Wireless power transmission apparatus with multiple controllers

What is claimed is: 1. A wireless power transmission apparatus, comprising: a plurality of primary coils arranged in two or more layers, the plurality of primary coils including: one or more primary coils in a first layer including at least a first primary coil having a wire wound in a square shape with four corner portions, four side portions, and an inner area between the four side portions, wherein the four side portions are equal length; one or more primary coils in a second layer including at least a second primary coil having a wire wound in a square shape with four corner portions, four side portions, and an inner area between the four side portions, wherein the four side portions are equal length; and a third primary coil; wherein the first primary coil is arranged side on side with the second primary coil such that a first side portion of the first primary coil overlies a second side portion of the second primary coil and such that no portion of the first primary coil overlaps the inner area of the second primary coil, wherein the third primary coil is arranged side on side with the first primary coil such that a third side portion of the third primary coil overlies at least a part of a fourth side portion of the first primary coil, such that no portion of the third primary coil overlaps the inner area of the first primary coil, and wherein the third side portion is perpendicular to the first side portion of the first primary coil. 2. The wireless power transmission apparatus of claim 1 , wherein each of the four corner portions are rounded. 3. The wireless power transmission apparatus of claim 1 , wherein an outer dimension of the first primary coil is approximately 50 millimeters. 4. The wireless power transmission apparatus of claim 1 , wherein the square shape and size of the first primary coil can produce an electromagnetic field (B Field ) for at least an area defined by an inside of the four side portions when an electric current is supplied to the first primary coil. 5. The wireless power transmission apparatus of claim 1 , wherein each of the plurality of primary coils are independently capable of transmitting wireless power to a first wireless power receiving apparatus that latches to a respective primary coil. 6. The wireless power transmission apparatus of claim 1 , wherein the plurality of primary coils are arranged in a partially overlapping pattern, wherein the partially overlapping pattern includes at least two rows of primary coils, and wherein a first row of primary coils has side portions that overlie corresponding side portions of a second row of primary coils. 7. The wireless power transmission apparatus of claim 6 , wherein the first row of primary coils is offset by half the length of the side portions of the second row of primary coils. 8. The wireless power transmission apparatus of claim 1 , wherein each primary coil is independently capable of producing an electromagnetic field in a square shape area over the primary coil when the primary coil is activated. 9. The wireless power transmission apparatus of claim 1 , wherein a first magnetic field covering an inner area of the first primary coil when the first primary coil is activated is consistent with a second magnetic field covering the inner area of the second primary coil when the second primary coil is activated. 10. The wireless power transmission apparatus of claim 1 , wherein the third primary coil is arranged side on side with the second primary coil such that the third side portion of the third primary coil overlies at least a part of a fifth side portion of the second primary coil, such that no portion of the third primary coil overlaps the inner area of the second primary coil. 11. A wireless power transmission apparatus, comprising: a charging surface; a plurality of primary coils arranged in relation to the charging surface, wherein each primary coil is independently capable of producing an electromagnetic field in a square shape area over the primary coil when the primary coil is activated, wherein the plurality of primary coils includes: one or more primary coils in a first layer including at least a first primary coil having a wire wound in a square shape with four corner portions, four side portions, and an inner area between the four side portions, wherein the four side portions are equal length; one or more primary coils in a second layer including at least a second primary coil having a wire wound in a square shape with four corner portions, four side portions, and an inner area between the four side portions, wherein the four side portions are equal length; and a third primary coil; wherein the first primary coil is arranged side on side with the second primary coil such that a first side portion of the first primary coil overlies a second side portion of the second primary coil and such that no portion of the first primary coil overlaps the inner area of the second primary coil, and such that an electromagnetic field can be produced on either side of the overlying first and second side portions, wherein the third primary coil is arranged side on side with the first primary coil such that a third side portion of the third primary coil overlies at least a part of a fourth side portion of the first primary coil, such that no portion of the third primary coil overlaps the inner area of the first primary coil, and wherein the third side portion is perpendicular to the first side portion of the first primary coil. 12. The wireless power transmission apparatus of claim 11 , wherein each primary coil is managed by a different local controller that can independently control the primary coil in response to determining that a wireless power receiving apparatus is latched to the primary coil. 13. The wireless power transmission apparatus of claim 11 , wherein the charging surface has an area that is large enough for multiple wireless power receiving apparatuses, and wherein the plurality of primary coils form an array of primary coils that can independently produce electromagnetic fields for different areas associated with the charging surface. 14. The wireless power transmission apparatus of claim 13 , wherein the wireless power transmission apparatus can wirelessly charge the multiple wireless power receiving apparatuses regardless of position or orientation of each wireless power receiving apparatus on the charging surface.