ENGINEERING CIRCUIT...(LL)>CUSTOM PKG.<
9th Edition
ISBN: 9781260540666
Author: Hayt
Publisher: MCG CUSTOM
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Textbook Question
Chapter 15, Problem 12E
Use MATLAB to plot the magnitude and phase Bode plot for each of the following transfer functions:
(a)
(b)
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6. Determine the DTFT of the following signal, and plot its magnitude and phase spectra using
matlab.
x[n] = (1/3)¹u[n - 1]
Will upvote
Proposed an industrial application with a transfer function. Using the proposed transfer
function:
1. Sketch the corresponding magnitude and phase asymptotic Bode plot by hand (Using
semi log paper).
2. Plot the corresponding Bode plot in MATLAB and verify that the result corresponds to
you hand-sketched asymptotic plot.
refer here https://www.mathworks.com/help/ident/reflbode.html
3. Use the MATLAB function to obtain the gain margin and phase margin.
Tips: watch class video
4. Comment on system stability based on obtaining gain margin and phase margin.
Chapter 15 Solutions
ENGINEERING CIRCUIT...(LL)>CUSTOM PKG.<
Ch. 15.1 - Write an expression for the transfer function of...Ch. 15.2 - Calculate HdB at = 146 rad/s if H(s) equals (a)...Ch. 15.2 - Prob. 3PCh. 15.2 - Draw the Bode phase plot for the transfer function...Ch. 15.2 - Construct a Bode magnitude plot for H(s) equal to...Ch. 15.2 - Draw the Bode phase plot for H(s) equal to (a)...Ch. 15.2 - Prob. 7PCh. 15.3 - A parallel resonant circuit is composed of the...Ch. 15.3 - Prob. 9PCh. 15.4 - A marginally high-Q parallel resonant circuit has...
Ch. 15.5 - A series resonant circuit has a bandwidth of 100...Ch. 15.6 - Referring to the circuit of Fig. 15.25a, let R1 =...Ch. 15.6 - Prob. 13PCh. 15.6 - Prob. 14PCh. 15.6 - The series combination of 10 and 10 nF is in...Ch. 15.7 - A parallel resonant circuit is defined by C = 0.01...Ch. 15.8 - Design a high-pass filter with a cutoff frequency...Ch. 15.8 - Design a bandpass filter with a low-frequency...Ch. 15.8 - Design a low-pass filter circuit with a gain of 30...Ch. 15 - For the RL circuit in Fig. 15.52, (a) determine...Ch. 15 - For the RL circuit in Fig. 15.52, switch the...Ch. 15 - Examine the series RLC circuit in Fig. 15.53, with...Ch. 15 - For the circuit in Fig. 15.54, (a) derive an...Ch. 15 - For the circuit in Fig. 15.55, (a) derive an...Ch. 15 - For the circuit in Fig. 15.56, (a) determine the...Ch. 15 - For the circuit in Fig. 15.57, (a) determine the...Ch. 15 - Sketch the Bode magnitude and phase plots for the...Ch. 15 - Use the Bode approach to sketch the magnitude of...Ch. 15 - If a particular network is described by transfer...Ch. 15 - Use MATLAB to plot the magnitude and phase Bode...Ch. 15 - Determine the Bode magnitude plot for the...Ch. 15 - Determine the Bode magnitude and phase plot for...Ch. 15 - Prob. 15ECh. 15 - Prob. 16ECh. 15 - For the circuit of Fig. 15.56, construct a...Ch. 15 - Construct a magnitude and phase Bode plot for the...Ch. 15 - For the circuit in Fig. 15.54, use LTspice to...Ch. 15 - For the circuit in Fig. 15.55, use LTspice to...Ch. 15 - Prob. 21ECh. 15 - A certain parallel RLC circuit is built using...Ch. 15 - A parallel RLC network is constructed using R = 5...Ch. 15 - Prob. 24ECh. 15 - Delete the 2 resistor in the network of Fig....Ch. 15 - Delete the 1 resistor in the network of Fig....Ch. 15 - Prob. 28ECh. 15 - Prob. 29ECh. 15 - Prob. 30ECh. 15 - A parallel RLC network is constructed with a 200 H...Ch. 15 - Prob. 32ECh. 15 - A parallel RLC circuit is constructed such that it...Ch. 15 - Prob. 34ECh. 15 - Prob. 35ECh. 15 - An RLC circuit is constructed using R = 5 , L = 20...Ch. 15 - Prob. 37ECh. 15 - Prob. 38ECh. 15 - For the network of Fig. 15.25a, R1 = 100 , R2 =...Ch. 15 - Assuming an operating frequency of 200 rad/s, find...Ch. 15 - Prob. 41ECh. 15 - Prob. 42ECh. 15 - For the circuit shown in Fig. 15.64, the voltage...Ch. 15 - Prob. 44ECh. 15 - Prob. 45ECh. 15 - Prob. 46ECh. 15 - The filter shown in Fig. 15.66a has the response...Ch. 15 - Prob. 48ECh. 15 - Examine the filter for the circuit in Fig. 15.68....Ch. 15 - Examine the filter for the circuit in Fig. 15.69....Ch. 15 - (a)Design a high-pass filter with a corner...Ch. 15 - (a) Design a low-pass filter with a break...Ch. 15 - Prob. 53ECh. 15 - Prob. 54ECh. 15 - Design a low-pass filter characterized by a...Ch. 15 - Prob. 56ECh. 15 - The circuit in Fig. 15.70 is known as a notch...Ch. 15 - (a) Design a two-stage op amp filter circuit with...Ch. 15 - Design a circuit which removes the entire audio...Ch. 15 - Prob. 61ECh. 15 - If a high-pass filter is required having gain of 6...Ch. 15 - (a) Design a second-order high-pass Butterworth...Ch. 15 - Design a fourth-order high-pass Butterworth filter...Ch. 15 - (a) Design a Sallen-Key low-pass filter with a...Ch. 15 - (a) Design a Sallen-Key low-pass filter with a...Ch. 15 - A piezoelectric sensor has an equivalent circuit...Ch. 15 - Design a parallel resonant circuit for an AM radio...Ch. 15 - The network of Fig. 15.72 was implemented as a...Ch. 15 - Determine the effect of component tolerance on the...
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- blank sheets of BODE paper and, using straight line approximations,hand draw the Gain and Phase (Bode) plots for the following transfer functions. (s-10) S 100 3. (s+1)(s+100) Please draw the gain and phase plots using BODE graphing. Please don't skip any steps. I do not understand how to solve with the negative sign in the numerator, please do explain that.arrow_forwardplease write this on step by steparrow_forwardel A parallel resonant RLC circuit is driven by a current source is = 20 cos(wt) MA and %3D Shows a maximum response of 8 V at w = 1000 rad/s and 4V at w=897.6 rad/s. Determine the value of passive components R, L and C. %3Darrow_forward
- A transfer function is given by H( f )= 10 1−j( f/500 ) Sketch the asymptotic magnitude and phase Bode plots to scale. What is the value of the halfpower frequency?arrow_forwardHelp!!! Answer step by steparrow_forward3. Consider a causal continuous-time LTI system described by the transfer function below: 5 H(s) = 5 s+2 +10 (a) Sketch the Bode diagram of this system. Label the frequencies, magnitude, phase angles, and slopes wherever necessary. Magnitude (dB) Phase (deg) 50 0 -50 -100 45 -90 -135 -180 10-¹ 10⁰ Bode Diagram 10¹ Frequency (rac/s) 10² 10³ (b) For a sinusoidal input x (t) = 2 sin(2t + 45°), determine the steady-state response of the system.arrow_forward
- Plot the magnitude and phase plot for the following transfer function, use the templates from the class notes module so as to provide somewhat an accurate representation of the magnitude and phase plots. H (ju) 10 jw (0.01jw+1) (0.1jw+1)arrow_forwardObtain the phase and gain margins of the system shown in the figure below for the two cases where K = 10 and K = 100, and determine for which K the system is stable. (You can use Matlab to plot the Bode Diagram from where you can measure the gain and phase margins). R(s) K s(s+ 1) (s + 5) C(s)arrow_forwardi need the answer quicklyarrow_forward
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Why Use Bode Plots? | Understanding Bode Plots, Part 1; Author: MATLAB;https://www.youtube.com/watch?v=F6-EaZobHNk;License: Standard Youtube License