2. An abrupt Si junction (area=0.0001 cm?) has the following parameters. n-side: Na = 5x1017cm3 p-side: Na = 1017cm3 %3D Draw and label the band diagram, and calculate the difference between the Fermi level and the intrinsic Fermi level on both sides. Calculate the built-in potential at the junction in equilibrium and the depletion width. What is the total number of exposed acceptors in the depletion region?
2. An abrupt Si junction (area=0.0001 cm?) has the following parameters. n-side: Na = 5x1017cm3 p-side: Na = 1017cm3 %3D Draw and label the band diagram, and calculate the difference between the Fermi level and the intrinsic Fermi level on both sides. Calculate the built-in potential at the junction in equilibrium and the depletion width. What is the total number of exposed acceptors in the depletion region?
Introductory Circuit Analysis (13th Edition)
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Transcribed Image Text:2. An abrupt Si junction (area=0.0001 cm?) has the following parameters.
n-side: Na = 5x1017cm3
p-side: Na = 10"cm3
Draw and label the band diagram, and calculate the difference between the Fermi level and the
intrinsic Fermi level on both sides. Calculate the built-in potential at the junction in equilibrium and
the depletion width. What is the total number of exposed acceptors in the depletion region?
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