2: Draw the Bode plot; magnitude only, for the following systems using the straight-line approximations G(s)...
Problem 7: Sketch (using straight-line approximations) the Bode Plot of the following system. G(S)5010 s +2 s + Problem 8: Sketch (using straight-line approximations) the Bode Plot of the following system. G(S) 100(s+ 1)2
16.1 For the following systems, sketch the Bode diagram, and from the straight-line approximations to the gain and phase plots, estimate the maximum value of K for which the system is stable: a. GH(s) = s(s + 1) (s + 4) b. GH(s) = = s(1 + s) KS c. GH() = 6 *21 к d. GH(s) = s(s? + 2s + 16) 5K(1 + s) e. GH(S) = f'( + s/352
25 G(s) draw the bode (magnitude and [13] For the system with transfer function s2+4s+25 phase) plot on the semi-log paper 25 G(s) draw the bode (magnitude and [13] For the system with transfer function s2+4s+25 phase) plot on the semi-log paper
Draw the Nyquist plot using the bode plot below. G(s)=1/(s+1)^2 1. Draw the Nyquist plot using the bode plot below. G(s)-1/(s+1)*2 Bode Diagram 0 -20 9 .40 -60 -80 -100 .45 -90 -135 180 10 10 10 10 Frequency (rad/sec)
Q1. Draw the bode plot for each of the following systems. Compare your sketches with the plots obtained using the 'bode' command in MATLAB. a) Gs)4000 (s +40) e Gs) 1005+4) s(s+Is 25+5) Q1. Draw the bode plot for each of the following systems. Compare your sketches with the plots obtained using the 'bode' command in MATLAB. a) Gs)4000 (s +40) e Gs) 1005+4) s(s+Is 25+5)
Sketch the straight-line approximation Bode plot diagrams (magnitude and phase) 110s for H[s] You might want to examine Examples E.1 and E.2 in (s+10)(s+100)´ the textbook. Based on your straight-line Bode plot sketch, answer the following questions. The questions are: a. Identify the transfer function written in time constant form. b. The phase of H[s] at low frequencies is? c. The magnitude plot has what slope at low frequencies? d. The magnitude plot has what slope at high frequencies? e....
Generate Bode magnitude and phase plots (straight-line approximations) for the following voltage transfer functions j100ω 0.4(50+ju) (ju) H(4) = (40+,804) (10+350u)
Problem: A. For every Bode magnitude plot, do the following: (a)Find the Bode gain, K. (b)List the corner frequency for each factor. (c)Draw the straight line Bode magnitude plot for each factor, using the correct slope. (d) Carefully combine the plots into a composite straight line plot, using graphical addition at (e) (f) the corner frequencies. Use a heavy line for this composite plot. Go back and add the appropriate corrections at corners (±3 dB for simple poles/zeros) By hand,...
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)
Do magnitude plots only. 8.3. Draw the bode plot for s2 12s 100