1、 AMERICAN NATIONAL STANDARD ANSI/ISA-95.00.02-2010 (IEC 62264-2 Mod) Enterprise-Control System Integration Part 2: Object Model Attributes Approved 13 May 2010 ANSI/ISA-95.00.02-2010 (IEC 62264-2 Mod) Enterprise-Control System Integration Part 2: Object Model Attributes ISBN: 978-1-936007-48-6 Copyr
2、ight 2010 by the International Society of Automation (ISA). All rights reserved. Not for resale. Printed in the United States of America. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means (electronic mechanical, photocopying, reco
3、rding, or otherwise), without the prior written permission of the Publisher. ISA 67 Alexander Drive P.O. Box 12277 Research Triangle Park, North Carolina 27709 - 3 - ANSI/ISA-95.00.02-2010 (IEC 62264-2 Mod) CONTENTS INTRODUCTION 11 1 Scope 13 2 Normative references . 13 3 Terms, definitions and abbr
4、eviations. 14 3.1 Terms and definitions 14 3.2 Abbreviations 15 4 Production operations models and generic operations models. 15 4.1 Information models 15 4.2 General modeling information 17 4.3 Extensibility of attributes through properties. 17 4.4 Object model structure 18 4.5 Explanation of table
5、s. 18 4.6 Relationship of models 21 4.7 Hierarchy scope 22 4.8 Value types. 23 5 Common object models 27 5.1 Personnel information . 27 5.2 Role based equipment information. 33 5.3 Physical asset information. 40 5.4 Material information. 46 5.5 Process segment information. 58 6 Operations management
6、 information 69 6.1 Operations definition information . 69 6.2 Operations schedule information 84 6.3 Operations performance information 100 6.4 Operations capability information. 116 6.5 Process segment capability information . 128 7 Object model inter-relationships . 130 8 List of objects. 134 9 C
7、ompliance 138 Annex A (Normative) Production specific information. 139 Annex B (Informative) Use and examples 147 Annex C (Informative) Example data sets 157 Annex D (Informative) Questions and answers about object use 165 Annex E (Informative) Logical information flows 181 Bibliography . 184 ANSI/I
8、SA-95.00.02-2010 (IEC 62264-2 Mod) - 4 - Tables Table 1 UML notation used. 18 Table 2 Example table 19 Table 3 Attributes of hierarchy scope 23 Table 4 Attributes of personnel class 28 Table 5 Attributes of personnel class property. 29 Table 6 Attributes of person . 30 Table 7 Attributes of person p
9、roperty 31 Table 8 Attributes of qualification test specification . 32 Table 9 Attributes of qualification test result 33 Table 10 Attributes of equipment class . 35 Table 11 Attributes of equipment class property 35 Table 12 Attributes of equipment 36 Table 13 Attributes of equipment property. 37 T
10、able 14 Attributes of equipment capability test specification 38 Table 15 Attributes of equipment capability test result. 39 Table 16 Attributes of physical asset 42 Table 17 Attributes of physical asset property. 43 Table 18 Attributes of physical asset class 43 Table 19 Attributes of physical asse
11、t class property 44 Table 20 Attributes of physical asset capability test specification. 45 Table 21 Attributes of physical asset capability test result . 45 Table 22 Attributes of equipment asset mapping . 46 Table 23 Attributes of material class . 48 Table 24 Attributes of material class property
12、. 49 Table 25 Attributes of material definition. 50 Table 26 Attributes of material definition property . 51 Table 27 Attributes of material lot . 52 Table 28 Attributes of material lot property 54 Table 29 Attributes of material sublot 55 Table 30 Attributes of material test specification . 56 Tabl
13、e 31 Attributes of material test result 57 Table 32 Attributes of process segment 60 Table 33 Attributes of personnel segment specification . 61 Table 34 Attributes of personnel segment specification property 62 Table 35 Attributes of equipment segment specification 62 Table 36 Attributes of equipme
14、nt segment specification property. 63 Table 37 Attributes of material segment specification 64 Table 38 Attributes of material segment specification property 65 - 5 - ANSI/ISA-95.00.02-2010 (IEC 62264-2 Mod) Table 39 Attributes of physical asset segment specification. 66 Table 40 Attributes of physi
15、cal asset segment specification property . 67 Table 41 Attributes of process segment parameter 67 Table 42 Attributes of process segment dependency. 68 Table 43 Attributes of operations definition . 71 Table 44 Attributes of operations material bill . 72 Table 45 Attributes of operations material bi
16、ll item 73 Table 46 Attributes of operations segment 74 Table 47 Attributes of parameter specification. 75 Table 48 Attributes of personnel specification . 76 Table 49 Attributes of personnel specification property 77 Table 50 Attributes of equipment specification 78 Table 51 Attributes of equipment
17、 specification property. 79 Table 52 Attributes of physical asset specification 80 Table 53 Attributes of physical asset specification property. 81 Table 54 Attributes of material specification 82 Table 55 Attributes of material specification property 83 Table 56 Attributes of operations segment dep
18、endency. 84 Table 57 Attributes of operations schedule . 86 Table 58 Attributes of operations request 88 Table 59 Attributes of segment requirement 90 Table 60 Attributes of segment parameter. 91 Table 61 Attributes of personnel requirement 92 Table 62 Attributes of personnel requirement property 93
19、 Table 63 Attributes of equipment requirement . 94 Table 64 Attributes of equipment requirement property . 95 Table 65 Attributes of physical asset requirement . 96 Table 66 Attributes of physical asset requirement property 97 Table 67 Attributes of material requirement. 98 Table 68 Attributes of ma
20、terial requirement property . 100 Table 69 Attributes of operations performance 102 Table 70 Attributes of operations response . 104 Table 71 Attributes of segment response 106 Table 72 Attributes of segment data . 107 Table 73 Attributes of personnel actual. 108 Table 74 Attributes of personnel act
21、ual property . 109 Table 75 Attributes of equipment actual 110 Table 76 Attributes of equipment actual property 111 Table 77 Attributes of physical asset actual 112 ANSI/ISA-95.00.02-2010 (IEC 62264-2 Mod) - 6 - Table 78 Attributes of physical asset actual property. 113 Table 79 Attributes of materi
22、al actual 114 Table 80 Attributes of material actual property 116 Table 81 Attributes of operations capability. 118 Table 82 Attributes of personnel capability 120 Table 83 Attributes of personnel capability property 121 Table 84 Attributes of equipment capability. 122 Table 85 Attributes of equipme
23、nt capability property . 123 Table 86 Attributes of physical asset capability . 124 Table 87 Attributes of physical asset capability property 125 Table 88 Attributes of material capability 126 Table 89 Attributes of material capability property. 128 Table 90 Attributes of process segment capability.
24、 130 Table 91 Model cross-reference . 133 Table 92 Common resource objects 135 Table B-1 Attributes of person 148 Table B-2 Database structure for person. 151 Table B-3 Database structure for person property . 152 Table B-4 Database for person with data 152 Table B-5 Database for person property wit
25、h data. 152 Table D-1 Definition of segment types 167 Figures Figure 1 Production operations management information models 16 Figure 2 Operations information models for operations management 17 Figure 3 Detailed resource relationship in models . 21 Figure 4 Hierarchy scope model . 23 Figure 5 Person
26、nel model. 27 Figure 6 Role based equipment model 34 Figure 7 Physical asset model 41 Figure 8 Physical asset and equipment relationship 41 Figure 9 Material model 47 Figure 10 Example of a material with an assembly 58 Figure 11 Process segment model 59 Figure 12 Segment dependency examples . 69 Fig
27、ure 13 Operations definition model. 70 Figure 14 Operations schedule model. 85 Figure 15 Operations performance model . 101 Figure 16 Operations capability Model 117 Figure 17 Process segment capability object model 129 - 7 - ANSI/ISA-95.00.02-2010 (IEC 62264-2 Mod) Figure 18 Object model inter-rela
28、tionships 132 Figure 19 Product definition model . 139 Figure 20 Production schedule model . 142 Figure 21 Production performance model 144 Figure 22 Production capability model 146 Figure B-1 Personnel model . 148 Figure B-2 Instances of a person class . 149 Figure B-3 UML model for class and class
29、 properties 149 Figure B-4 Class property. 150 Figure B-5 Instances of a person properties 150 Figure B-6 Instances of person and person properties. 150 Figure B-7 XML schema for a person object. 153 Figure B-8 XML schema for person properties 154 Figure B-9 Example of person and person property. 15
30、4 Figure B-10 Example of person class information 154 Figure B-11 Adaptor to map different property IDs and values. 155 Figure D-1 Class and property IDs used to identify elements. 168 Figure D-2 A property defining overlapping subsets of the capability . 170 Figure D-3 Routing for a product 171 Fig
31、ure D-4 Routing with co-products and material dependencies . 171 Figure D-5 Product and process capability relationships 172 Figure D-6 Time-based dependencies. 174 Figure E-1 Enterprise to manufacturing system logical information flows . 182 Figure E-2 Logical information flows among multiple syste
32、ms 183 This page intentionally left blank. - 9 - ANSI/ISA-95.00.02-2010 (IEC 62264-2 Mod) ENTERPRISE-CONTROL SYSTEM INTEGRATION Part 2: Objects model attributes FOREWORD This standard is Part 2 of a multi-part set of standards that defines the interfaces between enterprise activities and control act
33、ivities. It follows ANSI/ISA-95.00.01-2010 (IEC 62264-1 Mod), Enterprise-Control System Integration - Part 1: Models and Terminology. The scope of this Part 2 standard is limited to defining the details of the interface content between manufacturing control functions and other enterprise functions.
34、The scope of this Part 2 standard is limited to the definition of object models and attributes for the information defined in Part 1. The goal is to reduce the effort, cost, and errors associated with implementing these interfaces. The standard may be used to reduce the effort associated with implem
35、enting new product offerings. The goal is to have enterprise systems and control systems that interoperate and easily integrate. This publication has been drafted in accordance with the ISO/IEC Directives, Part 2. Therefore, the first three clauses present the scope of the standard, normative refere
36、nces, and definitions, in that order. Clause 4 is informative. It describes the general information about the object models and examples defined in later clauses. Clause 5 is normative. It defines the object models and attributes of common information defined in Part 1. Clause 6 is normative. It def
37、ines the object models and attributes of operations management information defined in Part 1. Clause 7 is informative. It defines the inter-relationships between the object models. Clause 8 is informative. It lists the objects defined in the standard as an aid to documenting conformance and complian
38、ce. Clause 9 is normative. It defines completeness, conformance and compliance criteria associated with the objects and attributes. Annex A is normative. It defines the object models and attributes of production specific information defined in Part 1. Annex B is informative. It provides examples to
39、illustrate how the models and attributes may be used. Annex C is informative. It illustrates some example data sets. Annex D is informative. It contains questions and answers on the use and reason for elements in the standard. Annex E is informative. It discusses how the standard relates to logical
40、information flows.This page intentionally left blank. - 11 - ANSI/ISA-95.00.02-2010 (IEC 62264-2 Mod) INTRODUCTION This Part 2 standard further defines formal object models for exchange information described in ANSI/ISA-95.00.01-2010 (IEC 62264-1 Mod), Enterprise- Control System Integration - Part 1
41、: Models and Terminology (hereafter referred to as Part 1) using UML object models, tables of attributes, and examples. The models and terminology defined in this part: a) emphasize good integration practices of control systems with enterprise systems during the entire life cycle of the systems; b)
42、can be used to improve existing integration capability of manufacturing control systems with enterprise systems; and c) can be applied regardless of the degree of automation. Specifically, this part provide a standard terminology and a consistent set of concepts and models for integrating control sy
43、stems with enterprise systems that will improve communications between all parties involved. Benefits produced will a) reduce the users time to reach full production levels for new products; b) enable vendors to supply appropriate tools for implementing integration of control systems to enterprise s
44、ystems; c) enable users to better identify their needs; d) reduce the cost of automating manufacturing processes; e) optimize supply chains; and f) reduce life-cycle engineering efforts. This standard may be used to reduce the effort associated with implementing new product offerings. The goal is to
45、 have enterprise systems and control systems that interoperate and easily integrate. It is not the intent of the standards to a) suggest that there is only one way of implementing integration of control systems to enterprise systems; b) force users to abandon their current way of handling integratio
46、n; or c) restrict development in the area of integration of control systems to enterprise systems. This page intentionally left blank. - 13 - ANSI/ISA-95.00.02-2010 (IEC 62264-2 Mod) ENTERPRISE-CONTROL SYSTEM INTEGRATION Part 2: Object model attributes 1 Scope This part of ISA95, in conjunction with
47、 ANSI/ISA-95.00.01-2010 (IEC 62264-1 Mod), Enterprise-Control System Integration Part 1: Models and Terminology, specifies generic interface content between manufacturing control functions and other enterprise functions. The interface considered is between Level 3 manufacturing systems and Level 4 b
48、usiness systems in the hierarchical model defined in Part 1. The goal is to reduce the risk, cost, and errors associated with implementing the interface. Since this standard covers many domains, and there are many different standards in those domains, the semantics of this standard are described at
49、a level intended to enable the other standards to be mapped to these semantics. To this end this standard defines a set of elements contained in the generic interface, together with a mechanism for extending those elements for implementations. The scope of Part 2 is limited to the definition of object model