Darley, AU
Derek I. Darley, Cromer Heights AU
Patent application number | Description | Published |
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20100137941 | TRANSFORMABLE SPEECH PROCESSOR MODULE FOR A HEARING PROSTHESIS - An external component of a cochlear implant hearing system. The external component includes a speech processor module operable in a stand-alone mode of operation and a body-worn mode of operation, a protective case configured to have said speech processor module removably mounted therein; and an operational mode controller configured to determine when said speech processor module is mounted in said case and to place said speech processor module in said body-worn mode of operation when said module is mounted in said case. | 06-03-2010 |
20100137942 | TRANSFORMABLE SPEECH PROCESSOR MODULE FOR A HEARING PROSTHESIS - A method for operating an external component of a cochlear implant hearing system. The external component includes a speech processor module operable in a stand-alone mode of operation and a body-worn mode of operation, and a protective case. The method includes operating the speech processor module in the stand-alone mode, determining when the speech processor module is mounted in the case, and operating the speech processor module in the body-worn mode in response to determining that the speech processor module is mounted in the case. | 06-03-2010 |
20120078337 | REFERENCE ELECTRODES FOR INNER EAR STIMULATION DEVICES - A reference electrode for an inner ear stimulation device is disclosed. The reference electrode is to be implanted and includes a protruding conductor portion and an insulated conducting portion connected to a lead for connection to the device. The protruding conductor portion is shaped so as to present a generally smooth surface without any substantial projections to impede removal in the event that the electrode is withdrawn in the direction of the lead. The smooth profile and lack of an undercut assist in preventing biofilm accumulation and growth. This reduces the risk of post-surgical complications such as infection. | 03-29-2012 |
Derek I. Darley, Sydney AU
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20110059331 | DIVERTING A CAPILLARY FLOW OF BRAZE MATERIAL DURING A BRAZING METHOD - A method for joining a first component to a second component with a brazing material, the first component including an aperture for receiving the second component. The method includes positioning the second component within the first component via the aperture to form a gap between an inner surface of the first component and an outer surface of the second component, introducing by capillary action brazing material into the gap between the first component and the second component, and forming a join between the first and second component upon cooling of the brazing material introduced by capillary action. According to this first aspect of the present invention, the capillary flow of brazing material in the gap is diverted via a capillary flow diverter located in the gap between the first and second component. | 03-10-2011 |
Derek Ian Darley, Cromer Heights AU
Patent application number | Description | Published |
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20080208289 | FEEDTHROUGH FOR ELECTRICAL CONNECTORS | 08-28-2008 |
20080209723 | FEEDTHROUGH FOR ELECTRICAL CONNECTORS | 09-04-2008 |
20100287770 | MANUFACTURING AN ELECTRODE CARRIER FOR AN IMPLANTABLE MEDICAL DEVICE - According to one aspect of the present invention, there is provided a method for manufacturing an electrode carrier comprising one or more electrode contacts of an implantable medical device, comprising: coupling at least one electrode to a base plate, securing the base plate in a mold, injecting the mold with injection material at least partially around the at least one electrode coupled to the base plate, curing the injected material, and decoupling the at least one electrode from the base plate such that the cured injection material is separated from the base plate. | 11-18-2010 |
20110300764 | FEEDTHROUGH FOR ELECTRICAL CONNECTORS | 12-08-2011 |
20130274826 | TRANSFORMABLE SPEECH PROCESSOR MODULE FOR A HEARING PROSTHESIS - A method for operating an external component of a cochlear implant hearing system. The external component includes a speech processor module operable in a stand-alone mode of operation and a body-worn mode of operation, and a protective case. The method includes operating the speech processor module in the stand-alone mode, determining when the speech processor module is mounted in the case, and operating the speech processor module in the body-worn mode in response to determining that the speech processor module is mounted in the case. | 10-17-2013 |
20150025595 | TRANSFORMABLE SPEECH PROCESSOR MODULE FOR A HEARING PROSTHESIS - A method for operating an external component of a cochlear implant hearing system. The external component includes a speech processor module operable in a stand-alone mode of operation and a body-worn mode of operation, and a protective case. The method includes operating the speech processor module in the stand-alone mode, determining when the speech processor module is mounted in the case, and operating the speech processor module in the body-worn mode in response to determining that the speech processor module is mounted in the case. | 01-22-2015 |
Derek Ian Darley, Cromer AU
Patent application number | Description | Published |
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20110006658 | SOLID STATE LIGHTING DEVICE WITH IMPROVED HEATSINK - A solid state lighting device includes at least one emitter and a forged heatsink arranged to receive and dissipate heat generated by emitter(s). The heatsink may have a thickness and/or profile that varies in at leats two dimensions. Fabrication of a solid state lighting device may include providing a forged heatsink, and mounting at least one solid state emitter in thermal communication with the heatsink. A space or object may be illuminated with a lighting device including at least one solid state emitter and a forged heatsink. The lighting device may be operated responsive to at least one sensor arranged to sense temperature and/or at least one characteric of light emitted by the emitter(s). | 01-13-2011 |
20120201022 | SOLID STATE LIGHTING DEVICE WITH ELONGATED HEATSINK - Solid state lighting devices include elongated heatsinks with multiple raised features each including a major surface non-parallel to a longitudinal direction of the heatsink. A device-scale heatsink including raised features may include at least a portion of a threaded rod or tube, with threads thereof forming the raised features. Raised features may also be formed by stamped and bent emitter support elements arranged to support solid state light emitters, with the emitter support elements inserted into recesses of an elongated heatsink body. | 08-09-2012 |
Ian Darley, Cromer Heights AU
Patent application number | Description | Published |
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20080269864 | Cochlear implant electrode array - A cochlear implant electrode assembly ( | 10-30-2008 |
20110040364 | ELECTRODE ASSEMBLY HAVING A FLEXIBLE TIP - A cochlear implant electrode assembly device comprising an elongate electrode carrier member, a stiffening element, and a stiffening sheath that at least partially envelops the elongate member. The member is made of a resiliently flexible first material and has a plurality of electrodes mounted thereon. The member has a first configuration that allows it to be inserted into an implantee's cochlea. The member also has a second configuration wherein the member is curved to match an inside surface of the cochlea, and at least one intermediate configuration between the first and second configurations. Both the stiffening element and sheath are made of a material that is relatively stiffer than the member. The stiffening element and the stiffening sheath in combination bias the elongate member into the first configuration. If either the stiffening element or the stiffening sheath is removed or deactivated, the elongate member adopts an intermediate configuration. | 02-17-2011 |
Ian Darley, Cromer Heights New South Wales AU
Patent application number | Description | Published |
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20090034769 | IMPLANTABLE MEDICAL DEVICE - The present invention provides an implant device comprising a shell and a printed circuit board for mounting electronic components, wherein the shell surrounds the printed circuit board and defines a large area for large electronic components mounted on the printed circuit board and a small area for smaller electronic components. The shell has a shape that is curved. The shell may consist of two layers, with one layer being thicker. Also one layer may provide openings or feedthroughs for connecting the implant to other components, such as coils and electrode arrays. | 02-05-2009 |
Ian Darley, Sydney AU
Patent application number | Description | Published |
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20110267812 | SOLID STATE LIGHTING DEVICE, AND METHOD OF ASSEMBLING THE SAME - A lighting device comprising a light emitter positioning element and first and second solid state light emitters positioned on the first light emitter positioning element, at least a first portion of the first light emitter positioning element of a spiral shape. Also, a lighting device comprising first and second solid state light emitters and means for dissipating heat from them. Also, a method of assembling a lighting device, comprising positioning a first light emitter positioning element that comprises a ledge, so that at least a part of it is in contact with a support structure, at least first and second solid state light emitters being on the positioning element, and pressing the positioning element to bring it into contact with the ledge. | 11-03-2011 |
20110267821 | LIGHTING DEVICE WITH HEAT DISSIPATION ELEMENTS - A lighting device, comprising a solid state light emitter and first and second heat dissipation elements. In some devices, (1) the first heat dissipation element is in the path of at least some of the light emitted, (2) at least half of the 25% of the surface area of a first heat dissipation element that is closest to the first solid state light emitter is exposed, (3) at least part of a heat dissipation element is transparent or reflective, and a portion light from the light emitter goes in a specified range of directions, (4) angular size of gaps between heat dissipation elements are limited, and/or (5) at least 25% of heat generated by the light emitter(s) is dissipated in regions toward which light emitted by light emitter(s) is directed. Also, a lighting device comprising a solid state light emitter and means for dissipating heat. | 11-03-2011 |