Q4 Consider a pn junction diode at 300 K in which the p doping density is 1024 m³ while the n doping density is 1022 m³.

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Q4 Consider A Pn Junction Diode At 300 K In Which The P Doping Density Is 1024 M While The N Doping Density Is 1022 M 1 (25.64 KiB) Viewed 14 times

Q4 Consider A Pn Junction Diode At 300 K In Which The P Doping Density Is 1024 M While The N Doping Density Is 1022 M 2 (31.09 KiB) Viewed 14 times

Q4 Consider a pn junction diode at 300 K in which the p doping density is 1024 m³ while the n doping density is 1022 m³. The thickness of the p-doped region is 10 µm while the thickness of the n-doped region is 20 µm and the cross-sectional area of the diode is 2 μm². Take kT=0.025 V, kT/q-0.025 eV, the intrinsic carrier concentration n; to be 1.5x10¹6 m²³ at 300K, the diffusion constant for the electrons De to be 0.0038 m²/s and the diffusion constant for the holes Dh to be 0.0012 m²/s.
Apply a forward voltage of 0.6 V to the pn junction. i) Calculate the contact potential with this forward bias and the total depletion layer thickness. How much does the depletion layer thickness extend into each region? (6 marks) ii) Explain in words how current flow arises in the pn junction with forward bias applied as opposed to the equilibrium case when no current flows. (Hint: Discuss in terms of drift and diffusion) (6 marks) iii) Using a short diode approximation calculate the current for the diode with this forward voltage applied. (5 marks)