Extended-Range Passive RFID and Sensor Tags
- Monday, 02 January 2012
SAW devices and retroreflective antenna arrays are combined.
Extended-range passive radio-frequency identification (RFID) tags and related sensor tags are undergoing development. A tag of this type incorporates a retroreflective antenna array, so that it reflects significantly more signal power back toward an interrogating radio transceiver than does a comparable passive RFID tag of prior design, which does not incorporate a retroreflective antenna array. Therefore, for a given amount of power radiated by the transmitter in the interrogating transceiver, a tag of this type can be interrogated at a distance greater than that of the comparable passive RFID or sensor tag of prior design.
Van Atta Array in its simplest form, comprising two antenna elements connected via a transmission line, exhibits partial retroreflection of an incident radio signal. If more pairs of antennas connected by equal-length transmission lines are added, the array becomes more nearly completely retroreflective." class="caption" align="right">The retroreflective antenna array is,
more specifically, a Van Atta array,
named after its inventor and first published
in a patent issued in 1959. In its
simplest form, a Van Atta array comprises
two antenna elements connected by a
transmission line so that the signal
received by each antenna element is
reradiated by the other antenna element
(see Figure 1). The phase relationships
among the received and reradiated signals
are such as to produce constructive
interference of the reradiated signals;
that is, to concentrate the reradiated signal
power in a direction back toward the
source. Hence, an RFID tag equipped
with a Van Atta antenna array automatically
tracks the interrogating transceiver.
The effective gain of a Van Atta array is
the same as that of a traditional phased
antenna array having the same number
of antenna elements. Additional pairs of
antenna elements connected by equallength
transmission lines can be incorporated
into a Van Atta array to increase
Like some RFID tags here - tofore commercially available, an RFID or sensor tag of the present developmental type includes one-port surface-acoustic-wave (SAW) devices. In simplified terms, the mode of operation of a basic one-port SAW device as used heretofore in an RFID device is the following: An interrogating radio signal is converted, at an input end, from an electrical signal to an acoustic wave that propagates along a surface and encounters multiple reflectors suitably positioned along the surface. Upon returning to the input end, the reflected acoustic wave is re-converted to an electrical signal, which, in turn, is reradiated from an antenna. The distances between the reflectors in the SAW device and the corresponding times between reflections encode the identifying or sensory information onto the reradiated signal.
Extended-Range Passive RFID or Sensor Tag in its simplest form includes two antenna elements and two SAW devices incorporated into a Van Atta array by use of a hybrid 90° coupler. A more highly directional (and, hence, longerrange) tag would incorporate additional subunits, each incorporating a similar pair of SAW devices and a similar pair of antenna elements connected via a hybrid 90° coupler." class="caption" align="right">The fundamental problem in the present development is how to combine a Van Atta antenna array (which is inherently a multiple-port device) and one or more one-port SAW device(s) into a single, compact, passive unit that can function as a retroreflective RFID tag. The solution is to use one or more hybrid, half-power 90° couplers. A basic unit of this type, shown in Figure 2, includes a half-power 90° hybrid coupler; two identical SAW devices (SAW1 and SAW2) connected to ports 3 and 4 of the coupler, respectively; and antenna elements connected to ports 1 and 2 of the coupler. Necessarily omitting details for the sake of brevity, it must suffice to report that the phase relationships among the coupler inputs and outputs are such as to couple the incident signal from the antenna elements to the SAW devices and couple the reflected signals from the SAW devices back to the antenna elements in the phase relationships required for a Van Atta array. Hence, the reradiated signal is automatically directed back toward the interrogating transceiver and contains identifying and/or sensory information encoded in time intervals between reflections.
An initial test of a prototype extended- range passive RFID tag of this type containing two antennas yielded data indicative of a 37-percent increase in range over a comparable single-antenna tag. Assuming that the signal power needed to effect interrogation of a passive RFID device is proportional to the mathematical fourth power of distance, the corresponding increase in signal power needed to interrogate the singleantenna tag at the increased distance would be about 250 percent.
This work was done by Patrick W. Fink, Timothy F. Kennedy, and Gregory Y. Lin of Johnson Space Center; and Richard Barton of ERC.
This invention is owned by NASA, and a patent application has been filed. Inquiries concerning nonexclusive or exclusive license for its commercial development should be addressed to the Patent Counsel, Johnson Space Center, (281) 483-1003. MSC-24346-1
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