公开(公告)号：US20190217086A1

公开(公告)日：2019-07-18

申请号：US16364953

申请日：2019-03-26

Applicant: Greatbatch Ltd.

Inventor： Robert A. Stevenson ,  Christine A. Frysz ,  Richard L. Brendel

IPC: A61N1/08 ,  A61N1/37 ,  H01G4/40 ,  H01R13/7195 ,  H03H1/00 ,  H05K9/00 ,  A61N1/375 ,  H01G4/35 ,  H05K1/18 ,  H01G4/06 ,  H05K5/00 ,  H03H7/01

CPC classification number: A61N1/08 ,  A61N1/086 ,  A61N1/3718 ,  A61N1/375 ,  A61N1/3754 ,  H01G4/06 ,  H01G4/35 ,  H01G4/40 ,  H01R13/7195 ,  H03H1/0007 ,  H03H7/1766 ,  H03H2001/0042 ,  H03H2001/0085 ,  H05K1/181 ,  H05K5/0095 ,  H05K9/00 ,  H05K999/99 ,  H05K2201/10015

Abstract: An EMI/energy dissipating filter for an active implantable medical device (AIMD) is described. The filter comprises a first gold braze hermetically sealing the insulator to a ferrule that is configured to be mounted in an opening in a housing for the AIMD. A lead wire is hermetically sealed in a passageway through the insulator by a second gold braze. A circuit board substrate is disposed adjacent the insulator. A two-terminal chip capacitor disposed adjacent to the circuit board has an active end metallization that is electrically connected to the active electrode plates and a ground end metallization that is electrically connected to the at least one ground electrode plates of the chip capacitor. There is a ground path electrically extending between the ground end metallization of the chip capacitor and the ferrule. The ground path comprises at least a first electrical connection material connected directly to the first gold braze, and at least an internal ground plate disposed within the circuit board substrate with the internal ground plate being electrically connected to both the first electrical connection material and the ground end metallization of the chip capacitor. An active path electrically extends between the active end metallization of the chip capacitor and the lead wire.

公开(公告)号：US10274021B2

公开(公告)日：2019-04-30

申请号：US15131167

申请日：2016-04-18

Applicant: Greatbatch Ltd.

Inventor： Gary C. Victor ,  Neal N. Nesselbeck

IPC: F16D7/02 ,  F16D9/06 ,  F16D43/21 ,  A61B17/16 ,  B25F5/00 ,  A61B17/88 ,  A61B90/00

Abstract: A torque limiting tool comprises a two stage torque limiting mechanism that resides within a housing. The torque limiting mechanism comprises a shank positioned through a gear, a plate, and a bias member. The plate is constructed having at least one post and at least one tooth providing a ramp surface that extends outwardly from a plate surface. The gear is constructed having at least one recess providing at least one inclined surface that resides part-way within the thickness of the gear. The gear and plate are positioned in opposition so that the at least one tooth and extending post are received within or detachably mated to the opposing recess and through-bore. Torque is transferred therebetween the plate and gear when the ramped teeth and extending posts mate with the respective recess and through-bore. A first torque limit is exceeded when the post breaks free from the through-bore. A second, lesser torque limit is exceeded when the ramped teeth release from their mated recess.

公开(公告)号：US10249415B2

公开(公告)日：2019-04-02

申请号：US15863194

申请日：2018-01-05

Applicant: Greatbatch Ltd.

Inventor： Keith W. Seitz ,  Dallas J. Rensel ,  Brian P. Hohl ,  Jonathan Calamel ,  Xiaohong Tang ,  Robert A. Stevenson ,  Christine A. Frysz ,  Thomas Marzano ,  Jason Woods ,  Richard L. Brendel

IPC: A61N1/37 ,  B23K1/00 ,  B23K35/00 ,  C04B41/45 ,  H01B17/30 ,  A61N1/375 ,  C04B41/51 ,  C04B41/88 ,  H01B19/02 ,  C04B41/00 ,  B23K1/008 ,  B23K1/19 ,  B23K26/32 ,  B23K26/21 ,  B22F7/04 ,  B23K101/36 ,  B23K103/14

Abstract: A method of manufacturing a feedthrough dielectric body for an active implantable medical device includes the steps of: a) forming an alumina ceramic body in a green state, or, stacking upon one another discrete layers of alumina ceramic in a green state and pressing; b) forming at least one via hole straight through the alumina ceramic body; c) filling the at least one via hole with a ceramic reinforced metal composite paste; d) drying the alumina ceramic body and the ceramic reinforced metal composite paste; e) forming a second hole straight through the ceramic reinforced metal composite paste being smaller in diameter in comparison to the at least one via hole; f) filling the second hole with a substantially pure metal paste; g) sintering the alumina ceramic body, the ceramic reinforced metal composite paste and the metal paste; and h) hermetically sealing the feedthrough dielectric body to a ferrule.

公开(公告)号：US20190089189A1

公开(公告)日：2019-03-21

申请号：US16194458

申请日：2018-11-19

Applicant: Greatbatch Ltd.

Inventor： Gregory G. Decker ,  Brian R. Peterson ,  Eric Jankins ,  William A. Planck ,  Leslie I. Halberg ,  Jason Hamilton

IPC: H02J7/02 ,  H02J50/00 ,  A61L2/26 ,  H02J50/12 ,  H02J50/50 ,  A61L2/07

Abstract: In various examples, a system includes a power generating device configured to generate and transfer power to an electrical device. A sterilizable vessel is configured to accommodate the electrical device. The vessel is configured to allow power to be at least partially wirelessly transferred from the power generating device, through the vessel, and to the electrical device. In other examples, a method includes wirelessly powering and/or charging an electrical device disposed within a sterilizable vessel.

公开(公告)号：US10231741B2

公开(公告)日：2019-03-19

申请号：US15200582

申请日：2016-07-01

Applicant: Greatbatch Ltd.

Inventor： Jonathan P. Crandall ,  Jia Li ,  Kenton A. Walz ,  Paul Alejandro

IPC: A61B17/16 ,  B23B31/10 ,  B23B31/11 ,  B23B31/107 ,  B23B31/117 ,  A61B17/00

Abstract: A coupling mechanism designed to removably attach a reamer to the distal end of a spindle or shaft is disclosed. The coupling comprises a collar having an annular sidewall that defines a collar throughbore, the collar annular sidewall comprising a plurality of spaced part first slots that at least partially extend through the sidewall and a shank disposed within the collar throughbore. The shank is constructed with a shank annular sidewall in which a plurality of spaced apart second slots at least partially extend therethrough. A bias member that provides a bias force in a distal direction that acts on the collar is incorporated within the mechanism. The collar is capable of sliding in an axial direction such that the first and second slots become aligned to secure the cross bar of a reamer therein.

公开(公告)号：US20180326206A1

公开(公告)日：2018-11-15

申请号：US16045035

申请日：2018-07-25

Applicant: Greatbatch Ltd.

Inventor： Robert A. Stevenson ,  Christine A. Frysz ,  Richard L. Brendel

IPC: A61N1/08 ,  A61N1/37 ,  A61N1/375 ,  H01G4/35 ,  H05K1/18 ,  H01G4/06

CPC classification number: A61N1/08 ,  A61N1/086 ,  A61N1/3718 ,  A61N1/375 ,  A61N1/3754 ,  H01G4/06 ,  H01G4/35 ,  H01G4/40 ,  H01R13/7195 ,  H03H1/0007 ,  H03H7/1766 ,  H03H2001/0042 ,  H03H2001/0085 ,  H05K1/181 ,  H05K5/0095 ,  H05K9/00 ,  H05K999/99 ,  H05K2201/10015

Abstract: An EMI/energy dissipating filter for an active implantable medical device (AIMD) is described. The filter comprises a first gold braze hermetically sealing the insulator to a ferrule that is configured to be mounted in an opening in a housing for the AIMD. A lead wire is hermetically sealed in a passageway through the insulator by a second gold braze. A circuit board substrate is disposed adjacent the insulator. A two-terminal chip capacitor disposed adjacent to the circuit board has an active end metallization that is electrically connected to the active electrode plates and a ground end metallization that is electrically connected to the at least one ground electrode plates of the chip capacitor. There is a ground path electrically extending between the ground end metallization of the chip capacitor and the ferrule. The ground path comprises at least a first electrical connection material connected directly to the first gold braze, and at least an internal ground plate disposed within the circuit board substrate with the internal ground plate being electrically connected to both the first electrical connection material and the ground end metallization of the chip capacitor. An active path electrically extends between the active end metallization of the chip capacitor and the lead wire.

公开(公告)号：US20180304084A1

公开(公告)日：2018-10-25

申请号：US16004569

申请日：2018-06-11

Applicant: Greatbatch Ltd.

Inventor： Robert A. Stevenson ,  Christine A. Frysz ,  Keith W. Seitz ,  Thomas Marzano ,  Marc Gregory Martino

IPC: A61N1/375 ,  H02G3/22 ,  H01R43/00 ,  A61N1/05 ,  A61N1/08 ,  H01G4/40 ,  H01G4/35 ,  H01G4/30 ,  H01G4/12 ,  H01G4/005 ,  H01G2/10 ,  C22C29/12 ,  B23K35/30 ,  A61N1/372

CPC classification number: A61N1/3754 ,  A61N1/05 ,  A61N1/08 ,  A61N1/372 ,  A61N1/375 ,  B23K35/3013 ,  C22C29/12 ,  H01G2/103 ,  H01G4/005 ,  H01G4/12 ,  H01G4/30 ,  H01G4/35 ,  H01G4/40 ,  H01R43/00 ,  H02G3/22 ,  Y10T156/1052

Abstract: A hermetically sealed filtered feedthrough assembly attachable to an AIMD includes an insulator hermetically sealing a ferrule opening of an electrically conductive ferrule with a gold braze. A co-fired and electrically conductive sintered paste is disposed within and hermetically seals at least one via hole extending in the insulator. At least one capacitor is disposed on the device side. An active electrical connection electrically connects a capacitor active metallization and the sintered paste. A ground electrical connection electrically connects the gold braze to a capacitor ground metallization, wherein at least a portion of the ground electrical connection physically contacts the gold braze. The dielectric of the capacitor may be less than 1000 k. The ferrule may include an integrally formed peninsula portion extending into the ferrule opening spatially aligned with a ground passageway and metallization of an internally grounded feedthrough capacitor. The sintered paste may be of substantially pure platinum.

公开(公告)号：US20180272137A1

公开(公告)日：2018-09-27

申请号：US15936495

申请日：2018-03-27

Applicant: Greatbatch Ltd.

Inventor： Keith W. Seitz ,  Xiaohong Tang ,  William C. Thiebolt ,  Jonathan Calamel ,  Thomas Shi ,  Thomas Marzano

IPC: A61N1/375 ,  H01L23/10 ,  H05K5/00 ,  H05K1/03 ,  H05K3/00 ,  H01L23/15 ,  C03C8/14 ,  H01L23/00

CPC classification number: A61N1/3754 ,  C03C8/14 ,  C04B2237/343 ,  C04B2237/348 ,  C04B2237/361 ,  C04B2237/363 ,  C04B2237/365 ,  C04B2237/403 ,  C04B2237/408 ,  H01L23/10 ,  H01L23/15 ,  H01L24/26 ,  H01L2924/01006 ,  H01L2924/01022 ,  H01L2924/01029 ,  H01L2924/0104 ,  H01L2924/01041 ,  H01L2924/01042 ,  H01L2924/01044 ,  H01L2924/01046 ,  H01L2924/01047 ,  H01L2924/01073 ,  H01L2924/01077 ,  H01L2924/01078 ,  H01L2924/01079 ,  H01L2924/09701 ,  H05K1/0306 ,  H05K3/0047 ,  H05K5/0095

Abstract: Disclosed herein are electrically conductive and hermetic vias disposed within an insulator substrate of a feedthrough assembly and methods for making and using the same. Such aspects of the present invention consequently provide for the miniaturization of feedthrough assemblies inasmuch as the feedthrough components of the present invention are capable of supporting very small and hermetic conductively filled via holes in the absence of additional components, such as, for example, terminal pins, leadwires, and the like.

公开(公告)号：US10052489B2

公开(公告)日：2018-08-21

申请号：US14665309

申请日：2015-03-23

Applicant: Greatbatch Ltd.

Inventor： Rodolphe Katra ,  Scott Kimmel ,  Lawrence Kane ,  Daniel Chase

IPC: A61B17/34 ,  A61M25/06 ,  A61N1/372 ,  A61B17/32 ,  A61N1/05

CPC classification number: A61N1/37229 ,  A61B17/3468 ,  A61B2017/320044 ,  A61B2017/320056 ,  A61M25/0668 ,  A61N1/0504

Abstract: In various examples, an apparatus is configured for subcutaneously inserting an implantable device within a patient. The apparatus includes a dilator portion including a dilator including a dilator length. The dilator portion is configured to separate tissue to create a subcutaneous pocket within the patient sized and shaped to accommodate an implantable device within the subcutaneous pocket. A sheath portion includes a sheath sized and shaped to accommodate the dilator within a sheath lumen. The sheath is configured to accommodate an antenna of the implantable device with the dilator removed from within the sheath. The sheath includes a sheath length that is at least substantially as long as an antenna length. The sheath is configured to separate to allow removal of the sheath around the implantable device to remove the sheath from and leave the implantable device within the subcutaneous pocket within the patient.

公开(公告)号：US10038220B2

公开(公告)日：2018-07-31

申请号：US14983650

申请日：2015-12-30

Applicant: Greatbatch Ltd.

Inventor： Chi-Kyun Park

IPC: H01M10/0567 ,  H01M10/42 ,  H01M10/0569 ,  H01M10/0568 ,  H01M10/0525

CPC classification number: H01M10/4235 ,  H01M10/052 ,  H01M10/0525 ,  H01M10/0567 ,  H01M10/0569 ,  H01M2300/0037

Abstract: A lithium ion electrochemical cell having an electrolyte with reduced carbonate content is described. The reduced carbonate electrolyte minimizes electrolyte out-gassing when the cell is exposed to temperatures above 100° C. The preferred electrolyte comprises a primary solvent of γ-butyrolactone and a secondary solvent comprising an aliphatic or halogen constituent. A most preferred electrolyte consists essentially of γ-butyrolactone as a primary solvent, fluorotoluene as a secondary solvent, and an electrolyte additive formulation of vinylene carbonate, fluorinated ethylene carbonate, and polyvinyl pyridine-co-styrene. An alkali metal salt is added to the solvent admixture.