PD IEC/TS 60034-32:2016
Withdrawn
A Withdrawn Standard is one, which is removed from sale, and its unique number can no longer be used. The Standard can be withdrawn and not replaced, or it can be withdrawn and replaced by a Standard with a different number.
Rotating electrical machines Measurement of stator end-winding vibration at form-wound windings
Hardcopy
05-11-2021
English
31-01-2017
FOREWORD
INTRODUCTION
1 Scope
2 Normative references
3 Terms, definitions and abbreviated terms
4 Causes and effects of stator end-winding vibrations
5 Measurement of stator end-winding structural
dynamics at standstill
6 Measurement of end-winding vibration during
operation
7 Repeated measurements for detection of structural
changes
Annex A (informative) - Background causes and effects
of stator end-winding vibrations
Annex B (informative) - Data visualization
Bibliography
Gives consistent guidelines for measuring and reporting end-winding vibration behaviour during operation and at standstill.
Committee |
PEL/2
|
DocumentType |
Standard
|
Pages |
66
|
PublisherName |
British Standards Institution
|
Status |
Withdrawn
|
IECTS60034-32:2016(E) is intended to provide consistent guidelines for measuring and reporting end-winding vibration behaviour during operation and at standstill. It
- defines terms for measuring, analysis and evaluation of stator end-winding vibration and related structural dynamics;
- gives guidelines for measuring dynamic / structural characteristics offline and stator end-winding vibrations online;
- describes instrumentation and installation practices for end-winding vibration measurement equipment;
- establishes general principles for documentation of test results;
- describes the theoretical background of stator end-winding vibrations. This part of IEC60034 is applicable to three-phase synchronous generators and three-phase synchronous direct online (DOL) motors.
Standards | Relationship |
IEC TS 60034-32:2016 | Identical |
ISO 13373-1:2002 | Condition monitoring and diagnostics of machines — Vibration condition monitoring — Part 1: General procedures |
IEC 60034-18-32:2010 | Rotating electrical machines - Part 18-32: Functional evaluation of insulation systems - Test procedures for form-wound windings - Evaluation by electrical endurance |
IEC TS 60034-27:2006 | Rotating electrical machines - Part 27: Off-line partial discharge measurements on the stator winding insulation of rotating electrical machines |
ISO 7626-1:2011 | Mechanical vibration and shock — Experimental determination of mechanical mobility — Part 1: Basic terms and definitions, and transducer specifications |
ISO 13373-2:2016 | Condition monitoring and diagnostics of machines Vibration condition monitoring Part 2: Processing, analysis and presentation of vibration data |
ISO 7626-5:1994 | Vibration and shock Experimental determination of mechanical mobility Part 5: Measurements using impact excitation with an exciter which is not attached to the structure |
ISO 18431-1:2005 | Mechanical vibration and shock — Signal processing — Part 1: General introduction |
ISO 2041:2009 | Mechanical vibration, shock and condition monitoring Vocabulary |
ISO 16063-1:1998 | Methods for the calibration of vibration and shock transducers Part 1: Basic concepts |
IEC 60034-18-34:2012 | Rotating electrical machines - Part 18-34: Functional evaluation of insulation systems - Test procedures for form-wound windings - Evaluation of thermomechanical endurance of insulation systems |
IEC 60034-1:2017 | Rotating electrical machines - Part 1: Rating and performance |
IEC 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 |
ISO 18431-2:2004 | Mechanical vibration and shock — Signal processing — Part 2: Time domain windows for Fourier Transform analysis |
IEC TS 60034-18-33:2010 | 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 |
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