1 Scope
This part of IEC 60071 constitutes application guidelines and deals with the selection of insulation levels
of equipment or installations for three-phase AC systems. Its aim is to give guidance
for the determination of the rated withstand voltages for ranges I and II of IEC 60071‑1 and to justify the association of these rated values with the standardized highest
voltages for equipment.
This association is for insulation co-ordination purposes only. The requirements for human safety are not covered by this document.
This document covers three-phase AC systems with nominal voltages above 1 kV. The
values derived or proposed herein are generally applicable only to such systems. However,
the concepts presented are also valid for two-phase or single-phase systems.
This document covers phase-to-earth, phase-to-phase and longitudinal insulation.
This document is not intended to deal with routine tests. These are to be specified
by the relevant product committees.
The content of this document strictly follows the flow chart of the insulation co-ordination process presented in Figure 1 of IEC 60071‑1:2019. Clauses 5 to 8 correspond to the squares in this flow chart and give detailed information on the
concepts governing the insulation coordination process which leads to the establishment
of the required withstand levels.
This document emphasizes to consider, at the very beginning, all origins, all classes
and all types of voltage stresses in service irrespective of the range of highest
voltage for equipment. Only at the end of the process, when the selection of the standard
withstand voltages takes place, does the principle of covering a particular service
voltage stress by a standard withstand voltage apply. Also, at this final step, this
document refers to the correlation made in IEC 60071‑1 between the standard insulation levels and the highest voltage for equipment.
The annexes contain examples and detailed information which explain or support the
concepts described in the main text, and the basic analytical techniques used.
It has the status of a horizontal standard in accordance with IEC Guide 108.

