Shielded twisted pair of conductors using conductive ink
First Claim
1. A method for manufacturing an electrical infrastructure of a medical device, said method comprising:
- printing a base layer comprising electrically conductive material in a predefined pattern by depositing an electrically conductive ink on a surface of the medical device, wherein printing said predefined pattern of said base layer comprises forming a plurality of sinusoidal-shaped segments separated by a plurality of gaps wherein each sinusoidal-shaped segment does not contact the other sinusoidal-shaped segments;
printing a masking layer comprising electrically nonconductive material directly over a portion of said first layer of conductive material by depositing an electrically nonconductive ink, wherein printing said masking layer comprises depositing nonconductive ink in said gaps to electrically insulate a portion of said segments positioned within said gaps; and
printing a bridge layer comprising electrically conductive material directly over a portion of said base layer and a portion of said masking layer by depositing electrically conductive ink,wherein said plurality of gaps comprises a first plurality of gaps and a second plurality of gaps different from said first plurality of gaps and wherein forming said plurality of sinusoidal-shaped segments comprises forming first sinusoidal-shaped segments separated by said first plurality of gaps and forming second sinusoidal-shaped segments different from said first sinusoidal-shaped segments where said second sinusoidal-shaped segments are separated by said second plurality of gaps and wherein said second sinusoidal-shaped segments are positioned within said first plurality of gaps, and wherein said printing said bridge layer comprises depositing said electrically conductive ink in said first and second plurality of gaps so as to electrically connect said first sinusoidal-shaped segments to form a first electrical conductor and to electrically connect said second sinusoidal-shaped segments to form an electrically separate second electrical conductor to thereby form an electrically separate and isolated pair of conductors in a twisted configuration.
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Accused Products
Abstract
An apparatus for transmitting electrical signals is disclosed. The apparatus includes a substrate and a twisted pair of conductors located on the substrate. The twisted pair of conductors has a first layer comprising conductive material, a second layer comprising nonconductive material, and a third player comprising conductive material. The first layer has a plurality of segments separated by a plurality of gaps. The second layer is positioned in said gaps and electrically insulates a portion of the segments positioned within the gaps. The third layer is positioned over the second layer. The third layer is configured to electrically connects an end of one segment to an end of another segment. The twisted pair of conductors formed by the three dimensional structure comprises two electrically isolated conductors twisted about each other.
34 Citations
14 Claims
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1. A method for manufacturing an electrical infrastructure of a medical device, said method comprising:
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printing a base layer comprising electrically conductive material in a predefined pattern by depositing an electrically conductive ink on a surface of the medical device, wherein printing said predefined pattern of said base layer comprises forming a plurality of sinusoidal-shaped segments separated by a plurality of gaps wherein each sinusoidal-shaped segment does not contact the other sinusoidal-shaped segments; printing a masking layer comprising electrically nonconductive material directly over a portion of said first layer of conductive material by depositing an electrically nonconductive ink, wherein printing said masking layer comprises depositing nonconductive ink in said gaps to electrically insulate a portion of said segments positioned within said gaps; and printing a bridge layer comprising electrically conductive material directly over a portion of said base layer and a portion of said masking layer by depositing electrically conductive ink, wherein said plurality of gaps comprises a first plurality of gaps and a second plurality of gaps different from said first plurality of gaps and wherein forming said plurality of sinusoidal-shaped segments comprises forming first sinusoidal-shaped segments separated by said first plurality of gaps and forming second sinusoidal-shaped segments different from said first sinusoidal-shaped segments where said second sinusoidal-shaped segments are separated by said second plurality of gaps and wherein said second sinusoidal-shaped segments are positioned within said first plurality of gaps, and wherein said printing said bridge layer comprises depositing said electrically conductive ink in said first and second plurality of gaps so as to electrically connect said first sinusoidal-shaped segments to form a first electrical conductor and to electrically connect said second sinusoidal-shaped segments to form an electrically separate second electrical conductor to thereby form an electrically separate and isolated pair of conductors in a twisted configuration. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for manufacturing an electrical infrastructure of a medical device, said method comprising:
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printing a base layer comprising electrically conductive material in a predefined pattern by depositing an electrically conductive ink on a surface of the medical device; printing a masking layer comprising electrically nonconductive material directly over a portion of said first layer of conductive material by depositing an electrically nonconductive ink; printing a bridge layer comprising electrically conductive material directly over a portion of said base layer and a portion of said masking layer by depositing electrically conductive ink wherein said printing said base layer and said bridge layer are performed so as to form a twisted pair of conductors; printing an upper isolation layer comprising electrically nonconductive material and a lower isolation layer comprising electrically nonconductive material, wherein said upper isolation layer and said lower isolation layer together surround said twisted pair of conductors; and printing an upper shield layer comprising electrically conductive material and a lower shield layer comprising electrically conductive material, wherein said upper shield layer and said lower shield layer together surround an insulated twisted pair of conductors comprising said twisted pair of conductors and said upper and lower isolation layers.
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14. A method for manufacturing an electrical infrastructure of a medical device, said method comprising:
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printing a base layer comprising electrically conductive material in a predefined pattern by depositing an electrically conductive ink on a surface of the medical device; printing a masking layer comprising electrically nonconductive material directly over a portion of said first layer of conductive material by depositing an electrically nonconductive ink; printing a bridge layer comprising electrically conductive material directly over a portion of said base layer and a portion of said masking layer by depositing electrically conductive ink wherein said printing said base layer and said bridge layer are performed so as to form a twisted pair of conductors; printing an upper isolation layer comprising electrically nonconductive material and a lower isolation layer comprising electrically nonconductive material, wherein said upper isolation layer and said lower isolation layer together surround said twisted pair of conductors; printing an upper shield layer comprising electrically conductive material and a lower shield layer comprising electrically conductive material, wherein said upper shield layer and said lower shield layer together surround an insulated twisted pair of conductors comprising said twisted pair of conductors and said upper and lower isolation layers; and providing a coil by printing a coil layer comprising a length of spirally-wound electrically conductive material, wherein said coil layer comprises one continuous electric circuit having a first end and a second end, said first and second ends of said coil being electrically connected to said twisted pair of conductors.
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Specification