Dual band antenna and wireless communication device employing same

What is claimed is: 1. A dual band antenna, comprising: a first radiating portion comprising a first feeding arm that feeds first signals at a first frequency band; a second radiating portion positioned spaced apart from the first radiating portion, the second radiating portion comprising a second feeding arm that feeds second signals at a second frequency band; a resonating portion connected between the first radiating portion and the second radiating portion, the resonating portion resonating with the first and second radiating portions to generate two different frequency bands, such that the dual band antenna can receive and send wireless signals at the first and second frequency bands; wherein the first radiating portion is a substantially inverted-L shape sheet, and further comprises a first radiating arm perpendicularly extending from one end of the first feeding arm; a distal end of the first feeding arm is electronically connected to a printed circuit board to feed the first signal; wherein the second radiation portion further comprises a second radiating arm extending substantially perpendicularly from the second feeding arm, the second radiating arm is parallel to the first radiating arm, the second feeding arm is parallel to the second feeding arm; and wherein the resonating portion comprises a connecting arm, a first extending arm, and a second extending arm; one end of the connecting arm is perpendicularly connected to the first feeding arm, the other end of the connecting arm is connected to a junction between the second feeding arm and the second radiating arm, and is perpendicular to the second feeding arm; the first and second extending arms are spaced extended from one side of the connecting arm opposite to the first radiating arm; the second extending arm comprises a substantially L-shaped sheet and a substantially U-shaped sheet connected to the L-shaped sheet, the L-shaped sheet extends substantially perpendicularly from one side of the connecting arm, and then perpendicularly extends toward the first extending arm to be parallel to the connecting arm; the U-shaped sheet extends substantially perpendicularly from an end of the L-shaped sheet to be parallel to the first extending arm, and is then perpendicularly formed to be parallel to the connecting arm, and finally perpendicularly extends along a direction away from the connecting arm. 2. The dual band antenna of claim 1 , wherein the first radiating portion is a monopole antenna, the second radiating portion is a substantially planar inverted-F antenna (PIFA), the resonating portion is a substantially planar micro-strip antenna. 3. The dual band antenna of claim 1 , wherein the first radiating portion, the second radiating portion, and the resonating portion are in the same plane. 4. The dual band antenna of claim 1 , wherein the second radiating portion further comprises a grounding arm extending substantially perpendicularly from the second radiating arm, the grounding arm is grounded. 5. A wireless communication device, comprising: a dual band antenna comprising: a first radiating portion comprising a first feeding arm that feeds first signals at a first frequency band; a second radiating portion positioned spaced apart from the first radiating portion, the second radiating portion comprising a second feeding arm that feeds second signals at a second frequency band; a resonating portion connected between the first radiating portion and the second radiating portion, the resonating portion resonating with the first and second radiating portions to generate two different frequency bands, such that the dual band antenna can receive and send wireless signals at the first and second frequency bands; wherein the first radiating portion is a substantially inverted-L shape sheet, and further comprises a first radiating arm perpendicularly extending from one end of the first feeding arm; a distal end of the first feeding arm is electronically connected to a printed circuit board to feed the first signal; wherein the second radiation portion further comprises a second radiating arm extending substantially perpendicularly from the second feeding arm, the second radiating arm is parallel to the first radiating arm, the second feeding arm is parallel to the second feeding arm; and wherein the resonating portion comprises a connecting arm, a first extending arm, and a second extending arm; one end of the connecting arm is perpendicularly connected to the first feeding arm, the other end of the connecting arm is connected to a junction between the second feeding arm and the second radiating arm, and is perpendicular to the second feeding arm; the first and second extending arms are spaced extended from one side of the connecting arm opposite to the first radiating arm; the second extending arm comprises a substantially L-shaped sheet and a substantially U-shaped sheet connected to the L-shaped sheet, the L-shaped sheet extends substantially perpendicularly from one side of the connecting arm, and then perpendicularly extends toward the first extending arm to be parallel to the connecting arm; the U-shaped sheet extends substantially perpendicularly from an end of the L-shaped sheet to be parallel to the first extending arm, and is then perpendicularly formed to be parallel to the connecting arm, and finally perpendicularly extends along a direction away from the connecting arm. 6. The dual band antenna of claim 5 , wherein the first radiating portion is a monopole antenna, the second radiating portion is a substantially planar inverted-F antenna (PIFA), the resonating portion is a substantially planar micro-strip antenna. 7. The dual band antenna of claim 5 , wherein the first radiating portion, the second radiating portion, and the resonating portion are in the same plane. 8. The dual band antenna of claim 5 , wherein the second radiating portion further comprises a grounding arm extending substantially perpendicularly from the second radiating arm, the grounding arm is grounded.