TRANSDUCER FOR ACOUSTIC COMMUNICATIONS
First Claim
1. A transducer for acoustic communications, the transducer comprising:
- a signal processor configured to implement a communications scheme at and around a centre frequency of at least 1 MHz;
a piezoelectric element for activation in accord with the communications scheme;
an electrode electrically connected to the signal processor, and being attached to the piezoelectric element; and
a substrate, having the piezoelectric element mounted thereon;
wherein a dimension of the electrode at the piezoelectric element is approximately equal to the acoustic wavelength of an acoustic wave in the substrate at the centre frequency, the transducer being adapted for acoustic communications through a series arrangement of fluid and solid media.
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Accused Products
Abstract
There is disclosed herein a transducer for acoustic communications through a series arrangement of fluid and solid media, the transducer comprising: a signal processor configured to implement a communications scheme at and around a centre frequency of at least 1 MHz; a piezoelectric element for activation in accord with the communications scheme; an electrode electrically connected to the signal processor, and being attached to the piezoelectric element; and a substrate, having the piezoelectric element mounted thereon, wherein an aspect of the electrode at the piezoelectric element is approximately equal to the acoustic wavelength of an acoustic wave in the substrate at the centre frequency. There is further disclosed a remote monitoring device employing at least one of the transducers described, in concert with a further transducer. Still further, there is disclosed a method of communicating using the transducer described herein.
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Citations
21 Claims
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1. A transducer for acoustic communications, the transducer comprising:
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a signal processor configured to implement a communications scheme at and around a centre frequency of at least 1 MHz; a piezoelectric element for activation in accord with the communications scheme; an electrode electrically connected to the signal processor, and being attached to the piezoelectric element; and a substrate, having the piezoelectric element mounted thereon; wherein a dimension of the electrode at the piezoelectric element is approximately equal to the acoustic wavelength of an acoustic wave in the substrate at the centre frequency, the transducer being adapted for acoustic communications through a series arrangement of fluid and solid media. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
wherein the switch is operable to select the electrode with which the signal processor communicates.
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10. A transducer according to claim 9 wherein the secondary electrode is of substantially different dimensions to another electrode of the transducer.
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11. A remote monitoring device for a vessel, the vessel defining a cavity for carrying or storing fluid, the remote monitoring device comprising:
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a first transducer according to claim 1 mounted within the cavity and operable to transmit an acoustic wave; a second transducer mounted on an external surface of the vessel and operable to receive an acoustic wave, the second transducer being substantially aligned with the first transducer; a power supply unit electrically connected to the first transducer; and a sensor within the cavity and electrically connected to the first transducer.
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12. A remote monitoring device for a vessel according to claim 11 comprising further first transducers mounted within the cavity to provide an internal array of transducers.
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13. A remote monitoring device for a vessel according to claim 11 comprising further second transducers mounted at an external surface of the vessel to provide an external array of transducers.
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14. A remote monitoring device for a vessel according to claim 12 wherein the internal array extends over a mounting surface such that the array may communicate with a receive transducer located within a predetermined region on the vessel.
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15. A remote monitoring device for a vessel according to claim 12 wherein the internal array extends over a mounting surface such that the array may communicate with a receive transducer located within a predetermined region on the vessel, and wherein the device further comprises an internal member, the internal member providing the mounting surface for the internal array.
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16. A remote monitoring device for a vessel according to claim 11 wherein the power supply comprises a generator comprising a turbine for drawing energy from an ambient fluid flow.
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17. A remote monitoring device fir a vessel according to claim 11 wherein the first transducer is co-located with a transducer operable to receive an acoustic wave, thereby defining an internal transceiver and the second transducer is co-located with a transducer operable to transmit an acoustic wave thereby defining an external transceiver.
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18. A remote monitoring device for a vessel according to claim 11 wherein the first transducer and the second transducer are each provided with a primary and a secondary electrode, the secondary electrodes being the same size as each other.
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19. A remote monitoring device for a vessel according to claim 11, wherein the first transducer and the second transducer are each provided with a primary and a secondary electrode, the secondary electrodes being differently sized than the primary electrodes.
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20. A method of communicating between an internal surface of a vessel and an external surface of the vessel, the vessel defining a cavity, the method comprising the steps of:
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providing a first transducer within the cavity, the first transducer comprising; a signal processor configured to implement a communications scheme at and around a centre frequency of at least 1 MHz; a piezoelectric element for activation in accord with the communications scheme; an electrode electrically connected to the signal processor, and being attached to the piezoelectric element; and a substrate, having the piezoelectric element mounted thereon, wherein a dimension of the electrode at the piezoelectric element is approximately equal to the acoustic wavelength of an acoustic wave in the substrate at the centre frequency; providing a receive transducer on the external surface of the vessel; receiving a sensor signal at the first transducer; digitally modulating the signal at the signal processor to provide a data stream; transmitting the data stream using acoustic waves; receiving the parallel data streams at the receive transducer; combining the parallel data streams into a data stream; and de-modulating the data to extract the sensor signal. - View Dependent Claims (21)
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Specification