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    • 2. 发明授权
    • Sensor
    • 传感器
    • US4928513A
    • 1990-05-29
    • US78741
    • 1987-07-28
    • Takashi SugiharaKazutaka UdaHiroki TabuchiYasuhiko InamiMasaya HijikigawaShoei Kataoka
    • Takashi SugiharaKazutaka UdaHiroki TabuchiYasuhiko InamiMasaya HijikigawaShoei Kataoka
    • G01N27/12G01N33/00
    • G01N27/12G01N33/0031H01L2924/0002
    • A sensor having a pair of sensor units, one of which is a detecting sensor unit and the other of which is a reference sensor unit, wherein each of the units comprises a substrate with a hollow portion, a thin insulating layer with a bridge, cantilever or diaphragm shape disposed on the substrate, a sensitive film disposed on the bridge, cantilever or diaphragm portion of the thin insulating layer, and a pair of electrodes being in contact with the sensitive film, the sensitive film section of the detecting sensor unit being exposed to an atmosphere to be measured so that the electrical resistance of the sensitive film changes with a variation in the physical quantity of the atmosphere to be detected, and the sensitive film section of the reference sensor unit being sealed within a shielding container so that the electrical resistance of the sensitive film is not influenced by a variation in the physical quantity of the atmosphere outside of the container, whereby the absolute physical quantity of the atmosphere to be detected is determined by the output power of the sensor based on a difference between the electrical resistance of the detecting sensor unit and the electrical resistance of the reference sensor unit.
    • 一种传感器,具有一对传感器单元,其中一个是检测传感器单元,另一个是参考传感器单元,其中每个单元包括具有中空部分的基板,具有桥的薄绝缘层,悬臂 或隔膜形状,设置在薄壁绝缘层的桥,悬臂或隔膜部分上的敏感膜和与敏感膜接触的一对电极,检测传感器单元的敏感膜部分露出 使得测量的气氛使得敏感膜的电阻随着要检测的气氛的物理量的变化而变化,并且参考传感器单元的敏感膜部分被密封在屏蔽容器内,使得电气 敏感膜的电阻不受容器外部大气物理量的变化的影响,由此绝对物理 基于检测传感器单元的电阻与基准传感器单元的电阻之差,由传感器的输出功率确定要检测的气氛量。
    • 4. 发明授权
    • Method for manufacturing an electrochromic display device
    • 电致变色显示装置的制造方法
    • US4505021A
    • 1985-03-19
    • US434502
    • 1982-10-15
    • Hiroshi HamadaHiroshi TakeKozo YanoYasuhiko Inami
    • Hiroshi HamadaHiroshi TakeKozo YanoYasuhiko Inami
    • G02F1/153G02F1/17
    • G02F1/1533Y10T29/417
    • A method for preparing an electrochromic display device comprising first and second electrochromic layers and a solid electrolyte interposed therebetween, comprises the steps of forming a conductive film on a substrate, forming an insulating film, over the entire surface of the conductive film forming a resist at portions on the insulating film other than a display pattern and lead-in electrodes, removing the insulating film at the display pattern and the lead-in electrodes, forming the electrochromic material layers and the solid electrolyte over the entire portions other than the lead-in electrode, removing the resist and the electrochromic layers and the solid electrolyte as formed on the insulating film, and forming a second electrode on the second electrochromic layer.
    • 一种制备包括第一和第二电致变色层和固体电解质的电致变色显示装置的方法,包括以下步骤:在基板上形成导电膜,形成绝缘膜,在形成抗蚀剂的导电膜的整个表面上 除了显示图案和引入电极之外的绝缘膜上的部分,去除显示图案上的绝缘膜和引入电极,在引入之外的整个部分上形成电致变色材料层和固体电解质 电极,除去形成在绝缘膜上的抗蚀剂和电致变色层和固体电解质,并在第二电致变色层上形成第二电极。
    • 7. 发明授权
    • Driving technique for electrochromic displays of the segmented type
driving uncommon segment electrodes only
    • 仅用于分段式驱动不常用段电极的电致变色显示器的驱动技术
    • US4209770A
    • 1980-06-24
    • US871040
    • 1978-01-20
    • Hiroshi HamadaHiroshi TakeYasuhiko InamiSadatoshi TakechiHisashi Uede
    • Hiroshi HamadaHiroshi TakeYasuhiko InamiSadatoshi TakechiHisashi Uede
    • G09G3/16G06F3/14G09F9/32
    • G09G3/16
    • A driving technique is provided for an electro-optical display which includes an electrochromic material and a predetermined number of display electrodes, different combinations of the display electrodes defining different desired display patterns. The electrochromic phenomenon is developed within the electro-optical display upon a flow of current supplied through the display electrodes. In transition of a visual display from a specific display pattern to another, voltages are applied to only the one or more display electrodes which are not common to the two display patterns, while no voltages are applied to the one or more display electrodes common to the two display patterns. Applications of a coloration voltage to particular one or more display electrodes and a bleaching voltage to different one or more display electrodes in transition of a visual display are initiated at a same time to reduce the time period required to transcend from one visual display to another.
    • 提供了一种用于电光显示器的驱动技术,其包括电致变色材料和预定数量的显示电极,显示电极的不同组合限定了不同的所需显示图案。 在通过显示电极提供的电流流动下,在电光显示器内形成电致变色现象。 在将视觉显示从特定显示图案转换到另一显示图案的过程中,仅向两个显示图案不共同的一个或多个显示电极施加电压,而没有电压施加到一个或多个共同的显示电极 两种显示模式。 同时启动着色电压对特定一个或多个显示电极的应用和漂白电压到视觉显示器转换中的不同一个或多个显示电极,以减少从一个视觉显示器到另一视觉显示器所需的时间段。