System and method for low loss wireless power transmission

1. A transmission coil for transmitting wireless power to a receive coil, the transmission coil comprising: a first spiral coil comprising a plurality of turns, a center of the first spiral coil to an outermost turn of the first spiral coil defining a first cross section; and a second spiral coil comprising a plurality of turns, a center of the second spiral coil to an outermost turn of the second spiral coil defining a second cross section, portions of the first spiral coil along the first cross section and the second spiral coil along the second cross section having a mutual inductance with respect to the receive coil greater than 65% of a maximum mutual inductance along the first and second cross sections, the second spiral coil counter-wound relative to the first spiral coil.

2. The transmission coil of claim 1 , wherein the second spiral coil is located above or below the first spiral coil.

3. The transmission coil of claim 1 , wherein the second spiral coil is interwoven with the first spiral coil.

4. The transmission coil of claim 1 , wherein a total length of the second spiral coil is a same length as a total length of the first spiral coil, and the second spiral coil is substantially shaped as a reflection of the first spiral coil.

5. The transmission coil of claim 1 , wherein the receive coil comprises a first receive coil and a second receive coil.

6. The transmission coil of claim 1 , wherein the second spiral coil is located substantially on a common plane with the first spiral coil and has a common center with first spiral coil, the first and second cross sections are located substantially on the common plane, and a turn distance from the common center to a center of a particular turn along the first or second cross section of the first or second spiral coil is a function of a distance from the common center to the outermost turn of the first or second spiral coil, a first value corresponding to spacings between turns of the first or second spiral coil, a sum of a total number of turns of the first and second spiral coils, and a first number corresponding to the particular turn.

7. The transmission coil of claim 1 , wherein the first and second spiral coil are electrically coupled to a driver circuit and configured to wirelessly transmit power at a level sufficient to charge or power a receiver device.

8. The transmission coil of claim 1 , wherein input signals for first and second spiral coil are configured to be within a frequency range of 6.5 Megahertz to 7 Megahertz.

9. The transmission coil of claim 1 , wherein each turn of the first and second spiral coil is configured to have a turn radius greater than a minimum turn radius of 5 millimeters.

10. A method for transmitting wireless power to a receive coil, the method comprising: driving with electrical current a first spiral coil comprising a plurality of turns, a center of the first spiral coil to an outermost turn of the first spiral coil defining a first cross section; and driving with electrical current a second spiral coil comprising a plurality of turns, a center of the second spiral coil to an outermost turn of the second spiral coil defining a second cross section, portions of the first spiral coil along the first cross section and the second spiral coil along the second cross section having a mutual inductance with respect to the receive coil greater than 65% of a maximum mutual inductance along the first and second cross sections, the second spiral coil counter-wound relative to the first spiral coil.

11. The method of claim 10 , wherein the second spiral coil is located above or below the first spiral coil.

12. The method of claim 10 , wherein the second spiral coil is interwoven with the first spiral coil.

13. The method of claim 10 , wherein a total length of the second spiral coil is a same length as a total length of the first spiral coil, and the second spiral coil is substantially shaped as a reflection of the first spiral coil.

14. The method of claim 10 , wherein the receive coil comprises a first receive coil and a second receive coil.

15. The method of claim 10 , wherein the second spiral coil is located substantially on a common plane with the first spiral coil and has a common center with first spiral coil, the first and second cross sections are located substantially on the common plane, and a turn distance from the common center to a center of a particular turn along the first or second cross section of the first or second spiral coil is a function of a distance from the common center to the outermost turn of the first or second spiral coil, a first value corresponding to spacings between turns of the first or second spiral coil, a sum of a total number of turns of the first and second spiral coils, and a first number corresponding to the particular turn.

16. The method of claim 10 , wherein the first and second spiral coil are electrically coupled to a driver circuit and configured to wirelessly transmit power at a level sufficient to charge or power a receiver device.

17. The method of claim 10 , wherein input signals for first and second spiral coil are configured to be within a frequency range of 6.5 Megahertz to 7 Megahertz.

18. The method of claim 10 , wherein each turn of the first and second spiral coil is configured to have a turn radius greater than a minimum turn radius of 5 millimeters.