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公开(公告)号:US20150066426A1
公开(公告)日:2015-03-05
申请号:US14309742
申请日:2014-06-19
Applicant: TDK CORPORATION
Inventor: Yohei HIROTA , Homare TOKIDA , Hiraku HIRABAYASHI
CPC classification number: G01B7/30 , G01D5/145 , G01R33/093
Abstract: A first, a second, and a third computing circuit respectively generate a first post-computation signal with a second harmonic component reduced as compared with first and second signals, a second post-computation signal with the second harmonic component reduced as compared with third and fourth signals, and a third post-computation signal with the second harmonic component reduced as compared with fifth and sixth signals. A fourth and a fifth computing circuit respectively generate a fourth post-computation signal with a third harmonic component reduced as compared with the first and second post-computation signals, and a fifth post-computation signal with the third harmonic component reduced as compared with the second and third post-computation signals. A sixth computing circuit determines a detected angle value based on the fourth and fifth post-computation signals.
Abstract translation: 第一,第二和第三计算电路分别产生与第一和第二信号相比减小的二次谐波分量的第一后计算信号,与第三和第二信号相比二次谐波分量减小的第二后计算信号, 第四信号,以及与第五和第六信号相比二次谐波分量减小的第三后计算信号。 第四和第五计算电路分别产生与第一和第二后计算信号相比减少了三次谐波分量的第四后计算信号,并且与第三和谐分量相比,第三后谐波分量减小 第二和第三后期计算信号。 第六计算电路基于第四和第五后计算信号确定检测角度值。
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2.发明申请公开(公告)号:US20140292321A1
公开(公告)日:2014-10-02
申请号:US14177602
申请日:2014-02-11
Applicant: TDK CORPORATION
Inventor: Hiroshi YAMAZAKI , Yoshiyuki MIZOGUCHI , Takahiro IMAI , Satoshi ABE , Homare TOKIDA
IPC: G01R33/09
CPC classification number: G01R33/093 , G01R33/098
Abstract: A magnetic sensor includes an MR element and a pair of magnets. The MR element includes a magnetization pinned layer having a magnetization pinned in a direction parallel to an X direction, a free layer having a magnetization that varies depending on an X-direction component of an external magnetic field, and a nonmagnetic layer interposed between the magnetization pinned layer and the free layer. The magnetization pinned layer, the nonmagnetic layer and the free layer are stacked to be adjacent in a Y direction. The free layer receives an interlayer coupling magnetic field in a direction parallel to the X direction resulting from the magnetization pinned layer. The pair of magnets applies a bias magnetic field to the free layer. The bias magnetic field includes a first component in a direction opposite to that of the interlayer coupling magnetic field and a second component in a Z direction.
Abstract translation: 磁传感器包括MR元件和一对磁体。 MR元件包括具有在与X方向平行的方向上固定的磁化的磁化固定层,具有根据外部磁场的X方向分量而变化的磁化的自由层和介于磁化之间的非磁性层 钉扎层和自由层。 磁化钉扎层,非磁性层和自由层在Y方向上堆叠成相邻。 自由层在由磁化固定层产生的与X方向平行的方向上接收层间耦合磁场。 这对磁体对自由层施加偏置磁场。 偏置磁场包括与层间耦合磁场的方向相反的方向的第一分量和Z方向上的第二分量。
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公开(公告)号:US20230089798A1
公开(公告)日:2023-03-23
申请号:US17947654
申请日:2022-09-19
Applicant: TDK CORPORATION
Inventor: Kenkichi ANAGAWA , Shinichirou MOCHIZUKI , Homare TOKIDA
Abstract: A magnetic sensor includes at least one sensor main body; a detection circuit provided on the at least one sensor main body, the detection circuit including a magnetic detection element; and a plurality of sensor terminals provided on the at least one sensor main body. The plurality of sensor terminals include a plurality of signal terminals and a plurality of power supply terminals. The plurality of signal terminals are all disposed on a side of one end of the at least one sensor main body. The plurality of power supply terminals include at least one first terminal disposed on the side of the one end of the at least one sensor main body, and a plurality of second terminals disposed on a side of another end of the at least one sensor main body.
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Patent Agency Ranking
4.发明申请公开(公告)号:US20140292322A1
公开(公告)日:2014-10-02
申请号:US14189211
申请日:2014-02-25
Applicant: TDK CORPORATION
Inventor: Hiroshi YAMAZAKI , Yoshiyuki MIZOGUCHI , Satoshi ABE , Homare TOKIDA , Toshiyuki AYUKAWA
IPC: G01R33/09
CPC classification number: G01R33/098 , G01R33/093
Abstract: A magnetic sensor includes an MR element and a bias field generation unit. The MR element includes a magnetization pinned layer having a magnetization pinned in a direction parallel to an X direction, a free layer having a magnetization that varies depending on an X-direction component of an external magnetic field, and a nonmagnetic layer interposed between the magnetization pinned layer and the free layer. The magnetization pinned layer, the nonmagnetic layer and the free layer are stacked to be adjacent in a Y direction. The free layer receives an interlayer coupling magnetic field in a direction parallel to the X direction resulting from the magnetization pinned layer. The bias field generation unit applies a bias magnetic field to the free layer. The bias magnetic field includes a first component in a direction opposite to that of the interlayer coupling magnetic field and a second component in a Z direction.
Abstract translation: 磁传感器包括MR元件和偏置场产生单元。 MR元件包括具有在与X方向平行的方向上固定的磁化的磁化固定层,具有根据外部磁场的X方向分量而变化的磁化的自由层和介于磁化之间的非磁性层 钉扎层和自由层。 磁化钉扎层,非磁性层和自由层在Y方向上堆叠成相邻。 自由层在由磁化固定层产生的与X方向平行的方向上接收层间耦合磁场。 偏置场产生单元向自由层施加偏置磁场。 偏置磁场包括与层间耦合磁场的方向相反的方向的第一分量和Z方向上的第二分量。
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公开(公告)号:US20160169707A1
公开(公告)日:2016-06-16
申请号:US15051373
申请日:2016-02-23
Applicant: TDK CORPORATION
Inventor: Yohei HIROTA , Homare TOKIDA , Hiraku HIRABAYASHI , Kazuma YAMAWAKI
IPC: G01D5/20
CPC classification number: G01D5/20 , G01D5/145 , G01R33/09 , G01R33/093
Abstract: A first, a second, and a third computing circuit respectively generate a first post-computation signal with a second harmonic component reduced as compared with first and second signals, a second post-computation signal with the second harmonic component reduced as compared with third and fourth signals, and a third post-computation signal with the second harmonic component reduced as compared with fifth and sixth signals. A fourth and a fifth computing circuit respectively generate a fourth post-computation signal with a third harmonic component reduced as compared with the first and second post-computation signals, and a fifth post-computation signal with the third harmonic component reduced as compared with the second and third post-computation signals. A sixth computing circuit determines a detected angle value based on the fourth and fifth post-computation signals.
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公开(公告)号:US20140292314A1
公开(公告)日:2014-10-02
申请号:US14164776
申请日:2014-01-27
Applicant: TDK CORPORATION
Inventor: Homare TOKIDA , Satoshi ABE , Hiroshi YAMAZAKI , Takahiro IMAI
CPC classification number: G01B7/14 , G01D5/24461 , G01D5/24466 , G01D5/2451 , G01R33/093
Abstract: A magnetic sensor system includes a scale and a magnetic sensor arranged in a relative positional relationship variable in a first direction, and a computing unit. The magnetic sensor includes a first detection circuit disposed at a first position and a second detection circuit disposed at a second position. Each of the first and second detection circuits includes a spin-valve magnetoresistive element. The difference between the first position and the second position in the first direction is smaller than or equal to 1.25% of a one-pitch amount of change in the relative positional relationship between the scale and the magnetic sensor. The computing unit generates an abnormal-event determination signal indicative of the presence of an abnormal event in the magnetic sensor by computation using detection signals from the first and second detection circuits.
Abstract translation: 磁传感器系统包括在第一方向上以相对位置关系变量布置的刻度尺和磁传感器,以及计算单元。 磁传感器包括设置在第一位置的第一检测电路和设置在第二位置的第二检测电路。 第一和第二检测电路中的每一个包括自旋阀磁阻元件。 第一方向上的第一位置和第二位置之间的差异小于或等于刻度尺与磁性传感器之间的相对位置关系的单音量变化量的1.25%。 计算单元通过使用来自第一和第二检测电路的检测信号的计算,产生表示磁传感器中存在异常事件的异常事件判定信号。
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公开(公告)号:US20190316894A1
公开(公告)日:2019-10-17
申请号:US16454284
申请日:2019-06-27
Applicant: TDK CORPORATION
Inventor: Yohei HIROTA , Homare TOKIDA , Hiraku HIRABAYASHI
Abstract: A first, a second, and a third computing circuit respectively generate a first post-computation signal with a second harmonic component reduced as compared with first and second signals, a second post-computation signal with the second harmonic component reduced as compared with third and fourth signals, and a third post-computation signal with the second harmonic component reduced as compared with fifth and sixth signals. A fourth and a fifth computing circuit respectively generate a fourth post-computation signal with a third harmonic component reduced as compared with the first and second post-computation signals, and a fifth post-computation signal with the third harmonic component reduced as compared with the second and third post-computation signals. A sixth computing circuit determines a detected angle value based on the fourth and fifth post-computation signals.
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公开(公告)号:US20140292313A1
公开(公告)日:2014-10-02
申请号:US14164315
申请日:2014-01-27
Applicant: TDK CORPORATION
Inventor: Kunihiro UEDA , Hiraku HIRABAYASHI , Satoshi ABE , Homare TOKIDA
IPC: G01B7/14
Abstract: A magnetic sensor system includes a scale and a magnetic sensor arranged in a relative positional relationship variable in a first direction, and a computing unit. The magnetic sensor includes a first detection circuit, a second detection circuit and a third detection circuit that are disposed at a first position, a second position and a third position, respectively. Each of the first to third detection circuits includes a spin-valve MR element. A difference between two of the first to third positions that are the most distant from each other in a first direction falls within a one-pitch amount of change in the relative positional relationship between the scale and the magnetic sensor. The computing unit generates first and second post-computation signals having mutually different phases by computation using detection signals from the first to third detection circuits.
Abstract translation: 磁传感器系统包括在第一方向上以相对位置关系变量布置的刻度尺和磁传感器,以及计算单元。 磁传感器包括分别设置在第一位置,第二位置和第三位置的第一检测电路,第二检测电路和第三检测电路。 第一至第三检测电路中的每一个包括自旋阀MR元件。 在第一方向上彼此最远的第一至第三位置中的两个之间的差异落在刻度尺和磁性传感器之间的相对位置关系的单间距变化量中。 计算单元通过使用来自第一至第三检测电路的检测信号的计算产生具有相互不同相位的第一和第二后计算信号。
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