Abstract: A miniature electrical connector comprising a floating and vertically orientable spring contact within but not physically secured to an electrically-conductive connector block of a female connector wherein the spring contact and connector block are designed such that the spring contact is vertically oriented and outwardly expanded when a male connector is inserted into the female connector to provide a conductive path between a male contact of the male connector and the connector block of the female connector.

Abstract: Apparatus and methods for converting one type of speech processor unit into another type of speech processor unit.

Abstract: A cochlear implant sound processor is powered by a rechargeable battery that is permanently integrated into the sound processor. The sound processor contains an inductive coil that may be tuned to an external charging coil for battery recharging. The electronic circuits and coil of the sound processor are housed in a material transparent to RF signals. The sound processor may be placed in a recharging base station in which the sound processor is positioned in a space surrounded by the inductive charging coil embedded in a material transparent to RF signals. The inductive charging coil sends power to the coil inside the processor and thereby recharges the battery. An alternative embodiment utilizes contacts in the sound processor case and aligned terminals in the recharging base station that allow direct charging of the battery.

Abstract: Methods and systems for modifying the parameters of at least one hearing device for a patient with residual hearing provide needed orchestration of acoustic and electric stimulation of patients wearing such devices.

Abstract: Methods and systems for modifying the parameters of at least one hearing device for a patient with residual hearing provide needed orchestration of acoustic and electric stimulation of patients wearing such devices.

Abstract: A cochlear implant for a cochlear stimulation system and method of assembling the implant comprising an implantable sealed housing comprising a metal feedthrough case and a metal bottom cover and containing cochlea stimulation circuitry, the feedthrough case comprising silicone enclosed feedthrough pins for connecting an electrical lead of a cochlear electrode to the stimulation circuitry, and a moisture absorbing material comprising calcium oxide secured within the housing and sufficient in quantity to absorb moisture released by the circuitry materials and leaking into the feedthrough case at leak rates of about 1×10?7 atm cc/s to maintain the cochlear implant within acceptable internal moisture limits for at least about 60 years.

Abstract: Contrast between various frequency components of sound is enhanced through a lateral suppression strategy to provide increased speech perception in the electrically stimulated cochlea. A received audio signal is divided into a plurality of input signals, wherein each input signal is associated with a frequency band. A plurality of envelope signals are generated by determining the envelope of each of a plurality of the input signals. At least one of the envelope signals is scaled in accordance with a scaling factor to generate at least one scaled envelope signal. An output signal is generated by combining at least one envelope signal with at least one scaled envelope signal, and the cochlea is stimulated based on the generated output signal. The lateral suppression strategy can be applied to one or more frequency bands using scaled amplitude signals associated with one or more neighboring frequency bands.

Abstract: A composite stylet for facilitating insertion of an implantable electrode array into either a left or right cochlea comprises a composite having a glass transition temperature between room temperature and body temperature. While relatively stiff and straight at room temperature, the composite stylet is slidably inserted into a longitudinal lumen of the electrode array. The electrode array is then inserted into the cochlea. As the composite stylet within the electrode array warms to body temperature, it becomes compliant, allowing the electrode array to assume a spiral shape. The proximal end of the composite stylet, which is not inserted into the body, retains its stiffness to aid the implanter in inserting the electrode array.

Abstract: An assistive listening device cap attaches to a headpiece of a cochlear implant behind-the-ear (BTE) unit, an other BTE unit, an earhook, or an external component unit to supplement or replace components thereof. The cap may receive signals from sources outside the BTE unit(s), earhook, and/or external component unit. The cap communicates with the BTE unit(s), earhook, and/or external component unit using direct, wired, or wireless technology.

Abstract: Exemplary cochlear implant systems include an implantable cochlear stimulator configured to be implanted within a patient and generate a stimulation current having an adjustable current level, one or more electrodes communicatively coupled to the stimulator and configured to apply the stimulation current to one or more locations within an ear of the patient, and a probe configured to acquire sound data used to derive an acoustic reflectance of the ear. The implantable cochlear stimulator is configured to adjust the current level of the stimulation current until a change in the acoustic reflectance above a threshold is detected.

Abstract: A push-pull amplifier efficiency provides a 4:1 (12 dB) course adjustment of power output by using a single digital control input. The amplifier is provided with an input voltage (VDD) having sixteen steps ranging from 1.25 volts to 3.00 volts. Based on the digital control, an integrated circuit switches between a high power mode and a low power mode. In the low power mode, the output voltage is equivalent to the input voltage. In the high power mode, the amplifier provides an output of twice the input voltage (or four times the power).

Abstract: An electrical feedthrough includes a ceramic body and a ribbon via extending through the ceramic body, an interface between the ribbon via and the ceramic body being sealed using partial transient liquid phase bonding. The ribbon via extends out of the ceramic body and makes an electrical connection with an external device.

Abstract: An implantable hermetic system includes a hermetic case and a hermetic feedthrough sealed into an aperture in the case. The hermetic feedthrough includes vias which form electrically conductive paths through the hermetic feedthrough. A header that includes integral interconnection contacts is attached to the case. The vias are electrically joined to the interconnection contacts.

Abstract: A push-pull amplifier efficiency provides a 4:1 (12 dB) course adjustment of power output by using a single digital control input. The amplifier is provided with an input voltage (VDD) having sixteen steps ranging from 1.25 volts to 3.00 volts. Based on the digital control, an integrated circuit switches between a high power mode and a low power mode. In the low power mode, the output voltage is equivalent to the input voltage. In the high power mode, the amplifier provides an output of twice the input voltage (or four times the power).

Abstract: A cochlear implant system includes a cochlear electrode array which has a flexible body with a distal end, a plurality of electrodes supported along a length of the flexible body, and a lumen formed in the flexible body. The cochlear implant system also includes a stiffening stylet which is fully inserted into the lumen prior to insertion of the electrode array into the cochlea. The stiffening stylet is configured such the stylet does not extend to the distal end of the flexible body and remains stationary within the lumen to prevent buckling of the electrode array during insertion of the electrode array through a cochleostomy and into the cochlea. The stiffening stylet is configured to be withdrawn from the lumen after the electrode array is positioned within the cochlea. A method for implanting an electrode array into a cochlea is also provided.

Abstract: Optimizing pitch allocation in a cochlear stimulation system may include implanting an electrode array having a plurality of electrodes into the cochlea of a patient, where the electrode array has an associated implant fitting characteristic that defines a relationship between the implanted electrode array and audio frequencies, presenting sounds through the electrode array to the patient, receiving from the patient a selection of one of the sounds that most closely conforms to a single note, and determining a slope of the implant fitting characteristic of the electrode array based on the sound selected by the patient. Each sound may include a fundamental frequency and one or more harmonics. The optimization may also include changing a center frequency of a band pass filter associated with each electrode based on the determined slope.

Abstract: A cochlear lead includes a plurality of electrodes configured to stimulate an auditory nerve from within a cochlea and a flexible body supporting the plurality of electrodes along a length of the flexible body. A stiffening element is slidably encapsulated within the flexible body and positioned such that the stiffening element plastically deforms upon insertion into a curved portion of the cochlea.

Abstract: A case for use with a speech processor unit including a housing configured to receive the speech processor unit and a connector configured to be connected to a connector on the speech processor unit.

Abstract: A miniature electrical connector comprising a floating and vertically orientable spring contact within but not physically secured to an electrically-conductive connector block of a female connector wherein the spring contact and connector block are designed such that the spring contact is vertically oriented and outwardly expanded when a male connector is inserted into the female connector to provide a conductive path between a male contact of the male connector and the connector block of the female connector.

Abstract: A system and method for generating a beamforming signal is disclosed. A beam forming signal is generated by disposing a first microphone and a second microphone in horizontal coplanar alignment. The first and second microphones are used to detect a known signal to generate a first response and a second response. The first response is processed along a first signal path communicatively linked to the first microphone, and the second response is processed along a second signal path communicatively linked to the second microphone. The first and second responses are matched, and the matched responses are combined to generate the beamforming signal on a combined signal path.