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The IECEx scheme is an international certication

scheme for products which meet the requirements of the

international standards, e.g. the technical committee TC31’s

IEC standards.

The certicates awarded in this scheme are published on the

IECEx website (www.iecex.com) as an electronic certicate.

They can be viewed online and printed out.

A Certicate of Conformity (CoC) refers to a test report

(ExTest Report ExTR) and on an assessment of the quality

assessment report from the manufacturer (QAR).

The standards used for the production of the test report

correspond almost entirely to the harmonised standards

in Europe. Recent EN standards were initially adopted as

IECstandards.

Protection concepts

The zoning described above provides the basis for the

selection of the type of ignition protection. So, as an

example, in the ATEX applicable areas, only ignition

protection devices meeting Ex ia for Zone 0 (highest

probability of an explosive atmosphere being present) are

allowed.

Increased safety Ex e

No sparks and a surface temperature limited

to a safe level

Increased safety is for products where there

are no sparks produced during normal

operation or in case of a failure. The surface

temperature of the relevant parts is limited

to a value below the ignition temperature.

Increased safety is achieved by reducing the current load

and raising the isolation properties and by maintaining

clearance and creepage distances above the value in an

industrial application. The highest voltage permitted for this

protection scheme is 11 kV (D.C. or A.C. rms).

This protection scheme is usually used for distribution

cabinets..

Intrinsically safe Ex i

Limited to a safe level of ignition energy

Intrinsic safety is for products where

electrical energy which ows into the

product, or is stored in the product, is not

sufcient to ignite the surrounding explosive

atmosphere. This also applies in fault

conditions. The methods that achieve intrinsic safety mean

that it is important that not only the devices installed in

direct contact with the explosive atmosphere are

constructed correctly, but also the electrical devices to

which they are connected.

Intrinsically safe equipment and intrinsically safe parts of the

associated equipment are divided into protection levels: ia

(for zones 0, 1, and 2), ib (for zones 1 and 2), and ic (only for

zone 2).

A typical application area are control and display circuits

with low voltage and current.

Pressure-resistant Ex d encapsulation

Limits the explosion to the inside of the enclosure

Pressure-resistant encapsulated enclosures

are designed for devices where sparks are

generated or which have hot surfaces which

are a source of ignition during normal

operation. Similarly, industrial components

for use in potentially explosive atmospheres are often made

suitable by encapsulating them in a pressure-resistant

enclosure which otherwise could not be used.

The surrounding possibly explosive atmosphere can enter

the enclosure and will produce an internal explosion during

the equipment’s lifespan.

The enclosure must therefore be stable enough to ensure

that it is not deformed or destroyed by the pressure created.

All connections of the enclosure are sized so that they

cannot transmit an explosion from inside to the surrounding

atmosphere. These connections are known as ignition gaps.

IECEx scheme

W.6

Technical appendix

2712630000