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3) In the circuit shown assume constant battery model, Plot Vo versus Vi, for -5V<Vi<5V. At...
3. (a) Plot Vo versus Vi for 0<Vi<15V. Assume lr0.7V. (b) Plot id over the same range of input voltage. (c) Compare (a) and (b) with MultiSim simulation. R1 1 k Vi Vo D1 DIODE R2 1 k R3 2k 15V
.65 Consider the circuit of Fig. P3.21 with a zener diode connected in place of the pn junction diode. If VzK = 5 V, plot the voltage uz versus the voltage VB over the range-12V < VO < 12V.
For the circuit shown below, a) Determine the transfer function vo/vi b) Plot lVolvil versus ω c) Find the cutoff frequency, n. Vi C=40pF
Q.1. (a) For the following clipper circuit, plot the output versus time. The diode in the circuit has piecewise linear parameters Vs = 0.7 V and 1= 10 (10) R=1002 w DI VO 30 V + 10 V -30 vf (b) Sketch the output voltage V, versus time for the following circuit with the input voltage shown. Assume V = 0 and assume the RC time constant is large. (15) VA -H VO 20 V с Vg=5V = -20 V
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
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
3. See the circuit shown in Figure 3. Assume the constant voltage drop model i.e. V;= 0.7 V) for the diode. If needed, reasonably assume diode parameters such as n. Vr, and I (a) When Vi = 3 V, V -3V, R = Rs. 2 k 2. R = R-1 kb, find the resulting diode voltage (Us), and diode current (60) (5 pts)
Plot the output for each circuit, assuming the constant voltage drop model (CVD) for the diode. (B) Full-wave rectifier: D2 Di Vi = 5V, sin(2π 103 t) D3 D4
The parameters in the circuit shown in the figure are Ri = 0.1 Ω ala =0.8 Ω, R2 = 24 Ω, wla = 32 Ω, and VL = 200 +jo V (Figure 1) ▼ Part A Calculate the phasor voltage V Enter your answer using polar notation. Express argument in degrees Figure < 1of1 Submit Request Answer Part B Connect a capacitor in parallel with the inductor, hold Vi, constant, and adjust the capacitor until the magnitude of is a...
Question 6. (3 marks) Consider the relaxation oscillator circuit shown in Figure 4. Find the time period of the output (which is the output of the op-amp). Assume that the voltage drop across a forward biased diode is negligible. R ? R C = 6 micro-Farad + R= 2 k-Ohm V = 7 volt R1 = 2 k-Ohm R2 = 6 k-Ohm Selected Answer: Correct Answer: 52.7 + 0.5% 52.7 + 0.5% > R2 HHwwKG Figure 4: Circuit for Question...