# Use fundamental electrical principles to derive a mathematical model for the above circuit?Use fundamental electrical principles to derive a mathematical model for the above circuit? Show how the model can be manipulated into the form of the standard 2nd order transfer function in terms of time constant and damping ratio. Derive subsidiary models for system constants? Apply a 12V input as a step change to the transfer function and convert the result into an expression for Vout in the time domain? For values of R = 100 ? , C = 20 µF and L = 2.0H produce a graph of Vout against time using an appropriate scale to show response time.? , comment on the graph? For the component values given what is the value of peak overshoot and settling time to within 5% of final value?Design a controller using a combination of proportional, Integral or derivative control that you consider appropriate.Click Here For Details on How to Complete this Paper……Need a Professional Writer to Work on this Paper and Give you a 100 % Original Paper? Click Here and Get a Professional Writer to work on this Essay……

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Use fundamental electrical principles to derive a mathematical model for the above circuit?

Use fundamental electrical principles to derive a mathematical model for the above circuit?
Show how the model can be manipulated into the form of the standard 2nd order transfer function in terms of time constant and damping ratio. Derive subsidiary models for system constants?
Apply a 12V input as a step change to the transfer function and convert the result into an expression for Vout in the time domain?
For values of R = 100 ? , C = 20 µF and L = 2.0H produce a graph of Vout against time using an appropriate scale to show response time.? , comment on the graph?
For the component values given what is the value of peak overshoot and settling time to within 5% of final value?
Design a controller using a combination of proportional, Integral or derivative control that you consider appropriate.