There is no thermal pad or thermal grease used. ICE-Loks rely on pressure to minimize thermal resistance across the contact. Thermal interface materials could reduce resistance further, but the trade is increased complexity and cost. The increased contact area relative to a traditional wedge, however, is the most significant factor. Check the ICE-Lok page on our website for more details: www.1-act.com/products/ice-lok-thermally-enhanced-wedgelock/ Or our video on wedgelocks for embedded computing: ruclips.net/video/vfV1mdxe1IY/видео.html
Is required any thermal pad or clue between card, wedge lock, and chassis? and how you are ensuring that?
There is no thermal pad or thermal grease used. ICE-Loks rely on pressure to minimize thermal resistance across the contact. Thermal interface materials could reduce resistance further, but the trade is increased complexity and cost. The increased contact area relative to a traditional wedge, however, is the most significant factor.
Check the ICE-Lok page on our website for more details:
www.1-act.com/products/ice-lok-thermally-enhanced-wedgelock/
Or our video on wedgelocks for embedded computing:
ruclips.net/video/vfV1mdxe1IY/видео.html
@@AdvancedCoolingTechThank you reply. if you share any case study for this clarification, it will help to use your wedge lock.
Elimde bu ürünlerden calmark marka var 500 adet değerlendirmek istiyorum
Please send us an email at solutions@1-act.com or call 717-295-6061, we will be happy to help you.