Feeding matching apparatus of multiband antenna, multiband antenna, and radio communication device

What is claimed is: 1. A multiband antenna, comprising: a first radiating portion and a second radiating portion, wherein a length of the first radiating portion is different from a length of the second radiating portion; a grounding portion; a feeding portion coupled to the two radiating portions, wherein each radiating portion is configured to transmit a signal to the feeding portion and receive a signal transmitted from the feeding portion; a first ground cable branch, wherein one end of the first ground cable branch is electrically coupled to the feeding portion, the other end of the first ground cable branch is electrically coupled to the grounding portion, wherein the first ground cable branch is coupled in series to a first signal filtering component, the first signal filtering component terminates a transmission of a signal having a frequency lower than a frequency point of the first signal filtering component; and a second ground cable branch, wherein one end of the second ground cable branch is electrically coupled to the feeding portion, the other end of the second ground cable branch is electrically coupled to the grounding portion, wherein the second ground cable branch is coupled in series to a second signal filtering component, the second signal filtering component terminates a transmission of a signal having a frequency lower than a frequency point of the second signal filtering component; wherein a length of the first ground cable branch is shorter than a length of the second ground cable branch, and the frequency point of the first signal filtering component is higher than the frequency point of the second signal filtering component. 2. The multiband antenna according to claim 1 , wherein the first signal filtering component is a high-pass filter and the second signal filtering component is a high-pass filter. 3. The multiband antenna according to claim 2 , wherein the high-pass filter is an inductor. 4. The multiband antenna according to claim 2 , wherein the high-pass filter is a capacitor. 5. The multiband antenna according to claim 2 , wherein the high-pass filter is formed by connecting in series a capacitor to an inductor. 6. The multiband antenna according to claim 2 , wherein the high-pass filter is formed by connecting in parallel a capacitor to an inductor. 7. The multiband antenna according to claim 2 , wherein the high-pass filter is a micro-strip line. 8. The multiband antenna according to claim 1 , wherein the length of the first radiating portion is shorter than the length of the second radiating portion, wherein the first radiating portion matches the first ground cable branch and the second radiating portion matches the second ground cable branch. 9. A radio communication device, comprising a multiband antenna, wherein the multiband antenna comprises: a first radiating portion and a second radiating portion, wherein a length of the first radiating portion is different from a length of the second radiating portion; a grounding portion; a feeding portion coupled to the two radiating portions, wherein each radiating portion is configured to transmit a signal to the feeding portion and receive a signal transmitted from the feeding portion; a first ground cable branch, wherein one end of the first ground cable branch is electrically coupled to the feeding portion, the other end of the first ground cable branch is electrically coupled to the grounding portion, wherein the first ground cable branch is coupled in series to a first signal filtering component, the first signal filtering component terminates a transmission of a signal having a frequency lower than a frequency point of the first signal filtering component; and a second ground cable branch, wherein one end of the second ground cable branch is electrically coupled to the feeding portion, the other end of the second ground cable branch is electrically coupled to the grounding portion, wherein the second ground cable branch is coupled in series to a second signal filtering component, the second signal filtering component terminates a transmission of a signal having a frequency lower than a frequency point of the second signal filtering component; wherein a length of the first ground cable branch is shorter than a length of the second ground cable branch, and the frequency point of the first signal filtering component is higher than the frequency point of the second signal filtering component. 10. The radio communication device according to claim 9 , wherein the length of the first radiating portion is shorter than the length of the second radiating portion, wherein the first radiating portion matches the first ground cable branch and the second radiating portion matches the second ground cable branch. 11. The radio communication device according to claim 9 , wherein both the first signal filtering component and the second signal filtering component are high-pass filters. 12. The radio communication device according to claim 11 , wherein the high-pass filter is an inductor. 13. The radio communication device according to claim 11 , wherein each of the high-pass filters is a capacitor. 14. The radio communication device according to claim 11 , wherein each of the high-pass filters is formed by connecting in series a capacitor to an inductor. 15. The radio communication device according to claim 11 , wherein each of the high-pass filters is formed by connecting in parallel a capacitor to an inductor. 16. The radio communication device according to claim 11 , wherein each of the high-pass filters is a micro-strip line.