Integrated circuit fractal antenna in a hearing aid device
First Claim
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1. A fractal antenna, comprising:
- a plurality of connected conductive material portions forming an array of a plurality of fractal elements, wherein each fractal element comprises two linear elements intersecting at substantially right angles substantially at their midpoints, and said plurality of fractal elements are repeated in a plurality of scales and orientations.
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Abstract
A fractal antenna can be incorporated in a hearing device to optimize wireless communication capabilities of such a device. A particular fractal structure having fractals of a generally + shaped geometry can be advantageous when used as a fractal antenna. The fractal antenna is implemented as a conductive trace on a substrate and can be implemented on an integrated circuit in the hearing aid device.
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Citations
16 Claims
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1. A fractal antenna, comprising:
a plurality of connected conductive material portions forming an array of a plurality of fractal elements, wherein each fractal element comprises two linear elements intersecting at substantially right angles substantially at their midpoints, and said plurality of fractal elements are repeated in a plurality of scales and orientations.
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2. An integrated circuit, comprising:
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a semiconductor substrate; and
a conductive pattern, defining a plurality of fractal elements of different dimensions, disposed on said semiconductor substrate, wherein each of said fractal elements comprises two linear elements intersecting at substantially right angles substantially at their midpoints. - View Dependent Claims (3, 4)
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5. A programmable hearing aid, configured to transmit and/or receive a signal to and/or from a programming device, comprising:
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a semiconductor substrate;
a conductive pattern, disposed on said semiconductor substrate so as to transmit and/or receive a signal to and/or from said programming device, wherein said conductive pattern comprises a plurality of fractal elements of different scales and orientations, and wherein each fractal element comprises two linear elements intersecting at substantially right angles substantially at their midpoints; and
transmit and/or receive circuitry, disposed on said semiconductor substrate, coupled to said conductive pattern and configured to receive and process a signal from said conductive pattern, and/or process a signal to be transmitted to said conductive pattern.
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6. A method of programming a plurality of parameters in a wireless hearing aid, comprising:
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receiving a programming signal at a fractal antenna in said hearing aid, wherein said fractal antenna comprises a conductive pattern disposed on a substrate, and wherein said conductive pattern comprises a plurality of fractal elements, repeated in multiple scales and orientations, and wherein each fractal element comprises two linear elements intersecting at substantially right angles substantially at their midpoints;
processing said programming signal in a receiver circuit in said hearing aid, thereby producing a processed programming signal, said receiver circuit coupled to said fractal antenna; and
modifying at least one parameter in said hearing aid with at least one of said parameters from said processed programming signal. - View Dependent Claims (7)
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8. A hearing aid comprising a semiconductor substrate having a conductive pattern deposited thereon, wherein said conductive pattern comprises a plurality of fractal elements, repeated in multiple scales and orientations, and wherein each fractal element comprises two linear elements intersecting at substantially right angles substantially at their midpoints.
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9. A hearing aid, comprising:
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a transmission line deposited on a semiconductor substrate; and
a conductive pattern deposited on said semiconductor substrate, wherein said conductive pattern is coupled to said transmission line, wherein said conductive pattern comprises a plurality of fractal elements, repeated in multiple scales and orientations, wherein each fractal element comprises two linear elements intersecting at substantially right angles substantially at their midpoints, and wherein a signal is transmitted by said conductive pattern in pulses. - View Dependent Claims (10, 11, 12)
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13. A hearing aid, comprising:
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a transmission line deposited on a semiconductor substrate, wherein said transmission line has a plurality of holes, void of conducting material; and
a conductive pattern deposited on said semiconductor substrate, wherein said conductive pattern is coupled to said transmission line, wherein said conductive pattern comprises a plurality of fractal elements, repeated in multiple scales and orientations.
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14. A hearing aid, comprising:
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a transmission line deposited on a semiconductor substrate, wherein said transmission line has multiple, tapered portions, and wherein said tapered portions are formed using a fraction of an outline of an ellipse; and
a conductive pattern deposited on said semiconductor substrate, wherein said conductive pattern is coupled to said transmission line, and wherein said conductive pattern comprises a plurality of fractal elements, repeated in multiple scales and orientations.
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15. A hearing aid, comprising:
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a transmission line deposited on a semiconductor substrate;
a conductive pattern deposited on said semiconductor substrate, wherein said conductive pattern is coupled to said transmission line, wherein said conductive pattern comprises a plurality of fractal elements, repeated in multiple scales and orientations, and wherein a signal is transmitted by said conductive pattern in pulses; and
a pulse forming network, coupled to said transmission line and comprising a capacitor and a transistor, wherein said pulses are formed by said pulse forming network, wherein said capacitor is formed on said semiconductor substrate, and wherein said capacitor comprises a plurality of slots void of conducting material.
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16. A method of wirelessly communicating with a hearing aid, comprising sending an electromagnetic transmission signal to a fractal antenna in said hearing aid, wherein said fractal antenna comprises a conductive pattern disposed on a substrate, and wherein said conductive pattern comprises a plurality of fractal elements, repeated in multiple scales and orientations, and wherein each of said fractal elements comprises two linear elements intersecting at substantially right angles substantially at their midpoints.
Specification