硅光电池

guī guāng diàn chí
  • silicon photocell;silicon solar cell
硅光电池硅光电池
硅光电池[guī guāng diàn chí]
  1. 通过实验测量了两种典型的光电探测器:硅光电池和PIN光电二极管的主要电学参数在受到飞秒激光辐照后的变化。

    Through the experiment , we measured two kinds of typical photoelectric detectors : the electrical parameters of silicon photocell and PIN photodiode are measured after laser irradiation .

  2. 提出了排种检测光电传感器的覆盖率问题,并利用红光半导体激光二极管(RLD)和硅光电池构造了一种高覆盖率的排种传感器。

    A seeding monitoring optoelectronic sensor for precision planter was designed using red laser diode ( RLD ) and silicon photocell .

  3. 用PN结特性监控硅光电池质量

    Monitoring the quality of silicon solar cell by P-N junctions characteristics

  4. 该测量仪由近红外LED光源、窄带干涉滤光片、菲涅尔透镜、硅光电池检测器、单片机系统及校准模型等组成。

    The apparatus is made up of NIR LED , interference filter , lens , Si photronic detector , microprocessor system and calibration model .

  5. 基于硅光电池的电荷放大器性能测试信号发生器

    Silicon Photocell Based Signal Generator for Performance Testing of Charge Amplifier

  6. 基于电流型边界条件的硅光电池模拟的新方法

    New Method for Simulating Silicon Light Cell With Current-Type Boundary Condition

  7. 硅光电池中叠加原理的实验验证

    Experimental Demonstration of the Principle of Superposition in Silicon photo cells

  8. 采用硅光电池传感器,检测光强变化。

    Light intensity was measured by silicon light battery sensor .

  9. 电荷耦合器件光电响应特性标定研究硅光电池与电荷耦合器件测量光强性能比较

    Light Intensity Performance Comparison between Silicon Photoelectric Generator and CCD

  10. 实验涉及到运算放大器以及硅光电池光谱响应等基础知识。

    The knowledge of operation amplifier and spectrum response is applied in this experiment .

  11. 硅光电池的激光损伤机制

    Laser Damage Mechanism of Silicon Solar Cell

  12. 信号检测器采用硅光电池;

    Signal sensor used silicon electric eye ;

  13. 电反射谱法研究N~+-p硅光电池第一及第二间接带隙

    Study on the Indirect Energy Gaps in N ~ + - P Silicon Solar Cells by Electroreflectance

  14. 光参量振荡器激发的光激电流测量系统硅光电池与电荷耦合器件测量光强性能比较

    Photo-stimulated discharge measurement system based on optical parametric oscillator Light Intensity Performance Comparison between Silicon Photoelectric Generator and CCD

  15. 铅酸蓄电池高频脉冲能量充放电电源的研究硅光电池与电荷耦合器件测量光强性能比较

    Research on High Frequency Pulse Energy Charging and Discharging Power Supply for Lead Acid Battery Light Intensity Performance Comparison between Silicon Photoelectric Generator and CCD

  16. 染料电池的这种灵活性让其特别适用于室内,硅光电池则已被优化至最有利于吸收阳光。

    The flexibility brought by the dye-based approach makes this sort of cell particularly useful indoors . Silicon-based solar cells have been optimised for sunlight .

  17. 信号检测系统采用硅光电池作为光电传感器,在高速下落物料中识别不合格物料,向分选控制系统发送检出信号。

    The signal detecting system uses the silicon photoelectric cell as the photoelectric sensor to distinguish infested objects from the falling grainy materials in high speed .

  18. 传统色度测量一般采用硅光电池、光电倍增管等作为探测器,测量值为视角范围内测量区域的色度平均值。

    Typical chromaticity measurement used photoelectric sensor such as silicon photocell , photo-electric multiplier . Measurement result is the mean value of the area within the visual angle .

  19. 介绍使用运算放大器以及硅光电池制作光功率计的原理以及制作的过程。

    In this paper , the principle of making an optical power meter using the amplifier and silicon photocell is introduced . The making procedure is also described .

  20. 除了能够稍作调整以适应灯泡的光谱外,染料电池还能在昏暗的环境或漫反射光照射下(常见于室内)正常工作,硅光电池则不然。

    Besides being tweakable to match the spectrum of a light-bulb , dye-based cells also work well in dim or diffuse light of the sort often found indoors .

  21. 传统的谷物分选机采用硅光电池作为光电探测器,只能通过光线的明暗对谷物颗粒进行识别,局限性很大。

    As the traditional machine adapts silicon cell as its photo electricity detector , it distinguishes the cereal only by the brightness of light , it has significant limitations .

  22. 之后,分析了硅光电池的伏安特性,讨论了以硅光电池的短路电流输出作为光辐照量检测方法的可行性。

    By analysis of the volt-ampere characteristics of silicon photovoltaic cells , discussed the feasibility of detection of optical radiation exposure to short-circuit current output of silicon photovoltaic cells .

  23. 染料电池类似于安装在世界各地屋顶上的硅光电池,两者都靠半导体器件将光能转换为电能。

    Dye-based cells are similar to the silicon-based variety found on rooftops around the world in that both rely on a semiconductor to assist the conversion of luminous energy into the electrical sort .

  24. 它们的区别在于,硅光电池是直接将光能转换为电能的,即受硅的物理性质限制,它只能吸收特定频率的光。

    The difference is that in the case of silicon cells , this conversion happens directly . That means the frequency of light absorbed is constrained by the physical properties of silicon itself .

  25. 利用激光器、硅光电池等器件,采用光折射方法设计了激光测量水的振动频率与水波传播速度实验。

    Based on optical refraction , a method for measuring the vibration frequency and the spread velocity of water wave with laser beam is introduced . In the experiment , laser and silicon photocell are used .

  26. 车载传感器板通过硅光电池检测轨道标志的反射光信号,运放将信号放大并转换成电压信号,再通过脉冲整形转化为脉冲信号,实现了轨道标志的检测。

    As the component of sensor board , the silicon photoelectric cell transforms radiation-ray from the track mark into electrical signal , which is amplified by operation amplifier into voltage signal reshaped by the pulse shaping circuit .

  27. 讨论了光电式速度传感器光学系统对路面模型的处理,硅光电池转换光电信号的原理以及对实际路面的分析。

    The optic system of photoelectric speed sensor and how to use it deal with the road model , the principle on photoelectric signal conversion of the silicon photoelectric battery and analysis to real road surface are discussed .

  28. 采用微功率激光管作为光源,围绕被测样品旋转的硅光电池作为检测器,研制了一种可以测定植物单个叶片反射和透射光在入射面上分布的装置。

    A device for measuring bidirectional reflectance and transmittance distribution of a leaf in the plane of incidence was designed with a micro-powered laser diode for illuminating and a silicon photocell detector rotating around sample for recording scattering light intensity from the sample .

  29. 指出热电探测器虽然响应频率宽,但是响应时间长,而且价格昂贵;以硅光电池为基础的光电型探测器,精确度高,响应时间短,制作成本低廉。

    It points out that although thermoelectric detector response wider frequency width but the response time is long and the cost is expensive . Photoelectrical detector of silicon photocell is of high precision and the response time is short and the price is low .

  30. 利用光敏三极管代替硅光电池和光敏二极管来测试单缝和双缝衍射的光强分布。测量托卡马克可见光谱辐射的低噪声、高响应光敏二极管探测器

    This paper introduces a new method to measure the intensity distribution of single seam diffraction by replacing the silicon photocell and light activated diode with light activated triode . A Low Noise and High Sensitive Photo Diode Detector Used in Tokamak Visible Light Measurement