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    • 11. 发明授权
    • Light detection device and sheet processing apparatus including the same
    • 光检测装置和包括该光检测装置的片材处理装置
    • US08558205B2
    • 2013-10-15
    • US13711949
    • 2012-12-12
    • Seiji IkariJunji Miura
    • Seiji IkariJunji Miura
    • G06K5/00G06K9/00C12Q1/68
    • G01N21/64G06K9/00456G07D7/12
    • Presented is a light detection device including a first detecting portion detecting fluorescence from a first detection position on a conveyor path, a second detecting portion detecting afterglow from a second detection position on the conveyor path, a lighting portion applying excitation light over a range including the first detection position but not the second detection position, a first reference member including fluorescent material emitting fluorescence and emitting reference light toward the first detecting portion, a second reference member emitting reference light toward the second detecting portion, the reference light not influencing a result of detection by the second detecting portion, and a correction controller correcting a detection result by the first detecting portion based on the reference light detected by the first detecting portion and correcting a detection result by the second detecting portion based on the reference light detected by the second detecting portion.
    • 本发明提供了一种光检测装置,包括:检测来自传送路径上的第一检测位置的荧光的第一检测部,从传送路径上的第二检测位置检测余辉的第二检测部;照射部, 第一检测位置而不是第二检测位置,第一参考构件包括发射荧光的荧光材料并朝向第一检测部分发射参考光,第二参考构件朝向第二检测部分发射参考光,参考光不影响第二检测结果 由第二检测部分进行的检测;以及校正控制器,基于由第一检测部分检测到的参考光来校正第一检测部分的检测结果,并且基于由第二检测部分检测到的参考光来校正第二检测部分的检测结果 检测端口 上。
    • 14. 发明申请
    • LIGHT DETECTION DEVICE AND SHEET PROCESSING APPARATUS INCLUDING THE SAME
    • 光检测装置和片处理装置,包括它们
    • US20110052085A1
    • 2011-03-03
    • US12713681
    • 2010-02-26
    • Seiji IkariJunji Miura
    • Seiji IkariJunji Miura
    • G06K9/62G01J1/58G01N21/86
    • G01N21/64G06K9/00456G07D7/12
    • An exemplary aspect of the present disclosure, there is provided a light detection device including a first detecting portion to detect fluorescence from a first detection position on a conveyor path along which a sheet is conveyed, a second detecting portion to detect afterglow from a second detection position on the conveyor path along which the sheet is conveyed, a lighting portion to apply excitation light over a range including the first detection position and not including the second detection position, a first reference member which includes fluorescent material that emits fluorescence by being excited by the lighting portion and which emits reference light toward the first detecting portion, a second reference member to emit reference light toward the second detecting portion when the sheet is present at the second detection position, the reference light not influencing a result of detection by the second detecting portion, and a correction controller to correct a result of detection by the first detecting portion based on the reference light detected by the first detecting portion and to correct a result of detection by the second detecting portion based on the reference light detected by the second detecting portion.
    • 本发明的一个示例性方面,提供了一种光检测装置,包括:第一检测部分,用于检测来自传送片材的传送路径上的第一检测位置的荧光;第二检测部分,用于检测来自第二检测的余辉; 位于输送路径上的位置,照射部分,其在包括第一检测位置并且不包括第二检测位置的范围内施加激发光;第一参考构件,其包括通过被第二检测位置激发而发射荧光的荧光材料 所述照明部分朝向所述第一检测部分发射参考光;第二参考构件,当所述片材存在于所述第二检测位置时,朝向所述第二检测部分发射参考光,所述参考光不影响所述第二检测部分的检测结果 检测部分和校正控制器,以校正检测结果 基于由第一检测部分检测到的参考光由第一检测部分进行反射,并且基于由第二检测部分检测到的参考光来校正第二检测部分的检测结果。
    • 18. 发明授权
    • Data processing device and semiconductor intergrated circuit device for a bi-endian system
    • 用于双端系统的数据处理设备和半导体集成电路器件
    • US09524237B2
    • 2016-12-20
    • US13063347
    • 2009-05-28
    • Naoshi IshikawaSeiji IkariHiromi Nagayama
    • Naoshi IshikawaSeiji IkariHiromi Nagayama
    • G06F12/04G06F9/30
    • G06F12/04G06F9/30025
    • The present invention provides a data processing device where a program can be commonly used and a vector table can be shared regardless of types of endian in a bi-endian system. An instruction is fixed to little endian, and endian of data to be used for executing the instruction is variable. A size of the respective vector addresses in the vector table is 32 bits, and the number of bits at the time of a data access is maximally 32 bits. A CPU fetches an instruction, and before the fetched instruction is executed, the CPU accesses to, for example, for 32-bit data in a memory. At this time, the CPU controls the aligner so that addresses and alignments of data to be stored in each address in byte unit in a data register are identical to addresses and alignments of data determined by little endian of an instruction without depending on types of the endian of the data.
    • 本发明提供了一种数据处理装置,其中可以共同使用程序,并且可以共享矢量表,而不管双端系统中的类型如何。 指令固定为小端,用于执行指令的数据的端序是可变的。 向量表中各向量地址的大小为32位,数据访问时的位数最多为32位。 CPU取指令,在执行取指令之前,CPU访问例如存储器中的32位数据。 此时,CPU控制对准器,使得要存储在数据寄存器中的字节单元中的每个地址中的数据的地址和对齐与由指令的小尾数确定的数据的地址和对齐相同,而不依赖于 数据的endian。
    • 20. 发明申请
    • DATA PROCESSING DEVICE AND SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE
    • 数据处理器件和半导体集成电路器件
    • US20110191569A1
    • 2011-08-04
    • US13063347
    • 2009-05-28
    • Naoshi IshikawaSeiji IkariHiromi Nagayama
    • Naoshi IshikawaSeiji IkariHiromi Nagayama
    • G06F9/315
    • G06F12/04G06F9/30025
    • The present invention provides a data processing device where a program can be commonly used and a vector table can be shared regardless of types of endian in a bi-endian system. An instruction is fixed to little endian, and endian of data to be used for executing the instruction is variable. A size of the respective vector addresses in the vector table is 32 bits, and the number of bits at the time of a data access is maximally 32 bits. A CPU fetches an instruction, and before the fetched instruction is executed, the CPU accesses to, for example, for 32-bit data in a memory. At this time, the CPU controls the aligner so that addresses and alignments of data to be stored in each address in byte unit in a data register are identical to addresses and alignments of data determined by little endian of an instruction without depending on types of the endian of the data.
    • 本发明提供了一种数据处理装置,其中可以共同使用程序,并且可以共享矢量表,而不管双端系统中的类型如何。 指令固定为小端,用于执行指令的数据的端序是可变的。 向量表中各向量地址的大小为32位,数据访问时的位数最多为32位。 CPU取指令,在执行取指令之前,CPU访问例如存储器中的32位数据。 此时,CPU控制对准器,使得要存储在数据寄存器中的字节单元中的每个地址中的数据的地址和对齐与由指令的小尾数确定的数据的地址和对齐相同,而不依赖于 数据的endian。