Standard antenna interface connector assembly

What is claimed is: 1. A radiofrequency (RF) connector assembly comprising: a first connector housing including a first RF connector disposed within the first connector housing; a first latch plate, attached to the first connector housing, having first and second toggle mounts; a first toggle attached to the first toggle mount by a first pin inserted into an aperture in the first toggle mount, wherein the first toggle includes a first pivotable band; a second toggle attached to the second toggle mount by a second pin inserted into an aperture in the second toggle mount, wherein the second toggle includes a second pivotable band; a second connector housing including a second RF connector disposed within the second connector housing, wherein the second RF connector is configured to mate with the first RF connector; and a second latch plate attached to the second connector housing, the second latch plate including first and second tabs configured to be engaged by the first pivotable band and the second pivotable band, respectively, wherein each of the first and second pivotable bands is configured to pivot on one end of the respective first and second toggles, wherein each of the first and second pivotable bands are configured to engage a respective one of the first and second tabs of the second latch plate under tension to latch the first and second connector housings into engagement by rotating about an axis of the respective pin to a secure position, and wherein the first and second toggles are each configured to rotate more than 180°. 2. The RF connector assembly of claim 1 wherein the first and second pivotable bands are metal bands. 3. The RF connector assembly of claim 1 wherein one of the first and second connector housings is incorporated into an antenna and wherein the other of the first and second connector housings is incorporated into antenna mountable equipment. 4. The RF connector assembly of claim 1 wherein the first and second RF connectors comprise a capacitive connector. 5. The RF connector assembly of claim 4 further comprising a float plate disposed in at least one of the first and second connector housings such that the capacitive connector is movably disposed in the float plate. 6. The RF connector assembly of claim 5 wherein the float plate is mounted to a back side of an antenna. 7. The RF connector assembly of claim 5 further comprising a float assembly having a float gasket attached at least one of the first and second connector housings to allow the at least one of the first and second connector housings to move with respect to a surface on which the at least one of the first and second connector housings is mounted. 8. The RF connector assembly of claim 1 wherein the first and second RF connectors are blind-mate connectors. 9. The RF connector assembly of claim 8 wherein the blind-mate connectors are coaxial. 10. A system comprising: an antenna comprising a first connector housing, wherein the first connector housing includes a first radiofrequency (RF) connector disposed therein; antenna mounted equipment comprising a second connector housing, wherein the second connector housing includes a second RF connector disposed therein, wherein the second RF connector is configured to mate with the first RF connector; a first latch plate including first and second toggle mounts and attached to one of the first and second connector housings; first and second toggles respectively attached to the first and second toggle mounts by respective pins inserted into respective apertures in each toggle mount, each of the first and second toggles including a pivotable band; and a second latch plate attached to the other of the first and second connector housings, the second latch plate including first and second tabs configured to be engaged by the pivotable band of the first toggle and the pivotable band of the second toggle, wherein the pivotable bands are each configured to pivot on one end of the respective first and second toggles, wherein the pivotable bands are each configured to engage a respective on of the first and second tabs of the second latch plate under tension to latch the first and second connector housings into engagement by rotating about an axis of the respective pin to a secure position, and wherein the first and second toggles are each configured to rotate more than 180°. 11. The system of claim 10 , wherein each of the first and second RF connectors comprise a capacitive connector. 12. The system of claim 10 , wherein each of the first and second RF connectors comprise a blind-mate connector. 13. A method comprising: attaching a first latch plate to a first connector housing, wherein the first connector housing comprises a first capacitive radio frequency (RF) connector disposed therein, and wherein the first latch plate comprises first and second toggle mounts; and attaching a second latch plate to a second connector housing, wherein the second connector housing comprises a second capacitive RF connector disposed therein that is dimensioned to mate with the first RF connector and wherein the second latch plate includes first and second tabs that are dimensioned to be engaged by respective bands of first and second toggles that are attachable to the first and second toggle mounts, respectively, wherein at least one of the first and second connector housings includes a float plate disposed therein such that the capacitive RF connector disposed therein is movably disposed in the float plate. 14. The method of claim 13 , further comprising: attaching the first and second toggles to the first and second toggle mounts, respectively; and mating the first and second connector housings, wherein mating the first and second connector housings comprises engaging the first and second toggles with the first and second tabs, respectively. 15. The method of claim 14 , wherein attaching the first and second toggle to the first and second toggle mounts, respectively, comprises inserting a respective pin into an aperture in each of the first and second toggle mounts, and wherein engaging the first and second toggles with the first and second tabs, respectively, comprises rotating the first and second toggles about the respective pins.