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    • 3. 发明授权
    • Assembly for measuring movement of and a torque applied to a shaft
    • 用于测量施加到轴的运动和扭矩的组件
    • US07024946B2
    • 2006-04-11
    • US10763499
    • 2004-01-23
    • Thomas Wolfgang NehlThomas Hubert Van SteenkisteJohn R. SmithBrian K FullerAvoki M. OmekandaDonald T. MorelliJoseph V. Mantese
    • Thomas Wolfgang NehlThomas Hubert Van SteenkisteJohn R. SmithBrian K FullerAvoki M. OmekandaDonald T. MorelliJoseph V. Mantese
    • G01L3/10
    • G01L3/102G01L3/103
    • The subject invention provides an assembly for measuring movement of and a torque applied to a shaft extending between first and second ends and being hollow, specifically for measuring rotation and twisting of the shaft. A permanent magnet is disposed within the shaft for producing a parallel magnetic field emanating radially from the shaft. A sensor mechanism is positioned adjacent the shaft to detect the magnetic flux produced in response to the shaft being moved. The sensor mechanism includes a magnetostrictive (MR) material disposed annularly about the shaft and extends between first and second edges. A flux collector extends beyond the first and second edges of the magnetostrictive material to direct the magnetic flux through a Hall sensor to detect an axial component of the magnetic flux in response to twisting. A positional ring extends annularly around and spaced from the shaft and a positional sensor is disposed between the positional ring and the shaft for measuring a radial component of the magnetic flux in response to rotating.
    • 本发明提供了一种用于测量施加到在第一和第二端之间延伸并且是中空的轴的转矩和扭矩的组件,具体地用于测量轴的旋转和扭转。 永磁体设置在轴内,用于产生从轴径向发出的平行磁场。 传感器机构定位在轴附近,以检测响应于轴被移动产生的磁通量。 传感器机构包括围绕轴设置成环状并在第一和第二边缘之间延伸的磁致伸缩(MR)材料。 磁通收集器延伸超出磁致伸缩材料的第一和第二边缘,以引导磁通量通过霍尔传感器,以响应于扭转来检测磁通量的轴向分量。 位置环围绕轴线环绕并且间隔开,并且位置传感器设置在位置环和轴之间,用于响应于旋转来测量磁通量的径向分量。
    • 5. 发明授权
    • Magnetostrictive strain sensor (airgap control)
    • 磁致伸缩应变传感器(气隙控制)
    • US07234361B2
    • 2007-06-26
    • US11034440
    • 2005-01-11
    • Bruno P. B. LequesneThaddeus SchroederDonald T. MorelliThomas A. Baudendistel
    • Bruno P. B. LequesneThaddeus SchroederDonald T. MorelliThomas A. Baudendistel
    • G01B7/16G01B5/30
    • G01L1/127G01L1/125
    • A sensor assembly for measuring force along an axis (F) comprises an inductance coil extending around the axis (F) for establishing a loop of magnetic flux looping axially through the coil and extending around the axis (F) to define a donut shaped ring of magnetic flux surrounding the axis (F). A core of magnetostrictive material provides a primary path for the magnetic flux in a first portion of the loop of magnetic flux and a magnetic carrier provides a return path for magnetic flux in a second portion of the loop of magnetic flux as the magnetic flux circles the coil through the core and the carrier. A first interface extends radially between the core and the carrier whereby the core and the carrier are urged together at the interface in response to a force applied parallel to the axis (F). Various embodiments or combinations of the core and carrier are illustrated in FIGS. 3–7.
    • 用于沿轴线(F)测量力的传感器组件包括围绕轴线(F)延伸的电感线圈,用于沿轴线(F)绕轴线(F)建立一个环绕磁通量的环路,并且围绕轴线(F)延伸以形成环形环 围绕轴线(F)的磁通量。 磁致伸缩材料的核心提供磁通环路的第一部分中的磁通量的主路径,并且磁性载体在磁通环路的第二部分中提供用于磁通量的返回路径, 线圈通过芯和载体。 第一界面在芯体和载体之间径向延伸,由此芯体和载体响应于平行于轴线(F)施加的力而在界面处被推动在一起。 图1和图2中示出了芯和载体的各种实施例或组合。 3-7。
    • 7. 发明授权
    • Magnetostrictive strain sensor and method
    • 磁致伸缩应变传感器及方法
    • US07146866B2
    • 2006-12-12
    • US10973011
    • 2004-10-25
    • Donald T. MorelliBruno LequesneLarry M. OberdierThomas A. Baudendistel
    • Donald T. MorelliBruno LequesneLarry M. OberdierThomas A. Baudendistel
    • G01L1/12
    • G01L1/127G01L1/125
    • A magnetostrictive strain sensor (10) includes a magnetostrictive core (12) comprising a magnetostrictive material, such as a nickel-iron alloy, able to conduct a magnetic flux and whose permeability is alterable by application of a strain. A conductive coil (14) is proximate the magnetostrictive core (12) to generate the magnetic flux when electrically excited. A shell (16) surrounds the conductive coil (14) and the magnetostrictive core (12) for providing a conductive return path for the magnetic flux. An excitation source (18) is electrically connected to the conductive coil (14) for electrically exciting the conductive coil (14) with an alternating current having a constant magnitude. An in-phase voltage circuit (22) is electrically connected across the conductive coil (14). The in-phase voltage circuit (22) senses an in-phase voltage that is in-phase with the alternating current. The in-phase voltage varies correspondingly to the strain subjected to the magnetostrictive core (12). A processor (24) is operatively connected to the in-phase voltage circuit (22) to determine the strain applied to said magnetostrictive core (12) by comparing the in-phase voltage to a predetermined relationship between strain and in-phase voltage.
    • 磁致伸缩应变传感器(10)包括磁致伸缩芯(12),其包括能够传导磁通并且通过施加应变可改变磁通量的磁致伸缩材料,例如镍 - 铁合金。 导电线圈(14)靠近磁致伸缩芯(12)以在电激励时产生磁通量。 外壳(16)围绕导电线圈(14)和磁致伸缩芯(12),用于为磁通提供导电返回路径。 激励源(18)电连接到导电线圈(14),用于以具有恒定大小的交流电激励导电线圈(14)。 同相电压电路(22)跨导电线圈(14)电连接。 同相电压电路(22)感测与交流电同相的同相电压。 同相电压对应于经受磁致伸缩芯(12)的应变而变化。 处理器(24)可操作地连接到同相电压电路(22),以通过将同相电压与应变和同相电压之间的预定关系进行比较来确定施加到所述磁致伸缩芯(12)的应变。
    • 8. 发明授权
    • Magnetoresistor
    • 磁电阻
    • US4978938A
    • 1990-12-18
    • US426245
    • 1989-10-25
    • Dale L. PartinJoseph P. HeremansDonald T. Morelli
    • Dale L. PartinJoseph P. HeremansDonald T. Morelli
    • G01R33/09H01L43/08
    • H01L43/08G01R33/09
    • A magnetoresistive sensor that includes a very thin film of monocrystalline semiconductive material, having at least a moderate carrier mobility and no greater than a moderate carrier density. The device includes means for inducing or enhancing an accumulation layer adjacent the film outer surface. With film thicknesses below 5 micrometers, preferably below 3 micrometers, the presence of the accumulation layer can have a very noticeable effect. The unexpected improvement provides a significant apparent increase in mobility and conductivity of the semiconductive material, and an actual increase in magnetic sensitivity and temperature insensitivity. A method for making the sensor is also described.
    • 一种磁阻传感器,其包括非常薄的单晶半导体材料,至少具有适度的载流子迁移率且不大于中等载流子密度。 该装置包括用于诱导或增强邻近胶片外表面的聚集层的装置。 当膜厚度低于5微米,优选低于3微米时,积聚层的存在可以具有非常明显的效果。 意想不到的改进提供了半导体材料的迁移率和电导率的显着增加,并且磁敏感性和温度不敏感性的实际增加。 还描述了制造传感器的方法。
    • 9. 发明授权
    • Magnetic force sensor and control circuit for same
    • 磁力传感器和控制电路相同
    • US06941824B2
    • 2005-09-13
    • US10423317
    • 2003-04-25
    • Donald T. MorelliThaddeus Schroeder
    • Donald T. MorelliThaddeus Schroeder
    • G01L1/12
    • G01L1/127G01L1/125
    • A magnetic force sensor and method for measuring a force applied to an object. A magnetostrictive element mounted on at least a portion of the object is subjected to a prestress. A conductive coil is wound around at least a portion of the magnetostrictive element. An excitation source, which includes one of a current source and a voltage source, excites the conductive coil. A detection circuit detects one of an induced voltage across the conductive coil and a voltage drop across a resistor in series with the conductive coil. The detected voltage can be used to determine the applied force. A second coil can be used in a bipolar sensor or to correct for variations in ambient conditions.
    • 一种用于测量施加到物体的力的磁力传感器和方法。 安装在物体的至少一部分上的磁致伸缩元件经受预应力。 导电线圈缠绕在磁致伸缩元件的至少一部分上。 包括电流源和电压源之一的激励源激励导电线圈。 检测电路检测导电线圈两端的感应电压和与导电线圈串联的电阻器两端的电压降之一。 检测到的电压可用于确定施加的力。 第二个线圈可用于双极传感器或校正环境条件的变化。