![Consider the following circuit. Assume the threshold voltage of the N-FETs is Vthn 0.4V, and threshold voltage of the PFET is Vthp-0.6V. Assume, both PFETs and NFETs have same oxide thickness (tox 2nm), and v length (L22nm). Assume, supply voltage (VDD)-2.5% and mobility of NFET and PFET are given by: 나 = 1000 cm 2/V-s and μ,-0.5Hn. Assume, width of the N-FET is same of both inverter, and equal to Wn110nm. Width of PFETs (Wp) are also same for both inverters; however, Wp is NOT equal to Wn VoD 2.5V W. W 110nm w, = 110nm V: 0 to Voo Consider the following design scenarios. You need to use saturation current based model of delay (not RC delay) for this problem Design for Vw-0.5Voo 1. Compute width of PFETs (Wp) such that switching threshold of the inverters (VM 0.5VDD) [25 points] 2. Based on the design in problem 1, compute the ratio of low-to-high (tpLH) to high-to-low (tpHu) propagation delay of the first inverter i.e. compute tplH tpHL]. [25 points] Design for tpLH tpHL 3. Compute width of PFETs (Wp) required to achieveH[25 points] 4. Based on the design in problem 3, compute VM/VDD [25 points] Permittivity of free space Permittivity of silicon Permittivity of SiO2 8.854x10-1 F/cm 11.686 1.03x10-12 F/cm 3.90 345x1013 F/cm](http://img.homeworklib.com/questions/049e4480-6903-11ec-9405-8d57585f0048.png?x-oss-process=image/resize,w_560)
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Consider the following circuit. Assume the threshold voltage of the N-FETs is Vthn 0.4V, and threshold...
Transistor parameters cm 1 Po=1V or Hm = 560 gdo cm rn = 0.6V Cio-1.7 m=...
Transistor parameters cm 1 Po=1V or Hm = 560 gdo cm rn = 0.6V Cio-1.7 m= (bottom) 2 Ln = Lp = 0.25um ½,--0.6V Ciswoー0.4 (sidewall) m vad =2.SI. I0-10-A Q2. (40 pts). For an inverter. Wn-0.36 and WP-0.8μm. (a) Find the switching voltage VM (b) Calculate the values of Rn and Rp (c) We would now like to construct an inverter whose switching voltage is exactly half of the supply voltage. How would vou size the transistors? (d) The...
1. Consider the circuit below a. What is the logic function implemented by the CMOS transistor...
1. Consider the circuit below a. What is the logic function implemented by the CMOS transistor network? Size the NMOS and PMOS devices so that the output resistance is the same as that of an inverter with an NMOS WIL 4 and PMOS W/L 8 b. What are the input patterns that give the worst case tpHL and tpLH. State clearly what are the initial input patterns and which input(s) has to make a transition in order to achieve this...
Problem 4 (25 points) Consider an n-channel MOSFET at T=300K. Assume: n polysilicon gate, t =...
Problem 4 (25 points) Consider an n-channel MOSFET at T=300K. Assume: n polysilicon gate, t = 500 A, N = 2x105cm-3,9' =10cm-2 Ox a W = 5 um, L = lum, 4. = 1000m, = 3.9€ , € = 8.854x10 " F/cm Qc is the number of electronic charges per unit area in the oxide a) (10 points) Determine the threshold voltage. b) (5 points) Is the transistor enhancement or depletion mode? Explain. c) (10 points) Assume the transistor is...
Problem 3 (25 points) Consider a MOS capacitor with p polysilicon gate and p-type silicon substrate with NA 1016 cm3. Ef- Ev in the polysilicon gate. Assume the following parameters: I200A, , 1.5x10°...
Problem 3 (25 points) Consider a MOS capacitor with p polysilicon gate and p-type silicon substrate with NA 1016 cm3. Ef- Ev in the polysilicon gate. Assume the following parameters: I200A, , 1.5x10° cm*,E, -3.9x8.854x104FIcm ox a) (5 points) Calculate the metal-semiconductor work function difference. b) (5 points) Calculate the surface potential at the threshold inversion. c) (5 points) Calculate the depletion width (in μm) at the threshold inversion. d) (5 points) Calculate the flat band voltage. e) (5 points)...
3. Design a n-channel JFET C-S amplifier circuit for the following specifications Voltage Gain input resistance...
3. Design a n-channel JFET C-S amplifier circuit for the following specifications Voltage Gain input resistance Ri-100kΩ Load resistanceR2k2 Given supply voltage VDD 20V Αν--10 Rss is fully bypassed The input source resistance Rs 02, Ipss-8mA and Vp4V Assume RD and R1 but must find R2 and RSS using the given specifications. Find the DC Operating Points values (VGs, ID and VDs) Draw the actual circuit and its ac equivalent circuit
Problem 3: Consider a MOS capacitor maintained at T= 300K with the following characteristics: Assume s 11.9, ox 3.9, 8.85x 10-1 F/cm, and n 1.5 x 1010cm3 Gate material is n poly-silicon Total...
Problem 3: Consider a MOS capacitor maintained at T= 300K with the following characteristics: Assume s 11.9, ox 3.9, 8.85x 10-1 F/cm, and n 1.5 x 1010cm3 Gate material is n poly-silicon Total negative oxide charge of 5x 1011q C/cm . Substrate is n-type Si, with doping concentration 1 x1016 cm-3 Oxide thickness 5 nmm The electron affinity for Si is 4.03eV? e) What is the flat capacitance? f) What is the depletion region width? g) What is the potential...
Problem3: Consider a MOS capacitor maintained at T 300K with the following characteristics: Assume Esi 1.9,x 3.9,8.85 x 10-14 F/cm, and n 1.5 x 1010cm3 . Gate material is n+ poly-silicon . Total n...
Problem3: Consider a MOS capacitor maintained at T 300K with the following characteristics: Assume Esi 1.9,x 3.9,8.85 x 10-14 F/cm, and n 1.5 x 1010cm3 . Gate material is n+ poly-silicon . Total negative oxide charge of 5x 1011q C/cnm2 . Substrate is n-type Si, with doping concentration 1x1016 cm3 Oxide thickness 5 nm . The electron affinity for Si is 4.03eV? a) Draw the band diagram at equilibrium. b) From part (a). What is the substrate (bulk) condition at...
A common source amplifier circuit based on a single n-channel MOSFET is shown in Figure 4b. Assume that the transconductance gm-60 mS (equivalent to mA/ V) and drain source resistance, os,...
A common source amplifier circuit based on a single n-channel MOSFET is shown in Figure 4b. Assume that the transconductance gm-60 mS (equivalent to mA/ V) and drain source resistance, os, is so large it may be neglected. 0) Calculate the open circuit voltage gain Av Yout/ Vis. i) The amplifier has a load of 10 k2. Determine the current gain Va. = 12 V 150k 4k3 Vout Vin 200k GND = 0 V Figure 4b a) State the name...
Transistor parameters cm 1 Po=1V or Hm = 560 gdo cm rn = 0.6V Cio-1.7 m= (bottom) 2 Ln = Lp = 0.25um ½,--0.6V Ciswoー0.4 (sidewall) m vad =2.SI. I0-10-A Q2. (40 pts). For an inverter. Wn-0.36 and WP-0.8μm. (a) Find the switching voltage VM (b) Calculate the values of Rn and Rp (c) We would now like to construct an inverter whose switching voltage is exactly half of the supply voltage. How would vou size the transistors? (d) The...
1. Consider the circuit below a. What is the logic function implemented by the CMOS transistor network? Size the NMOS and PMOS devices so that the output resistance is the same as that of an inverter with an NMOS WIL 4 and PMOS W/L 8 b. What are the input patterns that give the worst case tpHL and tpLH. State clearly what are the initial input patterns and which input(s) has to make a transition in order to achieve this...
Problem 4 (25 points) Consider an n-channel MOSFET at T=300K. Assume: n polysilicon gate, t = 500 A, N = 2x105cm-3,9' =10cm-2 Ox a W = 5 um, L = lum, 4. = 1000m, = 3.9€ , € = 8.854x10 " F/cm Qc is the number of electronic charges per unit area in the oxide a) (10 points) Determine the threshold voltage. b) (5 points) Is the transistor enhancement or depletion mode? Explain. c) (10 points) Assume the transistor is...
Problem 3 (25 points) Consider a MOS capacitor with p polysilicon gate and p-type silicon substrate with NA 1016 cm3. Ef- Ev in the polysilicon gate. Assume the following parameters: I200A, , 1.5x10° cm*,E, -3.9x8.854x104FIcm ox a) (5 points) Calculate the metal-semiconductor work function difference. b) (5 points) Calculate the surface potential at the threshold inversion. c) (5 points) Calculate the depletion width (in μm) at the threshold inversion. d) (5 points) Calculate the flat band voltage. e) (5 points)...
3. Design a n-channel JFET C-S amplifier circuit for the following specifications Voltage Gain input resistance Ri-100kΩ Load resistanceR2k2 Given supply voltage VDD 20V Αν--10 Rss is fully bypassed The input source resistance Rs 02, Ipss-8mA and Vp4V Assume RD and R1 but must find R2 and RSS using the given specifications. Find the DC Operating Points values (VGs, ID and VDs) Draw the actual circuit and its ac equivalent circuit
Problem 3: Consider a MOS capacitor maintained at T= 300K with the following characteristics: Assume s 11.9, ox 3.9, 8.85x 10-1 F/cm, and n 1.5 x 1010cm3 Gate material is n poly-silicon Total negative oxide charge of 5x 1011q C/cm . Substrate is n-type Si, with doping concentration 1 x1016 cm-3 Oxide thickness 5 nmm The electron affinity for Si is 4.03eV? e) What is the flat capacitance? f) What is the depletion region width? g) What is the potential...
Problem3: Consider a MOS capacitor maintained at T 300K with the following characteristics: Assume Esi 1.9,x 3.9,8.85 x 10-14 F/cm, and n 1.5 x 1010cm3 . Gate material is n+ poly-silicon . Total negative oxide charge of 5x 1011q C/cnm2 . Substrate is n-type Si, with doping concentration 1x1016 cm3 Oxide thickness 5 nm . The electron affinity for Si is 4.03eV? a) Draw the band diagram at equilibrium. b) From part (a). What is the substrate (bulk) condition at...
A common source amplifier circuit based on a single n-channel MOSFET is shown in Figure 4b. Assume that the transconductance gm-60 mS (equivalent to mA/ V) and drain source resistance, os, is so large it may be neglected. 0) Calculate the open circuit voltage gain Av Yout/ Vis. i) The amplifier has a load of 10 k2. Determine the current gain Va. = 12 V 150k 4k3 Vout Vin 200k GND = 0 V Figure 4b a) State the name...
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