会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Skew error correction circuit for video signal reproducing apparatus
    • 用于视频信号再现装置的倾斜误差校正电路
    • US4746996A
    • 1988-05-24
    • US748906
    • 1985-06-26
    • Takashi FuruhataHitoaki OwashiMichio Hibi
    • Takashi FuruhataHitoaki OwashiMichio Hibi
    • H04N5/95G11B5/09G11B20/24H04N5/932H04N9/896H04N5/78
    • H04N9/896H04N5/932
    • A skew error correction device for a video signal in a television receiver or the like is disclosed. An oscillator produces an oscillation output signal of a constant frequency which is phase-synchronized with horizontal synchronization information included in an input video signal, and the output signal is used as a write clock. In a vertical blanking period, the oscillation output signal or a frequency-divided signal thereof is phase-compared with an output of a reference signal generator of a predetermined frequency or a frequency-divided signal thereof, and a phase error signal is negatively fed back to voltage control means which voltage-controls the oscillation frequency of the oscillator. Thus, the oscillation frequency is stabilized without using an AFC circuit and a skew error in the input video signal is eliminated.
    • 公开了一种用于电视接收机等中的视频信号的偏斜纠错装置。 振荡器产生与包括在输入视频信号中的水平同步信息相位同步的恒定频率的振荡输出信号,并且输出信号用作写入时钟。 在垂直消隐期间,将振荡输出信号或其分频信号与预定频率的参考信号发生器或其分频信号的输出进行相位比较,并将相位误差信号反馈回 对电压控制装置进行电压控制振荡器的振荡频率。 因此,在不使用AFC电路的情况下稳定振荡频率,并且消除了输入视频信号中的偏斜误差。
    • 3. 发明申请
    • Receiving apparatus and receiving method
    • 接收装置和接收方法
    • US20090141846A1
    • 2009-06-04
    • US12222801
    • 2008-08-15
    • Michio Hibi
    • Michio Hibi
    • H03D3/24
    • H04L7/0337H03K5/15033H03K5/1504H03L7/06H04L25/0278H04L25/0298H04L25/03878
    • A receiving apparatus that can be connected to a transmitting apparatus through a plurality of transmission lines includes: a first clock generation section that generates a first clock based on a signal from a first transmission line which is one of the plurality of transmission lines; a first demodulation section that demodulates the signal from the first transmission line based on the timing of the first clock; a second clock generation section that controls the phase of the first clock based on the phase of a signal from a second transmission line which is one of the plurality of transmission lines and is different from the first transmission line to generate a second clock; and a second demodulation section that demodulates a signal from the second transmission line based on the timing of the second clock.
    • 可以通过多个传输线路连接到发送装置的接收装置包括:第一时钟生成部,其基于来自作为所述多个传输线中的一个的第一传输线的信号生成第一时钟; 第一解调部,其基于所述第一时钟的定时对来自所述第一传输线的信号进行解调; 第二时钟生成部,其基于来自作为所述多个传输线中的一个的第二传输线的信号的相位来控制所述第一时钟的相位,并且与所述第一传输线不同以产生第二时钟; 以及第二解调部,其基于第二时钟的定时对来自第二传输线的信号进行解调。
    • 4. 发明授权
    • Information transmission device and information transmission method
    • 信息传输设备和信息传输方式
    • US07895366B2
    • 2011-02-22
    • US11856972
    • 2007-09-18
    • Michio Hibi
    • Michio Hibi
    • G06F13/38G06F11/00
    • H04L47/10G06F13/385H04L43/00H04L43/0894H04L47/25
    • An information transmission device that is included in components and carries out communication between the components in an information processing device including a control monitoring unit that controls and monitors the components, comprising: a transmission control unit that stores a transmission parameter; a transmission unit that has transmission data input thereto in a first transmission speed or a second transmission speed having a transmission speed lower than the first transmission speed, adjusts the transmission data according to the transmission parameter, and sends the transmission data as a transmission signal to the information transmission device which is a connection destination; a receive control unit that stores a receive parameter; and a receiving unit that adjusts a receive signal received from the information transmission device which is a connection destination in accordance with the receive parameter, and outputs the receive signal in the first transmission speed or the second transmission speed as the receive data.
    • 一种包括在组件中并在包括控制和监视组件的控制监视单元的信息处理设备中的组件之间进行通信的信息传输设备,包括:传输控制单元,其存储传输参数; 以传输速度低于第一传输速度的第一传输速度或第二传输速度输入传输数据的传输单元根据传输参数调整传输数据,并将传输数据作为传输信号发送到 作为连接目的地的信息发送装置; 存储接收参数的接收控制单元; 以及接收单元,其根据接收参数调整从作为连接目的地的信息传输设备接收的接收信号,并以第一传输速度或第二传输速度输出接收信号作为接收数据。
    • 6. 发明授权
    • Battery pack and electronic apparatus using the same
    • 电池组及使用其的电子设备
    • US06208117B1
    • 2001-03-27
    • US09536997
    • 2000-03-29
    • Michio Hibi
    • Michio Hibi
    • H01M1046
    • H02J7/0031H02J7/0021H02J2007/004H02J2007/0095
    • When a power supply activating signal is inputted from an input terminal by depressing a main power supply switch of an electronic apparatus, electric power is supplied from a battery to a protection circuit portion and a management circuit portion through a pack power supply control circuit. Thus, the self discharge of the battery is reduced when a battery pack is not used. The protection circuit portion is operative to output a detection signal to the management circuit portion. Further, the management circuit portion posts a state of the battery to the electronic apparatus. The protection circuit portion is not controlled by the management circuit portion. Thus, even when a bug or a runaway occurs in MCU circuit of the management circuit portion, the battery can be safely protected.
    • 当通过按压电子设备的主电源开关从输入端子输入电源启动信号时,电力通过组件电源控制电路从电池供应到保护电路部分和管理电路部分。 因此,当不使用电池组时,电池的自放电减少。 保护电路部分可操作以将检测信号输出到管理电路部分。 此外,管理电路部分将电池的状态放置到电子设备。 保护电路部分不受管理电路部分的控制。 因此,即使在管理电路部分的MCU电路中发生错误或失控,也可以安全地保护电池。
    • 7. 发明授权
    • Receiving apparatus and receiving method
    • 接收装置和接收方法
    • US08693604B2
    • 2014-04-08
    • US12222801
    • 2008-08-15
    • Michio Hibi
    • Michio Hibi
    • H04L7/00
    • H04L7/0337H03K5/15033H03K5/1504H03L7/06H04L25/0278H04L25/0298H04L25/03878
    • A receiving apparatus that can be connected to a transmitting apparatus through a plurality of transmission lines includes: a first clock generation section that generates a first clock based on a signal from a first transmission line which is one of the plurality of transmission lines; a first demodulation section that demodulates the signal from the first transmission line based on the timing of the first clock; a second clock generation section that controls the phase of the first clock based on the phase of a signal from a second transmission line which is one of the plurality of transmission lines and is different from the first transmission line to generate a second clock; and a second demodulation section that demodulates a signal from the second transmission line based on the timing of the second clock.
    • 可以通过多个传输线路连接到发送装置的接收装置包括:第一时钟生成部,其基于来自作为所述多个传输线中的一个的第一传输线的信号生成第一时钟; 第一解调部,其基于所述第一时钟的定时对来自所述第一传输线的信号进行解调; 第二时钟生成部,其基于来自作为所述多个传输线中的一个的第二传输线的信号的相位来控制所述第一时钟的相位,并且与所述第一传输线不同以产生第二时钟; 以及第二解调部,其基于第二时钟的定时对来自第二传输线的信号进行解调。
    • 9. 发明授权
    • Image processing device and image processing method
    • 图像处理装置及图像处理方法
    • US06633283B2
    • 2003-10-14
    • US09795492
    • 2001-03-01
    • Takatoshi FukudaKunihiko HagiwaraMichio HibiSeiji TodaManabu Suzuki
    • Takatoshi FukudaKunihiko HagiwaraMichio HibiSeiji TodaManabu Suzuki
    • G09G500
    • G09G5/005G09G5/006G09G5/008
    • A storing part stores image data of an input image signal; and a control part detects a resolution of the image data from a synchronization signal which is in synchronization with the input image signal, and, controls timing of reading the image data from the storing part according to the thus-detected resolution. The control part detects periods of a horizontal synchronization signal and vertical synchronization signal which are in synchronization with the input image signal, determines a magnification for an image to be output, from a horizontal synchronization interval and a vertical synchronization interval of the image to be output, and the periods of the horizontal synchronization signal and vertical synchronization signal which are in synchronization with the input image signal; and controls the timing of reading the image data from said storing part according to the thus-determined magnification.
    • 存储部存储输入图像信号的图像数据; 并且控制部分根据与输入图像信号同步的同步信号来检测图像数据的分辨率,并且根据这样检测到的分辨率来控制从存储部分读取图像数据的定时。 控制部分检测与输入图像信号同步的水平同步信号和垂直同步信号的周期,从要输出的图像的水平同步间隔和垂直同步间隔确定要输出的图像的倍率 以及与输入图像信号同步的水平同步信号和垂直同步信号的周期; 并且根据如此确定的放大倍数来控制从所述存储部分读取图像数据的定时