Ultrasound transdermal communication system and method
First Claim
1. A communication system, comprising:
- a first communication device configured to be implanted inside an enclosure, the enclosure having a medium capable of transmitting communication signals;
a second communication device configured to be located outside the enclosure;
a second transmitter, coupled to the second communication device, and configured to generate a first carrier signal into the enclosure during communication from the first communication device to the second communication device;
a first receiver, coupled to the first communication device, and configured to receive the first carrier signal;
a first power generator, coupled to the first receiver, and configured to generate a power supply derived from the first carrier signal;
a first transmitter, coupled to the power supply, and configured to generate a second carrier signal from the power supply;
a first modulator, coupled to the first transmitter, and configured to modulate the second carrier signal with information to be transmitted from the first communication device to the second communication device;
a second receiver, coupled to the second communication device, and configured to receive the modulated second carrier signal; and
a second demodulator, coupled to the second communication device, and configured to demodulate the modulated second carrier signal,the first receiver and the second transmitter configured to form a mechanically tuned circuit having a value of Q during transmission of information signals of a first logical state and a second Q value during transmission of second information signals of a second logical state during communication from the second communication device to the first communication device,the second receiver and the first transmitter further configured to form the mechanically tuned circuit having the first value of Q during transmission of information signals of the first logical state and the second Q value during transmission of second information signals of the second logical state during communication from the first communication device to the second communication device,whereby the information signals are communicated from the first communication device to the second communication device, or vice versa, by way of mechanical vibrations through the enclosure.
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Accused Products
Abstract
A system for communicating through the skin of a patient, the system including an internal communication device implanted inside the body of a patient and an external communication device. The external communication device includes an external transmitter which transmits a carrier signal into the body of the patient during communication from the internal communication device to the external communication device. The internal communication device includes an internal modulator which modulates the carrier signal with information by selectively reflecting the carrier signal or not reflecting the carrier signal. The external communication device demodulates the carrier signal by detecting when the carrier signal is reflected and when the carrier signal is not reflected through the skin of the patient. When the reflected carrier signal is detected, it is interpreted as data of a first state, and when the reelected carrier signal is not detected, it is interpreted as data of a second state. Accordingly, the internal communication device consumes relatively little power because the carrier signal used to carry the information is derived from the external communication device. Further, transfer of data is also very efficient because the period needed to modulate information of either the first state or the second state onto the carrier signal is the same. In one embodiment, the carrier signal operates in the ultrasound frequency range.
503 Citations
19 Claims
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1. A communication system, comprising:
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a first communication device configured to be implanted inside an enclosure, the enclosure having a medium capable of transmitting communication signals; a second communication device configured to be located outside the enclosure; a second transmitter, coupled to the second communication device, and configured to generate a first carrier signal into the enclosure during communication from the first communication device to the second communication device; a first receiver, coupled to the first communication device, and configured to receive the first carrier signal; a first power generator, coupled to the first receiver, and configured to generate a power supply derived from the first carrier signal; a first transmitter, coupled to the power supply, and configured to generate a second carrier signal from the power supply; a first modulator, coupled to the first transmitter, and configured to modulate the second carrier signal with information to be transmitted from the first communication device to the second communication device; a second receiver, coupled to the second communication device, and configured to receive the modulated second carrier signal; and a second demodulator, coupled to the second communication device, and configured to demodulate the modulated second carrier signal, the first receiver and the second transmitter configured to form a mechanically tuned circuit having a value of Q during transmission of information signals of a first logical state and a second Q value during transmission of second information signals of a second logical state during communication from the second communication device to the first communication device, the second receiver and the first transmitter further configured to form the mechanically tuned circuit having the first value of Q during transmission of information signals of the first logical state and the second Q value during transmission of second information signals of the second logical state during communication from the first communication device to the second communication device, whereby the information signals are communicated from the first communication device to the second communication device, or vice versa, by way of mechanical vibrations through the enclosure. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A method of providing a communication system, comprising the steps of:
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providing a first communication device configured to be implanted in an enclosure with a medium capable of transmitting communication signals; providing a second communication device configured to be located outside the enclosure; providing a second transmitter, coupled to the second communication device, and configured to transmit a first carrier signal into the enclosure during communication from the first communication device to the second communication device; providing a first receiver, coupled to the first communication device, and configured to receive the first carrier signal; providing a first power generator, coupled to the first receiver, and configured to generate a power supply derived from the first carrier signal; providing a first transmitter, coupled to the power supply, and configured to generate a second carrier signal from the power supply; providing a first modulator, coupled to the first transmitter, and configured to modulate the second carrier signal with information to be transmitted from the first communication device to the second communication device; providing a second receiver, coupled to the second communication device, and configured to receive the modulated second carrier signal; and providing a second demodulator, coupled to the second communication device, and configured to demodulate the second carrier signal, the first receiver and the second transmitter configured to form a mechanically tuned circuit having a value of Q during transmission of information signals of a first logical state and a second Q value during transmission of second information signals of a second logical state during communication from the second communication device to the first communication device, the second receiver and the first transmitter further configured to form the mechanically tuned circuit having the first value of Q during transmission of information signals of the first logical state and the second Q value during transmission of second information signals of the second logical state during communication from the first communication device to the second communication device, whereby the information signals are communicated from the first communication device to the second communication device, or vice versa, by way of mechanical vibrations through the enclosure. - View Dependent Claims (17)
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18. A communication system, comprising:
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a first communication device configured to be implanted inside an enclosure, the enclosure having a medium capable of transmitting communication signals; a second communication device configured to be located outside the enclosure; a second transmitter, coupled to the second communication device, and configured to generate a first carrier signal into the enclosure during communication from the first communication device to the second communication device; a first receiver, coupled to a processing unit in the first communication device, and configured to receive the first carrier signal; a first transmitter configured to generate a second carrier signal; a first modulator, coupled to the first transmitter, and configured to modulate the second carrier signal with information to be transmitted from the first communication device to the second communication device; a power generator coupled to the first modulator and the processing unit; a second receiver, coupled to the second communication device, and configured to receive the modulated second carrier signal; and a second demodulator, coupled to the second communication device, and configured to demodulate the modulated second carrier signal, the first receiver and the second transmitter configured to form a mechanically tuned circuit having a value of Q during transmission of information signals of a first logical state and a second Q value during transmission of second information signals of second logical state during communication from the second communication device to the fist communication device. the second receiver and the first transmitter further configured to form the mechanically tuned circuit having the first value of Q during transmission of information signals of the first logical state and the second Q value during transmission of second information signals of the second logical state during communication from the first communication device to the second communication device, whereby the information signals are communicated from the first communication device to the second communication device. or vice versa, by way of mechanical vibrations through the enclosure. - View Dependent Claims (19)
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Specification