Omnidirectional broadband antennas

What is claimed is: 1. An omnidirectional broadband antenna comprising: a ground element; an antenna element electrically isolated from the ground element, the antenna element having at least one portion that is substantially conical, that has a substantially hexagonal pyramidal shape, or that tapers in a longitudinal direction; and an annular patch element electrically grounded to the ground element, the annular patch element surrounding at least a portion of the antenna element and parasitically coupled to the antenna element; wherein the antenna is vertically polarized and operable at frequencies between about 380 MHz and about 6000 MHz with a voltage standing wave ratio (VSWR) less than or equal to about three to one (3:1), whereby the annular patch antenna element is configured to be operable as a λ/4 wave trap for an operating frequency band of 400 MHz to thereby broaden bandwidth. 2. The antenna of claim 1 , wherein: the annular patch element is configured to radiate a vertically polarized wave omnidirectionally in the azimuth plane in a first lower frequency band from 380 to 520 MHz, such that the directional gain of the antenna is substantial in the azimuth plane, and such that there is an omnidirectional radiation pattern emanating from the antenna element at a second higher frequency band from 700 to 6000 MHz; and the annular patch element comprises a symmetrical ring around the antenna element that makes the electrical fields be uniform and of about equal strength for all angles in the azimuth plane for an entire operating band of the antenna from 380 MHz to 6000 MHz. 3. The antenna of claim 1 , wherein the annular patch element is an electrically-conductive ring having an opening in which is positioned the at least a portion of the antenna element. 4. The antenna of claim 1 , wherein: the antenna element has a conical, exponentially tapered form; and the antenna element has sides that are outwardly curved or convex sides such that a separation of the sides increases as an exponential function of length. 5. The antenna of claim 1 , wherein the entire antenna element has a cone shape. 6. The antenna of claim 1 , wherein the at least one portion of the antenna element conically widens in a longitudinal direction. 7. The antenna of claim 1 , wherein the at least one portion of the antenna element has a cone shape. 8. The antenna of claim 1 , wherein the at least one portion of the antenna element has a substantially hexagonal pyramidal shape. 9. The antenna of claim 1 , wherein the at least one portion of the antenna element has sides that taper in the longitudinal direction to a point. 10. The antenna of claim 1 , wherein the at least one portion of the antenna element is conical, and the antenna element includes another portion that is frustoconical. 11. The antenna of claim 1 , wherein the at least one portion of the antenna element is conical, and the antenna element includes another portion that is cylindrical. 12. The antenna of claim 1 , wherein the at least one portion of the antenna element has a hexagonal pyramidal shape, and the antenna element includes another portion that has a hexagonal shape. 13. The antenna of claim 1 , wherein the entire antenna element has a cone shape that conically widens in a longitudinal direction, the antenna element having a circular base and sides that conically taper in an opposite longitudinal direction from the circular base to a point. 14. The antenna of claim 1 , further comprising an antenna element holder connected to the ground element, the antenna element holder operable for holding the antenna element in place such that that antenna element is electrically isolated from the ground element. 15. The antenna of claim 1 , wherein: the antenna further comprises a coaxial plug element having an inner conductor and an outer conductor; the ground element has an opening; the outer conductor is electrically coupled to the ground element; and the inner conductor passes through the opening and is electrically coupled to the antenna element. 16. The antenna of claim 1 , further comprising a radome coupled to the ground element, wherein the antenna element and annular patch element are within an internal space cooperatively defined between the radome and the ground element, and wherein the radome includes a closed, circular end cap portion and an open, circular base portion corresponding to a circular shape of the ground element. 17. The antenna of claim 1 , further comprising one or more grounding pins mechanically fastened to the annular patch element and extending between the annular patch element and the ground element for electrically grounding the annular patch element to the ground element. 18. The antenna of claim 1 , further comprising: one or more electrically-conductive grounding pins extending between the annular patch element and the ground element for electrically grounding the annular patch element to the ground element; and one or more dielectric support pins extending between the annular patch element and the ground element for supporting the annular patch element such that the annular patch element is spaced apart from and generally parallel to the ground element. 19. A distributed antenna system including the antenna of claim 1 , wherein the antenna is operable with: a VSWR of less than or equal to about three to one (3:1) when operating in a frequency range between about 380 MHz and about 520 MHz; a VSWR of less than or equal to about two to one (2:1) when operating in a frequency range between about 698 MHz and about 960 MHz; and a VSWR of less than or equal to about 1.8 to one (1.8:1) when operating in a frequency range between about 1710 MHz and about 6000 MHz. 20. An omnidirectional broadband antenna comprising: a ground element; an antenna element electrically isolated from the ground element, the antenna element having at least one portion that is substantially conical, that has a substantially hexagonal pyramidal shape, or that tapers in a longitudinal direction; and an annular patch element electrically grounded to the ground element, the annular patch element surrounding at least a portion of the antenna element and parasitically coupled to the antenna element, wherein: the antenna is configured for mounting to a ceiling inside of a building; and the antenna is vertically polarized and operable at a range of operating frequencies between about 380 MHz and about 6000 MHz with a voltage standing wave ratio (VSWR) less than three to one (3:1), whereby the annular patch antenna element is configured to be operable as a λ/4 wave trap for an operating frequency band of 400 MHz to thereby broaden bandwidth.