Patents by Inventor Steven T. Deininger
Steven T. Deininger has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Publication number: 20160317819Abstract: Medical devices provide metallic connector enclosures. The metallic connector enclosures may be constructed with relatively thin walls in comparison to polymer connector enclosures to aid in miniaturizing the medical device. The metallic connector enclosures may be constructed with interior surfaces that deviate less from an ideal inner surface shape in comparison to polymer connector enclosures to allow for better concentricity of electrical connectors. The metallic connector enclosures may include a panel that allows access to the cavity of the connector enclosure where set screw blocks, lead connectors, spacers, seals, and the like may be located. Furthermore, the lead connectors within the metallic connector enclosures may be separated from the metallic connector enclosure by being positioned within non-conductive seals that reside within features included in cavity walls of the connector enclosure.Type: ApplicationFiled: July 14, 2016Publication date: November 3, 2016Inventors: Steven T. Deininger, Jeffrey J. Clayton, Charles E. Peters
-
Patent number: 9393431Abstract: Medical devices provide metallic connector enclosures. The metallic connector enclosures may be constructed with relatively thin walls in comparison to polymer connector enclosures to aid in miniaturizing the medical device. The metallic connector enclosures may be constructed with interior surfaces that deviate less from an ideal inner surface shape in comparison to polymer connector enclosures to allow for better concentricity of electrical connectors. The metallic connector enclosures may include a panel that allows access to the cavity of the connector enclosure where set screw blocks, lead connectors, spacers, seals, and the like may be located. Furthermore, the lead connectors within the metallic connector enclosures may be separated from the metallic connector enclosure by being positioned within non-conductive seals that reside within features included in cavity walls of the connector enclosure.Type: GrantFiled: September 25, 2015Date of Patent: July 19, 2016Assignee: MEDTRONIC, INC.Inventors: Steven T. Deininger, Jeffrey J. Clayton, Charles E. Peters
-
Publication number: 20160184594Abstract: Implantable medical devices include header structures with conductive paths from the feedthrough conductors that may be located on one side of the device to electrical connectors that may be located on an opposite side of the device. The conductive paths may include conductive interconnect pins and lead frame conductors. The conductive interconnect pins may be located in holes present in a header body where the conductive interconnect pins are attached to the feedthrough conductors on one end and are attached to the lead frame conductors on the opposite end. The lead frame conductors then extend to the corresponding electrical connectors. The header body may provide cavities on each side to allow for the insertion of stack assemblies that include the electrical connectors and lead frame conductors.Type: ApplicationFiled: December 29, 2015Publication date: June 30, 2016Inventors: Michael J. Baade, Katherine J. Bach, Steven T. Deininger
-
Publication number: 20160008606Abstract: Medical devices provide metallic connector enclosures. The metallic connector enclosures may be constructed with relatively thin walls in comparison to polymer connector enclosures to aid in miniaturizing the medical device. The metallic connector enclosures may be constructed with interior surfaces that deviate less from an ideal inner surface shape in comparison to polymer connector enclosures to allow for better concentricity of electrical connectors. The metallic connector enclosures may include a panel that allows access to the cavity of the connector enclosure where set screw blocks, lead connectors, spacers, seals, and the like may be located. Furthermore, the lead connectors within the metallic connector enclosures may be separated from the metallic connector enclosure by being positioned within non-conductive seals that reside within features included in cavity walls of the connector enclosure.Type: ApplicationFiled: September 25, 2015Publication date: January 14, 2016Inventors: Steven T. Deininger, Jeffrey J. Clayton, Charles E. Peters
-
Patent number: 9144689Abstract: Medical devices provide metallic connector enclosures. The metallic connector enclosures may be constructed with relatively thin wails in comparison to polymer connector enclosures to aid in miniaturizing the medical device. The metallic connector enclosures may be constructed with interior surfaces that deviate less from an ideal inner surface shape in comparison to polymer connector enclosures to allow for better concentricity of electrical connectors. The metallic connector enclosures may include a panel that allows access to the cavity of the connector enclosure where set screw blocks, lead connectors, spacers, seals, and the like may be located. Furthermore, the lead connectors within the metallic connector enclosures may be separated from the metallic connector enclosure by being positioned within non-conductive seals that reside within features included in cavity walls of the connector enclosure.Type: GrantFiled: December 19, 2011Date of Patent: September 29, 2015Assignee: MEDTRONIC, INC.Inventors: Steven T. Deininger, Jeffrey Clayton, Charles E. Peters
-
Patent number: 9138588Abstract: Medical devices provide a connector enclosure that includes a feedthrough integrated into the base of the connector enclosure. The feedthrough may include feedthrough passageways that align longitudinally with lead connectors of the connector enclosure where feedthrough pins extend from the lead connectors through the feedthrough passageways. The feedthrough may also include filter plates mounted to the base of the connector enclosure to provide an integrated filtered feedthrough. Additionally, the connector enclosure may include metallic features such as the base and one or more walls that define an enclosure of the lead connectors. The base may be bonded to the can of the medical device to provide a hermetic seal such that the feedthrough integrated into the base eliminates the need for a feedthrough for the can.Type: GrantFiled: December 19, 2011Date of Patent: September 22, 2015Assignee: MEDTRONIC, INC.Inventors: Steven T. Deininger, Jeffrey Clayton, Charles E. Peters
-
Patent number: 9138587Abstract: Medical devices provide connector enclosures that have a metallic portion that has a metallic weld to a metallic portion of a can that houses medical circuitry. The connector enclosure may have a metallic base that receives the metallic weld to the can. The can may have an open top that is capped by the metallic base of the connector enclosure upon mounting the connector enclosure to the can, and the metallic weld to the base of the connector enclosure may create a hermetic seal for the can. The metallic base may provide feedthrough pin passageways where feedthrough pins are present within the connector enclosure and are exposed beyond the metallic base for connection to medical circuitry within the can. The connector enclosure may also include additional metal features where an enclosure for the lead connectors may have walls that are entirely metal.Type: GrantFiled: December 19, 2011Date of Patent: September 22, 2015Assignee: MEDTRONIC, INC.Inventors: Steven T. Deininger, Jeffrey Clayton, Charles E. Peters
-
Patent number: 8903473Abstract: A radiopaque marker for inclusion within an implantable medical device (IMD) may comprise one or more radiopaque articles selected from a predetermined set of radiopaque articles. The one or more radiopaque articles may be carried by an object formed of or including, a desiccant. The predetermined set of radiopaque articles may undergo a single qualification process that approves the use of any combination of one or more of the articles as a radiopaque marker within an IMD. This allows a potentially-limitless number of markers to be made available based on a single qualification process. The radiopaque marker may serve to provide information such as the make, model, and feature set of the device.Type: GrantFiled: October 26, 2011Date of Patent: December 2, 2014Assignee: Medtronic, Inc.Inventors: Charles R. Rogers, David D. Differding, John M. Gray, Michael J. Baade, Katherine J. Bach, Steven D. Byland, Steven T. Deininger
-
Publication number: 20140322964Abstract: Medical devices provide connector enclosures that have a metallic portion that has a metallic weld to a metallic portion of a can that houses medical circuitry. The connector enclosure may have a metallic base that receives the metallic weld to the can. The can may have an open top that is capped by the metallic base of the connector enclosure upon mounting the connector enclosure to the can, and the metallic weld to the base of the connector enclosure may create a hermetic seal for the can. The metallic base may provide feedthrough pin passageways where feedthrough pins are present within the connector enclosure and are exposed beyond the metallic base for connection to medical circuitry within the can. The connector enclosure may also include additional metal features where an enclosure for the lead connectors may have walls that are entirely metal.Type: ApplicationFiled: December 19, 2011Publication date: October 30, 2014Inventors: Steven T. Deininger, Jeffrey Clayton, Charles E. Peters
-
Publication number: 20140295688Abstract: Medical devices provide metallic connector enclosures. The metallic connector enclosures may be constructed with relatively thin wails in comparison to polymer connector enclosures to aid in miniaturizing the medical device. The metallic connector enclosures may be constructed with interior surfaces that deviate less from an ideal inner surface shape in comparison to polymer connector enclosures to allow for better concentricity of electrical connectors. The metallic connector enclosures may include a panel that allows access to the cavity of the connector enclosure where set screw blocks, lead connectors, spacers, seals, and the like may be located. Furthermore, the lead connectors within the metallic connector enclosures may be separated from the metallic connector enclosure by being positioned within non-conductive seals that reside within features included in cavity walls of the connector enclosure.Type: ApplicationFiled: December 19, 2011Publication date: October 2, 2014Applicant: Medtronic, Inc.Inventors: Steven T. Deininger, Jeffrey J. Clayton, Charles E. Peters
-
Publication number: 20140146447Abstract: Medical devices provide a connector enclosure that includes a feedthrough integrated into the base of the connector enclosure. The feedthrough may include feedthrough passageways that align longitudinally with lead connectors of the connector enclosure where feedthrough pins extend from the lead connectors through the feedthrough passageways. The feedthrough may also include filter plates mounted to the base of the connector enclosure to provide an integrated filtered feedthrough. Additionally, the connector enclosure may include metallic features such as the base and one or more walls that define an enclosure of the lead connectors. The base may be bonded to the can of the medical device to provide a hermetic seal such that the feedthrough integrated into the base eliminates the need for a feedthrough for the can.Type: ApplicationFiled: December 19, 2011Publication date: May 29, 2014Applicant: Medtronic, Inc.Inventors: Steven T. Deininger, Jeffrey J. Clayton, Charles E. Peters
-
Publication number: 20140049924Abstract: Implantable medical devices include connector enclosure assemblies that utilize conductors electrically coupled to feedthrough pins that extend into a can where electrical circuitry is housed. The conductors may be coupled to the feedthrough pins and to capacitor plates within a filter capacitor by an electrically conductive bonding material and as a single bonding event during manufacturing. The base plate of the connector enclosure assembly may also include a ground pin. Ground capacitor plates may be present at a ground aperture of the filter capacitor where the ground pin passes through so that the ground pin, a ground conductor, and the ground capacitor plate may be coupled. A protective cover may be provided for the connector enclosure assembly to enclose the conductors intended to extend into the can prior to the assembly being joined to the can. Conductors may be attached to a common tab that is subsequently removed.Type: ApplicationFiled: January 20, 2012Publication date: February 20, 2014Applicant: Medtronic, Inc.Inventors: Steven T. Deininger, Michael J. Baade, Rajesh V. Iyer
-
Publication number: 20140043739Abstract: Implantable medical devices include connector enclosure assemblies that utilize conductors electrically coupled to feedthrough pins that extend into a can where electrical circuitry is housed. The conductors may be coupled to the feedthrough pins and to capacitor plates within a filter capacitor by an electrically conductive bonding material and as a single bonding event during manufacturing. The base plate of the connector enclosure assembly may also include a ground pin. Ground capacitor plates may be present at a ground aperture of the filter capacitor where the ground pin passes through so that the ground pin, a ground conductor, and the ground capacitor plate may be coupled. A protective cover may be provided for the connector enclosure assembly to enclose the conductors intended to extend into the can prior to the assembly being joined to the can. Conductors may be attached to a common tab that is subsequently removed.Type: ApplicationFiled: January 20, 2012Publication date: February 13, 2014Applicant: Medtronic, Inc.Inventors: Steven T. Deininger, Michael J. Baade, Rajesh V. Iyer
-
Patent number: 8593816Abstract: A connector assembly for an implantable medical device includes a plurality of feedthroughs mounted in a conductive array plate, each feedthrough in the plurality of feedthroughs including a feedthrough pin electrically isolated from the conductive array plate by an insulator and an electronic module assembly including a plurality of conductive strips set in a non-conductive block. The plurality of conductive strips is in physical and electrical contact with the feedthrough pins at an angle of less than 135 degrees. The connector assembly further includes at least one circuit, the circuit including a plurality of conductors corresponding to the plurality of feedthroughs. The plurality of conductors of the circuit is in physical and electrical contact with a corresponding one of the conductive strips of the plurality of conductive strips of the electronic module assembly at an angle of less than 135 degrees.Type: GrantFiled: September 21, 2011Date of Patent: November 26, 2013Assignee: Medtronic, Inc.Inventors: Rajesh V. Iyer, Michael G. Marinkov, Lea A. Nygren, Jeffrey J. Clayton, James Strom, Thomas E. Meyer, Steven T. Deininger, Wayne R. Kuechenmeister
-
Publication number: 20130070423Abstract: A connector assembly for an implantable medical device includes a plurality of feedthroughs mounted in a conductive array plate, each feedthrough in the plurality of feedthroughs including a feedthrough pin electrically isolated from the conductive array plate by an insulator and an electronic module assembly including a plurality of conductive strips set in a non-conductive block. The plurality of conductive strips is in physical and electrical contact with the feedthrough pins at an angle of less than 135 degrees. The connector assembly further includes at least one circuit, the circuit including a plurality of conductors corresponding to the plurality of feedthroughs. The plurality of conductors of the circuit is in physical and electrical contact with a corresponding one of the conductive strips of the plurality of conductive strips of the electronic module assembly at an angle of less than 135 degrees.Type: ApplicationFiled: September 21, 2011Publication date: March 21, 2013Applicant: Medtronic, Inc.Inventors: Rajesh V. Iyer, Michael G. Marinkov, Lea A. Nygren, Jeffrey J. Clayton, James Strom, Thomas E. Meyer, Steven T. Deininger, Wayne R. Kuechenmeister
-
Publication number: 20120203314Abstract: Connector enclosure assemblies for medical devices provide an angled lead passageway. The lead passageway which is defined by electrical connectors and intervening seals within the connector enclosure assembly establishes the angle relative to a base plane of the connector enclosure assembly. Various other aspects may be included in conjunction with the angled lead passageway, including an angled housing of the connector enclosure assembly, feedthrough pins that extend to the electrical connectors where the feedthrough pins may include angled sections, and a set screw passageway set at an angle relative to the lead passageway to provide fixation of a lead within the lead passageway.Type: ApplicationFiled: April 18, 2012Publication date: August 9, 2012Applicant: Medtronic, Inc.Inventors: Steven T. Deininger, Michael J. Baade, Katherine J. Bach, Van L. Snyder
-
Publication number: 20120203292Abstract: Connector enclosure assemblies for medical devices provide an angled lead passageway. The lead passageway which is defined by electrical connectors and intervening seals within the connector enclosure assembly establishes the angle relative to a base plane of the connector enclosure assembly. Various other aspects may be included in conjunction with the angled lead passageway, including an angled housing of the connector enclosure assembly, feedthrough pins that extend to the electrical connectors where the feedthrough pins may include angled sections, and a set screw passageway set at an angle relative to the lead passageway to provide fixation of a lead within the lead passageway.Type: ApplicationFiled: April 18, 2012Publication date: August 9, 2012Applicant: Medtronic, Inc.Inventors: Steven T. Deininger, Michael J. Baade, Katherine J. Bach, Van L. Snyder
-
Publication number: 20120065503Abstract: A radiopaque marker for inclusion within an implantable medical device (IMD) may comprise one or more radiopaque articles selected from a predetermined set of radiopaque articles. The one or more radiopaque articles may be carried by an object formed of or including, a desiccant. The predetermined set of radiopaque articles may undergo a single qualification process that approves the use of any combination of one or more of the articles as a radiopaque marker within an IMD. This allows a potentially-limitless number of markers to be made available based on a single qualification process. The radiopaque marker may serve to provide information such as the make, model, and feature set of the device.Type: ApplicationFiled: October 26, 2011Publication date: March 15, 2012Applicant: MEDTRONIC, INC.Inventors: Charles R. Rogers, David D. Differding, John M. Gray, Michael J. Baade, Katherine J. Bach, Steven D. Byland, Steven T. Deininger
-
Publication number: 20110029028Abstract: Enclosures for implantable medical devices are machined from biocompatible materials using processes such as electric discharge machining and/or milling. Material is machined to create an enclosure. The enclosure may include an enclosure sleeve that has top and bottom caps added where the enclosure sleeve is machined either as a whole or as two separate halves that are subsequently joined together. During construction, circuitry is installed and where the enclosure includes an enclosure sleeve, the open top and bottom may be closed by caps while a connector block module may be mounted to the complete enclosure. The machining process allows materials that are typically difficult to stamp, such as grade 5 and 9 titanium and 811 titanium, that are beneficial to telemetry and recharging features of an implantable medical device to be used while allowing for an enclosure with a relatively detailed geometry and relatively tight tolerances.Type: ApplicationFiled: July 30, 2010Publication date: February 3, 2011Applicant: Medtronic, Inc.Inventors: Charles E. Peters, Steven T. Deininger, Michael J. Baade
-
Patent number: 7551960Abstract: An external indicator device presents parameters associated with stimulation therapy generated by a pulse generator, which may be associated with an external or implantable stimulation device. In this manner, the external indicator device enables a user to visualize stimulation parameters without actually delivering stimulation therapy to a patient via implanted electrodes. The electrical stimulation parameters may include electrical amplitude levels, pulse widths, pulse rates, electrode combinations, and electrode polarities for stimulation generated by the pulse generator.Type: GrantFiled: September 8, 2005Date of Patent: June 23, 2009Assignee: Medtronic, Inc.Inventors: John W. Forsberg, Jeffry C. Palm, Mark G. Wosmek, Steven T. Deininger, Raymond F. McMullen, Matthew J. Michaels, Kevin J. Kelly