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    • 1. 发明授权
    • Sensor assembly with hydrophobic filter
    • 带疏水过滤器的传感器组件
    • US08113046B2
    • 2012-02-14
    • US12729173
    • 2010-03-22
    • Jamie SpeldrichScott Edward BeckPhil FosterRu Wang
    • Jamie SpeldrichScott Edward BeckPhil FosterRu Wang
    • G01F1/68
    • G01F15/125B01D17/10G01F1/36G01F1/40G01F1/684G01F1/6842
    • The present disclosure relates generally to sensors, and more particularly, to methods and devices for reducing moisture, dust, particulate matter, and/or other contaminates entering a sensor. In one illustrative embodiment, a sensor assembly includes a housing with an inlet flow port and an outlet flow port. The housing defines a fluid channel extending between the inlet flow port and the outlet flow port, with a sensor positioned in the housing and exposed to the fluid channel. The illustrative sensor is configured to sense a measure related to the flow rate of a fluid flowing through the fluid channel. A hydrophobic filter may be situated in the fluid channel, sometimes upstream of the sensor. When so configured, and during operation of the sensor assembly, a fluid may pass through the inlet flow port, through the hydrophobic filter, across the sensor, and through the outlet flow port. The hydrophobic filter may be configured to reduce the moisture entering the fluid channel of the sensor.
    • 本公开一般涉及传感器,更具体地,涉及用于减少进入传感器的湿气,灰尘,颗粒物质和/或其它污染物的方法和装置。 在一个说明性实施例中,传感器组件包括具有入口流动端口和出口流动端口的壳体。 壳体限定在入口流动端口和出口流动端口之间延伸的流体通道,传感器定位在壳体中并暴露于流体通道。 说明性传感器被配置为感测与流过流体通道的流体的流量相关的测量。 疏水过滤器可以位于流体通道中,有时位于传感器的上游。 当这样构造并且在传感器组件的操作期间,流体可以穿过入口流动端口,穿过疏水过滤器,穿过传感器,并且通过出口流动端口。 疏水过滤器可以被配置为减少进入传感器的流体通道的湿气。
    • 2. 发明申请
    • ROBUST SENSOR WITH TOP CAP
    • 具有顶盖的坚固传感器
    • US20110252882A1
    • 2011-10-20
    • US12762797
    • 2010-04-19
    • Scott Edward BeckRichard Alan DavisGilberto MoralesCarl StewartYong-Fa Wang
    • Scott Edward BeckRichard Alan DavisGilberto MoralesCarl StewartYong-Fa Wang
    • G01F1/69H05K13/00
    • G01F1/6845G01F15/14Y10T29/49002
    • A robust sensor, such as a robust flow sensor or pressure sensor, is provided. In one illustrative embodiment, a robust flow sensor includes one or more flow sensor components secured relative to a membrane, and a substrate for supporting the membrane. In some cases, the one or more flow sensor components may be substantially thermally isolated from the substrate by the membrane. One or more wire bond pads may be situated adjacent to a first side of the substrate and may be provided for communicating signals relative to the one or more flow sensor components. A top cap may be situated adjacent to the first side of the substrate and secured relative to the substrate. The top cap may define at least part of a fluid inlet and/or an outlet of the flow sensor assembly, and may at least partially define a flow channel that extends from the inlet, past at least one of the one or more flow sensor components, and out the outlet of the flow sensor assembly. The top cap may be structured and attached relative to the first side of the substrate such that the one or more wire bond pads are not exposed to a fluid in the flow channel, but are accessible for electrical connection to an external device. While a flow sensor is used as an example, it is contemplated that any suitable sensor may be used, as desired.
    • 提供鲁棒的传感器,例如鲁棒的流量传感器或压力传感器。 在一个说明性实施例中,坚固的流量传感器包括相对于膜固定的一个或多个流量传感器部件和用于支撑膜的基板。 在一些情况下,一个或多个流量传感器组件可以通过膜与衬底基本上热隔离。 一个或多个引线接合焊盘可以位于与衬底的第一侧相邻的位置,并且可被设置用于相对于一个或多个流量传感器部件传送信号。 顶盖可以位于邻近衬底的第一侧并相对于衬底固定。 顶盖可以限定流量传感器组件的流体入口和/或出口的至少一部分,并且可以至少部分地限定从入口延伸通过一个或多个流量传感器部件中的至少一个的流动通道 ,并从流量传感器组件的出口排出。 顶盖可以相对于基板的第一侧被构造和附接,使得一个或多个引线接合焊盘不暴露于流动通道中的流体,而是可访问以用于与外部设备的电连接。 虽然使用流量传感器作为示例,但是可以设想,可以根据需要使用任何合适的传感器。
    • 5. 发明授权
    • Method to remove metal and silicon oxide during gas-phase sacrificial oxide etch
    • 在气相牺牲氧化物蚀刻期间去除金属和氧化硅的方法
    • US06534413B1
    • 2003-03-18
    • US09698467
    • 2000-10-27
    • Eric Anthony Robertson, IIIScott Edward Beck
    • Eric Anthony Robertson, IIIScott Edward Beck
    • H01L21302
    • H01L21/02049B81C1/00936H01L21/31116
    • A method for removing sacrificial materials and metal contamination from silicon surfaces during the manufacturing of an integrated micromechanical device and a microelectronic device on a single chip is provided which includes the steps of adjusting the temperature of the chip using a reaction chamber to a temperature appropriate for the selection of a beta-diketone and the design of micromechanical and microelectronic devices, cycle purging the chamber using an inert gas to remove atmospheric gases and trace amounts of water, introducing HF and the beta-diketone as a reactive mixture into the reaction chamber which contains at least one substrate to be etched, flowing the reactive mixture over the substrate until the sacrificial materials and metal contamination have been substantially removed, stopping the flow of the reactive mixture; and cycle purging the chamber to remove residual reactive mixture and any remaining reaction by-products. Optionally, an oxidant gas may be added to the reactive mixture to promote the oxidation of metal species.
    • 提供了在单个芯片上集成微机械装置和微电子器件的制造期间从硅表面去除牺牲材料和金属污染的方法,其包括以下步骤:使用反应室将芯片的温度调节到适于 选择β-二酮和微机电和微电子器件的设计,使用惰性气体循环清洗室以除去大气气体和痕量的水,将HF和β-二酮作为反应混合物引入反应室,其中 包含至少一个要蚀刻的基底,使反应混合物流过基底,直到牺牲材料和金属污染被基本上除去,停止反应混合物的流动; 并循环清洗室以除去残留的反应性混合物和任何剩余的反应副产物。 任选地,氧化剂气体可以加入到反应混合物中以促进金属物质的氧化。
    • 8. 发明授权
    • Sensor assembly with hydrophobic filter
    • 带疏水过滤器的传感器组件
    • US08485031B2
    • 2013-07-16
    • US13361764
    • 2012-01-30
    • Jamie SpeldrichScott Edward BeckPhil FosterRu Wang
    • Jamie SpeldrichScott Edward BeckPhil FosterRu Wang
    • G01F1/68
    • G01F15/125B01D17/10G01F1/36G01F1/40G01F1/684G01F1/6842
    • The present disclosure relates to methods and devices for reducing moisture, dust, particulate matter, and/or other contaminates entering a sensor. A sensor assembly may include a housing with an inlet flow port and an outlet flow port. The housing may define a fluid channel extending between the inlet flow port and the outlet flow port, with a sensor positioned in the housing and exposed to the fluid channel. The sensor may be configured to sense a measure related to the flow rate of a fluid flowing through the fluid channel. A hydrophobic filter may be situated in the fluid channel, sometimes upstream of the sensor. When so configured, and during operation of the sensor assembly, a fluid may pass through the inlet flow port, through the hydrophobic filter, across the sensor, and through the outlet flow port.
    • 本公开涉及用于减少进入传感器的湿气,灰尘,颗粒物质和/或其它污染物的方法和装置。 传感器组件可以包括具有入口流动端口和出口流动端口的壳体。 壳体可以限定在入口流动端口和出口流动端口之间延伸的流体通道,传感器定位在壳体中并暴露于流体通道。 传感器可以被配置为感测与流过流体通道的流体的流量相关的测量。 疏水过滤器可以位于流体通道中,有时位于传感器的上游。 当这样构造并且在传感器组件的操作期间,流体可以穿过入口流动端口,穿过疏水过滤器,穿过传感器,并且通过出口流动端口。
    • 10. 发明申请
    • SENSOR ASSEMBLY WITH HYDROPHOBIC FILTER
    • 传感器总成与疏水过滤器
    • US20120186336A1
    • 2012-07-26
    • US13361764
    • 2012-01-30
    • Jamie SpeldrichScott Edward BeckPhil FosterRu Wang
    • Jamie SpeldrichScott Edward BeckPhil FosterRu Wang
    • G01F15/02
    • G01F15/125B01D17/10G01F1/36G01F1/40G01F1/684G01F1/6842
    • The present disclosure relates to methods and devices for reducing moisture, dust, particulate matter, and/or other contaminates entering a sensor. A sensor assembly may include a housing with an inlet flow port and an outlet flow port. The housing may define a fluid channel extending between the inlet flow port and the outlet flow port, with a sensor positioned in the housing and exposed to the fluid channel. The sensor may be configured to sense a measure related to the flow rate of a fluid flowing through the fluid channel. A hydrophobic filter may be situated in the fluid channel, sometimes upstream of the sensor. When so configured, and during operation of the sensor assembly, a fluid may pass through the inlet flow port, through the hydrophobic filter, across the sensor, and through the outlet flow port.
    • 本公开涉及用于减少进入传感器的湿气,灰尘,颗粒物质和/或其它污染物的方法和装置。 传感器组件可以包括具有入口流动端口和出口流动端口的壳体。 壳体可以限定在入口流动端口和出口流动端口之间延伸的流体通道,传感器定位在壳体中并暴露于流体通道。 传感器可以被配置为感测与流过流体通道的流体的流量相关的测量。 疏水过滤器可以位于流体通道中,有时位于传感器的上游。 当这样构造并且在传感器组件的操作期间,流体可以穿过入口流动端口,穿过疏水过滤器,穿过传感器,并且通过出口流动端口。