Active antenna adapted for impedance matching and band switching using a shared component

What is claimed is: 1. An active modal antenna adapted for impedance matching and band switching using a shared component, the antenna comprising: a driven antenna element; and at least one parasitic element positioned adjacent to the driven antenna element; the driven antenna element being coupled to a matching circuit; characterized in that: each of the matching circuit and the parasitic element are further coupled to a tunable component via transmission lines extending therebetween; wherein the tunable component is adapted to alter a reactance of each of the matching circuit and the parasitic element for effectuating active band switching and impedance matching of the antenna. 2. The antenna of claim 1 , wherein the tunable component comprises a tunable capacitor. 3. The antenna of claim 1 , said matching circuit further comprising one or more passive components individually selected from: a resistor, capacitor, or an inductor. 4. The antenna of claim 1 , said matching circuit further comprising one or more active components individually selected from: a tunable capacitor, MEMS device, tunable inductor, switch, or a diode. 5. The antenna of claim 1 , said at least one parasitic element being further coupled to an inductor for enabling band switching from a first higher frequency to a second lower frequency, wherein said first higher frequency is higher than said second lower frequency. 6. The antenna of claim 1 , said driven antenna element comprising: an isolated magnetic dipole (IMD) antenna element positioned above a circuit board forming an antenna volume therebetween; and said at least one parasitic element comprising: a first parasitic element positioned adjacent to said IMD antenna element and within said antenna volume, and a second parasitic element positioned adjacent to the IMD antenna element and outside of the antenna volume. 7. An active modal antenna adapted for impedance matching and band switching using a shared component, the antenna comprising: a driven antenna element; and at least one parasitic element positioned adjacent to the driven antenna element; characterized in that: the driven antenna element coupled to a matching circuit comprising a first tunable component; and each of the driven antenna element and the at least one parasitic element coupled to a second tunable component; wherein the antenna is configured for simultaneously matching the antenna impedance and band switching via the second tunable component. 8. The antenna of claim 7 , each of the driven antenna element and the at least one parasitic element are further coupled to a switch; said driven antenna element having a ground leg thereof; said ground leg and said at least one parasitic element each being coupled to a common port of the switch; and the switch further comprising a plurality of reactive loads attached to two or more switch ports. 9. The antenna of claim 7 , each of the driven antenna element and the at least one parasitic element are further coupled to a switch; said driven antenna element having a ground leg thereof; said ground leg being coupled to a first port of the switch said at least one parasitic element being coupled to a second port of the switch; and a common port switch being coupled to ground. 10. The antenna of claim 7 , each of the driven antenna element and the at least one parasitic element are further coupled to a matching circuit; said driven antenna element having a ground leg thereof; said ground leg and said at least one parasitic element each being coupled to the matching circuit; and the matching circuit being further coupled to ground. 11. The antenna of claim 10 , said matching circuit comprising at least one active component individually selected from: a tunable capacitor, MEMS device, tunable inductor, switch, or a diode. 12. The antenna of claim 7 , said driven antenna element comprising: an isolated magnetic dipole (IMD) antenna element positioned above a circuit board forming an antenna volume therebetween; and said at least one parasitic element comprising: a first parasitic element positioned adjacent to said IMD antenna element and within said antenna volume, and a second parasitic element positioned adjacent to the IMD antenna element and outside of the antenna volume. 13. An active modal antenna adapted for impedance matching and band switching using a shared component, the antenna comprising: a driven antenna element; said driven antenna element comprising an isolated magnetic dipole (IMD) antenna element positioned above a circuit board forming an antenna volume therebetween; and at least two parasitic elements positioned adjacent to the driven antenna element; said at least two parasitic elements comprising: a first parasitic element positioned adjacent to said IMD antenna element and within said antenna volume, and a second parasitic element positioned adjacent to the IMD antenna element and outside of the antenna volume; characterized in that: each of the at least two parasitic elements are further coupled to a shared one of: a tunable capacitor, a matching circuit, or a switch; wherein the antenna is configured for simultaneously matching the antenna impedance and band switching. 14. The antenna of claim 13 , each of the at least two parasitic elements being coupled to a first tunable capacitor via transmission lines extending therebetween. 15. The antenna of claim 14 , the tunable capacitor being further coupled to a feed leg of the driven antenna element via a transmission line extending therebetween. 16. The antenna of claim 15 ; further comprising a matching circuit disposed between the first tunable capacitor and the feed leg of the driven antenna element. 17. The antenna of claim 15 ; further comprising a pair of phase compensation circuits each connected between the first tunable capacitor and one of the parasitic elements, respectively, the phase compensation circuits being configured to compensate for the electrical delay between the tunable capacitor and the parasitic elements. 18. The antenna of claim 13 , each of the at least two parasitic elements being coupled to a common port of a switch via transmission lines extending therebetween; said switch further comprising a plurality of reactive loads attached to two or more switch ports; wherein the common port of the switch is switchably coupled to one of the two or more switch ports to vary a reactance about each of the parasitic elements.