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    • 3. 发明申请
    • POWER SUPPLY CIRCUIT AND PORTABLE DEVICE
    • 电源电路和便携式设备
    • US20090200956A1
    • 2009-08-13
    • US11576076
    • 2006-02-07
    • Hidekazu Kojima
    • Hidekazu Kojima
    • H05B41/36G05F1/10
    • H02M3/073
    • A power supply circuit has a charge pump (CHP) step-up circuit including multiple CHP units for stepping up a given power supply voltage to a step-up voltage higher than the power supply voltage, and, based on an output voltage setting signal, converts the step-up voltage to a required output voltage. A comparator compares the detection voltage associated with the output voltage with a reference voltage to generate a comparison signal. In supplying a required output voltage, the number of operable CHP units can be changed to control the step-up voltage based on the comparison signal.
    • 电源电路具有包括多个CHP单元的电荷泵(CHP)升压电路,用于将给定的电源电压升高到高于电​​源电压的升压电压,并且基于输出电压设置信号, 将升压电压转换为所需的输出电压。 比较器将与输出电压相关联的检测电压与参考电压进行比较以产生比较信号。 在提供所需的输出电压时,可以改变可操作的CHP单元的数量,以便根据比较信号来控制升压电压。
    • 4. 发明授权
    • Display device driving apparatus and display device using the same
    • 显示装置驱动装置及使用其的显示装置
    • US07486288B2
    • 2009-02-03
    • US10553378
    • 2004-12-07
    • Hidekazu Kojima
    • Hidekazu Kojima
    • G09G5/00G09G3/36
    • G09G3/3696G09G2320/0209
    • In a drive unit for use with a matrix type display, a buffer circuit of the power supply circuit of the drive unit has an high-voltage first output circuit and a low-voltage second output circuit for generating the same output voltage under a normal operating condition, wherein the high-voltage output circuit has enhanced capability of providing output current to bring up the output voltage and the low-voltage output circuit has enhanced capability of providing output current to bring down the output voltage. A voltage detected at a node connected to the output end of the buffer circuit is compared with a bias voltage. Based on the comparison, the outputs of the first and second output circuits are switched over from one to the other as it is supplied to the display.
    • 在与矩阵型显示器一起使用的驱动单元中,驱动单元的电源电路的缓冲电路具有高压第一输出电路和低压第二输出电路,用于在正常工作状态下产生相同的输出电压 条件,其中高压输出电路具有提高输出电流以提高输出电压的能力,并且低压输出电路具有提高输出电流以降低输出电压的能力。 将连接到缓冲电路的输出端的节点上检测到的电压与偏置电压进行比较。 基于该比较,第一和第二输出电路的输出在被提供给显示器时从一个切换到另一个。
    • 5. 发明授权
    • Coating forming device of optical fiber
    • 光纤涂层成型装置
    • US06709518B2
    • 2004-03-23
    • US09921511
    • 2001-08-01
    • Hidekazu KojimaToshio Shibata
    • Hidekazu KojimaToshio Shibata
    • B05C1100
    • G02B6/2558C03C25/12
    • An optical fiber coating forming device forms a coating of an ultraviolet light hardening type in an optical fiber by precisely controlling an ultraviolet light output of a light source. The optical fiber coating forming device has a light source (2) for irradiating ultraviolet light to resin for coating formation molded to a coating removing portion (4) of an optical fiber core wire (3), a light receiver (5) for detecting intensity of the ultraviolet light by receiving the ultraviolet light irradiated to the resin for coating formation from the light source (2), and an environmental sensor (20) for detecting environmental information. The environmental sensor (20) includes at least a temperature sensor (6) and selectively includes a humidity sensor (7) and an atmospheric pressure sensor (8). An optical output controller (1) feedback-controls the optical output of the light source (2) on the basis of the environmental information detected by the environmental sensor (20), the ultraviolet light intensity detected by the light receiver (5), and control data for controlling the optical output of the light source (2) based on the ultraviolet light intensity and the above environmental information.
    • 光纤涂层形成装置通过精确地控制光源的紫外光输出,在光纤中形成紫外光硬化型涂层。 光纤涂层形成装置具有用于将紫外光照射到模制到光纤芯线(3)的涂层去除部分(4)上的涂层形成用光源(2),用于检测强度的光接收器(5) 通过接受从光源(2)照射到用于涂层形成的树脂的紫外线的紫外线;以及环境传感器(20),用于检测环境信息。 环境传感器(20)至少包括温度传感器(6),并且选择性地包括湿度传感器(7)和大气压力传感器(8)。 光输出控制器(1)基于由环境传感器(20)检测的环境信息,由光接收器(5)检测的紫外线强度反馈控制光源(2)的光输出,以及 用于基于紫外光强度和上述环境信息控制光源(2)的光输出的控制数据。
    • 7. 发明申请
    • MACHINING UNIT AND MACHINE TOOL
    • 加工单元和机床
    • US20090214313A1
    • 2009-08-27
    • US12372160
    • 2009-02-17
    • Heizaburo KatoMinoru KitayamaKazuya HoribeHidekazu KojimaMasaharu Nakatsu
    • Heizaburo KatoMinoru KitayamaKazuya HoribeHidekazu KojimaMasaharu Nakatsu
    • B23C3/00B23C1/12
    • B23B29/03482B23B2260/02Y10T82/16591Y10T82/16737Y10T279/14Y10T409/306664Y10T409/307896
    • A machining unit that is supported on a machine tool and machines a workpiece by a revolving tool with a main spindle section being driven and rotated includes an eccentric rotational section, a tool holder, a tool revolution-radius changing mechanism, and a cutting-edge-orientation correcting mechanism. The eccentric rotational section is disposed on the main spindle section, and is rotatable about an eccentric axis that is located eccentrically at any distance in a radial direction of the main spindle section from a rotation center of the main spindle section. The tool holder is disposed on the eccentric rotational section, and supports the tool. The tool revolution-radius changing mechanism moves the tool in the radial direction, and changes the radius of the revolution of the tool by rotating the eccentric rotational section about the eccentric axis. The cutting-edge-orientation correcting mechanism corrects the orientation of a cutting edge of the tool by making the tool holder spin about an axis of the tool holder, the axis being parallel to the rotation center of the main spindle section.
    • 一个加工单元,其被支撑在机床上并且通过被驱动和旋转的主轴部分的旋转工具对工件进行加工,包括偏心旋转部分,工具夹具,刀具转动半径改变机构和切削刃 方位校正机制。 所述偏心旋转部设置在所述主轴部上,并且能够围绕所述主轴部的旋转中心偏心地位于所述主轴部的径向任意距离的偏心轴线旋转。 工具架设置在偏心旋转部分上,并支撑工具。 刀具旋转半径改变机构沿径向移动刀具,并且通过围绕偏心轴旋转偏心旋转部分来改变刀具的旋转半径。 刀尖定向校正机构通过使工具架围绕刀架的轴线旋转,该轴线平行于主轴部的旋转中心来校正刀具的切削刃的取向。
    • 9. 发明授权
    • Machining unit and machine tool
    • 加工机组和机床
    • US07717018B2
    • 2010-05-18
    • US12372160
    • 2009-02-17
    • Heizaburo KatoMinoru KitayamaKazuya HoribeHidekazu KojimaMasaharu Nakatsu
    • Heizaburo KatoMinoru KitayamaKazuya HoribeHidekazu KojimaMasaharu Nakatsu
    • B23C3/00B23C1/12
    • B23B29/03482B23B2260/02Y10T82/16591Y10T82/16737Y10T279/14Y10T409/306664Y10T409/307896
    • A machining unit that is supported on a machine tool and machines a workpiece by a revolving tool with a main spindle section being driven and rotated includes an eccentric rotational section, a tool holder, a tool revolution-radius changing mechanism, and a cutting-edge-orientation correcting mechanism. The eccentric rotational section is disposed on the main spindle section, and is rotatable about an eccentric axis that is located eccentrically at any distance in a radial direction of the main spindle section from a rotation center of the main spindle section. The tool holder is disposed on the eccentric rotational section, and supports the tool. The tool revolution-radius changing mechanism moves the tool in the radial direction, and changes the radius of the revolution of the tool by rotating the eccentric rotational section about the eccentric axis. The cutting-edge-orientation correcting mechanism corrects the orientation of a cutting edge of the tool by making the tool holder spin about an axis of the tool holder, the axis being parallel to the rotation center of the main spindle section.
    • 一个加工单元,其被支撑在机床上并通过旋转工具对主工件进行加工,其中主轴部分被驱动和旋转包括偏心旋转部分,工具夹具,刀具转动半径改变机构和切削刃 方位校正机制。 所述偏心旋转部设置在所述主轴部上,并且能够围绕所述主轴部的旋转中心偏心地位于所述主轴部的径向任意距离的偏心轴线旋转。 工具架设置在偏心旋转部分上,并支撑工具。 刀具旋转半径改变机构沿径向移动刀具,并且通过围绕偏心轴旋转偏心旋转部分来改变刀具的旋转半径。 刀尖定向校正机构通过使工具架围绕刀架的轴线旋转,该轴线平行于主轴部的旋转中心来校正刀具的切削刃的取向。