公开(公告)号：US10821290B2

公开(公告)日：2020-11-03

申请号：US16508884

申请日：2019-07-11

Applicant: Greatbatch Ltd.

Inventor： Luis Daniel Villamil ,  Mathias de Souza

IPC: A61N1/375 ,  H01R24/28 ,  H01R13/52 ,  H01R13/426 ,  H01R107/00

Abstract: A cable assembly for a patient treatment system comprises an electrical cable having a proximal connector configured to connect to an external electrical stimulator device and a distal connector including a distal housing having an open distal end. The distal housing houses a manifold that supports a plurality of spring-loaded electrical contact assemblies aligned in two rows and being electrically connected to a corresponding one of a plurality of electrical contacts in the proximal connector. The housing distal open end is closed by a header that is movable between a closed position resting on the housing open end and an open position spaced there above. The header has a pair of side-by-side longitudinally extending openings. With the header in the open position, a practitioner holds the distal connector in one hand and with the other hand inserts the distal electrical contacts of one or two therapy delivery devices into the longitudinally extending openings. The practitioner then moves the header into the closed position to bring the distal electrical contacts of the therapy delivery devices into firm electrical contact with the spring-loaded electrical contact assemblies housed inside the distal housing.

公开(公告)号：US10813744B2

公开(公告)日：2020-10-27

申请号：US15757315

申请日：2015-09-03

Applicant: Elenza, Inc. ,  Greatbatch Ltd.

Inventor： Amitava Gupta ,  Rudy Mazzocchi ,  Roel Trip ,  Brian Peterson ,  George Cintra ,  Joey Chen ,  Leslie Halberg

IPC: A61F2/16 ,  H02J50/12 ,  H02J7/02 ,  H02J50/70 ,  H02J50/80 ,  G02C11/00 ,  A61F9/007 ,  H01F38/14 ,  H02J7/34 ,  H02J7/35

Abstract: An intraocular implant (IOI) includes a lens structure with variable optical power, a sensor that detects an optical accommodation response, a rechargeable power storage device, a recharging interface, a wireless communication interface, and a controller. The controller can receive information from the sensor indicating an optical accommodation response, control the lens structure to vary the variable optical power based on the information received from the sensor, control the recharging interface to recharge the rechargeable power storage device, and further control the recharging interface to receive power for operation of the IOI, and transmit and receive information through the wireless communication interface.

公开(公告)号：US10722706B2

公开(公告)日：2020-07-28

申请号：US16106937

申请日：2018-08-21

Applicant: Greatbatch Ltd.

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

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

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：US20200185662A1

公开(公告)日：2020-06-11

申请号：US16788679

申请日：2020-02-12

Applicant: Greatbatch Ltd.

Inventor： Robert S. Rubino ,  Keith W. Seitz ,  Xiaohong Tang ,  Todd C. Sutay ,  Brian P. Hohl ,  Holly Noelle Moschiano ,  Biswa P. Das ,  Afsar Ali ,  Sourabh Biswas ,  Gary Freitag ,  David Dianetti ,  Ho-Chul Yun ,  Thomas Marzano

IPC: H01M2/02 ,  H01M2/04 ,  H01M2/06 ,  H01M10/0525 ,  H01M4/131

Abstract: A miniature electrochemical cell having a total volume that is less than 0.5 cc is described. The cell casing is formed by joining two ceramic casing halves together. One or both casing halves are machined from ceramic to provide a recess that is sized and shaped to contain the electrode assembly. The opposite polarity terminals are metal feedthroughs, such as of gold, and are formed by brazing gold into openings machined into one or both of ceramic casing halves. A thin film metallization, such as of titanium, contacts an edge periphery of each ceramic casing half. The first ceramic casing half is moved into registry with the second ceramic casing half so that the first and second ring-shaped metallizations contact each other. Then, a laser welds through one of the casing halves being a substantially transparent ceramic, for example sapphire, to braze the first and second ring-shaped metallizations to each other to thereby join the first and second casing halves together to form a casing housing the electrode assembly. A solid electrolyte (LixPOyNz) activates the electrode assembly.

公开(公告)号：US20200146583A1

公开(公告)日：2020-05-14

申请号：US16669887

申请日：2019-10-31

Applicant: Greatbatch Ltd.

Inventor： Hugh D. Hestad ,  Jeff Fleigle ,  Christopher Mauhar ,  Krishna Vedula ,  Hitesh Mehta ,  Rommy U. Huleis

IPC: A61B5/0492 ,  A61N1/05

Abstract: In various examples, a component for a medical device is described. The component includes a conductor wire including a connection portion. An electrode is formed from a conductive tube. The conductive tube is compressed at least partially around the connection portion of the conductor wire to at least partially surround and couple to the connection portion.

公开(公告)号：US10587073B2

公开(公告)日：2020-03-10

申请号：US15628741

申请日：2017-06-21

Applicant: Greatbatch Ltd.

Inventor： Thomas Marzano ,  Keith W. Seitz ,  Michael F. Scalise

IPC: H01R13/52 ,  H01G4/35 ,  A61N1/375 ,  H01R13/426 ,  H01R13/719

Abstract: A feedthrough filter capacitor assembly comprising a terminal pin connector is described. The terminal pin connector is designed to facilitate an electrical connection between the terminal pin comprising a multitude of compositions to a circuit board of an implantable medical device. The terminal pin connector comprises a clip portion positioned within a connector housing. The connector clip mechanically attaches to the terminal pin of the feedthrough with at least one prong and an exterior surface of the connector housing electrically contacts the circuit board, creating an electrical connection therebetween. The connector housing comprises a material that is conducive to a weld or solder attachment process to the circuit board. The feedthrough filter capacitor assembly is particularly useful for incorporation into implantable medical devices such as cardiac pacemakers, cardioverter defibrillators, and the like, to decouple and shield internal electronic components of the medical device from undesirable electromagnetic interference (EMI) signals.

公开(公告)号：US20200030613A1

公开(公告)日：2020-01-30

申请号：US16578476

申请日：2019-09-23

Applicant: Greatbatch Ltd.

Inventor： Robert A. Stevenson ,  Thomas Marzano ,  Keith W. Seitz ,  Christine A. Frysz ,  Dallas J. Rensel ,  Brian P. Hohl

IPC: A61N1/375 ,  A61N1/05 ,  B23K35/30 ,  A61N1/08 ,  H01R43/00 ,  H01G4/35 ,  C22C29/12 ,  H01G4/12 ,  H01G2/10 ,  H01G4/005 ,  H02G3/22 ,  H01G4/30 ,  C04B37/02 ,  C04B35/645 ,  B32B18/00

Abstract: A method for manufacturing a singulated feedthrough insulator for a hermetic seal of an active implantable medical device (AIMD) is described. The method begins with forming a green-state ceramic bar with a via hole filled with a conductive paste. The green-state ceramic bar is dried to convert the paste to an electrically conductive material filling via hole and then subjected to a pressing step. Following pressing, a green-state insulator is singulated from the green-state ceramic bar. The singulated green-state insulator in next sintered to form an insulator that is sized and shaped for hermetically sealing to close a ferrule opening. The thusly produced feedthrough is suitable installation in an opening in the housing of an active implantable medical device.

公开(公告)号：US10449375B2

公开(公告)日：2019-10-22

申请号：US15844683

申请日：2017-12-18

Applicant: Greatbatch Ltd.

Inventor： Dominick J. Frustaci ,  Keith W. Seitz ,  Thomas Marzano ,  Robert A. Stevenson ,  Christine A. Frysz ,  Richard L. Brendel ,  Jason Woods

IPC: A61N1/375 ,  H01G4/35 ,  H01R13/7195 ,  H01G2/22 ,  H01G2/10 ,  A61N1/08 ,  H01G4/40 ,  A61N1/05 ,  H05K1/02

Abstract: A hermetically sealed feedthrough subassembly attachable to an active implantable medical device includes a first conductive leadwire extending from a first end to a second end, the first conductive leadwire first end disposed past a device side of an insulator body. A feedthrough filter capacitor is disposed on the device side. A second conductive leadwire is disposed on the device side having a second conductive leadwire first end at least partially disposed within a first passageway of the feedthrough filter capacitor and having a second conductive leadwire second end disposed past the feedthrough filter capacitor configured to be connectable to AIMD internal electronics. The second conductive leadwire first end is at, near or adjacent to the first conductive leadwire first end. A first electrically conductive material forms a three-way electrical connection electrically connecting the second conductive leadwire first end, the first conductive leadwire first end and a capacitor internal metallization.

公开(公告)号：US20190240482A1

公开(公告)日：2019-08-08

申请号：US16385338

申请日：2019-04-16

Applicant: Greatbatch Ltd.

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

IPC: A61N1/08 ,  H05K1/18 ,  H05K9/00 ,  H03H1/00 ,  H01R13/7195 ,  H01G4/40 ,  A61N1/37 ,  A61N1/375 ,  H01G4/35 ,  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: A three-terminal flat-through EMI/energy dissipating filter comprises an active electrode plate through which a circuit current passes between a first terminal and a second terminal, a first shield plate on a first side of the active electrode plate, and second shield plate on a second side of the active electrode plate opposite the first shield plate. The first and second shield plates are conductively coupled to a grounded third terminal. Both the effective capacitance area or overlapping surface area of the active electrode plate and the surrounding ground shield plates and the dielectric constant of the insulating layers between the active electrode plate and the ground shield plates is raised to achieve a higher capacitance value for the three-terminal flat-through capacitor.

公开(公告)号：US20190207199A1

公开(公告)日：2019-07-04

申请号：US16295518

申请日：2019-03-07

Applicant: Greatbatch Ltd.

Inventor： Robert S. Rubino ,  William C. Thiebolt ,  Marcus J. Palazzo ,  Joseph M. Lehnes ,  Ho-Chul Yun ,  Mark J. Roy

IPC: H01M4/04 ,  H01M4/66 ,  H01M4/1393 ,  H01M4/1391 ,  H01M10/0569 ,  H01M10/0568 ,  H01M4/133 ,  H01M4/136 ,  H01M4/131 ,  H01M4/62 ,  H01M4/36 ,  H01M10/052 ,  H01M4/1397

CPC classification number: H01M4/0404 ,  H01M4/131 ,  H01M4/133 ,  H01M4/136 ,  H01M4/1391 ,  H01M4/1393 ,  H01M4/1397 ,  H01M4/366 ,  H01M4/623 ,  H01M4/624 ,  H01M4/661 ,  H01M10/052 ,  H01M10/0568 ,  H01M10/0569 ,  H01M2220/30

Abstract: A lithium electrochemical cell with increased energy density is described. The electrochemical cell comprises an improved sandwich cathode design with a second cathode active material of a relatively high energy density but of a relatively low rate capability sandwiched between two current collectors and with a first cathode active material having a relatively low energy density but of a relatively high rate capability in contact with the opposite sides of the two current collectors. In addition, a cathode fabrication process is described that increases manufacturing efficiency. The cathode fabrication process comprises a process in which first and second cathode active materials are directly applied to opposite surfaces of a perforated current collector and laminated together. The present cathode design is useful for powering an implantable medical device requiring a high rate discharge application.