Homework Answers
Add Answer to:
Q1.602.10-19c k 8.62.10-5 ev T300K kT 0.0259 V 0 8.85x 10-14_F Eox 3.97 Es11.9 VT 25.9mV EG 1.1ev...
Use room temperature for all of these calculations. 09 Slides are helpful. q := 1.602-10-19C k...
Use room temperature for all of these calculations. 09 Slides are helpful. q := 1.602-10-19C k 8.62.10-5 ev ε0 = 8.85 × 10-14- 6x := 3.97 Csi :-11.9 VT 25.9mV EG 1.1eV tox4.1nm n1.45-101°cm-3 cm T300K kT = 0.0259 V 1. (25 pts) For the following doping levels in Si, identify whether the semiconductor is n-type or p- type. Calculate the Fermi level (in relationship to Ei), the Fermi potential, and the minority carrier concentration at room temperature. (extra credit)...
In a semiconductor it can be shown that the product of the electron and hole densities...
In a semiconductor it can be shown that the product of the electron and hole densities is the square of the intrinsic density, i.e., pm n. Find the equilibrium electron (n) and hole (p) concentrations and the location of the Fermi level (EF) referenced to the conduction band (Ec) or valence band (Ev) in Si at 27°C if the Si contains the following concentrations of shallow dopant atoms: a) 1x1016 cm-3 boron atoms b) 3x1016 cm-3 arsenic atoms and 2.9x1016...
Finish Part 2 calculations with the data and equations given above. Intrinsic Carrier Concentrations: n 2e6...
Finish Part 2 calculations with the data and equations given
above.
Intrinsic Carrier Concentrations: n 2e6 cm3 and Eg 1.42eV for GaAs n 1e10 cm3 and Eg 1.1eV for Si n 2e13 cm3 and Eg = 0.7eV for Ge n 0 and Eg 3.4eV for GaN Charge Neutrality Equation and NP product: 1/2 ((NA-Np) ni (NA-No) p = 2 2 . 1/2 (No-NA) (No- n 2 2 Fermi Energy Level Equation: E,-E, kT In =-kT In Part 2, Calculation: For...
Determine the maximum width of the depletion region, Wmax?? An n-channel metal-SiO2-Si MOSFET has the following parameters: 16 ст.3 NA = 4x 101 μη-I 000 cmr/(V.sec ) Фт.--0.925 eV, Gate oxide thickne...
Determine the maximum width of the depletion region,
Wmax??
An n-channel metal-SiO2-Si MOSFET has the following parameters: 16 ст.3 NA = 4x 101 μη-I 000 cmr/(V.sec ) Фт.--0.925 eV, Gate oxide thickness tox-d= 3.0x10-6 cm Dimensions: L = 0.5x10-4 cm, Z = 1 x 104 cm Oxide Charges: Qs = 4.8x 10-8 Coul/cm, Qm= Q,-Qu = 0, Assume -9.65x10 cm3,T-300 K and KT-0.0259 eV cm . .
An n-channel metal-SiO2-Si MOSFET has the following parameters: 16 ст.3 NA = 4x...
1. Sketch the Fermi-dirac probability function at T= 0 K and T=300 K for function of...
1. Sketch the Fermi-dirac probability function at T= 0 K and T=300 K for function of E above and below EF. 2. Find (EP) 3. Describe Fermi Energy. What are the significances of Fermi energy level in semiconductor device physics? 4. Sktech Density of State Diagram, Fermi-dirac probability function diagram vs. E from there sketch n(E)vs.E and p(E)vs. E for N-type and P-type semiconductors, respectively. 5. A semiconductor has the following parameters: a. Eg = 1.12 eV, x = 4.05...
1. Sketch the Fermi-dirac probability function at T=0 K and T=300 K for function of E...
1. Sketch the Fermi-dirac probability function at T=0 K and T=300 K for function of E above and below EF. 2. Find f(EP). 3. Describe Fermi Energy. What are the significances of Fermi energy level in semiconductor device physics? 4. Sktech Density of State Diagram, Fermi-dirac probability function diagram vs. E from there sketch n(E)vs.E and p(E)vs. E for N-type and P-type semiconductors, respectively. 5. A semiconductor has the following parameters: a. Eg = 1.12 eV, x = 4.05 eV,...
Unless otherwise indicated, assume ni = 1010 cm–3, Eg = 1.1 eV, µn = 1000 cm2/V.s,...
Unless otherwise indicated, assume ni = 1010 cm–3, Eg = 1.1 eV, µn = 1000 cm2/V.s, µp = 250 cm2/V.s, εr = 12, ε0 = 8.85×10–14 F/cm, KT/q = 26-mV at 300° Kelvin, q = 1.6×10–19 C, and k = 8.62×10–5. Problem 1 In a particular semiconductor, the probability of occupying a state of an energy kT above Ec is e–10. Determine the position of the Fermi level with respect to Ec in terms of kT. Problem 2 Determine the...
3. Silicon samples with band-gas 1.1 eV at 300 Kelvin, are doped at four different levels...
3. Silicon samples with band-gas 1.1 eV at 300 Kelvin, are doped at four different levels and have the properties listed below. Case 1: Case 2: Case 3: Case 4: Ex-Ey = 0.15 eV Ef-Ey=0.88 eV EF-Ey = 0.55 eV Ex-Ey = 1.09 eV The four cases above show the position of the Fermi Level Er relative to the valence band edge Ev.at dilterent doping levels. a) identify each sample as degenerate and nondegenerate. b) which nondegenerate case shows heavy...
Applied quantum mechanics 1. Calculate the carrier concentrations (p and n) for Si at 300k for...
Applied quantum mechanics
1. Calculate the carrier concentrations (p and n) for Si at
300k for the following doping concentrations:
2.
(a) ND = 1015/cm3
(b) NA = 1018/cm3
(c) ND = 5 x 1017/cm3
Calculate the majority and minority carriers for each side of
an N+P junction if ND = 2 x 1017/cm3 for the n-side, and NA =
1014/cm3 for the p-side.
Assume the semiconductor is Si and the temperature is
300K.
3. Determine the energy of:
(a)...
(2) In a semiconductor with an energy gap Eg between the valence and the conduction bands we can take Ef (the Fermi ene...
(2) In a semiconductor with an energy gap Eg between the valence and the conduction bands we can take Ef (the Fermi energy) to be halfway between the bands (see figure below): Conduction band Energy gap Eg Valence band Semiconductor a. Show that for a typical semiconductor or insulator at room temperature the Fermi- Dirac factor is approximately equal to exp(-E 2kBT). (Typical Eg for semi-conductors ranges from about 0.5eV to 6eV at T-293K.) b. In heavily doped n-type silicon,...
Use room temperature for all of these calculations. 09 Slides are helpful. q := 1.602-10-19C k 8.62.10-5 ev ε0 = 8.85 × 10-14- 6x := 3.97 Csi :-11.9 VT 25.9mV EG 1.1eV tox4.1nm n1.45-101°cm-3 cm T300K kT = 0.0259 V 1. (25 pts) For the following doping levels in Si, identify whether the semiconductor is n-type or p- type. Calculate the Fermi level (in relationship to Ei), the Fermi potential, and the minority carrier concentration at room temperature. (extra credit)...
In a semiconductor it can be shown that the product of the electron and hole densities is the square of the intrinsic density, i.e., pm n. Find the equilibrium electron (n) and hole (p) concentrations and the location of the Fermi level (EF) referenced to the conduction band (Ec) or valence band (Ev) in Si at 27°C if the Si contains the following concentrations of shallow dopant atoms: a) 1x1016 cm-3 boron atoms b) 3x1016 cm-3 arsenic atoms and 2.9x1016...
Finish Part 2 calculations with the data and equations given
above.
Intrinsic Carrier Concentrations: n 2e6 cm3 and Eg 1.42eV for GaAs n 1e10 cm3 and Eg 1.1eV for Si n 2e13 cm3 and Eg = 0.7eV for Ge n 0 and Eg 3.4eV for GaN Charge Neutrality Equation and NP product: 1/2 ((NA-Np) ni (NA-No) p = 2 2 . 1/2 (No-NA) (No- n 2 2 Fermi Energy Level Equation: E,-E, kT In =-kT In Part 2, Calculation: For...
Determine the maximum width of the depletion region,
Wmax??
An n-channel metal-SiO2-Si MOSFET has the following parameters: 16 ст.3 NA = 4x 101 μη-I 000 cmr/(V.sec ) Фт.--0.925 eV, Gate oxide thickness tox-d= 3.0x10-6 cm Dimensions: L = 0.5x10-4 cm, Z = 1 x 104 cm Oxide Charges: Qs = 4.8x 10-8 Coul/cm, Qm= Q,-Qu = 0, Assume -9.65x10 cm3,T-300 K and KT-0.0259 eV cm . .
An n-channel metal-SiO2-Si MOSFET has the following parameters: 16 ст.3 NA = 4x...
1. Sketch the Fermi-dirac probability function at T= 0 K and T=300 K for function of E above and below EF. 2. Find (EP) 3. Describe Fermi Energy. What are the significances of Fermi energy level in semiconductor device physics? 4. Sktech Density of State Diagram, Fermi-dirac probability function diagram vs. E from there sketch n(E)vs.E and p(E)vs. E for N-type and P-type semiconductors, respectively. 5. A semiconductor has the following parameters: a. Eg = 1.12 eV, x = 4.05...
1. Sketch the Fermi-dirac probability function at T=0 K and T=300 K for function of E above and below EF. 2. Find f(EP). 3. Describe Fermi Energy. What are the significances of Fermi energy level in semiconductor device physics? 4. Sktech Density of State Diagram, Fermi-dirac probability function diagram vs. E from there sketch n(E)vs.E and p(E)vs. E for N-type and P-type semiconductors, respectively. 5. A semiconductor has the following parameters: a. Eg = 1.12 eV, x = 4.05 eV,...
3. Silicon samples with band-gas 1.1 eV at 300 Kelvin, are doped at four different levels and have the properties listed below. Case 1: Case 2: Case 3: Case 4: Ex-Ey = 0.15 eV Ef-Ey=0.88 eV EF-Ey = 0.55 eV Ex-Ey = 1.09 eV The four cases above show the position of the Fermi Level Er relative to the valence band edge Ev.at dilterent doping levels. a) identify each sample as degenerate and nondegenerate. b) which nondegenerate case shows heavy...
Applied quantum mechanics
1. Calculate the carrier concentrations (p and n) for Si at
300k for the following doping concentrations:
2.
(a) ND = 1015/cm3
(b) NA = 1018/cm3
(c) ND = 5 x 1017/cm3
Calculate the majority and minority carriers for each side of
an N+P junction if ND = 2 x 1017/cm3 for the n-side, and NA =
1014/cm3 for the p-side.
Assume the semiconductor is Si and the temperature is
300K.
3. Determine the energy of:
(a)...
(2) In a semiconductor with an energy gap Eg between the valence and the conduction bands we can take Ef (the Fermi energy) to be halfway between the bands (see figure below): Conduction band Energy gap Eg Valence band Semiconductor a. Show that for a typical semiconductor or insulator at room temperature the Fermi- Dirac factor is approximately equal to exp(-E 2kBT). (Typical Eg for semi-conductors ranges from about 0.5eV to 6eV at T-293K.) b. In heavily doped n-type silicon,...
Most questions answered within 3 hours.
-
The free energy change for the following reaction at 25 °C, when
[Sn2+] = 1.17 M...
asked 1 hour ago -
An MNE is this kind of industry when competition in one country
is essentially independent of...
asked 2 hours ago -
. For this set of questions, determine what
proportion of a normal distribution is located betweeneach...
asked 3 hours ago -
A college student is employed as a door-to-door newspaper
salesman. Historical data suggests that the student...
asked 4 hours ago -
MATLAB HW 11 problem using Switch Case and Input commands
Write a script file that calculates...
asked 3 hours ago -
Considering gravitational time dilation, calculate the time that
passes in Earth’s surface while 1 hour passes...
asked 4 hours ago -
Minitab Problem: Take the Lake Hume June rainfall data and find
use the processes outlined in...
asked 5 hours ago -
X Company is trying to decide whether to continue using old
equipment to make Product A...
asked 5 hours ago -
IN PYTHON ONLY !! Program 2: Re-work
program #5 (WeeklyHours) from the previous assignment such that...
asked 5 hours ago -
The average length of time between arrivals at a turnpike
toll-booth is 26 seconds. What is...
asked 7 hours ago -
(a) A piston at 6.1 atm contains a gas that occupies a volume of
3.5 L....
asked 8 hours ago -
Please answer true or false. Words
cannot be changed or added in to make it true...
asked 8 hours ago