rfid tag to antenna polarization wave

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Two antennas provide polarization diversity for reading an RFID tag that a single antenna is not able to read due to the tag orientation. Many of the above issues associated .Furthermore, the overlapping beams of the Wave® provide all 3 polarizations, whereas a patch antenna can only provide 2 at most. This makes the Wave® ideal for item-level zone coverage .

Two antennas provide polarization diversity for reading an RFID tag that a single antenna is not able to read due to the tag orientation. Many of the above issues associated with conventional patch antennas are overcome by the specially designed Wave® antenna as described previously and shown below.Furthermore, the overlapping beams of the Wave® provide all 3 polarizations, whereas a patch antenna can only provide 2 at most. This makes the Wave® ideal for item-level zone coverage of densely populated regions of RFID tagged products in warehouses, retail stores, and portals.Because RFID antennas radiate and receive RF waves, polarization is an important factor to consider when choosing an RFID antenna. Polarization applies to waves and is basically the geometrical direction of the wave’s oscillation.The wave® antenna. Radiator showing distributed radiation. The patented newave antenna embodies a radically new concept in RFID antenna design. Instead of radiating a beam in a single direction, the antenna is designed to uniformly illuminate a volume of space.

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Two antennas provide polarization diversity for reading an RFID tag that a single antenna is not able to read due to the tag orientation. Many of the above issues associated with conventional patch antennas are overcome by the specially designed Wave® antenna as described previously and shown below.

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The polarization of a commercial antenna, particularly when encased in a plastic radome, is not so obvious, and the user must usually refer to the labeling on the antenna or the manufacturer's data sheets, or use a linearly polarized tag to . For a reader antenna placed 0.75 m above the floor, the Brewster’s angle reflection point is about 1.5 m away, so the specularly reflected location is 3 m away, generally within the range of a typical UHF passive tag. A vertically polarized antenna will experience no floor reflection at this distance, and thus produce little local fading (at .

Polarization is another important consideration for RFID reader antennas. For maximizing tag range, antenna polarization of the tag must be matched to that of the reader antenna. In most general case, both reader and tag antennas are elliptically polarized with mutually tilted axis of the polarization. The mutual polarization efficiency can beThe tag system is designed for 5 GHz operat-ing frequency and uses two microstrip patch antennas with linear polarization in perpendicular directions. Between the tag antennas a block including a Schottky diode is used for ampli-tude modulation . This roly-poly behavior solves the polarization mismatch issues, while the high-index compact resonator allows approaching miniaturized design. The general principle of the tag’s operation is.

Two antennas provide polarization diversity for reading an RFID tag that a single antenna is not able to read due to the tag orientation. Many of the above issues associated with conventional patch antennas are overcome by the specially designed Wave® antenna as described previously and shown below.Furthermore, the overlapping beams of the Wave® provide all 3 polarizations, whereas a patch antenna can only provide 2 at most. This makes the Wave® ideal for item-level zone coverage of densely populated regions of RFID tagged products in warehouses, retail stores, and portals.Because RFID antennas radiate and receive RF waves, polarization is an important factor to consider when choosing an RFID antenna. Polarization applies to waves and is basically the geometrical direction of the wave’s oscillation.The wave® antenna. Radiator showing distributed radiation. The patented newave antenna embodies a radically new concept in RFID antenna design. Instead of radiating a beam in a single direction, the antenna is designed to uniformly illuminate a volume of space.

Two antennas provide polarization diversity for reading an RFID tag that a single antenna is not able to read due to the tag orientation. Many of the above issues associated with conventional patch antennas are overcome by the specially designed Wave® antenna as described previously and shown below. The polarization of a commercial antenna, particularly when encased in a plastic radome, is not so obvious, and the user must usually refer to the labeling on the antenna or the manufacturer's data sheets, or use a linearly polarized tag to . For a reader antenna placed 0.75 m above the floor, the Brewster’s angle reflection point is about 1.5 m away, so the specularly reflected location is 3 m away, generally within the range of a typical UHF passive tag. A vertically polarized antenna will experience no floor reflection at this distance, and thus produce little local fading (at .

Polarization is another important consideration for RFID reader antennas. For maximizing tag range, antenna polarization of the tag must be matched to that of the reader antenna. In most general case, both reader and tag antennas are elliptically polarized with mutually tilted axis of the polarization. The mutual polarization efficiency can beThe tag system is designed for 5 GHz operat-ing frequency and uses two microstrip patch antennas with linear polarization in perpendicular directions. Between the tag antennas a block including a Schottky diode is used for ampli-tude modulation .

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rfid tag to antenna polarization wave|rfid antenna

rfid tag to antenna polarization wave|rfid antenna.

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