Method and apparatus for locating passive integrated transponder tags
First Claim
1. An apparatus for locating passive integrated transponder (PIT) tags with a designated operating frequency embedded in a body, the apparatus comprising:
- an elongated and cylindrical probe, wherein the probe is configured for insertion into an incision in a body in order to advance a distal end of the probe towards one or more PIT tags within the body, the probe housing;
a single coil, the single coil located at the distal end of the probe and configured to transmit a continuous signal that resonates at a designated frequency of one or more PIT tags to be located within the body;
a depth calculation circuit configured to determine a depth of a PIT tag within the body from the distal end of the probe, the determination based at least on a signal received from the PIT tag in response to the continuous signal transmitted from the single coil;
a display device configured to display the depth determined by the depth calculation circuit; and
one or more electrical leads extending from the coil in the distal end of the probe to a connector at a proximal end of the probe in data communication with the depth calculation circuit; and
a handheld device configured for movement outside the body in order to determine a lateral position of the PIT tag within the body, wherein the handheld device is configured to identify an approximate lateral location of the PIT tag whereat the incision is placed and the elongated and cylindrical probe is inserted.
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Accused Products
Abstract
An apparatus for locating an embedded passive integrated transponder (PIT) tag is provided. An embodiment of the locating apparatus includes a resonator capable of electromagnetically coupling to the PIT tag, and a feedback circuit connected to the resonator and configured to monitor a load conductance of the resonator. A distance between the resonator and the PIT tag is indicated by a change in the monitored load conductance when the resonator and the PIT tag are electromagnetically coupled. Another embodiment includes a resonator capable of stimulating a response signal from a PIT tag, and a processing circuit capable of calculating the distance between the resonator and the PIT tag based on the amplitude of the response signal.
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Citations
8 Claims
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1. An apparatus for locating passive integrated transponder (PIT) tags with a designated operating frequency embedded in a body, the apparatus comprising:
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an elongated and cylindrical probe, wherein the probe is configured for insertion into an incision in a body in order to advance a distal end of the probe towards one or more PIT tags within the body, the probe housing; a single coil, the single coil located at the distal end of the probe and configured to transmit a continuous signal that resonates at a designated frequency of one or more PIT tags to be located within the body; a depth calculation circuit configured to determine a depth of a PIT tag within the body from the distal end of the probe, the determination based at least on a signal received from the PIT tag in response to the continuous signal transmitted from the single coil; a display device configured to display the depth determined by the depth calculation circuit; and one or more electrical leads extending from the coil in the distal end of the probe to a connector at a proximal end of the probe in data communication with the depth calculation circuit; and a handheld device configured for movement outside the body in order to determine a lateral position of the PIT tag within the body, wherein the handheld device is configured to identify an approximate lateral location of the PIT tag whereat the incision is placed and the elongated and cylindrical probe is inserted. - View Dependent Claims (2, 3, 4, 5)
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6. A method of locating an area of interest in human tissue having a transponder positioned therein, the method comprising:
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moving a reading device over the area of interest in the human tissue in order to identify an approximate lateral location of the transponder within the human tissue, wherein the reading device is configured to provide energy sufficient to power transponders when placed within a particular distance of respective transponders such that powered transponders transmit wireless data including an identifier of respective powered transponders to the reading device; receiving, via the reading device, dynamic proximity indications regarding proximity of the reading device to the transponder in the human tissue as the reading device is moved outside the human tissue with reference to the transponder; identifying, based on the dynamic proximity indications, an approximate lateral location of the transponder within the human tissue; placing an incision at the identified approximate lateral location; inserting into the incision an elongated and cylindrical probe, wherein the probe comprises; a single coil, the single coil located at a distal end of the probe and configured to transmit a continuous signal that resonates at a designated frequency of the transponder to be located within the human tissue; a depth calculation circuit configured to determine a depth of the transponder within the human tissue from the distal end of the probe, the determination based at least on a signal received from the transponder in response to the continuous signal transmitted from the single coil; a display device configured to display the depth determined by the depth calculation circuit; and one or more electrical leads extending from the coil in the distal end of the probe to a connector at a proximal end of the probe in data communication with the depth calculation circuit. - View Dependent Claims (7, 8)
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Specification