PROBLEM 4. Design a limiting circuit (clipper), to produce the output waveform indicated from the given...
Problem #2: A clipper circuit based on diodes are simple way to modify waveform in mechatronics. Assume that the two diodes shown in the circuit below are ideal diodes. If the input voltage in the circuit is a 1 kHz sinusoid with peak amplitude of 8V, sketch the V..t) 10 k? 10 k? Vin(t ms -8V Page | 1
Clipper Circuit Problems: For each problem, provide a labeled circuit fulfilling the design specifications and sketch in) and vo(t) for two periods of Vin(t). Assume the source voltage Vin(t) 200sin (120rt) 1 Design a circuit with an output vlt, so th at vVot)Vin(t) when -20 V< Vin(t)100 V Vo(t) = 100 V when Vin(t) > 100 V, and Vo(t)-20 V when Vin(t)<-20V Design a circuit with an output Vo(t) so that Vo(t) = 0.5 Vin(t) when-200 V < Vin(t) <...
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
Q.1. (a) For the following clipper circuit, plot the output versus time. The diode in the circuit has piecewise linear parameters Vy = 0.7 V and rf = 10 N (10) VIA R= 100 S2 VI VO 30 V A + 10 V -30 v
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
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...
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...
the problem and it's solution is given please derive the
steps
Problem 4 (30 pts) The input to the circuit of the following Figure is a square wave having a period of 1s, maximum value of 5 V, and minimum value of 0 V. Assume all flip-flops are initially in the RESET state +5 V J J J J K K Q K Input pulse train Output # 1 Output #2 Output #3 Output #4 (1) Explain what the circuit...
digital logic design
4. (10 Points) Draw the output waveform for the following 4-input multiplexer with given input waveforms. S1 SO Y 0 0 IO MUN 0 1 11 SI SO 1 0 12 1 1 Si So 13 G Search or tune TIRI
IV, Laboratory Procedure 1. Construct the circuit of Figure 6.1, measure the current value 2. Construct the circuit of Figure 6.2; measure Vn and v., using the oscilloscope. 3. Construct the circuit of Figure 6.3, measure the value of Io and V 4. Construct the clipper design circuit, Capture the input and output waveforms. 5. Construct your clamper design circuit. Capture the input and output waveforms Figure 6.3 Design a clipper circuit which limits input signals to +3V and -2V....