초록 ▼

The embodiments relates generally to the use of conductive connections for electrically grounding a series of conductive substrates. More specifically the embodiments teach configurations of conductive connections that do not overly constrain relative motion between the connected conductive substrat

The embodiments relates generally to the use of conductive connections for electrically grounding a series of conductive substrates. More specifically the embodiments teach configurations of conductive connections that do not overly constrain relative motion between the connected conductive substrates. Conductive pressure sensitive adhesive is used to attach opposing ends of the conductive connectors to the conductive substrates. A substrate portion of the conductive connectors is scored by a cutting device such as a die cutter to reduce rigidity of the substrate portion.

대표청구항 ▼

1. A floating conductive connector configured to electrically connect a first substrate and a second substrate, the floating conductive connector comprising: a conductive pad; anda conductive film, comprising: a central region coupled to the conductive pad,a border region, anda linking region, compr

1. A floating conductive connector configured to electrically connect a first substrate and a second substrate, the floating conductive connector comprising: a conductive pad; anda conductive film, comprising: a central region coupled to the conductive pad,a border region, anda linking region, comprising a conductive strand spanning an adjustable distance, the conductive strand mechanically and electrically linking the border region to the central region, wherein the conductive strand has an electrical resistance that is maintained independent of a distance spanned by the conductive strand. 2. The floating conductive connector as recited in claim 1, wherein the conductive strand is formed by removing a plurality of portions from the conductive film, and wherein the electrical connection between the first and second substrates is maintained during relative motion of the first and second substrates. 3. The floating conductive connector as recited in claim 1, wherein the conductive strand follows a serpentine path between the border region and the central region, and wherein the adjustable distance spanned by the conductive strand increases when relative motion between the central region and the border region causes the serpentine path followed by the conductive strand to straighten. 4. The floating conductive connector as recited in claim 1, wherein the conductive connector comprises a plurality of conductive strands, and wherein a distance spanned by a first subset of the plurality of conductive strands has more adjustability than a second subset of the plurality of conductive strands. 5. The floating conductive connector as recited in claim 1, wherein the conductive pad is a conductive pressure-sensitive adhesive pad configured to couple the conductive film to the first substrate. 6. The floating conductive connector as recited in claim 3, wherein the serpentine path of at least one of the conductive strands follows a repeating sinusoidal pattern. 7. The floating conductive connector as recited in claim 3, wherein one portion of the serpentine path of at least one of the conductive strands has a saw tooth shape. 8. The floating conductive connector as recited in claim 5, wherein the plurality of conductive strands are aligned in at least three different directions. 9. A conductive connector suitable for electrically coupling a first component to a second component, the conductive connector comprising: a first region,a second region surrounding the first region, anda linking region joining the first region to the second region, the linking region comprising a conductive strand following a non-linear path between the first region and the second region, the conductive strand mechanically and electrically coupling the first region to the second region; anda conductive adhesive layer disposed on one side of the first region, the conductive adhesive layer configured to couple the conductive connector to the first component,wherein the conductive strand allows relative motion between the first region and the second region by allowing the non-linear path of the conductive strand to be straightened, which facilitates relative motion of the first region with respect to the second region in any of three dimensions. 10. The conductive connector of claim 9, wherein the linking region further comprises a plurality of conductive strands. 11. The conductive connector of claim 10, wherein each of the conductive strands follows a serpentine path between the first region and the second region. 12. The conductive connector of claim 9, wherein when the conductive connector electrically couples the first component to the second component, relative motion of the first region with respect to the second region allows the first component to shift relative to the second component without severing the electrical coupling. 13. The conductive connector of claim 10, wherein the plurality of conductive strands are oriented in at least 4 different directions. 14. The conductive connector of claim 13, wherein at least one of the plurality of conductive strands follows a linear path between the first region and the second region. 15. The conductive connector of claim 9, wherein the conductive connector is formed from a sheet of conductive film. 16. The conductive connector of claim 15, wherein the linking region is defined by removing a plurality of portions of film from the sheet of conductive film. 17. A connector suitable for electrically coupling a first component to a second component, the conductive connector comprising: an electrically conductive film, comprising: a central region,a border region surrounding the central region, anda linking region formed by removing portions of the electrically conductive film from an area of the electrically conductive film between the central region and the border region, wherein the linking region both mechanically and electrically couples the central region to the border region; anda conductive adhesive disposed on one side of the central region, the conductive adhesive configured to couple the conductive connector to the first component,wherein the linking region allows relative motion between the central region and the border region, which facilitates relative motion of the first component with respect to the second component without changing an electrical resistance of the connector. 18. The connector as recited in claim 17, wherein the linking region comprises a plurality of electrically conductive strands that follow a non-linear path between the central region and the border region. 19. The connector as recited in claim 18, wherein the plurality of electrically conductive strands are aligned in at least three different directions. 20. The connector as recited in claim 17, further comprising an adhesive layer affixed to one side of the border region of the electrically conductive film, the side of the border region being opposite the side of the central region, wherein the adhesive layer is configured to electrically and mechanically couple the connector to the second component.