Light-detecting device
    7.
    发明授权
    Light-detecting device 失效
    光检测装置

    公开(公告)号:US4884011A

    公开(公告)日:1989-11-28

    申请号:US143384

    申请日:1988-01-13

    CPC分类号: H01L31/0272 H01J29/456

    摘要: A light-detecting device for converting a light to an electrical signal utilizes a charge multiplication function and has a stable gain.The light-detecting device comprises a photo-electric conversion unit for converting a measurement light to an electrical signal, a power supply for applying an electric field to the photo-electric conversion unit, a light source for applying an incident light to the photo-electric conversion unit, signal detection means for detecting the charge converted by the photo-electric conversion unit based on the incident light from the light source, and signal hold means for holding the output signal of the signal detection means at a predetermined level.

    摘要翻译: 用于将光转换为电信号的光检测装置利用电荷倍增函数并具有稳定的增益。 光检测装置包括用于将测量光转换为电信号的光电转换单元,向光电转换单元施加电场的电源,用于将入射光施加到光电转换单元的光源, 电转换单元,用于基于来自光源的入射光检测由光电转换单元转换的电荷的信号检测装置,以及用于将信号检测装置的输出信号保持在预定水平的信号保持装置。

    Method and apparatus for driving a plurality of pick-up tubes having
their cathodes supplied by a common negative potential
    8.
    发明授权
    Method and apparatus for driving a plurality of pick-up tubes having their cathodes supplied by a common negative potential 失效
    用于驱动多个拾取管的方法和装置,其阴极由共同的负电位提供

    公开(公告)号:US4860093A

    公开(公告)日:1989-08-22

    申请号:US143655

    申请日:1988-01-13

    IPC分类号: H04N5/228 H04N9/09

    CPC分类号: H04N5/228 H04N9/09

    摘要: The present invention relates to a method and an apparatus for driving image pick-up tubes in, particular, a color television camera or the like having more than one image pick-up tube and in particular to a method and an apparatus for driving image pick-up tubes in which the potentials of the cathode electrodes of the respective image pick-up tubes are set to the same common potential, the potential of the target electrode of at least one of the image pick-up tubes is set substantially to earth potential, target drive potentials are individually applied to the target electrodes of the other image pick-up tubes, and the target potential of each image pick-up tube is set to a value near the earth potential, so that a high S/N ratio is obtained. The driving appartatus can be miniaturized and easily driven. According to the invention, a capacitor, such as a chip capcitor or the like, with a low withstanding voltage can be used in a first-stage amplifier to amplify the video signal from the target electrode. This first-stage amplifier can be arranged near a signal output electrode of the target. Thus, the stray capacitance can be reduced.

    摘要翻译: 本发明涉及一种用于驱动图像拾取管的方法和装置,特别是具有多于一个图像拾取管的彩色电视摄像机等,特别涉及一种用于驱动图像拾取的方法和装置 将各个图像拾取管的阴极的电位设定为相同的公共电位的至少一个摄像管的目标电极的电位基本上设定为接地电位的管 将目标驱动电位分别施加到其他摄像管的目标电极,并且将每个摄像管的目标电位设置为接近地电位的值,使得高S / N比为 获得。 驾驶舱可以小型化,易于驾驶。 根据本发明,可以在第一级放大器中使用诸如芯片电容器等具有低耐压的电容器来放大来自目标电极的视频信号。 该第一级放大器可以布置在目标的信号输出电极附近。 因此,可以减小杂散电容。

    HEAT STORAGE MEMBER
    9.
    发明申请
    HEAT STORAGE MEMBER 有权
    热存储会员

    公开(公告)号:US20140144604A1

    公开(公告)日:2014-05-29

    申请号:US14233216

    申请日:2012-07-23

    IPC分类号: F28D20/02 B21D53/02

    摘要: An object of the present invention is to provide a readily produced and easily handled heat storage member. The heat storage member 1 has a rectangular plane surface of, for example, 15 (cm)×20 (cm), and has a thickness of, for example, 10 to 15 mm. The heat storage member 1 includes a gelatinous latent heat storage material 12, and a large number of highly heat conductive fillers 14 dispersed in the latent heat storage material 12. The highly heat conductive fillers 14 are mixed in the latent heat storage material 12 with a bias in dispersion density. In the rectangular plane surface of the heat storage member 1, a periodic pattern is formed in combination of cellular (cell-like) regions 10, which are demarcated by, for example, hexagonal contour lines 16 and which are periodically arrayed in the vertical and horizontal directions.

    摘要翻译: 本发明的目的是提供容易制造和容易处理的储热构件。 蓄热构件1具有例如15(cm)×20(cm)的矩形平面,并且具有例如10〜15mm的厚度。 蓄热构件1包括凝胶状蓄热材料12和分散在潜热蓄热材料12中的大量高导热性填料14.高热导性填料14在潜热蓄热材料12中与 色散密度偏差。 在蓄热构件1的矩形平面中,通过由例如六边形等高线16划分并且在垂直方向上周期排列的细胞(细胞样)区域10组合形成周期性图案, 水平方向。

    STORAGE CONTAINER
    10.
    发明申请
    STORAGE CONTAINER 有权
    储物容器

    公开(公告)号:US20140033759A1

    公开(公告)日:2014-02-06

    申请号:US14110239

    申请日:2012-04-05

    IPC分类号: B65D81/38 F25D3/00

    摘要: Performance of heat insulation between the outside of a storage container and the inside of a storage chamber is effectively improved. The storage container includes a container body having an opening, a door member closing the opening in an openable and closable manner, and a temperature-controlled unit having a function of making a temperature inside a storage chamber 2 enclosed by the container body and the door member be different from a temperature outside the storage chamber. The container body includes a first heat-insulating material 14, a second heat-insulating material 15 which is provided partially on the opposite side to the storage chamber 2 with respect to the first heat-insulating material 14 and has thermal conductivity lower than that of the first heat-insulating material 14, and a heat-storage material 16 which is provided at least partially in a region where the second heat-insulating material 15 is not provided as viewed from a thickness direction of the first heat-insulating material 14 on the same side as the storage chamber 2 with respect to the first heat-insulating material 14 and is formed of one or more kinds of raw material where phase transition is caused between a liquid phase and a solid phase at a temperature between the temperature outside the storage chamber 2 and the temperature inside the storage chamber 2 obtained by the function of the temperature-controlled unit.

    摘要翻译: 存储容器的外部与储存室的内部之间的绝热性能有效地提高。 储存容器包括具有开口的容器主体,以可开闭的方式封闭开口的门构件,以及具有使由容器主体和门封闭的储存室2内的温度的温度控制单元 构件不同于存储室外的温度。 容器本体包括第一绝热材料14,第二隔热材料15,其相对于第一绝热材料14部分地设置在与储存室2相对的一侧上,并且具有比 第一绝热材料14和至少部分地设置在从第一绝热材料14的厚度方向观察时不设置第二绝热材料15的区域的蓄热材料16, 与储存室2相对于第一绝热材料14的相同侧,并且由在液相和固相之间的温度之间的温度下的一种或多种在液相和固相之间发生相变的原料形成 存储室2和通过温度控制单元的功能获得的储存室2内的温度。