Multiplexer and combiner structures embedded in a mmwave connector interface

What is claimed is: 1 . A mm-wave waveguide connector, comprising: a first mm-wave launcher portion; a first ridge based mm-wave filter portion communicatively coupled to the first mm-wave launcher portion, wherein the ridge based mm-wave filter portion includes a plurality of protrusions that define one or more resonant cavities, wherein a first one of the plurality of protrusions has a first height, and a second one of the plurality of protrusions has a second height different than the first height; and a multiplexer portion communicatively coupled to the first ridge based mm-wave filter portion. 2 . The mm-wave waveguide connector of claim 1 , wherein the multiplexer portion is communicatively coupled to one or more additional ridge based mm-wave filter portions and one or more additional mm-wave launcher portions. 3 . The mm-wave waveguide connector of claim 2 , wherein the first mm-wave launcher portion and the first ridge based mm-wave filter portion are formed on a first surface of a package substrate and at least one of the one or more additional ridge based mm-wave filter portions and at least one of the one or more additional mm-wave launcher portions are formed on a second surface of the package substrate. 4 . The mm-wave waveguide connector of claim 2 , wherein the first mm-wave launcher portion and the first ridge based mm-wave filter portion are formed on a first surface of a package substrate and at least one of the one or more additional ridge based mm-wave filter portions and at least one of the one or more additional mm-wave launcher portions are formed on the first surface of the package substrate. 5 . The mm-wave waveguide connector of claim 1 wherein the first ridge based mm-wave filter portion includes a third order bandpass filter or greater. 6 . The mm-wave waveguide connector of claim 5 , wherein the first ridge based mm-wave filter portion provides a signal roll-off of 20 dBs in 3 GHz or less. 7 . The mm-wave waveguide connector of claim 5 , wherein the first ridge based mm-wave filter portion provides a signal roll-off of 20 dBs in 1 GHz or less. 8 . The mm-wave waveguide connector of claim 1 , wherein the plurality of protrusions define resonant cavities with openings between 0.5 mm and 2.0 mm. 9 . The mm-wave waveguide connector of claim 1 , wherein the plurality of protrusions have a thickness between 200 μm and 1,000 μm. 10 . The mm-wave waveguide connector of claim 1 , wherein one or more of the mm-wave launcher portion, the ridge based filter portion, and the multiplexer portion are coupled to each other with a fitting. 11 . The mm-wave waveguide connector of claim 1 , wherein the mm-wave launcher portion, the ridge based filter portion, and the multiplexer portion are integrated together as a single component. 12 . The mm-wave waveguide connector of claim 11 , wherein the mm-wave waveguide connector is an edge connector that connects to an edge of a package substrate. 13 . The mm-wave waveguide connector of claim 12 , wherein the package substrate includes mechanical stops and/or alignment features. 14 . A ridge based bandpass filter, comprising: a conductive enclosure; and a plurality of resonator cavities formed within the conductive enclosure that are communicatively coupled to each other by openings, wherein a plurality of protrusions extending from the conductive enclosure define the plurality of resonator cavities, wherein a first one of the plurality of protrusions has a first height, and a second one of the plurality of protrusions has a second height different than the first height. 15 . The ridge based bandpass filter of claim 14 , further comprising: a dielectric material filling the conductive enclosure. 16 . The ridge based bandpass filter of claim 14 , wherein the openings between each resonator cavity are not all uniform. 17 . The ridge based bandpass filter of claim 14 , wherein the plurality of protrusions do not have a substantially uniform spacing. 18 . The ridge based bandpass filter of claim 14 , wherein the plurality of resonant cavities includes three or more resonant cavities. 19 . The ridge based bandpass filter of claim 18 , wherein the ridge based bandpass filter provides a signal roll-off of 20 dBs in 3 GHz or less. 20 . The ridge based bandpass filter of claim 19 , wherein the plurality of protrusions define resonant cavities with openings between 0.5 mm and 2.0 mm, and wherein the plurality of protrusions have a thickness between 200 μm and 1,000 μm.