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The majority carrier in p-type semiconductor is the hole. Electron carriers in p-type semiconductor are minority carriers. Minority carriers in any semiconductor are produced mainly by heat. Only at absolute zero temperature would there be no minority carriers.
p-type majority carriers are holes n-type majority carriers are electrons
bipolar devices use both majority and minority current carriersunipolar devices use only majority current carriers
conduction forward voltage is the voltage produced when a diode is connected in forward bias and potential is given across it . when a potential is given across a diode which is connected in forward bias due to repulsion force experinced by the majority charge carriers in p and n type the depletion region gets shrunkn very easily and thus conducton takes place due to the mobility of the charge carriers
The potential across a pn junction is called potential barrier because majority charge carriers have to overcome this potential before crossing the junction.
p-type
The majority carrier in p-type semiconductor is the hole. Electron carriers in p-type semiconductor are minority carriers. Minority carriers in any semiconductor are produced mainly by heat. Only at absolute zero temperature would there be no minority carriers.
p-type majority carriers are holes n-type majority carriers are electrons
In an N-type semiconductor, majority current carriers are electrons, while minority current carriers are holes. In a P-type semiconductor, majority current carriers are holes, while minority current carriers are electrons.
The majority of the sulfur produced today is obtained from underground deposits, usually found in conjunction with salt deposits, with a process known as the Frasch process.
In semiconductor devices there are two types of charge carriers: electrons and holes. In N-type doped semiconductor the majority charge carriers are electrons and the minority charge carriers are holes. In P-type doped semiconductor the majority charge carriers are holes and the minority charge carriers are electrons.Some kinds of semiconductor devices operate using minority charge carriers in part(s) of their structure. The common bipolar junction transistor is one of these, they are sensitive to a phenomenon called thermal runaway because additional minority carriers are produced as temperature increases. (field effect transistors however operate using only majority carriers and are thus not sensitive to thermal runaway)
holes are majority in base
Krebs Cycle .
bipolar devices use both majority and minority current carriersunipolar devices use only majority current carriers
there excess carriers can dominate the conduction process in semiconductor material.
Bipolar dc involves both majority carrier and minority carriers for conduction while unipolar requires only majority carriers or minority carriers during conduction. point of view based on electronics devices.
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