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Consider an electrical system shown in the following circuit diagram RI R2 Show that the transfer...
The center frequency is not given. I believe that it must be find based on the body plot. Problem 6:The Bode plot for a passive series RLC bandpass filter is shown in Fig. 2. This filter was built...
The center frequency is not given. I believe that it must be
find based on the body plot.
Problem 6:The Bode plot for a passive series RLC bandpass filter is shown in Fig. 2. This filter was built from a 10 μ F capacitor. What is the filter's center frequency, wo, and its quality factor,昱? If you wanted to double the filter's center frequency without changing its quality factor, using the same 10 pu F capacitor, then how would you...
Consider the system with transfer function His) (160 + 1)(5 + 1) Which of the following...
Consider the system with transfer function His) (160 + 1)(5 + 1) Which of the following shows the Bode phase plot for this system? 2N (101) (2) + 34/4 1/2+ 10 10 10 10 / 10° 10+ HHHH -1/4 +10-1 100 101 102 10° 10° -31/4+ -- + (3) ZH() (4) CH(JW) + 3/4 + 1/2+ 2/4 + T 10- 10° 104 1 10- 106 10 10 10 10 W 103 104 10°W (5) (6) (6) (9) 10- 10° 104...
c) Dr. Lee collects the signal of the strain gauge above with the sampling frequency 100...
c) Dr. Lee collects the signal of the strain gauge above with the sampling frequency 100 kHz. He is interested in the data within the following frequency range: 1-10 kHz. Design the 2nd order filter system and draw the frequency response curve. Hint: assume Ri-R2 R3-R4 1.0 C4 R2 RA 0.7 3 0.5 0.0 101 102 103 10. 105 Hz
Let a transfer function H be 1000s + 10) 100+1000 Use H to respond to the following questions and...
System dynamics course.
Let a transfer function H be 1000s + 10) 100+1000 Use H to respond to the following questions and imperatives a. Write H as a product of standard-form transfer functions Find the frequency response function H(jaw) without simplifying c. Use the axes below to sketch the Bode plot of H. 20 -20 10-1 10° 101 102 103 10 w (rad/s) 90 45 45 -90 -135 -180 10-T 100 101 102 103 101 w (rad/s)
Let a transfer...
consider a negative unity feedback system whose feedforward transfer function is: (s) + 1/[(s+0.11(s+1)(s+10)] Braw a...
consider a negative unity feedback system whose feedforward transfer function is: (s) + 1/[(s+0.11(s+1)(s+10)] Braw a Bode plot of the open loop transfer function that includes an asymptotic and approximate estimate for both magnitude and phase. Answer he following questions D Question 1 5 pts Low frequency DC gain is_db 00 0 1 10 100 none of these Question 2 Low frequency DC phase lag is _ degrees 0 -90 -180 -270 -360 none of these Question 3 Asymptotic magnitude...
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...
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...
6. Quiz W/Th: Consider the system G()(s 40) (s +4) s S- (a) Fill out the...
6. Quiz W/Th: Consider the system G()(s 40) (s +4) s S- (a) Fill out the table below with the information you would need to sketch the Bode plot of G(s) Break Freq (rad/s) Type (# of LHP/RHP poles/zeros) Magnitude SlopePhase Slope (deg/dec) Term (dB/dec) (b) Calculate the magnitude (in dB) at 0.1 rad/sec and phase (in degrees) at 4 rad/sec (c) Determine which of the following Bode plots is correct for G(s). For full credit, provide enough explanation to...
Problem 2 Consider the circuit shown in the diagram below where: Ri-7 Ω,R2-7 Ω, R3 7...
Problem 2 Consider the circuit shown in the diagram below where: Ri-7 Ω,R2-7 Ω, R3 7 Ω R4 9 Ω, and VO 24.0 V. Calculate the current through R4? R2 R4 Due Sunday March 18 11:59 am (EDT Submit Answer)Tries 0/6
System dynamics and control 4. A Controller K is used to control the angle y, of...
System dynamics and control
4. A Controller K is used to control the angle y, of a motor by providing the required voltage to the motor. The bode plot of the openloop system GK is shown below: a. What happens to the phase margin of the system as the time delay increases? Explain why. b. If there is time delay between the controller and the plant, what is that maximum time delay this controller can handle before it becomes unstable....
consider a negative unity feedback system whose feedforward transfer function is: (s) - 1/((s+0.11(s+1)(s+10) Brawa Bode...
consider a negative unity feedback system whose feedforward transfer function is: (s) - 1/((s+0.11(s+1)(s+10) Brawa Bode plot of the open loop transfer function that includes an asymptotic and approximate estimate for both magnitude and phase. Answer he following questions Asymptotic phase lag at 1 rad/sec is _ degrees 0 -45 -90 0-135 -180 225 270 325 -360 Asymptotic phase lag at 10 rad/sec is _ degrees 0 -45 -90 0 -135 -180 -225 -270 360 none of these Asymptotic phase...
The center frequency is not given. I believe that it must be
find based on the body plot.
Problem 6:The Bode plot for a passive series RLC bandpass filter is shown in Fig. 2. This filter was built from a 10 μ F capacitor. What is the filter's center frequency, wo, and its quality factor,昱? If you wanted to double the filter's center frequency without changing its quality factor, using the same 10 pu F capacitor, then how would you...
Consider the system with transfer function His) (160 + 1)(5 + 1) Which of the following shows the Bode phase plot for this system? 2N (101) (2) + 34/4 1/2+ 10 10 10 10 / 10° 10+ HHHH -1/4 +10-1 100 101 102 10° 10° -31/4+ -- + (3) ZH() (4) CH(JW) + 3/4 + 1/2+ 2/4 + T 10- 10° 104 1 10- 106 10 10 10 10 W 103 104 10°W (5) (6) (6) (9) 10- 10° 104...
c) Dr. Lee collects the signal of the strain gauge above with the sampling frequency 100 kHz. He is interested in the data within the following frequency range: 1-10 kHz. Design the 2nd order filter system and draw the frequency response curve. Hint: assume Ri-R2 R3-R4 1.0 C4 R2 RA 0.7 3 0.5 0.0 101 102 103 10. 105 Hz
System dynamics course.
Let a transfer function H be 1000s + 10) 100+1000 Use H to respond to the following questions and imperatives a. Write H as a product of standard-form transfer functions Find the frequency response function H(jaw) without simplifying c. Use the axes below to sketch the Bode plot of H. 20 -20 10-1 10° 101 102 103 10 w (rad/s) 90 45 45 -90 -135 -180 10-T 100 101 102 103 101 w (rad/s)
Let a transfer...
consider a negative unity feedback system whose feedforward transfer function is: (s) + 1/[(s+0.11(s+1)(s+10)] Braw a Bode plot of the open loop transfer function that includes an asymptotic and approximate estimate for both magnitude and phase. Answer he following questions D Question 1 5 pts Low frequency DC gain is_db 00 0 1 10 100 none of these Question 2 Low frequency DC phase lag is _ degrees 0 -90 -180 -270 -360 none of these Question 3 Asymptotic magnitude...
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...
6. Quiz W/Th: Consider the system G()(s 40) (s +4) s S- (a) Fill out the table below with the information you would need to sketch the Bode plot of G(s) Break Freq (rad/s) Type (# of LHP/RHP poles/zeros) Magnitude SlopePhase Slope (deg/dec) Term (dB/dec) (b) Calculate the magnitude (in dB) at 0.1 rad/sec and phase (in degrees) at 4 rad/sec (c) Determine which of the following Bode plots is correct for G(s). For full credit, provide enough explanation to...
Problem 2 Consider the circuit shown in the diagram below where: Ri-7 Ω,R2-7 Ω, R3 7 Ω R4 9 Ω, and VO 24.0 V. Calculate the current through R4? R2 R4 Due Sunday March 18 11:59 am (EDT Submit Answer)Tries 0/6
System dynamics and control
4. A Controller K is used to control the angle y, of a motor by providing the required voltage to the motor. The bode plot of the openloop system GK is shown below: a. What happens to the phase margin of the system as the time delay increases? Explain why. b. If there is time delay between the controller and the plant, what is that maximum time delay this controller can handle before it becomes unstable....
consider a negative unity feedback system whose feedforward transfer function is: (s) - 1/((s+0.11(s+1)(s+10) Brawa Bode plot of the open loop transfer function that includes an asymptotic and approximate estimate for both magnitude and phase. Answer he following questions Asymptotic phase lag at 1 rad/sec is _ degrees 0 -45 -90 0-135 -180 225 270 325 -360 Asymptotic phase lag at 10 rad/sec is _ degrees 0 -45 -90 0 -135 -180 -225 -270 360 none of these Asymptotic phase...
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