7. Match the Bode plots. Bode Digras Bace Diagas 200 Bode Dig aTs Bace Diag as
For the following transfer function, sketch approximate
straight-line Bode plots, including magnitude and phase plots. Show
all steps clearly
10 4 (A)G(s)-7 s (s 2s +100)
Sketch the approximate Bode magnitude and phase plots for the following transfer functions by hand. a. G(s) b. G(s)- 200 (s2 +2s)(0.1s +1) s+1 s2 +2s +100
please show full working.
Q2. Draw the Bode plot (both magnitude and angle) for the following transfer function 200 Gω + 1) H(w) 0ω + 40) Gω + 200) All slopes and breakpoints should be shown clearly on the plots
Q2. Draw the Bode plot (both magnitude and angle) for the following transfer function 200 Gω + 1) H(w) 0ω + 40) Gω + 200) All slopes and breakpoints should be shown clearly on the plots
Note: for the Bode plots, you are expected to draw
t
hem by hand (and not use
computer).
Problem 6: Consider the control system shown in Figure 7-138. Determine the value of gain K such that the phase margin is 60°. What is the gain margin with this value of gain K 10一 ll@ゆ s + 0.1 s +0.5
Consider the system given in Fig. 6.93. (a) Use MATLAB to obtain Bode plots for K 1 and use the plots to estimate the range of K for which the system will be stable. (b) Verify the stable range of K by using margin to determine PM for selected values of K (c) Use rlocus and rlocfind to determine the values of K at the stability boundaries Figure 6.93: Contro l system for Problem 2 7
9.12 Draw the magnitude and angle Bode plots of voUT versus vIN for the circuit of Fig. P9.12. For the purposes of this problem, assume that Ci behaves as a short circuit at high frequencies, and C2 behaves as an open circuit at low frequencies. O VOUT R1 200 k2 UIN Fig. P9.12
9.12 Draw the magnitude and angle Bode plots of voUT versus vIN for the circuit of Fig. P9.12. For the purposes of this problem, assume that Ci...
QUESTION 2 Consider this 2" order transfer function which was discussed in lecture G(s) 10s+9 The Bode plots (magnitude, phase) for this G(s) are provided in this handout. For the following frequency (i.e."o") values, do complex number calculations as performed in lecture, to verify that this magnitude curve (in decibels) and phase curve (in degrees) are correct “o',-0.03, 0.2, 1, 6, 20, and 60 rad/sec Be sure to show your work CLEARLY, and indicate on the Bode plots the magnitude/phase...
Please solve the question below:
Required are the Bode Magnitude Plots for G(s), C(s) and
G(s)C(s) AND the discretized controller in Z-transform (using
Generalized Bilinear Transformation) AND Derive the Euler and
Tustin discretization
2.Given a continuous control system in the following figure, the plant ()-+2) plant G(s)- and +2) the controller Ca-il.7(s +4.41) 8 + 18.4 41.7(s4.41) 18.4 4 s( 2) a). Sketch the Bode magnitude plots of the plant G(s), the controller C(s), and the controlled plant G(s)C( b)....
Mainly Need 7,8,9
This homework deals with applications of concepts related to Bode plots of transfer functions. + y(t) - 1. For the circuit shown, the voltage source x(t) is the input and +c the voltage y(t) across the inductors the output. Write the differential equation of the circuit relating the input and the output without assigning numerical values to the circuit elements. 7. For the circuit of Prob. 1, assume that the output y(t) is the voltage across the...
match each of the following of the scatter plots A-D to its
correlation coeficient
r=0.719 [Choose] B А D с r=-0.064 r = 0.889 [Choose ] r = -0.701 [Choose] . Question 5 Identify which of the following samples is a possible bootstrap sample from the or that consists of the values: 5, 7, 11, 15, 18 Match each of the following scatterplots (A-D) to its correlation coefficient (r). A B D r=0.719 [Choose ] r = -0.064 [Choose ]