1. A silicon p-n junction has the hole and electron resistivity are 0.001 2.m, 0.004 22.m respectively in T-250 °K. The intrinsic carrier density is 6.2×10¹0 m³, the electron and hole diffusion length are 1.8×104 m, 1.1x104 m respectively, and th=8 us. Find reverse saturation current density.

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Exercises 1. A silicon p-n junction has the hole and electron resistivity are 0.001 .m, 0.004 .m respectively in T-250 °K. The intrinsic carrier density is 6.2×10¹0 m³, the electron and hole diffusion length are 1.8×104 m, 1.1×104 m respectively, and th=8 µs. Find reverse saturation current density. 2. Given a Si diode with the following physical ch/s the doping concentration in the p-type is 2.25×10¹7 cm³ and in the n-type is 2.25×10¹4 cm³, junction area is 2×10³ cm², life time of hole in n-region=10 µs, life time of electron in p-region =50 µs, hole and electron mobilities are 600 cm³V's¹ and 2100 cm²V¹s¹ respectively, the intrinsic carrier concentration is 1.4x100 cm³ and the voltage is 0.66 v operation at room temperature. Calculate Jp(0) and Jn(0) then calculate the total diode current. 3. A silicon p-n junction has energy of C.B. and V.B. are 0.9 eV, 0.1 eV respectively at 200 K. the hole and electron mobility, resistivity are 0.16 m²/V.s, 0.36 m²/V.s, 0.0025 92.m and 0.005 2.m. the electric field is 2x1028 V/m, me =0.8mo, m'h=0.5 mo, and t= th=10 μs, find: 1. The Built in voltage. 2. The drift currents. 3. Electron and hole diffusion length.