A quick disconnect assembly 200 simply and quickly connects two components to one another with the high degree of accuracy while eliminating small, losable parts. The quick disconnect assembly includes a receiver 202 and a fork 206. The receiver is attached to a first fitting 204 on a first component 132. A fork end brace 205 extends out from the receiver to provide an attachment flange for the fork. The second component 137 has a second fitting 208 that is correspondingly shaped to mate against the first fitting and to house within the receiver. The fork is attached via a lanyard to the second fitting. The fork includes a securement knob 210 having threadings 207 that projects through the base of the fork. Rotation of the knob advances or retracts the threadings. The legs of the fork contain protrusions 212 and 214 are correspondingly shaped to mate with depressions 216 and 218 in the receiver. In order to connect the second component to the first component, the second fitting of the second component is inserted into the receiver and against the first fitting of the first component. The fork is then lowered over the receiver until the ends of the fork seat under the fork end brace. The fork is rotated about the end brace until the fork leg protrusions seat within the receiver depressions, and the fork is substantially flush against the receiver. The securement knob is then hand tightened, causing the threadings to secure into a correspondingly threaded aperture in the receiver to complete the installation.

A waveguide connector for connecting an elliptical waveguide to a rectangular waveguide includes an elliptical-waveguide-receiving portion adapted to receive an end portion of an elliptical waveguide. The waveguide connector also includes a rectangular-waveguide-connecting portion adapted to connect to an end portion of a rectangular waveguide. After the end portion of the elliptical waveguide has been received in the elliptical-waveguide-receiving portion of the waveguide connector, the elliptical waveguide and the waveguide connector are soldered together. The rectangular-waveguide-connecting portion of the waveguide connector includes a flange with attachment points therein. The rectangular-waveguide-connecting portion of the waveguide connector is attached to a rectangular waveguide through the attachment points via screws, bolts, or the like. One embodiment of the waveguide connector includes unitary construction wherein a stepped transformer having transition sections is formed therewith.

A waveguide quick disconnect clamp includes a first arm and a second arm, both arms having a first end, a second end, and a jaw pivotally connected to the second end. Each of the first and second arm jaws has a generally flat engaging face defining two generally parallel elongated sections and a waveguide receiving recess therebetween. The second arm second end is pivotally connected to the first arm at a position intermediate the first arm first and second ends, and a threaded nut is pivotally connected to the first arm first end. The waveguide quick disconnect clamp also has an adjustment screw having a first end, a second end, and a threaded portion therebetween. The adjustment screw first end pivotally engages the second arm at a point intermediate the second arm first and second ends, and the threaded portion of the screw engages the threaded nut.