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    • 1. 发明申请
    • SYSTEMS AND METHODS FOR ACOUSTIC EMISSION MONITORING OF SEMICONDUCTOR DEVICES
    • 用于半导体器件的声发射监测的系统和方法
    • WO2018069922A2
    • 2018-04-19
    • PCT/IL2017/051123
    • 2017-10-03
    • AUGURY SYSTEMS LTD.
    • RUDYK, EduardNEGRI, OriSHAUL, GalYOSKOVITZ, Saar
    • G01R9/02
    • A system for monitoring and identifying states of a semiconductor device, the system including at least one acoustic sensor for sensing acoustic emission emitted by at least one semiconductor device operating at a voltage of less than or equal to 220 V, the at least one acoustic sensor outputting at least one acoustic emission signal and a signal processing unit for receiving the at least one acoustic emission signal from the at least one acoustic sensor and for analyzing the at least one acoustic emission signal, the signal processing unit providing an output based on the analyzing, the output being indicative at least of whether the at least one semiconductor device is in an abnormal operating state with respect to a normal operating state of the semiconductor device.
    • 一种用于监视和识别半导体器件的状态的系统,所述系统包括至少一个声传感器,用于感测由至少一个半导体器件发射的声发射,所述半导体器件在小于或等于220 V,所述至少一个声学传感器输出至少一个声发射信号,以及信号处理单元,用于接收来自所述至少一个声学传感器的所述至少一个声发射信号并用于分析所述至少一个声发射信号,所述信号处理 单元,基于所述分析提供输出,所述输出至少指示所述至少一个半导体器件相对于所述半导体器件的正常操作状态是否处于异常操作状态。
    • 3. 发明申请
    • AUTOMATIC MECHANICAL SYSTEM DIAGNOSIS
    • 自动机械系统诊断
    • WO2014064678A1
    • 2014-05-01
    • PCT/IL2013/050825
    • 2013-10-14
    • AUGURY SYSTEMS LTD.
    • YOSKOVITZ, SaarSHAUL, Gal
    • G05B23/00G01H5/00
    • G01N29/14G01H1/003G01H1/04G01H3/08G01H9/00G01M13/028G01M13/045G01N29/2481G01N29/46
    • A method for automatic diagnosis of a mechanical system of a group of mechanical systems sharing mechanical characteristics includes obtaining data relating to a vibration. The vibration-related data is acquired by a portable communications device configured to communicate with a remote processor. The processor automatically diagnoses the mechanical system by applying a relationship to the obtained vibration- related data. The relationship is based on sets of vibration-related data previously obtained from the mechanical systems. Each set of vibration-related data relates to vibrations of a mechanical system. The relationship is further based on sets of operation data previously obtained for mechanical systems of the group. Each set of operation data indicates a previous state of operation of a mechanical system. Each of the previous states of operation is associated with at least one of the previously obtained sets of vibration-related data.
    • 一种用于自动诊断一组共享机械特性的机械系统的机械系统的方法包括获得与振动有关的数据。 振动相关数据由被配置为与远程处理器进行通信的便携式通信设备获取。 处理器通过应用与获得的振动相关数据的关系来自动诊断机械系统。 该关系基于先前从机械系统获得的振动相关数据集合。 每组振动相关数据都涉及机械系统的振动。 该关系还基于先前为该组的机械系统获得的操作数据集。 每组操作数据表示机械系统的先前操作状态。 先前的操作状态中的每一个与先前获得的振动相关数据集中的至少一个相关联。
    • 4. 发明申请
    • SENSOR-AGNOSTIC MECHANICAL MACHINE FAULT IDENTIFICATION
    • WO2021044418A1
    • 2021-03-11
    • PCT/IL2020/050958
    • 2020-09-03
    • AUGURY SYSTEMS LTD.
    • NEGRI, OriBETHEL, ChristopherBARSKY, DanielBEN-HAIM, GalSHAUL, GalYOSKOVITZ, Saar
    • G16Z99/00
    • A method for identifying a fault of at least one mechanical machine, including causing a first plurality of sensors coupled to a corresponding first plurality of mechanical machines to acquire a first plurality of sets of signals emanating from the first plurality of mechanical machines, the first plurality of mechanical machines sharing at least one characteristic, supplying at least the first plurality of sets of signals of the first plurality of mechanical machines to a pre-existing fault classifier previously trained to automatically identify faults of a second plurality of mechanical machines based on signals emanating therefrom and previously acquired by a second plurality of sensors, the second plurality of sensors being of a different type than the first plurality of sensors, the second plurality of mechanical machines sharing the at least one characteristic, modifying the pre-existing fault classifier by employing transfer learning, based at least on the first plurality of sets of signals of the first plurality of mechanical machines, thereby providing a modified fault classifier, applying the modified fault classifier to at least one additional set of signals acquired by at least one sensor of the first plurality of sensors and emanating from at least one given mechanical machine sharing the at least one characteristic, the modified fault classifier being configured to automatically identify at least one fault of the at least one given mechanical machine based on the at least one additional set of signals, and providing a human sensible output, by an output device, including at least identification of the fault of the at least one given mechanical machine, at least one of a repair or maintenance operation being performed based on the human sensible output.