Solve the following in a clear, concise manner. Show full solutions. 1. Find the Transfer Function...
3. For the active filter circuit below, complete the following: a) Find the magnitude of the transfer function | H | starting from the nodal equations. b) Find the phase shift of the transfer function (W) c) Find the cutoff frequency fc in Hz d) Is this a high pass or low pass filter? e) Find the passband gain of the filter 62 k2 ANA EVA 22 nF 3.3k f) Given the following input signal: vi(t) = 1.0 sin(2nft +...
Please show all the steps and solve with CLEAR handwriting. 1) Below given transfer function equations, use this equations and build its block diagram: C1(s)= Gui(s) R1(s)+ G12(s)R2(s)
Please solve problem 4.5-2 ( a,b, and c) and be clear when you write by your hand. Problems Figure P.4.5-2 HI(f) ed 0.5 f, MHz 1.496 1.499 1.5 1.501 Figure P.4.5-3 Bandpass filter l us shoWn in Hz. Fig. P4.5-1. The carrier frequency is fe 10 kHz and the baseband signal bandwidth is 4k Find the corresponding transfer function of the equalizer filter Ho) shown in the receiver Fig. 4.21. Hint: Use Eq. (4.25). Figure P.4.5-1 H,(o) 0 9 10...
Given this block diagram, find the transfer function H( (5 points) 2f 1/2 41 3f
Simplify the following block diagram. Obtain the transfer function from R to C for Fig. 1, and the transfer function from X(s) to Y(s) for Fig. 2.Convert the block diagram of figures 1 and 2 to a signal flow graph.Below are the diagrams:
Will thumbs up if completed. Please show all work and have clear images, thank you. 2. (i) Find the energy and the average power of the following signals. Also, state whether each signal is an energy or a power signal. (Remember: you need to give three answer to each signal: its energy, average power and its classification). (12 points) a. X[n] = eja/4n b. x[n] = 2-In (ii) Determine whether the following signals are periodic or not. If the signals...
1. Find the following transfer function Io(t) and Is(t) are output and input respectively. transfer function H(s) n+ 1 (0.1*n+0.2) L + + vs ☺ 0.5 F n+ 2 s 1 a) Find Transfer function (assuming initial conditions are zero) H(s) = 1(s)/V; (s) b) Explain the system stability
Question 1 a) Define the term transfer function in relation to a linear control system. [5 marks] Figure Q1 shows a block diagram of a feedback control system, with a plant with transfer function G(s) , a controller with transfer function C(s) , and a sensor with transfer function H(s) . b) Derive from first principles the closed loop transfer function G (s) cl from the reference signal r(t) , to the output signal y(t) . [5 marks] c) Give...
5. A milling machine has the following open-loop transfer function: (s 1)(s+3) Draw a block diagram describing a negative feedback system that includes a plant a) with transfer function of Gi(s) and a cascade proportional controller with a gain of K. b) Write the closed-loop transfer function for such a negative feedback system c The plant has poles that are solutions to P(s) 0 and zeros that are the solutions to Z(s)-0. Write an equation involving K, P(s) and Z(s)...
Please explain and show the steps very clear, also solve all a, b and c. thank you, Please consider the cireuit shown below R. fl) C-4 a. Please fmd the transfer function from the input fe) to the output (). Please leave your answer in terms of R. (10 points) t y(t). Please leave b. Please design R so that impulse response has the form h(t) -Ae-* +Be-qt, i.e. it contains a decaying exponential term proportional to e-3. Also, please...