Multi-layer antenna

What is claimed is: 1. A transaction processing device for engaging in near-field communications (NFC) with a wireless transaction device, comprising: a processing unit configured to output a NFC source signal at two NFC source signal outputs of the processing unit; NFC transmit circuitry coupled to the processing unit to receive the NFC source signal, wherein the NFC transmit circuitry comprises matching circuitry and filtering circuitry, and wherein the NFC transmit circuitry outputs a transmit signal from two NFC transmit terminals based on the NFC source signal, the matching circuitry, and the filtering circuitry; a flexible circuit board having a top surface and a bottom surface, wherein the top surface and the bottom surface are opposite each other and parallel to each other; an antenna coupled to the two NFC transmit terminals to transmit the transmit signal, comprising: a first antenna terminal coupled to a first NFC transmit terminal of the two NFC transmit terminals; a second antenna terminal coupled to a second NFC transmit terminal of the two NFC transmit terminals; a top antenna portion located on the top surface of the flexible circuit board, wherein the top antenna portion has a first top end that is coupled to the first antenna terminal and a second top end, wherein the top antenna portion comprises a first circuit path between the first top end and the second top end, the first circuit path having a single loop and a substantially rectangular shape; a through connection coupled to second top end of the top antenna portion, and wherein the through connection provides a series connection from the second top end to the bottom surface; and a bottom antenna portion located on the bottom surface of the flexible circuit board, wherein the bottom antenna portion has a first bottom end that is coupled to the through connection and a second bottom end coupled to the second antenna terminal, wherein the bottom antenna portion comprises a second circuit path between the first bottom end and the second bottom end, wherein the shape of the second circuit path is substantially identical to the shape of the first circuit path, and wherein the second circuit path is substantially aligned with the first circuit path. 2. The device of claim 1 , wherein the NFC transmit circuitry comprises a tuning circuit to adjust a phase the transmit signal in response to a phase difference between the NFC source signal and the transmit signal. 3. The device of claim 2 , further comprising a second through connection coupled to the second bottom end of the bottom antenna portion, wherein the second through connection provides a series connection from the second bottom end to the top surface, and wherein the first antenna terminal and the second antenna terminal are positioned on the top surface of the flexible circuit board and the second antenna terminal is connected in series with the second bottom end by the second through connection. 4. The device of claim 1 , wherein a direction of current flow through the first circuit path is identical to a direction of current flow through the second circuit path. 5. An antenna for a near-field communication (NFC) device, comprising: a substrate having a first surface and a second surface opposite the first surface; a first terminal and a second terminal configured to receive a signal for transmission by the antenna; a first circuit path connected to the first terminal, the first circuit path positioned on the first surface of the substrate and having a predetermined shape; a second circuit path connected to the second terminal, the second circuit path positioned on the second surface of the substrate and having the predetermined shape, wherein the second circuit path substantially overlaps the first circuit path on a portion of the second surface that is opposite the first circuit path; and a through connection positioned in the substrate and extending from the first surface to the second surface, the through connection connected to the first circuit path on the first surface and connected to the second circuit path on the second surface to connect the first circuit path and the second circuit path in series to cause a current to pass through the first circuit path and the second circuit path in the same direction of current flow. 6. The antenna of claim 5 , wherein the first predetermined shape and the second predetermined shape have a quadrilateral shape. 7. The antenna of claim 6 , wherein the quadrilateral shape is a rectangle. 8. The antenna of claim 5 , wherein the first circuit path has a single loop and the second circuit path has a single loop. 9. The antenna of claim 8 , wherein the single loop of the second circuit path is vertically aligned with the single loop of the first circuit path. 10. The antenna of claim 5 , wherein the substrate comprises a flexible printed circuit board. 11. The antenna of claim 5 , wherein the first terminal is positioned on one of the first surface or the second surface and the second terminal are positioned on one of the first surface and the second surface. 12. The antenna of claim 11 , further comprising a second through connection positioned in the substrate and extending from the second surface to the first surface, and wherein the first terminal and the second terminal are positioned on the first surface, and the second through connection connected to the second circuit path on the second surface and connected to the second terminal on the first surface to connect the second circuit path and the second terminal in series. 13. The antenna of claim 5 , wherein a direction of current flow through the first circuit path is identical to a direction of current flow through the second circuit path. 14. The antenna of claim 5 , wherein the first surface and the second surface are parallel to each other. 15. The antenna of claim 5 , wherein the substrate has a predetermined thickness and the predetermined flux pattern is dependent on the predetermined thickness. 16. The antenna of claim 5 , wherein the first circuit path has a plurality of loops and the second circuit path has a plurality loops. 17. The antenna of claim 5 , further comprises a tuning circuit to adjust a phase of the transmit signal provided to the first terminal and the second terminal. 18. The antenna of claim 5 , wherein the distance between the first and the second surface comprises a minimum material thickness for the substrate. 19. A method for transmitting a near-field communications (NFC) signal, comprising: receiving a NFC source signal from a processing unit; modifying the NFC source signal with NFC transmit circuitry to generate a transmit signal; transmitting the transmit signal from the NFC transmit circuitry with an antenna, the antenna comprising a substrate with a first circuit path positioned on a first surface of the substrate and a second circuit path positioned in substantial alignment with the first circuit path on a second surface of the substrate opposite the first surface, the first circuit path being connected in series with the second circuit path via a through connection; and increasing a magnetic flux of the transmitted signal by flowing current in a substantially similar direction through both the first circuit path and the second circuit path. 20. The method of claim 19 , wherein the increasing a magnetic flux of the transmitted signal includes arranging the first circuit path in a single loop and arranging the second circuit path in a single loop.