초록 ▼

An angle diversity antenna system utilizes a first antenna, a second antenna, and a panel combiner coupled to the first and second antenna. In a transmit mode, the first and second antenna are coupled to a transmit sum channel of the panel combiner. In a receive mode, either the sum channel or a di

An angle diversity antenna system utilizes a first antenna, a second antenna, and a panel combiner coupled to the first and second antenna. In a transmit mode, the first and second antenna are coupled to a transmit sum channel of the panel combiner. In a receive mode, either the sum channel or a difference channel of the panel combiner is chosen as the active channel. By monitoring the sum channel and difference channel, the antenna system according to the present invention is able to select the channel which supplies the greatest signal strength.

대표청구항 ▼

What is claimed is: 1. An antenna system comprising: a first antenna; a second antenna disposed above the first antenna in a vertical plane; and a combiner coupled to said first antenna and said second antenna that comprises a sum channel, wherein said first antenna and said second antenna are sepa

What is claimed is: 1. An antenna system comprising: a first antenna; a second antenna disposed above the first antenna in a vertical plane; and a combiner coupled to said first antenna and said second antenna that comprises a sum channel, wherein said first antenna and said second antenna are separated by a predetermined distance in the vertical plane such that the first antenna and the second antenna operating via said sum channel provide a maximum beamwidth of 2.2 degrees to a half-power point in elevation. 2. The antenna system according to claim 1, wherein a transmit signal is coupled to the sum channel of said combiner during a transmit mode. 3. The antenna system according to claim 2, wherein an elevation pattern having one main lobe is formed when the transmit signal is coupled to the sum channel of said combiner. 4. The antenna system according to claim 2, wherein, during the transmit mode, said combiner outputs a first signal to said first antenna and a second signal to said second antenna, the first signal and the second signal being in-phase with one another, wherein the first in-phase signal is output by said first antenna and the second in-phase signal is output by said second antenna, the signals output by said first antenna and said second antenna forming an elevation pattern having one main lobe. 5. The antenna system according to claim 2, wherein said combiner further comprises a difference channel. 6. The antenna system according to claim 5, further comprising a receiver, wherein, during a receive mode, said first and second antenna couple received signals to said combiner, wherein said receiver selects to receive signals on either the sum channel of said combiner or the difference channel of said combiner, the selection depending on whether the sum channel or the difference channel provides a stronger signal. 7. The antenna system according to claim 6, wherein an elevation pattern having one main lobe is produced if said receiver selects the sun-i channel during the receive mode. 8. The antenna system according to claim 7, wherein an elevation pattern having two main lobes is produced if said receiver selects the difference channel during the receive mode. 9. The antenna system according to claim 6, wherein said first and second antenna operating via the sum channel of said combiner provide a maximum beamwidth of 2.2 degrees to the half-power point in azimuth and elevation. 10. The antenna system according to claim 9, wherein the antenna system is capable of operating in a frequency range from approximately 5.925 GHz to 6.425 GHz. 11. The antenna system according to claim 6, wherein an elevation pattern having two main lobes is produced if said receiver selects the difference channel during the receive mode. 12. The antenna system according to claim 1, wherein said first antenna and said second antenna are flat panel antennas having an identical array of elements. 13. The antenna system according to claim 12, wherein said first and second antennas have a low-profile shape, thereby providing a reduced windload on said first and second antennas. 14. The antenna system according to claim 12, wherein each of said flat panel antennas comprises a 32횞8 element array. 15. The antenna system according to claim 1, wherein the maximum beamwidth of 2.2 degrees to the half-power point in elevation is occurs at a frequency range from approximately 5.925 GHz to 6.425 GHz.