Patent application number | Description | Published |
20080319508 | Automatic Determination of the Threshold of an Evoked Neural Response - Automatically analysing an evoked neural response. The method comprises: applying electrical stimulation to a target neural region at incrementally greater current levels beginning with an initial current level that is as close as possible to a typical threshold-NRT level; recording an NRT measurement of an auditory signal which generated by the target neural region in response to the stimulation; and utilizing a machine-learned expert system to predict whether the NRT measurement contains a neural response based on a plurality of features extracted from the auditory signal. | 12-25-2008 |
20090177247 | DETERMINING STIMULATION SIGNALS FOR NEURAL STIMULATION - A tissue-stimulating prosthesis receives an input signal and determines a set of stimulation signals for use in generating electrical stimulation that will cause the recipient to perceive the input signal. The prosthesis determines a set of stimulation signals based on the perceptual power of at least one of the frequency components of the input signal or the perceptual power of one or more stimulation signals within the set. | 07-09-2009 |
20090306742 | RECOGNITION OF IMPLANTABLE MEDICAL DEVICE - Controlling the interaction between an external device and an implanted device, including a method of controlling interaction between an external device and an implanted device, the method including at least the steps of: establishing communications between the implanted device and the external device; the external device determining an identification of the implant and comparing the identification with identifications in a stored list; if the device matches one of said identifications, then using a corresponding set of operating parameters to interact with said implant; and otherwise, not interacting with said device. | 12-10-2009 |
20110015700 | PROVISION OF STIMULUS COMPONENTS HAVING VARIABLE PERCEPTABILITY TO STIMULATING DEVICE RECIPIENT - The automatic measurement of evoked compound action potential (ECAP) thresholds of the auditory nerve; that is, a neural response, concurrently with the performance of psychophysics measurements of a prosthetic hearing implant recipient. During the fitting process, a stimulus signal comprising two components is applied to each stimulation channel. One signal component is configured to elicit an ECAP neural response, referred to herein as a neural response signal component. The other component is configured to elicit a response to a psychophysics stimulation, referred to herein as a psychophysics signal component. Indications of the psychophysics measurement and the concurrently obtained neural response measurements are provided to the user. For the psychophysics measurement, this includes the selected characteristics of the psychophysics signal component since the results of the applied stimulation is a recipient behavioral or auditory response. | 01-20-2011 |
20110082521 | AUTOMATIC MEASUREMENT OF AN EVOKED NEURAL RESPONSE CONCURRENT WITH AN INDICATION OF A PSYCHOPHYSICS REACTION - A method of fitting to a recipient a cochlear implant including a plurality of stimulation channels. The method comprises applying to at least one stimulation channel of the cochlear implant a first stimulus signal comprising a neural response component and a psychophysics signal component, automatically measuring a strength of an evoked compound action potential (ECAP) of the recipient evoked in response to the application of the neural response component of the first stimulus signal, and simultaneously providing to a user an indication of the automatically measured strength of the ECAP and a value of the applied psychophysics signal component. | 04-07-2011 |
20120191161 | Systems and Methods for Detecting Nerve Stimulation with an Implanted Prosthesis - The present application discloses systems and methods for detecting non-auditory nerve stimulation with an implant having a plurality of electrodes configured to electrically stimulate a target nerve of the implant recipient. One embodiment includes generating an electrical stimulation signal with a first set of electrodes of the implant, measuring a response to the electrical stimulation signal with a second set of electrodes of the implant, and determining whether the electrical stimulation signal stimulated at least one non-target nerve of the implant recipient based on the measured response. | 07-26-2012 |
20120197065 | Systems and Methods for Using a Simplified User Interface for Hearing Prosthesis Fitting - The present application discloses systems and methods for displaying and operating a user interface having one or more channel group controllers corresponding to one or more groups of hearing prosthesis channels. The hearing prosthesis may be configured to generate a plurality of signals via a plurality of channels based on a channel profile. The channel profile may define at least one intensity level for each channel. In operation, the user interface may be configured to instruct the hearing prosthesis to change the channel profile of the plurality of channels in response to receiving an input via one of the channel group controllers. The user interface may be used to fit a hearing prosthesis to a recipient. In one embodiment, an initial channel profile may be automatically determined, and the prosthesis channel profile may be adjusted by changing a representative intensity level corresponding to the channel profile. | 08-02-2012 |
20130006328 | SIMULTANEOUS DELIVERY OF ELECTRICAL AND ACOUSTICAL STIMULATION IN A HEARING PROSTHESIS - A cochlear prosthesis comprising an electrical signal analyser configured to process a first frequency sub-range of a detected sound signal for electric stimulation of the cochlea, and a delay circuit configured to impose a delay on at least one of an electrical signal delivery path and an acoustic signal delivery path, to provide for delivery of the electrical stimulation to the cochlea at a desired time relative to a time of arrival of acoustic stimuli at the cochlea, wherein the acoustic stimuli arriving at the cochlea and the electrical stimulation delivered to the cochlea at the desired time substantially simultaneously stimulate the cochlea. | 01-03-2013 |
20130184784 | DIRECTIONAL SOUND PROCESSING IN A COCHLEAR IMPLANT - A cochlear implant implementing a directional sound processing system is provided. Specifically, the cochlear implants implementing the present invention comprise a plurality of audio sensors arranged in at least one external component of the cochlear implant to spatially receive ambient sound. At least one audio sensor is located in one of the external components of the cochlear implant, while one other audio sensor is located elsewhere, such as in a component other than the first component. The cochlear implant includes an directional sound processor comprising an array processor and a sound processor to convert the received sounds into a cochlea stimulation instruction signal. | 07-18-2013 |
20150039052 | RECOGNITION OF IMPLANTABLE MEDICAL DEVICE - Controlling the interaction between an external device and an implanted device, including a method of controlling interaction between an external device and an implanted device, the method including at least the steps of: establishing communications between the implanted device and the external device; the external device determining an identification of the implant and comparing the identification with identifications in a stored list; if the device matches one of said identifications, then using a corresponding set of operating parameters to interact with said implant; and otherwise, not interacting with said device. | 02-05-2015 |
Patent application number | Description | Published |
20100254058 | INTEGRATED CIRCUIT ARRANGEMENT FOR SAFETY CRITICAL REGULATION SYSTEMS - An integrated circuit arrangement on a common chip or chip support, for safety critical applications, in particular for use in control and regulation units for a motor vehicle braking system, including at least one microprocessor system module, which has at least one core processor, provided with at least one ROM and at least one RAM, at least one power module for controlling external users and at least one monitoring module for monitoring at least parts and/or part systems of the circuit arrangement, the circuit arrangement including at least one temperature sensor for recording a chip temperature. | 10-07-2010 |
20120075765 | SYSTEM AND METHOD FOR DRIVING A RELAY CIRCUIT - A system and method for driving a relay circuit involves driving a relay circuit using a first driver circuit if a voltage of a battery supply for the relay circuit is lower than a voltage threshold and driving the relay circuit using a second driver circuit if the voltage of the battery supply for the relay circuit is higher than the voltage threshold. | 03-29-2012 |
20120081086 | POWER SUPPLY CIRCUIT AND A METHOD FOR OPERATING A POWER SUPPLY CIRCUIT - A power supply circuit and a method for operating a power supply circuit involves selecting a normal operational mode or a pass-through operational mode for a switched mode power supply, in the normal operational mode, converting an input voltage of a power supply circuit to an intermediate voltage using a switching regulator of the switched mode power supply, in the pass-through operational mode, disabling the switching regulator such that the input voltage of the power supply circuit is unchanged by the switching regulator and an electric current consumption of the switching regulator approaches zero, and converting the intermediate voltage or the input voltage of the power supply circuit to an output voltage using a linear voltage regulator. | 04-05-2012 |
20120091985 | High Voltage Output Driver - An output driver circuit is provided. In accordance with various example embodiments, an output driver circuit includes a high-side driver circuit having transistors coupled in anti-series between a power source and an output node, and a low-side driver circuit having transistors coupled in anti-series between the output node and ground. For each transistor, a diode is connected between the source and drain of the transistor, with the diodes of the respective high-side and low-side circuits being arranged to prevent/mitigate the flow of current in opposite directions. | 04-19-2012 |
20120092043 | High Voltage Output Driver - An output driver circuit is provided. In accordance with various example embodiments, an output driver circuit includes a high-side driver circuit having transistors coupled in anti-series between a power source and an output node, and a low-side driver circuit having transistors coupled in anti-series between the output node and ground. For each transistor, a diode is connected between the source and drain of the transistor, with the diodes of the respective high-side and low-side circuits being arranged to prevent/mitigate the flow of current in opposite directions. | 04-19-2012 |
20120153723 | POWER SUPPLY CIRCUIT WITH SHARED FUNCTIONALITY AND METHOD FOR OPERATING THE POWER SUPPLY CIRCUIT - A power supply circuit and a method for operating the power supply circuit are described. In one embodiment, a power supply circuit includes at least one input terminal to receive at least one input voltage, a power element including multiple power element components configured to convert the at least one input voltage to at least one output voltage, multiple regulator controllers configured to control the power element components for the conversion of the at least one input voltage to the at least one output voltage, at least one first switch coupled to the regulator controllers and the power element components, and multiple output terminals to output the at least one output voltage. The at least one first switch is used to configure the power supply circuit to function as either one voltage regulator or multiple independent voltage regulators. Other embodiments are also described. | 06-21-2012 |
20120200276 | POWER SUPPLY CIRCUIT WITH SCALABLE PERFORMANCE AND METHOD FOR OPERATING THE POWER SUPPLY CIRCUIT - A power supply circuit and a method for operating the power supply circuit are described. In one embodiment, a power supply circuit includes multiple power elements configured to convert an input voltage to an output voltage, a driver circuit coupled to the power elements and configured to drive the power elements, a regulator controller coupled to the power elements and configured to control the power elements for the conversion of the input voltage to the output voltage, and at least one bypass switch coupled to the power elements. The at least one bypass switch is used to bypass at least one of the power elements. Other embodiments are also described. | 08-09-2012 |
20130169320 | GATE DRIVER WITH DIGITAL GROUND - Various exemplary embodiments relate to gate driver circuitry that compensate for parasitic inductances. Input buffers in the gate driver are grounded to an exposed die pad. Grounding may involve either a downbond or conductive glue. | 07-04-2013 |
20140347026 | CIRCUIT FOR VOLTAGE REGULATION - A voltage regulator circuit is provided that includes a pass circuit including a field effect transistor (FET) having a gate coupled to the output of a comparison circuit. The comparison circuit is configured to provide a signal to the pass circuit that is based on a comparison of a first input coupled to a reference voltage and a second input. The voltage regulator includes a feedback path configured and arranged to provide feedback from an output of the pass circuit to a second input of the comparison circuit. The voltage regulator also includes a current adjustment circuit configured and arranged to adjust current consumed by the comparison circuit based on a current passed by the pass circuit. | 11-27-2014 |
20150098163 | SENSOR CONTROLLED TRANSISTOR PROTECTION - A circuit for protecting a transistor is enclosed. The circuit includes a temperature sensing device coupled to the transistor and a tunable clamping circuit connected between transistor terminals, wherein the tunable clamping circuit is configured to provide an adjustable clamping voltage. A temperature controller coupled to the temperature sensing device and the tunable clamping circuit is also included. The temperature controller is configured to trigger a change in a clamping voltage of the tunable clamping circuit based on a feedback from the temperature sensing device. | 04-09-2015 |