Flexible coaxial cable apparatus and method
First Claim
1. A method of producing a cable for electrical signal propagation, comprising the steps of:
- providing a multilayer conductor configuration, at least a first layer comprising a plurality of laterally spaced apart conducting signal traces, each surrounded by dielectric material, at least one other layer comprising a protective electrical shield for said first layer;
forming a 360-degree signal return line around each of a selected first set of said conducting signal traces and surrounding dielectric material, thereby forming a plurality of coaxial structures;
isolating each of the plurality of coaxial structures and surrounding each of them in an additional layer of dielectric material; and
surrounding each additional layer of dielectric material with a 360-degree conductive shield for shielding each coaxial structure.
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Accused Products
Abstract
A flexible coaxial cable capable of high frequency signal propagation formed from a multilayer configuration having a plurality of adjacent signal traces etched in dielectric material and surrounded by a protective ground layer. Selected ones of the signal traces are designated to be conducting signal lines. A 360-degree signal return line is formed around each of the designated conducting signal traces utilizing signal traces adjacent those serving as conducting signal lines as part of the return line conductor. A 360-degree shield is also formed around the return line, again employing selected signal traces as part of the shield. The return line and shield are created using photo and laser etching, chemical milling and electroplating techniques. The cable allows electrical signal propagation in the gigahertz frequency range without appreciable signal loss and provides high density packaging. The flexible nature of the cable and its structure combine to provide an even variable standing wave ratio.
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Citations
15 Claims
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1. A method of producing a cable for electrical signal propagation, comprising the steps of:
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providing a multilayer conductor configuration, at least a first layer comprising a plurality of laterally spaced apart conducting signal traces, each surrounded by dielectric material, at least one other layer comprising a protective electrical shield for said first layer; forming a 360-degree signal return line around each of a selected first set of said conducting signal traces and surrounding dielectric material, thereby forming a plurality of coaxial structures; isolating each of the plurality of coaxial structures and surrounding each of them in an additional layer of dielectric material; and surrounding each additional layer of dielectric material with a 360-degree conductive shield for shielding each coaxial structure. - View Dependent Claims (2, 3)
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4. A method of forming a coaxial cable, comprising the steps of:
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providing a multilayer configuration comprised of an inner layer of adjacent signal traces which are formed in a layer of dielectric material, said layer of dielectric material being sandwiched between a pair of outer ground plane layers; removing portions of the outer ground plane layers and dielectric material to expose a first, second, third and fourth of said adjacent signal traces, while leaving covered a fifth of said adjacent signal traces, said second and third signal traces lying between said first and fourth signal traces, and said fifth signal trace forming a conducting signal trace lying between said second and third signal traces; forming a 360-degree signal return line by connecting said second and third signal traces to said outer ground plane layers to produce a 360-degree conductive enclosure around said conducting signal trace whereby said conducting signal trace is isolated from its 360-degree signal return line by a layer of said dielectric material; and shielding said 360-degree signal return line, said shielding step comprising connecting said first and fourth signal traces to an additional conductive layer. - View Dependent Claims (5, 6, 7, 8, 9, 10)
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- 11. The method of claim 11 wherein the step of removing portions of the additional conductive layers includes etching away those portions.
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13. A cable for propagating electrical signals, comprising:
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a plurality of means for conducting an electrical signal, each electrical signal conducting means being surrounded by dielectric material; a plurality of signal return conductor means each surrounding a respective one of said electrical signal conducting means and being spaced apart therefrom by said dielectric material; a layer of dielectric material surrounding each said signal return conductor means; and means surrounding each said layer of dielectric material for shielding each of said signal return conductor means, said shielding means including shared conductor means joining adjacent ones of said layers of dielectric material to form a unitary cable of said plurality of electrical signal conducting means and their surrounding signal return conductor means.
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14. A cable for propagating electrical signals, comprising:
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a plurality of means for conducting an electrical signal, each electrical signal conducting means being surrounded by dielectric material; a plurality of signal return conductor means each surrounding a respective one of said electrical signal conducting means and being spaced apart therefrom by said dielectric material, each said signal return conductor means comprising; a lower planar conductor element; a first vertical conductor element connected to the lower planar conducting element; a first signal trace connected to said first vertical conductor element; an upper planar conductor element; a second vertical conductor element connecting said upper planar conductor element to the first signal trace; a second signal trace; a third vertical conductor element electrically connecting the upper planar conductor element to said second signal trace; and a fourth vertical conductor element electrically connecting the second signal trace to the lower planar conductor element; a layer of dielectric material surrounding each said signal return conductor means; and means surrounding each said layer of dielectric material for shielding each of said signal return conductor means.
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15. A cable for propagating electrical signals, comprising:
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a plurality of means for conducting an electrical signal, each electrical signal conducting means being surrounded by dielectric material; a plurality of signal return conductor means each surrounding a respective one of said electrical signal conducting means and being spaced apart therefrom by said dielectric material; a layer of dielectric material surrounding each said signal return conductor means; and means surrounding each said layer of dielectric material for surrounding each of said signal return conductor means, said means for shielding comprising; a bottom planar conductor element; a third signal trace; a first vertical shield conductor element electrically connecting the bottom planar conductor element to the third signal trace; a top planar conductor element; a second vertical shield conductor element electrically connecting the top planar conductor element to the third signal trace; a fourth signal trace; a third vertical conductor element electrically connecting the top planar conductor to the fourth signal trace; and a fourth vertical conductor element electrically connecting the fourth signal trace to the bottom planar conductor element.
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Specification