Device for interconnecting vessels in a patient
    1.
    发明授权
    Device for interconnecting vessels in a patient 失效
    用于连接病人血管的装置

    公开(公告)号:US06464709B2

    公开(公告)日:2002-10-15

    申请号:US09775878

    申请日:2001-02-02

    IPC分类号: A61B1704

    摘要: The present invention provides an implant device and an associated method for interconnecting human vessels rapidly, safely and in a minimally invasive manner. The device comprises a first segment, a second segment, and a flow opening along the periphery of the two connected segments. The first and second segments are bendable for easy insertion into an incision made within each vessel. Upon release, each bendable segment subsequently conforms to the interior walls of a vessel to provide a sealing contact along the contact surface of the segment inserted within. The flow opening provides fluid interconnectivity between the vessels connected by the implant device. The device is configured so as to: (1) not impede flow inside a vessel; (2) prevent flow out of the openings in the vessels except for flow from one vessel to another via the connector opening; and (3) force the vessels toward each other at areas around the openings allowing the vessels to grow together so that flow in one vessel may flow to the other. The implant device may be inserted using special catheter designed specifically for the placement and release of the implant device within the vessels for interconnection thereof. The implant device is preferably provided in an assortment of sizes, shapes, configurations, etc. in order to interconnect vessels of various sizes, shapes and orientations. A system which includes a catheter having the implantable device loaded therein is also disclosed

    摘要翻译: 本发明提供了一种植入装置和相关联的方法,用于快速,安全地并且以微创方式互连人体血管。 该装置包括沿着两个连接段的周边的第一段,第二段和流动开口。 第一和第二段是可弯曲的,以便于插入到每个容器内形成的切口中。 在释放时,每个可弯曲段随后符合容器的内壁,以沿着插入其中的段的接触表面提供密封接触。 流动开口在通过植入装置连接的容器之间提供流体互连。 该装置配置成:(1)不妨碍容器内的流动; (2)防止从容器中的开口经由连接器开口流出除一个容器之外的开口; 和(3)在开口周围的区域迫使血管朝向彼此,允许血管一起生长,使得一个血管中的流动可能流向另一个血管。 可以使用专门设计用于植入装置在容器内的放置和释放的专用导管插入植入装置,用于互连。 植入装置优选地以各种尺寸,形状,构造等设置,以便互连各种尺寸,形状和取向的容器。 还公开了一种包括其中装载有可植入装置的导管的系统

    Devices and methods for interconnecting vessels
    2.
    发明授权
    Devices and methods for interconnecting vessels 失效
    用于互连血管的装置和方法

    公开(公告)号:US06458140B2

    公开(公告)日:2002-10-01

    申请号:US09771007

    申请日:2001-01-26

    IPC分类号: A61B1704

    摘要: The present invention provides implantable devices and associated methods forinterconnecting human vessels in a side-to-side or an end-to-side arrangement rapidly, safely and in a minimally invasive manner. The devices comprises at least a first segment, a second component, and a flow opening between the at least one segment and the second component when operatively used. The first segment is flexible and has physical and mechanical properties which allow it to be easily inserted into a vessel, to conformably seal with the inside wall of the vessel and to be resistant to dislodging from the vessel. The second component may comprise a second segment having the same or a similar configuration as the first segment or may be a tubular member which extends from the first segment. The first and second segments are flexible for easy insertion into an incision made within the side of each vessel. Upon release from a constricted state, each flexible segment subsequently conforms to the interior walls of a vessel to provide a sealing contact along the contact surface of the segment inserted within. The tubular member is configured to be inserted into a transected end of a vessel. The flow opening provides fluid interconnectivity between the vessels connected by the implanted devices. The devices are configured so as to: (1) not impede flow inside a vessel; (2) prevent leakage from the incisions within the vessels; and (3) apposition the vessels toward each other allowing the vessels to heal together so that flow in one vessel may flow to the other.

    摘要翻译: 本发明提供可植入装置和用于以快速,安全和微创的方式将人血管以一对侧或端对侧的排列方式相互连接的方法。 当操作使用时,这些装置至少包括第一部分,第二部分和至少一个部分和第二部件之间的流动开口。 第一段是柔性的并且具有物理和机械性质,其允许其容易地插入容器中,以与容器的内壁一致地密封并且抵抗从容器移出的阻力。 第二部件可以包括具有与第一部分相同或相似的构造的第二部分,或者可以是从第一部分延伸的管状部件。 第一和第二段是柔性的,以便于插入到在每个容器的侧面内形成的切口中。 当从收缩状态释放时,每个柔性段随后与容器的内壁一致,以沿着插入其中的段的接触表面提供密封接触。 管状构件被构造成插入到容器的横截面中。 流动开口在由注入装置连接的容器之间提供流体互连。 这些装置被配置为:(1)不妨碍容器内的流动; (2)防止血管内的切口渗漏; 和(3)将血管相互放置,使血管相互愈合,使一个血管中的流动流向另一个血管。

    Device for interconnecting vessels in a patient

    公开(公告)号:US06251116B1

    公开(公告)日:2001-06-26

    申请号:US09363309

    申请日:1999-07-28

    IPC分类号: A61B1704

    摘要: The present invention provides an implant device and an associated method for interconnecting human vessels rapidly, safely and in a minimally invasive manner. The device comprises a first segment, a second segment, and a flow opening along the periphery of the two connected segments. The first and second segments are bendable for easy insertion into an incision made within each vessel. Upon release, each bendable segment subsequently conforms to the interior walls of a vessel to provide a sealing contact along the contact surface of the segment inserted within. The flow opening provides fluid interconnectivity between the vessels connected by the implant device. The device is configured so as to: (1) not impede flow inside a vessel; (2) prevent flow out of the openings in the vessels except for flow from one vessel to another via the connector opening; and (3) force the vessels toward each other at areas around the openings allowing the vessels to grow together so that flow in one vessel may flow to the other. The implant device may be inserted using special catheter designed specifically for the placement and release of the implant device within the vessels for interconnection thereof. The implant device is preferably provided in an assortment of sizes, shapes, configurations, etc. in order to interconnect vessels of various sizes, shapes and orientations. A system which includes a catheter having the implantable device loaded therein is also disclosed

    Method for interconnecting vessels in a patient
    4.
    发明授权
    Method for interconnecting vessels in a patient 失效
    在患者体内连接血管的方法

    公开(公告)号:US6165185A

    公开(公告)日:2000-12-26

    申请号:US363310

    申请日:1999-07-28

    IPC分类号: A61B17/00 A61B17/04 A61B17/11

    摘要: The present invention provides an implant device and an associated method for interconnecting human vessels rapidly, safely and in a minimally invasive manner. The device comprises a first segment, a second segment, and a flow opening along the periphery of the two connected segments. The first and second segments are bendable for easy insertion into an incision made within each vessel. Upon release, each bendable segment subsequently conforms to the interior walls of a vessel to provide a sealing contact along the contact surface of the segment inserted within. The flow opening permanently connects the segments and provides fluid interconnectivity between the vessels connected by the implant device. The device is configured so as to: (1) not impede flow inside a vessel; (2) prevent flow out of the openings in the vessels except for flow from one vessel to another via the connector opening; and (3) force the vessels toward each other at areas around the openings allowing the vessels to seal and grow together so that flow in one vessel may flow to the other. The implant device may be inserted using a special catheter designed specifically for the placement and release of the implant device within the vessels for interconnection thereof. The implant device is preferably provided in an assortment of sizes, shapes, configurations, etc. in order to interconnect vessels of various sizes, shapes and orientations.

    摘要翻译: 本发明提供了一种植入装置和相关联的方法,用于快速,安全地并且以微创方式互连人体血管。 该装置包括沿着两个连接段的周边的第一段,第二段和流动开口。 第一和第二段是可弯曲的,以便于插入到每个容器内形成的切口中。 在释放时,每个可弯曲段随后符合容器的内壁,以沿着插入其中的段的接触表面提供密封接触。 流动开口永久地连接段,并在通过植入装置连接的容器之间提供流体互连。 该装置配置成:(1)不妨碍容器内的流动; (2)防止从容器中的开口经由连接器开口流出除一个容器之外的开口; 和(3)在开口周围的区域迫使容器朝向彼此,使得容器密封并一起生长,使得一个容器中的流动可以流到另一个容器中。 可以使用专门设计用于在血管内放置和释放植入装置的专用导管插入植入装置,用于互连。 植入装置优选地以各种尺寸,形状,构造等设置,以便互连各种尺寸,形状和取向的容器。

    Multi element, multi color solid state LED/laser
    5.
    发明授权
    Multi element, multi color solid state LED/laser 有权
    多元素,多色固态LED /激光

    公开(公告)号:US08035117B2

    公开(公告)日:2011-10-11

    申请号:US11484233

    申请日:2006-07-10

    IPC分类号: H01L33/00

    摘要: A light emitting diode (LED) grown on a substrate doped with one or more rare earth or transition elements. The dopant ions absorb some or all of the light from the LED's active layer, pumping the dopant ion electrons to a higher energy state. The electrons are naturally drawn to their equilibrium state and they emit light at a wavelength that depends on the type of dopant ion. The invention is particularly applicable to nitride based LEDs emitting UV light and grown on a sapphire substrate doped with chromium. The chromium ions absorb the UV light, exciting the electrons on ions to a higher energy state. When they return to their equilibrium state they emit red light and some of the red light will emit from the LED's surface. The LED can also have active layers that emit green, blue and UV light, such that the LED emits green, blue, red and UV light which combines to create white light. Alternatively, it can have one active layer and grown on a sapphire substrate doped with Cr, Ti, and Co such that the substrate absorbs the UV light and emits blue, green, and red light. The invention is also capable of providing a tunable LED over a variety of color shades. The invention is also applicable to solid state lasers having one or more active layers emitting UV light with the laser grown on a sapphire substrate doped with one or more rare earth of transition elements.

    摘要翻译: 在掺杂有一种或多种稀土或过渡元素的衬底上生长的发光二极管(LED)。 掺杂剂离子吸收来自LED有源层的一些或全部光,将掺杂剂离子电子泵送到更高的能量状态。 电子被自然地吸收到它们的平衡状态,并且它们以取决于掺杂剂离子的类型的波长发光。 本发明特别适用于发射紫外光并在掺杂有铬的蓝宝石衬底上生长的基于氮化物的LED。 铬离子吸收紫外光,激发离子上的电子到更高的能量状态。 当它们回到它们的平衡状态时,它们发出红光,并且一些红光将从LED的表面发射。 LED还可以具有发射绿色,蓝色和紫外光的有源层,使得LED发射绿色,蓝色,红色和紫外光,结合以产生白光。 或者,它可以具有一个活性层并在掺杂有Cr,Ti和Co的蓝宝石衬底上生长,使得衬底吸收UV光并发出蓝色,绿色和红色光。 本发明还能够在各种色调上提供可调LED。 本发明也适用于具有一个或多个有源层发射紫外光的固态激光器,其中激光生长在掺杂有一个或多个稀土过渡元素的蓝宝石衬底上。

    AUTOMATED SEAL STRIP ASSEMBLY METHOD AND APPARATUS FOR ROTARY MACHINES
    6.
    发明申请
    AUTOMATED SEAL STRIP ASSEMBLY METHOD AND APPARATUS FOR ROTARY MACHINES 有权
    自动密封条组装方法和旋转机械设备

    公开(公告)号:US20060185166A1

    公开(公告)日:2006-08-24

    申请号:US10906558

    申请日:2005-02-24

    IPC分类号: B21D53/84 B23P19/02 B23Q17/00

    摘要: A automated sealing assembly for rotary machines including: a seal guide assembly, the seal guide assembly aligns and holds a caulk wire and a sealing strip in a rotor groove for peening; a peening tool, the peening tool peens said caulk wire to deform the caulk wire and secure the caulk wire and the sealing strip in the rotor groove; an actuator, the actuator controls a movement and preload force of the peening tool producing a rotor groove seal having a predictable pull out strength; and a base for securing the seal guide assembly, the peening tool, and the actuator.

    摘要翻译: 一种用于旋转机器的自动密封组件,包括:密封引导组件,密封引导组件对准和保持用于喷丸的转子槽中的填缝丝和密封条; 锤击工具,喷丸工具,所述填缝线使填缝线变形,并将铆接线和密封条固定在转子槽中; 致动器,致动器控制锤击工具的运动和预加载力,产生具有可预测的拔出强度的转子槽密封; 以及用于固定密封引导组件,锤击工具和致动器的基座。

    Method And System For A Light Source Assembly Supporting Direct Coupling To An Integrated Circuit
    7.
    发明申请
    Method And System For A Light Source Assembly Supporting Direct Coupling To An Integrated Circuit 有权
    支持直接耦合到集成电路的光源组件的方法和系统

    公开(公告)号:US20120205524A1

    公开(公告)日:2012-08-16

    申请号:US13455641

    申请日:2012-04-25

    IPC分类号: H01L31/16

    摘要: Methods and systems for a light source assembly for coupling to a photonically enabled complementary metal-oxide semiconductor (CMOS) chip are disclosed. The light source assembly may comprise a laser, a microlens, a turning mirror, and an optical bench, and may generate an optical signal utilizing the laser, focus the optical signal utilizing the microlens, and reflect the optical signal at an angle defined by the turning mirror. The reflected optical signal may be transmitted out of the assembly to grating couplers in the photonically enabled CMOS chip. The assembly may comprise a non-reciprocal polarization rotator, comprising a latching faraday rotator. The assembly may comprise a reciprocal polarization rotator, which may comprise a half-wave plate comprising birefringent materials operably coupled to the optical bench. The turning mirror may be integrated in the optical bench and may reflect the optical signal to transmit through a lid operably coupled to the optical bench.

    摘要翻译: 公开了用于耦合到光子学互补金属氧化物半导体(CMOS)芯片的光源组件的方法和系统。 光源组件可以包括激光器,微透镜,转向镜和光学台,并且可以使用激光产生光信号,利用微透镜聚焦光信号,并以由 转镜。 反射的光信号可以从组件传输到光子启用的CMOS芯片中的光栅耦合器。 组件可以包括非互易偏振旋转器,包括锁定法拉第旋转器。 组件可以包括互逆偏振旋转器,其可以包括半波片,其包括可操作地耦合到光学平台的双折射材料。 转向镜可以集成在光学台中并且可以反射光学信号以透过可操作地耦合到光学台的盖。

    Processor instruction retry recovery
    9.
    发明申请
    Processor instruction retry recovery 有权
    处理器指令重试恢复

    公开(公告)号:US20060179207A1

    公开(公告)日:2006-08-10

    申请号:US11055258

    申请日:2005-02-10

    IPC分类号: G06F12/14

    摘要: Recovery circuits react to errors in a processor core by waiting for an error-free completion of any pending store-conditional instruction or a cache-inhibited load before ceasing to checkpoint or backup progress of a processor core. Recovery circuits remove the processor core from the logical configuration of the symmetric multiprocessor system, potentially reducing propagation of errors to other parts of the system. The processor core is reset and the checkpointed values may be restored to registers of the processor core. The core processor is allowed not just to resume execution just prior to the instructions that failed to execute correctly the first time, but is allowed to operate in a reduced execution mode for a preprogrammed number of groups. If the preprogrammed number of instruction groups execute without error, the processor core is allowed to resume normal execution.

    摘要翻译: 恢复电路通过在停止处理器核心的检查点或备份进程之前等待任何挂起的存储条件指令或高速缓存禁止负载的无差错完成来响应处理器内核中的错误。 恢复电路将处理器核从对称多处理器系统的逻辑配置中移除,可能会将错误的传播减少到系统的其他部分。 处理器内核被复位,检查点值可以恢复到处理器内核的寄存器。 允许核心处理器不仅在第一次执行失败的指令之前恢复执行,而且允许以预编程的组数减少执行模式运行。 如果指令组的预编程数量无错误地执行,则允许处理器内核恢复正常执行。

    Multi element, multi color solid state LED/laser
    10.
    发明授权
    Multi element, multi color solid state LED/laser 有权
    多元素,多色固态LED /激光

    公开(公告)号:US07084436B2

    公开(公告)日:2006-08-01

    申请号:US10815426

    申请日:2004-03-31

    IPC分类号: H01L33/00

    摘要: A light emitting diode (LED) grown on a substrate doped with one or more rare earth or transition element. The dopant ions absorb some or all of the light from the LED's active layer, pumping the electrons on the dopant ion to a higher energy state. The electrons are naturally drawn to their equilibrium state and they emit light at a wavelength that depends on the type of dopant ion. The invention is particularly applicable to nitride based LEDs emitting UV light and grown on a sapphire substrate doped with chromium. The chromium ions absorb the UV light, exciting the electrons on ions to a higher energy state. When they return to their equilibrium state they emit red light and some of the red light will emit from the LED's surface. The LED can also have active layers that emit green and blue and UV light, such that the LED emits green, blue, red light and UV light which combines to create white light. Alternatively, it can have one active layer and grown on a sapphire substrate doped with Cr, Ti, and Co such that the substrate absorbs the UV light and emits blue, green, and red light. The invention is also capable of providing a tunable LED over a variety of color shades. The invention is also applicable to solid state laser having one or more active layers emitting UV light with the laser grown on a sapphire substrate doped with one or more rare earth or transition elements.

    摘要翻译: 在掺杂有一种或多种稀土或过渡元素的衬底上生长的发光二极管(LED)。 掺杂剂离子吸收来自LED有源层的一些或全部光,将掺杂剂离子上的电子泵送到更高的能量状态。 电子被自然地吸收到它们的平衡状态,并且它们以取决于掺杂剂离子的类型的波长发光。 本发明特别适用于发射紫外光并在掺杂有铬的蓝宝石衬底上生长的基于氮化物的LED。 铬离子吸收紫外光,激发离子上的电子到更高的能量状态。 当它们回到它们的平衡状态时,它们发出红光,并且一些红光将从LED的表面发射。 LED还可以具有发射绿色和蓝色和紫外线的有源层,使得LED发出绿色,蓝色,红色光和UV光,其组合以产生白光。 或者,它可以具有一个活性层并在掺杂有Cr,Ti和Co的蓝宝石衬底上生长,使得衬底吸收UV光并发出蓝色,绿色和红色光。 本发明还能够在各种色调上提供可调LED。 本发明也适用于具有一个或多个发射紫外光的有源层的固体激光器,其中激光生长在掺杂有一种或多种稀土或过渡元素的蓝宝石衬底上。