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Frequency range of bode magnitude and phases are decided by :
- a)The lowest and higher important frequencies of dominant factors of the OLTF
- b)The lowest and highest important frequencies of all the factors of the open loop transfer function
- c)Resonant frequencies of the second factors
- d)None of the above
Correct answer is option 'D'. Can you explain this answer?
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Frequency range of bode magnitude and phases are decided by :a)The low...
T. F. = Kp (1 + Tds)
There is only one zero which will give slope of +20dB/decade.
There is only one zero which will give slope of +20dB/decade.
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Frequency range of bode magnitude and phases are decided by :a)The low...
Understanding Bode Magnitude and Phase Frequency Range
The frequency range of Bode magnitude and phase plots is critical in control system analysis and design. The correct answer to the question is option 'D', which indicates that none of the provided options accurately describe how this frequency range is determined.
Key Factors Influencing Bode Plots
- Open Loop Transfer Function (OLTF): The frequency response is primarily influenced by the OLTF of the system, which consists of poles, zeros, and gains.
- Dominant Poles and Zeros: While dominant factors (poles and zeros) significantly shape the Bode plot, it is not solely their lowest and highest frequencies that define the range.
- All Factors Considered: The frequency range is determined by the entire OLTF, including all poles and zeros. Each element contributes to the overall frequency response.
Resonant Frequencies
- Not Solely Determinative: While resonant frequencies from second-order systems can influence the plots, they are not the only factors affecting the overall range.
Conclusion
- The frequency range of Bode magnitude and phase plots is dependent on the complete behavior of the OLTF rather than just dominant factors or resonant frequencies. Therefore, the assertion in option 'D' is correct, as it indicates that none of the other choices accurately capture the complexity of Bode plot frequency determination.
This comprehensive understanding allows engineers to analyze and design stable control systems effectively.
The frequency range of Bode magnitude and phase plots is critical in control system analysis and design. The correct answer to the question is option 'D', which indicates that none of the provided options accurately describe how this frequency range is determined.
Key Factors Influencing Bode Plots
- Open Loop Transfer Function (OLTF): The frequency response is primarily influenced by the OLTF of the system, which consists of poles, zeros, and gains.
- Dominant Poles and Zeros: While dominant factors (poles and zeros) significantly shape the Bode plot, it is not solely their lowest and highest frequencies that define the range.
- All Factors Considered: The frequency range is determined by the entire OLTF, including all poles and zeros. Each element contributes to the overall frequency response.
Resonant Frequencies
- Not Solely Determinative: While resonant frequencies from second-order systems can influence the plots, they are not the only factors affecting the overall range.
Conclusion
- The frequency range of Bode magnitude and phase plots is dependent on the complete behavior of the OLTF rather than just dominant factors or resonant frequencies. Therefore, the assertion in option 'D' is correct, as it indicates that none of the other choices accurately capture the complexity of Bode plot frequency determination.
This comprehensive understanding allows engineers to analyze and design stable control systems effectively.
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Frequency range of bode magnitude and phases are decided by :a)The lowest and higher important frequencies of dominant factors of the OLTFb)The lowest and highest important frequencies of all the factors of the open loop transfer functionc)Resonant frequencies of the second factorsd)None of the aboveCorrect answer is option 'D'. Can you explain this answer?
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Frequency range of bode magnitude and phases are decided by :a)The lowest and higher important frequencies of dominant factors of the OLTFb)The lowest and highest important frequencies of all the factors of the open loop transfer functionc)Resonant frequencies of the second factorsd)None of the aboveCorrect answer is option 'D'. Can you explain this answer? for Electronics and Communication Engineering (ECE) 2024 is part of Electronics and Communication Engineering (ECE) preparation. The Question and answers have been prepared according to the Electronics and Communication Engineering (ECE) exam syllabus. Information about Frequency range of bode magnitude and phases are decided by :a)The lowest and higher important frequencies of dominant factors of the OLTFb)The lowest and highest important frequencies of all the factors of the open loop transfer functionc)Resonant frequencies of the second factorsd)None of the aboveCorrect answer is option 'D'. Can you explain this answer? covers all topics & solutions for Electronics and Communication Engineering (ECE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Frequency range of bode magnitude and phases are decided by :a)The lowest and higher important frequencies of dominant factors of the OLTFb)The lowest and highest important frequencies of all the factors of the open loop transfer functionc)Resonant frequencies of the second factorsd)None of the aboveCorrect answer is option 'D'. Can you explain this answer?.
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Frequency range of bode magnitude and phases are decided by :a)The lowest and higher important frequencies of dominant factors of the OLTFb)The lowest and highest important frequencies of all the factors of the open loop transfer functionc)Resonant frequencies of the second factorsd)None of the aboveCorrect answer is option 'D'. Can you explain this answer?, a detailed solution for Frequency range of bode magnitude and phases are decided by :a)The lowest and higher important frequencies of dominant factors of the OLTFb)The lowest and highest important frequencies of all the factors of the open loop transfer functionc)Resonant frequencies of the second factorsd)None of the aboveCorrect answer is option 'D'. Can you explain this answer? has been provided alongside types of Frequency range of bode magnitude and phases are decided by :a)The lowest and higher important frequencies of dominant factors of the OLTFb)The lowest and highest important frequencies of all the factors of the open loop transfer functionc)Resonant frequencies of the second factorsd)None of the aboveCorrect answer is option 'D'. Can you explain this answer? theory, EduRev gives you an
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