System and method for a digitally beamformed phased array feed

What is claimed is: 1 . A method comprising: (a) receiving, from a digital software system interface via a system controller by memory of a multi-band software defined antenna array tile, for a respective coupled dipole antenna array element of a plurality of respective coupled dipole antenna array elements of the multi-band software defined antenna array tile: i. a respective mission center radio frequency; ii. a respective mission intermediate frequency; wherein each coupled dipole array antenna element of the plurality of respective coupled dipole antenna array elements includes a respective principal polarization component oriented in a first direction and a respective orthogonal polarization component oriented in a second direction; (b) receiving, from the digital software system interface via the system controller by the memory of the multi-band software defined antenna array tile, for a respective principal polarization component and a respective orthogonal polarization component of the respective coupled dipole antenna array element of the plurality of respective coupled dipole antenna array elements: i. a respective channel selection; ii. a respective weighting factor as part of an array of weighting factors; iii. a respective oscillating signal frequency; (c) storing, by the memory operatively connected to the system controller: i. the respective mission center radio frequency for the respective coupled dipole antenna array element; ii. the respective mission intermediate frequency for the respective coupled dipole antenna array element; iii. the respective channel selection for the respective principal polarization component and the respective orthogonal polarization component of the respective coupled dipole antenna array element; iv. each respective weighting factor of the array of weighting factors for the respective principal polarization component and the respective orthogonal polarization component of the respective coupled dipole antenna array element of the plurality of respective coupled dipole antenna array elements; and v. the respective oscillating signal frequency for the respective principal polarization component and the respective orthogonal polarization component of the respective coupled dipole antenna array element; (d) transporting, from the memory to a respective principal polarization frequency converter and a respective orthogonal polarization frequency converter: i. the respective mission center radio frequency for the respective coupled dipole antenna array element; ii. the respective mission intermediate frequency for the respective coupled dipole antenna array element; wherein the respective principal polarization frequency converter and the respective orthogonal polarization frequency converter are a part of a respective pair of frequency converters of a plurality of pairs of frequency converters of the multi-band software defined antenna array tile, wherein each pair of frequency converters of the plurality of pairs of frequency converters is operatively connected to a respective coupled dipole antenna array element, and wherein each pair of frequency converters of the plurality of pairs of frequency converters comprises the respective principal polarization frequency converter corresponding to a respective principal polarization component and the respective orthogonal polarization frequency converter corresponding to a respective orthogonal polarization component; (e) transporting, from the memory to a respective digital beamformer of a plurality of digital beamformers: i. the respective channel selection for the respective principal polarization component and the respective orthogonal polarization component of the respective coupled dipole antenna array element; ii. each respective weighting factor of the array of weighting factors for the respective principal polarization component and the respective orthogonal polarization component of the respective coupled dipole antenna array element of the plurality of respective coupled dipole antenna array elements; iii. the respective oscillating signal frequency for the respective principal polarization component and the respective orthogonal polarization component of the respective coupled dipole antenna array element, wherein each digital beamformer is operatively connected to one of the respective principal polarization frequency converter and the respective orthogonal polarization frequency converter; (f) receiving, by a first digital beamformer of the plurality of digital beamformers of the multi-band software defined antenna array tile, a first partial beam of a first beam of a plurality of beams from a digital software system interface via a data transport bus; (g) applying, by the first digital beamformer, a first weighting factor to first transmit digital data associated with the first partial beam of the first beam of the plurality of beams; (h) transmitting, by the first digital beamformer, the first transmit digital data to a first digital to analog converter; (i) converting, using the first digital to analog converter, the first transmit digital data from a digital signal to an analog signal having a first intermediate frequency, wherein the first intermediate frequency is associated with the respective mission intermediate frequency; (j) receiving, by a first principal polarization frequency converter of a first pair of frequency converters of the plurality of pairs of frequency converters of the multi-band software defined antenna array tile, respective first modulated signals associated with the first intermediate frequency from the first digital beamformer of the plurality of digital beamformers, (k) converting, by the first principal polarization frequency converter of the first pair of frequency converters, the respective first modulated signals associated with the first intermediate frequency into respective second modulated signals associated with a respective radio frequency, wherein the respective radio frequency is associated with the respective mission center radio frequency; (l) transmitting, from the first principal polarization frequency converter of the first pair of frequency converters, the respective second modulated signals associated with the respective radio frequency to a first coupled dipole array antenna element of the plurality of respective coupled dipole antenna array elements; and (m) transmitting, by the first coupled dipole array antenna element, the respective second modulated signals associated with the respective radio frequency. 2 . The method of claim 1 , wherein the plurality of respective coupled dipole antenna array elements are tightly coupled relative to a wavelength of operation. 3 . The method of claim 1 , wherein the plurality of respective coupled dipole antenna array elements are spaced at less than half a wavelength. 4 . The method of claim 1 , wherein the plurality of pairs of frequency converters further comprise thermoelectric coolers configured to actively manage thermally a system noise temperature and increase a system gain over temperature. 5 . The method of claim 4 , wherein the plurality of pairs of frequency converters further comprise a plurality of spatially distributed high power amplifiers so as to increase an effective isotropic radiated power. 6 . The method of claim 1 , wherein the first intermediate frequency is between 50 MHz and 1250 MHz. 7 . The method of claim 6 , wherein the respective radio frequency is between 900 MHz and 6000 MHz. 8 . The method of claim 6 , wherein the respective radio frequency is between 2000 MHz and 12000 MHz. 9 . The method of claim 6 , wherein the respective radio frequency is betwee