I'm not sure how to use plot to display the mag of the amplitude
Homework Answers
![1. Bode plot for given function Bode Diagram 20 15 10 -5 91 90.5 90 89.5 89 10 10 Frequency (radisec) 2. MATLAB function is for bode plot -bode 4. in MATLAB %% H(s)=s given transfer function >> %% programme >> g-tf([10],[1]); %%g is variable, tf represents Transfer Function, [10] represents numerator coefficients, [1] represents denominator coefficients bode(g) 5. Screenshot of program >> %% H(s)=s given transfer function %% programme getf(t1 o1, 1) bode (g)](http://img.homeworklib.com/questions/88bd49c0-b960-11ea-abb0-3351de709b95.png?x-oss-process=image/resize,w_560)
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I'm not sure how to use plot to display the mag of the
amplitude
.Generate Bode...
I really confused as to how I am supposed to do bode approximations? For the following...
I really confused as to how I am supposed to do bode
approximations?
For the following transfer functions, assume that s-'ω; ω is the angular frequency in radians second. a) Use bode approximations, and plot both magnitude and phase response of the following complex functions Report the bode plots.. b) Use MATLAB or your TI-calculator or any other software package available and plot both magnitude and phase response Compare your simulated results with the bode approximations you got from a)....
I need help with this so bad. Please answer ASAP. Thanks 1. For the transfer function...
I need help with this so bad. Please answer ASAP. Thanks
1. For the transfer function given below, generate frequency response using bode command in MATLAB, and tabulate frequency response data (Frequency, Magnitude, Log Magnitude or dB and Phase) 50 G(s) (s+1)(s+2)(s5) a) Determine gain and phase margins from the frequency response table b) Verifiy the results using Bode diagrams c) Design a gain only compensator that results in a phase margin of 45 degrees Frequency response data can be...
Problem 3 (20 points) A Bode plot is a graph of the frequency response of a system. It is a combi...
Problem 3 (20 points) A Bode plot is a graph of the frequency response of a system. It is a combination of a magnitude plot, expressing the magnitude in dB of the frequency response, and a phase plot expressing the phase shift. Both quantities are plotted on a horizontal axis proportional to the logarithm of the frequency. Below is an example of a Bode plot created in Matlab. Bode Diagram 0 -20 3-40 E-60 -80 180 90 10 10 10...
I need help with this Bode Plots assignment (5 points) Follow the steps (a-c) described below for the following transf...
I need help with this Bode Plots
assignment
(5 points) Follow the steps (a-c) described below for the following transfer function. Do the steps in order! 5. H50 H(s) 2000 a. On a 'blank Bode plot' grid, plot the Bode plot straight line hand sketch approximation for magnitude for the frequency range from 1000 to ω.*1000. Be sure, though, that the corner frequency aligns with an appropriate vertical line on the grid. b. On graph paper, directly below the magnitude...
Consider the system shown as below. Draw a Bode diagram of the open-loop transfer function G(s).
1 Consider the system shown as below. Draw a Bode diagram of the open-loop transfer function G(s). Determine the phase margin, gain-crossover frequency, gain margin and phase-crossover frequency, (Sketch the bode diagram by hand) 2 Consider the system shown as below. Use MATLAB to draw a bode diagram of the open-loop transfer function G(s). Show the gain-crossover frequency and phase-crossover frequency in the Bode diagram and determine the phase margin and gain margin. 3. Consider the system shown as below. Design a...
I need help with this Bode Plots assignment 2. (5 points) Follow the steps (a-c) described below for the following tra...
I need help with this Bode Plots
assignment
2. (5 points) Follow the steps (a-c) described below for the following transfer function. Do the steps in order! 1+ 10 1+ 10 a. On a 'blank Bode plot' grid, plot the Bode plot straight line hand sketch approximation for magnitude for the frequency range from 1000 to ω.*1000. Be sure, though, that the corner frequency aligns with an appropriate vertical line on the grid. b. On graph paper, directly below the...
A bode plot of the transfer function, GS = - 25 $2+45+25, is shown as below....
A bode plot of the transfer function, GS = - 25 $2+45+25, is shown as below. Bode Diagram System sys Frequency (rad/s): 7 Magnitude (dB): -3.4 Magnitude (dB) Phase (deg) Systemt sys Frequency (rad/s): 7 Phase (deg): - 130 - 135 - 180 10 Frequency (rad/s) Determine the frequency response y(t) when a sinusoidal function, X(t) = 10 sin (7t +30) is applied to the transfer function as an input signal. (20 points)
Let G,()+3s+5) , K-1 and Ge 1 I Determine the loop transfer function L(s)-KG.G. Use 'margin' command in matlab to generate the Bode Plot for L(s). (a) What are its gain and phase margins (the...
Let G,()+3s+5) , K-1 and Ge 1 I Determine the loop transfer function L(s)-KG.G. Use 'margin' command in matlab to generate the Bode Plot for L(s). (a) What are its gain and phase margins (these should be available in the plots). (b) Convert the gain margin in dB to absolute value. (c) For what value of the gain K would the closed loop system become marginally stable? (d) Show that, for this value of K, the closed loop system does...
7 11. If a particular network is described by transfer function H(s), use MATLAB to plot the magnitude and phase Bode plot for H(s) equal to (a) 300 (s2 7s +7 s(5s +8s(2s + 4) 7 11. If a particu...
7 11. If a particular network is described by transfer function H(s), use MATLAB to plot the magnitude and phase Bode plot for H(s) equal to (a) 300 (s2 7s +7 s(5s +8s(2s + 4)
7 11. If a particular network is described by transfer function H(s), use MATLAB to plot the magnitude and phase Bode plot for H(s) equal to (a) 300 (s2 7s +7 s(5s +8s(2s + 4)
QUESTION 4 This question will reinforce how the Bode plot provides the steady-state response for ...
QUESTION 4 This question will reinforce how the Bode plot provides the steady-state response for a linear system in response to a sinusoidal input. Consider this forced mass-spring-damper system: Let M 6, B-48, K-72 Part a) As you did for HW 1, determine steady-state solution "x,()" when FC) 3120 cos(4b) Part b) Determine the transfer function Part c) The Bode plots for the transfer function of Part b are provided in this handout. with the parameter values of Part a....
I really confused as to how I am supposed to do bode
approximations?
For the following transfer functions, assume that s-'ω; ω is the angular frequency in radians second. a) Use bode approximations, and plot both magnitude and phase response of the following complex functions Report the bode plots.. b) Use MATLAB or your TI-calculator or any other software package available and plot both magnitude and phase response Compare your simulated results with the bode approximations you got from a)....
I need help with this so bad. Please answer ASAP. Thanks
1. For the transfer function given below, generate frequency response using bode command in MATLAB, and tabulate frequency response data (Frequency, Magnitude, Log Magnitude or dB and Phase) 50 G(s) (s+1)(s+2)(s5) a) Determine gain and phase margins from the frequency response table b) Verifiy the results using Bode diagrams c) Design a gain only compensator that results in a phase margin of 45 degrees Frequency response data can be...
Problem 3 (20 points) A Bode plot is a graph of the frequency response of a system. It is a combination of a magnitude plot, expressing the magnitude in dB of the frequency response, and a phase plot expressing the phase shift. Both quantities are plotted on a horizontal axis proportional to the logarithm of the frequency. Below is an example of a Bode plot created in Matlab. Bode Diagram 0 -20 3-40 E-60 -80 180 90 10 10 10...
I need help with this Bode Plots
assignment
(5 points) Follow the steps (a-c) described below for the following transfer function. Do the steps in order! 5. H50 H(s) 2000 a. On a 'blank Bode plot' grid, plot the Bode plot straight line hand sketch approximation for magnitude for the frequency range from 1000 to ω.*1000. Be sure, though, that the corner frequency aligns with an appropriate vertical line on the grid. b. On graph paper, directly below the magnitude...
I need help with this Bode Plots
assignment
2. (5 points) Follow the steps (a-c) described below for the following transfer function. Do the steps in order! 1+ 10 1+ 10 a. On a 'blank Bode plot' grid, plot the Bode plot straight line hand sketch approximation for magnitude for the frequency range from 1000 to ω.*1000. Be sure, though, that the corner frequency aligns with an appropriate vertical line on the grid. b. On graph paper, directly below the...
A bode plot of the transfer function, GS = - 25 $2+45+25, is shown as below. Bode Diagram System sys Frequency (rad/s): 7 Magnitude (dB): -3.4 Magnitude (dB) Phase (deg) Systemt sys Frequency (rad/s): 7 Phase (deg): - 130 - 135 - 180 10 Frequency (rad/s) Determine the frequency response y(t) when a sinusoidal function, X(t) = 10 sin (7t +30) is applied to the transfer function as an input signal. (20 points)
Let G,()+3s+5) , K-1 and Ge 1 I Determine the loop transfer function L(s)-KG.G. Use 'margin' command in matlab to generate the Bode Plot for L(s). (a) What are its gain and phase margins (these should be available in the plots). (b) Convert the gain margin in dB to absolute value. (c) For what value of the gain K would the closed loop system become marginally stable? (d) Show that, for this value of K, the closed loop system does...
7 11. If a particular network is described by transfer function H(s), use MATLAB to plot the magnitude and phase Bode plot for H(s) equal to (a) 300 (s2 7s +7 s(5s +8s(2s + 4)
7 11. If a particular network is described by transfer function H(s), use MATLAB to plot the magnitude and phase Bode plot for H(s) equal to (a) 300 (s2 7s +7 s(5s +8s(2s + 4)
QUESTION 4 This question will reinforce how the Bode plot provides the steady-state response for a linear system in response to a sinusoidal input. Consider this forced mass-spring-damper system: Let M 6, B-48, K-72 Part a) As you did for HW 1, determine steady-state solution "x,()" when FC) 3120 cos(4b) Part b) Determine the transfer function Part c) The Bode plots for the transfer function of Part b are provided in this handout. with the parameter values of Part a....
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