1 Scope and object
Knowledge of the electromagnetic environment that exists at locations where electrical and electronic equipment and systems are
intended to be operated is an essential precondition in the process of achieving electromagnetic compatibility. This knowledge can be obtained by various approaches, including a site survey of
an intended location, the technical assessment of the equipment and system as well
as the general literature.
This part of IEC 61000
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– introduces the concept of disturbance degrees and defines these for each electromagnetic phenomena,
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– classifies into various location classes and describes them by means of attributes,
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– provides background information on the different electromagnetic phenomena that may
exist within the environment and
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– compiles tables of compatibility levels for electromagnetic phenomena that are considered
to be relevant for those location classes.
This part of IEC 61000 is intended for guidance for those who are in charge of considering and developing
immunity requirements. It also gives basic guidance for the selection of immunity levels. The data are applicable to any item of electrical or electronic equipment, sub-system
or system that operates in one of the locations as considered in this Technical Report.
NOTE 1 It should be noted that immunity requirements and immunity levels determined for items of equipment which are intended to be used at a certain location class are not inevitably bound to the electromagnetic environment present at the location, but also to requirements of the equipment itself and the
application in which it is used (e.g. when taking into account requirements regarding
availability, reliability or safety). These could lead to more stringent requirements
with respect to immunity levels or with respect to applicable performance criteria. These levels may also be established
for more general purposes such as in generic and product standards, taking into account
statistical and economic aspects as well as common experience in certain application
fields.
NOTE 2 Electromagnetic phenomena in general show a broad range of parameters and characteristics
and hence cannot be related one-to-one to standardized immunity tests which basically
reflect the impact of electromagnetic phenomena by a well described test set-up. Nonetheless,
this report follows an approach to correlate electromagnetic phenomena and standardized
immunity tests up to a certain extent. This might allow users of this report to partly
take into account standardized immunity tests such as given for example in the IEC 61000‑4 series, when specifying immunity requirements.
The descriptions of electromagnetic environments in this report are predominantly generic ones, taking into account the characteristics
of the location classes under consideration. Hence, it should be kept in mind that there might be locations
for which a more specific description is required in order to conclude on immunity
requirements applicable for those specific locations.