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3. In the circuit below, the waveform at right is applied to the upper input. The...
A triangular waveform voltage (shown below to the right) is applied to the following circuit input...
A triangular waveform voltage (shown below to the right) is
applied to the following circuit input terminals. The circuit’s
value of C is 200 nano-farad and the value of R is 47 kilo-ohm. The
output voltage is measured with a high impedance A-to-D converter.
Recalling that such a passive element circuit is a linear-time
invariant system which can be solved with superposition
principles:
a) Determine eout at time = 1.5 milli-second.
b) Determine the time when there is no current...
w A ovo 3. (15 pts) The input Vg to the rectifier circuit on the right...
w A ovo 3. (15 pts) The input Vg to the rectifier circuit on the right is a sinusoidal signal of amplitude 4V, as shown below. Use the 0.7V voltage drop model for the diode. a) Determine the maximum and minimum values of the output voltage V across load resistor RL. b) Determine the conduction angle. c) Determine the percent conduction. 10022 {RL 2002 3. (15 pts) The input to the rectifier circuit on the right is sinusoidal signal of...
The input voltage waveform (Vin) t in is shown below along with the circuit. The voltage-controlled...
The input voltage waveform (Vin) t in is shown below along with
the circuit. The voltage-controlled switch S1 closes when the
output voltage Vc (t) goes positive at t=0 and opens when Vc (t)
goes negative at t=5 µs. Assume that Vin(t) in has been at 10 V for
t<0 for a very long time..
3. (15 marks) The input voltage waveform Vin(t) is shown below along with the circuit. The voltage- controlled switch S, closes when the output voltage...
Problem 3. The circuit, shown below, is composed of four transmission lines, T1, T2, T3, and...
Problem 3. The circuit, shown below, is composed of four transmission lines, T1, T2, T3, and T4. Load impedance connected to the line T3 includes the resistor R1- 100 ohms and the parallel capacitor C1-30 pF. Determine the lengths of the transmission lines T2 (11) and T4 with open end (1 2) to match the impedance observed from the output terminals of the transmission line of TI (point A) to 50 ohms. The frequency, f-100 MHz. Assume air dielectric of...
F LOpoint For the circuit shown in Figure 3 3. 1. Draw the DC equivalent circuit...
F LOpoint For the circuit shown in Figure 3 3. 1. Draw the DC equivalent circuit by opening caps and shorting inductors 2. Analyze the DC equivalent circuit as we have in previous labs (assume a region, analyze and check assumptions). Check your DC operating point using LT Spice. 3. Calculate the small signal parameters (transconductance, output resistance, input resistance) 4. Draw the AC equivalent circuit by shorting de voltage sources, opening dc current sources, shorting caps and opening inductors....
3) Consider the op-amp circuit shown below: V, V. ZF Z, a) Determine the input-output relationship...
3) Consider the op-amp circuit shown below: V, V. ZF Z, a) Determine the input-output relationship in the frequency domain. Ri+ 1/(joC) b) Compute and simplify the voltage transfer function, Vo(o)/V(o) if Z and Zf= 1/(joCr)
input frequency is 125 ms period TC is 125 ms 3. The circuit diagram below shows...
input frequency is 125 ms
period TC is 125 ms
3. The circuit diagram below shows 74LS74 flip-flop connected in toggle mode. Determine the frequency (fout) of the signal at output Q, if the input clock period Tc has the specified value. Show your work. +5V U1A 1 R 5 2 D 74LS74 3 U 4 5 la 6
4. (15 points - PA.3) Consider the RLC circuit shown below, where the input and output...
4. (15 points - PA.3) Consider the RLC circuit shown below, where the input and output x(t) and y(t) are the input voltage vi(t) and capacitor voltage vc(t) respectively, and R = 1 K12, C = 0.1 mF, L = 100 H. i(t) + (i) Determine the frequency response of the system H (jw), as well as its magnitude and phase responses. What type of filter does it correspond to? (ii) Sketch its magnitude and phase response in Matlab. You...
ONLY NEED HELP WITH III and IV PLEASE (e) A second stage, shown in Figure 3, is cascaded directly after the output of the circuit in Figure 1 R4 Figure 3 (i) Show that the combined response of the c...
ONLY NEED HELP WITH III and IV PLEASE
(e) A second stage, shown in Figure 3, is cascaded directly after the output of the circuit in Figure 1 R4 Figure 3 (i) Show that the combined response of the complete circuit is given by: (4 marks) (ii) The two cascaded stages form a bandpass filter, which only amplifies a specific range of frequencies. This range of frequencies is known as the passband. Using the values chosen in (a) for Figure...
Please do 765 Hamad Alrobayan 1dvn the system in Fig 765 with corresponding asymptotic Bode-gain plot. 3 gldB-9 nput amplitude at w2 is A and output amplitude is B. Find B Only one numerical answ...
Please do 765
Hamad Alrobayan 1dvn the system in Fig 765 with corresponding asymptotic Bode-gain plot. 3 gldB-9 nput amplitude at w2 is A and output amplitude is B. Find B Only one numerical answer is required. ans:3 dB, w1-4 rad/sec, w2-12 rad/sec, and A- 3 volts. The system 1 Hamad Alrobayan R4-6 (al1 ohms) and 577) Refer to Figure 577. R1-2 R2-5 R3-9 C1- Fd C2-9 Fd. Determine 9 the transfer function v2 (s)/v1 (s)As/(s 2+Bs+D). Answers: A, B,D....
A triangular waveform voltage (shown below to the right) is
applied to the following circuit input terminals. The circuit’s
value of C is 200 nano-farad and the value of R is 47 kilo-ohm. The
output voltage is measured with a high impedance A-to-D converter.
Recalling that such a passive element circuit is a linear-time
invariant system which can be solved with superposition
principles:
a) Determine eout at time = 1.5 milli-second.
b) Determine the time when there is no current...
w A ovo 3. (15 pts) The input Vg to the rectifier circuit on the right is a sinusoidal signal of amplitude 4V, as shown below. Use the 0.7V voltage drop model for the diode. a) Determine the maximum and minimum values of the output voltage V across load resistor RL. b) Determine the conduction angle. c) Determine the percent conduction. 10022 {RL 2002 3. (15 pts) The input to the rectifier circuit on the right is sinusoidal signal of...
The input voltage waveform (Vin) t in is shown below along with
the circuit. The voltage-controlled switch S1 closes when the
output voltage Vc (t) goes positive at t=0 and opens when Vc (t)
goes negative at t=5 µs. Assume that Vin(t) in has been at 10 V for
t<0 for a very long time..
3. (15 marks) The input voltage waveform Vin(t) is shown below along with the circuit. The voltage- controlled switch S, closes when the output voltage...
Problem 3. The circuit, shown below, is composed of four transmission lines, T1, T2, T3, and T4. Load impedance connected to the line T3 includes the resistor R1- 100 ohms and the parallel capacitor C1-30 pF. Determine the lengths of the transmission lines T2 (11) and T4 with open end (1 2) to match the impedance observed from the output terminals of the transmission line of TI (point A) to 50 ohms. The frequency, f-100 MHz. Assume air dielectric of...
F LOpoint For the circuit shown in Figure 3 3. 1. Draw the DC equivalent circuit by opening caps and shorting inductors 2. Analyze the DC equivalent circuit as we have in previous labs (assume a region, analyze and check assumptions). Check your DC operating point using LT Spice. 3. Calculate the small signal parameters (transconductance, output resistance, input resistance) 4. Draw the AC equivalent circuit by shorting de voltage sources, opening dc current sources, shorting caps and opening inductors....
3) Consider the op-amp circuit shown below: V, V. ZF Z, a) Determine the input-output relationship in the frequency domain. Ri+ 1/(joC) b) Compute and simplify the voltage transfer function, Vo(o)/V(o) if Z and Zf= 1/(joCr)
input frequency is 125 ms
period TC is 125 ms
3. The circuit diagram below shows 74LS74 flip-flop connected in toggle mode. Determine the frequency (fout) of the signal at output Q, if the input clock period Tc has the specified value. Show your work. +5V U1A 1 R 5 2 D 74LS74 3 U 4 5 la 6
4. (15 points - PA.3) Consider the RLC circuit shown below, where the input and output x(t) and y(t) are the input voltage vi(t) and capacitor voltage vc(t) respectively, and R = 1 K12, C = 0.1 mF, L = 100 H. i(t) + (i) Determine the frequency response of the system H (jw), as well as its magnitude and phase responses. What type of filter does it correspond to? (ii) Sketch its magnitude and phase response in Matlab. You...
ONLY NEED HELP WITH III and IV PLEASE
(e) A second stage, shown in Figure 3, is cascaded directly after the output of the circuit in Figure 1 R4 Figure 3 (i) Show that the combined response of the complete circuit is given by: (4 marks) (ii) The two cascaded stages form a bandpass filter, which only amplifies a specific range of frequencies. This range of frequencies is known as the passband. Using the values chosen in (a) for Figure...
Please do 765
Hamad Alrobayan 1dvn the system in Fig 765 with corresponding asymptotic Bode-gain plot. 3 gldB-9 nput amplitude at w2 is A and output amplitude is B. Find B Only one numerical answer is required. ans:3 dB, w1-4 rad/sec, w2-12 rad/sec, and A- 3 volts. The system 1 Hamad Alrobayan R4-6 (al1 ohms) and 577) Refer to Figure 577. R1-2 R2-5 R3-9 C1- Fd C2-9 Fd. Determine 9 the transfer function v2 (s)/v1 (s)As/(s 2+Bs+D). Answers: A, B,D....
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