Back

EVS-EN 60034-18-42:2017

Rotating electrical machines - Part 18-42: Partial discharge resistant electrical insulation systems (Type II) used in rotating electrical machines fed from voltage converters - Qualification tests

General information
Valid from 16.06.2017
Base Documents
IEC 60034-18-42:2017; EN 60034-18-42:2017
Directives or regulations
None

Standard history

Status
Date
Type
Name
15.10.2020
Amendment
16.06.2017
Main
05.04.2011
Main
IEC/TS 60034-18-42:2008 defines criteria for assessing the insulation system of stator/rotor windings of single or polyphase AC machines which are subjected to repetitive impulse voltages, such as pulse width modulation converters, and expected to withstand partial discharge activity during service. It specifies electrical qualification and acceptance tests on representative samples which verify fitness for operation with voltage-source converters.
*
*
*
PDF
23.18 € incl tax
Paper
23.18 € incl tax
Browse standard from 2.44 € incl tax
Standard monitoring

Customers who bought this item also bought

Main

EVS-EN 60034-18-41:2014

Rotating electrical machines - Part 18-41: Partial discharge free electrical insulation systems (Type I) used in rotating electrical machines fed from voltage converters - Qualification and quality control tests
Newest version Valid from 01.07.2014
Amendment

EVS-EN 60034-18-41:2014/A1:2019

Rotating electrical machines - Part 18-41: Partial discharge free electrical insulation systems (Type I) used in rotating electrical machines fed from voltage converters - Qualification and quality control tests
Newest version Valid from 01.10.2019
Main

EVS-EN 60034-18-31:2012

Rotating electrical machines - Part 18-31: Functional evaluation of insulation systems - Test procedures for form-wound windings - Thermal evaluation and classification of insulation systems used in rotating machines
Newest version Valid from 03.10.2012
Main

CLC/TS 60034-18-33:2011

Rotating electrical machines - Part 18-33: Functional evaluation of insulation systems - Test procedures for form-wound windings -Multifactor evaluation by endurance under simultaneous thermal and electrical stresses
Newest version Valid from 04.05.2011