Tunnel-Junction-Limited Multijunction Solar Cell Performance Over Concentration
2013
The simulation of tunnel junctions is performed by using nonlocal band-to-band and trap assisted tunneling models that are capable of reproducing the experimental current-voltage characteristics of p ++ AlGaAs/ n ++ AlGaAs and p ++ AlGaAs/ n ++ GaAs based devices. These simulated characteristics are then implemented within a lattice matched InGaP/(In)GaAs/Ge multijunction solar cell (MJSC) to assess the performance as a function of tunnel junction layer doping in the regime where the TJ limits the performance of the MJSC. At 500 suns, a 4.6% absolute drop in simulated efficiency is observed for an AlGaAs/GaAs bottom TJ corresponding to a degenerately p-doped layer of 2.5 × 10 19 cm -3 compared to a TJ with a doping of 4×10 20 cm -3 . A minimum p ++ doping level of 3.3 × 10 19 cm -3 is required in order to avoid bottom TJ limitation up to 1000 suns concentration for an n ++ doping of 2 × 10 19 cm -3 based on the calibrated models. Furthermore, the effects of the peak and valley current densities are shown to have a strong influence on the efficiency over concentration within the TJ limiting regime.
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