Planer antenna structure

Abstract

A planer antenna includes first and second planer helical antennas and a ground pattern. The first planer helical antenna has a first axial orientation and includes first and second helical conductive patterns on first and second surfaces of a supporting substrate. The second planer helical antenna has a second axial orientation and includes the first and second helical conductive patterns on the first and second surfaces of the supporting substrate. The ground pattern is on the second surface of the supporting substrate and provides a ground connection for the first and second planer helical antennas. The ground pattern is approximately centered at an intersection of the first and second axial orientations and the first and second planer helical antennas are off-center of the intersection of the first and second axial orientations.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING(S)

FIG. 1 is a schematic block diagram of a wireless communication system in accordance with the present invention;

FIG. 2 is a schematic block diagram of a wireless communication device in accordance with the present invention;

FIG. 3 is a schematic block diagram of another wireless communication device in accordance with the present invention;

FIG. 4 is a schematic block diagram of an embodiment of a transceiver front-end in accordance with the present invention;

FIGS. 5 and 6 are diagrams illustrating circular polarization in different directions in accordance with the present invention;

FIG. 7 is a schematic block diagram of an embodiment of a transmitter front-end in accordance with the present invention;

FIG. 8 is a schematic block diagram of another embodiment of a transmitter front-end in accordance with the present invention;

FIG. 9 is a schematic block diagram of another embodiment of a transceiver front-end in accordance with the present invention;

FIG. 10 is a schematic block diagram of yet another embodiment of a transmitter front-end in accordance with the present invention;

FIG. 11 is a schematic block diagram of yet another embodiment of a transceiver front-end in accordance with the present invention;

FIG. 12 is a diagram of an embodiment of an antenna structure in accordance with the present invention;

FIGS. 13 and 14 are diagrams of another embodiment of an antenna structure in accordance with the present invention;

FIGS. 15-16 are diagrams of yet another embodiment of an antenna structure in accordance with the present invention;

FIGS. 18 and 19 are diagrams of still another embodiment of an antenna structure in accordance with the present invention;

FIGS. 20 and 21 are diagrams of a further embodiment of an antenna structure in accordance with the present invention;

FIGS. 22 and 23 are diagrams of a still further embodiment of an antenna structure in accordance with the present invention;

FIGS. 24-26 are diagrams of yet a further embodiment of an antenna structure in accordance with the present invention; and

FIGS. 27 and 28 are diagrams of a different embodiment of an antenna structure in accordance with the present invention.

Claims

1. A planer antenna structure comprises: a first planer helical antenna having a first axial orientation, wherein the first planer helical antenna has a first helical conductive pattern on a first surface of a supporting substrate and a second helical conductive pattern on a second surface of the supporting substrate, wherein the first and second helical conductive patterns of the first planer helical antenna are interconnected;a second planer helical antenna having a second axial orientation, wherein the second planer helical antenna has the first helical conductive pattern on the first surface of the supporting substrate and the second helical conductive pattern on the second surface of the supporting substrate, wherein the first and second helical conductive patterns of the second planer helical antenna are interconnected; anda ground pattern on the second surface of the supporting substrate to provide a ground connection for the first and second planer helical antennas, wherein the ground pattern is approximately centered at an intersection of the first and second axial orientations and the first and second planer helical antennas are off-center of the intersection of the first and second axial orientations.

2. The planer antenna structure of claim 1, wherein the ground pattern comprises: a first geometric shape of a conductive material approximately centered at the intersection of the first and second axial orientations; anda radial wall of the conductive material, wherein the radial wall is electrically coupled to the first geometric shape of the conductive material and extends at least a length of the second helical conductive pattern of the first and second planer helical antennas along an axis that is between the first and second axial orientations.

3. The planer antenna structure of claim 2 further comprises: a corresponding image of the radial wall on the first surface of the supporting structure, wherein the corresponding image of the radial wall is of the conductive material and is electrically coupled to the ground pattern.

4. The planer antenna structure of claim 2, wherein the radial wall comprises at least one of: a first metal trace that is substantially parallel to the second surface; anda second metal trace that is substantially perpendicular to the second surface.

5. The planer antenna structure of claim 1 further comprises: a third planer helical antenna having a third axial orientation, wherein the third planer helical antenna has the first helical conductive pattern on the first surface of the supporting substrate and the second helical conductive pattern on the second surface of the supporting substrate, wherein the first and second helical conductive patterns of the third planer helical antenna are interconnected; anda fourth planer helical antenna having a fourth axial orientation, wherein the fourth planer helical antenna has the first helical conductive pattern on the first surface of the supporting substrate and the second helical conductive pattern on the second surface of the supporting substrate, wherein the first and second helical conductive patterns of the fourth planer helical antenna are interconnected, wherein the ground pattern is approximately centered at an intersection of the first, second, third, and fourth axial orientations and the first, second, third, and fourth planer helical antennas are off-center of the intersection of the first, second, third, and fourth axial orientations.

6. The planer antenna structure of claim 5, wherein the ground pattern comprises: a first geometric shape of a conductive material approximately centered at the intersection of the first, second, third, and fourth axial orientations; anda plurality of radial walls of the conductive material, wherein the plurality of radial walls is electrically coupled to the first geometric shape of the conductive material and each of the plurality of radial walls extends at least a length of the second helical conductive pattern of the first, second, third, and fourth planer helical antennas along a corresponding one of a plurality of axis that is between a pair of the first, second, third, and fourth axial orientations.

7. The planer antenna structure of claim 6 further comprises: a corresponding image of the plurality of radial walls on the first surface of the supporting structure, wherein the corresponding image of the plurality of radial walls is of the conductive material and is electrically coupled to the ground pattern.

8. A transmit and receive planer antenna structure comprises: a plurality of transmit planer antennas having a plurality of transmit axial orientations, wherein each of the plurality of transmit planer antennas is positioned in accordance with a corresponding one of the plurality of transmit axial orientations, wherein each of the plurality of transmit planer antennas has a conductive antenna pattern on a first surface on a supporting substrate; anda plurality of receive planer antennas having a plurality of receive axial orientations, wherein each of the plurality of receive planer antennas is positioned in accordance with a corresponding one of the plurality of receive axial orientations, wherein each of the plurality of receive planer antennas has the conductive antenna pattern on the first surface of the supporting substrate, and wherein the plurality of transmit axial orientations is interleaved with the plurality of receive axial orientations.

9. The transmit and receive planer antenna structure of claim 8 further comprises: a ground pattern on the second surface of the supporting substrate to provide a ground connection for the transmit and receive plurality of planer antennas, wherein the ground pattern is approximately centered at an intersection of the transmit and receive plurality of axial orientations and the transmit and receive plurality of planer antennas are off-center of the intersection of the transmit and receive plurality of axial orientations.

10. The transmit and receive planer antenna structure of claim 9 further comprises at least one of: a transmit hybrid circuit on the first surface of the supporting substrate, wherein the transmit hybrid circuit provides outbound radio frequency (RF) signals to the plurality of transmit planer antennas; anda receive hybrid circuit on the first surface of the supporting substrate, wherein the receive hybrid circuit receives inbound RF signals from the plurality of receive planer antennas.

11. The transmit and receive planer antenna structure of claim 10, wherein the transmit hybrid circuit comprises: a first module operably coupled to produce a first phase shifted transmit RF signal from a transmit RF signal;a second module operably coupled to produce a second phased shifted transmit RF signal from the transmit RF signal; anda third module operably coupled to produce a third phase shifted transmit RF signal from the first phase shifted transmit RF signal, wherein the transmit RF signal, the first phase shifted transmit RF signal, the second phase shifted transmit RF signal, and the third phase shifted transmit RF signal are provided as the outbound RF signals to the plurality of transmit planer antennas.

12. The transmit and receive planer antenna structure of claim 10, wherein the receive hybrid circuit comprises: a first module operably coupled to produce a first phase combined receive RF signal from a first phase shifted receive RF signal and a second phase shifted receive RF signal of the inbound RF signals;a second module operably coupled to produce a second phase combined receive RF signal from a third phase shifted receive RF signal and a fourth phase shifted receive RF signal of the inbound RF signals; anda third module operably coupled to produce a receive RF signal from the first and second phase combined receive RF signals.

13. The transmit and receive planer antenna structure of claim 8, wherein the conductive antenna pattern comprises: a first helical conductive pattern on the first surface of a supporting substrate; anda second helical conductive pattern on a second surface of the supporting substrate, wherein the first and second helical conductive patterns are interconnected.

14. A planer antenna structure comprises: a first planer antenna having a first axial orientation, wherein the first planer antenna has a conductive antenna pattern on a first surface of a supporting substrate; anda second planer antenna having a second axial orientation, wherein the second planer antenna has the conductive antenna pattern on the first surface of the supporting substrate.

15. The planer antenna structure of claim 14 further comprises: a ground pattern on a second surface of the supporting substrate to provide a ground connection for the first and second planer antennas, wherein the ground pattern is approximately centered at an intersection of the first and second axial orientations and the first and second planer antennas are off-center of the intersection of the first and second axial orientations.

16. The planer antenna structure of claim 15, wherein the ground pattern comprises: a first geometric shape of a conductive material approximately centered at the intersection of the first and second axial orientations; anda radial wall of the conductive material, wherein the radial wall is electrically coupled to the first geometric shape of the conductive material and extends at least a length of the conductive antenna pattern along an axis that is between the first and second axial orientations.

17. The planer antenna structure of claim 16 further comprises: a corresponding image of the radial wall on the first surface of the supporting structure, wherein the corresponding image of the radial wall is of the conductive material and is electrically coupled to the ground pattern.

18. The planer antenna structure of claim 15 further comprises: a third planer antenna having a third axial orientation, wherein the third planer antenna has the conductive antenna pattern on the first surface of the supporting substrate; anda fourth planer antenna having a fourth axial orientation, wherein the fourth planer antenna has the conductive antenna pattern on the first surface of the supporting, wherein the ground pattern is approximately centered at an intersection of the first, second, third, and fourth axial orientations and the first, second, third, and fourth planer antennas are off-center of the intersection of the first, second, third, and fourth axial orientations.

19. The planer antenna structure of claim 18, wherein the ground pattern comprises: a first geometric shape of a conductive material approximately centered at the intersection of the first, second, third, and fourth axial orientations; anda plurality of radial walls of the conductive material, wherein the plurality of radial walls is electrically coupled to the first geometric shape of the conductive material and each of the plurality of radial walls extends at least a length of the conductive antenna pattern along a corresponding one of a plurality of axis that is between a pair of the first, second, third, and fourth axial orientations.

20. The planer antenna structure of claim 19 further comprises: a corresponding image of the plurality of radial walls on the first surface of the supporting structure, wherein the corresponding image of the plurality of radial walls is of the conductive material and is electrically coupled to the ground pattern.