Abstract
A six-volt vertically-stacked, high current GaAs photovoltaic power converter (PPC) has been designed and fabricated to produce output power over 1 W under monochromatic illumination. An N++-GaAs/P++-AlGaAs tunnel junctions (TJs) structure has been used for connecting each sub-cell in this vertically-stacked PPC device. The thickness of the each GaAs sub-cell has been derived based on the calculation of absorption depth of photons with a wavelength of 808 nm using absorption coefficient obtained from ellipsometry measurements. The devices were characterized under non-uniform CW laser illumination at 808 nm with incident power up to 4.1 W. A maximum conversion efficiency of 50.2% was achieved at 0.3 W under non-uniform (coupled in optical fiber) monochromatic illumination, dropping to 42.5% at 4.1 W. The operating voltage at the maximum power point is 5.5–6.0 V, depending on the incident laser power, and an output electrical power output of 1.3 W can be extracted at a laser power of 2.9 W and the maximum electrical power output amounts to 1.72 W. The external quantum efficiency (EQE) measurement indicates that the performance of PPC can be further improved by refining the design of the thickness of sub-cells and improving TJs.
Highlights
Type GaAs GaAs GaAs GaAs GaAs Vertically-stacked Pie-shaped Pie-shaped Pie-shaped Pie-shaped Pie-shaped Vertically-stacked Pie-shaped Pie-shaped Pie-shaped Vertically-stacked
Our results demonstrate the feasibility of a six-volt GaAs photovoltaic power converters (PPCs) with operating voltage ~6 V and output power over 1 W
It means that a greater portion of the incident light is transmitted to the bottom cell at longer wavelength, resulting in the internal quantum efficiency (IQE) of the top cell decreases with increasing wavelength
Summary
Defects caused by etching the isolation trench This can increase the short-circuit current (Jsc) and fill factor (FF) of the PPC devices. The MJ PPC structure has more advantages than the pie-shaped (series connected single junction) PPCs, such as being able to achieve higher conversion efficiency, relaxing the optical alignment requirement of incident light, improving the reliability of device and simplifying the fabrication process[3,14]. The maximum conversion efficiency of PPC using single-junction GaAs solar cell is ~60%. The purpose of this work is to develop a monolithic vertically-stacked multiple junction GaAs laser power converter, with an output voltage over 6 V. Both of theoretically predicted performance of GaAs PPC and experimental results under monochromatic illumination (800–850 nm lasers) are presented. Our results demonstrate the feasibility of a six-volt GaAs PPC with operating voltage ~6 V and output power over 1 W
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