Connectors for high density neural interfaces

What is claimed is: 1. A connector comprising: a main body comprising a first supporting structure and a plurality of conductive traces formed on the first supporting structure; a first plug extending from the main body, the first plug comprising: a second supporting structure, a first set of conductive traces extending from the plurality of conductive traces and formed on the second supporting structure, and a first set of conductive contacts formed on the second supporting structure, wherein the first set of conductive contacts is electrically connected to the first set of conductive traces; a flexible bridge that is branched out from the main body and extends from a side of the main body, the flexible bridge comprising: a distal end contacting the main body, wherein at least a portion of the flexible bridge that is adjacent the distal end is separated from the main body by a gap in a lengthwise direction of the flexible bridge, a third supporting structure, and a second set of conductive traces extending from the plurality of conductive traces and formed on the third supporting structure; and a second plug extending from a proximal end of the flexible bridge that is disposed opposite the distal end, the second plug comprising: a fourth supporting structure, the second set of conductive traces extending from the plurality of conductive traces and formed on the fourth supporting structure, and a second set of conductive contacts formed on the fourth supporting structure, wherein the second set of conductive contacts is electrically connected to the second set of conductive traces, wherein the flexible bridge has a length that enables a tandem arrangement of the first plug and the second plug on a longitudinal axis of the main body. 2. The connector of claim 1 , wherein: the second supporting structure and the fourth supporting structure are formed of one or more layers of dielectric material; the one or more layers of dielectric material comprise a first layer of dielectric material and a second layer of dielectric material; the first set of conductive traces are buried between the first layer of dielectric material and the second layer of dielectric material of the first plug; and the second set of conductive traces are buried between the first layer of dielectric material and the second layer of dielectric material of the second plug. 3. The connector of claim 2 , wherein: the first plug and the second plug are each cylindrical tubes; and each of the cylindrical tubes comprise: (i) the one or more layers of dielectric material, wherein the first layer of dielectric material defines an outer diameter of the cylindrical tube and the second layer of dielectric material defines an inner diameter of the cylindrical tube; and (ii) a core that at least partially fills an interior of the cylindrical tube defined by the inner diameter of the cylindrical tube. 4. The connector of claim 3 , wherein the one or more layers of dielectric material are at least partially wrapped around the core. 5. The connector of claim 3 , wherein the first layer of dielectric material is a high temperature liquid crystal polymer, and the second layer of dielectric material is a low temperature liquid crystal polymer. 6. The connector of claim 3 , wherein the core is comprised of one or more layers of material such that the core has a hardness measured by a Shore A durometer of greater than 70A. 7. The connector of claim 1 , wherein the third supporting structure is formed of one or more layers of dielectric material and the flexible bridge has a hardness, measured by a Shore A durometer, that is less than a hardness, measured by the Shore A durometer, of the first plug and the second plug. 8. The connector of claim 1 , wherein the flexible bridge has a length that is greater than a length of the first plug. 9. The connector of claim 8 , wherein the flexible bridge is a helical structure. 10. The connector of claim 9 , wherein the flexible bridge is wrapped in a helical manner around the first plug. 11. The connector of claim 9 , further comprising a silicone sleeve placed over the flexible bridge. 12. A lead assembly comprising: a cable comprising a proximal end, a distal end, a first supporting structure, a first set of conductive traces formed on the first supporting structure, and a second set of conductive traces formed on the first supporting structure; a first plug extending from the proximal end of the cable, wherein the first plug comprises: a second supporting structure and a first set of conductive contacts formed on the second supporting structure, wherein the first set of conductive contacts is electrically connected to the first set of conductive traces; a flexible bridge that is branched out from the cable and extends from a side of the cable, wherein the flexible bridge comprises: a distal end contacting the cable at a region proximate the proximal end of the cable, wherein at least a portion of the flexible bridge that is adjacent the distal end of the flexible bridge is separated from the cable by a gap in a lengthwise direction of the flexible bridge, a third supporting structure, and the second set of conductive traces extending from the cable and formed on the third supporting structure; and a second plug extending from a proximal end of the flexible bridge that is disposed opposite the distal end of the flexible bridge, wherein the second plug comprises: a fourth supporting structure and a second set of conductive contacts formed on the fourth supporting structure, wherein the second set of conductive contacts is electrically connected to the second set of conductive traces, wherein the flexible bridge has a length that enables a tandem arrangement of the first plug and the second plug on a longitudinal axis of a main body. 13. The lead assembly of claim 12 , further comprising an electrode assembly located at the distal end of the cable, the electrode assembly comprising electrodes electrically connected to the first set of conductive traces and the second set of conductive traces. 14. The lead assembly of claim 12 , wherein the first supporting structure, the second supporting structure, the third supporting structure, the fourth supporting structure, or a combination thereof are formed of one or more layers of dielectric material. 15. The lead assembly of claim 12 , wherein: the second supporting structure and the fourth supporting structure are formed of one or more layers of dielectric material; the one or more layers of dielectric material comprise a first layer of dielectric material and a second layer of dielectric material; the first set of conductive traces are buried between the first layer of dielectric material and the second layer of dielectric material of the first plug; and the second set of conductive traces are buried between the first layer of dielectric material and the second layer of dielectric material of the second plug. 16. The lead assembly of claim 15 , wherein: the first plug and the second plug are each cylindrical tubes; and each of the cylindrical tubes comprise: (i) the one or more layers of dielectric material, wherein the first layer of dielectric material defines an outer diameter of the cylindrical tube and the second layer of dielectric material defines an inner diameter of the cylindrical tube; and (ii) a core that at least partially fills an interior of the cylindrical tube defined by the inner diameter of the cylindrical tube. 17. The lead assembly of claim 16 , wherein the one or