Multi-coil coupling system for hearing aid applications
First Claim
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1. A hearing improvement device comprising:
- a microphone for transducing a sound field into a first electrical signal;
an amplifier for amplifying the first electrical signal into a second electrical signal; and
at least one inductor for converting the second electrical signal into a magnetic field for coupling to a telecoil of a hearing aid, wherein the microphone is amplified and coupled through the at least one inductor to the hearing aid, wherein said at least one inductor comprises a plurality of coils, and wherein the at least one inductor comprises a first inductor and a second inductor that is spatially oriented differently from the first inductor.
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Abstract
Disclosed herein is a hearing improvement device using a multi-coil coupling system and methods for operating such a device. In an embodiment according to the present invention an array microphone may be used to provide highly directional reception. The received audio signal may be filtered, amplified, and converted into a magnetic field for coupling to a telecoil in a conventional hearing aid. Multiple transmit inductors may be used to effectively couple to both in-the-ear and behind-the-ear type hearing aids, and an additional embodiment is disclosed which may be used with an earphone, for users not requiring a hearing aid.
85 Citations
30 Claims
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1. A hearing improvement device comprising:
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a microphone for transducing a sound field into a first electrical signal; an amplifier for amplifying the first electrical signal into a second electrical signal; and at least one inductor for converting the second electrical signal into a magnetic field for coupling to a telecoil of a hearing aid, wherein the microphone is amplified and coupled through the at least one inductor to the hearing aid, wherein said at least one inductor comprises a plurality of coils, and wherein the at least one inductor comprises a first inductor and a second inductor that is spatially oriented differently from the first inductor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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19. A method for processing signals, the method comprising:
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transducing a sound field into a first electrical signal; amplifying the first electrical signal into a second electrical signal; and converting the second electrical signal into a magnetic field for coupling to a telecoil of a hearing aid, wherein said converting is performed via at least a first inductor and a second inductor that is spatially oriented differently from the first inductor. - View Dependent Claims (20, 21)
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22. A hearing improvement device comprising:
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a selector that enables selection of at least one of the following;
a first sound field and a second sound field;a microphone for transducing the selected sound field into a first electrical signal; an amplifier for amplifying the first electrical signal into a second electrical signal; and at least one inductor for converting the second electrical signal into a magnetic field for coupling to a telecoil of a hearing aid, wherein the microphone is amplified and coupled through the at least one inductor to the hearing aid, wherein said at least one inductor comprises a plurality of coils, and wherein said at least one inductor comprises a first inductor and a second inductor that is spatially oriented differently from the first inductor. - View Dependent Claims (23)
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24. A hearing improvement device comprising:
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a microphone for transducing a sound field into a first electrical signal; an amplifier for amplifying the first electrical signal into a second electrical signal; and at least one inductor for converting the second electrical signal into a magnetic field for coupling to a telecoil of a hearing aid, wherein the microphone is amplified and coupled through the at least one inductor to the hearing aid, and wherein the at least one inductor comprises two inductors, wherein the first inductor is an in-the-ear (ITE) transmit inductor and the second inductor is a behind-the-ear (BTE) transmit inductor, wherein a switch is provided to at least one of enable the first inductor and disable the second inductor, enable the second inductor and disable the first inductor, enable the first and second inductors, and disable the first and second inductors.
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25. A hearing improvement device comprising:
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a microphone for transducing a sound field into a first electrical signal; an amplifier for amplifying the first electrical signal into a second electrical signal; and at least one inductor for converting the second electrical signal into a magnetic field for coupling to a telecoil of a hearing aid, wherein the microphone is amplified and coupled through the at least one inductor to the hearing aid, and wherein the at least one inductor comprises at least one of the following;
an in-the-ear (ITE) transmit inductor and a behind-the-ear (BTE) transmit inductor positioned to magnetically couple with a vertically-oriented telecoil located within at least one of the following;
an ITE hearing aid and a BTE hearing aid, wherein at least one of the following;
the ITE transmit inductor and the BTE transmit inductor comprises a coil, wherein wire gauge and number of turns of the coil are chosen to give inductance and resistance values allowing peak current, wherein peak current comprises a level of current sufficient to drive an iron core of at least one of the following;
the ITE transmit inductor and the BTE transmit inductor to a saturation edge.
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26. A hearing improvement device comprising:
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a microphone for transducing a sound field into a first electrical signal; an amplifier for amplifying the first electrical signal into a second electrical signal; and at least one inductor for converting the second electrical signal into a magnetic field for coupling to a telecoil of a hearing aid, wherein the microphone is amplified and coupled through the at least one inductor to the hearing aid, and wherein the at least one inductor comprises at least one of the following;
an in-the-ear (ITE) transmit inductor and a behind-the-ear (BTE) transmit inductor positioned to magnetically couple with a vertically-oriented telecoil located within at least one of the following;
an ITE hearing aid and a BTE hearing aid, wherein at least one of the following;
the ITE transmit inductor and the BTE transmit inductor comprises a coil, the coil comprising windings, wherein at least one of the following;
the ITE transmit inductor and the BTE transmit inductor are divided into two windings spaced a distance apart by a winding gap and the two windings are positioned on a common core, wherein the two windings are adapted to improve uniformity of the magnetic fields induced by at least one of the following;
the ITE transmit inductor and the BTE transmit inductor.
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27. A hearing improvement device comprising:
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a microphone for transducing a sound field into a first electrical signal; an amplifier for amplifying the first electrical signal into a second electrical signal; and at least one inductor for converting the second electrical signal into a magnetic field for coupling to a telecoil of a hearing aid, wherein the microphone is amplified and coupled through the at least one inductor to the hearing aid, and wherein the at least one inductor comprises at least one of the following;
an in-the-ear (ITE) transmit inductor and a behind-the-ear (BTE) transmit inductor positioned to magnetically couple with a vertically-oriented telecoil located within at least one of the following;
an ITE hearing aid and a BTE hearing aid, wherein at least one of the following;
the ITE transmit inductor and the BTE transmit inductor comprises a coil, the coil comprising windings, wherein the windings of at least one of the following;
the ITE transmit inductor and the BTE transmit inductor extend as close as practical to an end of the core to maintain a uniform field near ends of the core.
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28. A hearing improvement device comprising:
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a microphone for transducing a sound field into a first electrical signal; an amplifier for amplifying the first electrical signal into a second electrical signal; and at least one inductor for converting the second electrical signal into a magnetic field for coupling to a telecoil of a hearing aid, wherein the microphone is amplified and coupled through the at least one inductor to the hearing aid, and wherein the at least one inductor comprises an inductor pair positioned to magnetically couple with a vertically-oriented telecoil located within at least one of the following;
an ITE hearing aid and a BTE hearing aid, wherein at least one of inductors of the inductor pair comprises a coil comprising at least two windings spaced a distance apart by winding gaps, wherein the winding gaps of each inductor of the inductor pair permits inductors to overlap within respective winding gaps to minimize thickness of the inductor pair.
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29. A hearing improvement device comprising:
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a microphone for transducing a sound field into a first electrical signal; an amplifier for amplifying the first electrical signal into a second electrical signal; and at least one inductor for converting the second electrical signal into a magnetic field for coupling to a telecoil of a hearing aid, wherein the microphone is amplified and coupled through the at least one inductor to the hearing aid, and wherein the hearing improvement device produces a flat frequency response at an output of a receiving telecoil, wherein frequency-dependent drive voltage response compensates for a combined frequency response, and wherein a transmit inductor drive voltage produces a flat receiving telecoil frequency response, and wherein overall magnetic coupling response is uniform over a speech frequency range.
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30. A hearing improvement device comprising:
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a microphone for transducing a sound field into a first electrical signal; an amplifier for amplifying the first electrical signal into a second electrical signal; and at least one inductor for converting the second electrical signal into a magnetic field for coupling to a telecoil of a hearing aid, wherein the microphone is amplified and coupled through the at least one inductor to the hearing aid, and wherein the at least one inductor comprises an inductor pair, each inductor of the inductor pair comprises at least two windings spaced a distance apart by a winding gap, wherein the winding gaps of each inductor of the inductor pair permit one inductor of the inductor pair to overlap another inductor of the inductor pair at respective winding gaps of each inductor, wherein the overlapped inductors avoid buildup of field strength near a center of each inductor that would occur with a continuous winding, and wherein the overlapped inductors provide a magnetic field adapted to couple to a variety of hearing aids types comprising a range of receiving telecoil positions.
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Specification