please solve the following (simple steps): Q1) i ii iii and Q2) i ii For the circuit shown: XSC1 XFG1 P 1 2 3 4 2 100mH 20% 10k Key A 100nF 0 1) Find equations (step response) for both vc and i f...
For the circuit shown: XSC1 XFG1 P 1 2 3 4 2 100mH 20% 10k Key A 100nF 0 1) Find equations (step response) for both vc and i for the following cases: i. ii, iii. R= 12%, R 20%, and R:-29%. 2) Using a square wave with a frequency of 200 Hz and 2-Vpp, simulate the relationship betwee the input, vi, and the output, v3, for the three cases in task (1). i. Obtain a printout (two periods) for the simulation of each case, and i. Using MATLAB, plot the results of vc of task (1), and compare them to task (2-i). 3) Using a sinusoidal wave with a frequency of 1.0 kHz and 2-Vpp, simulate the relationship between the input, vi, and the output, va, for the three cases in task (1): i. Calculate the amplitude ratio vs/vi for each case, ii. Calculate the time-delay between, vi and vs for each case, and ii. Obtain a printout (two periods) for the simulation of each case.
For the circuit shown: XSC1 XFG1 P 1 2 3 4 2 100mH 20% 10k Key A 100nF 0 1) Find equations (step response) for both vc and i for the following cases: i. ii, iii. R= 12%, R 20%, and R:-29%. 2) Using a square wave with a frequency of 200 Hz and 2-Vpp, simulate the relationship betwee the input, vi, and the output, v3, for the three cases in task (1). i. Obtain a printout (two periods) for the simulation of each case, and i. Using MATLAB, plot the results of vc of task (1), and compare them to task (2-i). 3) Using a sinusoidal wave with a frequency of 1.0 kHz and 2-Vpp, simulate the relationship between the input, vi, and the output, va, for the three cases in task (1): i. Calculate the amplitude ratio vs/vi for each case, ii. Calculate the time-delay between, vi and vs for each case, and ii. Obtain a printout (two periods) for the simulation of each case.