just need answer 1. For the following circuit, we assume that the diode is ideal, Let...
41) Given the following circuit, determine the voltage across the diode. (Assume ideal silicon diode) [1 mark] a. OV 10 K2 10 k2 b. 4V c. 8V d. 0.7V
For the circuit shown trace Vo Assume ideal diode model. Initial conditions@ t-0 Vin versus time 12 10 RC time constant-lus 4 Vc O -2 -4 -8 -10 -12 0.000 0.250 0.500 0.750 1.000 .250 1.500 1.750 2.000 time (seconds) Vin
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...
ng 3. a) Consider the circuit shown in Fig. 1 below, where the diode is assumed to be ideal. Find the average and RMS values of the output voltage, vo(t). A tua Fig.! VE) = A sin(wt) b) Consider the circuit shown in Fig. 2 below, where the diode is assumed to be ideal. Using your answer to part (a) above and basic properties of inductors in a switching circuit, write down the average value of the output voltage, Vo(t)....
Given the biased diode circuit below answer the following questions. Assume, lD = Is e vd/nUT, n =1, Cb is infinite, and vd = 600mV at 800uA, 50 points 2. VDD 200uA The current through each diode at VaV The small signal ac circuit, The transfer function. a. and voltage Cb Cb and Vc vin vout b. c. Va AC Vc 100uA
Part IIl: Diodes The Ideal-Diode Model a) For the circuit below, find ID and VD for the case VDD 5 V and R 10 k2. Assume that the diode has a voltage of 0.7 V at 1-mA current. Use (a) iteration and (b) the constant-voltage-drop model with VD 0.7 V 홍Yo b) Design the circuit below to provide an output voltage of 2.4 V. Assume that the diodes available have 0.7-V drop at 1 mA. +10 V Vo Part IIl:...
Consider the circuit shown in (Figure 1). Assume that the diodes are ideal. Part ASketch the transfer characteristic v, versus Vin for the circuit shown in (Figure 1). Allow Vin to range from -10 V to +10 V. Plot the points for the values of Vin that are separated by the step ΔVin = 5 V.
5. Op amps can enhance the performance of diode circuits (assume that the op-amps are ideal.). a) (Ipts) An input signal with Vpp =10V and frequency =500Hz is injected into the following circuit given. Determine the output voltage. reset En b) (2pts) When the capacitor is replaced with al0k resistor, draw the output signal (Don't forget to indicate your various scale.). c) (2pts) A diode junction acts as a photodetector: Light creates electron-hole pairs, and therefore a current through the...
5. (10 points) The op amp in the precision rectifier circuit shown is ideal with output saturation levels of = 14 V. Assume that when conducting the diode exhibits a constant voltage drop of 0.7 V, R1 = R2 = R3 =1 k2, and R4 = R5 = 2 k22. Find Vout (in V) when Vs = -2 V? Vout(Vs = -2) = -15V VEE LM348N LM348N 15V VCC
1. Use Eq. 1 to derive an expression for the expected output waveform from an ideal differentiator circuit having input waveform Vin=lsin[(21)1000t] V. Let RF1.5 k12 and C=10 nF. 2. Use Eq. 3 to find the peak-peak output amplitude of the ideal differentiator of question 1 for a 2 Vpp sine wave input at 1 kHz and 2 kHz. Put the results in the Calculated Output column of Table 1 in Appendix A. 3. Use the indefinite integral version of...