Exercises1. A silicon p-n junction has the hole and electron resistivity are 0.001 .m, 0.004 .mrespectively in T-250 °K. The intrinsic carrier density is 6.2×10¹0 m³, the electron and holediffusion length are 1.8×104 m, 1.1×104 m respectively, and th=8 µs. Find reversesaturation current density.2. Given a Si diode with the following physical ch/s the doping concentration in the p-typeis 2.25×10¹7 cm³ and in the n-type is 2.25×10¹4 cm³, junction area is 2×10³ cm², life timeof hole in n-region=10 µs, life time of electron in p-region =50 µs, hole and electronmobilities are 600 cm³V's¹ and 2100 cm²V¹s¹ respectively, the intrinsic carrierconcentration 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 200K. the hole and electron mobility, resistivity are 0.16 m²/V.s, 0.36 m²/V.s, 0.0025 92.m and0.005 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.

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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.

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.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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Concept explainers

Analysis of Diode

It is a semiconductor device in electronics applications where only a one-way current is required. It is like a one-way switch that allows current to flow in one direction only. A diode has two terminals, a cathode, and an anode. The cathode is the negative terminal that carries electrons, while the anode is the positive terminal that carries holes. Although no element has holes, it just means that there is a free space for electrons. Diodes are used to convert AC to DC. As we know, AC shifts between positive and negative cycles and DC stays positive constantly. As the diodes allow current only in one direction, they filter out the AC signal’s negative cycle and only keep the positive one.

Working and Construction

In civil engineering, construction means the application of principles of science and mathematics for building bridges, dams, buildings, roads, highways, tunnels, airports, structures, etc. Different branches of science, like physics and chemistry, are extensively applied to design and analysis in construction. Material properties, the science of atmospheric conditions (like solutions, mixtures, etc.), the impact of environmental factors like, corrosion and acidity are some of the primary knowledge of chemistry which are used by civil engineers to carry out construction. Estimation of forces, application of laws of mechanics, fluids mechanics, soil mechanics, etc. are some of the fundamental concepts of physics, which are well applied in construction works. Building construction and structural engineering are two of the most primary areas in civil engineering that parallelly applies principles of both chemistry and physics to carry on construction works.

Property of Diode

An electronic component that facilitates the directional flow of current is known as a diode. According to the direction of the flow of current, the resistance of a diode changes from zero to Infinity.

Question

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.

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Consider an idealized diode with a reverse saturation current 0.01 mA and an abrupt turn-on voltage of 0.7 V (assume no breakdown and operation away from the knee of the diode curve). For the circuit shown, both resistors are 100 2, the constant source is Vp = 5 V, and the time-dependent source is V3 = 20 sin(at) V. Calculate (a) the peak positive voltage V and the associated current through the diode and (b) the peak negative voltage V and the associated current through the diode. Rulamting R Vs + > KHI
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