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Q1. Answer the following questions about resistivity of Silicon at T=300K. Assume, electron mobility, Mn =...
please show steps by step Note: In following problems use (if needed) B=1.08x1031K3.cm-6 for Si and...
please show steps by step
Note: In following problems use (if needed) B=1.08x1031K3.cm-6 for Si and B = 2.31x1030K3cm" for Ge. Eg (for Si): 1.12 eV, Eg (for Ge)-0.66 eV Boltzmann's constant = 8.62x10-5 eW0K 1.38044x10-23J/0K 1. Silicon is doped with 6x10 18 boron atoms/cm3 (a) Is this n or p type silicon? (b) What are the hole and electron concentrations at 200K? 2. Silicon is doped with a donor atoms of 4x10 16 atoms/cm3 (a) Find the electron and...
Assume a p-n step junction in silicon wi concentration of 2x1016,c? and the n-type material doped...
Assume a p-n step junction in silicon wi concentration of 2x1016,c? and the n-type material doped at 3X10-s,cm3 The intrinsic carrier density is 1.25X101°/cm and all dopants are fully ionized Assume that the effective density of states for silicon is 3.3x10 cm3 for the conduction band and 1.75x101 cm for the valence band. Assume that the temperature is 300K and silicon relative permittivity of 11.7 a. Compute the hole concentration on the n-side and electron concentration th the p-type material...
P4. Find the resistivity at T 300 K for a silicon sample doped with 1 x 10cm of phosphorus (P) atoms, 8.5 x 10 cm o...
P4. Find the resistivity at T 300 K for a silicon sample doped with 1 x 10cm of phosphorus (P) atoms, 8.5 x 10 cm of arsenic (As) atoms, and 1.2 x 103 cm3 of boron (B) atoms. Assume that the impurities are completely ionized and the mobilities are μ,-1500 cm2/V-s, μ,-500 cm2/V-s, independent of impurity concentrations. Also assume intrinsic carrier concentration of Si n 1.5 x 10 cm). Hint!!; we can usually use the rule for compensated semiconductors as...
Could i please have assistance in working out and theory for this question. Could i please...
Could i please have assistance in working out and theory for
this question. Could i please get further explanation on
how values are achieved with B and C Please
a) Calculate the conductivity of an intrinsic Si conductor at 27 °C if the hole mobility is 450 cm2 V1s-1 and the electron mobility is 1350 cm2 V's1. Assume an intrinsic carrier density of 1.45 x 1010 carriers/cm3 and an electron charge of -0.16 x 10-18 C. b) Using Figure 5,...
Could i please have assistance in working out and theory for this question. a) Calculate the...
Could i please have assistance in working out and theory for
this question.
a) Calculate the conductivity of an intrinsic Si conductor at 27 °C if the hole mobility is 450 cm2 V1s-1 and the electron mobility is 1350 cm2 V's1. Assume an intrinsic carrier density of 1.45 x 1010 carriers/cm3 and an electron charge of -0.16 x 10-18 C. b) Using Figure 5, calculate the conductivity of the Si intrinsic conductor if the temperature is increased to 127 °C...
Could i please have assistance in working out and theory for this question. a) Calculate the...
Could i please have assistance in working out and theory for
this question.
a) Calculate the conductivity of an intrinsic Si conductor at 27 °C if the hole mobility is 450 cm2 V1s-1 and the electron mobility is 1350 cm2 V's1. Assume an intrinsic carrier density of 1.45 x 1010 carriers/cm3 and an electron charge of -0.16 x 10-18 C. b) Using Figure 5, calculate the conductivity of the Si intrinsic conductor if the temperature is increased to 127 °C...
2. Consider silicon at thermal equilibrium at T 600K. Assume the effective mass at 600K is...
2. Consider silicon at thermal equilibrium at T 600K. Assume the effective mass at 600K is approximately the same as that at 300K. The temperature dependence of the bandgap of Si follows the Varshni's Law: where E, (T 0K) 1.166eV, a 4.73 x 104eV/K, and B-636K. (a) Determine Nc, N, and ni. (b) Determine the position of the Fermi level if the silicon is intrinsic. (c) Determine the position of the Fermi level if the hole concentration is p- 1017/cm3
QUESTION 43 (10 Marks) a) Calculate the conductivity of an intrinsic silicon (SI) semiconductor at 27°C...
QUESTION 43 (10 Marks) a) Calculate the conductivity of an intrinsic silicon (SI) semiconductor at 27°C if the hole mobility is 460 cm V's and the electron mobility is 1350 cm? Vis! Assume an intrinsic carrier density of 1.45 x 10 carriers/cm' and an electron charge of -0.16 x 10-4C (3 marks) b) Using Figure 8, calculate the conductivity of the Si intrinsic semiconductor if the temperature is increased to 150°C, assuming the same electron and hole mobilities (2 marks)...
An IC circuit requires that we design a 50 n-type resistor in a p- type Si wafer. the acceptir do...
an IC circuit requires that we design a 50 n-type
resistor in a p- type Si wafer. the acceptir doping is 1014/cm3,
the donor implant depth is 5 micro met, the lenght of the registor
is 20 micromet, and the maximum width allowed is 15 micromet.
caculate the required donor density. assume that 1000cm2/Vs
300cm2/Vs
Note c 3x10m/s, h-6.63x10 J-s, mo-9.11x10 kg, q-1.6x 10-19 C, nis-1.5x10/cm3. Eo-8.85x10-12 F/m, Erst 11.8, k-1.38x1023 J/K, Ers1o2-3.9, T-300K, 1 eV-1.6x10-19 J I. An IC...
please show steps by step
Note: In following problems use (if needed) B=1.08x1031K3.cm-6 for Si and B = 2.31x1030K3cm" for Ge. Eg (for Si): 1.12 eV, Eg (for Ge)-0.66 eV Boltzmann's constant = 8.62x10-5 eW0K 1.38044x10-23J/0K 1. Silicon is doped with 6x10 18 boron atoms/cm3 (a) Is this n or p type silicon? (b) What are the hole and electron concentrations at 200K? 2. Silicon is doped with a donor atoms of 4x10 16 atoms/cm3 (a) Find the electron and...
Assume a p-n step junction in silicon wi concentration of 2x1016,c? and the n-type material doped at 3X10-s,cm3 The intrinsic carrier density is 1.25X101°/cm and all dopants are fully ionized Assume that the effective density of states for silicon is 3.3x10 cm3 for the conduction band and 1.75x101 cm for the valence band. Assume that the temperature is 300K and silicon relative permittivity of 11.7 a. Compute the hole concentration on the n-side and electron concentration th the p-type material...
P4. Find the resistivity at T 300 K for a silicon sample doped with 1 x 10cm of phosphorus (P) atoms, 8.5 x 10 cm of arsenic (As) atoms, and 1.2 x 103 cm3 of boron (B) atoms. Assume that the impurities are completely ionized and the mobilities are μ,-1500 cm2/V-s, μ,-500 cm2/V-s, independent of impurity concentrations. Also assume intrinsic carrier concentration of Si n 1.5 x 10 cm). Hint!!; we can usually use the rule for compensated semiconductors as...
Could i please have assistance in working out and theory for
this question. Could i please get further explanation on
how values are achieved with B and C Please
a) Calculate the conductivity of an intrinsic Si conductor at 27 °C if the hole mobility is 450 cm2 V1s-1 and the electron mobility is 1350 cm2 V's1. Assume an intrinsic carrier density of 1.45 x 1010 carriers/cm3 and an electron charge of -0.16 x 10-18 C. b) Using Figure 5,...
Could i please have assistance in working out and theory for
this question.
a) Calculate the conductivity of an intrinsic Si conductor at 27 °C if the hole mobility is 450 cm2 V1s-1 and the electron mobility is 1350 cm2 V's1. Assume an intrinsic carrier density of 1.45 x 1010 carriers/cm3 and an electron charge of -0.16 x 10-18 C. b) Using Figure 5, calculate the conductivity of the Si intrinsic conductor if the temperature is increased to 127 °C...
Could i please have assistance in working out and theory for
this question.
a) Calculate the conductivity of an intrinsic Si conductor at 27 °C if the hole mobility is 450 cm2 V1s-1 and the electron mobility is 1350 cm2 V's1. Assume an intrinsic carrier density of 1.45 x 1010 carriers/cm3 and an electron charge of -0.16 x 10-18 C. b) Using Figure 5, calculate the conductivity of the Si intrinsic conductor if the temperature is increased to 127 °C...
2. Consider silicon at thermal equilibrium at T 600K. Assume the effective mass at 600K is approximately the same as that at 300K. The temperature dependence of the bandgap of Si follows the Varshni's Law: where E, (T 0K) 1.166eV, a 4.73 x 104eV/K, and B-636K. (a) Determine Nc, N, and ni. (b) Determine the position of the Fermi level if the silicon is intrinsic. (c) Determine the position of the Fermi level if the hole concentration is p- 1017/cm3
QUESTION 43 (10 Marks) a) Calculate the conductivity of an intrinsic silicon (SI) semiconductor at 27°C if the hole mobility is 460 cm V's and the electron mobility is 1350 cm? Vis! Assume an intrinsic carrier density of 1.45 x 10 carriers/cm' and an electron charge of -0.16 x 10-4C (3 marks) b) Using Figure 8, calculate the conductivity of the Si intrinsic semiconductor if the temperature is increased to 150°C, assuming the same electron and hole mobilities (2 marks)...
an IC circuit requires that we design a 50 n-type
resistor in a p- type Si wafer. the acceptir doping is 1014/cm3,
the donor implant depth is 5 micro met, the lenght of the registor
is 20 micromet, and the maximum width allowed is 15 micromet.
caculate the required donor density. assume that 1000cm2/Vs
300cm2/Vs
Note c 3x10m/s, h-6.63x10 J-s, mo-9.11x10 kg, q-1.6x 10-19 C, nis-1.5x10/cm3. Eo-8.85x10-12 F/m, Erst 11.8, k-1.38x1023 J/K, Ers1o2-3.9, T-300K, 1 eV-1.6x10-19 J I. An IC...
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