Wireless power transmission antenna with internal repeater and repeater filter

What is claimed is: 1. An antenna for wireless power transmission comprising: a source coil comprised of a first conductive wire, the source coil including a first outer turn and a first inner turn, the source coil configured to connect to one or more electronic components for wireless power transfer, the first conductive wire beginning at a first source terminal associated with a beginning of the first outer turn and the first conductive wire ending at a second source terminal associated with an ending of the first inner turn, the first conductive wire disposed such that a source current flows in a first source direction through the first outer turn and a second source direction through the first inner turn, the second source direction substantially opposite of the first source direction; an internal repeater coil comprised of a second conductive wire, the internal repeater coil including a second outer turn and a second inner turn, the internal repeater coil configured to relay magnetic fields emanating from the source coil, and configured to have a repeater current induced in the second outer turn and the second inner turn, the second conductive wire disposed such that the repeater current flows in a first repeater direction through the second outer turn and a second repeater direction through the second inner turn, the second repeater direction substantially opposite of the first repeater direction; and a repeater filter circuit connected between a beginning of the second outer turn and an ending of the second inner turn, the repeater filter circuit comprising an LC filter and introducing a filter impedance to the internal repeater coil. 2. The antenna of claim 1 , wherein the repeater filter circuit includes an inductor and a capacitor. 3. The antenna of claim 2 , wherein the repeater filter circuit is configured to filter out electromagnetic interference (EMI). 4. The antenna of claim 1 , further comprising a repeater tuning system, and wherein the repeater filter circuit is connected in series with the repeater tuning system, between the beginning of the second outer turn and the ending of the second inner turn. 5. The antenna of claim 1 , wherein the filter impedance of the repeater filter circuit is configured to reduce a sensitivity of the internal repeater coil, with respect to parasitic capacitances. 6. The antenna of claim 1 , further comprising a source inter-turn capacitor electrically connected between the first outer turn and the first inner turn; and a repeater inter-turn capacitor electrically connected between the second outer turn and the second inner turn. 7. The antenna of claim 6 , wherein the source inter-turn capacitor is a first interdigitated capacitor and the repeater inter-turn capacitor is a second interdigitated capacitor. 8. The antenna of claim 7 , wherein the first interdigitated capacitor is disposed on a first substrate independent of the one or more electronic components, and wherein the second interdigitated capacitor is disposed on a second substrate independent of the one or more electronic components. 9. The antenna of claim 1 , wherein the first source direction and the first repeater direction are one of clockwise or counter-clockwise. 10. The antenna of claim 1 , wherein the source coil and the internal repeater coil combine to form a unitary transmission antenna. 11. A wireless power transmission system comprising: one or more electronic components configured for generating signals for one or both of wireless power transmission and wireless data transmission; a source coil comprised of a first conductive wire, the source coil including a first outer turn and a first inner turn, the source coil configured to connect to the one or more electronic components, the first conductive wire beginning at a first source terminal associated with a beginning of the first outer turn and the first conductive wire ending at a second source terminal associated with an ending of the first inner turn, the first conductive wire disposed such that a source current flows in a first source direction through the first outer turn and a second source direction through the first inner turn, the second source direction substantially opposite of the first source direction; an internal repeater coil comprised of a second conductive wire, the internal repeater coil including a second outer turn and a second inner turn, the internal repeater coil configured to relay magnetic fields emanating from the source coil, and configured to have a repeater current induced in the second outer turn and the second inner turn, the second conductive wire disposed such that the repeater current flows in a first repeater direction through the second outer turn and a second repeater direction through the second inner turn, the second repeater direction substantially opposite of the first repeater direction; and a repeater filter circuit connected between a beginning of the second outer turn and an ending of the second inner turn, the repeater filter circuit comprising an LC filter and introducing a filter impedance to the internal repeater coil. 12. The wireless power transmission system of claim 11 , wherein the repeater filter circuit includes an inductor and a capacitor. 13. The wireless power transmission system of claim 12 , wherein the repeater filter circuit is configured to filter out electromagnetic interference (EMI). 14. The wireless power transmission system of claim 11 , further comprising a repeater tuning system, and wherein the repeater filter circuit is connected in series with the repeater tuning system, between the beginning of the second outer turn and the ending of the second inner turn. 15. The wireless power transmission system of claim 11 , wherein the filter impedance of the repeater filter circuit is configured to reduce a sensitivity of the internal repeater coil, with respect to parasitic capacitances. 16. The wireless power transmission system of claim 11 , further comprising a source inter-turn capacitor electrically connected between the first outer turn and the first inner turn; and a repeater inter-turn capacitor electrically connected between the second outer turn and the second inner turn. 17. The wireless power transmission system of claim 16 , wherein the source inter-turn capacitor is a first interdigitated capacitor and the repeater inter-turn capacitor is a second interdigitated capacitor. 18. The wireless power transmission system of claim 17 , wherein the first interdigitated capacitor is disposed on a first substrate independent of the one or more electronic components, and wherein the second interdigitated capacitor is disposed on a second substrate independent of the one or more electronic components. 19. The wireless power transmission system of claim 11 , wherein the first source direction and the first repeater direction are one of clockwise or counter-clockwise. 20. The wireless power transmission system of claim 11 , wherein the source coil and the internal repeater coil combine to form a unitary transmission antenna.