Antenna backplane with reduced crosstalk and method for making same

What is claimed is: 1. An antenna backplane comprising: a printed circuit board (PCB) including a first differential pair having a first conductor and a second conductor and a second differential pair having a third conductor and a fourth conductor, wherein the first conductor is positioned a first distance from the second differential pair, the second conductor is positioned a second distance from the second differential pair, where the first distance is greater than the second distance, the third conductor is positioned the second distance from the first differential pair, and the fourth conductor is positioned a third distance from the first differential pair, where the third distance is greater than the second distance; and a phase-shifting series resonant circuit coupled between the first conductor and the fourth conductor, said phase-shifting series resonant circuit providing approximately an odd-integer multiple of a 180 degree phase shift at a predetermined frequency. 2. The antenna backplane of claim 1 , wherein the phase-shifting series resonant circuit operates at a resonant frequency and the predetermined frequency is approximately the resonant frequency. 3. The antenna backplane of claim 1 , wherein the odd-integer multiple is one. 4. The antenna backplane of claim 1 , wherein the PCB includes a first side and the phase-shifting series resonant circuit includes a fifth conductor connected to the first conductor, said fifth conductor having a first length, and a sixth conductor connected to the fourth conductor, said sixth conductor having a second length and being parallel to the fifth conductor to provide an overlap distance, and wherein the first, second, third, fourth, fifth and sixth conductors are on the first side of the PCB and the first length and the second length provide the approximately odd-integer multiple of the 180 degree phase shift. 5. The antenna backplane of claim 4 , wherein the PCB includes a second side having a conductive ground plane. 6. The antenna backplane of claim 1 , wherein the phase-shifting series resonant circuit includes a fifth conductor coupled to the first conductor, said fifth conductor having a first length, and a sixth conductor coupled to the fourth conductor, said sixth conductor having a second length and being parallel to the fifth conductor to provide an overlap distance, and wherein the first length and the second length provide the approximately odd-integer multiple of the 180 degree phase shift. 7. The antenna backplane of claim 6 , wherein the PCB has a first side, the fifth conductor and the sixth conductor are both on the first side of the PCB, and an edge of the sixth conductor is parallel to an edge of the fifth conductor for the overlap distance. 8. The antenna backplane of claim 6 , wherein the PCB has a dielectric layer interposed between at least a part of the fifth conductor and a part of the sixth conductor, and wherein a face of the sixth conductor is parallel to a face of the fifth conductor for the overlap distance. 9. The antenna backplane of claim 6 , wherein at least one of the fifth conductor or the sixth conductor meanders. 10. The antenna backplane of claim 1 , wherein the PCB is a multilayer PCB, and wherein the phase-shifting series resonant circuit includes a fifth conductor coupled to the first conductor, said fifth conductor having a first length and being on one layer of the multilayer PCB, and a sixth conductor coupled to the fourth conductor, said sixth conductor having a second length and being on another layer of the multilayer PCB, a face of the sixth conductor is parallel to a face of the fifth conductor and defines an overlap distance, and wherein the first length and the second length provide the approximately odd-integer multiple of the 180 degree phase shift. 11. An antenna backplane comprising: a printed circuit board (PCB) including a first side and a second side, said second side having a ground plane thereon; a first differential pair provided on the first side of the PCB, said first differential pair including a first conductor and a second conductor; a second differential pair provided on the first side of the PCB, said second differential pair including a third conductor and a fourth conductor, wherein the first conductor is a first distance from the second differential pair, the second conductor is a second distance from the second differential pair, where the first distance is greater than the second distance, the third conductor is the second distance from the first differential pair, and the fourth conductor is a third distance from the first differential pair, where the third distance is greater than the second distance; a fifth conductor coupled to the first conductor, said fifth conductor having a first length and being on the first side of the PCB; and a sixth conductor coupled to the fourth conductor, said sixth conductor having a second length, and being on the first side of the PCB, wherein an edge of the fifth conductor is parallel to an edge of the sixth conductor to provide an overlap distance, and the fifth conductor and the sixth conductor form a phase-shifting series resonant circuit, said phase-shifting series resonant circuit providing approximately an odd-integer multiple of a 180 degree phase shift at a desired frequency. 12. The antenna backplane of claim 11 , wherein the phase-shifting series resonant circuit exhibits a resonant frequency and the desired frequency is approximately the resonant frequency. 13. The antenna backplane of claim 11 , wherein the odd-integer multiple is one. 14. The antenna backplane of claim 11 , wherein at least one of the fifth conductor or the sixth conductor meanders. 15. An antenna backplane comprising: a printed circuit board (PCB) having a first side; a first differential pair provided on the first side of the PCB, said first differential pair including a first conductor and a second conductor; a second differential pair provided on the first side of the PCB, said second differential pair including a third conductor and a fourth conductor, wherein the first conductor is a first distance from the second differential pair, the second conductor is a second distance from the second differential pair, where the first distance is greater than the second distance, the third conductor is the second distance from the first differential pair, and the fourth conductor is a third distance from the first differential pair, where the third distance is greater than the second distance; a fifth conductor coupled to the first conductor, said fifth conductor having a first length, and being on the first side of the PCB; and a sixth conductor coupled to the fourth conductor, said sixth conductor having a second length, and being on the first side of the PCB, wherein a face of the fifth conductor is parallel to a face of the sixth conductor for an overlap distance and the fifth conductor and the sixth conductor form a phase-shifting series resonant circuit that provides an approximately 180 degree phase shift at a desired frequency. 16. The antenna backplane of claim 15 , wherein the phase-shifting series resonant circuit exhibits a resonant frequency and the desired frequency is approximately the resonant frequency. 17. The antenna backplane of claim 15 , wherein the odd-integer multiple is one. 18. The antenna backplane of claim 15 , wherein at least one of the fifth conductor or the sixth conductor meanders. 19. The antenna backplane of claim 15 , wherein the PCB has a second side, the second side