IEC 61788-8:2010
Current
The latest, up-to-date edition.
Superconductivity - Part 8: AC loss measurements - Total AC loss measurement of round superconducting wires exposed to a transverse alternating magnetic field at liquid helium temperature by a pickup coil method
Hardcopy , PDF 1 User , PDF 3 Users , PDF 5 Users , PDF 9 Users
English, English - French
24-06-2010
FOREWORD
INTRODUCTION
1 Scope
2 Normative references
3 Terms and definitions
4 Principle
5 Apparatus
6 Specimen preparation
7 Testing conditions
8 Calculation of results
9 Uncertainty
10 Test report
Annex A (informative) - Additional information relating to
Clauses 1 to 10
Annex B (informative) - Explanation of AC loss measurement
with Poynting's vector [10]
Annex C (informative) - Estimation of geometrical error in
the pickup coil method
Annex D (informative) - Recommended method for
calibration of magnetization and AC loss
Annex E (informative) - Coupling loss for various types of
applied magnetic field
Annex F (informative) - Uncertainty considerations
Annex G (informative) - Evaluation of uncertainty in AC
loss measurement by pickup coil method [13]
Bibliography
IEC 61788-8:2010 specifies the measurement method of total AC losses by the pickup coil method in composite superconducting wires exposed to a transverse alternating magnetic field. The losses may contain hysteresis, coupling and eddy current losses. The standard method to measure only the hysteresis loss in DC or low-sweep-rate magnetic field is specified in IEC 61788-13. In metallic and oxide round superconducting wires expected to be mainly used for pulsed coil and AC coil applications, AC loss is generated by the application of time-varying magnetic field and/or current. The contribution of the magnetic field to the AC loss is predominant in usual electromagnetic configurations of the coil applications. For the superconducting wires exposed to a transverse alternating magnetic field, the present method can be generally used in measurements of the total AC loss in a wide range of frequency up to the commercial level, 50/60 Hz, at liquid helium temperature. For the superconducting wires with fine filaments, the AC loss measured with the present method can be divided into the hysteresis loss in the individual filaments, the coupling loss among the filaments and the eddy current loss in the normal conducting parts. In cases where the wires do not have a thick outer normal conducting sheath, the main components are the hysteresis loss and the coupling loss by estimating the former part as an extrapolated level of the AC loss per cycle to zero frequency in the region of lower frequency, where the coupling loss per cycle is proportional to the frequency. This second edition cancels and replaces the first edition published in 2003. This edition constitutes a technical revision. The main changes with respect to the previous edition are listed below:
- extending the applications of the pickup coil method to the a.c. loss measurements in metallic and oxide superconducting wires with a round cross section at liquid helium temperature,
- using the word "uncertainty" for all quantitative (associated with a number) statistical expressions and eliminating the quantitative use of "precision" and "accuracy".Key words: superconductivity, TC90
Committee |
TC 90
|
DevelopmentNote |
Stability Date: 2017. (10/2012) A Bilingual edition has been published on 25/02/2014. (02/2014)
|
DocumentType |
Standard
|
Pages |
34
|
PublisherName |
International Electrotechnical Committee
|
Status |
Current
|
Supersedes |
Standards | Relationship |
NBN EN 61788-8 : 2011 | Identical |
NEN EN IEC 61788-8 : 2010 | Identical |
I.S. EN 61788-8:2010 | Identical |
PN EN 61788-8 : 2011 | Identical |
VDE 0390-8 : 2011 | Identical |
DIN EN 61788-8 : 2011 | Identical |
UNE-EN 61788-8:2010 | Identical |
CEI EN 61788-8 : 2011 | Identical |
NF EN 61788-8 : 2015 | Identical |
BS EN 61788-8:2010 | Identical |
BS EN 61788-8:2003 | Identical |
PNE-FprEN 61788-8 | Identical |
UNE-EN 61788-8:2004 | Identical |
EN 61788-8:2010 | Identical |
IEC 61788-21:2015 | Superconductivity - Part 21: Superconducting wires - Test methods for practical superconducting wires - General characteristics and guidance |
BS EN 61788-21:2015 | Superconductivity Superconducting wires. Test methods for practical superconducting wires. General characteristics and guidance |
IEC TR 61788-20:2014 | Superconductivity - Part 20: Superconducting wires - Categories of practical superconducting wires - General characteristics and guidance |
PD IEC/TR 61788-20:2014 | Superconductivity Superconducting wires. Categories of practical superconducting wires. General characteristics and guidance |
I.S. EN 61788-21:2015 | SUPERCONDUCTIVITY - PART 21: SUPERCONDUCTING WIRES - TEST METHODS FOR PRACTICAL SUPERCONDUCTING WIRES - GENERAL CHARACTERISTICS AND GUIDANCE |
EN 61788-21:2015 | Superconductivity - Part 21: Superconducting wires - Test methods for practical superconducting wires - General characteristics and guidance |
IEC 61788-1:2006 | Superconductivity - Part 1: Critical current measurement - DC critical current of Nb-Ti composite superconductors |
IEC 60050-815:2015 | International Electrotechnical Vocabulary (IEV) - Part 815: Superconductivity |
IEC 61788-13:2012 | Superconductivity - Part 13: AC loss measurements - Magnetometer methods for hysteresis loss in superconducting multifilamentary composites |
IEC 61788-2:2006 | Superconductivity - Part 2: Critical current measurement - DC critical current of Nb3Sn composite superconductors |
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