Solar Power - Photovoltiac cell confusion

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SUMMARY

The discussion centers on the operation of photovoltaic (PV) cells in solar panels, specifically their function as PN junction diodes. When photons strike the PV cell, they generate electron-hole pairs in the N and P materials, respectively. The movement of electrons towards holes through a conductive load creates electric current. The confusion arises regarding the interaction of pre-existing electrons and holes versus those generated by photon absorption, leading to questions about the stability of the semiconductor state when connected directly.

PREREQUISITES
  • Understanding of semiconductor physics, particularly PN junctions.
  • Knowledge of photovoltaic cell operation and electron-hole pair generation.
  • Familiarity with basic electrical circuits and load concepts.
  • Awareness of doping processes in semiconductor materials.
NEXT STEPS
  • Research the principles of semiconductor doping and its effects on electron mobility.
  • Study the detailed operation of PN junction diodes in solar cells.
  • Learn about the impact of light intensity on the generation of electron-hole pairs in PV cells.
  • Explore the role of external circuits in maintaining the flow of current in photovoltaic systems.
USEFUL FOR

Students and professionals in electrical engineering, renewable energy enthusiasts, and anyone seeking to deepen their understanding of solar energy technology and photovoltaic systems.

examorph
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I have been trying to understand how PV cells work in solar panels and have become a bit confused, here is what I have read so far:

The PV cell is basically a PN junction diode with a conductive connection on the P and N material between this connection there is a load, a lamp for example, the Photon from the light strikes the PV cell and causes a electron to form in the N material and a hole to form in the P material, the electron wants to get to the hole so it goes through the conductive material which is joining the two P and N materials, through the load and into the P material where it joins together with the hole.

What I don't understand is, there are many electrons in the N material and many holes in the P material, what is stopping these from meeting, I mean the only combination of holes and electrons seems to be coming from the photons and not the electrons and holes which were formed from the doping, I would have thought that if you connected a wire from the P side to the N side all the electrons and holes would meet and cause the cell or diode to change back to its initial semiconductor state.
 
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