Crossed dipole with enhanced gain at low elevation

The invention claimed is: 1. An antenna system comprising: a printed circuit board; at least one driven radiator element disposed above the printed circuit board; at least one coupling device having a step feature in at least one of width and diameter, a smaller of the at least one of the width and diameter of the at least one coupling device received in at least one of a via and slot in the printed circuit board, the at least one coupling device being oriented nominally orthogonal to a plane of the printed circuit board; at least one solder joint coupling the at least one coupling device to the printed circuit board; and at least one ground plane layer electrically connected to the at least one coupling device by at least one of the solder joint and the at least one of a via and a slot. 2. The antenna system of claim 1 , wherein the antenna system is circularly polarized. 3. The antenna system of claim 1 , wherein the at least one driven radiator element is at least one a crossed-dipole element. 4. The antenna system of claim 3 , wherein the at least one crossed-dipole element has four active arms and four passive arms. 5. The antenna system of claim 1 , wherein the at least one coupling device has one of a nominally circular cross-section and a rectangular cross section. 6. The antenna system of claim 1 , wherein the at least one coupling device is conductive. 7. The antenna system of claim 6 , wherein an electrical length of the at least one coupling device is less than 0.4 wavelengths and selected such that vertically polarized radiation towards a horizon is enhanced. 8. The antenna system of claim 1 , wherein the at least one coupling device is formed from a printed circuit board having conductive features. 9. The antenna system of claim 1 , further comprising: displacer material, the at least one coupling device positioned in a cavity of the displacer material, a first end of the at least one coupling device coupled to the printed circuit board and a second end of the coupling device secured to the displacer material. 10. The antenna system of claim 1 , wherein: the at least one driven radiator element is a plurality of crossed-dipole elements; and the at least one coupling device is a plurality of the coupling devices, further wherein the plurality of the coupling devices are one of symmetrically positioned in relation to the plurality of cross-dipole elements and asymmetrically positioned in relation to the plurality of cross-dipole elements. 11. An antenna system with enhance gain at low elevations, the antenna system comprising: at least one driven radiator element coupled to a printed circuit board; at least one coupling device associated with each driven radiator element, each coupling device including a first end and a second end, the first end coupled to at least one ground layer through a connecting passage of the printed circuit board; and displacer material, the at least one coupling device received with a cavity of the displacer material, the second end of the coupling device attached to the displacer material. 12. The antenna system of claim 11 , further comprising: an adhesive used to attached the second end of the at least one coupling device to the displacer material. 13. The antenna system of claim 11 , wherein the second end of the at least one coupling device has a point that is received in a ceiling of the cavity to the displacer material to attach the second end of the at least one coupling device to the displacer material. 14. The antenna system of claim 11 , wherein the displacer material is a foam air displacer material. 15. The antenna system of claim 11 , wherein the at least one coupling device is a made from a conductive material. 16. The antenna system of claim 11 , wherein the at least one coupling device further comprises: a base post of laminate material; and a conductive trace, the conductive trace electrically coupled to the at least one ground layer. 17. The antenna system of claim 11 , wherein the at least one coupling device includes a step feature that reduces a size of the first end of the at least one coupling device to allow the first end to be received within the connecting passage of the printed circuit board while a ledge formed by the step feature engages a connecting pad of the printed circuit board. 18. An antenna system with enhance gain at low elevations, the antenna system comprising: a plurality of cross-dipole elements forming an array of radiating elements coupled to a printed circuit board; a plurality of coupling devices associated with each cross-dipole element, each coupling device having a first end and a second end, each coupling device further having a step feature in at least one of width and diameter, a smaller of the at least one of the width and diameter proximate the first end of each coupling device is received in a connection passage in the printed circuit board; at least one solder joint coupling each coupling device to a connection pad associated with a connection passage of the printed circuit board; and displacer material, the at least one coupling device received within a cavity of the displacer material, the second end of each coupling device attached to the displacer material. 19. The antenna system of claim 18 , further comprising: an adhesive used to attach the second end of each coupling device to the displacer material. 20. The antenna system of claim 18 , wherein the second end of the at least one coupling device has a point that is received in a ceiling of the cavity to the displacer material to attach the second end of each coupling device to the dispenser material.