DOCSLIB.ORG

STANDARDS LIST Neu.Xlsx

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

Document‐Number Published Title Organization Committee Committee Title IEC 100/2536/CD * IEC 63002 2015‐07 IEC 63002, Ed. 1.0: Idenficaon and CommunicaonInteroperability Method for External Power Supplies Used WithPortable Compung Devices (TA 14) IEC IEC/TC 100 Audio, video and multimedia systems and equipment IEC 115/105/CD *IEC/TR 62978 2015‐01 IEC/TR 62978, Ed. 1: Guidelines on Asset Management forHVDC Installaons IEC IEC/TC 115 High Voltage Direct Current (HVDC) transmission for DC voltages above 100 kV IEC 118/29/DPAS* IEC/PAS 62746‐199 2013‐09 System interfaces and communication protocol profiles relevant for systems connected to the smart grid ‐ Open Automated Demand Response (OpenADR 2.0 Profile Specification) IEC IEC/PC 118 Smart grid user interface IEC 118/46/CD *IEC 62746‐10‐2 2014‐12 OASIS Energy Interoperation Version 1.0 Specification IEC IEC/PC 118 Smart grid user interface IEC 118/47/CD * IEC 62746‐10‐1 2015‐01 IEC 62746‐10‐1: Systems interface between customer energymanagement system and the power management system ‐ Part10 ‐1: Open Automated Demand Response (OpenADR 2.0bPro file Specificaon) IEC IEC/PC 118 Smart grid user interface IEC 22H/192/CD * IEC/TS 62040‐4‐1 2015‐04 IEC/TS 62040‐4‐1: Uninterrupble power systems (UPS) ‐ Part 4‐1: Environmental aspects ‐ Product Category Rules (PCR) for life Cycle Assessment and environmental declaraons IEC IEC/SC 22H Uninterruptible power systems (UPS) IEC 3/1224A/CD * IEC 81346‐2 2015‐05 Industrial systems, installaons and equipment and industrialproducts ‐ Structuring principles and reference designaons ‐ Part 2: Classificaon of objects and codes for classes IEC IEC/TC 3 Information structures and elements, identification and marking principles, documentation and graphical symbols IEC 3D/225A/CD * IEC 62656‐5 2014‐03 IEC 62656‐5, Ed. 1: Standardized Product Ontology Registerand Transfer by Spreadsheets ‐ Part 5: Interface for acvity descripon IEC IEC/SC 3D Product properties and classes and their identification IEC 3D/244/CDV *IEC 61360‐6 2015‐04 IEC 61360‐6, Ed. 1: IEC Common Data Diconary (IEC CDD)Quality guidelines IEC IEC/SC 3D Product properties and classes and their identification IEC 3D/251/CD * IEC 61360‐1 2015‐04 IEC 61360‐1, Ed. 4: Standard data elements types withassociated classificaon scheme for electric items ‐ Part 1: Definions ‐ Principles and methods IEC IEC/SC 3D Product properties and classes and their identification IEC 56/1581/CD * Dependability 2014‐07 IEC 62550, Ed. 1: Spare parts provisioning IEC IEC/TC 56 IEC 62550 IEC 56/1601/CD *IEC 60300‐3‐3 2014‐12 IEC 60300‐3‐3, Ed. 3: Dependability management ‐ Part 3‐3:Applica on guide ‐ Life cycle cosng IEC IEC/TC 56 Dependability IEC 56/1606/CD *IEC 60300‐3‐10 2015‐01 IEC 60300‐3‐10, Ed. 2: Dependability management ‐ Part 3‐10:Applica on guide ‐ Maintainability and supportability IEC IEC/TC 56 Dependability IEC 56/1617/CD *IEC 62853 2015‐04 IEC 62853, Ed. 1: Open Systems Dependability IEC IEC/TC 56 Dependability IEC 57/1468/CD *IEC/TS 61850‐10‐210 2014‐05 IEC/TS 61850‐10‐210: Communicaon networks and systemsfor power ulity automaon ‐ Part 10‐210: IEC 61850Interoperab ility tests ‐ Hydro profile IEC IEC/TC 57 Power systems management and associated information exchange IEC 57/1522/DTR *IEC/TR 61850‐90‐3 2014‐11 IEC/TR 61850‐90‐3: Communicaon networks and systems forpower ulity automaon ‐ Part 90‐3: Using IEC 61850 for condion monitoring diagnosis and analysis IEC IEC/TC 57 Power systems management and associated information exchange IEC 57/1527/DTS * IEC/TS 62746‐3 2014‐11 IEC/TS 62746‐3: Systems interface between customer energymanagement system and the power management system ‐ Part3: Architecture IEC IEC/TC 57 Power systems management and associated information exchange IEC 57/1528/DTS *IEC/TS 60870‐5‐601 2015‐02 IEC/TS 60870‐5‐601: Telecontrol equipment and systems ‐ Part5 ‐601: Conformance test cases for the IEC 60870‐5‐101 companion standard IEC IEC/TC 57 Power systems management and associated information exchange IEC 57/1538/CD * IEC/TS 62361‐102 2015‐01 IEC/TS 62361‐102: Power systems management and associatedinforma on exchange ‐ Interoperability in the long term ‐ Part102: CIM ‐ IEC 61850 harmonizaon IEC IEC/TC 57 Power systems management and associated information exchange IEC 57/1542/CD * IEC 62351‐7 2015‐01 IEC 62351‐7, Ed. 1.0: Power systems management andassociated informaon exchange ‐ Data and communicaons security ‐ Part 7: Network and system management (NSM) data object models IEC IEC/TC 57 Power systems management and associated information exchange IEC 57/1547/CD * IEC 62325‐351 2015‐01 IEC 62325‐351: Framework for energy market communications ‐ Part 351: CIM European market model exchange profile IEC IEC/TC 57 Power systems management and associated information exchange IEC 57/1553/CD * IEC 61970‐552 2015‐02 IEC 61970‐552: Energy management system applicaonprogram interface (EMS‐API) ‐ Part 552: CIMXML Model exchange format IEC IEC/TC 57 Power systems management and associated information exchange IEC 57/1565/CD * IEC 62351‐9 2015‐03 IEC 62351‐9, Ed. 1: Power systems management andassociated informaon exchange ‐ Data and communicaons security ‐ Part 9: Cyber security key management for power system equipment IEC IEC/TC 57 Power systems management and associated information exchange IEC 57/1578/DTR *IEC/TR 61850‐90‐2 2015‐05 IEC/TR 61850‐90‐2: Communicaon networks and systems forpower ulity automaon ‐ Part 90‐2: Using IEC 61850 for the communicaon between substaons and control centres IEC IEC/TC 57 Power systems management and associated information exchange IEC 57/1579/DTR * IEC/TR 61968‐900 2015‐05 IEC/TR 61968‐900: Applicaon integraon at electric ulies ‐System interfaces for distribuon management ‐ Part 900: Guidance to implementaons of IEC 61968‐9 IEC IEC/TC 57 Power systems management and associated information exchange IEC 60027‐6 2006‐12 Letter symbols to be used in electrical technology ‐ Part 6: Control technology IEC IEC/TC 25 Quantities and units IEC 60038 2009‐06 IEC standard voltages IEC IEC/TC 8 Systems aspects for electrical energy supply IEC 60050 various International Electrotechnical Vocabulary ‐ Part 351, 371, 371 AMD1 IEC IEC/TC 1 Terminology IEC 60073 2002‐05 Basic and safety principles for man‐machine interface, marking and identification ‐ Coding principles for indicators and actuators IEC IEC/TC 3 Information structures and elements, identification and marking principles, documentation and graphical symbols IEC 60204‐11 2000‐07 Safety of machinery ‐ Electrical equipment of machines ‐ Part 11: Requirements for HV equipment for voltages above 1 000 V a.c. or 1 500 V d.c. and not exceeding 36 kV IEC IEC/TC 44 Safety of machinery ‐ Electrotechnical aspects IEC 60255 various Measuring relays and protection equipment ‐ Part 27, 127, 149, 151 IEC IEC/TC 95 Measuring relays and protection equipment IEC 60286 various Packaging of components for automatic handling ‐ Part 3‐5 IEC IEC/TC 40 Capacitors and resistors for electronic equipment IEC 60300‐3‐10 2001‐01 Dependability management ‐ Part 3‐10: Application guide ‐ Maintainability IEC IEC/TC 56 Dependability IEC 60338 * IEC 1970‐01 Telemetering for consumption and demand IEC IEC/TC 13 Electrical energy measurement and control IEC 60381‐1 1982‐01 Analogue signals for process control systems. Part 1: Direct current signals IEC IEC/TC 65 Industrial‐process measurement, control and automation IEC 60381‐2 1978‐01 Analogue signals for process control systems. Part 2: Direct voltage signals IEC IEC/TC 65 Industrial‐process measurement, control and automation IEC 60382 1991‐11 Analogue pneumatic signal for process control systems IEC IEC/TC 65 Industrial‐process measurement, control and automation IEC 60445 2010‐08 Basic and safety principles for man‐machine interface, marking and identification ‐ Identification of equipment terminals, conductor terminations and conductors IEC IEC/TC 3 Information structures and elements, identification and marking principles, documentation and graphical symbols IEC 60447 2004‐01 Basic and safety principles for man‐machine interface, marking and identification ‐ Actuating principles IEC IEC/TC 3 Information structures and elements, identification and marking principles, documentation and graphical symbols IEC 60534 various Industrial‐process control valves ‐ Part 1, 2‐1, 2‐3, 2‐4, 3‐1, 3‐2, 3‐3, 4, 5, 6‐1, 6‐2, 7, 8‐1, 8‐2, 8‐3, 8‐4 IEC IEC/SC 65B Measurement and control devices IEC 60546 various Controllers with analogue signals for use in industrial‐process control systems ‐ Part 1+2 IEC IEC/SC 65B Measurement and control devices IEC 60584 various Thermocouples ‐ Part 1+3 IEC IEC/SC 65B Measurement and control devices IEC 60605‐6 2007‐05 Equipment reliability testing ‐ Part 6: Tests for the validity and estimation of the constant failure rate and constant failure intensity IEC IEC/TC 56 Dependability IEC 60654 various Industrial‐process measurement and control equipment ‐ Operating conditions ‐ Part 1‐4 IEC IEC/SC 65A System aspects IEC 60671 2007‐05 Nuclear power plants ‐ Instrumentation and control systems important to safety ‐ Surveillance testing IEC IEC/SC 45A Instrumentation, control and electrical systems of nuclear facilities IEC 60706 various Maintainability of equipment ‐ Part 2+3+5 IEC IEC/TC 56 Dependability IEC 60770 various Transmitters for use in industrial‐process control systems ‐ Part 1‐3 IEC IEC/SC 65B Measurement and control devices IEC 60834‐1 1999‐10 Teleprotection equipment of power systems ‐ Performance and testing ‐ Part 1: Command systems IEC IEC/TC 57 Power systems
Recommended publications
  • Iot4cps Deliverable

    Iot4cps Deliverable

    IoT4CPS – Trustworthy IoT for CPS FFG - ICT of the Future Project No. 863129 Deliverable D5.1 Lifecycle Data Models for Smart Automotive and Smart Manufacturing Deliverable number: D5.1 Dissemination level: Public Delivery data: 13. June 2018 Editor: Violeta Damjanovic-Behrendt Author(s): Violeta Damjanovic-Behrendt (SRFG) Michaela Mühlberger (SRFG) Cristina de Luca (IFAT) Thomos Christos (IFAT) Reviewers: Heinz Weiskirchner (NOKIA) Edin Arnautovic (TTTech) The IoT4CPS project is partially funded by the “ICT of the Future” Program of the FFG and the BMVIT. The IoT4CPS Consortium: IoT4CPS – 863129 Lifecycle Data Models for Smart Automotive and Smart Manufacturing AIT – Austrian Institute of Technology GmbH AVL – AVL List GmbH DUK – Donau-Universität Krems IFAT – Infineon Technologies Austria AG JKU – JK Universität Linz / Institute for Pervasive Computing JR – Joanneum Research Forschungsgesellschaft mbH NOKIA – Nokia Solutions and Networks Österreich GmbH NXP – NXP Semiconductors Austria GmbH SBA – SBA Research GmbH SRFG – Salzburg Research Forschungsgesellschaft SCCH – Software Competence Center Hagenberg GmbH SAGÖ – Siemens AG Österreich TTTech – TTTech Computertechnik AG IAIK – TU Graz / Institute for Applied Information Processing and Communications ITI – TU Graz / Institute for Technical Informatics TUW – TU Wien / Institute of Computer Engineering XNET – X-Net Services GmbH Document Control Title: Lifecycle Data Models for Smart Automotive and Smart Manufacturing Type: Public Editor(s): Violeta Damjanovic-Behrendt Author(s): Violeta
  • Openo&M Oil & Gas Industry Use Cases with Scenarios and Enabling

    Openo&M Oil & Gas Industry Use Cases with Scenarios and Enabling

    OpenO&M Oil & Gas Industry Use Cases with Scenarios and Enabling Technology Ken Bever MIMOSA CTO [email protected] +1 (513) 276-4105 1 Use Cases 1 Handover Information from EPC to O/O 2 Engineering Upgrades to O&M 3 Field Changes to Plant/Facility Engineering 4 Up-to-Date Product Data Library (from On-line RDL) 5 O&M Asset Configuration Updates 6 Preventive Maintenance Triggering 7 (Semi-) Automatic Triggering of Condition Based Maintenance (CBM) 8 Early Warning Notifications 9 Incident Management/Accountability 10 Information Provisioning of O&M Systems 2 Systems Requiring Interoperability AHMS Asset Health Management System MES Manufacturing Execution System CIR Common Interoperability Registry MMS Maintenance Management System CMS Condition Monitoring System OPM Operational Performance Modelling & Optimization System DCS Distributed Control System ORM Operational Risk Management System DMS Document Management System PDM Product Data Management System EAM Enterprise Asset Management System PLC Programmable Logic Controller ENG Engineering Schematic Topology and PORT Enterprise KPI/Event Portal Instrumentation Tag Configuration Management System ERM Enterprise Risk Management System PSMS Process Safety Management System ERP Enterprise Resource Planning System QMS Quality Management System HMI Human-Machine Interface (Operator Console) REG O&M Product, Structure, Asset Registry with System Standardised Data Dictionary and Taxonomy ISBM Information Service Bus Model SCADA Supervisory Control and Data Acquisition LIMS Lab Information Management
  • Standards Action Layout SAV3533.Fp5

    Standards Action Layout SAV3533.Fp5

    PUBLISHED WEEKLY BY THE AMERICAN NATIONAL STANDARDS INSTITUTE 25 West 43rd Street, NY, NY 10036 VOL. 35, #33 August 13, 2004 Contents American National Standards Call for Comment on Standards Proposals ................................................ 2 Call for Comment Contact Information ....................................................... 6 Final Actions.................................................................................................. 8 Project Initiation Notification System (PINS).............................................. 10 International Standards ISO and IEC Newly Published Standards.................................................... 14 CEN/CENELEC ................................................................................................ 16 Registration of Organization Names in the U.S............................................ 19 Proposed Foreign Government Regulations................................................ 19 Information Concerning ................................................................................. 20 Standards Action is now available via the World Wide Web For your convenience Standards Action can now be down- loaded from the following web address: http://www.ansi.org/news_publications/periodicals/standards _action/standards_action.aspx?menuid=7 American National Standards Call for comment on proposals listed This section solicits public comments on proposed draft new American National Standards, including the national adoption of Ordering Instructions for "Call-for-Comment"
  • Standards Analysis Ict Sector Luxembourg

    Standards Analysis Ict Sector Luxembourg

    Version 6.0 – June 2016 ISSN 2354-483X STANDARDS ANALYSIS ICT SECTOR LUXEMBOURG · V5.0/09.2015 LUXEMBOURG LUXEMBOURG ICT SECTOR ICT CONTACT : ILNAS & ANEC STANDARDS ANALYSIS ANALYSIS STANDARDS Southlane Tower I · 1, avenue du Swing · L-4367 Belvaux Tel. : (+352) 24 77 43 -70 · Fax : (+352) 24 79 43 -70 E-mail : [email protected] ANS/AN03 www.portail-qualite.lu 2015 · © ILNAS/ANEC September Executive summary In 2012 the “Institut Luxembourgeois de la Normalisation, de l’Accréditation, de la Sécurité et qualité des produits et services” (ILNAS) initiated an analysis of European and international standards in the Information and Communication Technology (ICT) sector. The aim of this analysis is to develop an information and exchange network for ICT standardization knowledge in the Grand Duchy of Luxembourg. Since 2013, this analysis has been carried out in the frame of the implementation of the “Luxembourg’s policy on ICT technical standardization” (which was last updated in 2015)1. The ICT sector is already an active sector at the national standardization level with 65 national delegates currently registered by ILNAS2. These delegates are involved in standardization technical committees to participate actively and follow closely the work performed at international level and have the task of ensuring that the views and positions of Luxembourg are understood and known by the technical committees. ILNAS is convinced that this sector could be even more active, especially since some ICT subsectors do not yet benefit from a sufficient representation of national delegates (e.g.: Internet of Things, Cloud Computing, Big Data, Smart Cities). Thus, the purposes of this analysis are firstly, to provide useful information to national stakeholders regarding standardization activities in the field of ICT and secondly, to involve them into an integrated and innovative approach of standardization.
  • List of Published Standards

    List of Published Standards

    Report Date : 2021-09-17 Cost Centre(s) : % LIST OF PUBLISHED STANDARDS Page No : 1 Of 3 Total Count: 41 Committee SANS Date Latest Reaffirmation Review/ Number Number Int Ed Ed Sansified Title Approved Amendment due Revision SABS/TC 165 SANS 60654-1:2017/IEC 60654-1:1993 2 1 Y Industrial-process measurement and control 2017-06-23 2022-06-23 equipment - operating conditions - Part 1: Climatic conditions SANS 61131-1:2017/IEC 61131-1:2003 2 Y Programmable controllers Part 1: General 2017-10-13 2022-10-13 information SANS 61131-2:2018/IEC 61131-2:2007 2 Y Programmable controllers Part 2: Equipment 2018-12-07 2023-12-07 requirements and tests SANS 61131-3:2018/IEC 61131-3:2013 2 Y Programmable controllers Part 3: 2018-07-20 2023-07-20 Programming languages SATR 61131-4:2017/IEC TR 61131-4:2004 1 Y Programmable controllers Part 4: User 2017-12-15 2022-12-15 guidelines SANS 61131-5:2018/IEC 61131-5:2000 1 Y Programmable controllers - Part 5: 2018-02-23 2023-02-23 Communications SANS 61131-6:2018/IEC 61131-6:2012 1 Y Programmable controllers - Part 6: Functional 2018-05-25 2023-05-25 safety SANS 61131-7:2018/IEC 61131-7:2000 1 Y Programmable controllers - Part 7:Fuzzy 2018-02-23 2023-02-23 control programming SATR 61131-8:2019/IEC TR 61131-8:2003 1 Y Programmable controllers - Part 8: Guidelines 2019-11-22 2024-11-22 for the application and implementation of programming languages SANS 61131-9:2020/IEC 61131-9:2013 1 Y Programmable controllers - Part 9: Single- 2020-05-29 2025-05-29 drop digital communication interface for small sensors and actuators (SDCI) SANS 61158-3-2:2021/IEC 61158-3-2:2019 2.1 1 Y Industrial communication networks - Fieldbus 2021-07-16 1 I A 2021-07-16 2026-07-16 specifications - Part 3-2: Data-link layer service definition - Type 2 elements.
  • Development of Line Width and Type Control of 2D Cad Software Based on Iso Technical Drawing Standard

    Development of Line Width and Type Control of 2D Cad Software Based on Iso Technical Drawing Standard

    UNIVERSITI PUTRA MALAYSIA DEVELOPMENT OF LINE WIDTH AND TYPE CONTROL OF 2D CAD SOFTWARE BASED ON ISO TECHNICAL DRAWING STANDARD PITOON NOPNAKORN FK 2003 44 DEVELOPMENT OF LINE WIDTH AND TYPE CONTROL OF 2D CAD SOFTWARE BASED ON ISO TECHNICAL DRAWING STANDARD By PITOON NOPNAKORN Thesis Submitted to the School of Graduate Studies, Universiti Putra Malaysia, in Fulfilmentof the Requirements for the Degree of Master of Science October 2003 DEDICATION To My Parents One who ever shared a moment of his love and one who has strived patiently fo r their beloved children 11 Abstract of the thesispresented to theSenate ofUniversiti Putra Malaysia in fulfilmentof the requirements fo r the degree of Master of Science DEVELOPMENT OF LINE WIDTH AND TYPE CONTROL OF 2D CAD SOFTWARE BASED ON ISO TECHNICAL DRAWING STANDARD By PITOON NOPNAKORN October 2003 Chairman: Associate Professor Napsiah Ismail, Ph.D. Faculty: Engineering Engineering drawing is the media of communication in manufacturing process. In order to communicate in the same graphic language in engineering, the technical drawing standard has been specified by the International Organization fo r Standardization (ISO). Some commercial CAD softwares such as AutoCAD, AutoSketch and Solid Edge provided high-end ability to work whether in 3D or 2D space. Their width, length and proportion of printed lines conform to the ISO Technical Drawing Standard. But the procedures and interface to create line width and line type fo r simple drawing are sometime tedious and complex. The aim of this research work is to develop a 2D CAD software with emphasize on line width and line type control based on the ISO technical drawing standard fo r technical drawing.
  • NORSOK STANDARD R-002 Edition 2, September 2012

    NORSOK STANDARD R-002 Edition 2, September 2012

    NORSOK STANDARD R-002 Edition 2, September 2012 Lifting equipment This NORSOK standard is developed with broad petroleum industry participation by interested parties in the Norwegian petroleum industry and is owned by the Norwegian petroleum industry represented by The Norwegian Oil Industry Association (OLF) and The Federation of Norwegian Industry. Please note that whilst every effort has been made to ensure the accuracy of this NORSOK standard, neither OLF nor The Federation of Norwegian Industry or any of their members will assume liability for any use thereof. Standards Norway is responsible for the administration and publication of this NORSOK standard. Standards Norway Telephone: + 47 67 83 86 00 Strandveien 18, P.O. Box 242 Fax: + 47 67 83 86 01 N-1326 Lysaker Email: [email protected] NORWAY Website: www.standard.no/petroleum Copyrights reserved Foreword 3 Introduction 3 1 Scope 4 2 Normative and informative references 4 2.1 Normative references 4 2.2 Informative references 8 3 Terms, definitions and abbreviations 8 3.1 Terms and definitions 8 3.2 Abbreviations 13 4 General safety requirements 13 4.1 Safety 13 4.2 Fitness for use 13 4.3 Reliability and availability 14 4.4 Principle of safety integration 14 4.5 Inherently safe design measures 14 4.6 Safeguarding and complementary protective measures 14 4.7 Information for use 14 4.8 Strength proportion 14 4.9 Maintenance 15 4.10 Quality management system 15 4.11 Risk assessment 15 4.12 Risk reduction 17 4.13 Documentation of risk assessment 17 4.14 Verification 18 4.15 Qualification
  • Standards Analysis Ict Sector Luxembourg

    Standards Analysis Ict Sector Luxembourg

    Version 5.0 – September 2015 ISSN 2354-483X STANDARDS ANALYSIS ICT SECTOR LUXEMBOURG · V5.0/09.2015 LUXEMBOURG LUXEMBOURG ICT SECTOR ICT CONTACT : ILNAS & ANEC STANDARDS ANALYSIS ANALYSIS STANDARDS Southlane Tower I · 1, avenue du Swing · L-4367 Belvaux Tel. : (+352) 24 77 43 -70 · Fax : (+352) 24 79 43 -70 E-mail : [email protected] ANS/AN03 www.portail-qualite.lu 2015 · © ILNAS/ANEC September Executive summary The “Institut Luxembourgeois de la Normalisation, de l’Accréditation, de la Sécurité et qualité des produits et services” (ILNAS) has inititated in 2012 an analysis of European and international standards in the Information and Communication Technology (ICT) sector. This analysis intends to develop an information and exchange network for ICT standardization knowledge in the Grand Duchy of Luxembourg. Since 2013, this analysis has been carried out in the frame of the implementation of the “Luxembourg’s policy on ICT technical standardization” (which was last updated in 2015)1. The ICT sector is already an active sector at the national standardization level with 53 national delegates currently registered by ILNAS. These delegates are involved in standardization technical committees to participate actively and follow closely the work performed at international level and have the task of ensuring that the views and positions of the country are understood and known by the technical committees. ILNAS is convinced that this sector could be even more active, especially since some ICT subsectors do not yet have national delegates (e.g.: Sensor Networks, Internet of Things). Thus, the purposes of this analysis are firstly, to provide useful information to national stakeholders regarding standardization activities in the field of ICT and secondly, to involve them into an integrated and innovative approach of standardization.
  • Standards Published in 2010

    Standards Published in 2010

    IRISH STANDARDS PUBLISHED BASED ON CEN/CENELEC STANDARDS 1. I.S. ENV 13710:2000 Date published 8 AUGUST 2010 European Ordering Rules - Ordering of characters from the Latin, Greek and Cyrillic scripts 2. I.S. ENV 13801:2000 Date published 8 AUGUST 2010 Plastics piping systems for soil and waste discharge (low and high temperature) within the building structure - Thermoplastics - Recommended practice for installation 3. I.S. CEN TS 13853:2004 Date published 13 FEBRUARY 2010 Swap bodies for combined transport – Stackable swap bodies type C 745-S16 – Dimensions, design requirements and testing 4. I.S. EN 61360-4:2005 Date published 7 JANUARY 2010 Standard data element types with associated classification scheme for electric components -- Part 4: IEC reference collection of standard data element types and component classes (IEC 61360-4:2005 (EQV)) 5. I.S. EN 1990:2002/A1:2006 Date published 29 MARCH 2010 Eurocode - Basis of structural design 6. I.S. EN 1991-4:2006 Date published 31 MARCH 2010 Eurocode 1 - Actions on structures - Part 4: Silos and tanks 7. I.S. EN 60512-13-5:2006/AC:2006 Date published 12 JANUARY 2010 Connectors for electronic equipment - Tests and measurements -- Part 13-5: Mechanical operation tests - Test 13e: Polarizing and keying method (IEC 60512-13 -5:2006 (EQV)) 8. I.S. EN 60034-9:2005/A1:2007 Date published 7 JANUARY 2010 Rotating electrical machines -- Part 9: Noise limits (IEC 60034-9:2003/A1:2007 (EQV)) 9. I.S. EN 548:2004/AC:2007 Date published 8 AUGUST 2010 Resilient floor coverings - Specification for plain and decorative linoleum 10.
  • Development of a New Drawing System for STS

    Development of a New Drawing System for STS

    School of Innovation, Design and Engineering BACHELOR THESIS IN AERONAUTICAL ENGINEERING 15 CREDITS, BASIC LEVEL 300 Development of a new drawing system for STS Authors: Mikael Berkelund and Christian Håkonsen Report code: MDH.IDT.FLYG.0189.2008.GN300.15HP.D. Abstract An engineering firm which handles and constructs drawings needs well defined routines and structures which should be homogeneous through all the different departments. A common drawing system results in better quality and cooperation between the departments. SAS Technical Services (STS) did not have a common drawing system which had led to development of different routines in the different regions and departments. Requested was development of new routines regarding engineering drawings, such as drawing numbering structure, revision and subscription routines, which standards to adhere to, custom made drawing templates and management of the drawings with belonging documents. Each requested task was broken into minor tasks and analyzed. Solutions by different leading engineering companies were used for comparison and ideas. All the tasks were collected and organized in one single document which is the result of the thesis; a drawing instruction. The drawing instruction will after a learning phase ease the work for the STS engineers as all necessary information can be found in one single place. Also, work with contractors will be time-saving as the instruction can be handed out for guidance. Date: 29 jan 2008 Carried out at: SAS Technical Services Advisor at MDH: Tommy Nygren Advisor at SAS Technical Services: Anders Pramler Examinator: Gustaf Enebog II Sammanfattning En ingenjörsfirma som hanterar och skapar mängder med ritningar behöver väldefinierade rutiner och strukturer som är homogena genom hela bolaget.
  • ISO/IEC JTC 1 N13604 ISO/IEC JTC 1 Information Technology

    ISO/IEC JTC 1 N13604 ISO/IEC JTC 1 Information Technology

    ISO/IEC JTC 1 N13604 2017-09-17 Replaces: ISO/IEC JTC 1 Information Technology Document Type: other (defined) Document Title: Study Group Report on 3D Printing and Scanning Document Source: SG Convenor Project Number: Document Status: This document is circulated for review and consideration at the October 2017 JTC 1 meeting in Russia. Action ID: ACT Due Date: 2017-10-02 Pages: Secretariat, ISO/IEC JTC 1, American National Standards Institute, 25 West 43rd Street, New York, NY 10036; Telephone: 1 212 642 4932; Facsimile: 1 212 840 2298; Email: [email protected] Study Group Report on 3D Printing and Scanning September 11, 2017 ISO/IEC JTC 1 Plenary (October 2017, Vladivostok, Russia) Prepared by the ISO/IEC JTC 1 Study Group on 3D Printing and Scanning Executive Summary The purpose of this report is to assess the possible contributions of JTC 1 to the global market enabled by 3D Printing and Scanning. 3D printing, also known as additive manufacturing, is considered by many sources as a truly disruptive technology. 3D printers range presently from small table units to room size and can handle simple plastics, metals, biomaterials, concrete or a mix of materials. They can be used in making simple toys, airplane engine components, custom pills, large buildings components or human organs. Depending on process, materials and precision, 3D printer costs range from hundreds to millions of dollars. 3D printing makes possible the manufacturing of devices and components that cannot be constructed cost-effectively with other manufacturing techniques (injection molding, computerized milling, etc.). It also makes possible the fabrications of customized devices, or individual (instead of identical mass-manufactured) units.
  • Standards News Late August 2014 Volume 18, Number 16 Table of Contents Uno, Dos, Tres Documentos Para Revisión Pública

    Standards News Late August 2014 Volume 18, Number 16 Table of Contents Uno, Dos, Tres Documentos Para Revisión Pública

    PLASA Standards News Late August 2014 Volume 18, Number 16 Table of Contents Uno, dos, tres documentos para revisión pública.............................................................................................1 Please Donate to the TSP................................................................................................................................ 2 Fifteen Minutes and 36 Seconds of Fame........................................................................................................2 What's an American National Standard anyway?.............................................................................................2 WTO Technical Barrier to Trade Notifications...................................................................................................2 Chile Notification CHL/278............................................................................................................................ 2 Ecuador Notification ECU/71/ECU (ECU/71 , Add.1 , Add.2 , Add.3 , ).........................................................3 Ecuador Notification ECU/226/ECU (ECU/226 )...........................................................................................3 Taiwan Economy Notification TPKM/170.......................................................................................................3 ANSI Public Review Announcements...............................................................................................................4 Due 22 September 2014..............................................................................................................................