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Explosion protection for safe processes

IECEx, ATEX and other regional certifications ensure efficient, compliant automation solutions worldwide.

Realistically, how safe is your system in potentially explosive atmospheres? A spark, leaks, or electrostatic discharges can have serious consequences: from production downtime to endangering people and the environment. Particularly in complex automation systems, the risk increases if components are not coordinated with each other in accordance with standards. Effective explosion protection therefore requires certified, internationally approved solutions – reliable in every zone, for every industry.

How integrated explosion protection works

Reliable explosion protection is based on three levels:

  • Primary protection prevents the formation of explosive atmospheres, for example by means of closed systems or extraction.
  • Secondary protection prevents ignition sources in critical areas. Certified components are used here.
  • Tertiary protection limits the effects of an explosion, for example through design measures such as pressure relief.

Together, they ensure safe and efficient system operation.

Understanding explosion protection worldwide: standards and directives at a glance

IECEx – international basis

The IECEx system is the globally recognized basis for the explosion protection of electrical equipment.
It defines uniform testing and certification procedures based on IEC standards, and is used as a reference for national systems in many countries.

What you should know about IECEx:

  • Global comparability: uniform test principles, internationally recognized.
  • Harmonization: IECEx forms the basis for many regional systems (e.g., ATEX, INMETRO, CCC, KOSHA).
  • Efficiency: single test – reusable certificates for many markets.
  • Safety: high transparency and traceability of test results through accredited bodies.
  • Your advantage: less complexity in global projects and simpler approval processes.

ATEX – European Directive

The ATEX Directive (2014/34/EU) specifies requirements for equipment and protective systems in potentially explosive atmospheres within the EU. It describes how systems, components, and accessories are evaluated and approved with regard to their ignition sources, zone classifications, and equipment categories.

What you should know about ATEX:

  • EU approval: mandatory requirement for all devices that are operated in the EU. In contrast to other directives, ATEX is applied to electrical and mechanical components.
  • Responsibility: operators must provide evidence of the ignition hazard assessment and documentation.
  • Additional inspection obligations: in addition to the technical inspection, proof of manufacturing quality is also required.
  • Reference to IECEx: based on the same standards, but with additional legal requirements.
  • Your advantage: complete legal certainty and simplified market release within the EU.

UL / FM – North America

The USA and Canada have their own systems for classifying potentially explosive atmospheres: NEC 500 (Class/Division) and NEC 505 (Zone Concept). Certifications are carried out by organizations such as UL (Underwriters Laboratories) and FM (Factory Mutual), which test independently of IECEx.

What you should know about UL / FM:

  • A concept for itself: the use of class/division instead of zones requires separate project planning.
  • Different terminology: Different marking and documentation compared to IECEx.
  • Certification bodies: UL and FM test according to North American safety regulations.
  • No automatic recognition: IECEx certificates require a supplementary UL or FM test.
  • Your advantage: smooth approval and certainty that the products can be operated within the North American market.

CCC Ex / NEPSI – China

China has introduced the national CCC Ex system (China Compulsory Certification – Explosion Protection), which replaces the former NEPSI approval. Certification is mandatory for the Chinese market and is based on China's national GB standards derived from IEC standards.

What you should know about CCC Ex / NEPSI:

  • Mandatory certification: prerequisite for placing on the market and operation in China.
  • National adaptation: based on IECEx, but with country-specific testing requirements.
  • NEPSI testing: NEPSI is a national, state-accredited testing body for technical evaluation and test reports as part of CCC Ex certification.
  • Deviating marking: CCC Ex logo and GB test number required.
  • Your advantage: secure market access and legally compliant documentation in China.

INMETRO – Brazil

The Brazilian INMETRO system is based on IECEx, but requires local testing by accredited bodies (OCP). INMETRO certification is mandatory for the operation of electrical devices in Ex zones.

What you should know about INMETRO:

  • National inspection bodies: local OCPs carry out inspections and certifications.
  • No automatic recognition: IECEx certificates are for technical reference only.
  • Mandatory for operators: no commissioning possible without INMETRO certificate.
  • Market-specific labeling: clear labeling according to Brazilian standards.
  • Your advantage: confidence that registration in the Latin American market will be possible, and simplified cooperation with local authorities.

KOSHA – South Korea

KOSHA (Korea Occupational Safety and Health Agency) certifies appliances for use in potentially explosive atmospheres. The requirements are based on IECEx, but require additional national tests and markings.

What you should know about KOSHA:

  • National approval requirement: required for the operation of electrical appliances in Korea.
  • Technical proximity to IECEx: the basic standards are the same, but with their own test methodology.
  • Supplementary inspections: in certain cases, an additional on-site KOSHA inspection is required.
  • Market access: no use in process and chemical plants is possible without a certificate.
  • Your advantage: confidence of acceptance for projects in the Korean market.

PESO – India

In India, the Petroleum and Explosives Safety Organization (PESO) regulates explosion protection for equipment in hazardous atmospheres. Certification is required by law and is based on IECEx standards with additional national requirements.

This is what sets PESO apart:

  • Mandatory approval: prerequisite for installation in refineries and chemical plants.
  • Technical basis: IECEx-compliant test methods with Indian supplements.
  • Documentation requirements: extensive documentation is required for import and operation.
  • Risk avoidance: failure to obtain approval can cause downtimes and liability risks.
  • Your advantage: legal certainty and predictable project approvals in the Indian market.

TIIS – Japan

TIIS (Technology Institution of Industrial Safety) is Japan's national testing system for equipment in potentially explosive atmospheres. TIIS certification is mandatory for market access and ensures that products comply with Japanese safety standards.

What you should know about TIIS:

  • National obligation: No use is possible in Japan without TIIS certificate.
  • Own marking: deviating from IECEx and with national test number.
  • Separate approval: IECEx or ATEX certificates are not automatically recognized.
  • High testing depth: A special focus is placed on long-term stability, material quality, and electrical safety.
  • Your advantage: local approval and full conformity with Japanese standards.

ANZEx – Australia / New Zealand

The ANZEx system is based on IECEx standards, supplemented by country-specific testing and labeling requirements. It is the national certification for the explosion protection of electrical equipment in Australia and New Zealand.

This is what sets ANZEx apart:

  • Based on IECEx: almost identical technical basis.
  • Regional obligation: required for operation in potentially explosive atmospheres in Australia and New Zealand.
  • Local testing organizations: certification only possible by national bodies.
  • Legal security: national requirements beyond IECEx are taken into account.
  • Your advantage: recognition of international test reports and easy market access in Oceania.

Safety starts with the right zoning

In potentially explosive atmospheres, a distinction is made according to the frequency and duration of the occurrence of an explosive atmosphere. Correct zoning is crucial in order to select suitable components and reliably avoid the risk of ignition.

Zone 0 – permanent explosion hazard

In zone 0, an explosive atmosphere is present permanently or for relatively long periods of time – for example inside tanks, pipelines, or reactors. This zone is therefore particularly critical in terms of safety and requires the highest standards of material, sealing, and temperature resistance. Only specially approved devices and sensors that do not represent a source of ignition even in the event of long-term exposure are allowed to be used here.

Zone 1 – frequent explosion hazard

Areas in which explosive gases or vapors regularly occur during normal operation are classified as zone 1. This is the case during filling and emptying processes, in gas distribution or mixing systems, or when products are being transferred between reactors and storage tanks. Appliances must be designed in such a way that they do not cause ignition even if they come into frequent contact with explosive atmospheres.

With our components certified for Zone 1, such applications can be automated safely and efficiently. Discover matching products.

Zone 2 – occasional explosion hazard

Zone 2 describes areas in which explosive gases, vapors or mists only occur briefly and irregularly – for example, in the event of leaks or in the vicinity of compressors and pipe systems. Devices are adequate providing they work safely under normal operating conditions and do not represent a source of ignition even in the event of faults.

We offer a wide range of components that are specially tested and approved for zone 2 – from valve technology and sensors to compressed air preparation.

Zone 20 – permanent dust explosion hazard

Zone 20 describes areas in which explosive dust atmospheres are permanently or frequently present, for example in silos or filter systems. The same strict requirements apply here as for zone 0 for gases: all devices must be protected against dust deposits, heat development, and electrostatic charging.

Zone 21 – frequent dust explosion hazard

In zone 21, an explosive dust atmosphere occurs regularly during normal operation, for example in filling systems, mixers, or in the vicinity of discharge systems. Appliances must be dust-tight and heat-resistant to prevent ignition.

Robust, certified solutions that ensure safe control and movement in zone 21 applications can be found here.

Zone 22 – occasional dust explosion hazard

Zone 22 covers areas in which explosive dust atmospheres occur only occasionally – e.g. in packaging, food, or conveyor systems. The components used here are reliably protected against dust and temperature increases under normal operating conditions.

Discover suitable products for zone 22 and secure your processes without compromising on efficiency or hygiene.

FAQs – important questions about explosion protection

What does explosion protection mean in automation?

Explosion protection in automation describes all technical and organizational measures that prevent ignition from occurring in systems with potentially explosive atmospheres. This includes the correct selection and certification of electrical and pneumatic components, zone classification, and compliance with international directives such as IECEx or ATEX. This ensures that automated processes run safely, reliably, and in compliance with standards – even in critical environments.

What is IECEx?

IECEx is an international certification system for devices and components used in potentially explosive atmospheres. It is based on IEC standards and ensures uniform test procedures worldwide.

By harmonizing different national regulations, IECEx facilitates market access and reduces the effort involved in international projects.

More on this in the International guidelines section.

What is ATEX?

ATEX is the European directive for explosion protection (2014/34/EU). It regulates which appliances and protective systems are allowed to be used in potentially explosive atmospheres within the EU. In addition to technical testing in accordance with IEC standards, ATEX also requires legal certificates and CE marking.

Details on the directive can be found under ATEX – European Directive.

What is the difference between IECEx and ATEX?

IECEx is a global, voluntary certification system, while ATEX is the binding EU directive. Both are based on the same technical standards, but differ in their legal validity: ATEX is mandatory in Europe, IECEx is internationally recognized but optional.

Devices with both certifications can be used worldwide, as the associated test and safety requirements are clearly traceable in accordance with IEC standards.

How do you obtain IECEx certification?

IECEx certification is carried out by recognized testing bodies that test components in accordance with international explosion protection standards. Manufacturers must prove that their products are not a source of ignition and can be operated safely in the long term. Certified test centers (ExCBs) document the results in a publicly accessible IECEx certificate.

When is IECEx or ATEX certification required?

Certification is always required when devices are used in potentially explosive atmospheres, i.e. where gas, vapor, or dust atmospheres can occur. In Europe, ATEX is required by law, while IECEx is used internationally as proof of standard-compliant safety. Certified components not only ensure operation, but also liability and legal compliance.

What is the difference between explosion protection and functional safety (SIL)?

Explosion protection and functional safety (SIL) both pursue the goal of minimizing risks in automation, but in different ways. Explosion protection prevents explosive atmospheres from igniting. SIL evaluates and reduces systematic or accidental malfunctions in safety-related control systems.

Further information can be found on our page on Functional safety (SIL) in the process industry.

How is explosion protection related to machine safety?

Both areas are part of a holistic security concept. Explosion protection protects systems and people from ignition hazards, while machine safety protects them from mechanical or electrical risks.

Together, they help to assess and minimize risks, and ensure that systems comply with standards.

You can find more detailed information on this on our page Machine safety in automation technology.

What is the difference between explosion protection (IECEx/ATEX) and IP protection class?

ATEX and IECEx describe the explosion protection of electrical devices in hazardous atmospheres, while IP protection types indicate their impermeability to dust and water. Both statements complement each other, but address different safety aspects.