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    • 52. 发明授权
    • Adaptive cable equalizer
    • 自适应电缆均衡器
    • US08155179B2
    • 2012-04-10
    • US11946381
    • 2007-11-28
    • Hitoshi Kobayashi
    • Hitoshi Kobayashi
    • H03H7/30
    • H04L25/03885
    • An adaptive cable equalizer includes a data signal input unit, a clock signal input unit, a variable equalizer that inputs a data signal input from the data signal input unit, and a transition time measuring portion that measures a transition time of a data signal output from the variable equalizer, with an equalizer control loop being configured that controls characteristics of the variable equalizer based on the output signal of the transition time measuring portion. The adaptive cable equalizer further includes a control circuit that controls response characteristics of the control loop according to the frequency of a clock signal input from the clock signal input unit. This enables a quick response at fast transfer rates by making the relationship between the response time of the control loop and the number of data bits substantially constant even when the transfer rate changes from a slow transfer rate to a fast transfer rate.
    • 自适应电缆均衡器包括数据信号输入单元,时钟信号输入单元,输入从数据信号输入单元输入的数据信号的可变均衡器和测量从...输出的数据信号的转换时间的转换时间测量部分 所述可变均衡器配置有均衡器控制环路,其基于所述过渡时间测量部分的输出信号来控制所述可变均衡器的特性。 自适应电缆均衡器还包括控制电路,其根据从时钟信号输入单元输入的时钟信号的频率来控制控制回路的响应特性。 这使得即使当传输速率从慢速传输速率变化到快速传送速率时,也可以通过使控制环路的响应时间与数据位数之间的关系基本上恒定,从而以快速的传送速率进行快速响应。
    • 53. 发明申请
    • PAPER SHEET PROCESSING DEVICE AND METHOD FOR CONTROLLING PAPER SHEET PROCESSING DEVICE
    • 纸张处理装置和用于控制纸张处理装置的方法
    • US20110068528A1
    • 2011-03-24
    • US12737029
    • 2008-06-04
    • Hitoshi KobayashiTsuguo Mizoro
    • Hitoshi KobayashiTsuguo Mizoro
    • B65H33/04B65H33/00
    • B65H5/34B65H7/18B65H29/006B65H2511/21B65H2511/22B65H2511/512B65H2513/10B65H2513/11B65H2701/1912B65H2220/01B65H2220/02B65H2220/11B65H2220/03
    • The present invention avoids a problem in that wound-up banknotes are located unevenly on substantially the same position on a winding drum. The paper sheet processing device is configured to process paper sheets. The paper sheet processing device includes: a receiving unit configured to receive paper sheets one by one in a predetermined receiving cycle; a transport unit configured to transport the paper sheets received by the receiving unit; a storing and feeding unit including a winding drum that winds up the paper sheets together with a tape, the storing and feeding unit being configured to receive and feed the paper sheets transported by the transport unit, by winding up and winding off the tape; a drive unit configured to drive the receiving unit, the transport unit, and the storing and feeding unit: and a control unit configured to control the drive unit to maintain a tape winding amount per receiving cycle, such that a storing pitch of the paper sheets wound up by the winding drum deviates from a predetermined range relative to an outer peripheral length of the tape wound up by the winding drum.
    • 本发明避免了卷绕纸币不均匀地位于卷筒上相同位置上的问题。 纸张处理装置被配置为处理纸张。 纸张处理装置包括:接收单元,被配置为在预定的接收周期中逐张地接收纸张; 传送单元,被配置为传送由所述接收单元接收的纸张; 储存和进给单元,其包括将纸张与纸带一起卷绕的卷筒,所述存储和进给单元被构造成通过卷绕和卷绕所述带子来接收和供给由所述运输单元运送的纸张; 驱动单元,被配置为驱动接收单元,传送单元和存储和馈送单元;以及控制单元,被配置为控制驱动单元以维持每个接收周期的带缠绕量,使得纸张的存储间距 卷绕鼓卷绕的卷绕辊相对于由卷绕卷筒卷绕的带的外周长度偏离预定范围。
    • 55. 发明授权
    • Monitoring system, game machine and device management system
    • 监控系统,游戏机和设备管理系统
    • US07780524B2
    • 2010-08-24
    • US10515010
    • 2003-08-08
    • Hitoshi Kobayashi
    • Hitoshi Kobayashi
    • A63F13/00
    • G06F21/86G06F21/552G06F2221/2101G06Q10/0875
    • A board box 80 includes an upper lid portion 80a made of transparent resin, and a lower lid portion 80c made of transparent resin. A main control board 41 for performing main control to a pachinko game machine 1 is provided on the lower lid portion 80c. A thin and rectangular IC tag 86 is provided at the backside of the upper lid portion 80a. A coil-shaped antenna 68 for making RF transmission and reception with the IC tag 86 is provided at the lower right end portion of the main control board 41. The distance between the antenna 68 and the IC tag 86 is set to about 3 mm in the state that the upper lid portion 80a and the lower lid portion 80c are assembled. A R/W unit always polls the IC tag 86 via the antenna 68. If the upper lid portion 80a is opened and the distance between the antenna 68 and the IC tag 86 exceeds about 5 mm, the communication becomes unavailable and a fact that the upper lid portion 80a has been opened is immediately detected.
    • 板盒80包括由透明树脂制成的上盖部分80a和由透明树脂制成的下盖部分80c。 在下盖部80c上设置有用于对弹球游戏机1进行主控的主控制板41。 在上盖部分80a的后侧设有薄且矩形的IC标签86。 用于与IC标签86进行RF发送和接收的线圈形天线68设置在主控制板41的右下端部。天线68与IC标签86之间的距离设定为约3mm 组装上盖部分80a和下盖部分80c的状态。 AR / W单元经由天线68总是轮询IC标签86.如果上盖部分80a打开并且天线68和IC标签86之间的距离超过约5mm,则通信变得不可用,并且上部 盖部80a已被打开立即被检测。
    • 57. 发明授权
    • Nonvolatile memory device
    • 非易失性存储器件
    • US07531864B2
    • 2009-05-12
    • US11148302
    • 2005-06-09
    • Kimihiro MaemuraSatoru KodairaHitoshi Kobayashi
    • Kimihiro MaemuraSatoru KodairaHitoshi Kobayashi
    • H01L29/76
    • H01L21/28273G11C16/0416G11C2216/10H01L27/115H01L27/11521H01L27/11558H01L29/42324H01L29/7883
    • A nonvolatile memory device includes: a semiconductor layer of a first conductivity type in which a first region, a second region, and a third region are partitioned by an isolation insulating layer; a semiconductor section of a second conductivity type provided in the first region and functioning as a control gate; a semiconductor section of the first conductivity type provided in the second region; a semiconductor section of the second conductivity type provided in the third region; an insulating layer provided on the semiconductor layer in the first to third regions; a floating gate electrode provided on the insulating layer across the first to third regions; impurity regions of the first conductivity type provided on each side of the floating gate electrode in the first region; impurity regions of the second conductivity type provided on each side of the floating gate electrode in the second region and functioning as either a source region or a drain region; and impurity regions of the first conductivity type provided on each side of the floating gate electrode in the third region and functioning as either a source region or a drain region.
    • 非易失性存储器件包括:第一导电类型的半导体层,其中第一区域,第二区域和第三区域被隔离绝缘层分隔; 第二导电类型的半导体部分,设置在第一区域中并用作控制栅极; 设置在第二区域中的第一导电类型的半导体部分; 设置在第三区域中的第二导电类型的半导体部分; 设置在第一至第三区域的半导体层上的绝缘层; 在第一至第三区域上设置在绝缘层上的浮栅电极; 设置在第一区域中的浮置栅电极的每一侧上的第一导电类型的杂质区域; 第二导电类型的杂质区域设置在第二区域中的浮置栅电极的每一侧上并且用作源极区域或漏极区域; 以及设置在第三区域中的浮栅的每一侧上的第一导电类型的杂质区,并且用作源区或漏区。
    • 58. 发明申请
    • METHOD FOR PRODUCING MULTI-VIEWPOINT IMAGE FOR THREE-DIMENSIONAL IMAGE DISPLAY AND PROGRAM THEREFOR
    • 用于生成三维图像显示的多视点图像的方法及其程序
    • US20090079762A1
    • 2009-03-26
    • US10581363
    • 2006-04-13
    • Rieko FukushimaTatsuo SaishuHitoshi KobayashiYuzo Hirayama
    • Rieko FukushimaTatsuo SaishuHitoshi KobayashiYuzo Hirayama
    • G09G5/00
    • H04N13/128H04N13/211H04N13/243H04N13/275H04N13/282
    • A method for producing a multi-viewpoint image for a three-dimensional image display, includes: providing a plurality of viewpoints to be spaced at equal intervals in direction perpendicular to a single reference projection plane including target viewpoints serving as reference are spaced at constant intervals in a first direction parallel to the reference projection plane; providing a plurality of individual target viewpoints which are respectively different from the target viewpoints serving as reference and serve as feet of a perpendicular to the plurality of viewpoints, corresponding to the respective viewpoint, on a projection plane which is a plane including the reference projection plane; making determination such that the shapes and the sizes of the individual projection planes are included in the reference projection plane in overlapping regions of the individual projection planes acquired from two viewpoints positioned at the outermost positions of the plurality of viewpoints; and clipping only regions of the reference projection plane from the individual projection planes acquired from the respective viewpoints to form a multi-viewpoint image for three-dimensional image display.
    • 一种用于制作三维图像显示器的多视点图像的方法包括:提供多个视点,以与包括用作基准的目标视点的单个参考投影平面垂直的方向上以相等的间隔隔开,以恒定的间隔隔开 在平行于参考投影平面的第一方向上; 提供分别与用作参考的目标视点不同的多个单独的目标视点,并且在作为包括参考投影平面的平面的投影平面的投影平面上,作为与各个视点对应的垂直于多个视点的脚 ; 在从位于多个视点的最外位置的两个视点获取的各个投影平面的重叠区域中,将各个投影面的形状和尺寸确定为包括在参考投影平面中; 并且仅从各个视点获取的各个投影平面仅裁剪参考投影平面的区域,以形成用于三维图像显示的多视点图像。
    • 60. 发明授权
    • Pyrogenically produced silicon dioxide powder
    • 热解生成二氧化硅粉末
    • US07351388B2
    • 2008-04-01
    • US11085151
    • 2005-03-22
    • Kai SchumacherNaruyasu IshibashiHitoshi KobayashiPaul Brandl
    • Kai SchumacherNaruyasu IshibashiHitoshi KobayashiPaul Brandl
    • C01B33/12
    • C01B33/183Y10T428/2982
    • Pyrogenically produced silicon dioxide powder in the form of aggregates of primary particles having a BET surface area of 300±25 m2/g, wherein the aggregates display an average surface area of 4800 to 6000 nm2, an average equivalent circle diameter (ECD) of 60 to 80 nm and an average circumference of 580 to 750 nm.It is produced by a pyrogenic process in which silicon tetrachloride and a maximum of up to 40 wt. % of a second silicon component comprising H3SiCl, H2SiCl2, HSiCl3, CH3SiCl3, (CH3)2SiCl2, (CH3)3SiCl and/or (n-C3H7)SiCl3 are mixed with primary air and a combustion gas and burnt into a reaction chamber, secondary air also being introduced into the reaction chamber, and the feed materials being chosen such that an adiabatic flame temperature of 1390 to 1450° C. is obtained.It can be used as a filler.
    • 以BET表面积为300±25m 2 / g的一次粒子的聚集体形式的热解生成的二氧化硅粉末,其中聚集体的平均表面积为4800〜6000nm, 2,平均当量圆直径(ECD)为60〜80nm,平均周长为580〜750nm。 它是通过热解法生产的,其中四氯化硅和最多达40wt。 %的包含H 3 SiCl,H 2 SiCl 2,HSiCl 3,CH,SUB的第二硅组分的% (CH 3)3 SiCl 3,(CH 3 3)2 SiCl 2,(CH 3) 3 N 3 SiCl 3和/或(n C 3 H 7)SiCl 3 3与 初级空气和燃烧气体并燃烧到反应室中,二次空气也被引入反应室,并且进料选择为使得绝热火焰温度为1390至1450℃。 它可以用作填料。