Low-profile parasitically-coupled patch antenna

What is claimed is: 1. An antenna structure comprising: an inner conductor having at least one feed hole, the inner conductor forming a high-frequency patch; an outer conductor surrounding the inner conductor in a radial direction, the outer conductor forming a low-frequency patch; and one or more feeds each having: a vertical portion that extends vertically and passes through one of the at least one feed hole such that a first portion and a second portion of the vertical portion are respectively positioned vertically above and below the inner conductor at the one of the at least one feed hole; and a horizontal portion that extends in an outward direction from the at least one feed hole toward the outer conductor and is conductively connected to the outer conductor, wherein the horizontal portion of each of the one or more feeds is separated from and is conductively disconnected from a top surface of the inner conductor. 2. The antenna structure of claim 1 , further comprising: a ground plane disposed below the inner conductor and the outer conductor, wherein the ground plane is electrically conducting. 3. The antenna structure of claim 2 , further comprising: a dielectric layer disposed between the ground plane and the inner conductor, wherein the dielectric layer is electrically insulating. 4. The antenna structure of claim 3 , wherein the one or more feeds extend through the dielectric layer. 5. The antenna structure of claim 1 , wherein the outer conductor is vertically offset from the inner conductor. 6. The antenna structure of claim 5 , further comprising: a spacing layer disposed between the inner conductor and the outer conductor, wherein the spacing layer is electrically insulating. 7. The antenna structure of claim 1 , further comprising: a filter disposed along an outer edge of the outer conductor, the filter being configured to at least partially block electrical signals at an intermediate frequency band and to let pass electrical signals at a lower frequency band. 8. The antenna structure of claim 7 , wherein a magnitude of an impedance of the filter is greater at the intermediate frequency band than the magnitude of the impedance of the filter at each of the lower frequency band and an upper frequency band. 9. The antenna structure of claim 1 , wherein one or both of the inner conductor and the outer conductor is circular. 10. The antenna structure of claim 1 , wherein the one or more feeds are configured to carry radio waves at an upper frequency band received by the high-frequency patch and radio waves at a lower frequency band received by the low-frequency patch. 11. The antenna structure of claim 1 , wherein the horizontal portion of each of the one or more feeds is horizontally or vertically tapered in the outward direction. 12. A global navigation satellite system (GNSS) receiver comprising: an antenna configured to receive radio waves at global navigation satellite system (GNSS) frequencies, the antenna comprising: an inner conductor having at least one feed hole, the inner conductor forming a high-frequency patch; an outer conductor surrounding the inner conductor in a radial direction, the outer conductor forming a low-frequency patch; and one or more feeds each having: a vertical portion that extends vertically and passes through one of the at least one feed hole such that a first portion and a second portion of the vertical portion are respectively positioned vertically above and below the inner conductor at the one of the at least one feed hole; and a horizontal portion that extends in an outward direction from the at least one feed hole toward the outer conductor and is conductively connected to the outer conductor, wherein the horizontal portion of each of the one or more feeds is separated from and is conductively disconnected from a top surface of the inner conductor. 13. The GNSS receiver of claim 12 , wherein the antenna further comprises: a ground plane disposed below the inner conductor and the outer conductor, wherein the ground plane is electrically conducting. 14. The GNSS receiver of claim 13 , wherein the antenna further comprises: a dielectric layer disposed between the ground plane and the inner conductor, wherein the dielectric layer is electrically insulating. 15. The GNSS receiver of claim 12 , wherein the antenna further comprises: a filter disposed along an outer edge of the outer conductor, the filter being configured to at least partially block electrical signals at an intermediate frequency band and to let pass electrical signals at a lower frequency band. 16. The GNSS receiver of claim 12 , wherein the horizontal portion of each of the one or more feeds is horizontally or vertically tapered in the outward direction. 17. A method of receiving radio waves by an antenna structure, the method comprising: receiving, by a high-frequency patch of the antenna, radio waves at an upper frequency band, wherein the high-frequency patch is formed by an inner conductor having at least one feed hole; receiving, by a low-frequency patch of the antenna, radio waves at a lower frequency band, wherein the low-frequency patch is formed by an outer conductor surrounding the inner conductor in a radial direction; and carrying, using one or more feeds conductively connected to the outer conductor, the radio waves at the upper frequency band received by the high-frequency patch and the radio waves at the lower frequency band received by the low-frequency patch, wherein each of the one or more feeds has (i) a vertical portion that extends vertically and passes through one of the at least one feed hole such that a first portion and a second portion of the vertical portion are respectively positioned vertically above and below the inner conductor at the one of the at least one feed hole and (ii) a horizontal portion that extends in an outward direction from the at least one feed hole toward the outer conductor, wherein the horizontal portion of each of the one or more feeds is separated from and is conductively disconnected from a top surface of the inner conductor. 18. The method of claim 17 , wherein the antenna further comprises a ground plane disposed below the inner conductor and the outer conductor, wherein the ground plane is electrically conducting. 19. The method of claim 18 , wherein the antenna further comprises a dielectric layer disposed between the ground plane and the inner conductor, wherein the dielectric layer is electrically insulating. 20. The method of claim 17 , wherein the antenna further comprises a filter disposed along an outer edge of the outer conductor, the filter being configured to at least partially block electrical signals at an intermediate frequency band and to let pass electrical signals at a lower frequency band.