{}

Våra varumärken

Välkommen till Schneider Electrics webbplats

Välkommen till vår webbplats.
Hur kan vi hjälpa dig idag?
What effect, if any, do the magnetic panels of the Vertical Exhaust Duct Kits have on high speed network cables?

Issue:
The NetShelter SX Vertical Exhaust Duct Kits include magnetic panels.

Product Line:
NetShelter Vertical Exhaust Duct Kits 

Environment:
AR7751, AR7752, AR7753, AR7754

Cause:
Strong magnetic fields can interfere with high speed network cables.

Resolution:
TIA Cat 6A Channel Tests were performed on the cross connect area of the channel, the area critical to exposure.
Baseline readings without the magnetic panels were performed.
Magnetic panels were then introduced and the tests were performed again.
Cat 6A UTP patch cables were placed directly on the magnetic panels and tested.
Cat 6A F/UTP patch cables were placed directly on the magnetic panels and tested.
Cat 6A UTP cables were installed into a NetShelter SX cabinet and tested.
Cat 6A F/UTP cables were installed into a NetShelter SX cabinet and tested.
In each instance no significant difference was noted in transition performance as a result of exposure to the magnetic strips as compared to the baseline data.  
In each instance (baseline, and with magnetic panels introduced) the test bed passed TIA Cat 6A Channel test.

Schneider Electric Sverige

Utforska mer
Produktfamilj
Utforska mer
Produktfamilj
move-arrow-top
Your browser is out of date and has known security issues.

It also may not display all features of this website or other websites.

Please upgrade your browser to access all of the features of this website.

Latest version for Google Chrome, Mozilla Firefox or Microsoft Edgeis recommended for optimal functionality.
Your browser is out of date and has known security issues.

It also may not display all features of this website or other websites.

Please upgrade your browser to access all of the features of this website.

Latest version for Google Chrome, Mozilla Firefox or Microsoft Edgeis recommended for optimal functionality.