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    • 2. 发明授权
    • Imaging device, method for manufacturing the imaging device and cellular phone
    • 成像装置,用于制造成像装置和蜂窝电话的方法
    • US08013410B2
    • 2011-09-06
    • US12443508
    • 2007-10-04
    • Makoto ImaiHiroshi Nishizawa
    • Makoto ImaiHiroshi Nishizawa
    • H01L31/0232H01L31/0203H01L21/50
    • H01L27/1462H01L27/14618H01L27/14625H01L2924/0002H04N5/2254H04N5/2257H04N5/3696H04N2007/145H01L2924/00
    • An imaging device includes a lens (3), an optical filter (5), a semiconductor imaging element (4) having a light receiving section, and a tridimensional substrate (2) on which the semiconductor imaging element (4) and the optical filter (5) are mounted, wherein the tridimensional substrate (2) has an opening (14) corresponding to the light receiving section of the semiconductor imaging element (4), the semiconductor imaging element (4) and the optical filter (5) are located on one side of the opening (14), the lens (3) is located on the other side of the opening (14), and the semiconductor imaging element (4) and the optical filter (5) are fixed to the tridimensional substrate (2) under the condition that the semiconductor imaging element (4) and the optical filter (5) are curved, and have respective centers moved in a direction away from the lens (3).
    • 一种成像装置包括透镜(3),滤光器(5),具有光接收部分的半导体成像元件(4)和三维基板(2),半导体成像元件(4)和滤光器 (5),其中三维基板(2)具有对应于半导体摄像元件(4)的光接收部分的开口(14),半导体成像元件(4)和滤光器(5)位于 在所述开口(14)的一侧,所述透镜(3)位于所述开口(14)的另一侧,并且所述半导体摄像元件(4)和所述滤光器(5)固定在所述立体基板 2)在半导体摄像元件(4)和滤光器(5)弯曲的条件下,并且各个中心沿远离透镜(3)的方向移动。
    • 4. 发明授权
    • Lens, lens unit, and imaging device using the same
    • 透镜,透镜单元和使用其的成像装置
    • US07830610B2
    • 2010-11-09
    • US12097180
    • 2006-12-05
    • Hiroshi NishizawaMakoto Imai
    • Hiroshi NishizawaMakoto Imai
    • G02B3/00
    • C03B11/08C03B2215/404C03B2215/49G02B3/04G02B7/023G02B7/025Y02P40/57
    • A lens is provided which is configured so that the dimensional accuracy of the lens surface can be evaluated easily and accurately, and the control of the accuracy of the lens can be easily performed. The lens comprises a lens effective part having lens surfaces formed around an optical axis as the center and an edge part in a doughnut shape as viewed in a plan view, which is extended along the outer periphery of the lens effective part. The edge part and the lens effective part are molded simultaneously, and annular indices around the optical axis as the center, with which the dimensional accuracy of the lens surfaces can be detected, are formed on both the surfaces of the edge part.
    • 提供一种透镜,其被配置为使得可以容易且准确地评估透镜表面的尺寸精度,并且可以容易地执行透镜的精度控制。 该透镜包括透镜有效部,该透镜有效部具有以光轴为中心形成的透镜面,以及沿着透镜有效部的外周延伸的俯视图中的圆环形状的边缘部。 边缘部分和透镜有效部分同时成型,并且在边缘部分的两个表面上形成以光轴为中心的可以检测透镜表面的尺寸精度的环形折射率。
    • 6. 发明授权
    • Rotation-angle detection device
    • 旋转角度检测装置
    • US09234738B2
    • 2016-01-12
    • US13879731
    • 2010-11-18
    • Takumi AsanoTakeshi MushaHiroshi NishizawaTakashi OkamuroNoriyasu Hasegawa
    • Takumi AsanoTakeshi MushaHiroshi NishizawaTakashi OkamuroNoriyasu Hasegawa
    • G01B7/30G01D5/14G01D5/245
    • G01B7/30G01D5/145G01D5/2451
    • A detection track includes a first detection element group that includes a plurality of first magnetic resistance elements arranged at a pitch λ/(2n) when an order to cancel target harmonic components among a plurality of harmonic components superimposed on a fundamental component of a detection signal for multi-pole magnetic pattern is assumed as n, and a second detection element group that includes a plurality of second magnetic resistance elements arranged at the pitch λ/(2n), a plurality of first dummy magnetic resistance elements arranged among the first magnetic resistance elements, and a plurality of second dummy magnetic resistance elements arranged among the second magnetic resistance elements. Pitches between adjacent magnetic resistance elements among the first magnetic resistance elements and the first dummy magnetic resistance element are equivalent to one another, and pitches between adjacent magnetic resistance elements among the second magnetic resistance elements and the second dummy magnetic resistance element are equivalent to one another.
    • 检测轨道包括:第一检测元件组,其包括以叠加在检测信号的基本分量上的多个谐波分量中的目标谐波分量取消的次序,以间距λ/(2n)排列的多个第一磁阻元件 假定为n极的多极磁性图案,以及包括以间距λ/(2n)排列的多个第二磁阻元件的第二检测元件组,设置在第一磁阻中的多个第一伪磁阻元件 元件和布置在第二磁阻元件之间的多个第二虚设磁阻元件。 第一磁阻元件和第一伪磁阻元件之间的相邻磁阻元件之间的间距彼此相等,第二磁阻元件和第二虚磁阻元件中的相邻磁阻元件之间的间距彼此相等 。
    • 7. 发明授权
    • Insulation deterioration diagnosis apparatus
    • 绝缘劣化诊断装置
    • US09030210B2
    • 2015-05-12
    • US13582758
    • 2011-04-04
    • Yoshimasa WatanabeYoshiharu KanedaHiroshi NishizawaToru Oka
    • Yoshimasa WatanabeYoshiharu KanedaHiroshi NishizawaToru Oka
    • H01H31/12G01R31/02G01R31/14H01H31/02G01R31/34G01R31/40
    • G01R31/025G01R31/14G01R31/34G01R31/40
    • The invention is related to an insulation deterioration diagnostic apparatus for an electric path connected between an inverter device and an inverter-driven load device, including: a zero-phase current transformer having an annular magnetic core, a magnetizing coil wound around the magnetic core, and a detecting coil wound around the magnetic core, the transformer being for detecting a zero-phase current of an electric path; a magnetization control circuit for supplying an alternating current having a frequency at least twice as high as a drive frequency of the load device to the magnetizing coil to magnetize the magnetic core; and a frequency extracting circuit for extracting a frequency component identical to the drive frequency fd, from the output signal of the detecting coil, whereby precisely measuring a current leaking from an inverter-driven load device over a wide range of frequencies.
    • 本发明涉及一种连接在逆变器装置和逆变器驱动的负载装置之间的电路的绝缘劣化诊断装置,包括:具有环形磁芯,缠绕在磁芯上的磁化线圈的零相电流互感器, 以及缠绕在所述磁芯上的检测线圈,所述变压器用于检测电路的零相电流; 磁化控制电路,用于将具有至少两倍于负载装置的驱动频率的频率的交流电提供给磁化线圈以磁化磁芯; 以及频率提取电路,用于从检测线圈的输出信号中提取与驱动频率fd相同的频率分量,从而精确地测量在宽频率范围内从逆变器驱动的负载装置泄漏的电流。
    • 10. 发明申请
    • MAGNETIC ROTATIONAL-ANGLE DETECTOR
    • 磁力旋转角度检测器
    • US20100052664A1
    • 2010-03-04
    • US12596729
    • 2008-04-17
    • Hiroshi NishizawaHajime NakajimaTakeshi MushaYoichi Ohmura
    • Hiroshi NishizawaHajime NakajimaTakeshi MushaYoichi Ohmura
    • G01B7/30
    • G01D5/2451
    • The present invention provides a magnetic rotational-angle detector capable of detecting a position and a rotational angle of a rotating member with excellent accuracy. The magnetic rotational-angle detector includes device arrays (51, 52) constituted by a plurality of magnetic sensor devices which are arranged to cancel the n-th order harmonic components by each other. In the device arrays, the magnetic sensor devices corresponding to each other are arranged such that they are spaced apart with a distance of (2m+1)λ, and the arrangement of all the magnetic sensor devices and their orientations with respect to a power-supply terminal and a ground terminal are axisymmetrical about a straight line (2b) passing through a barycenric position (59) of all the magnetic sensor devices which is positioned on a straight line along a radial direction of a rotating drum (1).
    • 本发明提供一种能够以高精度检测旋转部件的位置和旋转角度的磁旋转角度检测装置。 磁旋转角度检测器包括由多个磁传感器装置构成的装置阵列(51,52),其被布置为相互抵消n次谐波分量。 在器件阵列中,彼此对应的磁传感器装置被布置为使得它们以(2m + 1)λ的距离间隔开,并且所有磁传感器装置的布置及其相对于功率 - 供电端子和接地端子围绕通过沿着旋转鼓(1)的径向位于直线上的所有磁传感器装置的重心位置(59)的直线(2b)的轴对称。