Spatially selective UHF near field microstrip coupler device and RFID systems using device

That which is claimed: 1. A method for communicating with a transponder in a transponder operating region having boundaries, comprising: positioning a targeted transponder proximate a spaced array of near field concentrations of an RF signal, ones of the near field concentrations being spaced apart along a direction of travel of a web carrying the targeted transponder, wherein the near field concentrations are spaced relative to dimensions of the targeted transponder such that the targeted transponder overlaps and is excited by a plurality of the near field concentrations; in response to determining that the targeted transponder is positioned in a near field concentration gap located (i) within the boundaries of the operating region and (ii) between adjacent ones of the near field concentrations, moving the targeted transponder to a different position within the operating region; and communicating with the transponders targeted, wherein moving each of the targeted transponder to the different position within the operating region comprises moving the web via a media conveyance portion. 2. The method of claim 1 further comprising: moving the targeted transponder through the transponder operating region in the direction of travel, wherein the dimensions include a length of the targeted transponder that is smaller than an operating region length of the transponder operating region, wherein the near field concentrations extend transversely to the operating region length; and communicating with the targeted transponder using the near field concentrations of the RF signal. 3. The method of claim 2 , wherein moving the targeted transponder comprises moving printable media in which the targeted transponder is embedded. 4. The method of claim 3 further comprising printing visual indicia onto the printable media. 5. The method of claim 1 , wherein the near field concentrations are parallel and have leaky edges. 6. A method of communicating with a transponder, the method comprising: moving a web of transponders, including a targeted transponder, in a first direction through a transponder operating region having a pattern of spaced near field concentrations of an RF signal, ones of the near field concentrations being spaced apart along the first direction, the pattern having at least one gap located (i) within boundaries of the operating region and (ii) between adjacent ones of the near field concentrations; exciting the targeted transponder with at least one the near field concentrations; determining when the targeted transponder is aligned with the gap; and in response to determining the targeted transponder is aligned with the gap, moving the targeted transponder in the first direction until the transponder is within the operating region and out of the gap. 7. The method of claim 6 , wherein moving the targeted transponder comprises moving printable media in which the targeted transponder is embedded. 8. The method of claim 7 further comprising printing visual indicia onto the printable media. 9. The method of claim 6 , wherein the near field concentrations are parallel. 10. The method of claim 6 , wherein exciting the targeted transponder results from at least one transmission element having a zig-zag configuration. 11. An encoder configured to communicate with a transponder in an operating region of the encoder, the encoder comprising: an array of transmission elements configured to form a pattern of spaced near field concentrations of an RF signal, ones of the near field concentrations being spaced apart along a direction of travel of a web carrying the transponder, the pattern having at least one gap located (i) within boundaries of the operating region and (ii) between adjacent ones of the near field concentrations; and a media conveyance portion configured to sequentially move a web of transponders through the transponder operating region. 12. The encoder of claim 11 , wherein an operating region length of the transponder operating region in a direction generally perpendicular to the near field concentrations is greater than a length of the transponder in the direction perpendicular to the near field concentrations. 13. The encoder of claim 11 , wherein the gap between the near field concentrations is significantly less than the length of the transponder in the direction generally perpendicular to the near field concentrations. 14. The encoder of claim 11 , wherein the transponder overlaps and is excited by a plurality of the near field concentrations when located in the transponder operating region. 15. The encoder of claim 11 , wherein the near field concentrations are parallel and have leaky edges. 16. The encoder of claim 11 , wherein at least one of array elements has a zig-zag configuration. 17. The encoder of claim 11 is further configured to be integrated into a printer. 18. The encoder of claim 11 is further configured to encode a transponder embedded in a printable media.