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公开(公告)号:US20070272209A1
公开(公告)日:2007-11-29
申请号:US11837415
申请日:2007-08-10
申请人: Leonid Matsiev , James Bennett , Daniel Pinkas , Mikhail Spitkovsky , Oleg Kolosov , Shenheng Guan , Mark Uhrich , G. Dales , John Varni , Blake Walker , Vladimir Gammer , Dave Padowitz , Eric Low
发明人: Leonid Matsiev , James Bennett , Daniel Pinkas , Mikhail Spitkovsky , Oleg Kolosov , Shenheng Guan , Mark Uhrich , G. Dales , John Varni , Blake Walker , Vladimir Gammer , Dave Padowitz , Eric Low
CPC分类号: F02D41/021 , F02D2200/0611 , F02D2250/11 , G01F23/2966 , G01N9/002 , G01N11/16 , G01N29/022 , G01N29/036 , G01N29/30 , G01N29/348 , G01N2291/014 , G01N2291/0226 , G01N2291/02416 , G01N2291/02818 , G01N2291/02836 , G01N2291/0422 , G01N2291/0423 , G01N2291/0426 , G01N2291/0427
摘要: A sensor for sensing one or more properties of a vehicle fluid has a tuning fork resonator adapted to contact the fluid. The tuning fork resonator comprises two tines and is operable to oscillate so that the two tines move in opposite phase at a frequency of less than 1 MHz while contacting the fluid to generate a resonator response indicative of one or more properties of the fluid. In another aspect, a sensor includes a substrate and a flexural resonator on the substrate and adapted to contact the fluid. Circuitry for operation of the resonator is on the substrate. The resonator is adapted to receive an input signal and to oscillate while contacting the fluid to generate a resonator response indicative of one or more properties of the fluid. One suitable application for the invention is monitoring the condition of a vehicle engine oil.
摘要翻译: 用于感测车辆流体的一个或多个特性的传感器具有适于接触流体的音叉谐振器。 音叉谐振器包括两个齿并且可操作以振荡,使得两个齿在小于1MHz的频率下以相反相位移动,同时接触流体以产生指示流体的一个或多个特性的谐振器响应。 在另一方面,传感器包括衬底和在衬底上的弯曲谐振器并且适于接触流体。 用于谐振器操作的电路在基板上。 谐振器适于接收输入信号并且在接触流体时振荡以产生指示流体的一个或多个特性的谐振器响应。 本发明的一个合适的应用是监测车辆发动机油的状态。
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公开(公告)号:US20060218996A1
公开(公告)日:2006-10-05
申请号:US11433265
申请日:2006-05-12
申请人: Leonid Matsiev , James Bennett , Daniel Pinkas , Mikhail Spitkovsky , Oleg Kolosov , Shenheng Guan , Mark Uhrich , G. Dales , John Varni , Blake Walker , Vladimir Gammer , Dave Padowitz , Eric Low
发明人: Leonid Matsiev , James Bennett , Daniel Pinkas , Mikhail Spitkovsky , Oleg Kolosov , Shenheng Guan , Mark Uhrich , G. Dales , John Varni , Blake Walker , Vladimir Gammer , Dave Padowitz , Eric Low
IPC分类号: G01N29/00
CPC分类号: F02D41/021 , F02D2200/0611 , F02D2250/11 , G01F23/2966 , G01N9/002 , G01N11/16 , G01N29/022 , G01N29/036 , G01N29/30 , G01N29/348 , G01N2291/014 , G01N2291/0226 , G01N2291/02416 , G01N2291/02818 , G01N2291/02836 , G01N2291/0422 , G01N2291/0423 , G01N2291/0426 , G01N2291/0427
摘要: A sensor for sensing one or more properties of a vehicle fluid has a tuning fork resonator adapted to contact the fluid. The tuning fork resonator comprises two tines and is operable to oscillate so that the two tines move in opposite phase at a frequency of less than 1 MHz while contacting the fluid to generate a resonator response indicative of one or more properties of the fluid. In another aspect, a sensor includes a substrate and a flexural resonator on the substrate and adapted to contact the fluid. Circuitry for operation of the resonator is on the substrate. The resonator is adapted to receive an input signal and to oscillate while contacting the fluid to generate a resonator response indicative of one or more properties of the fluid. One suitable application for the invention is monitoring the condition of a vehicle engine oil.
摘要翻译: 用于感测车辆流体的一个或多个特性的传感器具有适于接触流体的音叉谐振器。 音叉谐振器包括两个齿并且可操作以振荡,使得两个尖齿以小于1MHz的频率以相反相位移动,同时接触流体以产生指示流体的一个或多个特性的谐振器响应。 在另一方面,传感器包括衬底和在衬底上的弯曲谐振器并且适于接触流体。 用于谐振器操作的电路在基板上。 谐振器适于接收输入信号并且在接触流体时振荡以产生指示流体的一个或多个特性的谐振器响应。 本发明的一个合适的应用是监测车辆发动机油的状态。
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公开(公告)号:US07254990B2
公开(公告)日:2007-08-14
申请号:US11433265
申请日:2006-05-12
申请人: Leonid Matsiev , James Bennett , Daniel M. Pinkas , Mikhail Spitkovsky , Oleg Kolosov , Shenheng Guan , Mark Uhrich , G. Cameron Dales , John F. Varni , Blake Walker , Vladimir Gammer , Dave Padowitz , Eric Low
发明人: Leonid Matsiev , James Bennett , Daniel M. Pinkas , Mikhail Spitkovsky , Oleg Kolosov , Shenheng Guan , Mark Uhrich , G. Cameron Dales , John F. Varni , Blake Walker , Vladimir Gammer , Dave Padowitz , Eric Low
IPC分类号: G01N11/16
CPC分类号: F02D41/021 , F02D2200/0611 , F02D2250/11 , G01F23/2966 , G01N9/002 , G01N11/16 , G01N29/022 , G01N29/036 , G01N29/30 , G01N29/348 , G01N2291/014 , G01N2291/0226 , G01N2291/02416 , G01N2291/02818 , G01N2291/02836 , G01N2291/0422 , G01N2291/0423 , G01N2291/0426 , G01N2291/0427
摘要: A sensor for sensing one or more properties of a vehicle fluid has a tuning fork resonator adapted to contact the fluid. The tuning fork resonator comprises two tines and is operable to oscillate so that the two tines move in opposite phase at a frequency of less than 1 MHz while contacting the fluid to generate a resonator response indicative of one or more properties of the fluid. In another aspect, a sensor includes a substrate and a flexural resonator on the substrate and adapted to contact the fluid. Circuitry for operation of the resonator is on the substrate. The resonator is adapted to receive an input signal and to oscillate while contacting the fluid to generate a resonator response indicative of one or more properties of the fluid. One suitable application for the invention is monitoring the condition of a vehicle engine oil.
摘要翻译: 用于感测车辆流体的一个或多个特性的传感器具有适于接触流体的音叉谐振器。 音叉谐振器包括两个齿并且可操作以振荡,使得两个齿在小于1MHz的频率下以相反相位移动,同时接触流体以产生指示流体的一个或多个特性的谐振器响应。 在另一方面,传感器包括衬底和在衬底上的弯曲谐振器并且适于接触流体。 用于谐振器操作的电路在基板上。 谐振器适于接收输入信号并且在接触流体时振荡以产生指示流体的一个或多个特性的谐振器响应。 本发明的一个合适的应用是监测车辆发动机油的状态。
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公开(公告)号:US07043969B2
公开(公告)日:2006-05-16
申请号:US10452264
申请日:2003-06-02
申请人: Leonid Matsiev , James Bennett , Daniel M. Pinkas , Mikhail Spitkovsky , Oleg Kolosov , Shenheng Guan , Mark Uhrich , G. Cameron Dales , John F. Varni , Blake Walker , Vladimir Gammer , Dave Padowitz , Eric Low
发明人: Leonid Matsiev , James Bennett , Daniel M. Pinkas , Mikhail Spitkovsky , Oleg Kolosov , Shenheng Guan , Mark Uhrich , G. Cameron Dales , John F. Varni , Blake Walker , Vladimir Gammer , Dave Padowitz , Eric Low
IPC分类号: G01N11/16
CPC分类号: F02D41/021 , F02D2200/0611 , F02D2250/11 , G01F23/2966 , G01N9/002 , G01N11/16 , G01N29/022 , G01N29/036 , G01N29/30 , G01N29/348 , G01N2291/014 , G01N2291/0226 , G01N2291/02416 , G01N2291/02818 , G01N2291/02836 , G01N2291/0422 , G01N2291/0423 , G01N2291/0426 , G01N2291/0427
摘要: A method for analyzing a fluid contained within a machine, comprising the steps of providing a machine including a passage for containing a fluid; placing a sensor including a mechanical resonator in the passage; operating the resonator to have a portion thereof translate through the fluid; and monitoring the response of the resonator to the fluid in the passage. A preferred sensor includes a tuning fork resonator.
摘要翻译: 一种用于分析包含在机器内的流体的方法,包括以下步骤:提供包括用于容纳流体的通道的机器; 将包括机械谐振器的传感器放置在通道中; 操作谐振器以使其一部分翻转通过流体; 以及监测谐振器对通道中的流体的响应。 优选的传感器包括音叉谐振器。
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公开(公告)号:US20060031030A1
公开(公告)日:2006-02-09
申请号:US11111846
申请日:2005-04-20
申请人: James Bennett , G. Dales , John Feland , Oleg Kolosov , Eric Low , Leonid Matsiev , William Rust , Mikhail Spitkovsky , Mark Uhrich
发明人: James Bennett , G. Dales , John Feland , Oleg Kolosov , Eric Low , Leonid Matsiev , William Rust , Mikhail Spitkovsky , Mark Uhrich
IPC分类号: G01F23/00
CPC分类号: G01F23/2967 , G01N9/002 , G01N11/16 , G01N29/022 , G01N29/222 , G01N2291/02818 , G01N2291/02836 , G01N2291/0422 , G01N2291/0423 , G01N2291/0426 , G01N2291/0427
摘要: Fluid monitoring methods, systems and apparatus are disclosed. Preferred embodiments comprise one or more flexural resonator sensing elements. In preferred embodiments a sensor or a sensor subassembly is ported to multiple fluidic systems.
摘要翻译: 公开了流体监测方法,系统和装置。 优选实施例包括一个或多个弯曲谐振器感测元件。 在优选实施例中,传感器或传感器子组件被移植到多个流体系统。
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公开(公告)号:US07272525B2
公开(公告)日:2007-09-18
申请号:US11111846
申请日:2005-04-20
申请人: James Bennett , G. Cameron Dales , John M. Feland, III , Oleg Kolosov , Eric Low , Leonid Matsiev , William C. Rust , Mikhail Spitkovsky , Mark Uhrich
发明人: James Bennett , G. Cameron Dales , John M. Feland, III , Oleg Kolosov , Eric Low , Leonid Matsiev , William C. Rust , Mikhail Spitkovsky , Mark Uhrich
CPC分类号: G01F23/2967 , G01N9/002 , G01N11/16 , G01N29/022 , G01N29/222 , G01N2291/02818 , G01N2291/02836 , G01N2291/0422 , G01N2291/0423 , G01N2291/0426 , G01N2291/0427
摘要: Fluid monitoring methods, systems and apparatus are disclosed, including a portable subassembly that is in electrical communication with a sensor in contact with the fluid being monitred. Preferred embodiments for the sensor include one or more flexural resonator sensing elements. In preferred embodiments the sensor subassembly is ported to multiple fluidic systems to monitor the fluid properties in an effecient manner.
摘要翻译: 公开了流体监测方法,系统和装置,包括与传感器电连通的便携式子组件,该传感器与被监视的流体接触。 传感器的优选实施例包括一个或多个弯曲谐振器感测元件。 在优选实施例中,传感器子组件移植到多个流体系统以以有效的方式监测流体特性。
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公开(公告)号:US20070050092A1
公开(公告)日:2007-03-01
申请号:US11503725
申请日:2006-08-14
申请人: Kirk Kenyon , Eric Low , Adam Safir
发明人: Kirk Kenyon , Eric Low , Adam Safir
IPC分类号: G06F19/00
摘要: Systems, methods and apparatus for designing a process to be performed at regions of an experiment library, the process involving the application of components at the library regions. Components are associated with regions of the experiment library. Each of the components represents a material or process parameter to be applied at the regions. A plurality of experiment stages are defined, each having one or more associated event types that are selected from predetermined event types and define a start condition for the corresponding stage. For each of the library regions, the components are associated with one or more of the experiment stages. A plurality of component profiles are generated, which represent processes to be performed at the various regions, and which describe the application over time of one or more of the components associated with a corresponding region or regions according to the associated experiment stages.
摘要翻译: 用于设计在实验库区域执行的过程的系统,方法和设备,涉及在库区应用组件的过程。 组件与实验库的区域相关联。 每个组件表示要在该区域应用的材料或工艺参数。 定义多个实验阶段,每个实验阶段具有从预定事件类型中选择的一个或多个相关联的事件类型并且定义相应阶段的开始条件。 对于每个库区域,组件与一个或多个实验阶段相关联。 生成多个组件简档,其表示将在各个区域执行的处理,并且根据相关联的实验阶段描述与相应区域相关联的一个或多个组件随着时间的应用。
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