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    • 1. 发明申请
    • DEVICE FOR GENERATING A MEASUREMENT SIGNAL
    • WO2021117022A1
    • 2021-06-17
    • PCT/IB2020/061914
    • 2020-12-14
    • BOURNS, INC.
    • JAHRSTORFER, JohannBERNER, Sebastian
    • G01L3/10G01L5/22G01L25/00B62D6/10
    • The invention relates to a device (9) for generating a measurement signal (19) that is dependent on a torque (13) exerted on a torsion shaft (10) around a rotation axis (8) comprising: - a magnet ring (16) fixed to a first axial position of the torsion shaft (10) and having a predefined number of magnet poles (28, 29) for generating a magnetic field (17), characterized by - a magnet sensor (18) that is fixed to a second axial position of the torsion shaft (10) different from the first axial position and that includes -- a first sensor element (33) located in a radial plane (36) around the rotation axis (8) and outputting a first sensor signal dependent on the magnetic field (17) arriving the first sensor element (33), and -- a second sensor element (34, 38) located in the radial plane (36) of the first sensor element (33) but spaced from the first sensor element (33) with a distance (35) that is smaller that a cirumferencial extension of two neighboring magnet poles and outputting a second sensor signal dependent on the magnetic field (17) arriving the second sensor element (34, 38), - an evaluation system (21) that is adapted to filter a stray field signal component (39) from the first sensor signal based on the second sensor signal and to output the measurement signal (19) based on the filtered first sensor signal.
    • 5. 发明申请
    • LONG RANGE MAGNETIC PROXIMITY SENSOR
    • 长距离磁性接近传感器
    • WO2017099866A1
    • 2017-06-15
    • PCT/US2016/053738
    • 2016-09-26
    • BOURNS, INC.
    • TURNER, Ken
    • G01R33/07G01R33/00
    • G01R33/07G01R33/0011
    • A magnetic proximity sensor includes first and second spaced wings. Each wing has a protrusion extending outwardly from an edge near or at a corner thereof. The protrusions face each other to provide a narrow gap area. A magnetic assembly secured to each of the wings extends across the gap and is spaced from the protrusions. A magnetic sensor element is disposed at the narrow gap area. The magnetic assembly projects magnetic flux toward the first wing. Magnetic flux passes via the first wing and the protrusion thereof and crosses the narrow gap area to the protrusion of the second wing. The second wing provides a return path for magnetic flux to the magnetic assembly. The magnetic proximity sensor senses decreased magnetic flux when a target approaches.
    • 磁性接近传感器包括第一和第二间隔开的翼。 每个翼具有从其附近或其角落处的边缘向外延伸的突起。 突起彼此面对以提供狭窄的间隙区域。 固定到每个翼的磁性组件延伸穿过间隙并与突起间隔开。 磁传感器元件设置在狭窄的间隙区域。 磁性组件向第一机翼投射磁通量。 磁通量穿过第一机翼及其突出部并穿过窄间隙区域到第二机翼的突出部。 第二机翼提供磁通到磁组件的返回路径。 当接近目标时,磁性接​​近传感器检测到磁通量减少。
    • 7. 发明申请
    • FLAT GAS DISCHARGE TUBE DEVICES AND METHODS
    • 平板排气管装置及方法
    • WO2016149553A1
    • 2016-09-22
    • PCT/US2016/022970
    • 2016-03-17
    • BOURNS, INC.
    • HEATH, JanBOURNS, Gordon L.
    • H01J17/26H01J61/28H01J61/30H01J61/54H01J61/92H01T1/10H01T1/20H01T4/12
    • H01J61/305H01J9/18H01J9/265H01J9/28H01J61/06H01J61/361H01T1/20H01T4/04H01T4/12
    • Devices and methods related to flat discharge tubes. In some embodiments, a gas discharge tube (GDT) device can include a first insulator substrate having first and second sides and defining an opening. The GDT device can further include second and third insulator substrates mounted to the first and second sides of the first insulator substrate with first and second seals, respectively, such that inward facing surfaces of the second and third insulator substrates and the opening of the first insulator substrate define a chamber. The GDT device can further include first and second electrodes implemented on the respective inward facing surfaces of the second and third insulator substrates, and first and second terminals implemented on at least one external surface of the GDT device. The GDT device can further include electrical connections implemented between the first and second electrodes and the first and second terminals, respectively.
    • 与放电管相关的装置和方法。 在一些实施例中,气体放电管(GDT)装置可以包括具有第一和第二侧面并限定开口的第一绝缘体衬底。 GDT器件还可以包括分别用第一和第二密封件安装到第一绝缘体衬底的第一和第二侧面上的第二和第三绝缘体衬底,使得第二和第三绝缘体衬底的面向内的表面和第一绝缘体的开口 衬底限定一个室。 GDT器件还可以包括实施在第二和第三绝缘体衬底的相应向内表面上的第一和第二电极以及实现在GDT器件的至少一个外表面上的第一和第二端子。 GDT装置还可以包括分别在第一和第二电极与第一和第二端子之间实现的电连接。
    • 8. 发明申请
    • TRANSIENT BLOCKING UNIT USING NORMALLY-OFF DEVICE TO DETECT CURRENT TRIP THRESHOLD
    • 使用正常设备检测电流阈值的瞬态阻塞单元
    • WO2009102398A8
    • 2010-08-26
    • PCT/US2009000537
    • 2009-01-27
    • BOURNS INCMORRISH ANDREW J
    • MORRISH ANDREW J
    • H02H9/02
    • H02H9/025H02H3/025
    • An isolation device having normally off detection is provided. The isolation device having normally off detection includes a transient blocking unit (TBU) having at least one depletion mode device disposed between a pair of sense terminals, and at least one normally off transition element disposed to drive a gate of the depletion mode device in the TBU, where the normally off transition element transitions from a first resistive state to a second resistive state and one depletion mode device is connected to one sense terminal, and the normally off transition element transitions by detection of a current through the TBU. The TBU can be unidirectional or bi-directional.
    • 提供了一种正常检测的隔离装置。 具有正常关断检测的隔离装置包括具有设置在一对感测端子之间的至少一个耗尽模式器件的瞬态阻断单元(TBU),以及布置成驱动所述耗尽模式器件的栅极的至少一个常态过渡元件 TBU,其中正常关闭过渡元件从第一电阻状态转变到第二电阻状态,并且一个耗尽模式器件连接到一个感测端子,并且正常关断过渡元件通过检测通过TBU的电流而转变。 TBU可以是单向或双向的。