Vážení zákazníci, v letošním roce budeme expedovat poslední objednávky ve středu 18. 12. 2024.

Těšíme se s vámi na shledanou od pondělí 06. 01. 2025.

 

Menu
0
Total price
0 €
PRICES include / exclude VAT
Homepage>BS EN 62925:2017 Concentrator photovoltaic (CPV) modules. Thermal cycling test to differentiate increased thermal fatigue durability
Sponsored link
sklademVydáno: 2017-11-27
BS EN 62925:2017 Concentrator photovoltaic (CPV) modules. Thermal cycling test to differentiate increased thermal fatigue durability

BS EN 62925:2017

Concentrator photovoltaic (CPV) modules. Thermal cycling test to differentiate increased thermal fatigue durability

Format
Availability
Price and currency
Anglicky Secure PDF
Immediate download
194.64 €
You can read the standard for 1 hour. More information in the category: E-reading
Reading the standard
for 1 hour
19.46 €
You can read the standard for 24 hours. More information in the category: E-reading
Reading the standard
for 24 hours
58.39 €
Anglicky Hardcopy
In stock
194.64 €
Označení normy:BS EN 62925:2017
Počet stran:20
Vydáno:2017-11-27
ISBN:978 0 580 88154 1
Status:Standard
DESCRIPTION

BS EN 62925:2017


This standard BS EN 62925:2017 Concentrator photovoltaic (CPV) modules. Thermal cycling test to differentiate increased thermal fatigue durability is classified in these ICS categories:
  • 27.160 Solar energy engineering

This document defines a test sequence that will quickly uncover CPV module failures that have been associated with field exposure to thermal cycling for many years. This document was specifically developed to relate to thermal fatigue failure of the HCPV die-attach, however, it also applies, to some extent, to all thermal fatigue related failure mechanisms for the assemblies submitted to test.

IEC 62108, the CPV module qualification test already includes an accelerated thermal cycle sequence in one leg of the testing, however, the parameters of that test only represent a qualification level of exposure. This test procedure applies more stress and will provide a route for comparative testing to differentiate CPV modules with improved durability to thermal cycling and the associated mechanical stresses.