Identify the transfer function / of the RL circuit shown below. Express the transfer function using...
Identify the transfer function 10/; of the RL circuit shown below. Express the transfer function using Wo= RIL. i(t) R ele L O H (@) II = WO j + 1 O H(@) = 1+ Wo O H (0) jo 1+ W0 1 O H(0) = 00 1+.
Identify the transfer function 10/; of the RL circuit shown below. Express the transfer function using Wo= RIL. i(t) R ele L O H (@) II = WO j + 1 O H(@) = 1+ Wo O H (0) jo 1+ W0 1 O H(0) = 00 1+.
Problem 4: /25 For the circuit shown below, use frequency-domain circuit analysis techniques to determine (a) the voltage transfer function Hw) of the circuit; (b) the magnitude response H(o) of the circuit; and (c) the phase response (0) of the circuit. (d) Based on the results of parts (a) - (c), identify the type of filter circuit shown. R L 10000 + + Vout(t)
Consider a causal LTI system implemented as the RL circuit shown below. In this circuit, v(t) is the input voltage. The current i(t) is considered the system output. i(t) R L wwwm v(t) (a) Find the differential equation relating v(t) and i(t). (b) Determine the frequency response of this system (H(jw)). (c) Determine the output it) if v(t) = sin(t), R=10 and L=1. (d) Sketch Bode plot of H (jw) for R=10 and L=1. (e) Determine if the system is...
As shown in the figure, a simple RL circuit (L = 1H) is powered by a 10 V batterey. The initial current in the circuit is zero. (el-0.367 -0.135, -0.049, e---0.018, e'-0.006) R t-0)0 time (sec) Vc (Volt) MW 6.33 8.65 9.51 9.82 9.94 3 4 5 6 7 8 sec.) a) Calculate the time constant of the RL circuit using the graph given above. O b) Calculate VR(t) the voltage across the resistor R. as a function of time....
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,...
Problem 1: /25 For the circuit shown below, use frequency-domain circuit analysis techniques to determine (a) the voltage transfer function Ho) of the circuit; (b) the magnitude response H(o) of the circuit; and (c) the phase response (0) of the circuit. (d) Based on the results of parts (a) - (c), identify the type of filter circuit shown. R + Vin(t) llll L Vout(t)
Find the transfer function H(jω) for the
circuit above as a function of jω. (Leave R and L as variables).
Assume V R to be the output and V S to be the input.
С L RVR(t) vs (t) A. Find the transfer function H(jo) for the circuit above as a function of jaw. (Leave R and L as variables). Assume V to be the output and V to be the input. S R B. Find the Magnitude and Phase...
Problem 2: /25 For the circuit shown below, use frequency-domain circuit analysis techniques to determine (a) the voltage transfer function H(o) of the circuit; (b) the magnitude response H(o) of the circuit; and (c) the phase response (0) of the circuit. (d) Based on the results of parts (a) - (c), identify the type of filter circuit shown. L 10000 + + R Vout(t)
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