Transparent EMI/RFI-shielding foil

Series

Width of the visible area in mm.
Length of the visible area in mm
Specify the width of the busbar or the copper grounding contact in mm.

Transparent shielding foil with specialty of one side conductive meanwhile optical transmittance, is widely used for applications of EL panel, LCD EMI shielding, touch screen, flexible solar cell etc.

Transparent EMI/RFI-shielding foil 9900 series is a polyester film with a transparent conductive coating. The foil provides excellent electric and electromagnetic shielding of 40 -70 dB at 10 kHz to 300 Mhz and 25-40 dB from 300 MHz to 22 Ghz.

In addition to EMI/RFI/EMC shielding it is also used
for grounding and static discharge applications.
Typical applications are transparent shielding panels
for visual displays in instrumentation equipment, control panels and computers. The light transmission is 65-95%, depending on the electrical conductivity (20-5 Ohm/sq).

Due to its transparency, Transparent EMI/RFI-shielding foil 9900 series is the optimal choice for optical clarity.

For TEMPEST sites or radar/telecom protection, large dimensions are available.

Contanct us if you have a drawing of a specific shape you require


Mounting

A connection can be made between the conductive side of the Transparent EMI/RFI-shielding foil 9900 series and a conductive mounting surface of the construction with Shielded tape 3201 or it can be clamp mounted with Ultra soft shield 7400.

Optional
  • Standard transparent EMI-shielding foil
  • Transparent EMI-shielding foil with silver busbar
  • Transparent EMI-shielding foil with copper edges for grounding

Applications
  • Transparent shielding foil for LED glass
  • Transparent conductive layer for transmitting electron
  • Transparent shielding foil for capacity touch key
  • Transparent protective film for anti fog

Product properties
Part number 9900 5 Ohm 9900 50 Ohm
Total thickness (micron) 125 125
Maximal roll width (mm)  1220 1220
Electrical resistance (ohms/sq.) 5 50
Visible light transmission (%Tvis) 85 87.5
Haze (%) < 2.0% < 2.0% 
Coating adhesion (R/Ro) 1.0 1.0
Shielding effectiveness 25 - 70 dB (10 kHz – 22 GHz)

9900 - 5 ohm and 50 ohm 30 MHz - 3 GHz

9900 - 5 & 50 Ohm 30 MHz

9900 - 5 ohm and 50 ohm 1GHz - 22 GHz

9900 - 5 ohm and 50 ohm 1GHz - 22 GHz

Please note : These values are measured under laboratory conditions. Results may vary in other situations; please read our Guarantee.

* For high shielding performance, see Mesh Foil for window shielding or EMI/RFI shielded mesh foil windows.


Sheet styles
Sheet style #1STD Sheet style #2BAR Sheet style #3CAR
Standard transparent EMI-shielding foil.
No extra contact edge.
There is electrical conduction on the top side of the foil.
Transparent EMI-shielding foil with silver busbar. Transparent EMI-shielding foil with copper edges for grounding.
transparent shielding foin sheet styles transparent shielding foin sheet styles transparent shielding foin sheet styles

Micro Suction Silicone Adhesive

For easy manual application of the foil we have developed a new Micro Suction Silicone adhesive. This adhesive has a number of advantages that make the film easy to position. Our advise is to use standard adhesive only for laminating machines or very very experienced people. For all else use this new Micro Suction Silicone Adhesive


Benefits
  • Reusable / Repositionable
  • Never attach permanently
  • Easily applied by hand, less bubbling

Please note: Transparent protective foil containing Micro Absorbent Silicone adhesive has a thickness of 370 microns / 0.37 mm.


Please note: the top layer can be affected by acid, for example from the human skin. To protect the conductive layer, you can apply a transparent film or use the non-conductive side on top.

Small optical defects are allowed in this product. If you need a product that is absolutely free from optical defects, please contact us for the "superior selected quality". Do be aware though that due to the extreme caution required to manufacture these products, they can be several times more expensive.

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