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    • 5. 发明授权
    • Method and apparatus for winding toroidal coils
    • 缠绕环形线圈的方法和装置
    • US5507442A
    • 1996-04-16
    • US119365
    • 1993-09-09
    • Toshio KonnoKazuhiro SugaiShinya WatanabeHiroyuki KonnoTooru Shoji
    • Toshio KonnoKazuhiro SugaiShinya WatanabeHiroyuki KonnoTooru Shoji
    • H01F41/08B65H81/02
    • H01F41/08Y10T29/49071
    • In a method for winding a toroidal coil, a winding of a first layer is made by means of repeating the following three steps. At a first step, one end of a wire is inserted into a central aperture of a core from one side thereof to extend the wire along an axial direction of the core; the other end of the wire is abutted to one surface of the core such that the other end is radially extended; and a tension is applied to the wire and the core with the other end of the wire is then turned in a diametrical direction of the core perpendicular to the radial direction. At a second step, the one end of the wire is inserted into the central aperture of the core towards the other side; and the tension is applied to the wire and the core is then rotated at a desired angle in one direction on a central axis of the core. At a third step, the core is grasped again by core turning means to turn the core in the same direction; the one end of the wire is inserted into the central aperture of the core towards the one side thereof, the one end being extended and the tension being applied to the wire, and then the core is rotated using the core turning means to shift it back at the desired angle in the other direction opposite to the one direction.
    • 在卷绕环形线圈的方法中,通过重复以下三个步骤来制作第一层的绕组。 在第一步骤中,线的一端从其一侧插入到芯的中心孔中,以沿芯的轴向方向延伸线; 线的另一端与芯的一个表面相接,使得另一端径向延伸; 并且对线材施加张力,并且线的另一端的芯部然后沿着垂直于径向方向的芯的直径方向转动。 在第二步骤中,将导线的一端插入芯体的中心孔,朝向另一侧; 并且将张力施加到线材上,然后将芯部在芯的中心轴线上以一个方向以期望的角度旋转。 在第三步骤中,芯通过芯转动装置再次被夹紧,以使芯沿相同的方向转动; 导线的一端插入芯的中心孔,朝向其一侧,一端延伸,并将张力施加到导线上,然后使用芯转动装置使芯转动以将其移回 在与一个方向相反的另一个方向上以期望的角度。
    • 7. 发明授权
    • Driving method for photoconductive-type SLM
    • 光导型SLM的驱动方法
    • US5294992A
    • 1994-03-15
    • US878080
    • 1992-05-04
    • Toshio KonnoShintaro NakagakiIchiro NegishiTetsuji SuzukiFujiko TatsumiRyusaku TakahashiKeiichi Maeno
    • Toshio KonnoShintaro NakagakiIchiro NegishiTetsuji SuzukiFujiko TatsumiRyusaku TakahashiKeiichi Maeno
    • G02F1/05G02F1/135G09F9/33G09G3/00H04N5/74
    • G09G3/002G02F1/135G09G3/02
    • A light-light transfer method using a spatial light modulator realizes an image display with a high utilizing of light without causing an undesirable residual image. The spatial light modulator is constituted to include two electrodes and at least a photoconductor layer member and a photo-modulation layer member used in a birefringence operating mode both being sandwiched between the two electrodes. A writing light is entered from the photoconductive layer member side so that its exposure value varies from the minimum exposure value to the maximum exposure value in a condition that a predetermined operation voltage is supplied between the two electrodes. In this instant, a voltage applied between both ends of the photo-modulation layer member corresponds to a voltage obtained by subtracting a voltage drop amount, occurring in the photoconductor layer member due to an incidence of the writing light, from said predetermined operation voltage applied in advance between said two electrodes. An operational condition of the spatial light modulator is set so that the voltage applied between both ends of the photo-modulation layer member becomes a voltage monotonously exceeding a voltage value corresponding to an extreme value of a degree of photo-modulation in a characteristic curve showing a relationship between an applied voltage and a degree of photo-modulation in the photo-modulation layer member, at the timing when the writing light of the maximum exposure value is entered into the spatial light modulator.
    • 使用空间光调制器的光传输方法利用光的高利用率实现图像显示,而不会引起不期望的残留图像。 空间光调制器被构造为包括两个电极和至少一个光电导体层构件和用于双折射操作模式的光调制层构件,两者都夹在两个电极之间。 在光电导层部件侧进入写入光,使得其曝光值在两个电极之间提供预定操作电压的条件下,从最小曝光值变化到最大曝光值。 在该时刻,施加在光调制层构件的两端之间的电压对应于通过从施加的预定操作电压减去由于写入光的入射而在光电导体层构件中发生的电压降量而获得的电压 提前在所述两个电极之间。 空间光调制器的操作条件被设置为使得在光电调制层部件的两端之间施加的电压在特性曲线中变为单调超过对应于光调制度的极值的电压值的电压, 在最大曝光值的写入光进入空间光调制器的时刻,光电调制层部件中的施加电压和光调制度之间的关系。
    • 8. 发明申请
    • Electronic Apparatus
    • 电子仪器
    • US20090304241A1
    • 2009-12-10
    • US12349438
    • 2009-01-06
    • Naoya ShigenobuYuichi HiraiToshio Konno
    • Naoya ShigenobuYuichi HiraiToshio Konno
    • G06K9/00
    • G06F1/169G06F1/1616G06F1/1656G06F1/1684G06F3/021
    • According to one embodiment, an electronic apparatus includes a housing, a pad button section and a switch board. The housing includes a cover member including an opening part. One of a first switch board on which a fingerprint authentication unit is mounted, and a second switch board on which no fingerprint authentication units are mounted is selectively adopted as the switch board. One of a first pad button section including a fingerprint authentication cover between buttons, and a second pad button section in which a pair of buttons are adjacent to each other is selectively adopted as the pad button section. The cover member is identical in shape between a case where the first pad button section is adopted and a case where the second pad button section is adopted.
    • 根据一个实施例,电子设备包括壳体,垫按钮部分和开关板。 壳体包括包括开口部的盖构件。 选择其中安装有指纹认证单元的第一开关板和安装有指纹认证单元的第二开关板之一作为开关板。 选择性地采用包括按钮之间的指纹认证盖的第一按钮按钮部分和彼此相邻的一对按钮的第二按钮部分作为按钮部分。 盖构件在采用第一垫按钮部的情况和采用第二垫按钮部的情况之间的形状相同。