An electrical bushing for use in a housing of an implantable medical device is proposed. The electrical bushing includes at least one electrically insulating base body and at least one electrical conducting element. The conducting element establishes, through the base body, at least one electrically
An electrical bushing for use in a housing of an implantable medical device is proposed. The electrical bushing includes at least one electrically insulating base body and at least one electrical conducting element. The conducting element establishes, through the base body, at least one electrically conductive connection between an internal space of the housing and an external space. The conducting element is hermetically sealed with respect to the base body, at least in part. The at least one conducting element includes at least one cermet. The electrical bushing includes at least one head part. The head part includes at least one plug connector element that enables electrical connection of at least one plug element from the external space to the plug connector element.
대표청구항▼
1. An electrical bushing for a housing of an implantable medical device; whereby the electrical bushing comprises at least one electrically insulating base body and at least one electrical conducting element;whereby the at least one conducting element comprises a feedthrough element, a contact eleme
1. An electrical bushing for a housing of an implantable medical device; whereby the electrical bushing comprises at least one electrically insulating base body and at least one electrical conducting element;whereby the at least one conducting element comprises a feedthrough element, a contact element and a connecting element and the conducting element establishes, through the base body, at least one electrically conductive connection between an internal space of the housing and an external space;whereby the conducting element is hermetically sealed with respect to the base body, at least in part;whereby the at least one of the conducting elements comprises at least one cermet;characterized in that the electrical bushing comprises at least one head part, whereby the head part comprises at least one plug connector element, whereby the plug connector element enables electrical connection of at least one plug element from the external space to the plug connector element. 2. The electrical bushing according to claim 1, characterized in that the feedthrough element comprises the at least one cermet. 3. The electrical bushing according to claim 1, characterized in that the feedthrough element and the base body are connected in a firmly bonded manner through a firmly bonded sintered connection. 4. The electrical bushing according to claim 1, characterized in that the feedthrough element and the plug connector element are connected in an electrically conductive manner, through at least one connecting element. 5. The electrical bushing according to claim 1, characterized in that the plug connector element comprises at least one plug socket. 6. The electrical bushing according to claim 1, characterized in that the head part is provided as the same part as the base body, at least in part. 7. The electrical bushing according to claim 1, characterized in that the head part is made from an insulating composition of materials, at least in part, whereby the base body is also be made from the insulating composition of materials, at least in part. 8. The electrical bushing according to claim 1, characterized in that the head part comprises at least one first component, whereby the first component and the base body are provided as a single part, whereby the head part further comprises at least one second component, whereby the second component is connected to the first component and, jointly with the first component provides the plug connector element or a part thereof. 9. The electrical bushing according to claim 8, characterized in that the at least one contact element of the conducting element is introduced into the first component through at least one mounting opening of the first component, whereby the second component comprises at least one closure, whereby the closure closes the mounting opening, at least in part. 10. The electrical bushing according to claim 8, characterized in that the second component is made from a plastic material, at least in part. 11. The electrical bushing according to claim 8, characterized in that the first component comprises a lower shell, whereby the second component comprises an upper shell, whereby at least one hollow space of at least one plug socket of the plug connector element, is arranged between the lower shell and the upper shell. 12. An implantable medical device, comprising: at least one housing; andat least one electrical bushing used in the housing and coupled to the housing,whereby the electrical bushing comprises at least one electrically insulating base body and at least one electrical conducting element;whereby the at least one conducting element establishes, through the base body, at least one electrically conductive connection between an internal space of the housing and an external space;whereby the conducting element is hermetically sealed with respect to the base body, at least in part;whereby the at least one conducting element comprises at least one cermet;characterized in that the electrical bushing comprises at least one head part, whereby the head part comprises at least one plug connector element, whereby the plug connector element enables electrical connection of at least one plug element from the external space to the plug connector element. 13. A method for the manufacture of an electrical bushing whereby the electrical bushing comprises at least one electrically insulating base body and at least one electrical conducting element; whereby the at least one conducting element comprises a feedthrough element, a contact element and a connecting element and the conducting element establishes, through the base body, at least one electrically conductive connection between an internal space of the housing and an external space;whereby the conducting element is hermetically sealed with respect to the base body, at least in part;whereby the at least one of the conducting elements comprises at least one cermet;whereby the electrical bushing comprises at least one head part, whereby the head part comprises at least one plug connector element, whereby the plug connector element enables electrical connection of at least one plug element from the external space to the plug connector element,characterized in that the method comprises:a. manufacturing the at least one first component of the head part and of the base body through at least one ceramic manufacturing procedure, whereby the first component and the base body are provided as a single part; andb. connecting at least one contact element of the conducting element to the first component. 14. The method according to claim 13, characterized in that the contact element is to be connected to the at least one feedthrough element that contains the cermet and is embedded in the base body. 15. The method according to claim 13 further comprising: c. connecting at least one second component of the head part to the first component. 16. The method according to claim 15, characterized in that the second component is provided, at least in part, as a pre-formed component which is connected to the first component in step c. 17. The method according to claim 15, characterized in that the second component is formed, at least in part, in procedural step c., through a plastic forming procedure. 18. The method according to claim 15, characterized in that the contact element is introduced into at least one opening in the first component in procedural step b., whereby the opening is closed, at least in part, through at least one closure in the subsequent procedural step c., through at least one grouting, whereby the second component comprises the closure.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (66)
Dahlberg Kenneth,SEX, Active medical implant with a hermetically sealed capsule.
Stevenson, Robert A., Apparatus and process for reducing the susceptability of active implantable medical devices to medical procedures such as magnetic resonance imaging.
Seifried Lynn M. ; Lessar Joseph F. ; Wolf William D. ; Fraley Mary A. ; Tidemand Kevin K. ; Engmark David B. ; Hoch Ronald F. ; Wiklund Craig L., Capacitive filter feedthrough for implantable medical device.
William D. Wolf ; James Strom ; Craig L. Wiklund ; Mary A. Fraley ; Lynn M. Seifried ; James E. Volmering ; Patrick F. Malone ; Samuel F. Haq, Capacitive filtered feedthrough array for an implantable medical device.
Wolf, William D.; Strom, James; Wiklund, Craig L.; Fraley, Mary A.; Seifried, Lynn M.; Volmering, James E.; Malone, Patrick F.; Haq, Samuel F., Capacitive filtered feedthrough array for an implantable medical device.
Wei George C. ; Juengst Stefan,DEX ; Thibodeau Rodrique G. ; Selverian John, Ceramic envelope device, lamp with such a device, and method of manufacture of such devices.
Sack Werner (Mainz DEX) Lindig Otto (Mainz DEX), Crack-resistant, heat-absorbing fusion glasses enabling low processing temperatures for the hermetic encapsulation of el.
Stevenson,Robert A.; Brendel,Richard L.; Frysz,Christine; Hussein,Haytham; Knappen,Scott; Stevenson,Ryan A., EMI filter terminal assembly with wire bond pads for human implant applications.
Brendel, Richard L.; Stevenson, Robert A.; Woods, Jason, Electromagnetic interference filter and method for attaching a lead and/or a ferrule to capacitor electrodes.
Wegrzyn, III, Thomas J.; Maierhofer, Edward J.; Rohl, James P.; VanDerlick, Stephen W.; Haasl, Benjamin J., Feedthrough assembly including sleeve and methods related thereto.
Kraska Robert E. (Minneapolis MN) Lessar Joseph F. (Anoka MN), Gold based alloy composition and brazing therewith, particularly for ceramic-metal seals in electrical feedthroughs.
Byers Charles L. (Canyon Country CA) Beazell James W. (Rancho Palos Verdes CA) Schulman Joseph H. (Granada Hills CA) Rostami Ali (Santa Monica CA), Hermetically sealed ceramic and metal package for electronic devices implantable in living bodies.
Stevenson,Robert A.; Brendel,Richard L.; Frysz,Christine A.; Hussein,Haytham; Dobbs,Matthew A., Hybrid spring contact system for EMI filtered hermetic seals for active implantable medical devices.
Wahlstrand,Carl D.; Hoegh,Thomas Barry; Hrdlicka,Gregory A.; Cross, Jr.,Thomas E.; Olsen,James M., Lead electrode for use in an MRI-safe implantable medical device.
Faraji, Boozarjomehr; Ha, Kevin Jun; Talbot, Neil Hamilton; Little, James Singleton; Greenberg, Robert J., Method of inspection of materials for defects.
Brendel, Richard L.; Stevenson, Robert A.; Marzano, Thomas; Woods, Jason; Kelley, Scott W., Modular EMI filtered terminal assembly for an active implantable medical device.
Kinney, James; Coffed, James; Kustra, Gabriel A., Molded header connected to a medical device by lateral deformation of a sleeve/feedthrough pin sub-assembly.
Coffed, James; Kinney, James; Biggs, Jr., James C.; Gray, Joseph, One-piece header assembly for an implantable medical device and methods for making same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.