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    • 5. 发明申请
    • Level shift circuit
    • 电平移位电路
    • US20060033550A1
    • 2006-02-16
    • US11261518
    • 2005-10-31
    • Tomoya IshikawaHirofumi Nakagawa
    • Tomoya IshikawaHirofumi Nakagawa
    • H03L5/00
    • H03K3/356139H03K3/356191
    • To a level shift basic circuit having a CMOS configuration and composed of four transistors M1 through M4, a control circuit for preventing feed-through current through the transistors is added. Transitions of complementary data inputs Vin1 and Vin2 are made in a period in which n-MOS transistors M7 and M8 for control are turned OFF by changing a control input VS1 to an L level (switch-off period). In this switch-off period, each source of the n-MOS transistors M1 and M2 is disconnected from VSS. In addition, in the switch-off period, a control input VS2 is changed to an L level, thereby turning ON p-MOS transistors M5 and M6 for control. In a period in which the control p-MOS transistors M5 and M6 are ON, data outputs Vout1 and Vout2 are both precharged to VDD (precharge period).
    • 对于具有CMOS配置并由四个晶体管M 1至M 4组成的电平转换基本电路,添加用于防止通过晶体管的馈通电流的控制电路。 互补数据输入Vin 1和Vin 2的转换是通过将控制输入VS 1改变为L电平(关断周期)而将用于控制的n-MOS晶体管M 7和M 8截止的时段进行的。 在该关断期间,n-MOS晶体管M 1,M 2的各源与VSS断开。 此外,在关断期间,控制输入VS2变为L电平,从而导通用于控制的p-MOS晶体管M 5和M 6。 在控制p-MOS晶体管M5和M6接通的时段中,数据输出Vout 1和Vout 2都被预充电到VDD(预充电周期)。
    • 6. 发明授权
    • Moving body positioning device
    • 移动体定位装置
    • US08983124B2
    • 2015-03-17
    • US13512696
    • 2010-12-03
    • Masakatsu KourogiTomoya IshikawaTakeshi Kurata
    • Masakatsu KourogiTomoya IshikawaTakeshi Kurata
    • G06K9/00G08B1/08G01C21/20G01S11/12G08G1/005
    • G01C21/20G01S11/12G06K9/00348G08G1/005
    • A moving body positioning device includes a sensor group that outputs a motion velocity vector of a moving body, a motion velocity vector estimation processing device that measures a motion velocity vector and outputs an output sequence of the motion velocity vector together with a measured time, a monitoring camera, an image analysis processing device that analyzes the image of the monitoring camera to measure a position of feet of the moving body measures a motion velocity vector at the position of the feet, and outputs an output sequence of the motion velocity vector with a measured time, and a motion velocity vector collation processing device that collates the output sequence of the motion velocity vector estimation processing device with the output sequence of the image analysis processing device and outputs its collation result as a TRUE or a FALSE signal.
    • 移动体定位装置包括输出移动体的运动速度矢量的传感器组,运动速度矢量估计处理装置,其测量运动速度矢量,并输出运动速度矢量的输出序列以及测量时间, 监视摄像机,分析监视摄像机的图像以测量移动体的脚的位置的图像分析处理设备测量脚的位置处的运动速度矢量,并且将运动速度矢量的输出序列输出到 以及运动速度矢量对照处理装置,其将运动速度矢量估计处理装置的输出顺序与图像分析处理装置的输出顺序进行比较,并将其对照结果输出为TRUE或FALSE信号。
    • 7. 发明申请
    • MOVING BODY POSITIONING DEVICE
    • 移动身体定位装置
    • US20120237086A1
    • 2012-09-20
    • US13512696
    • 2010-12-03
    • Masakatsu KourogiTomoya IshikawaTakeshi Kurata
    • Masakatsu KourogiTomoya IshikawaTakeshi Kurata
    • G06K9/62
    • G01C21/20G01S11/12G06K9/00348G08G1/005
    • Provided is a moving body positioning device serving as an essential element for monitoring and tracing a moving body, which moving body positioning device uses an external monitoring camera.The moving body positioning device includes a self-contained sensor group that outputs a motion velocity vector of a moving body with use of an acceleration sensor provided in the moving body, a motion velocity vector estimation processing device that measures a motion velocity vector in accordance with the output of the self-contained sensor group and outputs an output sequence of the motion velocity vector together with a measured time, a monitoring camera for externally image capturing the moving body, an image analysis processing device that analyzes the image of the monitoring camera to measure a position of feet of the moving body in the image, measures a motion velocity vector at the position of the feet, and outputs an output sequence of the motion velocity vector together with a measured time, and a motion velocity vector collation processing device that collates the output sequence of the motion velocity vector estimation processing device with the output sequence of the image analysis processing device and outputs its collation result as a TRUE or a FALSE signal.
    • 提供一种移动体定位装置,其用作用于监测和跟踪移动体的基本元件,移动体定位装置使用外部监视摄像机。 移动体定位装置包括使用设置在移动体中的加速度传感器输出移动体的运动速度矢量的独立传感器组,运动速度矢量估计处理装置,其根据 独立传感器组的输出,输出运动速度矢量的输出序列以及测量时间,用于外部图像捕获移动体的监视摄像机,将监视摄像机的图像分析成图像分析处理装置 测量图像中的移动体的脚的位置,测量脚的位置处的运动速度矢量,并输出运动速度矢量与测量时间的输出序列,以及运动速度矢量对比处理装置, 将运动速度矢量估计处理装置的输出序列与imag的输出序列进行比较 e分析处理装置,并将其核对结果输出为TRUE或FALSE信号。
    • 8. 发明授权
    • Heating and blowing apparatus
    • 加热吹风装置
    • US07644511B2
    • 2010-01-12
    • US11819354
    • 2007-06-27
    • Tomoya IshikawaHideki TanakaKenji KamadaKazumi OkawaFumio Mihara
    • Tomoya IshikawaHideki TanakaKenji KamadaKazumi OkawaFumio Mihara
    • F26B25/00
    • A45D20/12A45D2200/202
    • A heating and blowing apparatus includes a main body housing having an inlet port and a discharge port. An air flow path extends from the inlet pod to the discharge port. A rotatingly driven fan and a heating unit are arranged on the air flow path. A bypass flow path branches off from the air flow path and leads to an ion emission port. An ion generator including a discharge electrode and an opposing electrode is arranged in the bypass flow path Further, the apparatus includes a cover arranged at the ion emission port and having an opening through which ions pass. One or more protrusions are provided on a rear surface of the cover. The protrusions make contact with the opposing electrode such that the cover is grounded through the opposing electrode.
    • 一种加热和吹风装置包括具有入口和排出口的主体壳体。 气流路径从入口舱延伸到排放口。 旋转驱动的风扇和加热单元布置在空气流动路径上。 旁路流路从空气流路分支,并通向离子发射口。 包括放电电极和相对电极的离子发生器被布置在旁路流路中。另外,该装置包括布置在离子发射端口处并具有离子通过的开口的盖。 一个或多个凸起设置在盖的后表面上。 突起与相对电极接触,使得盖通过对置电极接地。
    • 9. 发明申请
    • SIGNAL TRANSFER APPARATUS
    • 信号传输设备
    • US20080158206A1
    • 2008-07-03
    • US11952576
    • 2007-12-07
    • Tomoya IshikawaYuuki Fuchigami
    • Tomoya IshikawaYuuki Fuchigami
    • G05B1/02G06F3/038G09G5/00H03K5/22
    • H03K17/005G09G5/003G09G2330/06H03K17/28
    • A signal transfer apparatus comprises a differential signal generating part which receives an input signal from a positive-electrode side input terminal and an input signal from a negative-electrode side input terminal, and outputs a differential signal obtained from the input signals from both the input terminals; a first selecting part which receives a selection signal from a selection signal input terminal, the input signal from the positive-electrode side input terminal, and the input signal from the negative-electrode side input terminal, and selects and outputs either the input signal from the negative-electrode side input terminal or the input signal from the positive-electrode side input terminal in accordance with a logic of the selection signal and a logic of either the input signal from the positive-electrode side input terminal or the input signal from the negative-electrode side input terminal; and a second selecting part which selects and outputs either an output of the differential signal generating part or an output of the first selecting part in accordance the logic of the selection signal from the selection signal input terminal.
    • 信号传送装置包括差分信号产生部件,其接收来自正极侧输入端子的输入信号和来自负极侧输入端子的输入信号,并输出从输入的两个输入信号获得的差分信号 终端; 从选择信号输入端子接收选择信号的第一选择部分,来自正极侧输入端子的输入信号和来自负极侧输入端子的输入信号,并且选择并输出来自 负极侧输入端子或来自正极侧输入端子的输入信号,根据选择信号的逻辑和来自正极侧输入端子的输入信号或来自正极侧输入端子的输入信号的逻辑 负电极侧输入端子; 以及第二选择部件,其根据来自选择信号输入端子的选择信号的逻辑选择并输出差分信号产生部分的输出或第一选择部分的输出。
    • 10. 发明申请
    • Voltage driver
    • 电压驱动器
    • US20070075952A1
    • 2007-04-05
    • US11526059
    • 2006-09-25
    • Yoshihisa HamahashiTomoya IshikawaTetsuo AsadaYoshito DateYasuyuki Doi
    • Yoshihisa HamahashiTomoya IshikawaTetsuo AsadaYoshito DateYasuyuki Doi
    • G09G3/36
    • G09G3/2011G09G2310/027G09G2320/0233
    • Each of first and second decoders outputs two voltages each having a voltage value equal to any one of a plurality of gray-level voltages according to gray-level data as two selection voltages or outputs any two of the plurality of gray-level voltages according to gray-level data as the two selection voltages. A connection switching circuit associates one of the first and second decoders with a first differential amplifier and the other decoder with a second differential amplifier. An output switching circuit associates one of the first and second differential amplifiers with a first output node and the other differential amplifier with a second output node. Each of the first and second differential amplifiers synthesizes selection voltages output from the decoder associated with the differential amplifier to generate a driving voltage and outputs the generated driving voltage to the output node associated with the differential amplifier.
    • 第一解码器和第二解码器中的每一个根据作为两个选择电压的灰度级数据输出各自具有等于多个灰度级电压中的任何一个的电压值的两个电压,或者输出多个灰度级电压中的任何两个根据 灰度级数据作为两个选择电压。 连接切换电路将第一和第二解码器中的一个与第一差分放大器和另一个解码器与第二差分放大器相关联。 输出切换电路将第一和第二差分放大器之一与第一输出节点和另一个具有第二输出节点的差分放大器相关联。 第一和第二差分放大器中的每一个合成从与差分放大器相关联的解码器输出的选择电压以产生驱动电压,并将产生的驱动电压输出到与差分放大器相关联的输出节点。