From Table 7.2, find the transfer function and the wo. and Q values corresponding to (a)...
Given: Omega pass= 50Khz, Omega stop=150Khz, Alpha max=0.5 dB, Alpha min=40 dB, design a cheb filter. Find: 1.Epsilon 2. n (the degree of the transfer function) 3. Pole values 4. Q value for each stage 5. transfer function
solve full question Consider figure below (a) Show that the transfer function is (b) Determine values so that the circuit realizes a third order (3 dB normalized) Butterworth gain characteristic (denominator since the de gain will be 0.5). DO NOT MATCH numerator coefficients in other words. Find new parameter values of a third order low pass Butterworth filter having the specs of the (c) filter in problem 51 with the capacitor value being given as Cinal1uF 192 2 in out
5.6.1. Find the transfer function corresponding to the block diagram below. 0.2 Y(z) X(z) 0.5
Q-3) ine transfer function of a system nas a zero at s = 1, and poles at s =-2 and 5 = -3. The steady state value of the response to a unit step is -2. a) Find the impulse response of the system. b) Find the response to a unit ramp. c) Find the response to sint. @ Restart to install the latest Wine updates We haven't been able to update device. Leave it on and plugged we'll try...
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
2. Find the state space representation of the system represented by the following transfer function: (s +1.2) (s 15.8) (s +23) s(S 1.3) (s +7.2) (s + 47) G(s)- 3. Find the transfer function of the system with the following state space representation: 1 3.2 1.6 1(01) [-1 e) -7.4 2.4 -9.1l(O You may use your calculator, Matlab, or calculate by hand to find the following transfer functions: G1(s) 0,() R(S) G3(s) s) R(
1. Design a parallel RLC bandpass filter, derive the transfer function H(s). Compute the center frequency, Wo. Calculate the cutoff frequencies Wej and Wc2, the bandwidth ß, and quality factor, Q. Compute values for R and L to yield a bandpass filter with a center frequency of 5kHz and a bandwidth of 200Hz, using a 10nF capacitor. (25 points) 1. Design a parallel RLC bandpass filter, derive the transfer function H(s). Compute the center frequency, Wo. Calculate the cutoff frequencies...
Please show all the steps clearly. Find the system transfer function of a causal LSI system whose impulse response is given by 2. 0.5)"l sin[0.5(n- 2)]u[n - 2] and express the result in positive powers of z. 72-1 h[n] = Hint: The transfer function is just the z-transform of impulse response. However, we must first convert the power of -0.5 from (n - 1) to (n - 2) by suitable algebraic manipulation Find the system transfer function of a causal...
Using the table below, find the Q values for the following reactions. (a) n + 3He --> 3H + 1H + Q MeV (b) n + 6Li --> 3H + 4He + Q MeV (c) 7Li + 1H --> 4He + 4He + Q MeV
3. Consider the transfer function: ls0 (s +0.5(s +2(s +3)(s +4(s+10) (s +3.5) (s +4.5) (s 5.5) (s 6.5)(s +20.5) (a) [6] Find the phase angle (degrees) and gain (in dB, Bode units) for the following frequencies (in rad/sec) rail Gp(ju) dB 0.1 21 56 b) [3 What is the gain crossover frequency for this system? (c) [8] Design a PD controller so that-0.3 ± 0.3] is a pole of the closed-loop system. 3. Consider the transfer function: ls0 (s...