Patent application number | Description | Published |
20090059468 | FILTERED FEEDTHROUGH ASSEMBLIES FOR IMPLANTABLE MEDICAL DEVICES AND METHODS OF MANUFACTURE - A feedthrough assembly for an implantable medical device includes an insulator element hermitically sealed to a ferrule and a feedthrough member, and a capacitive element spaced apart from the insulator element within the ferrule and coupled to the feedthrough member by a conductive material; the conductive material extends in an area between the capacitive element and the feedthrough member. The assembly further includes a heat and pressure deformed thermoplastic adhesive member that extends around the feedthrough member within the ferrule, is located between the capacitive element and the insulator element, and is sealed to an external surface of the capacitive element in order to isolate the conductive material. | 03-05-2009 |
20090079517 | NOVEL CAPACITIVE ELEMENTS AND FILTERED FEEDTHROUGH ELEMENTS FOR IMPLANTABLE MEDICAL DEVICES - A capacitive element for an implantable medical device feedthrough element includes a bore, to receive a feedthrough member, or pin of the filtered feedthrough element, an external surface extending laterally outward from a first opening of the bore, and a recessed area formed in the external surface and extending about an outer perimeter thereof. The recessed area may provide a location on which to apply a conductive material to form a joint that electrically couples the capacitive element to a ferrule of the filtered feedthrough element. | 03-26-2009 |
20090079518 | NOVEL CAPACITIVE ELEMENTS AND FILTERED FEEDTHROUGH ELEMENTS FOR IMPLANTABLE MEDICAL DEVICES - A capacitive element for an implantable medical device feedthrough element includes a bore, to receive a feedthrough member, or pin of the filtered feedthrough element, an external surface extending laterally outward from a first opening of the bore, and a recessed area formed in the external surface and extending about an outer perimeter thereof. The recessed area may provide a location on which to apply a conductive material to form a joint that electrically couples the capacitive element to a ferrule of the filtered feedthrough element. | 03-26-2009 |
20090079519 | NOVEL CAPACITIVE ELEMENTS AND FILTERED FEEDTHROUGH ELEMENTS FOR IMPLANTABLE MEDICAL DEVICES - A capacitive element for an implantable medical device feedthrough element includes a bore, to receive a feedthrough member, or pin of the filtered feedthrough element, an external surface extending laterally outward from a first opening of the bore, and a recessed area formed in the external surface and extending about an outer perimeter thereof. The recessed area may provide a location on which to apply a conductive material to form a joint that electrically couples the capacitive element to a ferrule of the filtered feedthrough element. | 03-26-2009 |
20090080140 | FILTERED FEEDTHROUGH ASSEMBLIES FOR IMPLANTABLE DEVICES AND METHODS OF MANUFACTURE - A solder joint between a capacitive element and a ferrule of a filtered feedthrough assembly for an implantable medical device is formed from a solder pre-form mounted on a portion of an external surface of the capacitive element, which portion of the external surface may be overlaid with a layer including a noble metal. Another solder joint may be formed between the capacitive member and each feedthrough pin; and, for an assembly including a plurality of feedthrough pins, each of the other solder joints may be formed from a solder pre-form mounted onto the external surface of the capacitive element by inserting each pin through a corresponding ring of a plurality of rings connected together to form the solder pre-form. | 03-26-2009 |
20090160465 | DETERMINATION OF EQUIVALENT SERIES RESISTANCE - A determination of an equivalent series resistance (ESR) effect for high frequency filtering performance of a filtered feed-through assembly is described. A low frequency signal is introduced to a filtered feed-through assembly. ESR limit of the filtered feed-through is determined based on the low frequency signal. | 06-25-2009 |
20100177458 | CAPACITOR FOR FILTERED FEEDTHROUGH WITH CONDUCTIVE PAD - A filtered feedthrough assembly includes a capacitor comprising a top portion, a bottom portion, an outer diameter portion and an inner diameter portion. The inner diameter portion defines at least one aperture extending from the top portion to the bottom portion. An conductive pad of conductive material is applied to the top portion around the at least one aperture. A feedthrough pin extends through each of the apertures and is soldered to the inner diameter portion of the capacitor by application of a solder preform upon the conductive pad of conductive material. | 07-15-2010 |
20100179606 | CAPACITOR FOR FILTERED FEEDTHROUGH WITH ANNULAR MEMBER - A filtered feedthrough assembly includes a capacitor comprising a top portion, a bottom portion, an outer diameter portion and an inner diameter portion. The inner diameter portion defines at least one aperture extending from the top portion to the bottom portion. A conductive annular member is placed onto the top portion around the at least one aperture. A feedthrough pin extends through each of the apertures and is soldered to the inner diameter portion of the capacitor by application of a solder preform upon the conductive pad of conductive material. | 07-15-2010 |
20100202096 | FILTERED FEEDTHROUGH ASSEMBLY AND ASSOCIATED METHOD - A system and method for sealing a capacitor bottom in a filtered feedthrough. The feedthrough comprises a ferrule, a capacitor, at least one terminal pin and a support structure. The support structure includes at least one projection that extends into an aperture of the capacitor. The projection includes an opening through which the at least one terminal pin extends such that, in an assembled state, the terminal pin extends through the opening of the projection and the aperture of the capacitor. | 08-12-2010 |
20100249861 | ELECTRONIC MODULE ASSEMBLY FOR FILTERED FEEDTHROUGHS - An electronic module assembly (EMA) for an implantable medical device is disclosed. The EMA comprises a non-conductive block having a top side, a bottom side, a front side and a back side. A plurality of conductive strips are coupled to the non-conductive block. Each conductive strip possesses a front side and a back side. The back side of each conductive strip extends from the front side across the top side and over to back side of the non-conductive block. | 09-30-2010 |
20100284124 | CAPACITOR ASSEMBLY AND ASSOCIATED METHOD - A capacitor assembly for use in, and a method of assembling, a filtered feedthrough. The capacitor includes an insulative member fixedly attached to its bottom portion to inhibit high voltage arcing. The termination material present on the inner and outer diameters of the capacitor is absent from a portion of the capacitor proximate the bottom portion, e.g., at the insulative member. | 11-11-2010 |
20110032658 | CAPACITOR ASSEMBLY AND ASSOCIATED METHOD - A capacitor assembly for use in, and a method of assembling, a filtered feedthrough. The termination material present on the inner and outer diameters of the capacitor is absent from a portion of the outer diameter of the capacitor proximate an unfiltered terminal pin, such that high voltage arcing between the unfiltered terminal pin and capacitor is inhibited. | 02-10-2011 |
20110125210 | LTCC/HTCC HYBRID FEEDTHROUGH - The present invention is directed to a ceramic monolith for use as a feedthrough in medical devices and method of making. The monolith includes a first surface, a second surface, and a passageway extending from the first surface to the second surface. The first surface is high temperature co-fired ceramic and the second surface is low temperature co-fired ceramic, and the two ceramics are intermixed in a blended interface located between the first and second surfaces. | 05-26-2011 |
20120307416 | CAPACITOR INCLUDING REGISTRATION FEATURE FOR ALIGNING AN INSULATOR LAYER - In one example, a capacitor structure may include a capacitor comprising a surface that defines at least one feedthrough aperture and a ceramic insulator layer attached to the surface. The surface of the capacitor may include a capacitor registration feature, and the ceramic insulator layer may include a ceramic insulator layer registration feature. The capacitor registration feature and the ceramic insulator layer registration feature may cooperate to substantially align the ceramic insulator layer to the capacitor, e.g., prior to the ceramic layer being attached to surface of the capacitor. | 12-06-2012 |
20130058003 | FEEDTHROUGH ASSEMBLY INCLUDING A CAPACITIVE FILTER ARRAY - A feedthrough assembly may include a ferrule defining a ferrule opening, a feedthrough at least partially disposed within the ferrule opening, and a capacitive filter array at least partially disposed within the ferrule opening. The feedthrough may include at least one feedthrough conductive pathway and the capacitive filter array may include at least one filter array conductive pathway. In some examples, the feedthrough assembly includes a thick film conductive paste electrically connecting the at least one feedthrough conductive pathway and the at least one filter array conductive pathway. In some examples, the capacitive feedthrough array includes a perimeter conductive contact and a capacitive filter electrically coupling the at least one filter array conductive pathway and the perimeter conductive contact. In some of these examples, the feedthrough assembly includes a thick film conductive paste electrically connecting the perimeter conductive contact and the ferrule. | 03-07-2013 |
20130058004 | FEEDTHROUGH ASSEMBLY INCLUDING UNDERFILL ACCESS CHANNEL AND ELECTRICALLY INSULATING MATERIAL - A feedthrough assembly may include a ferrule defining a ferrule opening, a feedthrough at least partially disposed within the ferrule opening, a capacitive filter array at least partially disposed within the ferrule opening, and an electrically insulating material disposed between an externally-facing filter array side and an internally-facing feedthrough side. In some examples, the feedthrough includes at least one feedthrough conductive pathway extending between an internally-facing feedthrough side and an externally-facing feedthrough side. In some examples, the capacitive filter array includes at least one filter array conductive pathway extending between an internally-facing filter array side and an externally-facing filter array side. In some examples, at least one of the ferrule, the feedthrough, or the capacitive filter array defines an underfill access channel through which the electrically insulating material is introduced. | 03-07-2013 |
20130060312 | FEEDTHROUGH ASSEMBLY INCLUDING A LEAD FRAME ASSEMBLY - A feedthrough assembly may include a ferrule defining a ferrule opening, a feedthrough at least partially disposed within the ferrule opening, a capacitive filter array at least partially disposed within the ferrule opening, and a lead frame assembly. The feedthrough may include at least one feedthrough conductive pathway and the capacitive filter array may include at least one filter array conductive pathway. The lead frame assembly may include an electrically conductive lead electrically connecting the at least one feedthrough conductive pathway and the at least one filter array conductive pathway. | 03-07-2013 |
20130070423 | COMPACT CONNECTOR ASSEMBLY FOR IMPLANTABLE MEDICAL DEVICE - 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. | 03-21-2013 |
20130127567 | CAPACITIVE FILTERED FEEDTHROUGH ARRAY FOR IMPLANTABLE MEDICAL DEVICE - In one example, a filtered feedthrough assembly for a medical device, such as, e.g., an implantable medical device, is described. The filtered feedthrough assembly may comprise a feedthrough comprising at least one feedthrough conductive pathway extending between a first feedthrough side and a second feedthrough side; a capacitive filter array comprising at least one filter array conductive pathway extending between a first filter array side and a second filter array side, and at least one capacitor filter substantially surrounding at least a portion the at least one filter array conductive pathway; and at least one electrically conductive member electrically coupling the at least one filter array conductive pathway to the at least one feedthrough conductive pathway. | 05-23-2013 |
20130138186 | FEEDTHROUGH ASSEMBLY INCLUDING CAPACITOR ARRAY ON PRINTED BOARD - A feedthrough assembly may include a ferrule defining a ferrule opening, a feedthrough at least partially disposed within the ferrule opening and attached to the feedthrough, and a capacitor array. In some examples, the feedthrough may include a plurality of feedthrough conductive pathways extending between an externally-facing side of the feedthrough and an internally-facing side of the feedthrough. Additionally, the capacitor array may include a printed board and a plurality of capacitors disposed on the printed board. In some examples, respective ones of the plurality of feedthrough conductive pathways are electrically connected to respective ones of the plurality of capacitors. | 05-30-2013 |
20130138187 | FEEDTHROUGH ASSEMBLY INCLUDING CHIP CAPACITORS - A feedthrough assembly may include a ferrule defining a ferrule opening, a feedthrough at least partially disposed within the ferrule opening and attached to the ferrule, and a plurality of chip capacitors. In some examples, the feedthrough may include a plurality of feedthrough conductive pathways extending between an externally-facing side of the feedthrough and an internally-facing side of the feedthrough. In some examples, respective ones of the plurality of chip capacitors are electrically connected to respective ones of the plurality of feedthrough conductive pathways and electrically connected to the ferrule. | 05-30-2013 |
20130176658 | FEEDTHROUGH ASSEMBLY INCLUDING ELECTRICAL GROUND THROUGH FEEDTHROUGH SUBSTRATE - A feedthrough assembly may include a ferrule defining a ferrule opening, a capacitive filter array at least partially disposed within the ferrule opening, and a feedthrough at least partially disposed within the ferrule opening. In some examples, the capacitive filter array includes a filter array ground conductive pathway. In some examples, the feedthrough includes a feedthrough ground conductive via. The feedthrough ground conductive via may be electrically coupled to the filter array ground conductive pathway, and the feedthrough ground conductive via may be electrically coupled to the ferrule. | 07-11-2013 |
20130215553 | FILTERED FEEDTHROUGH ASSEMBLY AND ASSOCIATED METHOD - A system and method for sealing a capacitor bottom in a filtered feedthrough. The feedthrough comprises a ferrule, a capacitor, at least one terminal pin and a support structure. The support structure includes at least one projection that extends into an aperture of the capacitor. The projection includes an opening through which the at least one terminal pin extends such that, in an assembled state, the terminal pin extends through the opening of the projection and the aperture of the capacitor. | 08-22-2013 |
20130286536 | IMPLANTABLE MEDICAL DEVICE WITH FEEDTHROUGH, FEEDTHROUGH AND METHOD - Feedthrough and method for making a feedthrough. The feedthrough has a ferrule forming a ferrule lumen, an electrically conductive pin extending longitudinally through at least a portion of the ferrule lumen, a filter capacitor surrounding the electrically conductive pin within the ferrule lumen, the filter capacitor having a bonding surface, and a ceramic seal positioned within the ferrule lumen directly abutting the filter capacitor sealing a space between the electrically conductive pin and the ferrule. The ceramic seal adheres to and creates an adhesive bond with the bonding surface of the capacitor and substantially inhibits fluid flow through the ferrule lumen. | 10-31-2013 |
20130289681 | IMPLANTABLE MEDICAL DEVICE AND FEEDTHROUGH AND METHOD OF MAKING SAME - Implantable medical device having a feedthrough, a feedthrough and method for making such feedthrough. The feedthrough has a ferrule, an electrically conductive pin, a preform having a preform liquidus temperature, a capacitor, positioned within the ferrule abutting the preform, having a coating having a coating liquidus temperature and being configured to electrically couple with the preform, and an insulative assembly configured, at least in part, to seal against passage of a liquid through the ferrule, and having an insulative assembly liquidus temperature. The coating liquidus temperature is greater than the preform liquidus temperature and the coating liquidus temperature being greater than the insulative assembly liquidus temperature. | 10-31-2013 |
20140043739 | Implantable Medical Devices and Related Connector Enclosure Assemblies Utilizing Conductors Electrically Coupled to Feedthrough Pins - 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. | 02-13-2014 |
20140049924 | Implantable Medical Devices and Related Connector Enclosure Assemblies Utilizing Conductors Electrically Coupled to Feedthrough Pins - 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. | 02-20-2014 |
20140111904 | CAPACITOR INCLUDING REGISTRATION FEATURE FOR ALIGNING AN INSULATOR LAYER - In one example, a capacitor structure may include a capacitor comprising a surface that defines at least one feedthrough aperture and a ceramic insulator layer attached to the surface. The surface of the capacitor may include a capacitor registration feature, and the ceramic insulator layer may include a ceramic insulator layer registration feature. The capacitor registration feature and the ceramic insulator layer registration feature may cooperate to substantially align the ceramic insulator layer to the capacitor, e.g., prior to the ceramic layer being attached to surface of the capacitor. | 04-24-2014 |
20140360748 | FEEDTHROUGH ASSEMBLY INCLUDING A CAPACITIVE FILTER ARRAY - A feedthrough assembly may include a ferrule defining a ferrule opening, a feedthrough at least partially disposed within the ferrule opening, and a capacitive filter array at least partially disposed within the ferrule opening. The feedthrough may include at least one feedthrough conductive pathway and the capacitive filter array may include at least one filter array conductive pathway. In some examples, the feedthrough assembly includes a thick film conductive paste electrically connecting the at least one feedthrough conductive pathway and the at least one filter array conductive pathway. In some examples, the capacitive feedthrough array includes a perimeter conductive contact and a capacitive filter electrically coupling the at least one filter array conductive pathway and the perimeter conductive contact. In some of these examples, the feedthrough assembly includes a thick film conductive paste electrically connecting the perimeter conductive contact and the ferrule. | 12-11-2014 |
20150045861 | FEEDTHROUGH ASSEMBLY FOR AN IMPLANTABLE MEDICAL DEVICE - Processes for manufacture and assembly of implantable medical devices are described. In particular, techniques are provided for nondestructive electrical isolation assessment of feedthrough assemblies of the implantable medical devices. The feedthrough assemblies may include an insulating structure, a plurality of terminal pins extending through the insulator and a ferrule having an inner lumen into which the insulating structure is disposed. One or more insulating seals may be disposed at the interface of the ferrule-to-insulating structure and/or the terminal pin-to-insulating structure. The electrical isolation assessments may be based on the dielectric properties of the components of the feedthrough assemblies, such as the insulating structure. | 02-12-2015 |
20150045862 | FEEDTHROUGH ASSEMBLY FOR AN IMPLANTABLE MEDICAL DEVICE - Processes for manufacture and assembly of implantable medical devices are described. In particular, techniques are provided for nondestructive electrical isolation assessment of feedthrough assemblies of the implantable medical devices. The feedthrough assemblies may include an insulating structure, a plurality of terminal pins extending through the insulator and a ferrule having an inner lumen into which the insulating structure is disposed. One or more insulating seals may be disposed at the interface of the ferrule-to-insulating structure and/or the terminal pin-to-insulating structure. The electrical isolation assessments may be based on the dielectric properties of the components of the feedthrough assemblies, such as the insulating structure. | 02-12-2015 |