Functional safety is the part of the overall

safety Safety is the state of being protected from harm or other danger. Safety can also refer to the control of recognized hazards in order to achieve an acceptable level of risk. Meanings The word 'safety' entered the English language in the 1 ...

of a

system A system is a group of interacting or interrelated elements that act according to a set of rules to form a unified whole. A system, surrounded and influenced by its open system (systems theory), environment, is described by its boundaries, str ...

or piece of equipment that depends on automatic protection operating correctly in response to its inputs or

failure Failure is the social concept of not meeting a desirable or intended objective, and is usually viewed as the opposite of success. The criteria for failure depends on context, and may be relative to a particular observer or belief system. On ...

in a predictable manner (

fail-safe In engineering, a fail-safe is a design feature or practice that, in the event of a failure causes, failure of the design feature, inherently responds in a way that will cause minimal or no harm to other equipment, to the environment or to people. ...

). The automatic protection system should be designed to properly handle likely

systematic errors Observational error (or measurement error) is the difference between a measurement, measured value of a physical quantity, quantity and its unknown true value.Dodge, Y. (2003) ''The Oxford Dictionary of Statistical Terms'', OUP. Such errors are ...

, hardware failures and operational/environmental stress.

Objective

The objective of functional safety is freedom from unacceptable

risk In simple terms, risk is the possibility of something bad happening. Risk involves uncertainty about the effects/implications of an activity with respect to something that humans value (such as health, well-being, wealth, property or the environ ...

physical injury Injury is physiological damage to the living tissue of any organism, whether in humans, in other animals, or in plants. Injuries can be caused in many ways, including mechanically with penetration by sharp objects such as teeth or with ...

or of damage to the

health Health has a variety of definitions, which have been used for different purposes over time. In general, it refers to physical and emotional well-being, especially that associated with normal functioning of the human body, absent of disease, p ...

of people either directly or indirectly (through damage to property or to the environment) by the proper implementation of one or more automatic protection functions (often called safety functions). A safety system (often called a safety-related system) consists of one or more safety functions. Functional safety is intrinsically end-to-end in scope in that it has to treat the function of a component or subsystem as part of the function of the entire automatic protection function of any system. Thus, although functional safety standards focus on electrical, electronic, and programmable systems (E/E/PS), the end-to-end scope means that in practice, functional safety methods must extend to the non-E/E/PS parts of the system that the E/E/PS

actuators An actuator is a component of a machine that produces force, torque, or displacement, when an electrical, pneumatic or hydraulic input is supplied to it in a system (called an actuating system). The effect is usually produced in a controlled way. ...

, valves, motor controls or monitors.

Achieving functional safety

Functional safety is achieved when every specified safety function is carried out and the level of performance required of each safety function is met. This is normally achieved by a process that includes the following steps as a minimum: # Identifying what the required safety functions are. This means the hazards and safety functions have to be known. A process of function reviews, formal HAZIDs,

HAZOP A hazard and operability study (HAZOP) is a structured and systematic examination of a complex system, usually a process facility, in order to identify hazards to personnel, equipment or the environment, as well as operability problems that could ...

s and accident reviews are applied to identify these. # Assessment of the risk-reduction required by the safety function, which will involve a safety integrity level (SIL) or performance level or other quantification assessment. A SIL (or PL, AgPL, ASIL) applies to an end-to-end safety function of the safety-related system, not just to a component or a part of the system. # Ensuring the safety function performs to the design intent, including under conditions of incorrect operator input and failure modes. This will involve having the design and lifecycle managed by qualified and competent engineers carrying out processes to a recognized functional safety standard. In Europe, that standard is IEC EN 61508, or one of the industry specific standards derived from IEC EN 61508, or for simple systems some other standard like ISO 13849. # Verification that the system meets the assigned SIL, ASIL, PL or agPL by determining the probability of dangerous failure, checking minimum levels of redundancy, and reviewing systematic capability (SC). These three metrics have been called "the three barriers". Failure modes of a device are typically determined by

failure mode and effects analysis Failure is the social concept of not meeting a desirable or intended Goal, objective, and is usually viewed as the opposite of success. The criteria for failure depends on context, and may be relative to a particular observer or belief system ...

of the system (FMEA). Failure probabilities for each failure mode are typically determined using failure mode, effects, and diagnostic analysis FMEDA. # Conduct functional safety audits to examine and assess the evidence that the appropriate safety lifecycle management techniques were applied consistently and thoroughly in the relevant lifecycle stages of product. Neither safety nor functional safety can be determined without considering the system as a whole and the environment with which it interacts. Functional safety is inherently end-to-end in scope. Modern systems often have software intensively commanding and controlling safety-critical functions. Therefore, software functionality and correct software behavior must be part of the Functional safety engineering effort to ensure acceptable safety risk at the system level.

Certifying functional safety

Any claim of functional safety for a component, subsystem or system should be independently certified to one of the recognized functional safety standards. A certified product can then be claimed to be functionally safe to a particular safety integrity level or a performance level in a specific range of applications: the certificate and the assessment report is provided to the customers describing the scope and limits of performance.

Certification bodies

Functional safety is a technically challenging field. Certifications should be done by independent organizations with experience and strong technical depth (electronics, programmable electronics, mechanical, and probabilistic analysis). Functional safety certification is performed by accredited certification bodies (CB). Accreditation is awarded to a CB organization by an accreditation body (AB). In most countries there is one AB. In the United States, the

American National Standards Institute The American National Standards Institute (ANSI ) is a private nonprofit organization that oversees the development of voluntary consensus standards for products, services, processes, systems, and personnel in the United States. The organiz ...

(ANSI) is the AB for functional safety accreditation. In the United Kingdom, the

United Kingdom Accreditation Service The United Kingdom Accreditation Service (UKAS) is the sole national Accredited registrar, accreditation body recognised by the Government of the United Kingdom, British government to assess the competence of organisations that provide certific ...

(UKAS) provides functional safety accreditation. ABs are members of the

International Accreditation Forum {{More citations needed, date=January 2021 The International Accreditation Forum, Inc. (IAF) is the worldwide association of Conformance testing, conformity assessment accreditation bodies and other bodies interested in conformity assessment in fie ...

(IAF) for work in management systems, products, services, and personnel accreditation or the

International Laboratory Accreditation Cooperation The International Laboratory Accreditation Cooperation or ILAC started as a conference in 1977 to develop international cooperation for facilitating trade by promoting the acceptance of accredited test and calibration results. In 1996, ILAC becam ...

(ILAC) for laboratory testing accreditation. A multilateral recognition arrangement (MLA) between ABs will ensure global recognition of accredited CBs. IEC 61508 functional safety certification programs have been established by several global Certification Bodies. Each has defined their own scheme based upon IEC 61508 and other functional safety standards. The scheme lists the referenced standards and specifies procedures which describes their test methods, surveillance audit policy, public documentation policies, and other specific aspects of their program. Functional safety certification programs for IEC 61508 standards are being offered globally by several recognized CBs including Intertek, SGS, TÜV Rheinland, TÜV SÜD and UL. An important element of functional safety certification is on-going surveillance by the certification agency. Most CB organizations have included surveillance audits in their scheme. The follow-up surveillance ensures that the product, sub-system, or system is still being manufactured in accordance with what was originally certified for functional safety. Follow-up surveillance may occur at various frequencies depending on the certification body, but will typically look at the product's field failure history, hardware design changes, software changes, as well as the manufacturer's ongoing compliance of functional safety management systems.

Military aerospace

For military aerospace and defense systems MIL-STD-882E addresses functional hazard analyses (FHA) and determining which functions implemented in hardware and software are safety significant. The Functional safety focus is on ensuring safety critical functions and functional threads in the system, subsystem and software are analyzed and verified for correct behavior per safety requirements, including functional failure conditions and faults and appropriate mitigation in the design. These system safety principles underpinning functional safety were developed in the military, nuclear and aerospace industries, and then taken up by rail transport, process and control industries developing sector specific standards. Functional safety standards are applied across all industry sectors dealing with safety critical requirements and are especially applicable anytime software commands, controls or monitors a safety-critical function. Thousands of products and processes meet the standards based on IEC 61508: from bathroom showers, automotive safety products, sensors, actuators, diving equipment, Process Controllers and their integration to ships, aircraft and major plants.

Aviation

The US FAA have similar functional safety certification processes, in the form of ARP4761, US RTCA DO-178C for software and DO-254 for complex electronic hardware, which is applied throughout the aerospace industry. Functional safety and design assurance on civil/commercial transport aircraft is documented in SAE ARP4754A as functional design assurance levels (FDALS). The system FDALs drive the depth of engineering safety analysis. The level of rigor (LOR) or safety tasks performed to ensure acceptable risk are dependent upon the identification of specific functional failure condition and hazard severity relating to the safety-critical functions (SCF). In many cases functional behavior in embedded software is thoroughly analyzed and tested to ensure the system functions as intended under credible fault and failure conditions. Functional safety is becoming the normal focused approach on complex software intensive systems and highly integrated systems with safety consequences. The traditional software safety tasks and model based functional safety tasks are performed to provide objective safety evidence that the system functionality and safety features perform as intended in normal and off nominal failures. The entry point of functional safety begins early in the process by performing Functional Hazard Analyses (FHA)to identify hazards and risks and to influence the safety design requirements and functional allocation and decomposition to mitigate hazards. The behavior of the software and SCFs at the system level is a vital part of any functional safety effort. Analyses and implementation results are documented in functional hazard assessments (FHA) or system safety assessments or safety cases. Model-based functional safety processes are often used and required on highly integrated and complex software intensive systems to understand all of the many interactions and predicted behavior and to help in the safety verification and certification process.

Safety Review Boards

Boeing The Boeing Company, or simply Boeing (), is an American multinational corporation that designs, manufactures, and sells airplanes, rotorcraft, rockets, satellites, and missiles worldwide. The company also provides leasing and product support s ...

, a Safety Review Board (SRB) is responsible for deciding only if an issue is or is not a safety issue. An SRB brings together multiple company

subject-matter expert A subject-matter expert (SME) is a person who has accumulated great knowledge in a particular field or topic and this level of knowledge is demonstrated by the person's degree, licensure, and/or through years of professional experience with the su ...

s (SMEs) in many disciplines. The most knowledgeable SME presents the issue, assisted and guided by the Aviation Safety organization. The safety decision is taken as a vote. Any vote for "safety" results in a board decision of "safety".

Space

In the US,

NASA The National Aeronautics and Space Administration (NASA ) is an independent agencies of the United States government, independent agency of the federal government of the United States, US federal government responsible for the United States ...

developed an infrastructure for safety critical systems adopted widely by industry, both in North America and elsewhere, with a standard, supported by guidelines. The NASA standard and guidelines are built on ISO 12207, which is a software practice standard rather than a safety critical standard, hence the extensive nature of the documentation NASA has been obliged to add, compared to using a purpose designed standard such as IEC EN 61508. A certification process for systems developed in accord with the NASA guidelines exists.

Automotive

The

automotive industry The automotive industry comprises a wide range of company, companies and organizations involved in the design, Business development, development, manufacturing, marketing, selling, Maintenance, repairing, and Custom car, modification of motor ve ...

has developed ISO 26262 "Road Vehicles Functional Safety Standard" based on IEC 61508. The certification of those systems ensures the compliance with the relevant regulations and helps to protect the public. The ATEX Directive has also adopted a functional safety standard, it is BS EN 50495:2010 "Safety Devices Required for the Safe Functioning of Equipment with Respect to Explosion Risks" covers safety related devices such as purge controllers and Ex e motor circuit breakers. It is applied by notified bodies under the ATEX Directive. The standard ISO 26262 particularly addresses the automotive development cycle. It is a multi-part standard defining requirements and providing guidelines for achieving functional safety in E/E systems installed in series production passenger cars. ISO 26262 is considered a best-practice framework for achieving automotive functional safety.{{cite web, url=http://www.iso.org/iso/catalogue_detail?csnumber=43464ISO, title=26262-1:2011, publisher=ISO, access-date=25 April 2013 The compliance process usually takes time as employees need to be trained in order to develop the expected competencies.

Contemporary functional safety standards

The primary functional safety standards in current use are listed below: * IEC EN 61508 Parts 1 to 7 is a core functional safety standard, applied widely to all types of safety critical E/E/PS and to systems with a safety function incorporating E/E/PS. * UK Defence Standard 00-56 Issue 2 * US RTCA DO-178C, North American Avionics Software * US RTCA DO-254, North American Avionics Hardware * EUROCAE ED-12B, European Airborne Flight Safety Systems * IEC 61513, Nuclear power plants – Instrumentation and control for systems important to safety – General requirements for systems, based on EN 61508 * IEC 61511-1, Functional safety – Safety instrumented systems for the process industry sector – Part 1: Framework, definitions, system, hardware and software requirements, based on EN 61508 *IEC 61511-2, Functional safety – Safety instrumented systems for the process industry sector – Part 2: Guidelines for the application of IEC 61511-1, based on EN 61508 *IEC 61511-3, Functional safety – Safety instrumented systems for the process industry sector – Part 3: Guidance for the determination of the required safety integrity levels, based on EN 61508 * IEC 62061, Safety of machinery – Functional safety of safety-related electrical, electronic and programmable electronic control systems, based on EN 61508 * ISO 13849-1, -2, Safety of machinery – Safety-related parts of control systems. Non-technology dependent standard for control system safety of machinery. * EN 50126, Railway industry specific – RAMS review of operations, system and maintenance conditions for project equipment * EN 50128, Railway industry specific - Software (communications, signaling & processing systems) safety review * EN 50129, Railway industry specific - System safety in electronic systems * EN 50495, Safety devices required for the safe functioning of equipment with respect to explosion risks *NASA Safety Critical Guidelines * ISO 19014, Earth moving machinery – Functional safety *

ISO 25119 ISO 25119, titled "Tractors and machinery for agriculture and forestry – Safety-related parts of control systems", is an international standard for functional safety of electrical and/or electronic systems that are installed in tractors and mac ...

, Tractors and machinery for agriculture and forestry – Safety-related parts of control systems *

ISO 26262 ISO 26262, titled "Road vehicles – Functional safety", is an international standard for functional safety of electrical and/or electronic systems that are installed in serial production road vehicles (excluding mopeds), defined by the Intern ...

, Road vehicles functional safety The standard ISO 26262 particularly addresses the automotive development cycle. It is a multi-part standard defining requirements and providing guidelines for achieving functional safety in E/E systems installed in series production passenger cars. The standard ISO 26262 is considered a best practice framework for achieving automotive functional safety.

References

External links

IEC Functional safety zone61508.org The 61508 Association
Safety Risk management nl:Safety Integrity Level sk:Safety Integrity Level