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    • 1. 发明授权
    • Noninvasive pressure sensing assembly
    • 无创压力传感组件
    • US06941813B2
    • 2005-09-13
    • US10610087
    • 2003-06-30
    • Mikhail BoukhnyXiaoxiao Zhang
    • Mikhail BoukhnyXiaoxiao Zhang
    • G01L9/00
    • G01L9/0076G01L9/0077
    • An optical noninvasive pressure sensing assembly capable of accurately indicating relatively minute pressure changes. The present invention generally includes a light source, such as a Light Emitting Diode (LED) or normal room illumination, positioned to reflected light off of a surface of a membrane. The membrane is in contact with the fluid in which the pressure is to be measured so that changes in the pressure in the fluid cause movement of the membrane. A charge coupling device (CCD) camera captures light reflected off of the membrane and the reflected light is analyzed to determine the relative movement of the membrane based on the change in the pattern of the reflected light.
    • 一种能够准确地指示相对较小的压力变化的光学非侵入式压力感测组件。 本发明通常包括诸如发光二极管(LED)或正常室内照明的光源,其定位成从膜的表面反射光。 膜与要测量压力的流体接触,使得流体中的压力变化引起膜的移动。 电荷耦合器件(CCD)相机捕获从膜反射的光,并且基于反射光的图案的变化来分析反射光以确定膜的相对运动。
    • 4. 发明授权
    • Patient eye level touch control
    • 患者眼睛水平触摸控制
    • US09089367B2
    • 2015-07-28
    • US13081666
    • 2011-04-07
    • David A. ThoeJohn KoontzMikhail Boukhny
    • David A. ThoeJohn KoontzMikhail Boukhny
    • A61B19/00A61M1/00A61F9/007
    • A61B19/56A61B34/25A61B2090/0807A61B2090/0811A61F9/007A61M1/0058A61M2205/3344A61M2205/505
    • In various embodiments, a surgical console may include a sensor strip with sensor strip sensors (e.g., field effect or capacitive sensors) offset vertically and configured to receive an input from a user corresponding to a vertical height of a patient's eyes relative to the surgical console. The surgical console may use the input from the sensor strip to determine a patient eye level (PEL) relative to a surgical console component and then use the PEL and the at least one component in controlling operation of at least one of a source of irrigation or a source of aspiration during an ophthalmic procedure. The surgical console may further include a plurality of visual indicators positioned relative to at least two of the plurality of sensor strip sensors and configured to be illuminated to correspond to a sensor detecting the touch input.
    • 在各种实施例中,外科手术台可以包括具有传感器条传感器(例如,场效应或电容传感器)的传感器条,其垂直偏移并且被配置为接收来自与用户眼睛相对于外科手术台的垂直高度相对应的用户的输入 。 外科手术台可以使用来自传感器条的输入来确定相对于手术控制台部件的患者眼睛水平(PEL),然后使用PEL和至少一个部件来控制冲洗源中的至少一个或 在眼科手术期间的抽吸源。 外科手术台还可以包括多个视觉指示器,其相对于多个传感器条传感器中的至少两个定位,并且被配置为被照亮以对应于检测触摸输入的传感器。
    • 5. 发明授权
    • Orthogonal light beam splitting for microscopes
    • 用于显微镜的正交光束分裂
    • US08937769B2
    • 2015-01-20
    • US13490692
    • 2012-06-07
    • Alexander N. ArtsyukhovichMikhail BoukhnyZ. Aras Aslan
    • Alexander N. ArtsyukhovichMikhail BoukhnyZ. Aras Aslan
    • G02B27/08G02B27/14
    • G02B21/361G02B21/18G02B21/22G02B27/106G02B27/14G02B27/141G02B27/144G02B27/145
    • A system comprises first and second beamsplitter modules aligned along an alignment line. In certain embodiments, each beamsplitter module can split a beam traveling along a first optical path into a first split beam and a second split beam within a spectral range. Each beamsplitter module can transmit the first split beam along the first optical path and direct the second split beam along a second optical path substantially orthogonal to the first optical path and to the alignment line. In certain embodiments, each beamsplitter module can receive a first beam traveling along a first optical path and a second beam traveling along a second optical path that is substantially orthogonal to the first optical path and to the alignment line. Each beamsplitter module can combine the second beam with the first beam to yield a combined beam and transmit the combined beam along the first optical path.
    • 一种系统包括沿对准线排列的第一和第二分束器模块。 在某些实施例中,每个分束器模块可将沿着第一光路行进的光束分裂为光谱范围内的第一分束和第二分束。 每个分束器模块可以沿着第一光路传输第一分束,并且沿着与第一光路基本正交的第二光路和对准线引导第二分束。 在某些实施例中,每个分束器模块可以接收沿着第一光路行进的第一光束和沿着基本上正交于第一光路和对准线的第二光路行进的第二光束。 每个分束器模块可以将第二光束与第一光束组合以产生组合光束并沿着第一光路传输组合光束。