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    • 2. 发明申请
    • CONTROL DEVICE AND CONTROL METHOD, AND PLANAR LIGHT SOURCE AND CONTROL METHOD OF PLANAR LIGHT SOURCE
    • 控制装置和控制方法,平面光源和平面光源的控制方法
    • US20090009105A1
    • 2009-01-08
    • US12166756
    • 2008-07-02
    • Hisao Sakurai
    • Hisao Sakurai
    • H05B37/02
    • H05B33/0851H05B33/0818Y02B20/346
    • A control device for controlling driving of an LED includes: a driving section driving the LED, the driving section being formed including a switching element; a control value obtaining section obtaining a control value of n+m bits; and a controlling section controlling the driving of the LED by the driving section on a basis of the control value of the n+m bits obtained by the control value obtaining section such that a number of times of turning on the switching element in a predetermined period is controlled by a control value of n higher-order bits, an ON time at one of the times of turning on the switching element is controlled by a control value of m lower-order bits, and ON times of the switching element excluding the ON time at the one time of turning on the switching element are a predetermined time.
    • 用于控制LED的驱动的控制装置包括:驱动LED的驱动部分,形成包括开关元件的驱动部分; 控制值获取部分,获得n + m位的控制值; 以及控制部,其基于由所述控制值获取部获得的所述n + m位的控制值,通过所述驱动部控制所述LED的驱动,使得在规定期间内接通所述开关元件的次数 由n个高阶位的控制值控制,开关元件的导通时间之一的导通时间由m个低阶位的控制值控制,除了开关元件的导通时间 在开启元件一次的时间是预定的时间。
    • 5. 发明申请
    • Coordinate input apparatus and display unit
    • 坐标输入装置和显示单元
    • US20060250373A1
    • 2006-11-09
    • US11385112
    • 2006-03-21
    • Hisao SakuraiSusumu Kaneko
    • Hisao SakuraiSusumu Kaneko
    • G09G5/00
    • G06F3/044
    • A coordinate input apparatus which can reliably specify a coordinate component (a position coordinate) of a selected position without a complicated structure irrespective of use conditions is provided. A coordinate input apparatus includes a capacity detecting portion which detects capacitance, wherein the coordinate input apparatus specifies a coordinate component of a selected position on the basis of a change in capacitance detected by the capacity detecting portion, and the capacity detecting portion includes a first conductive layer, an insulating layer which is formed on the first conductive layer, and a second conductive layer which is formed on the insulating layer in a mesh shape, and has a predetermined potential difference between the second conductive layer and the first conductive layer.
    • 提供一种能够可靠地指定所选位置的坐标分量(位置坐标)而不使用复杂结构而不考虑使用条件的坐标输入设备。 坐标输入装置包括检测电容的容量检测部,其中坐标输入装置基于由容量检测部检测到的电容的变化来指定所选位置的坐标分量,并且容量检测部包括第一导电 层,形成在第一导电层上的绝缘层和形成在绝缘层上的网状形状的第二导电层,并且在第二导电层和第一导电层之间具有预定的电位差。
    • 6. 发明授权
    • Cut-off adjusting apparatus
    • 切断调节装置
    • US06563496B1
    • 2003-05-13
    • US09615850
    • 2000-07-14
    • Hisao Sakurai
    • Hisao Sakurai
    • H14N568
    • H04N5/68H04N5/59
    • A cut-off adjusting apparatus in which a signal source for detecting cathode current is not required, the cost can be reduced, the cathode current can be detected with high precision, and the correction corresponding to time-variation can be performed with high precision. Includes a controller in which when an enforced adjusting mode is set, during a vertical period a control signal is output to a video amplifier to output such a signal that no video signal is contained in the output and the pedestal level is the black level irrespective of the input video signal, and wherein an averaged cathode current at this time is detected. Subsequently, a control signal is output to the video amplifier to output such a signal that the brightness level is set to gray, an averaged cathode current at this time is detected, the differential value therebetween is determined, the measurement value thereof and an initial set value are compared with each other, and a control signal is output to a third terminal of the cut-off control amplifier so that the measurement value is equal to the initial set value.
    • 一种不需要用于检测阴极电流的信号源的截止调节装置,可以降低成本,可以高精度地检测阴极电流,并且可以高精度地执行对应于时间变化的校正。 包括控制器,其中当设置强制调整模式时,在垂直周期期间,将控制信号输出到视频放大器以输出在输出中不包含视频信号的信号,并且基座电平是黑色电平,而不管 输入视频信号,并且其中检测此时的平均阴极电流。 随后,将控制信号输出到视频放大器以输出亮度级别设置为灰色的信号,此时检测到此时的平均阴极电流,确定其间的差分值,测量值和初始设定值 值彼此比较,并且控制信号被输出到截止控制放大器的第三端子,使得测量值等于初始设定值。
    • 7. 发明授权
    • Wide-band amplifier circuits
    • 宽带放大器电路
    • US5694084A
    • 1997-12-02
    • US630781
    • 1996-04-10
    • Hisao Sakurai
    • Hisao Sakurai
    • H04N5/14H03F1/48H03F3/19H03F3/30H04N5/68H03F3/04
    • H03F3/19H03F1/48H04N5/14
    • A wide-band amplifier circuit includes first to eighth transistors, a plurality of resistors, a capacitor and an output terminal. The first transistor has its base supplied with an input signal, the second transistor is connected in series through a first impedance circuit portion to a collector-emitter path of the first transistor for functioning as a diode, the third transistor is connected to form a first current mirror circuit portion together with the second transistor and has its collector connected through a first resistor to one end of a power source, the fourth transistor has its base connected to a connecting point between the collector of the third transistor and the first resistor, the fifth transistor has its collector-emitter path connected in series to a collector-emitter path of the fourth transistor, the sixth transistor has its base supplied with the input signal, the seventh transistor connected in series through a second impedance circuit portion including a second resistor and a capacitor to a collector-emitter path of the sixth transistor so as to form a second current mirror circuit portion together with the fifth transistor, and the eighth transistor having its collector-emitter path connected between one end of the second impedance circuit portion and one end of the power source and its base connected to a bias voltage source. A third resistor is connected between the other end of the second impedance circuit portion and the other end of the power source and the output terminal derived from a connection point between the emitter of the fourth transistor and the collector of the fifth transistor.
    • 宽带放大器电路包括第一至第八晶体管,多个电阻器,电容器和输出端子。 第一晶体管的基极提供有输入信号,第二晶体管通过第一阻抗电路部分串联连接到第一晶体管的集电极 - 发射极路径,用作二极管,第三晶体管被连接以形成第一晶体管 电流镜电路部分与第二晶体管一起并且其集电极通过第一电阻器连接到电源的一端,第四晶体管的基极连接到第三晶体管的集电极和第一电阻之间的连接点, 第五晶体管的集电极 - 发射极路径与第四晶体管的集电极 - 发射极路径串联连接,第六晶体管的基极被提供有输入信号,第七晶体管通过包括第二电阻器的第二阻抗电路部分串联连接 以及向第六晶体管的集电极 - 发射极路径的电容器,以形成第二电流镜电路部分 并且第八晶体管的集电极 - 发射极路连接在第二阻抗电路部分的一端和电源的一端之间,其基极连接到偏置电压源。 第三电阻器连接在第二阻抗电路部分的另一端和电源的另一端之间,并且输出端子源自第四晶体管的发射极和第五晶体管的集电极之间的连接点。
    • 8. 发明授权
    • Signal transmission apparatus and display apparatus
    • 信号传输装置和显示装置
    • US08749324B2
    • 2014-06-10
    • US13271470
    • 2011-10-12
    • Hisao SakuraiKatsuhisa ItoIzushi Kobayashi
    • Hisao SakuraiKatsuhisa ItoIzushi Kobayashi
    • H01P1/06H04N5/225
    • G02B27/2285H04N13/194H04N13/31
    • The present disclosure provides a signal transmission apparatus for transmitting a signal to a signal processing section provided inside a rotated rotary body, the signal transmission apparatus including: a waveguide tube provided on the rotating shaft of the rotary body; a signal transmitting section provided outside the rotary body to serve as a section for transmitting the signal through the waveguide tube; a signal receiving section provided inside the rotary body to serve as a section for receiving the signal transmitted by the signal transmitting section through the waveguide tube and supplying the signal to the signal processing section; a slip ring rotated along with the rotary body around the waveguide tube serving as a rotation axis; and a power supplying section provided outside the rotary body to serve as a section for supplying power to the signal processing section through the slip ring.
    • 本发明提供了一种用于将信号发送到设置在旋转的旋转体内的信号处理部分的信号传输装置,该信号传输装置包括:设置在旋转体的旋转轴上的波导管; 信号发送部,设置在所述旋转体的外侧,用作通过所述波导管传输所述信号的部分; 信号接收部,其设置在所述旋转体内部,用作用于接收由所述信号发送部通过所述波导管发送的信号的部分,并将所述信号提供给所述信号处理部; 滑环与旋转体一起围绕作为旋转轴线的波导管旋转; 以及设置在旋转体外部的供电部,用作通过滑环向信号处理部供电的部分。
    • 9. 发明授权
    • Capacitive detecting apparatus and display unit with a patterned conductive layer
    • 具有图案化导电层的电容检测装置和显示单元
    • US08269724B2
    • 2012-09-18
    • US11385112
    • 2006-03-21
    • Hisao SakuraiSusumu Kaneko
    • Hisao SakuraiSusumu Kaneko
    • G06F3/041
    • G06F3/044
    • A coordinate input apparatus which can reliably specify a coordinate component (a position coordinate) of a selected position without a complicated structure irrespective of use conditions is provided. A coordinate input apparatus includes a capacity detecting portion which detects capacitance, wherein the coordinate input apparatus specifies a coordinate component of a selected position on the basis of a change in capacitance detected by the capacity detecting portion, and the capacity detecting portion includes a first conductive layer, an insulating layer which is formed on the first conductive layer, and a second conductive layer which is formed on the insulating layer in a mesh shape, and has a predetermined potential difference between the second conductive layer and the first conductive layer.
    • 提供一种能够可靠地指定所选位置的坐标分量(位置坐标)而不使用复杂结构而不考虑使用条件的坐标输入设备。 坐标输入装置包括检测电容的容量检测部,其中坐标输入装置基于由容量检测部检测到的电容的变化来指定所选位置的坐标分量,并且容量检测部包括第一导电 层,形成在第一导电层上的绝缘层和形成在绝缘层上的网状形状的第二导电层,并且在第二导电层和第一导电层之间具有预定的电位差。
    • 10. 发明授权
    • Control device and control method, and planar light source and control method of planar light source
    • 控制装置及控制方法,平面光源及平面光源的控制方法
    • US07903082B2
    • 2011-03-08
    • US12166756
    • 2008-07-02
    • Hisao Sakurai
    • Hisao Sakurai
    • G09G3/36
    • H05B33/0851H05B33/0818Y02B20/346
    • A control device for controlling driving of an LED includes: a driving section driving the LED, the driving section being formed including a switching element; a control value obtaining section obtaining a control value of n+m bits; and a controlling section controlling the driving of the LED by the driving section on a basis of the control value of the n+m bits obtained by the control value obtaining section such that a number of times of turning on the switching element in a predetermined period is controlled by a control value of n higher-order bits, an ON time at one of the times of turning on the switching element is controlled by a control value of m lower-order bits, and ON times of the switching element excluding the ON time at the one time of turning on the switching element are a predetermined time.
    • 用于控制LED的驱动的控制装置包括:驱动LED的驱动部分,形成包括开关元件的驱动部分; 控制值获取部分,获得n + m位的控制值; 以及控制部,其基于由所述控制值获取部获得的所述n + m位的控制值,通过所述驱动部控制所述LED的驱动,使得在规定期间内接通所述开关元件的次数 由n个高阶位的控制值控制,开关元件的导通时间之一的导通时间由m个低阶位的控制值控制,并且除了ON之外的开关元件的导通时间 在开启元件一次的时间是预定的时间。