Low impedance radiofrequency shielded window
First Claim
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1. A low impedance radiofrequency shielded window for electromagnetic isolation comprising:
- a first window layer comprising a perimeter, a conductive mesh surface and an insulating surface;
a first conductive perimeter layer making ohmic contact with the conductive mesh surface of the first window layer and extending past the insulating surface of the first window layer to allow contact to ground;
a second window layer comprising a perimeter, a conductive mesh surface and an insulating surface;
a second conductive perimeter layer making ohmic contact with the conductive mesh of the second window layer and extending past the insulating surface of the first window layer, where it makes contact to ground independently of the first window layer;
the first conductive perimeter layer and the second conductive perimeter layer making mechanical and ohmic contact along the insulating surface of the first window layer thus allowing each window layer a separate path directly to ground.
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Abstract
A low impedance radiofrequency shielded window and radiofrequency shielded enclosure that includes the low impedance radiofrequency shielded window is disclosed. Radiofrequency shielded window layers make up the overall window where the layers are configured in parallel such that each window layer has a direct path to ground. By configuring the ground path of the window layers in parallel, overall reactance and hence resistance is reduced, thus increasing shielding effectiveness of the window.
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Citations
23 Claims
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1. A low impedance radiofrequency shielded window for electromagnetic isolation comprising:
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a first window layer comprising a perimeter, a conductive mesh surface and an insulating surface; a first conductive perimeter layer making ohmic contact with the conductive mesh surface of the first window layer and extending past the insulating surface of the first window layer to allow contact to ground; a second window layer comprising a perimeter, a conductive mesh surface and an insulating surface; a second conductive perimeter layer making ohmic contact with the conductive mesh of the second window layer and extending past the insulating surface of the first window layer, where it makes contact to ground independently of the first window layer; the first conductive perimeter layer and the second conductive perimeter layer making mechanical and ohmic contact along the insulating surface of the first window layer thus allowing each window layer a separate path directly to ground. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A low impedance radiofrequency shielded window for electromagnetic isolation comprising:
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a first window layer comprising a perimeter, a conductive mesh surface and an insulating surface; a first conductive perimeter layer making ohmic contact with the conductive mesh surface of the first window layer; a second window layer comprising a perimeter, a conductive mesh surface and an insulating surface; a second conductive perimeter layer making ohmic contact with the conductive mesh of the second window layer and extending to the first conductive perimeter layer; the first conductive perimeter layer and the second conductive perimeter layer making mechanical and ohmic contact along the perimeter of the first window layer thus allowing each window layer a separate path directly to ground. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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23. A low impedance radiofrequency shielded enclosure for electromagnetic isolation comprising:
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a volume defined by conductive surfaces enclosing said volume to create a faraday cage enclosure; a radiofrequency shielded window placed in an opening in the faraday cage enclosure; the radiofrequency shielded window comprising a first window layer comprising a perimeter, a conductive mesh surface and an insulating surface; a first conductive perimeter layer making ohmic contact with the conductive mesh surface of the first window layer and also with the conductive surface of the faraday cage enclosure; a second window layer comprising a perimeter, a conductive mesh surface and an insulating surface; a second conductive perimeter layer making ohmic contact with the conductive mesh of the second window layer and extending to the first conductive perimeter layer where it also makes ohmic contact with the conductive surface of the faraday cage enclosure.
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Specification