Vx = Vin 2. (60 points) Plot Vout as a function of Vx for the circuit...
Sketch Vout at DC as a function of input voltage at DC for-5 V < Vin < 5V. Assume an ideal silicon diode. R1 10k R2 D1 10k
Sketch Vout at DC as a function of input voltage at DC for-5 V < Vin < 5V. Assume an ideal silicon diode. R1 10k R2 D1 10k
5. (8 points) Assume Vin = 5 sinut (for 0 <<<), ideal diode model and zero initial condition across G. Now, plot the input and output as a function of time on the same plot for each circuit shown below (show every feature and value clearly) Vino th o Vout b) Vin Vout TU c) Vin Ae U i F d) o Var Vina K D BIP are
680 22 W + Vin 1. Ø 470 8} Vo - Lid Vout 0.5 V Complete the table below. Show all work. (20 points) Diode status (on or off) Vout just turning on 4 V Plot Vout as a function of Vin for –5 V < Vin < 5 V. (4 points)
1. Find the ratio of the output voltage to the input voltage, Vo/Vin, in the circuit shown. State your assumptions in using the ideal op-amp model. 15 k2 Vin 2. Find the output voltage Vo in the circuit shown assuming an ideal op-amp. State your assumptions in using the ideal op-amp model 15 k12 Vo . Find the voltage Vx and the output voltage Vo in the circuit shown assuming ideal op-amp 3 k2 1 V 6 kn 12 k2
2. Sketch Vout VS Vin and Vout if Vin-10sin(2TT60t) for each of the following circuits. You may assume that the forward diode drops for the diodes equals zero Vout s v out Vin 5 V Vout out 3. Repeat problem 2 but with forward diode drops equal to 0.7 V 4. What are the primary mechanisms for current flow in a. A forward biased diode. b. A reverse biased diode not in breakdown. c. A reverse biased diode in breakdown...
Please explain everything on how you got the slopes! Write out
all KCL equations if necessary! Thank you!
Problem 2: Find and plot the transfer function Vout vs. Vin for -5<Vin<5V, assuming FBV 0. (20 pts) D1 2V Vout TVin D2
Problem 2: Find and plot the transfer function Vout vs. Vin for -5
Please help
1 ks2 Vinawa - To Vout * D2 S1k2 (i) Using Diode Model C shown below, find the range of input voltage so that D1 is off and D2 is on. (i) Using Diode Model C shown below, find the range of input voltage so that D1 is off and D2 is off. (k) Using Diode Model C shown below, find the range of input voltage so that D1 is on and D2 is off. (1) Sketch Vout...
2. Consider the circuit given below. Plot the magnitude of Vout/Vin for the following frequencies (rad/s): 1000, 2000, 4000, 4470, 5000, 7000. Comment on what makes 4470 rad/s special. (10 pts) Vout 5 mH 10 μF 1Ω in sine
2. Consider the circuit given below. Plot the magnitude of Vout/Vin for the following frequencies (rad/s): 1000, 2000, 4000, 4470, 5000, 7000. Comment on what makes 4470 rad/s special. (10 pts) Vout 5 mH 10 μF 1Ω in sine
For the double diode circuit shown in figure 2-1, answer the following questions. In Figure 2-1 a) (10pts) For the triangular wave input shown (Vin), sketch the output voltage (Vout) using the constant voltage drop model (CVD: Vo-0.7V). Be sure to note the voltage values on the y-axis of your Vout plot and show any equations you used to determine those values ime FEE 334: Spring 2019 Midterm b) (2pts) During the middle of the first time segment (when Vin...