Hello,
Initially i had solved this problem but later, after submission, i found that there was a mistake in the solution.
So, I would like to request Chegg team for not posting this answer to the student at now.
Please circulate this question to the other expert, if possible. Meanwhile I will also try to solve this question from my side.
Sincerely
Hitesh Kumar
Chegg Expert
An engineer wants to design a circuit that has the following input/output voltage characteristics. The variable...
Design a two-port network using diodes (a diode waveform shaping circuit) that would result in the following transfer function. Slope 1 Vi -4.7 V 1.4V Slope Assume you have access to PN junction diodes with VDo 0.7 V and Zener diodes with Vz4V. You can use DC voltage sources and any other circuit elements in your design, but you must use Zener diode(s) in your design.
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
All used in the next circuit diodes are silicon. Zener of diode D2 the voltage is 8 V, the zener voltage of the D4 diode is 5.6 V It is given as. Applied input voltage Vin = 20 sin (ωt) is determined as V. Output of the circuit voltage changes according to the applied voltage of Vin Analyze the circuit and draw it. (Simplified of diode element model will be used.) (I can't analyze. Please explain) R + D D3...
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...
Simulate the output voltage versus input voltage characteristics of a half wave rectifier without capacitor, using DC sweep in ltspice. Pick 1N914 as your diode. The input sweep range is from -5V to 5V, step is 0.01V. Include complete screen shots of schematic and the Vout-Vin curve
3. Analog CKT: Use the following circuit to answer questions from a) to c). (15 points) Vin Vout a) Deal with the circuit below (a) When Vin is positive and the diodes are assumed to be ideal (no drop), Vout is equal to (a)-Vin (b) 0 (c) Vin (d) Vin/ 2 (e)-Vin/ 2 b) If Vin is 5 V and the diodes are assumed to be ideal (no drop), the voltage across the top diode is (a) 0 (b) 2.5...
4. Design a clamp circuit to clamp the negative extreme of a periodic input waveform of 10 sin(100πt)V to −5 V. Use 1 diode, 1 Zener diode, 1 resistor, and 1 capacitor of suitable values. Provide following minimum ratings of the selected components. (a) Diode - Maximum reverse voltage, peak forward current (b) Zener - Zener voltage, Zener current (c) Resistor - Resistance, power rating (d) capacitor - capacitance, Maximum voltage Assume a 0.6 V forward drop for all diodes...
Question 3 a) Following is an incomplete circuit drawing of a full-wave rectifier. Copy the drawing and complete it by placing 4 diodes in the correct locations and orientatıons dc Output 10V b) Briefly describe the function and operation of the resulting circuit. Include an example illustrating an application of this circuit c) St ating any necessary assumptions, what is the instantaneous maximum voltage at the output of the circuit in part a) d) Given a supply of diodes and...
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
1. (35 points) Switch mode DC DC Converters. a. (15 points) Design a flyback DC/DC power converter to the following specifications. Assume ideal components Input Voltage Output Voltage Output Power Switching frequency Maximum Current Ripple in the filter inductor Output ripple voltage: Continuous conduction 170 VDC 12 VDC 40 Watts 750 kHz 1.2 Amps Your answer should include a circuit diagram with each energy storage element labeled with its value. Label the transformer turns ratio. 1. (35 points) Switch mode...