Wide angle coverage antenna with parasitic elements

We claim: 1. An antenna device, comprising: a substrate; a transmission line supported on the substrate; and a plurality of conductive patches supported on the substrate, each conductive patch having a first end coupled to the transmission line and a second end coupled to ground, the plurality of conductive patches being arranged in sets including two of the conductive patches facing each other on opposite sides of the transmission line, the conductive patches respectively having a first width near the first end and a second width near the second end, wherein the second width is different than the first width and a radiating power of the conductive patches, respectively, is based on at least the first width. 2. The antenna device of claim 1 , wherein the conductive patches respectively have a distance between the first end and the second end; and an operating frequency of the antenna device is based on the distance. 3. The antenna device of claim 1 , wherein the first width of two of the conductive patches is different than the first width of two others of the conductive patches. 4. The antenna device of claim 3 , wherein the two of the conductive patches are closer to a first end of the transmission line; the two others of the conductive patches are closer to a second, opposite end of the transmission line; and the first end of the transmission line is coupled to a source of radiation. 5. The antenna device of claim 1 , wherein a radiating power of the conductive patches, respectively, is based on the second width. 6. The antenna device of claim 1 , wherein the conductive patches are situated on one side of the substrate; the substrate includes a grounding layer spaced from the one side of the substrate; and the conductive patches respectively include a plurality of conductive vias coupled to the grounding layer. 7. The antenna device of claim 1 , wherein a length between the second ends of the conductive patches in each set corresponds to ½ wavelength in the substrate of radiation radiated by the conductive patches. 8. The antenna device of claim 1 , comprising a conductive layer near the conductive patches; and a plurality of conductive vias coupled between the conductive layer and ground. 9. The antenna device of claim 8 , wherein the conductive layer comprises a plurality of parasitic conductive elements; and each of the parasitic conductive elements is coupled with one of the conductive vias. 10. The antenna device of claim 9 , wherein each conductive via is situated in a position relative to edges of a coupled one of the parasitic conductive elements; and the position of some of the vias is different than the position of others of the vias. 11. The antenna device of claim 10 , wherein the parasitic conductive elements coupled to the some of the vias are closer to the conductive patches than the parasitic conductive elements coupled to the others of the vias; and the respective position of the others of the vias is closer to a center of the respective coupled parasitic conductive elements than the position of the some of the vias. 12. The antenna device of claim 8 , wherein the conductive layer is coupled to the second ends of the conductive patches; and the conductive layer has a dimension parallel to the transmission line that is at least as long as the transmission line. 13. The antenna device of claim 8 , wherein the conductive patches are on one surface of the substrate; and the conductive layer is on the one surface of the substrate. 14. The antenna device of claim 8 , wherein the conductive layer comprises a continuous layer of conductive material. 15. The antenna device of claim 1 , wherein the transmission line comprises a differential twin line. 16. The antenna device of claim 1 , comprising a source of radiation that provides an unbalanced signal; and a transition coupling the source of radiation to the transmission line, the transition balancing the unbalanced signal before the signal propagates along the transmission line. 17. The antenna device of claim 16 , wherein the source of radiation comprises a substrate integrated waveguide; and the transition comprises a balun. 18. The antenna device of claim 1 , wherein the conductive patches each have a geometric configuration; and the geometric configuration of the two conductive patches in each set is the same.