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    • 1. 发明专利
    • Extraction aid of sparkling drink
    • 提取饮料的提取物
    • JP2009107722A
    • 2009-05-21
    • JP2007308020
    • 2007-10-31
    • Kazuhiro TsujiKumi Tsuji久美 辻和浩 辻
    • TSUJI KAZUHIROTSUJI KUMI
    • B65D47/06B67D3/00
    • PROBLEM TO BE SOLVED: To provide an extraction aid for sparkling drink which is low in cost and capable of effectively frothing the sparkling drink. SOLUTION: An extraction aid 1 is provided at an extraction section of a sparkling drink, such as a beer-filled bottle 3 at a position of a crown 2. The extraction aid 1 serves to enhance the frothing action at the time of extracting the sparkling drink in the bottle 3 into a container, such as a cup. A position 3a is the tip of the bottle 3. The extraction aid 1 is provided with a mesh on the end edge surface of a hollow cylindrical tube having such an inner diameter so as to be joined to the tip 3a of the bottle 3. For the material of the mesh, a plastic fiber like polyester, synthetic resin like polypropylene, or metal such as aluminum or the like is used. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供低成本且能够有效起泡起泡饮料的起泡饮料的提取助剂。 解决方案:提取助剂1设置在汽油饮料的提取部分,例如位于冠2位置的啤酒瓶3。提取助剂1用于增强起泡作用 将瓶3中的起泡饮料提取到诸如杯子的容器中。 位置3a是瓶3的尖端。提取助剂1在具有内径的中空圆柱形管的端边表面上设置有网格,以便与瓶3的尖端3a接合。对于 使用网状物,聚酯等塑料纤维,聚丙烯等合成树脂,铝等金属等。 版权所有(C)2009,JPO&INPIT
    • 3. 发明授权
    • Multi-input transistor circuit and multi-input transconductance circuit
    • 多输入晶体管电路和多输入跨导电路
    • US5977818A
    • 1999-11-02
    • US418447
    • 1995-04-07
    • Zdzislaw CzarnulKazuhiro Tsuji
    • Zdzislaw CzarnulKazuhiro Tsuji
    • H01L29/78G05F3/24H03F1/32H03F1/56H03F3/345H03F3/45G05F3/02
    • H03F3/45188G05F3/247H03F2203/45356H03F2203/45358
    • A multi-input transistor circuit including a plurality of input MOS transistors having gates each serving as an analog voltage input terminal, operating in a non-saturation area and connected in parallel; and circuit for providing a constant drain/source voltage for each of the input MOS transistors, and having a current output point. A multi-input transconductance circuit including first and second MOS transistor groups having gates serving as first and second analog voltage input terminals, respectively, operating in a non-saturation area and connected in parallel; and a circuit for providing constant drain/source voltage for the transistors in each group and connected to a common source connecting point of each of the first and second MOS transistor groups, and having first and second current output terminals. The multi-input transistor and the multi-input transconductance circuit exhibit input-to-output linearity, have a wide dynamic range and are equivalent to an n-gate transistor.
    • 一种多输入晶体管电路,包括多个具有各自用作模拟电压输入端的栅极的输入MOS晶体管,在非饱和区域中并联并联; 以及用于为每个输入MOS晶体管提供恒定的漏极/源极电压并具有电流输出点的电路。 一种多输入跨导电路,包括分别具有用作第一和第二模拟电压输入端的栅极的第一和第二MOS晶体管组,工作在非饱和区并并联连接; 以及用于为每个组中的晶体管提供恒定的漏极/源极电压并且连接到第一和第二MOS晶体管组中的每一个的公共源极连接点并且具有第一和第二电流输出端子的电路。 多输入晶体管和多输入跨导电路具有输入到输出的线性度,具有宽动态范围并且等效于n栅极晶体管。
    • 7. 发明授权
    • Digital-to-analog conversion circuit and analog-to-digital conversion
device using the circuit
    • 数模转换电路和使用该电路的模数转换器件
    • US5673045A
    • 1997-09-30
    • US429794
    • 1995-04-27
    • Koichi SatoKazuhiro Tsuji
    • Koichi SatoKazuhiro Tsuji
    • H03M1/46H03M1/68H03M1/76
    • H03M1/685H03M1/765
    • A digital-to-analog conversion circuit includes a first reference voltage generation circuit for generating a plurality of first reference voltages, a plurality of second reference voltage generation circuits for generating a plurality of second reference voltages created by dividing a difference in potential between adjacent two of the first reference voltages, a first selective control circuit for, upon receiving a first digital input signal group, selecting one of the first reference voltages and applying the selected one to a specified one of a plurality of signal lines during a first period, and selecting all of second reference voltages generated in one of the plurality of second reference voltage generation circuits and applying all the selected second reference voltages to signal lines other than the specified signal line, respectively, during a second period succeeding the first period, and a second selective control circuit for, upon receiving a second digital input signal group, applying a voltage of the specified signal line to an analog output terminal during the first period, and applying voltages of the signal lines other than the specified signal line to the analog output terminal during the second period.
    • 数模转换电路包括用于产生多个第一参考电压的第一参考电压产生电路,用于产生多个第二参考电压的多个第二参考电压产生电路,所述多个第二参考电压通过将相邻两个电压之间的电位差除以 第一选择控制电路,用于在接收到第一数字输入信号组时,在第一时段期间选择第一参考电压之一并将所选择的一个应用于多个信号线中的指定的一个;以及 选择在所述多个第二参考电压产生电路之一中产生的所有第二参考电压,并且在所述第一周期之后的第二周期期间分别将所选择的所述第二参考电压分别施加到除所述指定信号线之外的信号线,以及第二参考电压 选择控制电路,用于在接收到第二数字输入信号gr时 在第一时段期间,将指定信号线的电压施加到模拟输出端,并且在第二周期期间将除指定信号线之外的信号线的电压施加到模拟输出端。
    • 8. 发明授权
    • Comparator device for comparing analog voltages
    • 用于比较模拟电压的比较器
    • US5285115A
    • 1994-02-08
    • US827648
    • 1992-01-29
    • Kazuhiro Tsuji
    • Kazuhiro Tsuji
    • G01R19/00G01R19/165H03K3/356H03K5/08H03K5/24H03M1/34H03K5/153G11C7/06
    • H03K3/35613H03K5/249
    • A comparator device comprising a offset-compensating comparator and a positive-feedback comparator. A reference voltage and an input voltage are applied to the input terminals of the offset-compensating comparator. The non-inverting and inverting output terminals of the offset-compensating comparator are connected to the inverting and non-inverting input terminals of the positive-feedback comparator, respectively. The positive-feedback comparator starts comparing the input voltage with the reference voltage before the offset-compensating comparator finishes comparing the input voltage with the reference voltage. Hence, the comparator device operates at high speed and has a great gain. In addition, the offset voltage can be reduced. A transistor is connected between the differential input terminals of the positive-feedback comparator, for setting both differential input terminals at the same potential at the time the comparator starts comparing the input voltage with the reference voltage. Therefore, the differential inputs to the positive-feedback comparator have no noise.
    • 一种比较器装置,包括偏移补偿比较器和正反馈比较器。 参考电压和输入电压被施加到偏移补偿比较器的输入端子。 偏移补偿比较器的同相和反相输出端分别连接到正反馈比较器的反相和非反相输入端。 正反馈比较器在偏移补偿比较器完成将输入电压与参考电压进行比较之前开始将输入电压与参考电压进行比较。 因此,比较器装置以高速运转并具有很大的增益。 此外,可以减小偏移电压。 晶体管连接在正反馈比较器的差分输入端子之间,用于在比较器开始将输入电压与参考电压进行比较时将两个差分输入端子设置为相同的电位。 因此,正反馈比较器的差分输入没有噪声。