Ultra fine line cable and a method for fabricating the same
First Claim
1. A method of fabricating an elongated cable having closely spaced lines for interconnecting spaced apart integrated circuits comprising a plurality of closely spaced elongated planar first conductor lines in a first plane insulatingly spaced from at least one elongated planar second circuit line with contact posts extruding from opposed ends of each of the first conductor lines and from opposed ends of the at least one planar second conductor line, which method comprises the steps of:
- (a) fabricating a first cable panel by depositing upon a first layer of conductive material having two opposed ends a plurality of raised electrically conductive closely spaced elongated planar first conductor lines of a known length having first and second ends and also depositing upon the first base layer at least a pair of electrically conductive vertical connecting pillars extending above the planar first conductor lines, each of the pillars of a pair positioned near each opposed end of the first base layer and positioned beyond the ends of the first conductor lines;
(b) fabricating a second cable panel by depositing at least one raised electrically conductive elongated planar second conductor line upon a second base layer of conductive material, the second conductor line being of a length at least equal to the distance between opposing pairs of vertical pillars of the first cable panel;
(c) laminating the first cable panel to the second cable panel with a thin flexible laminate insulating material being disposed therebetween with the vertical pillars extending through the laminate to electrically contact opposite ends of the second conductor line;
(d) removing selected areas of the first base layer of conductive material to expose the ends of the first conductor lines and the ends of the vertical pillars and to simultaneously provide the necessary electrical conduction for electrolytical deposition upon the first conductor line ends and the vertical pillar ends;
(e) electrolytically depositing vertical contact posts of conductive material upon the exposed ends of the first conductor lines and the exposed ends of the pillars;
(f) removing the remaining portion of the first conductive base layer to electrically insulate the contact posts and the first conductor lines;
(g) removing the second conductive base layer;
(h) disposing a layer of electrical insulation upon the exposed surfaces of the laminated first and second cable panels and permitting the contact posts to protrude through the layer to provide electrical access to the flexible cable.
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Accused Products
Abstract
The invention is a fine line electrical cable with two ends having a plurality of first conductor lines in a plane. The lines of the cable are embedded in an insulating laminate material, are closely spaced at one end to be compatible with the closely spaced contacts from IC chips and are fanned out along the length of the cable to the other end where the lines are spaced somewhat apart and compatible with conventional electrical connectors. Contact posts extent from each line end so that external connections may be made with the IC chips and the conventional connectors. At least one second conductor line may be embedded within the other side of the laminate material and appropriate contact posts extend from the line ends so that external connections may also be made at these locations. A method for fabricating the fine line elecrical cable is also disclosed.
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Citations
20 Claims
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1. A method of fabricating an elongated cable having closely spaced lines for interconnecting spaced apart integrated circuits comprising a plurality of closely spaced elongated planar first conductor lines in a first plane insulatingly spaced from at least one elongated planar second circuit line with contact posts extruding from opposed ends of each of the first conductor lines and from opposed ends of the at least one planar second conductor line, which method comprises the steps of:
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(a) fabricating a first cable panel by depositing upon a first layer of conductive material having two opposed ends a plurality of raised electrically conductive closely spaced elongated planar first conductor lines of a known length having first and second ends and also depositing upon the first base layer at least a pair of electrically conductive vertical connecting pillars extending above the planar first conductor lines, each of the pillars of a pair positioned near each opposed end of the first base layer and positioned beyond the ends of the first conductor lines; (b) fabricating a second cable panel by depositing at least one raised electrically conductive elongated planar second conductor line upon a second base layer of conductive material, the second conductor line being of a length at least equal to the distance between opposing pairs of vertical pillars of the first cable panel; (c) laminating the first cable panel to the second cable panel with a thin flexible laminate insulating material being disposed therebetween with the vertical pillars extending through the laminate to electrically contact opposite ends of the second conductor line; (d) removing selected areas of the first base layer of conductive material to expose the ends of the first conductor lines and the ends of the vertical pillars and to simultaneously provide the necessary electrical conduction for electrolytical deposition upon the first conductor line ends and the vertical pillar ends; (e) electrolytically depositing vertical contact posts of conductive material upon the exposed ends of the first conductor lines and the exposed ends of the pillars; (f) removing the remaining portion of the first conductive base layer to electrically insulate the contact posts and the first conductor lines; (g) removing the second conductive base layer; (h) disposing a layer of electrical insulation upon the exposed surfaces of the laminated first and second cable panels and permitting the contact posts to protrude through the layer to provide electrical access to the flexible cable. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method of fabricating a flexible elongated cable having closely spaced lines for interconnecting spaced apart integrated circuits comprising a plurality of closely spaced elongated planar first conductor lines in a first plane insulatingly spaced from at least one elongated planar second circuit line with contact posts extruding from opposed ends of each of the first conductor lines and from opposed ends of the at least one planar second conductor line, which method comprises the steps of:
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(a) fabricating a first cable panel by depositing by electroplating upon a first base layer of conductive material having two opposed ends a plurality of raised electrically conductive closely spaced elongated planar first conductor lines of a known length having first and second ends and also electroplating upon the first base layer at least a pair of electrically conductive vertical connecting pillars extending above the planar first conductor lines, each of the pillars of a pair positioned near each opposed end of the first base layer and positioned beyond the ends of the first conductor lines; (b) fabricating a second cable panel by electroplating at least one raised electrically conductive elongated planar second conductor line upon a second base layer of conductive material, the second conductor line being of a length at least equal to the distance between opposing pairs of vertical pillars of the first cable panel; (c) laminating by thermocompression the first cable panel to the second cable panel with a thin flexible laminate insulating material being disposed therebetween with the vertical pillars extending through the laminate to electrically contact opposite ends of the second conductor line; (d) removing selected areas of the first base layer of conductive material to expose the ends of the first conductor lines and the ends of the vertical pillars; (e) electroplating and integrally bonding vertical contact posts of conductive material upon the exposed ends of the first conductor lines and the exposed ends of the pillars; (f) removing the remaining portion of the first conductive base layer to electrically insulate the contact posts and the first conductor lines; (g) removing the second conductive base layer; (h) disposing a layer of thin flexible electrical insulation upon the exposed surfaces of the laminated first and second cable panels and permitting the contact posts to protrude through the layer to provide electrical access to the flexible cable.
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13. An elongated cable having a plurality of electrically conductive closely spaced first conductor lines for interconnecting spaced apart integrated circuits comprising:
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(a) an electrically insulating laminate material having a length, a first side and a second side; (b) a plurality of electrically conductive closely spaced elongated planar first conductor lines embedded within the first side of the laminate material and extending a length less than that of the laminate material length; (c) at least one electrically conductive elongated second conductor line having a first and a second end, the at least one second conductor line extending a length less than that of the laminate material but greater than that of the first conductor lines and the at least one second conductor line embedded within the second side of the laminate material; (d) at least a pair of vertical connecting pillars for each second conductor line, each pair having pillars with first and second ends with the first end of one pillar of each pair integrally attached to the first end of the second conductor line and the first end of the other pillar of the pair integrally attached to the second end of the second conductor line, and each pillar extending from the second conductor line through the laminate material so that the pillar second end is flush with the first side of the laminate material; (e) contact posts of an electrically conductive material integrally attached and extending vertically from the ends of the first conductor lines and from the second ends of the pillars; and (f) a top and a bottom insulating layer, with the top layer covering the first side of the laminate material and the bottom layer covering the second side of the laminate material with the contact posts extending through the top layer and exposed for electrical contact. - View Dependent Claims (14, 15, 16, 17, 18, 19)
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20. An elongated flexible cable formed by the steps of:
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(a) fabricating a first cable panel by depositing upon a first base layer of conductive material having two opposed ends a plurality of raised electrically conductive closely spaced elongated planar first conductor lines of a known length having first and second ends and also depositing upon the first base layer at least a pair of electrically conductive vertical connecting pillars extending above the planar first conductor lines, each of the pillars of a pair positioned near each opposed end of the first base layer and positioned beyond the ends of the first conductor lines; (b) fabricating a second cable panel by depositing at least one raised electrically conductive elongated planar second conductor line upon a second base layer of conductive material, the second conductor line being of a length at least equal to the distance between opposing pairs of vertical pillars of the first cable panel; (c) laminating the first cable panel to the second cable panel with a thin flexible laminate insulating material being disposed therebetween with the vertical pillars extending through the laminate to electrically contact opposite ends of the second conductor line; (d) removing selected areas of the first base layer of conductive material to expose the ends of the first conductor lines and the ends of the vertical pillars; (e) electrolytically depositing vertical contact posts of conductive material upon the exposed ends of the first conductor lines and the exposed ends of the pillars; (f) removing the remaining portion of the first conductive base layer to electrically insulate the contact posts and the first conductor lines; (g) removing the second conductive base layer; (h) disposing a layer of electrical insulation upon the exposed surfaces of the laminated first and second cable panels and permitting the contact posts to protrude through the layer to provide electrical access to the flexible cable.
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Specification