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A super economical broadcast system and method are provided. The system includes a plurality of base transceiver stations that define a plurality of respective cells, each base transceiver station includes a phased-array antenna having a plurality of sectors, each sector has a plurality of verticall

A super economical broadcast system and method are provided. The system includes a plurality of base transceiver stations that define a plurality of respective cells, each base transceiver station includes a phased-array antenna having a plurality of sectors, each sector has a plurality of vertically-arranged antenna panels, and each antenna panel has a plurality of vertically-arranged radiators disposed in at least two staggered columns. The method includes forming a horizontally and vertically shaped beam using a plurality of vertically-arranged antenna panels, in which each antenna panel has a plurality of vertically-arranged radiators disposed in at least two staggered columns, and transmitting a power distribution that has an essentially uniform field strength over a near zone, a middle zone and at least a portion of a far zone.

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1. A cellular communication system, comprising: a plurality of base transceiver stations defining a plurality of respective cells, each base transceiver station including a phased-array antenna having a plurality of sectors, each sector having a plurality of vertically-arranged antenna panels, each

1. A cellular communication system, comprising: a plurality of base transceiver stations defining a plurality of respective cells, each base transceiver station including a phased-array antenna having a plurality of sectors, each sector having a plurality of vertically-arranged antenna panels, each antenna panel having a plurality of vertically-arranged radiators disposed in at least two staggered columns,wherein the vertical spacing between the radiators within each column is a predetermined value, and the vertical spacing between two adjacent radiators, one from each column, is one-half of the predetermined value. 2. The system of claim 1, wherein each column includes at least eight constantly-spaced, transverse quadrilateral crossed dipole radiators. 3. The system of claim 2, wherein the vertical spacing between the radiators within each column is approximately one wavelength. 4. The system of claim 3, wherein the vertical spacing between two adjacent radiators, one from each column, is approximately one-half wavelength. 5. The system of claim 4, wherein a line drawn between the center of two adjacent radiators, one from each column, forms about a 45 degree angle with respect to a centerline of the antenna panel. 6. The system of claim 2, wherein the plurality of sectors includes at least six sectors. 7. The system of claim 6, wherein each sector includes at least eight antenna panels. 8. The system of claim 7, wherein each sector forms a directional antenna beam having a horizontal beam width of approximately 7° to approximately 65°, and a vertical beam width of approximately 0.66° to approximately 2°. 9. The system of claim 8, wherein each sector forms a directional antenna beam having a horizontal beam width of approximately 30° to approximately 45°. 10. The system of claim 1, wherein the phased-array antenna broadcasts a signal that has a near zone field strength, a middle zone field strength and a far zone field strength, and wherein the near zone is located approximately 0 km to 1 km, the middle zone is located approximately 1 km to 5 km, and the far zone is located approximately 5 km to 30 km. 11. The system of claim 10, wherein the phased-array antenna near zone field strength is approximately 10 dB less than a conventional cellular antenna field strength, and the phased-array antenna far zone field strength is approximately 17 dB to 27 dB greater than the conventional cellular antenna field strength. 12. The system of claim 10, wherein each sector includes a passive feed system that distributes a predetermined signal power and a predetermined signal phase to and from each antenna panel. 13. The system of claim 10, wherein each antenna panel includes a passive feed system that distributes a predetermined signal power and a predetermined signal phase to and from each antenna radiator. 14. The system of claim 13, wherein the passive feed system is a stripline. 15. A method for broadcasting signals using a phased-array antenna, comprising: forming a horizontally and vertically shaped beam using a plurality of vertically-arranged antenna panels, each antenna panel having a plurality of vertically-arranged radiators disposed in at least two staggered columns; andtransmitting a power distribution that has an essentially uniform field strength over a near zone, a middle zone and at least a portion of a far zone,wherein the vertical spacing between the radiators within each column is a predetermined value, and the vertical spacing between two adjacent radiators, one from each column, is one-half of the predetermined value. 16. The method of claim 15, wherein the near zone is located approximately 0 km to 1 km, the middle zone is located approximately 1 km to 5 km, and the far zone is located approximately 5 km to 30 km. 17. The method of claim 16, wherein the near zone field strength is approximately 10 dB less than a conventional cellular antenna field strength, and the far zone field strength is approximately 17 dB to 27 dB greater than the conventional cellular antenna field strength. 18. The method of claim 15, wherein the horizontal beam width is approximately 7° to approximately 65°, and the vertical beam width is approximately 0.66° to approximately 2°. 19. The method of claim 15, wherein each column includes at least eight constantly-spaced, transverse quadrilateral crossed dipole radiators, wherein the vertical spacing between the radiators within each column is approximately one wavelength, and wherein the vertical spacing between two adjacent radiators, one from each column, is approximately one-half wavelength. 20. A system for broadcasting signals using a phased-array antenna, comprising: means for forming a horizontally and vertically shaped beam; andmeans for transmitting a power distribution that has an essentially uniform field strength over a near zone, a middle zone and at least a portion of a far zone that includes a plurality of vertically-arranged radiators disposed in at least two staggered columns,wherein the vertical spacing between the radiators within each column is a predetermined value, and the vertical spacing between two adjacent radiators, one from each column, is one-half of the predetermined value.