The Physics of Solar Cells: Equations, Efficiency Calculations, and Optimization
Learn the physics of solar cells, key equations, efficiency calculations, and optimization techniques.
The Physics of Solar Cells: Equations, Efficiency Calculations, and Optimization
Solar cells, also known as photovoltaic (PV) cells, are the fundamental components of solar panels that convert sunlight into electricity. The efficiency and performance of solar cells depend on various physical principles, materials, and optimization techniques. This article delves into the physics of solar cells, explaining key equations, efficiency calculations, and methods for optimizing performance.
The Basic Working Principle of Solar Cells Solar cells operate based on the photovoltaic effect , which involves three primary processes: Absorption of Photons: When sunlight strikes the semiconductor material, photons transfer their energy to electrons, exciting them to a higher energy state. Generation of Electron-Hole Pairs: The energy from photons generates electron-hole pairs in the semiconductor. Charge Separation and Collection: The built-in electric field within the p-n junction separates electrons and holes, directing them toward respective contacts to generate a current. Key Equat…
About the author
Prasun Barua is a graduate engineer in Electrical and Electronic Engineering with a passion for simplifying complex technical concepts for learners and professionals alike. He has authored numerous highly regarded books covering a wide range of elec…
