Sketch Vout at DC as a function of input voltage at DC for-5 V < Vin...
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
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...
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
1. Find the Vin-Vout transfer characteristic for this circuit over the range of -10V <Vin< 10V + Vzk = 5V VIN V=0.7V Vout Vi= 0.7V Fig :1
Vin - 5V, nom (15.02V) Vout = 15V, nom R9 > 10K nok <Pload Boost Switching Regulator Ventri I=0 --> (45.1 ohms) (2.058V) 2.3 R10 5K Vin 5v, nom ZR7 2.2k (5.14V) ET < R1 2.7k (2.947V) Vin = 5V, nom R8 1.2k (2.061V) I=0 UJA TLC272 Da, Db, D3c I=0 --> 1N914 3 diodes in series! 70 D2 (2.421V) ID2? --> 1N914 on the diagram. Using DC measured values, to ground, are shown in these measured values, determine: 1....
Sketch the output Vout of the following circuits as a function of Vin. Mark and expressx- and y- intercepts in terms of parameters given in the drawing. (Hint: voltage divider) Vin Vref-AW R2 Vout VEE Sketch the output Vout of the following circuits as a function of Vin. Mark and expressx- and y- intercepts in terms of parameters given in the drawing. (Hint: voltage divider) Vin Vref-AW R2 Vout VEE
Please answer clearly Determine voltage characteristics (Vout/V) of the circuit shown in Figure 1. Assume: a) Diodes D1 and D2 are ideal. b) Zener diode has r2-0 with the break down voltage of Vz-12 V. 1ΚΩ D1 D2 추 R2 1ΚΩ Vout Figure 1
(25 pts)For the circuit below assuming an ideal diode with a 0.7 V drop (You must fill in the information in the boxes below): a. Sketch Vout VS. Vin- b. When Vin -5V: Determine which diode leg is conducting, the current flowing through the diode, and Vout? c. Find the values in part b when Vin 0.3V? d. Find the values in part b when Vin 3V? R 1-2k, R2 = 6k. R1 R2 D2 Vout DI R2
a) Use the constant voltage drop model for the diode and determine the input / output ratio (Vout x Vin), equations. Vdon = 0.7V, rz = 0Ω, Vz = 3V and R = R1 = R2 = 1000Ω. b) Draw the Vout x Vin graph. Highlight the slope coefficients of the lines and the coordinates of the points where the slope changes occur. D1 D2 DR3 Vin 7R1 Vout 214 22
Vx = Vin 2. (60 points) Plot Vout as a function of Vx for the circuit shown below. Assume a constant voltage diode model. Also plot the Vout as a function of Vx in the circuit assuming Vx Vo sin ot D1 VB