会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Transparent photovoltaic module
    • 透明光伏组件
    • US4663495A
    • 1987-05-05
    • US741080
    • 1985-06-04
    • Elliot BermanCharles F. GayStephen C. MillerDavid P. Tanner
    • Elliot BermanCharles F. GayStephen C. MillerDavid P. Tanner
    • H01L31/042H01L27/142H01L31/0216H01L31/0224H01L31/04F24J3/02H01L27/14H01L31/06
    • H01L31/022466H01L31/02167H01L31/046H01L31/0468Y02B10/12Y02E10/52
    • A thin film photovoltaic module has transparent electrodes on front and back surfaces of a semiconductive layer. In one embodiment, both transparent electrodes pass light to the semiconductive layer for photovoltaic purposes. In another embodiment, the back electrode passes light which enters through the front electrode and is not absorbed by the semiconductive layer, so that the module is selectively transparent to the unabsorbed light. The spectral makeup of the transmitted light is controlled by controlling the optical characteristics of the layers of the module. The index of refraction of the back electrode is a primary source of transmission control, along with the refractive index of the front electrode and the thickness of the semiconductive layer itself. Light transmitted by the module can be used for nonphotovoltaic purposes, such as illuminating the interior of a vehicle or dwelling, or may be directed back into the semiconductive layer by a reflective surface behind the back electrode.
    • 薄膜光伏模块在半导体层的前表面和后表面上具有透明电极。 在一个实施例中,两个透明电极将光传递到用于光伏目的的半导体层。 在另一个实施例中,背电极通过进入前电极的光并且不被半导体层吸收,使得该模块对未吸收的光选择性地透明。 通过控制模块的层的光学特性来控制透射光的光谱组成。 背面电极的折射率是传输控制的主要来源,以及前电极的折射率和半导体层本身的厚度。 由模块传输的光可以用于非光伏目的,例如照亮车辆的内部或住宅,或者可以通过后电极后面的反射表面引导回到半导体层。
    • 10. 发明授权
    • Solar powered light
    • 太阳能照明灯
    • US5217296A
    • 1993-06-08
    • US684527
    • 1991-04-11
    • David P. TannerJohn S. FrostMark R. EricksonFred A. Moore
    • David P. TannerJohn S. FrostMark R. EricksonFred A. Moore
    • F21S9/02F21S9/03F21V23/04
    • F21S8/00F21S9/035F21V17/002F21V21/30F21V23/0442H05B37/0227F21V17/02F21W2131/10Y02B10/10Y10S136/291Y10S362/802
    • A solar powered light adapted to be mounted under the eaves of a building, a wall or the like for use in security applications. In a preferred embodiment of the present invention, the solar powered light comprises an adjustable configuration having a lamp with an infrared detector or sensor rotatably mounted thereto and a photovoltaic or solar cell array rotatably disposed at a remote end of an extension arm movably attached to the lamp. Such a flexible arrangement allows the photovoltaic array to be positioned to receive direct sunlight. The sensor activates the solar powered light upon sensing infrared to illuminate the surrounding areas when a presence is sensed and turn it off when a presence is no longer sensed. In accordance with a second embodiment, the solar powered light does not include an infrared detector and provides continuous illumination for a given period of time. In accordance with a third embodiment, the solar powered light does not include an infrared detector, but includes a battery having a higher capacity configured to provide illumination for extended periods of time. In accordance with a fourth embodiment, the solar powered light is configured to be used directly with a user's battery. The solar powered light utilizes a compact fluorescent bulb and circuitry for providing longer lamp life, instantaneous illumination and eliminating flickering during start up.
    • 一种适用于安装在建筑物,墙壁等的屋檐下的太阳能光源,用于安全应用。 在本发明的一个优选实施例中,太阳能光源包括具有可旋转地安装在其上的红外检测器或传感器的灯的可调配置,以及可旋转地设置在延伸臂的远端处的光伏或太阳能电池阵列,可移动地连接到 灯。 这种灵活的布置允许光伏阵列被定位以接收直射的阳光。 感测红外线时,传感器激活太阳能供电的光线,以便在感测到存在时照亮周围区域,并在不再感测到存在时将其关闭。 根据第二实施例,太阳能光源不包括红外检测器并且在给定的时间段内提供连续照明。 根据第三实施例,太阳能光源不包括红外检测器,而是包括具有较高容量的电池,其被配置为在延长的时间段内提供照明。 根据第四实施例,太阳能光被配置为直接与用户的电池一起使用。 太阳能光源采用紧凑型荧光灯泡和电路,以提供更长的灯泡寿命,瞬时照明并消除启动期间的闪烁。