Cluster RF connector with biasing interface

What is claimed is: 1. A cluster connector, comprising: a primary connector body having a plurality of connector apertures; a plurality of coupling interfaces, each coupling interface corresponding to a jumper, each of the coupling interfaces disposed at least partly within a corresponding connector aperture, each of the coupling interfaces having a jumper lock mechanism disposed on an outer surface; and a secondary connector body including a hard mate lock; and wherein each jumper lock mechanism enables removal of the corresponding jumper without disturbing the other jumpers. 2. The cluster connector of claim 1 , wherein the jumper lock mechanism comprises an O-ring seal, wherein the O-ring seal engages with an inner surface of the corresponding connect or aperture. 3. The cluster connector of claim 1 , wherein the hard mate lock comprises a coupling nut that is rotatably coupled to the secondary connector body. 4. The cluster connector of claim 1 , further comprising an axial biasing means. 5. The cluster connector of claim 1 , wherein each coupling interface comprises an axial biasing element configured to apply an axial pressure on each of the coupling interfaces in a direction toward a receiving interface. 6. The cluster connector of claim 5 , wherein the axial biasing element comprises a spring. 7. A cluster connector, comprising: a primary body having a plurality of apertures; and a plurality of jumpers, each jumper corresponding to an aperture, each jumper having an RF plug and a coupling interface, and an axial biasing element disposed between the RF plug and the coupling interface, the RF plug and coupling interface configured to translate axially relative to one another over a zone of axial deflection, wherein each coupling interface is configured to allow removal and insertion of a corresponding jumper without affecting operation of each of the other plurality of jumpers. 8. The cluster connector of claim 7 , further comprising a hard mate lock disposed on an outer surface of the coupling interface. 9. The cluster connector of claim 7 , wherein the axial biasing element has a deflection force that is greater than a force required to mechanically engage the RF plug and a corresponding receiving interface to create an RF connection. 10. The cluster connector of claim 7 , wherein the axial biasing element is disposed within a cavity defined by the RF plug and the coupling interface. 11. The cluster connector of claim 10 , wherein the axial biasing element comprises an elastomer under compression.