High-speed electrical connector

What is claimed is: 1. An electrical connector comprising: a plurality of electrical contacts disposed in a dielectric frame having a perimeter encompassing the plurality of electrical contacts; a substrate having a plurality of bonding pads, each bonding pad of the plurality of bonding pads being electrically coupled to a contact in the plurality of electrical contacts, wherein the substrate is positioned parallel and adjacent to the dielectric frame; a gasket along the perimeter of the dielectric frame, disposed between the dielectric frame and the substrate such that an outline of the gasket encompasses the plurality of contacts; an overmold encapsulating the dielectric frame and at least a portion of the substrate; and an air void disposed within the perimeter of the dielectric frame and between the dielectric frame and the substrate. 2. The electrical connector of claim 1 further comprising an air void disposed within the perimeter of the dielectric frame and between the dielectric frame and the substrate. 3. The electrical connector of claim 1 wherein portions of the gasket are disposed between each of the plurality of electrical contacts. 4. The electrical connector of claim 1 wherein the gasket comprises a low dielectric constant material that is compressible. 5. The electrical connector of claim 4 wherein the dielectric constant of the gasket is between 1.1-3. 6. The electrical connector of claim 1 wherein the dielectric frame comprises a low dielectric constant polymer. 7. The electrical connector of claim 1 wherein the gasket has a portion that extends beyond the perimeter of the dielectric frame. 8. An electrical connector comprising: a substrate having a plurality of bonding pads formed in a contact area; a dielectric frame disposed adjacent to the substrate in an oppositional relationship to the contact area; a plurality of electrical contacts disposed in the dielectric frame, each electrical contact in the plurality of electrical contacts being coupled to a bonding pad in the plurality of bonding pads; an overmold encapsulating at least a portion of the substrate and the dielectric frame and at least partially filling space in between upper portions of adjacent electrical contacts in the plurality of electrical contacts; and a gasket disposed between the substrate and the dielectric frame, the gasket forming a seal that surrounds the contact area between the substrate and the dielectric fame. 9. The connector set forth in claim 8 wherein each electrical contact in the plurality of electrical contacts is soldered to a bonding pad in the plurality of bonding pads at a solder joint and the seal forms an air gap between each adjacent solder joint. 10. The connector set forth in claim 9 wherein the plurality of contacts are spaced apart along a single row and the gasket includes first and second opposing rails that extend along a length of the row and a plurality of connectors extending between the first and second rails forming a plurality of openings, wherein each of the plurality of openings is aligned with a bonding pad from the plurality of bonding pads. 11. An electrical connector comprising: a plurality of electrical contacts disposed in a dielectric frame, the dielectric frame comprising a perimeter encompassing the plurality of electrical contacts; a substrate electrically coupled to the plurality of electrical contacts and disposed adjacent and parallel to the dielectric frame; a gasket along the entire perimeter of the dielectric frame, disposed between the dielectric frame and the substrate, the gasket formed from a first compressible layer and a second reinforcement layer; and an overmold encapsulating the dielectric frame and at least a portion of the substrate. 12. The electrical connector of claim 11 wherein the gasket has a third reinforcement layer disposed on an opposite side of the compressible layer. 13. The electrical connector of claim 11 wherein portions of the gasket are disposed between each of the plurality of electrical contacts. 14. The electrical connector of claim 13 wherein the second reinforcement layer is disposed only along the perimeter of the dielectric frame. 15. A plug connector comprising: a body; a connector tab coupled to and extending away from the body, the connector tab including first and second surfaces; a first plurality of external contacts carried by the tab at the first surface and a second plurality of external contacts carried by the tab at the second surface; a first gasket formed around a perimeter of the first plurality of external contacts and a second gasket formed around a perimeter of the second plurality of external contacts; and an overmold dielectric material comprising an aerogel formed between each of the first plurality and each of the second plurality of external contacts. 16. The plug connector of claim 15 wherein the aerogel comprises a silica aerogel. 17. The plug connector of claim 15 wherein the first plurality of external contacts is disposed in a first dielectric frame and the second plurality of external contacts is disposed in a second dielectric frame. 18. The plug connector of claim 17 wherein the first and second dielectric frames comprise an aerogel. 19. A plug connector comprising: a body; a plurality of contacts carried by the body and electrically isolated from each other by an overmold dielectric material comprising silica aerogel formed between individual ones of the plurality of contacts; a dielectric frame secured to each contact of the plurality of contacts; and a gasket formed around a perimeter of the plurality of contacts. 20. The plug connector of claim 19 further comprising a tab portion of the body coupled to and extending away from the body, the connector tab including first and second surfaces. 21. An electrical connector comprising: a first plurality of electrical contacts disposed in a dielectric frame having a perimeter encompassing the plurality of electrical contacts, each contact in the first plurality of contacts having a first contact surface and a bonding surface opposite the first contact surface; a substrate disposed adjacent and parallel to the dielectric frame, the substrate having a plurality of bonding pads; an overmold encapsulating the dielectric frame and at least a portion of the substrate; and an air void disposed within the perimeter of the dielectric frame and between the dielectric frame and the substrate; wherein the dielectric frame includes a design feature to prevent flow of overmold material into the air void and wherein each of the plurality of bonding pads is electrically coupled to a bonding surface of a contact in the first plurality of electrical contacts within the air void. 22. The electrical connector of claim 21 further comprising a body and connector tab extending away from the body, the connector tab comprising an exterior conductive surface that surrounds the first contact surface of each contact in the first plurality of electrical contacts in a first plane. 23. The electrical connector of claim 21 wherein each contact in the plurality of contacts includes a first bonding surface and a second bonding surface spaced apart from the first bonding surface. 24. The electrical connector of claim 21 wherein the dielectric frame is insert molded around the plurality of contacts and comprises a thermoplastic material. 25. The electr