Coupled multiband antennas

What is claimed is: 1. An apparatus comprising: an antenna having a multi-band behavior, the antenna being arranged within the apparatus and the antenna comprising: a ground plane; a first radiating structure fed through a feeding terminal and including a plurality of first conductive traces connected end-to-end in a folded arrangement, the first radiating structure having a length extending along a non-straight path formed by the first conductive traces from a first end at the feeding terminal to a second, open end and having a width perpendicular to the non-straight path formed by the first conductive traces, wherein the width of the first radiating structure varies over an extent of the first radiating structure; and a second radiating structure connected to the ground plane through a grounding terminal, the second radiating structure including a plurality of second conductive traces connected end-to-end in a folded arrangement and having a length extending along a non-straight path formed by the second conductive traces from a first end at the grounding terminal to a second, open end, the second radiating structure being separated from the first radiating structure by a distance that is non-constant over an extent of the first and second radiating structures, the distance being in a direction that is orthogonal to at least one of the first and second radiating structures, wherein: the first and second radiating structures and the distance between the first and second radiating structures are configured to enable the antenna to operate at a first frequency range and a second separate frequency range higher in frequency than the first frequency range; the distance between the first and second radiating structures is configured to transfer electromagnetic fields from the first radiating structure to the second radiating structure at the second frequency range; and the length of the second radiating structure is configured to increase the resulting bandwidth of the antenna at the second frequency range in relation to the bandwidth of the first radiating structure. 2. The apparatus of claim 1 , wherein a folding of the second radiating structure is formed by a 90° angle. 3. The apparatus of claim 2 , wherein folding of the first radiating structure is formed by 90° angles. 4. The apparatus of claim 3 , wherein the first radiating structure is connected to the ground plane through a grounding terminal. 5. The apparatus of claim 4 , wherein a portion bounding the first radiating structure is formed by at least ten connected segments, each of the connected segments forming an angle with its neighboring connected segment, the angle being smaller than 180°. 6. The apparatus of claim 4 , wherein the first radiating structure and the second radiating structure are substantially co-planar. 7. The apparatus of claim 1 , wherein a distance between the first end of the second radiating structure and the first end of the first radiating structure is less than a distance between the second end of the second radiating structure and the first end of the first radiating structure. 8. The apparatus of claim 1 , wherein the length of the second radiating structure is shorter than the length of the first radiating structure. 9. An apparatus comprising: an antenna having a multi-band behavior, the antenna being arranged within the apparatus and the antenna comprising: a ground plane; a first radiating structure fed through a feeding terminal, the first radiating structure including a plurality of first conductive traces connected end-to-end in a folded arrangement, the first radiating structure having a length extending along a non-straight path formed by the first conductive traces from a first end at the feeding terminal to a second, open end and having a width perpendicular to the non-straight path formed by the first conductive traces; and a second radiating structure connected to the ground plane through a grounding terminal, the second radiating structure including a plurality of second conductive traces connected end-to-end in a folded arrangement and having a length extending along a non-straight path formed by the second conductive traces from a first end at the grounding terminal to a second, open end, the second radiating structure being arranged separated from the first radiating structure, and a spacing between the first and the second radiating structures being non-constant, wherein: the length of the second radiating structure is shorter than the length of the first radiating structure; the first and second radiating structures are folded to form a close proximity region between the first and the second radiating structures; the first and second radiating structures and the spacing between the first and second radiating structures are configured to enable the antenna to operate at a first frequency band and a second separate frequency band higher in frequency than the first frequency band; the spacing between the first and second radiating structures is configured to couple an electric current of the first radiating structure to the second radiating structure at an operating frequency of the second frequency band; and the length of the second radiating structure is configured to provide the bandwidth required for the antenna to operate in the second frequency band. 10. The apparatus of claim 9 , wherein a folding of the second radiating structure is formed by a 90° angle. 11. The apparatus of claim 9 , wherein a distance between the first end of the second radiating structure and the first end of the first radiating structure is less than a distance between the second end of the second radiating structure and the first end of the first radiating structure. 12. The apparatus of claim 11 , wherein the first radiating structure is connected to the ground plane through a grounding terminal. 13. The apparatus of claim 12 , wherein the plurality of first conductive traces comprises a plurality of linear conductive traces, including at least two linear conductive traces having different widths. 14. The apparatus of claim 12 , wherein a portion bounding the first radiating structure is formed by at least ten connected segments, each of the connected segments forming an angle with its neighboring connected segment, the angle being smaller than 180°. 15. An apparatus comprising: an antenna having a multi-band behavior, the antenna being arranged within the apparatus and configured to operate in separate first and second frequency bands, the antenna comprising: a ground plane; a first radiating structure fed through a feeding terminal; and a second radiating structure connected to the ground plane through a grounding terminal, wherein: the second radiating structure has a first end at the grounding terminal and a second, open end, and a distance between the first end of the second radiating structure and the feeding terminal of the first radiating structure is less than a distance between the second, open end of the second radiating structure and the feeding terminal of the first radiating structure; the first and second radiating structures are folded to form a close proximity region between the first and second radiating structures, a spacing between the first and the second radiating structures being non-constant; the spacing between the first and second radiating structures is configured to provide coupling between the first and second radiating structures at an operating frequency of the second frequency band; a length of the second radiating structure from the first end at the grounding terminal to the secon