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    • 3. 发明授权
    • Optical microscope and spectrum measuring method
    • 光学显微镜和光谱测量方法
    • US07561265B2
    • 2009-07-14
    • US11607491
    • 2006-12-01
    • Minoru KobayashiTaisuke OtaTakahiro Ode
    • Minoru KobayashiTaisuke OtaTakahiro Ode
    • G01J3/30
    • G01J3/44G01J3/02G01J3/021G01J3/0213G01J3/0262G01J2003/1243G01J2003/1247
    • An optical microscope according to a first embodiment of the present invention includes: a laser light source; a Y-directional scanning unit moving the light beam in a Y direction; an objective lens; a X-directional scanning unit moving the light beam in a X direction; a beam splitter provided in an optical path from the Y-directional scanning unit to the sample, and separating outgoing light out of the light beam incident on the sample, which exits from the sample toward the objective lens from the light beam incident on the sample from the laser light source; a spectroscope having an entrance slit extending along the Y direction and spatially dispersing the outgoing light passed through the entrance slit in accordance with a wavelength of the light; and a detector detecting the outgoing light dispersed by the spectroscope.
    • 根据本发明第一实施例的光学显微镜包括:激光源; Y方向扫描单元,沿Y方向移动光束; 物镜; X方向扫描单元,沿X方向移动光束; 设置在从Y方向扫描单元到样本的光路中的分束器,并将入射到样品上的光束从入射到样品上的光束从样品朝向物镜离开的光束分离出来 来自激光光源; 具有沿Y方向延伸的入口狭缝的分光镜,并且根据光的波长对通过入口狭缝的出射光进行空间上的分散; 以及检测器,其检测由分光镜分散的出射光。
    • 4. 发明申请
    • Optical microscope and spectrum measuring method
    • 光学显微镜和光谱测量方法
    • US20070132994A1
    • 2007-06-14
    • US11607491
    • 2006-12-01
    • Minoru KobayashiTaisuke OtaTakahiro Ode
    • Minoru KobayashiTaisuke OtaTakahiro Ode
    • G01J3/28
    • G01J3/44G01J3/02G01J3/021G01J3/0213G01J3/0262G01J2003/1243G01J2003/1247
    • An optical microscope according to a first embodiment of the present invention includes: a laser light source; a Y-directional scanning unit moving the light beam in a Y direction; an objective lens; a X-directional scanning unit moving the light beam in a X direction; a beam splitter provided in an optical path from the Y-directional scanning unit to the sample, and separating outgoing light out of the light beam incident on the sample, which exits from the sample toward the objective lens from the light beam incident on the sample from the laser light source; a spectroscope having an entrance slit extending along the Y direction and spatially dispersing the outgoing light passed through the entrance slit in accordance with a wavelength of the light; and a detector detecting the outgoing light dispersed by the spectroscope.
    • 根据本发明第一实施例的光学显微镜包括:激光源; Y方向扫描单元,沿Y方向移动光束; 物镜; X方向扫描单元,沿X方向移动光束; 设置在从Y方向扫描单元到样本的光路中的分束器,并将入射到样品上的光束从入射到样品上的光束从样品朝向物镜离开的光束分离出来 来自激光光源; 具有沿Y方向延伸的入口狭缝的分光镜,并且根据光的波长对通过入口狭缝的出射光进行空间上的分散; 以及检测器,其检测由分光镜分散的出射光。
    • 5. 发明申请
    • RECORDING APPARATUS AND RECORDING CONTROL METHOD
    • 记录装置和记录控制方法
    • US20070076028A1
    • 2007-04-05
    • US11533047
    • 2006-09-19
    • Takahiro Ode
    • Takahiro Ode
    • B41J29/38
    • B41J2/0458B41J2/04541
    • A recording apparatus includes a generating unit for generating a window signal for setting the driving timing of the recording head for each nozzle array, a recording buffer in which the addresses are consecutively arranged corresponding to the conveying direction of the recording medium to store and read recording data, a first SRAM for storing data read from the recording buffer, a second SRAM for storing data read from the first SRAM according to tilt information associated with each respective block of nozzles, and a transfer unit configured to transfer data read from the second SRAM to a nozzle array.
    • 记录装置包括:生成单元,用于生成用于设置每个喷嘴阵列的记录头的驱动定时的窗口信号;记录缓冲器,其中地址按照记录介质的传送方向连续布置以存储和读取记录 数据,用于存储从记录缓冲器读取的数据的第一SRAM,第二SRAM,用于存储根据与每个相应的喷嘴阵列相关联的倾斜信息从第一SRAM读取的数据;以及传送单元,被配置为传送从第二SRAM读取的数据 到喷嘴阵列。
    • 6. 发明授权
    • Recording apparatus and method for rearranging recording data in accordance with recording head tilt
    • 根据记录头倾斜重新排列记录数据的记录装置和方法
    • US07635172B2
    • 2009-12-22
    • US11533047
    • 2006-09-19
    • Takahiro Ode
    • Takahiro Ode
    • B41J29/38
    • B41J2/0458B41J2/04541
    • A recording apparatus includes a generating unit for generating a window signal for setting the driving timing of the recording head for each nozzle array, a recording buffer in which the addresses are consecutively arranged corresponding to the conveying direction of the recording medium to store and read recording data, a first SRAM for storing data read from the recording buffer, a second SRAM for storing data read from the first SRAM according to tilt information associated with each respective block of nozzles, and a transfer unit configured to transfer data read from the second SRAM to a nozzle array.
    • 记录装置包括:生成单元,用于生成用于设置每个喷嘴阵列的记录头的驱动定时的窗口信号;记录缓冲器,其中地址按照记录介质的传送方向连续布置以存储和读取记录 数据,用于存储从记录缓冲器读取的数据的第一SRAM,第二SRAM,用于存储根据与每个相应的喷嘴阵列相关联的倾斜信息从第一SRAM读取的数据;以及传送单元,被配置为传送从第二SRAM读取的数据 到喷嘴阵列。
    • 8. 发明授权
    • Sensor and sensor control method
    • 传感器和传感器控制方式
    • US08553298B2
    • 2013-10-08
    • US13090087
    • 2011-04-19
    • Kenji KubozonoTakahiro Ode
    • Kenji KubozonoTakahiro Ode
    • H04N1/04
    • H04N1/02805H04N1/1017H04N5/361H04N5/3692
    • A sensor includes a photoelectric conversion unit including a first photoelectric conversion element array and a second photoelectric conversion element array, each having an array of a plurality of photoelectric conversion elements arranged in a predetermined direction, a storage unit configured to store a charge generated by the photoelectric conversion unit, a transfer unit configured to transfer the charge generated by the photoelectric conversion unit to an outside of the sensor, a control unit configured to serially execute a first transfer control for transporting unit configured to transport a charge stored in the second photoelectric conversion element array to the transfer unit via the storage unit and a second transfer control for transporting unit configured to transport a charge stored in the first photoelectric conversion element array to the transfer unit via the second photoelectric conversion element array and the storage unit.
    • 传感器包括:光电转换单元,包括第一光电转换元件阵列和第二光电转换元件阵列,每个具有沿预定方向布置的多个光电转换元件的阵列;存储单元,被配置为存储由 光电转换单元,被配置为将由光电转换单元生成的电荷传送到传感器的外部的传送单元,被配置为串行地执行传输单元的第一传送控制,该第一传送控制被配置为传送存储在第二光电转换中的电荷 元件阵列经由存储单元传送到传送单元,以及用于传送单元的第二传送控制器,其被配置为经由第二光电转换元件阵列和存储单元将存储在第一光电转换元件阵列中的电荷传送到传送单元。
    • 9. 发明申请
    • SENSOR AND SENSOR CONTROL METHOD
    • 传感器和传感器控制方法
    • US20110261421A1
    • 2011-10-27
    • US13090087
    • 2011-04-19
    • Kenji KubozonoTakahiro Ode
    • Kenji KubozonoTakahiro Ode
    • H04N1/04
    • H04N1/02805H04N1/1017H04N5/361H04N5/3692
    • A sensor includes a photoelectric conversion unit including a first photoelectric conversion element array and a second photoelectric conversion element array, each having an array of a plurality of photoelectric conversion elements arranged in a predetermined direction, a storage unit configured to store a charge generated by the photoelectric conversion unit, a transfer unit configured to transfer the charge generated by the photoelectric conversion unit to an outside of the sensor, a control unit configured to serially execute a first transfer control for transporting unit configured to transport a charge stored in the second photoelectric conversion element array to the transfer unit via the storage unit and a second transfer control for transporting unit configured to transport a charge stored in the first photoelectric conversion element array to the transfer unit via the second photoelectric conversion element array and the storage unit.
    • 传感器包括:光电转换单元,包括第一光电转换元件阵列和第二光电转换元件阵列,每个具有沿预定方向布置的多个光电转换元件的阵列;存储单元,被配置为存储由 光电转换单元,被配置为将由光电转换单元生成的电荷传送到传感器的外部的传送单元,被配置为串行地执行传输单元的第一传送控制,该第一传送控制被配置为传送存储在第二光电转换中的电荷 元件阵列经由存储单元传送到传送单元,以及用于传送单元的第二传送控制器,其被配置为经由第二光电转换元件阵列和存储单元将存储在第一光电转换元件阵列中的电荷传送到传送单元。
    • 10. 发明授权
    • Method of and apparatus for detecting microorganisms
    • 检测微生物的方法和装置
    • US5480804A
    • 1996-01-02
    • US47606
    • 1993-04-13
    • Motohiro NiwaTetsuji YasuiTakahiro Ode
    • Motohiro NiwaTetsuji YasuiTakahiro Ode
    • C12M1/34G01N21/64
    • G01N21/6458C12M41/46G01N21/6428G01N2021/6421G01N21/6456Y10S435/808
    • A microorganism detecting apparatus comprising a fluorescence microscope section which is furnished with a motor-driven stage for placing thereon a microorganism sample subjected to fluorescent staining, and a light source portion for projecting excitation light of predetermined wavelength on the sample; a detection section which detects and photoelectrically converts fluorescence of specified wavelength from the microorganism sample at a position posterior to the microscope section; a filter unit which limits the band of frequencies ascribable to noise in relation to an electric signal from the detection section; a signal processor which reads the output value of the band-limited signal from the detection section, and which processes the read output value; and an automatic inspection section which drives the stage so as to permit the microorganism sample to be scanned over its whole area, and which stores each signal detection part in the sample so as to permit a fluorescent substance at the part to be verified.
    • 一种微生物检测装置,其特征在于,具备荧光显微镜部,该荧光显微镜部具有用于放置荧光染色的微生物试样的马达驱动台和用于将预定波长的激发光投射到所述试样上的光源部; 检测部,其在所述显微镜部的后方的位置检测并光电转换来自所述微生物样品的特定波长的荧光; 滤波器单元,其相对于来自检测部的电信号限制归因于噪声的频率带; 信号处理器,其从检测部分读取带限信号的输出值,并处理读出的输出值; 以及自动检查部,其驱动所述台,以允许所述微生物样品在其整个区域上被扫描,并且将每个信号检测部分存储在所述样品中,以允许验证所述部分处的荧光物质。