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    • 21. 发明申请
    • MULTILAYER THIN-FILM PHOTOELECTRIC CONVERTER AND ITS MANUFACTURING METHOD
    • 多层薄膜光电转换器及其制造方法
    • US20100282291A1
    • 2010-11-11
    • US12746486
    • 2008-12-05
    • Masahiro GotoWataru YoshidaToshiaki Sasaki
    • Masahiro GotoWataru YoshidaToshiaki Sasaki
    • H01L31/042H01L31/18
    • H01L31/03921H01L31/022425H01L31/022466H01L31/046H01L31/0463H01L31/0465H01L31/1884Y02E10/50
    • A thin film photoelectric converter including a transparent conductive layer, a laser light absorption layer, a back electrode layer, a semiconductor photoelectric conversion layer and a transparent electrode layer stacked on a translucent substrate. The laser light absorption layer is parted into regions by first kind parting line grooves, and the photoelectric conversion layer is parted into regions by third kind parting line grooves penetrating the laser light absorption layer, the rear surface electrode layer and the photoelectric conversion layer. The transparent electrode layer is parted into regions by fourth kind parting line grooves penetrating the laser light absorption layer, the rear surface electrode layer, the photoelectric conversion layer and the transparent electrode layer. A receiving side transparent electrode region of one cell is electrically connected to a back electrode region of adjacent cell through the first kind groove, the transparent conductive layer and the third kind groove.
    • 一种薄膜光电转换器,包括层叠在透光性基板上的透明导电层,激光吸收层,背面电极层,半导体光电转换层和透明电极层。 激光吸收层通过第一种分割线槽分为区域,光电转换层通过穿透激光吸收层,后表面电极层和光电转换层的第三种分割线槽分成区域。 透明电极层通过穿透激光吸收层,后表面电极层,光电转换层和透明电极层的第四种分割线槽分成区域。 一个电池单元的接收侧透明电极区域通过第一种沟槽,透明导电层和第三种沟槽电连接到相邻电池的背电极区域。
    • 23. 发明申请
    • Sleep state measuring apparatus and sleep state measuring method
    • 睡眠状态测量仪和睡眠状态测量方法
    • US20090051550A1
    • 2009-02-26
    • US12222828
    • 2008-08-18
    • Toshiaki Sasaki
    • Toshiaki Sasaki
    • G08B23/00
    • A61B5/0205A61B5/0816A61B5/11A61B5/113A61B5/4806A61B5/4818A61B5/6887A61B5/6892A61B2562/0247
    • Even if a mattress or the like suffers long-term deterioration, a sleep state measuring apparatus is provided which can set a suitable amplification factor A of a biosignal. The sleep state measuring apparatus detects the biosignal which changes depending on the sleep state of a person who gets on the mattress filled with water, amplifies and estimates the sleep state based on the biosignal. A static component P of the mattress internal pressure is detected by the biosignal sensor is first obtained (S11). The mattress internal pressure is the pressure of water in the mattress. From the static component P of the mattress internal pressure, a fluctuation part ΔV of the mattress internal pressure depending on the value is specified (S12). Each value of the fluctuation part ΔV of the mattress internal pressure is obtained beforehand by applying a predetermined load, and changing the static component P of the mattress internal pressure. The above-described amplification factor A is calculated by correcting predetermined standard amplification factor A0 with the specified fluctuation part ΔV (S13).
    • 即使床垫等遭受长期恶化,也可以设置睡眠状态测定装置,该睡眠状态测定装置能够设定生物信号的合适的放大倍数A. 睡眠状态测量装置检测根据进入充满水的床垫的人的睡眠状态而变化的生物信号,基于生物信号放大并估计睡眠状态。 首先得到生物信号传感器检测到的床垫内压的静态成分P(S11)。 床垫的内部压力是床垫中的水压。 根据床垫内部压力的静态部件P,指定床垫内部压力的波动部分DeltaV(取决于该值)(S12)。 通过施加预定的负荷,改变床垫内部压力的静态成分P,预先获得床垫内部压力的波动部分DeltaV的各个值。 通过用规定的波动部分DeltaV校正预定的标准放大系数A0来计算上述放大因子A(S13)。
    • 24. 发明申请
    • Sleep stage determination apparatus
    • 睡眠阶段确定装置
    • US20060169282A1
    • 2006-08-03
    • US11393668
    • 2006-03-31
    • Shuichi IzumiToshiaki Sasaki
    • Shuichi IzumiToshiaki Sasaki
    • A61M16/00
    • A61B5/11A61B5/08A61B5/4812A61B5/6892A61B2562/168
    • Disclosed is a sleep stage determination apparatus which comprises respiratory-signal detection means for detecting a variation of a respiratory signal from the body of a human subject, and sleep-stage determination means for determining a plurality of sleep stages using only the respiratory-signal variation. The sleep stage determination apparatus of the present invention can eliminate the need for detecting a plurality of biological signals and have simplified sensor and circuit configurations designed to detect only the respiratory signal variation which is relatively easily detectable. This makes it possible to reduce a detection error and achieve enhanced determination accuracy or creditability.
    • 公开了一种睡眠阶段确定装置,其包括用于检测来自人体的身体的呼吸信号的变化的呼吸信号检测装置,以及仅使用呼吸信号变化来确定多个睡眠阶段的睡眠阶段确定装置 。 本发明的睡眠阶段确定装置可以消除对多个生物信号的检测的需要,并且具有设计成仅检测相对容易检测的呼吸信号变化的简化的传感器和电路配置。 这使得可以减少检测误差并实现增强的确定精度或可信性。
    • 25. 发明申请
    • Liquid ejection head
    • 液体喷头
    • US20050280673A1
    • 2005-12-22
    • US11210884
    • 2005-08-25
    • Toshiaki Sasaki
    • Toshiaki Sasaki
    • B41J2/14B41J2/05
    • B41J2/1433B41J2/1404B41J2002/14169B41J2002/14387
    • A liquid ejection head can eject very fine droplets of the order of sub-picoliter. The liquid ejection head is provided with an ejection port 3 for ejecting liquid as liquid droplets and comprises an energy generating element 1 arranged vis-à-vis the ejection port 3 to generate ejection energy to be applied to the liquid. No head-constituting member exists in the space formed by translating the area of the energy generating element 1 toward the ejection port 3. The meniscus surface of said ejection port receives an impact energy from the energy generating element. With this arrangement, droplets of the liquid is ejected from the central part of the meniscus surface having an area smaller than the meniscus surface so that they break the meniscus section at or near the central part thereof.
    • 液体喷射头可以喷射非常细小的液滴,次级皮升级。 液体喷射头设置有用于将液体作为液滴喷射的喷射口3,并且包括相对于喷射口3布置的能量产生元件1,以产生施加到液体的喷射能量。 在通过将能量产生元件1的区域朝向喷射口3转动而形成的空间中不存在头部构成构件。 所述喷射口的弯液面表面从能量产生元件接收冲击能。 利用这种布置,液体的液滴从具有小于弯液面的区域的弯液面表面的中心部分喷出,使得它们在其中心部分处或其附近中断弯月面部分。