Dual-polarized filtering antenna with high selectivity and low cross polarization

What claimed is: 1. A dual-polarized filtering antenna comprising a driven patch, a parasitic stacked patch and a feeding network, wherein the parasitic stacked patch is fabricated on a top face of a first substrate, the driven patch and the feeding network are fabricated on top and bottom faces of a second substrate, respectively; wherein the feeding network comprises a first H-shaped feeding line and a second H-shaped feeding line which are orthogonal, wherein the parasitic stacked patch and the driven patch are excited by the first H-shaped feeding line and the second H-shaped feeding line, each for one polarization. 2. The dual-polarized filtering antenna according to claim 1 , wherein, a radiation null in a lower band is realized by the first H-shaped feeding line and the second H-shaped feeding line, and another radiation null in an upper band is obtained by the stacked patch. 3. The dual-polarized filtering antenna according to claim 2 , wherein, without extra filtering circuit, good bandpass filtering response in a gain curve is obtained by two radiation nulls realized by the first H-shaped feeding line and the second H-shaped feeding line and by the stacked patch, respectively. 4. The dual-polarized filtering antenna according to claim 2 , wherein, a frequency of the radiation null generated by the first H-shaped feeding line and the second H-shaped feeding line is controlled by adjusting a size of the first H-shaped feeding line and the second H-shaped feeding line. 5. The dual-polarized filtering antenna according to claim 2 , wherein, an equivalent length of the H-shape feeding line is about half of a wavelength at a frequency of the radiation null in the lower band. 6. The dual-polarized filtering antenna according to claim 2 , wherein, a frequency of the radiation null generated by the stacked patch is controlled by adjusting a size of the stacked patch. 7. The dual-polarized filtering antenna according to claim 2 , wherein, the first H-shaped feeding line and the second H-shaped feeding line are designed as a stepped-impedance line with different widths for better impedance matching. 8. The dual-polarized filtering antenna according to claim 1 , wherein, a structure of this dual-polarized filtering antenna is designed symmetrically, a better cross-polarization is obtained. 9. The dual-polarized filtering antenna according to claim 1 , wherein, an air gap is introduced between the first and second substrates for enhancing antenna bandwidth and gain. 10. The dual-polarized filtering antenna according to claim 7 , wherein, a first probe and a second probe of the first H-shaped feeding line and the second H-shaped feeding line are fed by an inner conductor of SMA connectors at a distance from a center of the first H-shaped feeding line, and a distance from the center of the second H-shaped feeding line, respectively. 11. The dual-polarized filtering antenna according to claim 10 , wherein the impedance matching is adjusted by changing the distance between the center of the first H-shaped feeding line and the first probe, and the distance between the center of the second H-shaped feeding line and the second probe. 12. The dual-polarized filtering antenna according to claim 11 , wherein, the center part of the second H-shaped feeding line for the second probe is set on the top face of the second substrate, and connected remaining parts of the second H-shaped feeding line via two metallic via holes, the remaining parts of the second H-shaped feeding line is on the bottom face of the second substrate. 13. The dual-polarized filtering antenna according to claim 12 , wherein, a ring slot is etched to separate the center part of the second H-shaped feeding line and the driven patch. 14. A dual-polarized filtering antenna comprising a driven patch, a parasitic stacked patch and a feeding network, wherein the parasitic stacked patch is fabricated on a top face of a first substrate, the driven patch and the feeding network are fabricated on top and bottom faces of a second substrate, respectively, an air gap is introduced between the first and second substrates for enhancing antenna bandwidth and gain, the feeding network comprises a first H-shaped transmission line and a second H-shaped transmission line which are orthogonal, wherein the parasitic stacked patch and the driven patch are excited by the first H-shaped transmission line and the second H-shaped transmission line, each for one polarization; wherein the first H-shaped transmission line and the second H-shaped transmission line are designed as a stepped-impedance line with different widths for better impedance matching, a center part of the second H-shaped transmission line for the second probe is set on a top face of the second substrate, and connected remaining parts of the second H-shaped transmission line via two metallic via holes, the remaining parts of the second H-shaped transmission line is on the bottom face of the second substrate; a square ground plane with a size of one wavelength is used for directional radiation of the dual-polarized filtering antenna. 15. The dual-polarized filtering antenna according to claim 14 , wherein, a ring slot is etched to separate the center part of the second H-shaped feeding line and the driven patch. 16. The dual-polarized filtering antenna according to claim 15 , wherein, a first probe and a second probe of the first H-shaped transmission line and the second H-shaped transmission line are fed by an inner conductor of SMA connectors at a distance from a center of the first H-shaped feeding line, and a distance from the center of the second H-shaped feeding line, respectively. 17. A dual-polarized filtering antenna comprising a driven patch, a parasitic stacked patch and a feeding network, wherein the parasitic stacked patch is fabricated on a top face of a first substrate, the driven patch and the feeding network are fabricated on top and bottom faces of a second substrate, respectively; an air gap is introduced between the first and second substrates for enhancing antenna bandwidth and gain; the feeding network comprises a first H-shaped feeding line and a second H-shaped feeding line which are orthogonal, wherein the parasitic stacked patch and the driven patch are excited by the first H-shaped feeding line and the second H-shaped feeding line, each for one polarization, wherein the first H-shaped feeding line and the second H-shaped feeding line are designed as a stepped-impedance line with different widths for better impedance matching, a center part of the second H-shaped feeding line for the second probe is set on a top face of the second substrate, and connected remaining parts of the second H-shaped feeding line via two metallic via holes. 18. The dual-polarized filtering antenna according to claim 17 , wherein, a ring slot is etched to separate the center part of the second H-shaped feeding line and the driven patch. 19. The dual-polarized filtering antenna according to claim 18 , wherein a first probe and a second probe of the first H-shaped transmission line and the second H-shaped transmission line are fed by an inner conductor of SMA connectors at a distance from a center of the first H-shaped feeding line, and a distance from the center of the second H-shaped feeding line, respectively.