激光传能协同信号传输下的太阳能电池性能测试

Performance test of solar cell under laser energy transmission and signal transmission

  • 摘要: 激光无线能量传输在为远距离设备供能方面有着潜在的应用前景,在激光无线传能的同时进行激光无线通讯,具有重要的应用价值。针对砷化镓太阳能电池,对激光传能系统在无线能量传输时激光无线通讯性能进行了测试。实验采用波长808 nm激光实现砷化镓太阳能电池的能量传输,采用波长650 nm激光作为信号的传输,分别对单能量传输、单信号传输以及能量和信号同步传输三种情况下的砷化镓太阳能电池的输出特性进行了测试。结果表明:当单能量传输时,太阳能电池的性能与激光功率密度的大小密切相关,激光功率密度在54.9~90 mW/cm2范围内光电转换效率最大值为46.6%;当单信号传输时,通过测量系统的频率响应得到砷化镓太阳能电池的3 dB带宽约为3.7 kHz,并通过设计放大电路提高系统的通信性能,优化输出波形,使得系统的通信速率从10 kbps提升至240 kbps,输出电压峰峰值达到7.2 V。最后实验测量了不同激光强度下可实现的通信速率,当激光功率密度为59.5 mW/cm2时可实现140 kbps的通信速率,使得激光充电系统在无线能量传输下可以进行信号的传输。

     

    Abstract: Laser wireless energy transmission has potential applications prospects in supplying energy for long-distance equipment. And laser wireless communication with energy transmission has important application value. For GaAs solar cell, the laser wireless communication performance of the laser energy transmission system was tested during wireless energy transmission. A wavelength of 808 nm laser to achieve the energy transmission of the GaAs solar cell was used in the experiment, and a wavelength of 650 nm laser was used as the signal transmission. The output characteristics of GaAs solar cell under three conditions of single energy transmission, single signal transmission and energy and signal simultaneous transmission were tested respectively. The results show that when the single energy is transmitted, the performance of the solar cell is closely related to the laser power density. In the range of 54.9-90 mW/cm2 of the laser power density, the maximum energy conversion efficiency is 46.6%; when the single signal is transmitted, by measuring the frequency response of the system, the 3 dB bandwidth of the GaAs solar cell is about 3.7 kHz. And by designing the amplifier circuit, the communication performance of the system is improved and the output waveform is optimized, so that the transmission rate of the system is increased from 10 kbps to 240 kbps, and the output voltage peak-to-peak reaches 7.2 V. Finally, the achievable signal transmission rates under different laser intensities were measured experimentally. When the laser power density is 59.5 mW/cm2, the signal transmission rate of 140 kbps is achieved, so that the laser charging system can perform signal transmission under wireless energy transmission.

     

/

返回文章
返回