Wide band through-body ultrasonic communication system
First Claim
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1. An ultrasonic through-body communication device comprising:
- a transmitter adapted to provide data for transmission to a receiver;
a data encoder adapted to receive the data provided by the transmitter, wherein the data encoder performs a DC-free data encoding of the data into an encoded data signal;
a transducer driver adapted to receive the encoded data signal, wherein the transducer driver is adapted to provide an amplified drive signal comprising the encoded data signal;
a CMUT transducer adapted to operate at an ultrasonic frequency band and responsive to the amplified drive signal, wherein the CMUT transducer is adapted to be acoustically coupled to a water-like body to transmit broadband ultrasonic data signals comprising the encoded data signal through the body for reception by the receiver, wherein the ultrasonic frequency band at which the broadband ultrasonic data signals are transmitted comprises frequencies between 100 kHz to 40 MHz; and
a bias circuit adapted to provide a bias voltage to collapse the CMUT transducer such that the CMUT transducer operates in a collapsed mode to wirelessly transmit the broadband ultrasonic data signals to the receiver at a data transfer rate of at least 1 Mb/sec.
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Abstract
A wide band through-body communication system communicates data through the body ultrasonically. A MEMS device such as a CMUT transducer is configured to transmit and/or receive ultrasonic data signals within a broad band of operating frequencies. The transducer transmits the ultrasonic data signals through the body to a similarly configured ultrasonic receiver, and/or receives ultrasonic data signals which have been conveyed through the body from a similarly configured ultrasonic transmitter for decoding and processing. In a preferred implementation a CMUT transducer is operated in a collapsed mode.
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Citations
14 Claims
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1. An ultrasonic through-body communication device comprising:
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a transmitter adapted to provide data for transmission to a receiver; a data encoder adapted to receive the data provided by the transmitter, wherein the data encoder performs a DC-free data encoding of the data into an encoded data signal; a transducer driver adapted to receive the encoded data signal, wherein the transducer driver is adapted to provide an amplified drive signal comprising the encoded data signal; a CMUT transducer adapted to operate at an ultrasonic frequency band and responsive to the amplified drive signal, wherein the CMUT transducer is adapted to be acoustically coupled to a water-like body to transmit broadband ultrasonic data signals comprising the encoded data signal through the body for reception by the receiver, wherein the ultrasonic frequency band at which the broadband ultrasonic data signals are transmitted comprises frequencies between 100 kHz to 40 MHz; and a bias circuit adapted to provide a bias voltage to collapse the CMUT transducer such that the CMUT transducer operates in a collapsed mode to wirelessly transmit the broadband ultrasonic data signals to the receiver at a data transfer rate of at least 1 Mb/sec. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An ultrasonic through-body communication device comprising:
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a CMUT transducer adapted to be acoustically coupled to a water-like body and to receive broadband ultrasonic data signals which have traveled through the body from a transmitter, the broadband ultrasonic data signals comprising an encoded data signal, wherein the broadband ultrasonic data signals are transmitted at a frequency band between 100 kHz up to about 40 MHz, and wherein the broadband ultrasonic data signals are received by the CMUT transducer by applying a bias voltage to collapse the CMUT transducer such that the CMUT transducer operates in a collapsed mode to wirelessly receive the broadband ultrasonic data signals from the transmitter at a data transfer rate of at least 1 Mb/sec; a bias circuit coupled to the CMUT transducer to provide the bias voltage; an amplifier, coupled to the CMUT transducer and adapted to amplify the received broadband ultrasonic data signals; a receiver adapted to receive the amplified broadband ultrasonic data signals and to extract the encoded data signal from the received broadband ultrasonic data signals; and a decoder adapted to decode an information data signal from the encoded data signal using a DC-free data encoding. - View Dependent Claims (10, 11, 12)
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13. An ultrasonic through-body communication transceiver comprising:
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a CMUT transducer adapted to be acoustically coupled to a water-like body, wherein the CMUT transducer is further adapted to transmit first broadband ultrasonic data signals through the body and to receive second broadband ultrasonic data signals from a transmitter which have traveled through the body, wherein the CMUT transducer transmits the first broadband ultrasonic data signals a frequency band between 100 kHz up to about 40 MHz; a transmitter providing data to a receiver; a data encoder adapted to receive the data provided by the transmitter, wherein the data encoder performs a DC-free data encoding of the data into an encoded data signal; a transducer driver adapted to receive the encoded data signal, wherein the transducer driver is adapted to provide an amplified drive signal to the CMUT transducer; a bias circuit coupled to the CMUT transducer to provide a bias voltage to collapse the CMUT transducer to operate in a collapsed mode to wirelessly transmit the first broadband ultrasonic data signals at a data transfer rate of at least 1 Mb/sec; an amplifier, coupled to the CMUT transducer, which amplifies the received second broadband ultrasonic data signals; a receiver adapted to receive the amplified second broadband ultrasonic data signals and to extract the encoded data signal from the received second broadband ultrasonic data signals; and a decoder adapted to decode information data signals from the encoded data signal using the DC-free data encoding. - View Dependent Claims (14)
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Specification