Title :
Perturbation Theory for Solar Cell Efficiency I—Basic Principles
Author :
Wong, J. ; Green, M.A.
Author_Institution :
Solar Energy Res. Inst. of Singapore, Nat. Univ. of Singapore, Singapore, Singapore
Abstract :
A streamlined method of calculating the sensitivity of a solar cell´s current and maximum power to small changes in device parameters is proposed. The method also introduces three sensitivity factors related to the effects of changes in the generation, bulk, and surface recombination rates on the maximum power, which are amenable to spatial plots in a device simulator. The analysis is rigorous to first order and generally applicable to multidimensional solar cells with injection-level-dependent lifetimes and surface recombination velocities, with or without “photon recycling,” under low injection level conditions at the maximum power point.
Keywords :
perturbation theory; sensitivity; solar cells; surface recombination; basic principles; bulk rate; device parameters; device simulator; generation rate; injection-level-dependent lifetimes; low injection level conditions; maximum power point; multidimensional solar cells; perturbation theory; photon recycling; sensitivity factors; solar cell current power; solar cell efficiency; spatial plots; surface recombination rate; surface recombination velocity; Equations; Green products; Mathematical model; Photonics; Photovoltaic cells; Sensitivity analysis; Photovoltaic effect; reciprocity; solar cell;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2011.2164577
