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How is a p-n junction diode used to generate a potential difference in photovoltaic solar cell ?

written 3.5 years ago by teamques10 ★ 68k

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engineering physics

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written 3.5 years ago by teamques10 ★ 68k

• The working principle of all today’s solar cells is essentially the same. It is based on thephotovoltaic effect.
• In general, the photovoltaic effect means the generation of a potential difference at the junction of two different materials in response to visible light or other radiation.
• The basic processes behind the photovoltaic effect are:
  1. Generation of the charge carriers due to the absorption of photons in the materials that form the junction.
  2. Subsequent separation of thephoto-generated charge carriers in the junction.
  3. Collection of the photo-generated charge carriers at the terminals of the junction.
• Thus, the main condition for a p-n junction to generate a potential difference in illumination. And it’s important to know how thep-n junction acts under illumination.
• When ap-n junction is illuminated the additional electron-hole pairs are generated in the semiconductor due to the absorption of photons and heat. The concentration of minority carriers (electrons in thep-type region and holes in then-type region) strongly increases.
• This increase in the concentration of minority carriers leads to the flow of the minority carriers across the depletion region into the qausi-neutral regions. Electrons flow from thep-type into then-type region and holes from then-type into thep-type region.
• The flow of the photo-generated carriers causes the so-calledphotogeneration current,Jph, which adds to the thermal-generation current,Jge.
• When no external contact between then-type and thep-type regions is established, which means that the junction is in the open-circuit condition, no net current can flow inside thep-n junction.
• When a load is connected between the electrodes of the illuminatedp-n junction, only a fraction of the photo-generated current will flow through the external circuit.
• The electrochemical potential difference between then-type andp-type regions will be lowered by a voltage drop over the load. This in turn lowers the electrostatic potential over the depletion region which results in an increase of the recombination current.
• The net current flowing through the load is determined as the sum of the photo and thermal generation currents and the recombination current.

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