Problem 2: Sketch the output voltage waveform for each of the following circuits showing clearly the...
1. For the 4 circuits shown below, sketch the output waveform for a 1V peak, 1kHz, sinusoidal wave in put signal. Assume the diodes are ideal and they exhibit ON-OFF switch model behaviour. Create an ideal diode model in LT-Spice with the following specification [.model IdealDiode D(Ron=0.1m Roff=100G Vfwd-0.0) ] simulate the circuit and verify the output waveform. Vin Vout Vin Vout 1k 1k (a) (b) 1k Vin 1k Vin Vout Vout ww 1k (c) (d) KH 1. For the...
2. Diode circuits and output waveforms. (a) Sketch the output waveforms expected when a 100Hz, 6Vp sine wave is applied to each of the circuits shown. Label important voltage levels and time values. Your plots should be large enough, at least 4 to 6 inches on a side, and semi-quantitative to represent accurately the output waveform. Note: the input signal is ap- plied to the left side of the circuit and the output taken from the two terminals on the...
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
Question 5: Sketch the output waveform V, and calculate the hysteresis voltage Vy for the following circuit a) +15 V 10 sin ot Volto VO -15 V R2 R w 10 kΩ 30 kΩ b) If the 10 k 2 resistor in (a) above is not grounded, but is instead connected to DC voltage source of +7V, sketch V, and calculate the new value of V.
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...
2. Sketch Vout VS Vin and Vout if Vin-10sin(2TT60t) for each of the following circuits. You may assume that the forward diode drops for the diodes equals zero Vout s v out Vin 5 V Vout out 3. Repeat problem 2 but with forward diode drops equal to 0.7 V 4. What are the primary mechanisms for current flow in a. A forward biased diode. b. A reverse biased diode not in breakdown. c. A reverse biased diode in breakdown...
Sketch the output Vout of the following circuits as a function of Vin. Mark and expressx- and y- intercepts in terms of parameters given in the drawing. (Hint: voltage divider) Vin Vref-AW R2 Vout VEE Sketch the output Vout of the following circuits as a function of Vin. Mark and expressx- and y- intercepts in terms of parameters given in the drawing. (Hint: voltage divider) Vin Vref-AW R2 Vout VEE
Department of Engineering TechnologY 3. For the circuit shown below: (10 pts) ETEE 2320 Circuits &Systems (E-Tech I) Final, 5/8/19 Ri (a) Calculate the output voltage Van at f, resonant 20 0 200 V RMS Vout Redon Winding R 11.25 ma (b) Calculate Q filter Quality factor and BW bandwidth (c) Draw the V vs f response showing voltage as 100% and 70.7 % of the output values, indicate Bw. 100% Vout 70.7% Vout 4. For each transformer (trf) shown...
Consider the circuits below with ideal diodes, R = 2 ks, C = 1 uF, and Vbi = VB2 = 3 V. (a) Calculate the current through D, and the output voltage for vin1 = 5 V (i.e. constant). (b) Calculate the current through D, and the output voltage for Vin2 = 5 V (i.e. constant). (c) Find the maximum and minimum values of the output voltage vouti(t) when the input voltage Vini(t) is a 10-V peak-to-peak sinusoids with zero...
1) Calculate the closed-loop voltage gain ACL for the given circuit. 2) Calculate the output voltage Vout in the circuit. (VPP) Required information In the circuit below: Ri = 7.5 k2 and RF = 82 k12. SR = 0.5 V/us Avol = 100,000 RE Zout/OL) = 7502 funity = 1 MHz WW R +15 V 741 + ) Vin = 1 VP-P Vout -15 V