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Q1. Write the transfer function for the following circuit. r(1) Current RS 13 c un) source...
Figure 2 shows a feedback amplifier circuit. Rs is the source resistor and R, is the...
Figure 2 shows a feedback amplifier circuit. Rs is the source resistor and R, is the load resistor RS Vs VI RL OPAMP R2 R1 RM R3 R4 Step 1: open-loop and closed-loop circuits identification 1.1 Identify the source, the load, and the closed-loop amplifier 1.2 Identify the open-loop amplifier (**A" eireuit) and the feedback network (B" eircuit) in the closed-loop amplifier 1.3 Identify the connection type between the "A" circuit and the "B" circuit at both the input and...
Consider the circuit of Figure 1. The voltage source vs and resistance Rs comprise a circuit model of a function genera...
Consider the circuit of Figure 1. The voltage source vs and
resistance Rs comprise a circuit model of a function generator.
1. Find the circuit time constant ? for t?0. Assuming that the
capacitor is initially uncharged, find and accurately sketch vR(t)
and vC(t) for t?0. Calculate vR(t) and vC(t) for t = 0, ?, 2?, 3?,
4?, and 5? seconds.
2. Find the 10-90% rise time of vC(t) (this is the time required
for vC(t) to transition from 10%...
A differential amplifier with a constant current source is shown. The circuit parameters are: Vec =...
A differential amplifier with a constant current source is shown. The circuit parameters are: Vec = Vee = 5 V, R. = 1 ks, R1 = 9.3 K9, Rc = 5 k-2, VBE = 0.65 V, and B = 100. Voc Find: a) b) c) d) Ici and le Vcel and Vce. The differential-mode and common-mode gains. The common-mode -rejection-ratio in decibels. RC 2858 RC Vot Va . RS R Q1 Q2 Vs Vs R Ica . La VIE
Q1 a) A parallel resonant RLC circuit is driven by a current source is = 20...
Q1 a) A parallel resonant RLC circuit is driven by a current source is = 20 cos(wt) x10-3A and shows a maximum response of 8 V at w = 1000 rad/s and 4V at w = 897.6 rad/s. Determine the value of passive components R, L and C. (15 Marks) b) The concept of resonance applies in several areas of science and Engineering. Resonance occurs in any circuit that has at least one inductor and one capacitor. Explain the condition...
Q1) Design an operational amplifier circuit that give the transfer function of the a first order...
Q1) Design an operational amplifier circuit that give
the transfer function of the a first
order system:
G(s) = 100/s + 100
Q2)Assuming the reduced transfer function fo the
closed loop system is given as the
following, find the value of K that makes the system has a percent
overshoot of 15% ? Transfer function is the attached in the
figure
In the circuit shown below & = 71.0 V, Rs 4.000, Ry - 2.00 R -...
In the circuit shown below & = 71.0 V, Rs 4.000, Ry - 2.00 R - 2.20 n,is - 8,90 A1 - 6.60 A, and I, - 11.4 A. Find the current through R, and Ry, and the values of the resistors R, and R 13 - A R- n w 1 www. RS
Am (t) → volt) Figure Q1 R = 10, L = H, C = F Q1(a)...
Am (t) → volt) Figure Q1 R = 10, L = H, C = F Q1(a) [2 marks] The transfer function for the circuit in Figure V.(s)__ LC Vin(5) sz+s+ + Form the corresponding differential equation that governs the behaviour of the system Q1(b) [4 marks] Determine a state-space representation for the circuit in Figure Q1 with the states selected as x;(6) v.) and x2(t) = 1,t). Show that it is equal to the following 408 J18+) y(t) = [1...
Q1, pease help asap, please write clearly. Thanks in advance. 1. Given the transfer function of...
Q1, pease help asap, please write clearly. Thanks in
advance.
1. Given the transfer function of the control system. (60%) G(s) S) 5s+13 R(s) +6s+13 Y (1) Sketch the state diagram in the form of signal flow graph. (2) Find the state equations. (3) Find the output equation. (4) Find the fundamental matrix 2(t). (5) Find the state-transition matrix D(t) (6) Find the state vector x(t) if the input r(t) 2 and y(0)= (0) = 0 .
1. Given the...
b) For the circuit shown in Figure Q1(b) below, the voltage source is 18 V. Determine...
b) For the circuit shown in Figure Q1(b) below, the voltage source is 18 V. Determine Vo, Voz and /. [CO2/PO3/C4] (10 marks) Vo1 0.47 k 1 ka Vo2 Si 18 V Si Figure Q1(b) For the circuit shown in Figure Q1(b) below, the voltage source is 18 V. Determine b) Vot, Voz and / [CO2/PO3/C4] (10 marks) Vof 1 ka 0.47 kn Vo2 ZSI 18 V Figure Q1(b) ) Figure Q1(c) shows a basic voltage regulator circuit. Determine Vi,...
(50 pts) For the following circuit, solve for R, Ra, Rs, R, and Rs given the...
(50 pts) For the following circuit, solve for R, Ra, Rs, R, and Rs given the specified voltages and current. The values of R will be 600Ω. 1000Q, 5000Q, or 10K. Remember that tolerance will be a factor in your calculations. 4. 0.00311A 500 Ω 600 Ω R1 Ω O Node 1-17.03 V 5,000 Ω 10 kΩ R2Ω Node 2-10.81 V R3 Ω 36 V 600 Ω 1ΚΩ Node 3-7.78 V Node 4 -4.95 V , 600 Ω O Node...
Figure 2 shows a feedback amplifier circuit. Rs is the source resistor and R, is the load resistor RS Vs VI RL OPAMP R2 R1 RM R3 R4 Step 1: open-loop and closed-loop circuits identification 1.1 Identify the source, the load, and the closed-loop amplifier 1.2 Identify the open-loop amplifier (**A" eireuit) and the feedback network (B" eircuit) in the closed-loop amplifier 1.3 Identify the connection type between the "A" circuit and the "B" circuit at both the input and...
Consider the circuit of Figure 1. The voltage source vs and
resistance Rs comprise a circuit model of a function generator.
1. Find the circuit time constant ? for t?0. Assuming that the
capacitor is initially uncharged, find and accurately sketch vR(t)
and vC(t) for t?0. Calculate vR(t) and vC(t) for t = 0, ?, 2?, 3?,
4?, and 5? seconds.
2. Find the 10-90% rise time of vC(t) (this is the time required
for vC(t) to transition from 10%...
A differential amplifier with a constant current source is shown. The circuit parameters are: Vec = Vee = 5 V, R. = 1 ks, R1 = 9.3 K9, Rc = 5 k-2, VBE = 0.65 V, and B = 100. Voc Find: a) b) c) d) Ici and le Vcel and Vce. The differential-mode and common-mode gains. The common-mode -rejection-ratio in decibels. RC 2858 RC Vot Va . RS R Q1 Q2 Vs Vs R Ica . La VIE
Q1 a) A parallel resonant RLC circuit is driven by a current source is = 20 cos(wt) x10-3A and shows a maximum response of 8 V at w = 1000 rad/s and 4V at w = 897.6 rad/s. Determine the value of passive components R, L and C. (15 Marks) b) The concept of resonance applies in several areas of science and Engineering. Resonance occurs in any circuit that has at least one inductor and one capacitor. Explain the condition...
Q1) Design an operational amplifier circuit that give
the transfer function of the a first
order system:
G(s) = 100/s + 100
Q2)Assuming the reduced transfer function fo the
closed loop system is given as the
following, find the value of K that makes the system has a percent
overshoot of 15% ? Transfer function is the attached in the
figure
In the circuit shown below & = 71.0 V, Rs 4.000, Ry - 2.00 R - 2.20 n,is - 8,90 A1 - 6.60 A, and I, - 11.4 A. Find the current through R, and Ry, and the values of the resistors R, and R 13 - A R- n w 1 www. RS
Am (t) → volt) Figure Q1 R = 10, L = H, C = F Q1(a) [2 marks] The transfer function for the circuit in Figure V.(s)__ LC Vin(5) sz+s+ + Form the corresponding differential equation that governs the behaviour of the system Q1(b) [4 marks] Determine a state-space representation for the circuit in Figure Q1 with the states selected as x;(6) v.) and x2(t) = 1,t). Show that it is equal to the following 408 J18+) y(t) = [1...
Q1, pease help asap, please write clearly. Thanks in
advance.
1. Given the transfer function of the control system. (60%) G(s) S) 5s+13 R(s) +6s+13 Y (1) Sketch the state diagram in the form of signal flow graph. (2) Find the state equations. (3) Find the output equation. (4) Find the fundamental matrix 2(t). (5) Find the state-transition matrix D(t) (6) Find the state vector x(t) if the input r(t) 2 and y(0)= (0) = 0 .
1. Given the...
b) For the circuit shown in Figure Q1(b) below, the voltage source is 18 V. Determine Vo, Voz and /. [CO2/PO3/C4] (10 marks) Vo1 0.47 k 1 ka Vo2 Si 18 V Si Figure Q1(b) For the circuit shown in Figure Q1(b) below, the voltage source is 18 V. Determine b) Vot, Voz and / [CO2/PO3/C4] (10 marks) Vof 1 ka 0.47 kn Vo2 ZSI 18 V Figure Q1(b) ) Figure Q1(c) shows a basic voltage regulator circuit. Determine Vi,...
(50 pts) For the following circuit, solve for R, Ra, Rs, R, and Rs given the specified voltages and current. The values of R will be 600Ω. 1000Q, 5000Q, or 10K. Remember that tolerance will be a factor in your calculations. 4. 0.00311A 500 Ω 600 Ω R1 Ω O Node 1-17.03 V 5,000 Ω 10 kΩ R2Ω Node 2-10.81 V R3 Ω 36 V 600 Ω 1ΚΩ Node 3-7.78 V Node 4 -4.95 V , 600 Ω O Node...
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