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
    • 4. 发明申请
    • Process for Production of Soybean Puff
    • 大豆粉生产工艺
    • US20080280020A1
    • 2008-11-13
    • US11886158
    • 2006-03-16
    • Hirofumi KugitaniTetsuo Sakata
    • Hirofumi KugitaniTetsuo Sakata
    • A23L1/212
    • A23G3/52A23L7/17A23L11/05A23L29/212A23P30/30
    • A process for producing a soybean puff comprising the steps of heating under pressure a water-bearing raw material comprising a soybean-derived defatted material and a starchy material and then extruding and expanding the resulting product to give the soybean puff, which process is characterized by the followings: (a) defatted soybean milk is the essential component of the soybean-derived defatted material; (b) the soybean-derived defatted material and the starchy material are used at the fractional ratios of 5 to 80 wt % (dry basis) and 20 to 95 wt % (dry basis), respectively; (c) the water-bearing raw material has a water content of 15 to 40 wt %; and (d) the temperature for the extrusion falls within the range of 130 to 200° C. The puff has an ingenuous taste for soybean and good feeling in the mouth.
    • 一种生产大豆粉的方法,包括在压力下加热包含大豆衍生的脱脂材料和淀粉质材料的含水原料,然后挤出和膨胀得到的产物以得到大豆泡沫,该方法的特征在于 以下:(a)脱脂豆浆是大豆衍生的脱脂材料的重要组成部分; (b)大豆衍生的脱脂材料和淀粉质材料分别以5至80重量%(干基)和20至95重量%(干基)的分数比使用; (c)含水原料的含水量为15〜40重量% (d)挤出温度在130〜200℃的范围内。该泡沫具有大豆味道,口感好。
    • 5. 发明授权
    • Delay circuit and video signal processing circuit using the same
    • 延迟电路和视频信号处理电路使用相同
    • US07800696B2
    • 2010-09-21
    • US11470929
    • 2006-09-07
    • Shunsuke SerizawaTetsuo SakataMasato Onaya
    • Shunsuke SerizawaTetsuo SakataMasato Onaya
    • H04N9/66H03H11/26
    • H03H19/004H04N11/165H04N11/186
    • A delay circuit acquiring an output signal delayed from an input signal, comprising: a switched capacitor group that includes a plurality of switched capacitor units, wherein each of the plurality of switched capacitor units has a charging MOS transistor and a discharging MOS transistor, and a capacitive element which is connected to sources of the charging and the discharging MOS transistors; and a switching control unit that performs on/off control of the charging and the discharging of the MOS transistors, to cause each of the capacitive elements to be charged in sequence based on the input signal, and that, upon causing the each of the capacitive elements to be charged in sequence based on the input signal, causes the capacitive element charged last time to be discharged, to allow the output signal to be output in sequence.
    • 获取从输入信号延迟的输出信号的延迟电路,包括:开关电容器组,其包括多个开关电容器单元,其中所述多个开关电容器单元中的每一个具有充电MOS晶体管和放电MOS晶体管,以及 连接到充电和放电MOS晶体管的源极的电容元件; 以及开关控制单元,其执行MOS晶体管的充电和放电的导通/关断控制,以使得每个电容元件基于输入信号依次充电,并且在使每个电容元件 基于输入信号依次充电的元件使上次充电的电容元件放电,以使输出信号依次输出。
    • 8. 发明申请
    • Delay Circuit and Video Signal Processing Circuit Using the Same
    • 延迟电路和使用其的视频信号处理电路
    • US20070076124A1
    • 2007-04-05
    • US11470929
    • 2006-09-07
    • Shunsuke SerizawaTetsuo SakataMasato Onaya
    • Shunsuke SerizawaTetsuo SakataMasato Onaya
    • H03H11/26H04N5/14
    • H03H19/004H04N11/165H04N11/186
    • A delay circuit acquiring an output signal delayed from an input signal, comprising: a switched capacitor group that includes a plurality of switched capacitor units, wherein each of the plurality of switched capacitor units has a charging MOS transistor and a discharging MOS transistor, and a capacitive element which is connected to sources of the charging and the discharging MOS transistors and which is charged/discharged by turning on/off gates of the charging and the discharging MOS transistors, and wherein the plurality of switched capacitor units are connected such that the input signal is input in common to each of drains of the charging MOS transistors and such that the capacitive elements are charged as well as such that the capacitive elements are discharged to allow the output signal to be output from each of drains of the discharging MOS transistors; and a switching control unit that performs on/off control of each of gates of the charging and the discharging MOS transistors, to cause each of the capacitive elements to be charged in sequence based on the input signal, and that, upon causing the each of the capacitive elements to be charged in sequence based on the input signal, causes the capacitive element charged last time to be discharged, to allow the output signal to be output in sequence, wherein with respect to the two adjacent switched capacitor units of the plurality of switched capacitor units, the respective charging MOS transistors are adjacent to each other and the respective discharging MOS transistors are adjacent to each other, and drains of the respective charging MOS transistors are common and drains of the respective discharging MOS transistors are common.
    • 获取从输入信号延迟的输出信号的延迟电路,包括:开关电容器组,其包括多个开关电容器单元,其中所述多个开关电容器单元中的每一个具有充电MOS晶体管和放电MOS晶体管,以及 电容元件,其连接到充电和放电MOS晶体管的源极,并且通过接通/关闭充电和放电MOS晶体管的栅极进行充电/放电,并且其中所述多个开关电容器单元被连接,使得输入 信号被共同地输入到充电MOS晶体管的每个漏极,并且使得电容元件被充电以及使得电容元件被放电以允许输出信号从放电MOS晶体管的每个漏极输出; 以及开关控制单元,其执行充电和放电MOS晶体管的每个栅极的导通/关断控制,以使得每个电容元件基于输入信号依次充电,并且在使每个 基于输入信号依次充电的电容元件使得最后一次充电的电容元件被放电,以允许输出信号依次输出,其中相对于多个的两个相邻的开关电容器单元 开关电容器单元,各个充电MOS晶体管彼此相邻并且各个放电MOS晶体管彼此相邻,并且各个充电MOS晶体管的漏极是共同的,并且各个放电MOS晶体管的漏极是共同的。
    • 10. 发明申请
    • METHOD OF PRODUCING SOYBEAN PROTEIN MATERIAL
    • 生产大豆蛋白质材料的方法
    • US20100136615A1
    • 2010-06-03
    • US12451633
    • 2008-05-13
    • Hiroyuki KatoTetsuo Sakata
    • Hiroyuki KatoTetsuo Sakata
    • C12P21/00
    • A23J3/16A23J3/346
    • It is intended to provide a soybean protein material which is highly dispersible in hot water and highly miscible with water so as to give a solution showing regulated coarseness. More specifically, it is intended to provide a soybean protein material which is appropriately usable in preparing protein drinks. According to a method comprising the following steps, it becomes possible to produce a soybean protein material which is dispersible in hot water and miscible with water: the step wherein soybean protein is hydrolyzed with a protease in an aqueous system until the 0.22 MTCA solubility attains 15 to 30%; the step wherein an emulsifier having an HLB value of 6 or more but not more than 13 is added to the soybean protein; the step of drying the soybean protein after the hydrolysis; and the step of heating the soybean protein in an aqueous system at 105 to 180° C. for 15 to 180 seconds before the drying.
    • 旨在提供一种大豆蛋白材料,其在热水中高度分散并与水高度混溶,以产生显示出调节性粗糙度的溶液。 更具体地,旨在提供可适用于制备蛋白质饮料的大豆蛋白质材料。 根据包括以下步骤的方法,可以生产可分散在热水中并与水混溶的大豆蛋白物质:其中大豆蛋白质在水性体系中用蛋白酶水解直到0.22SKA溶解度达到15 至30%; 向大豆蛋白中加入HLB值为6以上且13以下的乳化剂的工序; 水解后大豆蛋白干燥的步骤; 以及在水性体系中在105〜180℃下加热大豆蛋白15〜180秒的步骤。