 SC2 WG6 Cne Robot Companion Standard to MMS (IS0 9506) Transport Control Information & Data (82) 2I3,3/4 C&D Compatability Communication
IS0 TC 184 SC 2 Cne Performance Testing of Robots Resource Verification (Al) 1,2 VR Performance Production
lsb TC 184 SC2 Cne Robots for Manufacturirig Environment Transport, Transform, (Al) 1 (Tp,Tf,V,SI l (M,Rl Safety Production Verifv & Store Material & Resource
IS0 TC 184 SC 2 Cne Standardised Data Sheets for robots SC2 Title only
IS0 TC184 SC3 WGl Cne Programming Languages for Automatically Transform Control Information & Data (Al) 1,2 TfC Compatability Information Controlled Eauioment
Drgn Ctte SC WQ Ctte/Doc Scope of Activity or Standards Dot Example Staridards Areaa (Proc) Level Cell Viewpoint Base Technology
Iti TC184 SC3 WGl Rep/Act Revision of IS0 4342 CLDATA, 4343 APT - Transform Control Information 6 Data (Al) 2,3 TfC Compatability Production
Application Languages
IS0 TC184 SC3 WG2 Ctte Requirements for a Global Programming Language Beyond SFRM
Environment
IS0 TC184 SC3 Ctte Manufacturing Apptiition Larguages SC3 Title onfy
IS0 TC 184 SC 4 WG 1 Rep/Act Development of STEP DatawfthPrc&ctDes@n (Bl) 3,4 Fo4D kompatabitity Information
IS0 TC184 SC4 WGl Ctte Technical Coordination and Support No match
IS0 TC184 SC4 Ctte External Representation of Product Definttion Data SC4 Title onty
IS0 TC184 SC5 WGl Ctte Reference Models ’ Beyond SFRM
t&I TC184 SC5 WG2 Ctte Cownunications and fnterconnections Transform Cdntrol fnformatiin & Dais (82) Z3.314 C8D Compatability Communication
IS0 TC184 SC5 WG3 Ctte lndustlial Automahn vocabulary wG3, Title only (A2) All DD Description Human Interface
IS0 TC184 SC5 Ctte System lnte@on and Cwnnnmhtion SC5 Title only
IS0 TC 184 SC1 WGl Rep/Act Exended Format and Data Structure Transform Control (Al) 2 TfC Compatability Information (Rev: TR 8132 - 1981) Information
IS0 TC 184 SC1 WGl? Rep/Act Axisand Motion Nomenclature Resource td Resource (A2) 1 FiR Description Human lhterface
IS0 TC 184 SC1 WG2 Ftep/Act NCVocabulary (A2) All DD Description Human Interface
IS0 TC 184 SC1 WG3 Rep/Act NC CompanionStandard to MMS (9508I4) Transport Conlrd lnformatton (B2) 20,314 c Compatability Information
IS0 TC 184 SC1 Rep/Act Numerical Control of Machines - Symbols Resource to Resource (A2) 1 RR Description Human Interface
IS0 TC 184 SC1 Rep/Act Part 2: Coding and Maintenance of Preparatory Transform Control Information (Al) 1,2 TfC Compatability Production Functions G and Misc Functions M
IS0 TC 184 SC1 Rep/Act Part 3: Programming of MisceHaneous Functions M Transform Contrd fnforination (Al) 1,2 TfC Compatability Production KZasses 1 to 9)
I IS0 TC 184 SC1 Rep/Act Specn. of Interface Signals betw. Numerical Control Transform Control Information (Al) 1 TfC Compatability PnSduction Unit/Electrical Equipt. of NC m/c I
IS0 TC184 SC2 WGl Rep/Act Robot Characteristics
IS0 TC 184 SC2 WGl Rep/Act Rob& Vocabulary
IS0 TC 184 SC2 WGl? Rep/Act Coordinate systems and Motions
No match
Transform Control
(A2) All DD Description Human Interface
(Al) 1 TfC Compalability Productioh
Orgn Ctte SC WG Ctte/Doc Scope of Activity or Standards Dot Example Standards Areas
IS0 TC 184 SC2 WG2 RedAct Performance Criteria and Related Testina Methods Resource Verification
(Proc) Level Cell
IAll 1.2 RV
Vie-ffpoint Base Technology
Performance Production
IS0 TC 184 SC2 WG3 Rep/Act Robot Safety Transport, Transform, Verify 8 Store Material & Resource
(Al) 1 (Tp,Tf,V,S] l (MR) Safety Production
IS0 TC 184 SC2 WG4 Rep/Act Robot Programming Languages
ISO TC 184 SC2 WG5 Rep/Act Mechanical Interfaces - Pad 1: Circular (Form A)
ISO TC 184 SC2 WG8 Rep/Act Robot Companion Standard to MMS (9508/3)
ISO TC 184 SC3 WGl ReplAct Extension of Basic Part Programming Reference Language
Transfom-r Control Information
Transport Resource
Transport Control Information & Data
Transform Control
(Al) 1 TfC
(Al) 1 TpR
(82) 2J3&3/4 C&D
(Al) 1 TfC
Compatabifity Production
Compatability Production
Compatability Communication
Compatability Production
IS0 TC 184 SC3 WGl Rep/Act Extension of Post Processing Commands Transform Control Information (Al) 1,2 TfG Compatability Production
ISO TC 184 SC3 WGl Rep/Act NC Prccessor Output - Logical Structure Transform Control Information (Al) 2,3 TfC Compatability Production
ISO TC 184 SG3 WG2 Rep/Act Requirements for Global Programming Language Beyond SFRM
Environment
ISO TC 184 SC4 WGl Rep/Act Data Exchange and Transfer Standard Data with Product Design (81) 3.4 F04D Compatability Information Specification (STEP)
I ISO TC 184 SC5 WGl Rep/Act . Basic Reference Model for Automated and Beyond SFRM CAD Systems
I ISO TC 184 SC5 WG2 Rep/Act Control Systems Employing Half-Duplex Transport Control lnformatlon & Data (82) l/2,2&3/4 Compatability Communication Transmission etc. CRD
ISO TC 184 SC5 WG2 Rep/Act Electrical and Mechanical Interface and Line Transport Control Information 8 Data Control Characteristics for Serial Data Link etc.
(B2) l/2,2/3,314 Compatability Communication C&D
ISO TC 184 SC5 WG2 Rep/Act Functional Standardson I-LANs Transport Control Information & Data (82) l/2,2/8,3/4 Compatability communication C&D
ISO TC 184 SC5 WG2 Rep/Act Manufacturing Message Service - Protocol Spec. Transport Contrdl Information & Data (82) l/2,2/3,3/4 Compatability Communication C&D
ISO TC 184 SC5 WG2 Rep/Act Manufacturing Message Service - Service Def. Transport Control Information & Data (B2) l/2,2/3,3/4 C&D Compatability Communtcatton
ISO TC 184 SC5 WG3 Rep/Act lndustrfal Automation Systems - Vocabulary (A2) All DD Description Human Interface
ISO TC184 WG2 Rep/Act Revisfon Of ISO/TC 184 Structure Beyond SFRM
Orgn Ctte SC WG Ctte/Doc Scope of Activity or Standards Dot Example Standards Aread (Proc) Leirel Cell Viewpoint Base Technology
I!30 TC 184 WG3 Rep/Act Environmental Conditions for Discrete Parts Resource to Resource (A2) All RR Environment Production kanufacturirg - Automatioh S~S and Equip.
I!30 Tel84 Rep/Act Functional Standards for Real-time LANs Transport Control Information & Data (82) l/2,2/3,3/4 Compalabiliiy Communication C&D
IS0 TC 184 Rep/Act Production management standard for IS0 9506 Data 8 Control Info with Production (Bl) All FO6 C&D Coryatability Communication Management
IS0 TC184 f3ep1Act f3ea1-tfme LANs (proposed new work item) Transpotl Control lnformabn &I Data (82) l/2.213,3/4 Compatabilily Communication C&D
IS 14776 ( Part 2 ) : 2000 ISO/TR 10314-2 : 1991
ANNEX B. ILLUSTRATIVE AREAS OF STANDARDS FOR CELLS OF THE MATRICES
This Annex re-orders the material in Annex A to show illustrative examples of standard areas for each procedure, each level and each label ~for the cells of the corresponding matrices.
The headings for each table area as follows:
(Proc) LeveKell: The Procedure used, at what Level, and for which matrix cell.
Orgn: IS0 or IEC Ctte: The relevant Technical Committee SC: . . . . Subcommittee (where appropriate) WG: . . . . Working Group (where appropriate) CtteDoc: Whether the work is an identified Report or Activity
(Rep/Act), or simply an identified general committeescope (Ctte) Scope of Activity or Standards document (self explanatory) Example Standards Areas (self explanatory) Viewpoint: As defined in section 2.3 Base Technology: As defined in section 2.3
(Proc)LevefCell Orgy Cne SC WG CttdDoc Scope of Activity or Standards DCX Example StandaMs Arias Viewpoint Base Technology
(Al) 1 SM IS0 ?C 194 SC2 WG3 Rep/Act RObOt Safety Transport, Transform, Verify & Store Safety Production
Material B F&source
(Al) 1 SM IS0 TC194SC2 Ctle Robots for Manufacturing Environment Transport. Transform, Verify 8 Store Safety Production
Material 6 Resource
(Al) 1 SM Iso TC184SC2 WG3 Ctte Safety Transport, Transform, Verify I Store Safety Production
Material & Resource
(Al) 1 SR
(Al) 1 SR
ISO TC 194 SC2 WG3 Rep/Act Robot Safety
f&O TC194SC2 Ctte Robots for Manufacturing Environment
Transport, Transfom, Verify 8 Slore
Material & Resource
Transport, Transform, Verify 8 Store
Material & Resource
Safety
Safety
Production
Production
(Al) 1 SR Iso TC 184 SC 2 WG 3 Ctte Safely Transport, ?ransfoti, Verify & Store Safety Production
Material & Resource
(Al) 1 TfC
(Al) 1 TfC
Iso TC 194 SC2 WGl? Rep/Act Coordinate Systems and Motions
fS0 TC 184 SC3 WGl Rep/Act Extension of Sasii Part Programming
Reference Lanauaae
Transform Co&of
Trartsform Control
Compatability Production
Compatability Production
(Al) 1 TfC
(Al) 1 TfC
Iso TC 184 SC3 WGl Rep/Act Extension of Post Processing Commands Transform Control Information
fS0 TC184 SC1 Rep/Act Part 2: Coding and Maintenance of Transform Contrd lnformaiin
Preparatory Functions G and Misc
Functions M
Compatability Production
Compatability Production
(Al) 1 TfC IS0 TC184 SC1 Rep/Act Part 3: Programming of Miscellaneous
Functions M (Classes 1 IO 9)
Transform Contrd Information Compatability Production
(Al) 1 TfC
(Al) 1 TfC
IAl) 1 TfC
Iso TC184SC3 WGl Ctte Programming Languages for
Automatically Controlled Equipment
Iso TC194SC2 WG4 Clle Robot Programing Languages -
Application Languages
IS0 TC 194 SC2 WG4 Rep/Act Robot Proarammina Lanquages
Transform Control Information & Data
Transform Control InfomMtion
Transform Control hiformation
Compaiability Information
Compatability Information
Comoatabilitv Production
(Proc)LevelCell Orgn Cne SC WG CnelDoc Scope of Activity or Standards Dot Example Standards Areas Viewpoint Base Technology
(Al) 1 TfC IS0 TC 164 SC1 Rep/Act Specn. of Interface Signals befw. Transform Control Information Compatabifity Production
Nurnerfcal Control Unit/Electrical Equipl.
of NC mlc
(Al) 1 TfC&D IEC TC 65 SC C WG3 Rep/Act investigation of a Common Application Transform Control Info/Data Compatibility Communication
Interface for 625-2 using or not MMS
(Al) 1 TfCi%D IEC TC65 SC A WG9 Rep/Act SafeSoftware Transform Control Info/Data Safety Infom-ralion
(Al) 1 TfM&R IS0 TC 164 SC2 WG3 Rep/Act Robot Safety Transport, Transform, Verify 8 Store Safety Productfon
Material & Resource
(Al) 1 TfM&R
(Al) 1 TfM&R
(Al) 1 TpC&D
lS0 TC164SC2 Ctte Rbbok for Manufacturing Environment
lS0 TC164SC2 WG3 Ctte Safety
IEC TC 65 SC C WG3 Rep/Act Amendrnenk to Interface System for
Prbgrammabk Measuring Insbumenk,
625-l fAlianina Pk 1.2)
Transport, Transform, Verify & Store
Material & Resource
Transport, Transform, Verify & Store
Material & Resource
Resource Standard &Transport Control
Info/Data
Safety Production
Safety Production
Compatibility Control
(Al) 1 TpC&D
(Al) 1 TpC&D
(Al) 1 TpCi%D
(Al) 1 TpC6D
(Al) 1 TpC&D
(Al) 1 TpC6D
(Al) 1 TpC&D
IEC TC65 SCA Rep/Act Analog Pneumatic Signals for Process Transport Cdntrol Info/Data Compatibility Communicatiin
Control Systems
IEC TC65 SCA i3ep/Acl Sinary Direct Voltage Signals for Process , Transport Control Info/Data Compatibility Communication
Measurement and Control Systems
IEC TC 65 SC C WG6 Rep/Act Fieldbus Standard Transport Control Info/DaIa Compatibility Communicalion
IEC TC 65 SC C WG3 Rep/Act interface System for Programmable Resource Slandard 81 Transport Control Compatibility Control
Measuring Instruments - Park 1 8 2 Info/Data
IEC TC65 SC C WG6 Rep/Act PROWAY AIR Transport Control info/Data Compatibility Communication
IEC TC 65 SC C WG6 Rep/Act PROWAY C Transport Control Info/Data Compatibility Cornrnunicatfon
IEC TC 65 SC C WG6 Rep/Act PROWAY C (Addendum 5MB/s and Transport Control Info/Data Compatibility Communication
loMBIs)
(Proc)LevelCsll ,mn Ctto SC WG CttwDoc Sc6pe of Activity or Standards Dot Example Standards Awes Viewpoint Base Technology
(Al) 1 TpM6R IS0 TC 184 SC2 WG3 Rep/Act Robot Safety Transport, Trakform, Verify B Store Safety Production
Material & Fiesourca
(Al) 1 TpM6R IS0 TC184SC2 Ctte Robots for Manufacturing Em&nment Transport, Transform, Verify (L Store Safety Production
Material 6 Resource
(Al) 1 TpM&R Iso TC184SC2 WG3 Ctte Safety Transport, Transfon, Verify & Store Safety Production
Material & Resource
(Al) 1 TPR IS0 TC184SC2WG5 Ctte Mechanicallnterfaces Transport Resources Cornpatability Production
(Al) 1 TpR
(Al) 1 VM
(Al) 1 VM
(Al) 1 VM
(Al) 1 VR
(Al) 1 VR
(Al) 1 VR
(Al) 1 VR
(Al) 1 VR
(Al) 1 VR
Iso TC184 SC2 WG5 Rep/Act Mechakal In&faces - Part 1: Circular Transport kesource Compatability Production
(f+mA)
IS0 TC 184 SC2 WG3 Rep/Act Robot Safety Transport, Transform, Verify 8 Store safety Production
Material 6 Resource
f!30 TC184SC2 Cfte Robots for Manufacturing Enwiionment TmnyUrt, Transform, Verify & Store Safety Production
Material 6 Resource
Iso TC184SC2 WG3 Ctte Safety Transport, Transform, Verify I Store =etv Production
Material &I Resource
IE6 TC65 SCA WG8 Rep/Act Detkiitbnofbstmethodsbrsafe verify Resource Safety Corltml
operatkmddigitaibldustriaf-process
equin=lt
IS0 TCl&l SC2 WG2 Ctte PerformanmandTestMethods Resource Veriffcation Performance Production
Iso TC 184 SC2 WG2 ReplAa Performance C&ria and Related Testing Resouke Ve.rificatbn Performance Production
Methods
IS0 TC184SC2 Ctte Performance Testing of Robots Resource VerNication PerformanCe Production
IS0 TC 184 SC2 WG3 Rep/Act Robot Safety Transp& Transform, Verify & Store Safety Production
Mat&al & Resource
IS0 TC184SC2 Ctte Robots for Manufacturing En@ronment Transport, Transform, Verify 6 Store Safe(Y Productii
Material & Resource
y
w oc
(Proc)LevelCeii Orgn Ctte SC WG Ctte/Doc Scope of Activity or Standards Dot Example Standards Arees Viewpoint Base Technology
(Al) 1 VR IS0 TC164 SC2 WG3 Ctte Safety Transport, Transform, Verify & Store Safety Production
Material & Resource
I (Al)STfC IEC TC 65 SC A WG6 Rep/Act Language for programmable controller - Transform Contrd information Compatibility information, Control I
Application Languages (inc Part 3)
(Al) 2 TfC IEC TC 65 SC A WG6 Rep/Ad PLCs - Part 3: Programming Languages Transform Control information Compatibility Information, Control
(A1)PTfC
(Al) 2 TfC
IA1 ) 2 TfC
IS0 TC 164 SC1 WGl Rep/Act Extended Format and DataStructure Transform Con&d information Cornpatabiiity information
(Rev:TR6132- 1961)
iS0 TC164SCl WGl Ctte Extended Formats and Data Structure Transform Control information Compatabiiity information
Is0 TC 164 SC3 WGl Rep/Act Extension of Post Processina Commands Transform Contrd information Comoatabilitv Production
(Al) 2 TfC
(Al) 2TfC
Iso TC 164 SC3 WGl Rep/Act NC Processor Output - Logical Structure Transform Contrd information Cornpatabiiity Production
IS0 TClM SC1 Rep/Act Part 2: Coding and Maintenance of Transform Control information Compatabiiity Productii
Preparatory Functions G and Misc
Functions U
(A132TfC IS0 TC 164 SC1 Rep/Act Part 3: Programming of Miscellaneous
Functions M (Classes 1 to 9)
Transform Contrd Information Cornpatabiiity Production
(Al)2TfC
(Al)PTfC
(Al)BI’C
(Al) 2 TpchO
(Al) 2 TpC60
iS0 TC164SC3 WGl Ctte Programming Languages for Transform Control information & Data Cornpatability lnformatbn
Automatically Contrdled Equipment
IS0 TC 164 SC 3 WG 1 Rep/Act Revision of IS0 4342 CLDATA; 4343 APT - Transform Control information 8 Data Compatability Production
Appiiition Languages
Iso TC 164 SC 2 WG 4 Ctte Robot Program&g Languages - Transform Control information Compatabiiity information
Application Languages
IEC TC65 SCA Rep/Act Anakg Pneuma9c Signals for Process Transport Control Info/Data Compatibility Communication
Control Systerna
IEC TC65 SCA Rep/Act Binary Direct Voltage Signals for Process Transport Control InbIData Compatibility Convnunication
Measurement and Control Systems
(proc)~~~l orgy Ctto SC WG Ctte/Doc Scope of Activity or Standards DOC Example Standards Areas Vbwpoint Base Technology
(Al) 2 TpClld IEC TC 65 SC C WGl Rep/Act Development of Real-time Archilecture Transpori Control Info/Data Compatadlity Conmnmication
(from ISA DS 72.03)
(Al) 2 TpC6D IEC TC 65 SC C W= Rep/Ad Fiekbus Standard Transport Control Info/Data Ccmpalibilily Communication
(Al) 2 TpC&D IEC TC 65 SC A WG6 Rep/Act PLCs - Pan : Messaging Service Transport Cenlrol Info/Data Compatihilily Communbation
Specification
(Al) 2 TpC&D IEC TC 65 SC C WGl Rep/Act PMS - MMS Companion Stanrbrd for Transporl Ccntrol I&/Data Cdllpelibily Communicalion
Process Control
(Al) 2 TpC60 IEC TC 65 SC C WGl Rep/Act Preparation of Standards Profiles for Transport Control lnb/Dala Compatibflity Commurkatbn
comms Needs of Process Control
lnduslry
(Al) 2 TpC&D IEC TC 65 SC C WG6 Rep/Act PROWAY A/B Transport Ccntrd Ink/Data Compatibility Communication
(Al) 2 TpC6D IEC TC 65 SC C WG6 FiepiAcl PROWAY C Transpcrl Control Info/Data Compatibility Communication
(Al) 2 TpCaD IEC TC 65 SC C WG6 Rep/Act PROWAY C (Addendum5MB/s and Transport Control l&/Data Compatibilily Communication
loMBIs)
(Al) 2 TfC&D
(Al) 2 VR
IEC TC 65 SC A Wo9 Rep/Act Safe Software
IEC TC 65 SC A WG6 Rep/Act Definition of test methods br safe
operation of digital industrial-process
eouiment
Transform Control Info/Data Safely
Verify Resource Safely
lnbrmatii
Control
(Al) 2 Vh
(Al)PVR
lS0 TC 164 SC 2 WG 2 Cne Performance and Test Methods
lS0 TC 164 SC2 WG2 Rep/Act Performance Criteria and Related
Testirm Methods
Resource Verification
Resource Verification
Performance Production
PerbmBnM Production
- (Al)PVp
(Al)BTfC
l& TC164SC2 Che Performance Testing of Robots Resource Verificahcn Performance Produclbn
IEC TC 65 SC A WC% Rep/Ad Language for prograrwnabie conlrdier - Transform Control Information Compalihilily Inbmwtii, Control
Aedkatbn Lanouaoes liric Part 3)
(Al)STfC
(Al) 3TfC
IEC TC 65 SC A WG6 Rep/Act PLCs - Part 3: Programming Languages Transform Ccwd lnfonnatbn Conlpatibility Inbnnation, Control
lS0 TC 164 SC3 WGl Rep/Act NC Processor Output - Logical Structure Transferm Control lnfonnatii Compatahilily Produchon
I
~(Proc)LevelCell Grgn Ctte SC WG CtteIDoc Scope of Activity or Standards Dot
(Al) 3 TfC lS0 TC 164 SC 3 WG 1 Rep/Act Revision of IS0 4342 CLDATA, 4343
APT - Aoolication Lanauades
Ekample Standards Areas Viewpoint Base Technology
Transform Control Information & Data Compatability Production
(Al) 3 TfC&D
(Al) 3 TpC&D
IEC TC65 SCA WG9 Rep/Act Safe Software Transform Control Info/Data Safety Information
IEC TC65 SCA Rep/Act Binary Direct Voltage Signals for Process Transport Control Info/Data Compatibility Communication
Measurement and Control Svstems
(Al) 3 TpC&D
(Al) 3 TpC&D
IEC TC 65 SC C WGl Rep/Act Development df Real-time Architecture
(from ISA DS 72.93)
IEC TC 65 SC A WG6 Rep/Act PLCs - Part : Messaging Service
Soecification
Transport Control Irk/Data
Transport Control Info/Data
Compatability Communication
Compatibility Communication
(Al) 3 TpC&D
(Al) 3 tpC&D
IEC TC 65 SC C WGl Rep/Act PMS -.\MMS Companion Standard for Transport Control Info/D&a Compatibility Communication
Process Control
IEC TC 65 SC C WGl Rep/Act Preparation of Standards Profiles for Transport Control Info/Data Compatibility Communication
Comms Needs of Process Control Industry
(Al) 3 VR IEC TC 65 SC A WG6 Rep/Act Definition of test methods for safe Verify Resource Safety Control
operation of diiital industrial-process
equirnent
(Al) 4 TfC
(Al) 4TfC
(Al) 4 TfC&D
(Al) 4 TpC&D
IEC TC 65 SC A WG6 Rep/Act Language for programmable controller - Transform Control Information Compatibility Information, Control
Application Languages (inc Part 3)
IEC TC 65 SC A WG6 Rep/Act PLCs - Part 3: Programming Languages Transform Control Information Compatibility Information, Control
IEC TC65 SCA WG9 Rep/Act Safe Software Transform Control Info/Data Safety lnformation
IEC TC65 SCA Rep/Act Binary Direct Voltage Signals for Process Transport Control Info/Data Compatibility Communication
Measurement and Control Systems
(Al) 4 TpC&D
(Al) 4 TpC&D
IEC TC 65 SC C WGl Rep/Act Development of Real-time Architecture
(from ISA DS 72.03)
IEC TC 65 SC A WG6 Rep/Act PLCs - Part : Messaging Service
Soecihation
Transport Control Info/Data
Transport Control Inb/Data
Compatattility Communication
Compatibility Conmnmication
I (OJIUO~ SSWOJd I ewa/owl loJwi3 wdsJeJ1
SPOJV spmpu~s oldumxa
R
(Proc)LevelCell Orgn Ctte SC WG CttelDoc Scope of Activity or Standards Dot
(A2) 1 RR IEC TC 65 SC C W63 Rep/Act Amendments to Interface System for
Programmable Measuring Instruments,
Example Standards Areas
Resource Standard & Transport Control
Info/Data
Viewpoint Base Technology
Compatibility Control
1 625-l (Aligning Pls 1,2)
(A2) 1 RR IEC TC44
(A2) 1 RR IEC TC 44
WG3 Rep/Act Electrical Equipment of Industrial Resource/Resource Description Device/Tool
Machines - Part 1: General Requirements
WG2 Rep/Act Electrical Equipment of Industrial Resource/Resource Description Device/Tool
Machines - Part 3: Industrial Sewing
Machines
(A2) 1 RR
(A2) 1 RR
(A2) 1 RR
(AZ) 1 RR
(A2) 1 RR
. IEC TC65 WG4 Rep/Act Environmental Conditions Continuous Resource Standard Environment Production
Wave Conducted lmmunily Rcquiremenls
IEC TC65 Rep/Act Environmental Condilions - IEC 654, Resource Standard Environment Production
Operating Conditions for measuring and
control equipment
IEC TC65 Rep/Act Environmental Conditions - IEC 654, Resource Standard Environment Production
Surge Voltage (Operating Environment)
IEC TC65 Rep/Act Environmental Conditions - IEC 601, Resource Standard Environment Production
Electromagnetic compatability -
(Operating Environment)
/EC TC65 WG2 Rep/Act Envirbnmental Conditions - Operating Resoumestandard Environment Production
Conditions for Industrial-Process
Measurement - Part 1
(A2) 1 RR IEC TC65 WG2 Rep/Act Environmental Conditions - Operating
Conditions for Industrial-Process
Measurement - Part 2
Resourcestandard Environment Production
WG4 Rep/Act Environmental Condn - Electromagnetic
Compatibility for Industrial-Process
Measurement- Pan 2
Resource Standard Environment Production
-.
(plot)mdwt *n ctte &C WG CtteIDoc Scof)e of Activity or Standards Dot Example Stendards Awes Viewpoint Base Technology
(A2) 1 RR IEC TC6b WG4 Rep/Act Environmental Condn - Electromagnetic Resource Standard Environment Production
Compatibility for Industrial-Process
Measurement - Part 3
(A2) 1 RR IEC TC65 WG4 Rep/Act Environmental Corxfn - Elecfmrnagnek Resource Standard Environment PrOduCtion
Compatibility for Industrial-Process
Measurement - Part 5
(AZ!) 1 RR IEC TC 65 SC C WG3 Rep/Act Interface System for Programmable Resource Standard & Transport Control Compatibility Control
Measuring Instruments - Part 1 Info/Data
(k?) 1 RR IEC TC 65 SC C WG3 Rep/Act Interface System br Programmable Resource Standard (L Transport Control Compatibility Contml
Measuring lnsktsnents - Part 2 Info/Data
(AZ) 1 RR
(A2) 1 RR
(A2) 1 RR
(A2) 1 RR
(A2) 1 RR
(A2)lRR
(A2) 1 VR
IEC TC65 SWG Rep/Act Protection Against an Explosion Hazard Resource Standard Safety Production
when Flanwnable ,+ is Used etc.
IEC TC65 SCE Rep/Act Standard for Fire Safe Control Valves Resourcestandard Ccmpatability Production
IEC TC 65 SC B WG5 Rep/Act Theimocouples - Part 2 (Amend) - Resource Standard Compatibility Instrument
TdemnceS
IS0 TC 164 SC1 WGl? Rep/Act Axii and Motion Nomenclature Resource to F&source Description Human Interface
IS0 TC164 WG3 Rep/Act Environmental Conditions for Discrete Resource to Resource Environment Production
Parts Manufacturing - Automation Sys
and Equip.
IS0 TClail SC1 Rep/Act Numerical Contrd of Machi? - Symbols Resource to Resource Description Human Interface
IEC TC65 SCB Rep/Act ElectriM, Pneumatic Chart Recorders for Verify Fksource Performance Instrument
Industrial-Process Control Systems - Part 2
(A2) 1 VR I IEC TC 65 SC B Rep/Act Evaluating Performance of Valve Verify Resource Performance, Control
Positioners ior Industrial-Process Control Compatability
SvStemS
e
(Proc)LeveKdl Drgn Ctte SC WG Ctte/Doc Scope of Activity or Standards Dot Example Standards Areas Viewpoint Base Technology
(A2) 1 VR IEC TC65 SCB Rep/Act General Methods, Procs for Evaluation of Verify Resource Performance Instrument
Process Measurement, Control Devices
(AZ) 1 VR IEC TC65 SCB Rep/Act G&lance for Inspection, Testing of Verify Resource Performance Instrument
Transmitters in Industrial-Pmc Control
sys-Part2
(rri, 1 VR IEC TC65 SCB Rep/Ad Methods for Evaluating Performance of verify Resource P&lrmanCe, Control
lnsbuments with Two or Multistage
output etc.
(A2) 1 VR IEC TC65 SCB Rep/Act Standard on Calibration Procedures for Verify Resource Performance, Instrument
Industrial Temperature Sensors
(A2) 1 VR IEC: TC65 SC B WG5 Rep/Act The rmocouples - Pan 1 (Amend) - Verify Resource Performance Instrument
ReferenceTables
(A2) 2 DD IEC TC65 WGl Rep/Act IEV: Chapter 351- Automatic Control
(A2) 2 DD ISG TC 164 SC5 WG3 Rep/Act Industrial AutomallonSystems-
vocabutary Descriptton
Description
Human Interface
Human Interface
(M2DD
(A2)2DD
(A2) 2 DD
(A2) 2 DD
(A2) 2 DD
(A2) 2 DR
(A2) 2 RR
vocabulary
Iso TC 164 SC 5 WG 3 Ctte lnchMdal Automation Vocabulary WG3, Title only Description Human Interface
Iso TC 164 SC1 WG2 Rep/Act f+JC Vocabulary Description Human Interface
Iso TC 164 SC2 WGl Rep/Act Robot Vocabulary Description Human Interface
Iso TC164SC2 WGl Ctte Terminology and Graphical Data to Data Description Human Interface
Representation
lf% TC 164 SC 1 WG 2 Ctte Vocabulary WG2, Title only Description Human Interface
IEC TC65 SCA WG6 Rep/Act PLCs- Part4: User Guidelines Data for Resource Operability, Control
Maintainability
IEC TC65 WG4 Rep/Act Envirorxnental Conditions - Continuous Resourcestandard Environment Production
Wave cbnduoted immunity Requirements
pmc)LovoiCall Orgn Ctto SC WG CHO/DOC SC~~O of Activity or Standards f%c Example Stnndnrds Arena Viwqolnt Bow Technology
(A2) 2 RR IEC TC65 Rep/Act Envimrrnental Con&tons - IEC 654, Resourcestandard Envtronment kxktton
Operating Cwciittons for measuring and
control equipment
(AZ) 2 RR IEC TC65 Rep/Act Envirwrnentai Condtttons - IEC 654, Resourcestandard Environment Procfwttorl
surge voltage (0perattng f3vtronment)
(AZ) 2 RR IEC TC65 Rep/Act Mviro~ntei conditions - IEC 601,
Electrornagnettc compatabiitty -
(Operating Environment)
Resourcgslandard Environment Productbn
(A2) 2 RR IEC TC65 WG2 Rep/Act Envirorxnentai Condittons - Operattng FbsourcestandaKi Environment Production
Conditions for IndusMai-Process
Measurenwlt - Pall 1 I
(A2) 2 RR IEC TC65 WG2 Re@bt Envitwxnentai Condttfons - Operating Resource stan&rd Envtuonment Production
Condttbns for inldswiat-Process
Measurement - Part 2
(A2) 2 RR
(A2) 2 RR
IEC TC65
IEC TC65
WC34 Re*Act Envtrorxnentai Condn - Electromagnettc Resoulce standard Erwirorvnent Prodktton
Corrpattbtiity for lndustrfai-Process
Measurement - Part 2
WG4 Rep/Act Envbvnentai Condn - Etectromagnettc Resourcestandard Emhment Prbductton
Compattbiiity for Indus~Process
Measuwnent - Pad 3
(A2) 2 RR IEC TC65 WG4 Rep/Act EnvtmmwHai Condn - Elecwomagnettc Resource standard Envtranment Producttort
Colr&wttbinty for indusbfai-Process
Measurement - Part 5
(A2) 2 RR IEC TC65 SCA WG6 Repukt Evaluattonofsystempmpedssforthe bsourcestandard PerformanCe, Production
DUrooses of svsbnl ~1 f6 ~rlsl Reittbtlttv
Y WI
(A2) 2 RR
(A2) 2 RR
IEC TCM WG5 RevAct IEC 550 - NC Equipment for machines
IEC TC 65 SC A WG6 Rep/Act PLCs - Part 1: General information
Resoucemesowce Desufption fk?icdrooi
Resource Standard Description Control
‘.
I I
(Proc)LevaiCeil Grgn Ctte SC WG Ctte/Doc Scofw of Activity or Standards Dot Example Standards Aress Viewpoint Base Technology
(A2) 2 RR IEC TC 65 SC A WG6 Rep/Act PLCs - Part 2: Equipment Characteristics Resource Standard Performance, Conlml
Compatibility,
bscfiDbn I
(A2) 2 RR IEC TC 65 SC C WG3 Rep/Act Preparationof a Moduiar inslrwnent
System Standard
Resourcestandard Cornpatibilffy Contml I
(AZ) 2 RR IEC TC65 SWG Rep/Act Protectfon Against an Expbsion Hazard Resourcestandard Safety Production
whenf%nxnabieGasisUsedetc. I
(A2) 2 RR
(A2) 2 VR
(A2) 2 VR
iSC TC164 WG3 Rep/Act Environmental Conditions for Discrete Rescurce to Resource Environment Productfon
Parts Manufacturing - Automation Sys
and Equip.
IEC TC 65 SC A WGfO Rep/Act Fundionai Safety of Progammabie verify Resource Safety Contmi
EiectmnicSystems-GenerfcAspects
IEC TC65 SC0 Rep/Act General Methods, Procs for Evafuatfon of Verffy Resource PerfOrmanCe. lrlsblJl?lent
Process Measurerrfent, Control Devices
(A2) 2 VR
(A2) 2 VR
IEC TC65 SCB
IEC TC65 SCB
Rep/Act IEC 546 Contmiler performance verify Resource Performance, Contml
Reifflity,
Compatabiiff
Rep/Act MeMods for Evaluating Performance of verify Resource Performance Contml
lnstrurnents with Two or Muftistaoe Cutout
(A2) 3 DD
(A2) 3 DD
(~42) 3 DD
IEC TC65 WGl F&p/Act IEV: Chapter 351- Auimatk Control
Iso TC 164 SC5 WG3 Rep/Act industrial AulornafionSyslems -
vocabuiary
Iso TC 164 SC 5 WG 3 Ctte indristrfa! Aukwnatfon Vocabulary
vocabuiary
WG3, This orvy
Description
Description
Descripbn
Human interface
Human Interface
Human interface
(A2) 3 DD Iso TC 164 SC1 WG2 FiepiAct NCVocabufary Descriptfotl Human interface
I(A2) 3 DD ISC TC 164 SC2 WGl Rep/Act Robot Vocabulary Descrfpfion Human fnterface
p+0tt~0icdi Grgn ctto SC WG CtteAk Scope of Actlvlty or sbnd~rdrmc Example Standards Areas Viewpoint Base Technology
(A2) 3 DD IS0 TC164SC2 WGl Ctte Terrninokgy and Graphical Data to Data Descriptbn Human lntsrface
Representation .
WI 3 DD IS0 TC 164 SC 1 WG 2 Ctte Vocabulary V/G?, Title only Description Hurnsn Inter&e
(A&) 3 DR IEC TC65 SCA WG6 Rep/Act PLCS- Part4: User Guidelines DalaforResource operabiW, Control
Maintainabilitv
(IQ) 3 RR
(IQ) 3 RR
(A2) 3 RR
IEC TC65
IEC TC65
IEC TC65
WG4 Rep/Act Environmental Ccnditicns- continuour, Rescurce Standard Environment Production
Wave Conducted hnmunity Reqwments
Rep/Act Envirwtmental Conditbns - IEC 654, kscurcestandard Environment Production
Operating Ccnditions far measwkg and
ccntrol equipment
Rep/Act Environmental Ccnditions - IEC 654, Resoumestandard Envircnrnent Productton
surge Voltage (operatina Envimrxnent)
(A2) 3 RR
(A2) 3 RR
IEC TC65
IEC TC65
Rep/Act Envirwxnental Corx5tkms - IEC 661,
Elecwlmagnetk compatabtlii -
(Operating Envtrcnrnent)
WG2 RepYAct Envtrorxnental Ccnditions - Operating
CondiUons for industrial-Prccess
Measurement - Part 1
l38shce standaKl
ResourceStandard
Environment
Environment
Production
Production
(A2) 3 RR IEC TC65 WG2 Rep/Act Envtronmental Ccnditicns - Operating
conditions for Industrial-Process
Measurement - Part 2
Resource standard Environment Production
(AZ) 3 RR IEC TC65 WG4 Rep/Act Envirwtmental Ccndn - Ekctromagnetic l3esoum- Envirorlmerlt Productii
Compatibility for Industrial-Process
Measurement - Part 2
(A2) 3 RR IEC TC65 WG4 Rep/Act Enviinmental Ccndn - Elsctromagnetic
Compatibility for Industrial-Process
Measurement - Part 3
lbsource standard Erwironment Producticn
(Proc)LevelCell Crgn Ctte SC WC CttelDoc Scope of Activity or Standards Dot Example Standards Arees Viewpoint Base Technology
(A2) 3 RR IEC TC65 WG4 Rep/Act Environmental Condn - Electromagnetic
Compatibility for Industrial-Process
Measurement - Part 5
Resource Standard Environment Production
(A2) 3 RR IEC TC 65 SC A WG8 Rep/Act Evaluation of system properties for the Resource Standard Performance, Production
purposes of system assessment (8 parts) Reliability
(A2) 3 RR
(A2) 3 RR
IEC TC 65 SC A WG6 Rep/Act PLCs - Part 1: General Information Resource Standard Description Control
IEC TC 65 SC A WG6 Rep/Act PLCs - Part 2: Equipment Characteristics Resource Standard Performance, Control
Compatibility,
Description
(A2) 3 RR
(A2) 3 RR
(A2) 3 VR
(A2) 3 VR
(AZ) 3 VR
IEC TC 65 SC C WG3 Rep/Act Preparation of a Modular Instrument Resource Standard
System Standard
Is0 TC184 WG3 Rep/Act Environmental Conditions for Discrete Resource to Resource
Pans Manufacturing - Automation Sys
and Equip.
IEC TC 65 SC A WGlO Rep/Act Functional Safety of Programmable Verify Resource
Electronic Systems - Generic Aspects
IEC TC 65 SC B Rep/Act General Methods, Procs for Evaluation of Verify Resource
Process Measurement, Control Devices
IEC TC 65 SC B Rep/Act IEC 546 Controller performance Verify Resource
Compatibility Control
Environment Production
Safety Control
Performance Instrument
Performance, Control
Reliability,
Compatability
(A2) 4 DD
(A2) 4 DD
IEC TC65 WGl Rep/Act IEV: Chapter 351 - Automatic Control
ISC TC 184 SC5 WG3 Rep/Act Industrial Automation Systems -
Vocabulary
Vocabulary Description
Descriptfon
Human Interface
Human Interface
(A2) 4 DD
(A2) 4 DD
Is0 TC184 SC5 WG3 Ctte Industrial Automation Vocabulary
IS0 TC 184 SC1 WG2 Rep/Act NC Vocabulary
WG3, Title only Description
Description
Human Interface
Human Interface
proC)LsvsiCsii Drgn Ctts SC WG CttsiDoc Stops of Activity or Standards Dot Example Stsndards Areas Viswpoint Bass Technology
(A2) 4 DD
(A2) 4 DD
IS0 TC 164 SC2 WGl Rep/Act Robot Vocabulary
IS0 TC164SC2 WGl Ctte Terminology and Graphical
Reoresentalion
Data to Data
Description Human Interface
Description Human Interface
I
(A2) 4 DD
(A2) 4 DR
iS0 TC 164 SC 1 WG 2 Ctte Vocabuiary
IEC TC 66 SC A WCs Rep/Act PLCs- Part 4: User Guidelines
WG2, Title only
Data for Resource
Description Human interface
Operability, Conlroi
Maintainabiiitv I
(A2) 4 RR IEC TC65
(AZ) 4 RR IEC TC65
WG4 Rep/Act Environmental Conditions - Continuous Resource Standard Environment Production
Wave Conducted immunity Requirements
Rep&t Envirorvnentai Conditions - IEC 654, Resource SIandard Environment Produclion
Operating Conditions for measuring and
control equipment
(A2) 4 RR IEC TC65 Rep&t Envfrornnentai Conditions - IEC 654,
Surge Voltage (Operating Environment)
ResounXstandard Environment Production
(A2) 4 RR
(A2) 4 RR
I& TC65
IEC TC65
Rep/Act Envirormnental Conditii - IEC 661,
Eiectromagnetic compatabiiity -
(Operating Environment)
WG2 Rep/Act Environmentai Conditions - Operating
Conditbns for iklustriai-Process
Measufmenl - Part 1
ResourceStandard
Re.sourcestandard
Environment Production
Environment Production
I
(A2) 4 RR
(AZ) 4 RR
IEC TC65
IEC TC65
WG2 Rep/Act Envirorxnentai Cohditions - Operating Resourcestandard Environment Productton
Conditions for industriai-Process I
Measure~nl - Part 2
WG4 Rep/Act Environmental Condn - Eiectromagnetic Resourcestandard Environment Prodirctii
Compstibiity for iMwiai-Process
Measurwtwlt - Part 2
(Proc)Leveiceii Orgn Ctte SC WG CtteiDoc Scope of Activity or Standards Dot Example Standards Ames Viewpoint Base Technoiogy
(A2) 4 RR IEC TC65 WG4 Rep/Act Environmental Concin - Electromagnetic Resource Standard Environrirenl Production
Compatibility for lndustriai-Process
Measurement - Part 3
(A2) 4 RR IEC TC65 WG4 Rep/Act Environmental Condn - Electrornagnetfc Resource standard Environment Production
Compatibility for lndustriai-Process
Measurement - Part 5
jU) 4 RR IEC TC65 SC A WG6 Rep/Act Evaiuationofsyslemproper6ssforthe Resource standard Performance. Production
purposes of system Bt (6 parts) Reliability
:A2) 4 RR /EC TC 65 SC A W&i6 Rep/Act PLCs- Part 1:General information Resource Standard Description Control
A2)4RR IEC TC 65 SC A WG6 Rep/Act PLCs - Part 2: Equipment Characteristics Resource Standard Performance, Control
Compatibility,
Description
A2)4RR IEC TC 65 SO C WG3 Rep/Act Preparation of a Modular Instnrmsnt ResourceSwldard Compatibility Control
System Starxiard
A2)4RR Iso TCl64 WG3 Rep&t Environmentai Cohditfons for Discrete Rsscwce to Resource Environment Production
Parts Manufacturing - Autornstion Sys
and Equip.
&!)4VR IEC TC 65 SC A WGlO Rep/Act Functional Safety of Programmable verify Resource Safety Control
Electrorlic systems - Genenc Aspects
A2)4VR IEC TC65 SCE F&p&t General Methods, Procs for Evaiuation of Verify Resource Performance instrument
Process Measurement, Control Devices
&?)IVR IEC TC65 SCB Rep/Act IEC 546 Conholier performande verify Resource PerformanCe, ConvOi
Reliability,
Compatabiiity
31) 1 FO6C&D iSO TC164 Rep/Act Production management standard for Data 6 Control info with Producticn Compatabifity Conxnunication
IS0 9506 ManagerlIeN
(Proc)Levelcelr Orgn Ctto SC WG Ctte/Doc Scope of Activity or Standards Dot Examble Standards Areas Viewpoint Base Technology
(Bl) 2 FOGCAD lS0 TC164 Rep/Act Production management standard for Data & Control Info with Production Compatability Communication
IS0 9506 Management
(Bl) 3 F04D IS0 TC 164 SC4 WG1 Rep/Act Data Exchange and Transfer Standard Data with Product Desiign Compatability Information
Specification (STEP)
(St) 3 FO4D Iso TC 164 SC 4 WG 1 Rep/Act Development of STEP Data with Product Desfgn Compatability lnbrmation
(Bl) 3 FO6CBD IS0 TC164 Rep/Act Production nisnagement standard br Data 8 Controf Info with Production Compafability Communication
IS0 9506 M-t
(Bl) 4 FO4D LSO TC 184 SC4 WGl Rep/Act Data Exchange andTransfer Standard Data with Product Design Compatabili~ lnbrmation
Specification (STEP)
(Bl) 4 F04D IS0 TC 164 SC 4 WG 1 Rep/Act Development of STEP Data with Proaict Design Compatability Inbnnation
(Bl) 4 FO6CID IS0 TC164 F&q/Act Production management standard br Data 8 Controi Info with Production Compatability Comrnunicatbn
IS0 9506 Management
(82) 1R C&D IS0 TC164 Rep/Act Real-time IANs (proposed new work item) Transport Control lnbrmatii 8 Data Compatability Communication
(82) 112 C&D
(82) 112 C&D
(82) l/2 C&D
(B2) f/2 C&D
IEC TC 65 SC C WG3 Rep/Act Amendments to Interface System for Resource Standard 6 Transport Control Compatibility Control
Programniable Measuring Instiurnents, Info/Data
625-l (Aligning Pts 1,2)
IEC TC 65 SC A Rep/Act Anabg Pneumatic Signals for Process Transport Control Info/Data Compatibility Cornmunicatiin
Control Systems
IEC TC65 SCA Rep/Act Binary Direct Voltage Signals for Process Transport Conhol Inb/Dafa Compatibility Communication
Measurement and Control Systems
IEC TC 65 SC C WGl Rep/Act Development of Real-time Architecture Transport Control Ink/Data Cempatability Communication
(from ISA OS 72.031
(82) li2 C&D IEC TC 65 SC C WG6 Rep/Act FieMbus Standard
(82) l/2 C&D lEC TC 65 SC C WG3 Rep/Act Interface System br Programmable
I Measuring lristruments - Part 1
Transport Control Inb/Data
Resource Standard 8 Trans@rt Control
lnfo/Dala
Compatibility Communication
Compatibility Control
Y
WI H
~(hoc)LevdCell Crgn Ctto SC WG CtteiDoc Scope of Activity or Standards Dot Exerhple Standards Areas Viewpoint Base Technology I
(82) l/2 C&D
(82) l/Z C&D
IEC TC 65 SC C WG3 Rep/Act Interface System for Programmable Resource Standaid & Transport Control Compatibility Control
Measuring Instruments - Part 2 Info/Data
IEC TC 65 SC C WGl Rep/Act PMS - MMS Companion Standard for Transport Control Info/Data Compatibility Communication
Process Control
(82) 1/2C&D IEC TC 65 SC C WG6 Rep/Act PROWAY AB Transport Control Info/Data Compatibility Communication
(82) 112 C6D IEC TC 65 SC C WG6 Rep/Act PROWAY C Transport Control Info/Data Communication Compatibility
(82) 112 C&D IEC TC 65 SC C WG6 Rep/Act PROWAY C (Addendum 5MBkand Transport Control Info/fJata Compatibility Comnunicatiin
loMB/s)
(82) 112 C&D Is0 TC 164 SC5 WG2 Rep/Act Functional Standards on I-lANs Transport Control Information & Data Compatability Communication
(82) 112 C&D lS0 TC 164 SC5 WG2 Rep/Act Control systems Employing Half-Duplex Transport Control Information & Data Compatability Communication
Transmission etc.
(82) l/2 C&D lS0 TC 164 SC5 WG2 Rep/Act Electrical and Mechanical Interface and Transport Control lnbrrnation 8 Dali Compatability Corrwnunfcation
Line Control Characteristics for Serial Data
Link etc.
(82) l/Z C&D
(82) li2 C&D
(k2) 1R R
Iso TC 164 SC5 WG2 Rep/Act Mgnufacturing Message Service -
Protocol Spec.
lS0 TC 164 SC5 WG2 Rep/Act Manufacturing Messags Service -
Sen4ce Def.
IEC TC44 WG5 dep/Act Interface between Numerical Controls
and Industrial Machines
Transport Control lnbrmation & Data
Transport Control Information & Data
Resource/Ftesource
Chatability Communication
Compatability Communication
Description domputer&
communications
(B2) l/2 R IEC TC65 SWG Rip/Act Protection Against an Expiosion Hazard
when Flammable Gas is Used etc.
Resource Standan’ Safety Production
w)mC
(w=C
IS0 TC164SCl WG3 Ctte Companion Standard to MMS (IS0 9506) Transport Contrbl Information Conwtability lnbrmation
lS0 TC 164 SC1 wG3 Rep/Act NC Companion Standard to MMS Transport Control Information Compatability lnbrmation
(9506/4)
(82) 2/3 C&D IS0 TC164SC5 WG2 Ctte Communications and Interconnections Transform Control Information & Data Compatability Communication
(Proc)&~~~ orgn Ctte SC WO CttdDoc Scopeof Activity or Strmdards~ Example Standards Areas Viewpoint Base Technology
(82) 2/3 C&D lS0 TC164 Rep/Act Functional Standards for Real-time lANs Transport Control lnbrmation & Data Compalability Communication
(B2) ” C&D IS0 TC164 RepfAct Real-time LANs (proposed new work item) Transport Control lnbrmation & Data Compatability Communication
(82) 2Kt C&D IEC TC65 SCA Rep/Act Binary Direct Voltage signals far Process Transport Ccntrol Ink/Data Compatibility Communication
Measurement atid Control Systems
(82)mmD IEC TC 65 SC C WGl Rep/Act Development of Ffeal-time Architecture Transport Conhrol Ink/Data Ccmpatabilii Communication
(from IsA DS 72.03)
(62) ZI3 C&D IEC TC 65 SC A WG6 Rep/Act PLCs - Part : Messaging Service Transport Control Ink/Data hnpatibility Conxnudcation
Specification
(B2) 2/3 C&D IEC TC 65 SC C WGl Rep/Act PMS - MMS Ccmpanbn Standard for Transport Control Ink/Data Compatibility Conxnurhation
Process Control
(82) 2/3 CID IEC TC65 SC % WGl Rep/Act Preparationof SUndardsProfilesfor Transport Control Ink/Data Ccmpatibility Commudcation
comms Needs of Process Control industry
(82) 20 C&D IS0 TC 164 SC5 WG2 Rep!h Fundlonal Standardscn I-LANs Transport Control lnbrmation & Data Compatability Comnunicatkn
(82) 2/3 C&D lS0 TC 164 SC5 WG2 Rep/Act Control Systems Employing Half-Duplex Transport Control InbmIaticn & Data Compatabilii Comvxmication
Transmissh etc.
(82) 2i3 O&D l!30 TC 164 SC5 WGZ Rep/Act Electricalandhhchank~l Interface and Transport Control Inbnhation EL Data Compatability Commutitbn
Line Conbd CharacterfsucS for serial Data
Link etc.
(82) 2/3 C&D lsb TC 164 SC5 WG2 Rep/Act Manufacturfng MessageService- Transport Control lnbrmatbn & Data Compatability Corrxnudcatkm
Protocol Spec.
(B2) 2/3 C&D lS0 TC 164 SC5 WG2 Rep/Act Manufacturing Message Service - Transport Control lnbrmaticn & Data Compatability Conxnunication
Selvti Def.
(82)==D IS0 TC 164 SC2 WG6 Rep/Act ffobotCompadonStandanitoMMS Transport Control lnbrmation EL Data Ccmpatability Convnunicatkm
(_)
(82) 2I3 C&D LSO TC164SCzWG6 Ctte FtobotCompanionStandardlcMMS Transport Control lnbrmaticn & Data Ccqatability Corhnunication
(1s 6506)
(Proc)Levdceii Orgn fXo SC WG CtteIDoc Scope of Activity or Stsndsrds Dot Example Stsndards Areas Vievipoint Base Technology
(82) 3f4 c IS0 TC164SCl WG3 Ctte Companion Standard to MMS (IS0 9596) Transport Control Information Compatabiiily information
(82) 3/4 C&D iS0 TC 164 SC 5 WG 2 Ctte Communications and Interconnections Transform Control Information & Data Comoatabiiitv Communication
(82) 3/4 C&D Iso TC 164 SC1 WG3 Rep/Act NC Companion Standard to MMS (9696/S) Transport Control informalion Compatabiiity information
(82) 3I4 C&D iS0 TCl64 Rep/Act Real-time LANs (proposed new krork item) Transport Control information & Data Compatabiiity Communication
(82) 3J4 C&D
(S2) 3/4 C&D
IEC TC65 SCA Rep&t Binary Direct Voitage Stgnais for Process Transport Control info/Data Compatibility Communkzation
Measurement and Control Systems
IEC TC 65 SC A WG6 Rep/Act PLCs - Part : Messaging service Transport Control info/Data Compatibility Communicatiin
I (82) 3N CELD
(82) 3l4 C&D
IEd TC 65 SC C WGl Rep/Act PMS - MMS Companion Standard br Transport Control info/Data Compatibility Communication
Process Control
IEC TC65 SC C WGl Rep/Act Preparationof StandardsProfiiesfor Tmnsport Control info/Data Compatibility Communication
conxns Needs of Process contmi inrhlstrv
(82) 3/4 c&D
(82) 3/4 C&D
(82) 3/4 C&D
iSO TC 164 SC5 WG2 Rep/Act Functionai Sbndardson CLANS Transport Control information 6 Data &mpaMbtitt Communication
iS0 TC 164 SC5 WG2 Rep/Act Control Systems Empbying Half-Duplex Transport Control infonnatkm 6 Data Compatabtiii Conxnunicatkn
TransmNskm etc.
iS0 TC 164 SC5 WG2 Rep/Act EiectricaiandMechanicaiinterfaceand Transport Control information 6 Data Compatabiiity Conxnu&ation
Line Controi Characteristics for serial Data
Link etc.
(82) 3/4 C&D
(82) 3f4 C&D
Iso TC 164 SC5 WG2 Rep/Act Manufacturirig MessageService-
Protocol Spec.
iS0 TC 164 SC5 WG2 Rep/Act Manufacturing Message Service-
Service Def.
Transport Control infomtation & Data
Transport Control inbrmation 8 Data
Compatabiiity Conxnunication
Compatabiiity Communication
(82) 3/4 C&D
(S2) 3/4 CbD
Iso TC 164 SC2 WG6 Rep/Act Robot CompanbnStandardtoMMS
(=n)
Iso TC 164 SC 2 WG 6 Ctte Robot Companion Standard to MMS
(I!90 9566)
Transport Control information h Data
Transport Control inbmtation (L Data
Compatabiiity Communicatbn
Compatabiiity Communkation
.*. . .
Orgn Ctte SC WG CtteiDoc Scope of Activity or Standards Dot Example Standards Areas Vidpofnt Baaa Technolog$
l(B2) 3f4 D IS0 TC184SC5 WG2 Ctte Communications and Interconnections Transform Control lnformation & Data Compatability Communication
IS0 TC 184 SC5 WGl Rep/Act kit Reference Model for Automated and Beyond SFRM
CAD Systerrk
IS0 TC184SC4 Ctte External Representation of Product SC4 Titie only
Definition Data
IS0 TCl04SC3
IS0 TCi84SCl
Cite Manufacturing Application Languages SC3 Title only
Ctte Numerical Control of Machines SC1 Title only
IS0 TC184SC5 WGl Ctte Reference Models Beyond SFRM
Is0 TC184 SC3 WG2 Ctle Requirements for a Globa/ Programming Beyond SFRM
Lanauaae Environment
Is0 TC 184 SC3 WG2 Rep/Act Requirements for Glob& Programming
Language Environment
Beyond SFRM
IS0 TC184 WG2 Rep/Act Revision of ISORC 184 Structure Beyond SFRM
IS0 TC 184 SC2 WGl Rep/Act Robot Characteristics No match
Is0 TC184SC2 Ctte Standardised Data Sheets for robots SC2 Title only
IS0 TC184SC5 Ctte System Integration and Communication SC5 Title only
IS0 TC184SC4 WGl Ctte Technicd Coordination and Support No match
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Review of Indian Standards
Amendments are issued to standards as the need arises on the basis-of comments. Standards are-also reviewed periodically; a standard along with amendments is iea&irFed when such review indicates that no changes are needed; if the review indicates that changes are needed, it is t&en up for rc%i$on. Users of Indian Standards should ascertain that ,they are in possession of the latest amendments or’$lition.by referring to the latest issue of ‘BIS Handbook’ and ‘Standards : Monthly Additions’.
This Indian Standard has been developed from Dot : No. BP/PE I 8 ( 02 12 ).
Amendments Issued Since Publ;ication
Amend No. Date of Issue Text Aff&d
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