![he tranyfer esour)/VNS) ] for the network below in the s-domain. transfer function factor& simplijy). (25 pts) a) Find the Tr](http://img.homeworklib.com/questions/b76a3850-c1dc-11eb-ab06-adc83b52ba81.png?x-oss-process=image/resize,w_560)
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he tranyfer esour)/VNS) ] for the network below in the s-domain. transfer function factor& simplijy). (25...
5. Figure 5 shows an electrical network, i) obtain the differential equations of the network and nofind the tran...
5. Figure 5 shows an electrical network, i) obtain the differential equations of the network and nofind the transfer function F(s) show that the same transfer function is obtained 12(s)/Vin(s); ii) Analyse the circuit in the s-domain and R. C i2(t) Vin(t) L Figure 5. Electrical Network 4. Find the transfer function X2(s)/F(s) of the spring-mass system shown in Figure 4. The system moves over a frictionless surface. h M2 M1 Figure 4. A 2 DOF spring-mass system over a...
Questions 11 - 14: For the circuit shown below find the following. 11.) The transfer function...
Questions 11 - 14: For the circuit shown below find the following. 11.) The transfer function H(s) = Vour(s)/Vin(s). 12.) Values of C and L so that the transfer function has poles at s= -10 + 100j. 13.) The current Vour(t) if the initial conditions are zero and Vin(t) = 1(t) V (use C and L from 12). 14.) Plot the step response (found in question 13) over an appropriate time interval using Matlab 10KR 30 ks & +51
1. Consider the circuit shown below. Cl e, (0) c, e。(t) Find the transfer function below using t...
Please help with this dynamics circuit
analysis.
Please show work and explain.
Thank you!!
1. Consider the circuit shown below. Cl e, (0) c, e。(t) Find the transfer function below using time-domain and impedance methods. (a) Determine the differential equation for the relationship between eo(1) and e(1) (b) Find the transfer function E, (s)/E,(s) and determine the system time constant in terms of the circuit element values C, C, and R 17 2 (c) Find the transfer function E, (s)/E,...
0.5 F 20 u(t) v 1H Network for Problem 2 e. Find the s-domain current lab(s),...
0.5 F 20 u(t) v 1H Network for Problem 2 e. Find the s-domain current lab(s), delivered by the network to the RL load connected between terminals ab. f. Find the Transfer Function H(s) considering that the Input is the network voltage source Vs(s), and that the Output is the current lad() of item , immediately above. & Use H(s) to derive the Impulse Response h(t) of the network h. Write an expression for the Output Current lab() exclusively in...
27. (a) The circuit below has transfer function H(s)--out . It is known that L =0.5...
27. (a) The circuit below has transfer function H(s)--out . It is known that L =0.5 H ist andRI = 4 Ω and R2=2Q. (i) Compute the transfer function. (ii) Compute the COMPLETE range of for which the circuit is BIBO stable. R2 out C : 0.25 F. Compute H(s)-out ) Determ ne the complete range of m for which Vin(s) (b) Let R= 2 Ω the circuit is BIBO stable in out mvtt) out
Problem 5: (20 points) Given the following circuit VIN L Vout R a) Write the loop...
Problem 5: (20 points) Given the following circuit VIN L Vout R a) Write the loop equation for the circuit, and then find the transfer function Vout(s) H(S) = Express H(s) so that the coefficient of the s in the denominator is 1. Vin(s) b) If Vin(t) is 20u(t), find out(t). c) If Vin(t) is 20u(t) find the final value using the final value theorem (show your work), d) Assume (R/L) = 10, if the input is Vin(t) = 100...
Exercise 4) Consider the RC network shown, where v(t) is the input voltage and ve(t) is...
Exercise 4) Consider the RC network shown, where v(t) is the input voltage and ve(t) is the circuit output voltage. R is the same for all resistors (4a) Write differential equations of the circuit in terms of the currents. Convert the equa tions to the Laplace domain (5 marks)v(oO 4b) Find the transfer function Ve(s)/V(s) (5 marks) (4c) Using the final value theorem, calculate the steady-state value of ve(t) for an unit step input of u(t), i.e., u(t)-1 V (2.5...
QUESTION #2 PLEASE 1. Derive the transfer function for the circuit shown below. Plot H(s) versus...
QUESTION #2 PLEASE
1. Derive the transfer function for the circuit shown below. Plot H(s) versus frequency in Hertz, on a semilog scale. Ri 11.3 k Ri 22.6 k R R = 68.1 kN R3 C C 0.01 uF R2 Vout(s) Vin(s) C2 10 (s+5) H(s) = (s+100)(s5000) , (a) draw the magnitude Bode plot 2. For the transfer function and find the approximate maximum value of (H(jw) in dB, (b) find the value of w where 1 for w>5...
Answer all questions ELE380: Control Systems I Homework #1 Due: 10/3/2018 1. The circuit of a...
Answer all questions
ELE380: Control Systems I Homework #1 Due: 10/3/2018 1. The circuit of a bridged-T network is shown below. R2 CIC Show that the transfer function of the network is Vo (s)12R,Cs +R,R2C2s Vin(s) 1 (2R1 R2)Cs R,R2C2s2 Sketch the pole-zero diagram when R 0.5, R2 1,C 0.5 (Hint: One way is to start by writing KCL equations in the s-domain for nodes I and 2) 2. A feedback control system has the structure shown below. Determine the...
Find the transfer function G(s) = V.(s)/Vi(s) for the network shown below. For full credit, make...
Find the transfer function G(s) = V.(s)/Vi(s) for the network shown below. For full credit, make sure that all voltages and currents are represented and calculated correctly, that the Laplace transform is correctly applied, that the voltage is correctly computed, and that the transfer function is expressed (either symbolically or in numbers). 192 vi(t) 1Η 112 vo(t) (a)
5. Figure 5 shows an electrical network, i) obtain the differential equations of the network and nofind the transfer function F(s) show that the same transfer function is obtained 12(s)/Vin(s); ii) Analyse the circuit in the s-domain and R. C i2(t) Vin(t) L Figure 5. Electrical Network 4. Find the transfer function X2(s)/F(s) of the spring-mass system shown in Figure 4. The system moves over a frictionless surface. h M2 M1 Figure 4. A 2 DOF spring-mass system over a...
Questions 11 - 14: For the circuit shown below find the following. 11.) The transfer function H(s) = Vour(s)/Vin(s). 12.) Values of C and L so that the transfer function has poles at s= -10 + 100j. 13.) The current Vour(t) if the initial conditions are zero and Vin(t) = 1(t) V (use C and L from 12). 14.) Plot the step response (found in question 13) over an appropriate time interval using Matlab 10KR 30 ks & +51
Please help with this dynamics circuit
analysis.
Please show work and explain.
Thank you!!
1. Consider the circuit shown below. Cl e, (0) c, e。(t) Find the transfer function below using time-domain and impedance methods. (a) Determine the differential equation for the relationship between eo(1) and e(1) (b) Find the transfer function E, (s)/E,(s) and determine the system time constant in terms of the circuit element values C, C, and R 17 2 (c) Find the transfer function E, (s)/E,...
0.5 F 20 u(t) v 1H Network for Problem 2 e. Find the s-domain current lab(s), delivered by the network to the RL load connected between terminals ab. f. Find the Transfer Function H(s) considering that the Input is the network voltage source Vs(s), and that the Output is the current lad() of item , immediately above. & Use H(s) to derive the Impulse Response h(t) of the network h. Write an expression for the Output Current lab() exclusively in...
27. (a) The circuit below has transfer function H(s)--out . It is known that L =0.5 H ist andRI = 4 Ω and R2=2Q. (i) Compute the transfer function. (ii) Compute the COMPLETE range of for which the circuit is BIBO stable. R2 out C : 0.25 F. Compute H(s)-out ) Determ ne the complete range of m for which Vin(s) (b) Let R= 2 Ω the circuit is BIBO stable in out mvtt) out
Problem 5: (20 points) Given the following circuit VIN L Vout R a) Write the loop equation for the circuit, and then find the transfer function Vout(s) H(S) = Express H(s) so that the coefficient of the s in the denominator is 1. Vin(s) b) If Vin(t) is 20u(t), find out(t). c) If Vin(t) is 20u(t) find the final value using the final value theorem (show your work), d) Assume (R/L) = 10, if the input is Vin(t) = 100...
Exercise 4) Consider the RC network shown, where v(t) is the input voltage and ve(t) is the circuit output voltage. R is the same for all resistors (4a) Write differential equations of the circuit in terms of the currents. Convert the equa tions to the Laplace domain (5 marks)v(oO 4b) Find the transfer function Ve(s)/V(s) (5 marks) (4c) Using the final value theorem, calculate the steady-state value of ve(t) for an unit step input of u(t), i.e., u(t)-1 V (2.5...
QUESTION #2 PLEASE
1. Derive the transfer function for the circuit shown below. Plot H(s) versus frequency in Hertz, on a semilog scale. Ri 11.3 k Ri 22.6 k R R = 68.1 kN R3 C C 0.01 uF R2 Vout(s) Vin(s) C2 10 (s+5) H(s) = (s+100)(s5000) , (a) draw the magnitude Bode plot 2. For the transfer function and find the approximate maximum value of (H(jw) in dB, (b) find the value of w where 1 for w>5...
Answer all questions
ELE380: Control Systems I Homework #1 Due: 10/3/2018 1. The circuit of a bridged-T network is shown below. R2 CIC Show that the transfer function of the network is Vo (s)12R,Cs +R,R2C2s Vin(s) 1 (2R1 R2)Cs R,R2C2s2 Sketch the pole-zero diagram when R 0.5, R2 1,C 0.5 (Hint: One way is to start by writing KCL equations in the s-domain for nodes I and 2) 2. A feedback control system has the structure shown below. Determine the...
Find the transfer function G(s) = V.(s)/Vi(s) for the network shown below. For full credit, make sure that all voltages and currents are represented and calculated correctly, that the Laplace transform is correctly applied, that the voltage is correctly computed, and that the transfer function is expressed (either symbolically or in numbers). 192 vi(t) 1Η 112 vo(t) (a)
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