控制系统采用紫外线传感器和光敏电阻组成对太阳光线的探测器,实现了太阳电池组件对太阳的跟踪。
In its control system, the ultraviolet radiation sensor and photoresistor are used to form a detector to track the sun with solar energy modules.
为保证可靠和长寿命,采用了红外发光二极管(LED),光敏器件采用大功率光电池(PIN)。
To guarantee reliability and long service life, infrared LED and high power photocell (PIN) are adopted.
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。
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.
光敏染料吸收光能并且将激发态电子注入半导体导带中,从而实现光伏转换,是染料敏化太阳电池中的重要组成部分。
The sensitizer, which captures the sunlight and transfer electron from its oxidation state to the conduction band of anode, is a crucial segment in DSSCs.
光敏染料吸收光能并且将激发态电子注入半导体导带中,从而实现光伏转换,是染料敏化太阳电池中的重要组成部分。
The sensitizer, which captures the sunlight and transfer electron from its oxidation state to the conduction band of anode, is a crucial segment in DSSCs.
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