In-ear device incorporating active noise reduction
First Claim
Patent Images
1. An in-ear device comprising:
- a housing adapted for location in or adjacent to an auditory canal, the housing having an acoustic outlet for location in the auditory canal;
a driver provided in the housing, the driver having a first acoustic impedance;
an acoustic path within the housing extending from the driver to the outlet;
a microphone provided in the acoustic path between the driver and the outlet,a second acoustic impedance provided around the periphery of the microphone and in the acoustic path,the second acoustic impedance greater than the first acoustic impedance, wherein the second acoustic impedance is such that the acoustic impedance of the in-ear device from the driver input to the microphone output over a selected audio frequency range is greater than the first acoustic impedance over the selected audio frequency range; and
a third acoustic impedance at the acoustic outlet, the acoustic outlet formed by a tube, the tube having a length longer than its diameter.
1 Assignment
0 Petitions
Accused Products
Abstract
An in-ear device incorporating active noise reduction has a housing adapted for location in or adjacent to an auditory canal. The housing contains a driver and an acoustic path is provided from the driver to an outlet of the device. A microphone and an acoustic impedance are provided in the acoustic path. The impedance increases the stability of the device.
-
Citations
19 Claims
-
1. An in-ear device comprising:
-
a housing adapted for location in or adjacent to an auditory canal, the housing having an acoustic outlet for location in the auditory canal; a driver provided in the housing, the driver having a first acoustic impedance; an acoustic path within the housing extending from the driver to the outlet; a microphone provided in the acoustic path between the driver and the outlet, a second acoustic impedance provided around the periphery of the microphone and in the acoustic path, the second acoustic impedance greater than the first acoustic impedance, wherein the second acoustic impedance is such that the acoustic impedance of the in-ear device from the driver input to the microphone output over a selected audio frequency range is greater than the first acoustic impedance over the selected audio frequency range; and a third acoustic impedance at the acoustic outlet, the acoustic outlet formed by a tube, the tube having a length longer than its diameter. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
-
-
13. An in-ear device comprising:
-
a housing adapted for location in or adjacent to an auditory ear canal, the housing having an acoustic outlet for location in the auditory ear canal; a driver provided in the housing, the driver having a first acoustic impedance; an acoustic path within the housing extending from the driver to the outlet; a microphone provided in the acoustic path between the driver and the outlet; a feedback controller for providing a signal to the driver depending upon a signal received from the microphone in order to cancel noise sensed by the microphone, and; a plurality of acoustic conduits around the periphery of the microphone, the plurality of acoustic conduits providing a second acoustic impedance adapted to improve the stability of the device, the second acoustic impedance greater than the first acoustic impedance; and wherein the second acoustic impedance is such that the acoustic impedance of the in-ear device from the driver input to the microphone output over a selected audio frequency range is greater than the first acoustic impedance over the selected audio frequency range; and a third acoustic impedance at the acoustic outlet, the acoustic outlet formed by a tube, the tube having a length longer that its diameter. - View Dependent Claims (14, 15, 16)
-
-
17. A method of controlling the stability of an in-ear device having:
-
a housing adapted for location in or adjacent to an auditory ear canal, the housing having an acoustic outlet for location in the auditory ear canal; a driver having a first acoustic impedance; an acoustic path extending from the driver to the outlet; a microphone provided in the acoustic path between the driver and the outlet; and a feedback controller for providing a signal to the driver depending upon a signal received from the microphone in order to cancel noise sensed by the microphone, the method comprising the operations of; providing an acoustic impedance around the periphery of the microphone which is sufficient to improve the stability of the device; determining the impedance of the driver over a selected audio frequency range; and selecting the acoustic impedance around the periphery of the microphone such that the acoustic impedance of the in-ear device from the driver input to the microphone output is greater than the first acoustic impedance over the selected audio frequency range. - View Dependent Claims (18, 19)
-
Specification