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    • 8. 发明公开
    • Logic device using ceramic superconducting element
    • 逻辑器件和存储器件具有陶瓷超导元件。
    • EP0347258A2
    • 1989-12-20
    • EP89306161.4
    • 1989-06-16
    • SHARP KABUSHIKI KAISHAMorisue, Michitada
    • Nojima, HideoKataoka, ShoeiHashizume, NobuoTsuchimoto, ShuheiMorisue, Michitada
    • H01L39/18
    • G11C11/44H01L39/18
    • A logic device includes a ceramic superconducting element (4) having magneto-resistive characteristics, and three electrodes (12, 14, 16) provided adjacent the ceramic superconducting element, and constructed in such a manner that a current is applied to one of the three electrode so that a magnetic field greater than a threshold magnetic field (H0) is normally applied to the ceramic superconducting element (4), and the other electrodes (14, 16) are used for increasing and decreasing the magnetic field. A memory device includes a superconducting loop (46, 48) at least one portion thereof being formed by a ceramic superconducting element (46) having grain boundaries, and an electrode (44) provided in approximation to said ceramic superconducting element (46), whereby a current flowing through a portion (48) of said superconducting loop which is other than said ceramic superconducting element (46) can be captured in said superconducting loop by a control of a magnetic field generated by the current flowing through said electrode (44).
    • 逻辑装置包括一个陶瓷超导元件(4)具有磁阻特性,并且3个电极(12,14,16)设置成邻近所述陶瓷超导元件,并在寻求的方式构成也将电流施加到三个中的一个 电极所以没有磁场大于阈值磁场(H0)更大的通常是施加到陶瓷超导元件(4),和其它电极(14,16)被用于增加和减小的磁场。 一种存储器装置,包括:设置一个超导环路(46,48),至少其一部分由一陶瓷超导元件构成(46),其具有晶界,并在近似所述陶瓷超导元件的电极(44)(46),由此 通过所述超导环路的所有比所述陶瓷超导元件(46)以外的部分(48)中流动的电流可以在所述超导环路通过由流过所述电极(44)的电流所产生的磁场的控制被捕获。
    • 10. 发明公开
    • A flow sensor
    • Strömungssensor。
    • EP0285451A1
    • 1988-10-05
    • EP88302969.6
    • 1988-03-31
    • SHARP KABUSHIKI KAISHA
    • Tanaka, Nobuyuki 7-403 Takanoharaekinishi-danchiInami, Yasuhiko 304 Green Park NaraHijikigawa, MasayaKataoka, Shoei
    • G01F1/68G01P5/10G01P5/12
    • G01F1/699G01F1/6845G01P5/10
    • A flow sensor for detecting the rate of flow and the direction of flow of a fluid, comprising a substrate (5), a heating element (7a) disposed on the substrate, and four or more fluid temperature sensing elements (8a, b; 9a, b; 80a, b; 90a, b; 100a, b) disposed with an equal space therebetween on a virtual circle around the heating element (7a), wherein the difference in temperature between the fluid and the heating element (7a) is maintained at a fixed level by the control of current that is applied to the heating element (7a), so that the flow rate of the fluid can be calculated from changes in the current that corresponds to the flow rate of the fluid, and at the same time, the difference in current or in potential between the fluid temperature sensing elements (8a, b; 9a, b; 80a, b; 90a, b; 100a, b) is calculated from changes in temperature therebetween that arise from changes in the direction of flow of the fluid, so that the direction of flow of the fluid can be detected.
    • 一种用于检测流体速率和流体方向的流量传感器,包括基板(5),设置在基板上的加热元件(7a)和四个或更多个流体温度感测元件(8a,b; 9a) ,b; 80a,b; 90a,b; 100a,b)在所述加热元件(7a)周围的虚拟圆周上设置有相等的空间,其中保持所述流体和所述加热元件(7a)之间的温度差 通过控制施加到加热元件(7a)的电流在固定的水平上,使得可以根据与流体的流量对应的电流的变化来计算流体的流量,同时, 时间,流体温度感测元件(8a,b; 9a,b; 80a,b; 90a,b; 100a,b)之间的电流或电位差由其方向变化引起的温度变化计算 流体的流动,从而可以检测流体的流动方向。