|On January 1, 2012, Will you be ready to Prove Presumption of Conformity using EN ISO 13849-1:2008?
Standards Update from Omron STI, Fremont, CA - August 2, 2011- Effective January 1, 2012, machine builders and integrators must use EN ISO 13849-1:2008 to prove presumption of conformity with the Machinery Directive. On January 1, 2012, EN 954-1:1996 and EN ISO 13849-1:1999 may no longer be used for this purpose. Omron STI has resources available to help machine builders and integrators successfully make the transition.
"ISO 13849-1 is the most important standard for regulating the basic principles and performance required of a safety control system for machines and devices. The 2006 revision to this standard are causing major changes to the fundamentals of safety system design, and machine builders and integrators will need to be using this standard as the baseline to prove conformity with the machinery directive by January 1, 2012," says Frank Webster, Vice President Standards Development, Omron STI. Webster is a member of Working Groups for Machine Safety in IEC/TC44 and ISO/TC199 and is the Convener of IEC/TC44/WG10 developing a new set of standards for Vision Based Protective Devices.
Machine builders and integrators need not tackle this transition on their own; they can contact Omron STI's expert sales and integration teams to discuss their application needs, or visit http://www.sti.com/sistemadata/index.htm for additional information including immediate access to:
- Future Safety Design - a substantive 28 page paper that delivers background on the revised standard, its implications and how to effectively implement it
- Link to the SISTEMA Safety Integrity Software tool that helps evaluate machine applications
- Link to the Omron SISTEMA libraries
- Link to information on reasons not to use EN 954-1
In considering safety protection and measures to reduce machine risks, it has long been common practice to evaluate levels of risk reduction and the performance of a safety-related parts of control system in terms of Categories as specified in the international standard ISO 13849-1:1999 (based on the European standard EN 954-1). The latest version of ISO 13849-1:2006 combines the straightforward deterministic features of EN 954-1’s Categories with IEC 62061’s probabilistic and systematic design consideration (a reliability model). This means that the revised version of ISO 13849-1 selects the architecture models in IEC 62061 that match the definitions of the Categories, and applies reliability models. This version can be called a functional safety standard in its simplified version.
"The question is whether or not this is a correct concept considering that every machine can fail at some future time. The components comprising the safety control system will also deteriorate and can fail at some future time, so it is important to figure out the mode in which the system will encounter a failure at such times," explains Webster.
When a machine experiences a failure that causes the expected safety function to fail, if the failure is not detected it is equal to non-performance of safety functions. But definitions only based upon deterministic theory cannot cover such time related elements.
About Omron STI
Omron Scientific Technologies, Inc. is a North American provider of automation safeguarding products and services. Omron STI safety products and integration services are used to protect workers around machinery, automated equipment and industrial robots in a wide variety of applications and markets, including semiconductor, automotive, medical, electronics manufacturing, packaging and consumer markets.
Omron Scientific Technologies Inc., 6550 Dumbarton Circle, Fremont, CA 94555; 1-800-479-3658; (510) 608-3400; fax: (510) 744-1442; email@example.com.