Looped multi-branch planar antennas having a floating parasitic element and wireless communications devices incorporating the same

What is claimed is: 1. An antenna system, comprising: a ground plane; a loop antenna positioned on the ground plane on a first layer, the loop antenna comprising an antenna feed positioned at a center of an edge of the first layer; and a multi-branch parasitic element electrically coupled to the loop antenna, the multi-branch parasitic element being parallel to and positioned above the ground plane on a second layer, different from the first layer, wherein the loop antenna on the first layer is positioned between the ground plane and the multi-branch parasitic element on the second layer, wherein the ground plane, first layer and second layer are parallel to one another, and wherein the multi-branch parasitic element is simultaneously resonant at a plurality of resonant frequencies. 2. The antenna system of claim 1 , further comprising a plastic spacer positioned between the loop antenna and the multi-branch parasitic element. 3. The antenna system of claim 1 , wherein the loop antenna is one of grounded, semi-on grounded and ground free. 4. The antenna system of claim 1 , wherein the antenna system provides a decrease in body loss between left and right sides of a user in a high frequency band, wherein body loss is a measurement of antenna performance when positioned in a right hand and/or a left hand at a right and/or left side of a human head, respectively. 5. The antenna system of claim 4 , wherein the high frequency band is from about 1700 MHz to beyond 2700 MHz. 6. The antenna system of claim 1 , further comprising a back cover of a wireless communications device, wherein the multi-branch parasitic element is integrated with an outer surface of the back cover of the wireless communications device. 7. The antenna system of claim 1 , further comprising a back cover of a wireless communications device, wherein the multi-branch parasitic element is integrated on a first surface of the back cover of the wireless communications device and wherein the loop antenna is integrated with a second surface of the wireless communications device, the second surface being opposite the first surface. 8. A wireless communications device comprising: a housing; and an antenna system coupled to the housing, the antenna system comprising: a ground plane; a loop antenna positioned on the ground plane on a first layer, the loop antenna comprising an antenna feed positioned at a center of an edge of the first layer; and a multi-branch parasitic element electrically coupled to the loop antenna, the multi-branch parasitic element being parallel to and positioned above the ground plane on a second layer, different from the first layer, wherein the loop antenna on the first layer is positioned between the ground plane and the multi-branch parasitic element on the second layer, wherein the ground plane, first layer and second layer are parallel to one another, and wherein the multi-branch parasitic element is simultaneously resonant at a plurality of resonant frequencies. 9. The wireless communications device of claim 8 , wherein the antenna system further comprises a plastic spacer positioned between the loop antenna and the multi-branch parasitic element. 10. The wireless communications device of claim 8 , wherein the loop antenna is one of grounded, semi-on grounded and ground free. 11. The wireless communications device of claim 8 , wherein the antenna system provides a decrease in body loss between left and right sides of a user in a high frequency band, wherein body loss is a measurement of antenna performance of the antenna system when the wireless communications device is positioned in a right hand and/or a left hand at a right and/or left side of a human head, respectively. 12. The wireless communications device of claim 11 , wherein the high frequency band is from about 1700 MHz to beyond 2700 MHz. 13. The wireless communications device of claim 8 , wherein the housing further comprises a back cover and wherein the multi-branch parasitic element is integrated with an outer surface of the back cover of the wireless communications device. 14. The wireless communications device of claim 8 , wherein the housing further comprises a back cover, wherein the multi-branch parasitic element is integrated on a first surface of the back cover of the wireless communications device and wherein the loop antenna is integrated with a second surface of the wireless communications device, the second surface being opposite the first surface. 15. A loop antenna comprising: a ground plane; a loop antenna positioned on the ground plane on a first layer, the loop antenna comprising an antenna feed positioned at a center of an edge of the first layer; and a floating multi-branch parasitic element being parallel to and positioned above the ground plane on a second layer, different from the first layer, the floating multi-branch parasitic element being configured to reduce a performance difference of the loop antenna in high frequency bands between first and second positions, the first position being when a wireless communications device is positioned in a right hand at a right side of a human head and the second position being when the wireless communications device is positioned in a left hand at a left side of the human head, wherein the loop antenna on the first layer is positioned between the ground plane and the multi-branch parasitic element on the second layer, wherein the ground plane, first layer and second layer are parallel to one another, and wherein the floating multi-branch parasitic element is simultaneously resonant at a plurality of resonant frequencies. 16. The loop antenna of claim 15 , wherein the performance difference between the first and second positions is reduced to no greater than about 1.0 dB in the high frequency band. 17. The loop antenna of claim 15 , wherein the loop antenna is one of grounded, semi-on grounded and ground free. 18. The loop antenna of claim 15 , where the multi-branch parasitic element is integrated with an outer surface of a back cover of a wireless communications device. 19. The loop antenna of claim 15 , wherein the multi-branch parasitic element is integrated on a first surface of a back cover of a wireless communications device and wherein the loop antenna is integrated with a second surface of the wireless communications device, the second surface being opposite the first surface.