Figure 1(a) and 1(b) show the input and output voltage of a clamper circuit with assumption of an ideal diode.
a. Design a clamper circuit that will produce the output waveform as shown in Figure 1(b).
b. Prove the value of output voltage, Vo for positive cycle and negative cycle of input by calculation.
c. Repeat step 1b by assuming the diode is germanium type and sketch the new output waveform produced by the clamper circuit.
Figure 1(a) and 1(b) show the input and output voltage of a clamper circuit with assumption of an ideal diode.
Problem 1 (25 points) Design a diode clamper circuit to generate the output Vo given the input signal Vi as shown in the figure below: VI Vo A 35 10 5 -20 Design the circuit for two cases: a) (15 points) Vy -0 b) (10 points) V,0.7 V
Problem 1 (20 points) -2+2 sin (3001) and Design a diode clamper circuit that takes the following input signal results in an output voltage Vo =2+2sin(3001). Assume V, -0.7V.
or the following circuit, sketch the output voltage, given an input voltage waveform as shown on the axes below. Assume a constant voltage drop diode model with Vo- 0.7. +15.0V 4 1mA OVout 3009 3 Vo -4 0 0.2 0.4 0.6 0.8 in or the following circuit, sketch the output voltage, given an input voltage waveform as shown on the axes below. Assume a constant voltage drop diode model with Vo- 0.7. +15.0V 4 1mA OVout 3009 3 Vo -4...
QUESTION (2) The diodes are ideal except with an on-voltage of 0.7V. The input voltage source vIN is a 100Hz, 50% duty cycle square-wave with voltage levels of OV and +10V. The load resistance, R = 1002 DL D a) If the ripple voltage, V 0.5V, sketch the output waveform for several input cycles. What is the average DC output voltage vo + D. C R (6 points) Vo VIN b) What would be the minimum value of C (in...
Design a diode waveform shaping circuit that would have the above transfer function. You can use PN junction diodes with VD0 = 0.7 V, DC voltage sources, and resistors in your design. You should indicate the resistor values and the DC voltage sources’ values in your design if you used any resistors or DC voltage sources. You can use Zener diodes with different Vz values if you want, but you do not have to. Write the possible cases of the...
02 +Vo D3 Rgare 18 Circuit for Problem 1 Analysis 1. Copy the circuit of Figure 1.8 and sketch the ow of pesitive curment throughout the entire circuit for o>0. Repeat for n ce 2. Plot two periods of nlt) and s) for each of the thee input wave shown in Figune 17 on page 37 fom output t (a) Feak value, and b) Eflective DC value, also known as RMS value NotTE These and are therefore optional 4. Determine...
24) For the three circuits (a), (b) and (c) shown below, the waveform of input voltage vy is given as shown below. For each circuit, sketch the waveform of output voltage vo for the given input voltage . Label the most positive and most negative output levels. Assume all diodes are ideal (vp- 0) and CR>> T. (10 points) +10 V-- -10 V TI ms (3 points) (b) o- (3 points) 3V (4 points) DH
nde) Figare 18 Circuit for Problem 15 Analysis 1. Plot the input and output vollage wavefoems nlt) and lt) as wel as the capacitor current iclt) for the input wavelorm shown in Fig ure 1.10 on the next page, Assume the capacitoris initially discharged 2 Determine the following numerical descriptors for lf) and iclf (a) Voltage values of t) at times-250, 650, and 960ms. (b) Peak capacitor current t Discass the relationship between the plots of the capacitor current ic(t)...
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
done on pspice thank you Part IV: Diode Rectifiers Procedure: 1. Build the circuit model for full-wave diode rectifier in PSpice as shown in Fig. 4. The value of the load resistor is 10 k22. The input AC voltage source (VSIN in PSpice) is configured at 100 Hz and 20 V (peak-to- peak) in sinusoidal waveform. O 10K V.(t) V(A) A Figure 4. Circuit configuration for full-wave diode rectifier 2. Run the simulation and save the input and output voltage...