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    • 1. 发明申请
    • HIGH-ENERGY CAPACITORS FOR IMPLANTABLE DEFIBRILLATORS
    • 高能量电容器,用于可植入的剔除器
    • US20090269610A1
    • 2009-10-29
    • US12498330
    • 2009-07-06
    • Michael J. O'PhelanLuke J. ChristensonJames M. PoplettRobert R. Tong
    • Michael J. O'PhelanLuke J. ChristensonJames M. PoplettRobert R. Tong
    • B32B3/26
    • A61N1/3956A61N1/3782H01G9/045H01G9/055Y10T428/12431
    • Implantable defibrillators are implanted into the chests of patients prone to suffering ventricular fibrillation, a potentially fatal heart condition. A critical component in these devices is an aluminum electrolytic capacitor, which stores and delivers life-saving bursts of electric charge to a fibrillating heart. To reduce capacitor size, manufacturers have developed special aluminum foils, such as core-etched and tunnel-etched aluminum foils. Unfortunately, core-etched foils don't work well in multiple-anode capacitors, and tunnel-etched foils are brittle and tend to break when making some common types of capacitors. Accordingly, the inventors devised a new foil structure having perforations and cavities. In an exemplary embodiment, each perforation and cavity has a cross-sectional area, with the perforations having a larger, for example, 2 to 100 times larger, average cross-sectional area than the cavities. Other embodiments of the invention include foil assemblies, capacitors, and implantable defibrillators that benefit from properties of the new foil structure.
    • 将植入式除颤器植入易患心室纤维性颤动的患者的胸部,这可能是致命的心脏病。 这些器件中的关键部件是铝电解电容器,其存储并将致命的脉冲电脉冲到原纤化心脏。 为了降低电容器尺寸,制造商开发了特殊的铝箔,如铁芯蚀刻和隧道蚀刻铝箔。 不幸的是,铁心蚀刻的箔在多阳极电容器中效果不佳,而隧道蚀刻的箔片在制作一些常见类型的电容器时是脆性的,并且倾向于断裂。 因此,本发明人设计出具有穿孔和空腔的新的箔结构。 在示例性实施例中,每个穿孔和空腔具有横截面积,其中穿孔具有比空腔更大的例如2至100倍的平均横截面面积。 本发明的其它实施例包括受益于新箔结构的性质的箔组件,电容器和可植入除颤器。
    • 3. 发明授权
    • High-energy capacitors for implantable defibrillators
    • 用于植入式除颤器的高能电容器
    • US07558051B2
    • 2009-07-07
    • US11277399
    • 2006-03-24
    • Michael J. O'PhelanLuke J. ChristensonJames M. PoplettRobert R. Tong
    • Michael J. O'PhelanLuke J. ChristensonJames M. PoplettRobert R. Tong
    • H01G9/04
    • A61N1/3956A61N1/3782H01G9/045H01G9/055Y10T29/417Y10T428/12431
    • Implantable defibrillators are implanted into the chests of patients prone to suffering ventricular fibrillation, a potentially fatal heart condition. A critical component in these devices is an aluminum electrolytic capacitor, which stores and delivers life-saving bursts of electric charge to a fibrillating heart. To reduce capacitor size, manufacturers have developed special aluminum foils, such as core-etched and tunnel-etched aluminum foils. Unfortunately, core-etched foils don't work well in multiple-anode capacitors, and tunnel-etched foils are brittle and tend to break when making some common types of capacitors. Accordingly, the inventors devised a new foil structure having perforations and cavities. In an exemplary embodiment, each perforation and cavity has a cross-sectional area, with the perforations having a larger, for example, 2 to 100 times larger, average cross-sectional area than the cavities. Other embodiments of the invention include foil assemblies, capacitors, and implantable defibrillators that benefit from properties of the new foil structure.
    • 将植入式除颤器植入易患心室纤维性颤动的患者的胸部,这可能是致命的心脏病。 这些器件中的关键部件是铝电解电容器,其存储并将致命的脉冲电脉冲到原纤化心脏。 为了降低电容器尺寸,制造商开发了特殊的铝箔,如铁芯蚀刻和隧道蚀刻铝箔。 不幸的是,铁心蚀刻的箔在多阳极电容器中效果不佳,而隧道蚀刻的箔片在制作一些常见类型的电容器时是脆性的,并且倾向于断裂。 因此,本发明人设计出具有穿孔和空腔的新的箔结构。 在示例性实施例中,每个穿孔和空腔具有横截面积,其中穿孔具有比空腔更大的例如2至100倍的平均横截面面积。 本发明的其它实施例包括受益于新箔结构的性质的箔组件,电容器和可植入除颤器。
    • 10. 发明授权
    • High-energy electrolytic capacitors for implantable defibrillators
    • 用于植入式除颤器的高能电解电容器
    • US07043300B2
    • 2006-05-09
    • US10424988
    • 2003-04-28
    • Michael J. O'PhelanLuke J. ChristensonJames M. PoplettRobert R. Tong
    • Michael J. O'PhelanLuke J. ChristensonJames M. PoplettRobert R. Tong
    • A61N1/39H01G9/02
    • A61N1/3956A61N1/3782H01G9/045H01G9/055Y10T29/417Y10T428/12431
    • Implantable defibrillators are implanted into the chests of patients prone to suffering ventricular fibrillation, a potentially fatal heart condition. A critical component in these devices is an aluminum electrolytic capacitors, which stores and delivers one or more life-saving bursts of electric charge to a fibrillating heart. To reduce the size of these devices, capacitor manufacturers have developed special aluminum foils, for example core-etched and tunnel-etched aluminum foils. Unfortunately, core-etched foils don't work well in multiple-anode capacitors, and tunnel-etched foils are quite brittle and tend to break when making some common types of capacitors. Accordingly, the inventors devised a new foil structure having one or more perforations and one or more cavities with a depth less than the foil thickness. In an exemplary embodiment, each perforation and cavity has a cross-sectional area, with the perforations having a larger, for example, 2 to 100 times larger, average cross-sectional area than the cavities. Other embodiments of the invention include foil assemblies, capacitors, and implantable defibrillators that benefit from properties of the new foil structure.
    • 将植入式除颤器植入易患心室纤维性颤动的患者的胸部,这可能是致命的心脏病。 这些设备中的关键部件是铝电解电容器,其存储并将一个或多个拯救生命的电荷脉冲放射到原纤维心脏。 为了减小这些器件的尺寸,电容器制造商开发了特殊的铝箔,例如铁蚀刻和隧道蚀刻铝箔。 不幸的是,铁芯蚀刻的箔在多阳极电容器中不能很好地工作,并且当制造一些常见类型的电容器时,隧道蚀刻的箔非常脆,并且容易断裂。 因此,本发明人设计了具有一个或多个穿孔和一个或多个深度小于箔厚度的空腔的新箔结构。 在示例性实施例中,每个穿孔和空腔具有横截面积,其中穿孔具有比空腔更大的例如2至100倍的平均横截面面积。 本发明的其它实施例包括受益于新箔结构的性质的箔组件,电容器和可植入除颤器。