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{ "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [ { "@type": "Question", "name": "What is the so-called fire load?", "acceptedAnswer": { "@type": "Answer", "text": "<p>The energy that is released when components\/materials burn is referred to as the fire load. This value is determined from the combustible weight and the calorific value of the materials.<\/p>\n<p>You can find detailed information on the fire load for specific products in the corresponding data sheets in our online shop.<\/p>" } }, { "@type": "Question", "name": "What does the concept of railway compatibility entail?", "acceptedAnswer": { "@type": "Answer", "text": "<p>\u201CRailway compatibility\u201D is a colloquial term for the usability of a product in the <a>railway industry<\/a>. More concretely, products need to meet the requirements of <a>DIN EN 50155<\/a>. For electromechanical components, this depends on vibration and shock tests, as well as the operating temperature, among other things. For electronic components, additional EMC tests must be taken into account.<\/p>\n<p>Incidentally: Although DIN EN 50155 has an international counterpart, namely <a>IEC 60751<\/a>, the German version continues to be the common, globally accepted \u201Crailway standard.\u201D<\/p>" } }, { "@type": "Question", "name": "Do WAGO products meet the requirements of the EN 45545 fire protection standard?", "acceptedAnswer": { "@type": "Answer", "text": "<p>Our products are classified per <a>EN 45545<\/a> as listed small electrotechnical components that can be used in a great variety of operating modes and in all vehicle types. The simplest and most practical requirement per R26 should be applied to such small electrotechnical components. This requires use of V0 material for all hazard levels. WAGO primarily uses V0 materials as the carrier and insulating material for electromechanical parts.<\/p>\n<p>You can find detailed information on the materials used for specific products in the corresponding data sheets in our online shop.<\/p>" } }, { "@type": "Question", "name": "What WAGO products can I used in railway applications?", "acceptedAnswer": { "@type": "Answer", "text": "<p>Under specific conditions, all our products can be used in the <a>railway industry<\/a>.<\/p>\n<p>However, the various requirements and specifications must be taken into account for each component and application. Every application requires different product properties. Among the various standards and guidelines, <a>DIN EN 50155<\/a> and <a>EN 45545<\/a> play an especially central role.<\/p>\n<p>Our electromechanical components, such as <a>rail-mount terminal blocks<\/a> and <a>pluggable connectors<\/a>, meet the strictest requirements of the DIN EN 50155 railway standard. They can be used without restriction for the intended uses.<\/p>\n<p><a>Electronic interface<\/a> and <a>automation<\/a> components must be tested according to the respective technical regulations and operating conditions.<\/p>" } }, { "@type": "Question", "name": "How long is the service life of WAGO products in railway applications?", "acceptedAnswer": { "@type": "Answer", "text": "<p>Basically: very long. The first <a>WAGO rail-mount terminal blocks<\/a> were installed in railway vehicles in 1978 \u2013 and have been in use ever since, to this very day.<\/p>\n<p>After 27 years, our rail-mount terminal blocks were demounted during renovation work. We took this opportunity to perform various tests, such as voltage drops, insulation tests with DC and rated surge voltage and tensile tests. The result: They still met the strictest acceptance criteria even after 27 years of use in the field. Among the 540 passenger rail cars from 1979, more than 400 are still in use every day \u2013 with WAGO\u2019s first rail-mount terminal blocks.<\/p>" } } ] }

Railway Systems

The energy that is released when components/materials burn is referred to as the fire load. This value is determined from the combustible weight and the calorific value of the materials.

You can find detailed information on the fire load for specific products in the corresponding data sheets in our online shop.

“Railway compatibility” is a colloquial term for the usability of a product in the railway industry. More concretely, products need to meet the requirements of DIN EN 50155. For electromechanical components, this depends on vibration and shock tests, as well as the operating temperature, among other things. For electronic components, additional EMC tests must be taken into account.

Incidentally: Although DIN EN 50155 has an international counterpart, namely IEC 60751, the German version continues to be the common, globally accepted “railway standard.”

Our products are classified per EN 45545 as listed small electrotechnical components that can be used in a great variety of operating modes and in all vehicle types. The simplest and most practical requirement per R26 should be applied to such small electrotechnical components. This requires use of V0 material for all hazard levels. WAGO primarily uses V0 materials as the carrier and insulating material for electromechanical parts.

You can find detailed information on the materials used for specific products in the corresponding data sheets in our online shop.

Under specific conditions, all our products can be used in the railway industry.

However, the various requirements and specifications must be taken into account for each component and application. Every application requires different product properties. Among the various standards and guidelines, DIN EN 50155 and EN 45545 play an especially central role.

Our electromechanical components, such as rail-mount terminal blocks and pluggable connectors, meet the strictest requirements of the DIN EN 50155 railway standard. They can be used without restriction for the intended uses.

Electronic interface and automation components must be tested according to the respective technical regulations and operating conditions.

Basically: very long. The first WAGO rail-mount terminal blocks were installed in railway vehicles in 1978 – and have been in use ever since, to this very day.

After 27 years, our rail-mount terminal blocks were demounted during renovation work. We took this opportunity to perform various tests, such as voltage drops, insulation tests with DC and rated surge voltage and tensile tests. The result: They still met the strictest acceptance criteria even after 27 years of use in the field. Among the 540 passenger rail cars from 1979, more than 400 are still in use every day – with WAGO’s first rail-mount terminal blocks.

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