Switchable transmit and receive phased array antenna

What is claimed is: 1 . A method for converting a switchable transmit and receive phased array antenna (“STRPAA”) from a first elliptical polarization to a second elliptical polarization, wherein the STRPAA has a housing, a first multilayer printed wiring board (“MLPWB”) within the housing, a plurality of radiating elements attached to a first MLPWB top surface of the MLPWB within the housing, and a plurality of transmit and receive (“T/R”) modules attached to a first MLPWB bottom surface of the first MLPWB within the housing, wherein the first MLPWB is configured to produce a first elliptical polarization, the method comprising: detaching the radiating elements and T/R modules from the first MLPWB; removing the first MLPWB from the housing; inserting a second MLPWB into the housing, wherein the second MLPWB is configured to produce a second elliptical polarization; attaching the detached radiating elements to a second MLPWB top surface of the second MLPWB; and attaching the detached T/R modules to a second MLPWB bottom surface of the second MLPWB. 2 . The method of claim 1 , further including rotating each detached radiating element, of the radiating elements, by approximately 180 degrees in azimuth prior to attaching the detached radiating element to the second MLPWB top surface. 3 . The method of claim 2 , wherein the second MLPWB introduces a radiator feed additional line length to each re-attached radiating element of the plurality of radiating elements, wherein the radiator feed additional line length is longer than an original feed line length from the first MLPWB to each originally attached radiating element of the plurality of radiating elements. 4 . The method of claim 3 , wherein the first elliptical polarization is right-hand circular polarization (“RHCP”) and the second elliptical polarization is left-hand circular polarization (“LHCP”) or the first elliptical polarization is LHCP and the second elliptical polarization is RHCP. 5 . The method of claim 2 , further including replacing the housing with a second housing prior to placing the second MLPWB into the housing, wherein the housing is a first housing having the first MLPWB, plurality of radiating elements, and plurality of T/R modules, wherein placing the second MLPWB into the housing includes placing the second MLPWB within the second housing that is separate from the first housing, wherein the first housing includes a first pressure plate and a first honeycomb aperture plate having a plurality of channels, wherein the first pressure plate is configured to push the plurality of T/R modules against the first MLPWB bottom surface, wherein the plurality of radiating elements are configured to be placed approximately against the first honeycomb aperture plate, and wherein each radiating element of the plurality of radiating elements is located at a corresponding channel of the plurality of channels of the first honeycomb aperture, wherein the second housing includes a second pressure plate and a second honeycomb aperture plate having a plurality of channels, wherein the second pressure plate is configured to push the plurality of T/R modules against the second MLPWB bottom surface, wherein the plurality of radiating elements are configured to be placed approximately against the second honeycomb aperture plate, and wherein each radiating element of the plurality of radiating elements is located at a corresponding channel of the plurality of channels of the second honeycomb aperture, wherein the plurality of channels in the second honeycomb aperture are shifted to a new position with relation to an original position of the plurality of chancel in the first honeycomb aperture, and wherein the new position of the plurality of channels in the second honeycomb aperture is located such that a plurality of radiator feed points to the rotated plurality of radiating elements does not change with the second housing from a location of the plurality of radiator feed points to the originally attached and non-rotated radiator elements in the first housing. 6 . The method of claim 5 , wherein attaching the detached radiating elements to the second MLPWB top surface of the second MLPWB includes attaching the rotated radiating elements to the second MLPWB top surface of the second MLPWB and placing the plurality of rotated radiating elements approximately against the second honeycomb aperture plate, and wherein attaching the detached T/R modules to the second MLPWB bottom surface of the second MLPWB includes pressing the plurality of T/R modules against the second MLPWB bottom surface. 7 . The method of claim 6 , wherein the first elliptical polarization is right-hand circular polarization (“RHCP”) and the second elliptical polarization is left-hand circular polarization (“LHCP”) or the first elliptical polarization is LHCP and the second elliptical polarization is RHCP. 8 . A method for fabricating a switchable transmit and receive phased array antenna (“STRPAA”) with either a first elliptical polarization or a second elliptical polarization, wherein the STRPAA is fabricated from components that include a housing, a plurality of radiating elements, a plurality of transmit and receive (“T/R”) modules, a first multilayer printed wiring board (“MLPWB”), and a second MLPWB, wherein the first MLPWB is configured to produce the first elliptical polarization and the second MLPWB is configured to produce the second elliptical polarization, the method including: inserting into the housing either the first MLPWB to configure the STRPAA to produce the first elliptical polarization or the second MLPWB to configure the STRPAA to produce the second elliptical polarization; attaching the plurality of radiating elements either to a first MLPWB top surface of the first MLPWB if the first MLPWB is inserted in the housing, wherein the plurality of radiating elements are attached to the first MLPWB top surface at a predetermined azimuth position or to a second MLPWB top surface of the second MLPWB if the second MLPWB is inserted in the housing wherein attaching the plurality of radiating elements includes rotating each element of the plurality of radiating elements, by approximately 180 degrees in azimuth, from the predetermined azimuth position, prior to attaching the plurality of radiating elements to the second MLPWB top surface; and attaching the plurality of T/R modules either to a first MLPWB bottom surface of the first MLPWB if the first MLPWB is inserted in the housing or to a second MLPWB bottom surface of the second MLPWB if the second MLPWB is inserted in the housing. 9 . The method of claim 8 , wherein the first MLPWB introduces a first radiator feed line length to each attached radiating element of the plurality of radiating elements attached to the first MLPWB top surface, wherein the second MLPWB introduces a second radiator feed line length to each attached radiating element of the plurality of radiating elements attached to the second MLPWB top surface, and wherein the second radiator feed line length is longer than an the first feed line length. 10 . The method of claim 9 , wherein the first elliptical polarization is right-hand circular polarization (“RHCP”) and the second elliptical polarization is left-hand circular polarization (“LHCP”) or the first elliptical polarization is LHCP and the second elliptical polarization is RHCP. 11 . The method of claim 8 , wherein inserting into the housing the first MLPWB includes inserting the first MLPWB into a first housing that has a first honeycomb aperture plate that is configured to produce the first elliptical polarization,