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Normalized difference between the time response peak and steady state output is ______________
- a)Maximum peak overshoot
- b)Damping factor
- c)Minimum peak overshoot
- d)Undershoot
Correct answer is option 'A'. Can you explain this answer?
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Normalized difference between the time response peak and steady state ...
Maximum peak overshoot is the normalized difference between the time response peak and steady state output.
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Normalized difference between the time response peak and steady state ...
As we know that, Graph of transient time where maximum peak is define as the difference between peak time and settling time.
since Peak time is defined as the maximum peak of the signal.
settling time is that where its become constant , there is no oscillation after settling.
since Peak time is defined as the maximum peak of the signal.
settling time is that where its become constant , there is no oscillation after settling.
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Normalized difference between the time response peak and steady state ...
Normalized difference between the time response peak and steady state output
The normalized difference between the time response peak and steady state output is a measure of how much the system overshoots before settling down to its final value. This parameter is essential in analyzing the transient response characteristics of a system.
In summary, the normalized difference between the time response peak and steady state output is primarily represented by the maximum peak overshoot, which indicates the extent of overshoot in the system's transient response. It is an essential parameter in evaluating the performance of a system and ensuring stable operation.
The normalized difference between the time response peak and steady state output is a measure of how much the system overshoots before settling down to its final value. This parameter is essential in analyzing the transient response characteristics of a system.
- Maximum peak overshoot: This is the highest value reached by the response curve before settling to the steady state output. It is an indication of how much the system overshoots its final value.
- Damping factor: Damping factor is a measure of how quickly the system oscillations decay after reaching the peak overshoot. A higher damping factor indicates faster decay of oscillations.
- Minimum peak overshoot: This is the smallest value reached by the response curve before settling to the steady state output. It is an indication of how close the system output gets to the final value without overshooting.
- Undershoot: Undershoot occurs when the response curve drops below the steady state output before settling. It is an undesirable characteristic in a system's transient response.
In summary, the normalized difference between the time response peak and steady state output is primarily represented by the maximum peak overshoot, which indicates the extent of overshoot in the system's transient response. It is an essential parameter in evaluating the performance of a system and ensuring stable operation.
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Normalized difference between the time response peak and steady state output is ______________a)Maximum peak overshootb)Damping factorc)Minimum peak overshootd)UndershootCorrect answer is option 'A'. Can you explain this answer?
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