Realize H(s) by canonic direct, series, and parallel forms.
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Realize H(s) by canonic direct, series, and parallel forms.
(8+1)2(+2)(8+3)
3. Realize the system from problem 2 using Direct Form II. + H(s) = s® + s2 +6s10 + 10
Please provide detailed steps. Thank You!!
Problem 2:
3. Realize the system from problem 2 using Direct Form II. + H(s) = s® + s2 +6s10 + 10
3. Realize the system from problem 2 using Direct Form II.
+ H(s) = s® + s2 +6s10 + 10
For the series-parallel RL circuit shown below, determine: Total impedance in rectangular and phasor forms Find...
For the series-parallel RL circuit shown below, determine: Total impedance in rectangular and phasor forms Find current passing through each components Find both voltages across the resistor and Inductors
f(t) -S -8 -7 -3 --1 3 5 1 2 13 4 7 8 9 12...
f(t) -S -8 -7 -3 --1 3 5 1 2 13 4 7 8 9 12 t(ms 15 16 4. For the above periodic signal f(t), specify the symmetry (if any) and determine all coefficients as well as the value for w, so as to find the Fourier series representation of f(t) in the following forms. (24 pts) GO A. f(t) = a + ancos(not) + b sin(nw.t): B. f(t) = R-Cneinwor. n=1 Type A
1. Use the formulas for series and parallel equivalent resistances (H&H p. 5, Eqs. 1.3 and...
1. Use the formulas for series and parallel equivalent resistances (H&H p. 5, Eqs. 1.3 and 1.4) to calculate the cquvalcut rsısiantTS 14, 1/? aud 14 Usung the l'oiaiaou แ1129 to İll.licate a parallel connection of two resistances, you should be able to see that R3- R(2R)R2 and if you were to keep adding additional resistors to the ladder, Rn+1-(2R)|Rn. Look carefully at your results: what do you guess Rio would be, roughly? (Don't work it out, just make a...
(8%) Problem 9: A combination of series and parallel connections of capacitors is shown in the...
(8%) Problem 9: A combination of series and parallel connections of capacitors is shown in the figure. The sizes of these capacitors are given by the follow data: C2-3.7 uF C4-2.9 uP Co 13.5 H C4 2 Otheexpertta.com ▲ Find the total capacitance of the combination of capacitors in microfarads. Grade Summary Potential 100%
1) 2) In the circuit shown, is R1 in parallel, series , or in no simple...
1)
2)
In the circuit shown, is R1 in parallel, series , or in no simple relations to R2? R R R3 R1 is in series with R2 R1 is in parallel with R2 R1 is neither in series nor in parallel with R2 The figure shows a current-carrying loop of wire andthe magnetic field in the middle of the loop. In which direction does the current flow? BV Clockwise Counterclockwise Neither
ELT 103 Final Exam Spring 2019 1. A series-parallel circuit is: a. typically combination of series banks and parallel strings c always a combination of series banks in parallel e. always a combinatio...
ELT 103 Final Exam Spring 2019 1. A series-parallel circuit is: a. typically combination of series banks and parallel strings c always a combination of series banks in parallel e. always a combination of parallel banks in series. d. usually a combination of series strings and parallel banks. 2. When analyzing resistance in a series-parallel circuit, you start: a. anywhere in the circuit. / b. at the source. c. at the farthest resistor from the source. d. in any parallel...
4. Block Diagrams (a) Consider a causal LTI system with transfer function H(s)2 Show the direct-form block diagram of Hi(s) (b) Consider a causal LTI system with transfer function 2s2 +4s -6 H(s)- Sh...
4. Block Diagrams (a) Consider a causal LTI system with transfer function H(s)2 Show the direct-form block diagram of Hi(s) (b) Consider a causal LTI system with transfer function 2s2 +4s -6 H(s)- Show the direct-form block diagram of Hi(s) c) Now observe that to draw a block diagram as a cascaded combination of two 1st order subsystems. d) Finally, use partial fraction expansion to express this system as a sum of individual poles and observe that you can draw...
3 +3 Consider the following TF G(s) - 13 l. Realize a state space(s)formulation using MATLAB. The...
3 +3 Consider the following TF G(s) - 13 l. Realize a state space(s)formulation using MATLAB. Then use Forward EueriFE) to compute the discrete SS for the system, choose Ts 0.1 Then find the TF of the discrete SS system description. Use FE directly on G(s) to arrive at a discrete TF, G(z). Realize the discrete TF in SS Are the two discrete TF from part 1 and 2 the same? What about the ss formulations? Comment on your observations....
1. Are the two capacitors shown in the circuit in series, or in parallel? a)Parallel b)...
1. Are the two capacitors shown in the circuit in series, or in
parallel?
a)Parallel
b) Series
2. Calculate the equivalent capacitance between points A and B
for the circuit shown. All the capacitors are 17 μF each. Give your
answer in μF.
3. In an R-C circuit the resistance is 171 Ω and Capacitance is
40 μF, what will be the time constant? Give your answer in
milliseconds.
4. The time constant of an RC circuit is the time...
Please provide detailed steps. Thank You!!
Problem 2:
3. Realize the system from problem 2 using Direct Form II. + H(s) = s® + s2 +6s10 + 10
3. Realize the system from problem 2 using Direct Form II.
+ H(s) = s® + s2 +6s10 + 10
For the series-parallel RL circuit shown below, determine: Total impedance in rectangular and phasor forms Find current passing through each components Find both voltages across the resistor and Inductors
f(t) -S -8 -7 -3 --1 3 5 1 2 13 4 7 8 9 12 t(ms 15 16 4. For the above periodic signal f(t), specify the symmetry (if any) and determine all coefficients as well as the value for w, so as to find the Fourier series representation of f(t) in the following forms. (24 pts) GO A. f(t) = a + ancos(not) + b sin(nw.t): B. f(t) = R-Cneinwor. n=1 Type A
1. Use the formulas for series and parallel equivalent resistances (H&H p. 5, Eqs. 1.3 and 1.4) to calculate the cquvalcut rsısiantTS 14, 1/? aud 14 Usung the l'oiaiaou แ1129 to İll.licate a parallel connection of two resistances, you should be able to see that R3- R(2R)R2 and if you were to keep adding additional resistors to the ladder, Rn+1-(2R)|Rn. Look carefully at your results: what do you guess Rio would be, roughly? (Don't work it out, just make a...
(8%) Problem 9: A combination of series and parallel connections of capacitors is shown in the figure. The sizes of these capacitors are given by the follow data: C2-3.7 uF C4-2.9 uP Co 13.5 H C4 2 Otheexpertta.com ▲ Find the total capacitance of the combination of capacitors in microfarads. Grade Summary Potential 100%
1)
2)
In the circuit shown, is R1 in parallel, series , or in no simple relations to R2? R R R3 R1 is in series with R2 R1 is in parallel with R2 R1 is neither in series nor in parallel with R2 The figure shows a current-carrying loop of wire andthe magnetic field in the middle of the loop. In which direction does the current flow? BV Clockwise Counterclockwise Neither
ELT 103 Final Exam Spring 2019 1. A series-parallel circuit is: a. typically combination of series banks and parallel strings c always a combination of series banks in parallel e. always a combination of parallel banks in series. d. usually a combination of series strings and parallel banks. 2. When analyzing resistance in a series-parallel circuit, you start: a. anywhere in the circuit. / b. at the source. c. at the farthest resistor from the source. d. in any parallel...
4. Block Diagrams (a) Consider a causal LTI system with transfer function H(s)2 Show the direct-form block diagram of Hi(s) (b) Consider a causal LTI system with transfer function 2s2 +4s -6 H(s)- Show the direct-form block diagram of Hi(s) c) Now observe that to draw a block diagram as a cascaded combination of two 1st order subsystems. d) Finally, use partial fraction expansion to express this system as a sum of individual poles and observe that you can draw...
3 +3 Consider the following TF G(s) - 13 l. Realize a state space(s)formulation using MATLAB. Then use Forward EueriFE) to compute the discrete SS for the system, choose Ts 0.1 Then find the TF of the discrete SS system description. Use FE directly on G(s) to arrive at a discrete TF, G(z). Realize the discrete TF in SS Are the two discrete TF from part 1 and 2 the same? What about the ss formulations? Comment on your observations....
1. Are the two capacitors shown in the circuit in series, or in
parallel?
a)Parallel
b) Series
2. Calculate the equivalent capacitance between points A and B
for the circuit shown. All the capacitors are 17 μF each. Give your
answer in μF.
3. In an R-C circuit the resistance is 171 Ω and Capacitance is
40 μF, what will be the time constant? Give your answer in
milliseconds.
4. The time constant of an RC circuit is the time...
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