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    • 1. 发明授权
    • Microelectromechanical (MEM) fluid health sensing device and fabrication method
    • 微机电(MEM)液体健康感测装置及制造方法
    • US07328604B2
    • 2008-02-12
    • US11234015
    • 2005-09-22
    • Jeffrey F. DeNataleRobert L. Borwick, IIIPhilip A. StuparMartin W. Kendig
    • Jeffrey F. DeNataleRobert L. Borwick, IIIPhilip A. StuparMartin W. Kendig
    • G01N11/00
    • G01N33/2888G01N11/16
    • A microelectromechanical (MEM) fluid health sensing device comprises a viscosity sensor which provides an output that varies with the viscosity of a fluid in which it is immersed, and at least one other sensor which provides an output that varies with another predetermined parameter of the fluid. The viscosity sensor is preferably a MEM device fabricated by means of a “deep etch” process. The sensors are preferably integrated together on a common substrate, though they might also be fabricated separately and packaged together to form a hybrid device. A data processing means may be included which receives the sensor outputs and provides one or more outputs indicative of the health of the fluid. Sensor types which may be part of the present device include, for example, a temperature sensor, a MEM electrochemical sensor, a MEM accelerometer, a MEM contact switch lubricity sensor, and/or an inductive metallic wear sensor.
    • 微机电(MEM)流体健康感测装置包括粘度传感器,该粘度传感器提供随着浸入其中的流体的粘度而变化的输出,以及提供随流体的另一预定参数而变化的输出的至少一个其它传感器 。 粘度传感器优选是通过“深蚀刻”工艺制造的MEM器件。 传感器优选地集成在公共基板上,尽管它们也可以单独制造并且封装在一起以形成混合装置。 可以包括接收传感器输出并提供指示流体健康的一个或多个输出的数据处理装置。 可以是本装置的一部分的传感器类型包括例如温度传感器,MEM电化学传感器,MEM加速度计,MEM接触开关润滑性传感器和/或感应金属磨损传感器。
    • 7. 发明授权
    • Non-planar microcircuit structure and method of fabricating same
    • 非平面微电路结构及其制造方法
    • US08080736B2
    • 2011-12-20
    • US12372982
    • 2009-02-18
    • Jeffrey F. DeNatalePhilip A. StuparRobert L. Borwick, III
    • Jeffrey F. DeNatalePhilip A. StuparRobert L. Borwick, III
    • H05K1/00
    • H01L23/13H01L21/768H01L23/5387H01L24/63H01L27/14601H01L27/14625H01L27/14643H01L27/14683H01L27/14685H01L29/0657H01L2924/14
    • A foldable microcircuit is initially a planar semiconductor wafer on which circuitry has been formed. The wafer is segmented into a plurality of tiles, and a plurality of hinge mechanisms are coupled between adjacent pairs of tiles such that the segmented wafer can be folded into a desired non-planar configuration having a high fill-factor and small gaps between tiles. The hinge mechanisms can comprise an organic material deposited on the wafer such that it provides mechanical coupling between adjacent tiles, with metal interconnections between tiles formed directly over the organic hinges, or routed between adjacent tiles via compliant bridges. Alternatively, the interconnection traces between tiles can serve as part or all of a hinge mechanism. The foldable microcircuit can be, for example, a CMOS circuit, with the segmented tiles folded to form, for example, a semi-spherical structure arranged to provide a wide FOV photodetector array.
    • 可折叠微电路最初是其上形成有电路的平面半导体晶片。 晶片被分割成多个瓦片,并且多个铰链机构联接在相邻的瓦片对之间,使得分割的晶片可以折叠成具有高填充因子和瓦片之间的小间隙的期望的非平面构造。 铰链机构可以包括沉积在晶片上的有机材料,使得它提供相邻瓦片之间的机械耦合,并且在有机铰链之间直接形成的瓦片之间的金属互连,或者通过柔性桥接件在相邻瓦片之间布线。 或者,瓦片之间的互连迹线可以用作铰链机构的一部分或全部。 可折叠微电路可以是例如CMOS电路,其中分段瓦片被折叠以形成例如布置成提供宽FOV光电检测器阵列的半球形结构。
    • 9. 发明授权
    • Microelectromechanical system (MEMS) viscosity sensor for fluid health monitoring
    • 用于流体健康监测的微机电系统(MEMS)粘度传感器
    • US07287415B2
    • 2007-10-30
    • US10956229
    • 2004-09-30
    • Robert L. Borwick, IIIPhilip A. StuparJeffrey F. DeNatale
    • Robert L. Borwick, IIIPhilip A. StuparJeffrey F. DeNatale
    • G01N11/00
    • G01N33/30G01N11/16
    • Embodiments of the present invention are directed to a MEM viscosity sensor that is configured to be operated submerged in a liquid. The MEMS viscosity sensor comprises a MEMS variable capacitor comprising a plurality of capacitor plates capable of being submerged in a liquid. An actuator places a driving force on the variable capacitor which causes relative movement between the plates, where the movement creates a shear force between each moving plate and the liquid, which damps the movement of the plate and increases the capacitor's response time to the applied force in accordance with the liquid's viscosity. To determine the actual viscosity of the liquid, a sensor is coupled to the variable capacitor for sensing the response time of the plates as an indicator of the liquid's viscosity.
    • 本发明的实施例涉及一种MEM粘度传感器,其被配置为操作浸没在液体中。 MEMS粘度传感器包括MEMS可变电容器,其包括能够浸没在液体中的多个电容器板。 致动器在可变电容器上施加驱动力,其引起板之间的相对运动,其中运动在每个移动板和液体之间产生剪切力,其阻止板的移动并增加电容器对所施加的力的响应时间 根据液体的粘度。 为了确定液体的实际粘度,传感器耦合到可变电容器,用于感测板的响应时间作为液体粘度的指示。
    • 10. 发明授权
    • System for heating a vapor cell
    • 用于加热蒸汽池的系统
    • US08319156B2
    • 2012-11-27
    • US12645427
    • 2009-12-22
    • Robert L. Borwick, IIIJeffrey F. DeNataleChialun TsaiPhilip A. StuparYa-Chi Chen
    • Robert L. Borwick, IIIJeffrey F. DeNataleChialun TsaiPhilip A. StuparYa-Chi Chen
    • H05B3/02
    • H05B3/00G04F5/14H05B2214/04
    • A vapor cell includes an interrogation cell in a substrate, the interrogation cell having an entrance window and an exit window, and a first transparent thin-film heater in thermal communication with the entrance window. The transparent thin-film heater has a first layer in communication with a first pole contact at a proximal end of the heater and a layer coupler contact at a distal end, a second layer in communication with a second pole contact at the proximal end, and the second layer electrically coupled to the layer coupler contact at the distal end. An insulating layer is sandwiched between the first and second layers. The insulating layer has an opening at the distal end to admit the layer coupler contact and to insulate the remainder of the second layer from the first layer. The first and second pole contacts are available to complete an electric circuit at the proximal end, with magnetic fields for each of the first and second layers oriented in opposing directions when a current is applied through the circuit.
    • 蒸汽池包括在基板中的询问单元,询问单元具有入口窗口和出口窗口,以及与入口窗口热连通的第一透明薄膜加热器。 透明薄膜加热器具有与加热器的近端处的第一极触点连通的第一层和在远端处的层耦合器触点,在近端与第二极触点连通的第二层,以及 第二层在远端电耦合到层耦合器接触。 绝缘层夹在第一层和第二层之间。 绝缘层在远端具有开口,以允许层耦合器接触并使第二层的其余部分与第一层绝缘。 第一和第二极触点可用于在近端完成电路,当通过电路施加电流时,磁场中的第一和第二层中的每一个以相反的方向取向。