Implant communication system with frequency shift means
First Claim
1. In an implant communication system for use with an external telemetry and programming unit which generates a magnetic carrier signal at a selected frequency, and in which an implanted enclosure carries a tuned coil and a low impedance shunt circuit connected across the tuned coil including a device for modulating the impedance of the shunt circuit in accordance with a data signal to alter the phase and amplitude of a signal reradiated by said tuned coil in the presence of an externally generated magnetic carrier signal at a selected frequency, the improvement comprising:
- second shunt circuit means connected across said tuned coil including means for changing the tuning of the tuned coil to enable the tuned frequency to correspond to said selected frequency.
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Accused Products
Abstract
An implant communication system is disclosed for use with an enclosure having a tuned coil mounted therein that is implanted in a patient. A low impedance shunt circuit is connected across the tuned coil, with the impedance of the shunt circuit being modulated in accordance with a data signal. The tuned coil reradiates the phase and amplitude of an externally generated magnetic carrier signal at a selected frequency. A second shunt circuit is connected across the tuned coil for changing its tuning, to enable the tuned frequency to correspond to the selected frequency.
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Citations
7 Claims
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1. In an implant communication system for use with an external telemetry and programming unit which generates a magnetic carrier signal at a selected frequency, and in which an implanted enclosure carries a tuned coil and a low impedance shunt circuit connected across the tuned coil including a device for modulating the impedance of the shunt circuit in accordance with a data signal to alter the phase and amplitude of a signal reradiated by said tuned coil in the presence of an externally generated magnetic carrier signal at a selected frequency, the improvement comprising:
second shunt circuit means connected across said tuned coil including means for changing the tuning of the tuned coil to enable the tuned frequency to correspond to said selected frequency. - View Dependent Claims (2, 3, 4)
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5. In a tank circuit comprising a coil tuned to a first frequency, the improvement comprising:
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shunt circuit means connected across said tuned coil including means for changing the tuning of the tuned coil to enable the tuned frequency to correspond to a selected frequency, said shunt circuit comprising a pair of capacitors and a pair of FETs, with each FET having its source connected to ground and its drain connected to one of the capacitors and its gate connected to the gate of the other FETs; and means coupled to said gates for switching the state of both FETs.
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6. A process for communicating data to and from a patient, comprising the steps of:
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implanting in the patient an enclosure having a tuned coil mounted therein, said tuned coil being adapted to reradiate a signal in the presence of an externally generated carrier signal; providing across the tuned coil a variable impedance device whose resistance can be altered in response to a data signal; providing across the tuned coil a shunt circuit including a capacitor and a switch; and changing the tuning of the tuned coil by operating the switch to enable the tuned frequency to correspond to a selected frequency. - View Dependent Claims (7)
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Specification