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    • 91. 发明申请
    • Image pickup device
    • 图像拾取装置
    • US20050269604A1
    • 2005-12-08
    • US11146131
    • 2005-06-07
    • Toru KoizumiSeiichiro SakaiMasanori Ogura
    • Toru KoizumiSeiichiro SakaiMasanori Ogura
    • H01L27/146H01L31/0352H01L31/062
    • H01L27/14609H01L27/14603H01L27/14641H01L31/035281H01L31/03529
    • The present invention uses an image pickup device comprising a plurality of pixels respectively including a photoelectric conversion unit for converting incoming light into a signal charge, an amplifying unit for amplifying the signal charge generated by the photoelectric conversion unit and a transfer unit for transferring the signal charge from the photoelectric conversion unit to the amplifying unit, in which the photoelectric conversion unit is formed of a first-conductivity-type first semiconductor region and a second-conductivity-type second semiconductor region and a second-conductivity-type third semiconductor region is formed on at least a part of the gap between a photoelectric conversion unit of a first pixel and a photoelectric conversion unit of a second pixel adjacent to the first pixel, a first-conductivity-type fourth semiconductor region having an impurity concentration higher than that of the first semiconductor region is formed between the photoelectric conversion unit and the third semiconductor region and a first-conductivity-type fifth semiconductor region formed at a position deeper than the fourth semiconductor region and having an impurity concentration higher than that of the first semiconductor region is included between the photoelectric conversion unit and the third semiconductor region.
    • 本发明使用包括多个像素的图像拾取装置,所述多个像素分别包括用于将入射光转换成信号电荷的光电转换单元,用于放大由光电转换单元产生的信号电荷的放大单元和用于传送信号的转移单元 由光电转换单元向放大单元充电,其中光电转换单元由第一导电型第一半导体区和第二导电型第二半导体区和第二导电型第三半导体区形成 形成在第一像素的光电转换单元和与第一像素相邻的第二像素的光电转换单元之间的间隙的至少一部分上,第一导电型第四半导体区域的杂质浓度高于 第一半导体区域形成在光电转换单元之间 光电转换单元和第三半导体层之间包括第三半导体区域和形成在比第四半导体区域更深的位置并且具有高于第一半导体区域的杂质浓度的第一导电型第五半导体区域 地区。
    • 92. 发明授权
    • Image pickup device
    • 图像拾取装置
    • US08624307B2
    • 2014-01-07
    • US13478871
    • 2012-05-23
    • Toru KoizumiSeiichiro SakaiMasanori Ogura
    • Toru KoizumiSeiichiro SakaiMasanori Ogura
    • H01L31/062
    • H01L27/14609H01L27/14603H01L27/14641H01L31/035281H01L31/03529
    • An image pickup device includes pixels, each including a photoelectric conversion unit and a transfer unit. The photoelectric conversion unit includes a first-conductivity-type first semiconductor region and a second-conductivity-type second semiconductor region. A second-conductivity-type third semiconductor region is formed on at least a part of a gap between a photoelectric conversion unit of a first pixel and a photoelectric conversion unit of a second pixel adjacent to the first pixel. A first-conductivity-type fourth semiconductor region having an impurity concentration higher than an impurity concentration of the first semiconductor region is formed between the photoelectric conversion unit and the third semiconductor region. A first-conductivity-type fifth semiconductor region having an impurity concentration higher than the first semiconductor region is arranged between the photoelectric conversion unit and the third semiconductor region and is arranged deeper than fourth semiconductor region.
    • 图像拾取装置包括各自包括光电转换单元和转印单元的像素。 光电转换单元包括第一导电型第一半导体区和第二导电型第二半导体区。 第二导电型第三半导体区域形成在第一像素的光电转换单元和与第一像素相邻的第二像素的光电转换单元之间的间隙的至少一部分上。 在光电转换单元和第三半导体区域之间形成具有高于第一半导体区域的杂质浓度的杂质浓度的第一导电型第四半导体区域。 具有比第一半导体区域高的杂质浓度的第一导电型第五半导体区域配置在光电转换单元和第三半导体区域之间,并且布置在比第四半导体区域更深的位置。
    • 95. 发明授权
    • Image pickup device
    • 图像拾取装置
    • US08207561B2
    • 2012-06-26
    • US13052216
    • 2011-03-21
    • Toru KoizumiSeiichiro SakaiMasanori Ogura
    • Toru KoizumiSeiichiro SakaiMasanori Ogura
    • H01L31/062
    • H01L27/14609H01L27/14603H01L27/14641H01L31/035281H01L31/03529
    • The present invention uses an image pickup device comprising a plurality of pixels respectively including a photoelectric conversion unit for converting incoming light into a signal charge, an amplifying unit for amplifying the signal charge generated by the photoelectric conversion unit and a transfer unit for transferring the signal charge from the photoelectric conversion unit to the amplifying unit, in which the photoelectric conversion unit is formed of a first-conductivity-type first semiconductor region and a second-conductivity-type second semiconductor region and a second-conductivity-type third semiconductor region is formed on at least a part of the gap between a photoelectric conversion unit of a first pixel and a photoelectric conversion unit of a second pixel adjacent to the first pixel, a first-conductivity-type fourth semiconductor region having an impurity concentration higher than that of the first semiconductor region is formed between the photoelectric conversion unit and the third semiconductor region and a first-conductivity-type fifth semiconductor region formed at a position deeper than the fourth semiconductor region and having an impurity concentration higher than that of the first semiconductor region is included between the photoelectric conversion unit and the third semiconductor region.
    • 本发明使用包括多个像素的图像拾取装置,所述多个像素分别包括用于将入射光转换成信号电荷的光电转换单元,用于放大由光电转换单元产生的信号电荷的放大单元和用于传送信号的转移单元 由光电转换单元向放大单元充电,其中光电转换单元由第一导电型第一半导体区和第二导电型第二半导体区和第二导电型第三半导体区形成 形成在第一像素的光电转换单元和与第一像素相邻的第二像素的光电转换单元之间的间隙的至少一部分上,第一导电型第四半导体区域的杂质浓度高于 第一半导体区域形成在光电转换单元之间 光电转换单元和第三半导体层之间包括第三半导体区域和形成在比第四半导体区域更深的位置并且具有高于第一半导体区域的杂质浓度的第一导电型第五半导体区域 地区。
    • 96. 发明授权
    • Image sensing apparatus and imaging system
    • 图像感测装置及成像系统
    • US08174600B2
    • 2012-05-08
    • US12484310
    • 2009-06-15
    • Masanori OguraToru KoizumiShin KikuchiTatsuya Ryoki
    • Masanori OguraToru KoizumiShin KikuchiTatsuya Ryoki
    • H04N5/335
    • H04N5/378H04N5/365
    • An image sensing apparatus comprises a transfer block including a first transfer unit and a second transfer unit, wherein the first transfer unit includes a first impedance converter which transfers a first signal to the output unit, and the first transfer unit transfers, as a third signal, a difference signal between a first offset of the first impedance converter and a signal obtained by superimposing the first offset on the first signal, the second transfer unit includes a second impedance converter which transfers a second signal to the output unit, and the second transfer unit transfers, as a fourth signal, a difference signal between a second offset of the second impedance converter and a signal obtained by superimposing the second offset on the second signal, and the output unit calculates a difference between the third signal and the fourth signal, generating and outputting an image signal.
    • 一种图像感测装置包括:传输块,包括第一传送单元和第二传送单元,其中第一传送单元包括将第一信号传送到输出单元的第一阻抗转换器,并且第一传送单元作为第三传送单元传送 ,所述第一阻抗变换器的第一偏移与通过将所述第一偏移叠加在所述第一信号上而获得的信号之间的差分信号,所述第二传送单元包括将第二信号传送到所述输出单元的第二阻抗变换器, 单元将作为第四信号的第二阻抗变换器的第二偏移与通过将第二偏移叠加在第二信号上而获得的信号之间的差信号进行传输,并且输出单元计算第三信号和第四信号之间的差, 生成和输出图像信号。
    • 97. 发明授权
    • Image sensing device and image sensing system
    • 影像感测装置及影像感应系统
    • US08169525B2
    • 2012-05-01
    • US12543709
    • 2009-08-19
    • Tatsuya RyokiToru KoizumiMasanori Ogura
    • Tatsuya RyokiToru KoizumiMasanori Ogura
    • H04N5/335
    • H04N5/3742
    • An image sensing device comprises a readout unit, an output amplifier, and a horizontal scanning unit, wherein the horizontal scanning unit scans a plurality of column signal holding circuits in a plurality of holding blocks in the readout unit in a direction along a row, in each holding block, a first operation in which the signal held in a first holding unit is transferred to a second holding unit via a transfer switch is performed, and subsequently, a second operation in which the signal held in the second holding unit is transferred to the output amplifier, and a third operation in which a signal output from a pixel is read out to the first holding unit are performed in parallel, and the second operation and the first operation are performed in parallel between different holding blocks in the plurality of holding blocks.
    • 一种图像感测装置,包括读出单元,输出放大器和水平扫描单元,其中水平扫描单元沿沿着行的方向扫描读出单元中的多个保持块中的多个列信号保持电路, 每个保持块执行第一操作,其中保持在第一保持单元中的信号经由转移开关传送到第二保持单元,并且随后执行第二操作,其中保持在第二保持单元中的信号被转移到 输出放大器和将从像素输出的信号读出到第一保持单元的第三操作并行执行,并且第二操作和第一操作在多个保持中的不同保持块之间并行执行 块。
    • 98. 发明申请
    • Optical disc apparatus
    • 光盘装置
    • US20100080092A1
    • 2010-04-01
    • US12585975
    • 2009-09-30
    • Masanori Ogura
    • Masanori Ogura
    • G11B7/00
    • G11B7/00375G11B7/0945
    • A simple circuit configuration allows an optical disc apparatus to reduce a problem of sound skips occurring due to damage on an optical disc. To this end, an LPF extracts a low-frequency component from a tracking actuator drive signal obtained by a tracking actuator driver. When the optical disc apparatus reads and writes information to and from the optical disc, a sled drive signal supplier outputs a sled pulse signal, as a drive signal for a sled motor, for a set-up predetermined time within each interval of a predetermined length, the sled pulse signal having a level corresponding to a level of the low-frequency component obtained by the LPF. On the other occasions, the sled drive signal supplier outputs the low-frequency component obtained by the LPF as the drive signal for the sled motor.
    • 简单的电路配置允许光盘装置减少由于光盘上的损坏而产生的声音跳跃的问题。 为此,LPF从跟踪致动器驱动器获得的跟踪致动器驱动信号中提取低频分量。 当光盘装置从光盘读取信息和从光盘读取信息时,滑动驱动信号供应器在预定长度的每个间隔内输出作为滑动马达的驱动信号的滑动脉冲信号,以建立预定时间 所述滑轨脉冲信号具有与由LPF获得的低频分量的电平相对应的电平。 在其他情况下,滑轨驱动信号供应器输出由LPF获得的低频分量作为滑动马达的驱动信号。