Shared transmit and receive aperture linear array

What is claimed is: 1. A transmit and receive shared-aperture array antenna system, comprising: a cylindrical reflector mechanically adjustable in a single, first dimension; an antenna, comprising: a planar substrate; a first row of a first plurality of transmit patches arranged on the planar substrate; a second row of a plurality of receive patches arranged on the planar substrate; and a third row of a second plurality of transmit patches arranged on the planar substrate, wherein: the first row, second row, and third row are parallel; the second row is between the first row and the third row; and a phase shifter connected with the antenna such that a beam pattern is electronically steerable in a second dimension perpendicular to the first dimension. 2. The transmit and receive shared-aperture array antenna system of claim 1 , wherein the antenna consists of a total of three rows, the three rows being the first row, the second row, and the third row. 3. The transmit and receive shared-aperture array antenna system of claim 1 , wherein a center point of a first receive patch is at a center point of a circle that passes through two adjacent transmit patches of the first plurality of transmit patches and two adjacent transmit patches of the second plurality of transmit patches. 4. The transmit and receive shared-aperture array antenna system of claim 1 , further comprising: a first plurality of feed points for the first plurality of transmit patches; a second plurality of feed points for the plurality of receive patches; and a third plurality of feed points for the second plurality of transmit patches are arranged such that the antenna transmits and receives circularly-polarized or dual-polarized signals. 5. The transmit and receive shared-aperture array antenna system of claim 1 , wherein an antenna beam is steerable in the second dimension by +/−30 degrees with less than a 3 dB loss. 6. A transmit and receive shared-aperture array antenna system, comprising: a reflector; and an antenna, comprising: a planar substrate; a first row of a first plurality of transmit patches arranged on the planar substrate; a second row of a plurality of receive patches arranged on the planar substrate; and a third row of a second plurality of transmit patches arranged on the planar substrate, wherein: the first row, second row, and third row are parallel; the second row is between the first row and the third row; and the plurality of receive patches are sized and positioned to optimally receive signals in K-band frequencies and the first plurality of transmit patches and the second plurality of transmit patches are sized and positioned to optimally transmit signals in Ka-band frequencies; and the first row and the third row use a sequential rotation feeding scheme and the second row uses a half sequential rotation feeding scheme. 7. A transmit and receive shared-aperture array antenna system, comprising: an antenna, comprising: a planar substrate; a first row of a first plurality of transmit patches arranged on the planar substrate; a second row of a plurality of receive patches arranged on the planar substrate, wherein the antenna includes eight receive elements or fewer; and a third row of a second plurality of transmit patches arranged on the planar substrate, wherein: the first row, second row, and third row are parallel; the second row is between the first row and the third row; a gain of the antenna with a cylindrical reflector is at least +20 dBi; and the antenna is incorporated as part of an IoT ground terminal that uses the antenna to communicate with a geosynchronous satellite. 8. The transmit and receive shared-aperture array antenna system of claim 7 , wherein the cylindrical reflector is mechanically adjustable in a first dimension. 9. The transmit and receive shared-aperture array antenna system of claim 8 , further comprising a phase shifter connected with the antenna such that a beam pattern is electronically steerable in a second dimension perpendicular to the first dimension. 10. The transmit and receive shared-aperture array antenna system of claim 7 , wherein the antenna consists of a total of three rows, the three rows being the first row, the second row, and the third row. 11. A transmit and receive shared-aperture array antenna system, comprising: a cylindrical reflector; an antenna, comprising: a planar substrate; a first row of a first plurality of transmit patches arranged on the planar substrate; a second row of a plurality of receive patches arranged on the planar substrate; and a third row of a second plurality of transmit patches arranged on the planar substrate, wherein: the first row, second row, and third row are parallel; the second row is between the first row and the third row; and the first row and third row use a sequential rotation feeding scheme; and a phase shifter connected with the antenna such that a beam pattern is electronically steerable in a first dimension by +/−30 degrees with less than a 3 dB loss. 12. The transmit and receive shared-aperture array antenna system of claim 11 , wherein the second row uses a half sequential rotation feeding scheme. 13. The transmit and receive shared-aperture array antenna system of claim 11 , wherein the cylindrical reflector is mechanically adjustable in a second dimension. 14. The transmit and receive shared-aperture array antenna system of claim 13 , wherein the beam pattern is electronically steerable in the first dimension perpendicular to the second dimension.