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・ Frequency (video game)
・ Frequency addition source of optical radiation
・ Frequency agility
・ Frequency allocation
・ Frequency ambiguity resolution
・ Frequency analysis
・ Frequency analysis (disambiguation)
・ Frequency assignment authority
・ Frequency averaging
・ Frequency band
・ Frequency capping
・ Frequency changer
・ Frequency Changing Station
・ Frequency comb
・ Frequency compatibility
Frequency compensation
・ Frequency conversion
・ Frequency coordination
・ Frequency coordinator
・ Frequency counter
・ Frequency deviation
・ Frequency distribution
・ Frequency divider
・ Frequency domain
・ Frequency domain decomposition
・ Frequency domain sensor
・ Frequency drift
・ Frequency extender
・ Frequency following response
・ Frequency format hypothesis


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Frequency compensation : ウィキペディア英語版
Frequency compensation
In electrical engineering, frequency compensation is a technique used in amplifiers, and especially in amplifiers employing negative feedback. It usually has two primary goals: To avoid the unintentional creation of positive feedback, which will cause the amplifier to oscillate, and to control overshoot and ringing in the amplifier's step response. It is also used extensively to improve the bandwidth of single pole systems.
==Explanation==

Most amplifiers use negative feedback to trade gain for other desirable properties, such as decreased distortion or improved noise reduction. Ideally, the phase characteristic of an amplifier's frequency response would be linear; however, device limitations make this goal physically unattainable. More particularly, capacitances within the amplifier's gain stages cause the output signal to lag behind the input signal by 90° for each pole they create.〔In this context, a pole is the point in a frequency response curve where the amplitude decreases by 3db due to an integrating resistance and capacitive reactance. Ultimately, each pole will result in a phase lag of 90°, i.e., the output signal will lag ''behind'' the input signal by 90° at this point. For the mathematical concept of a pole, see, Pole (complex analysis).〕 If the sum of these phase lags reaches 360°, the output signal will be in phase with the input signal. Feeding back any portion of this output signal to the input when the gain of the amplifier is sufficient will cause the amplifier to oscillate. This is because the feedback signal will reinforce the input signal. That is, the feedback is then positive rather than negative.
Frequency compensation is implemented to avoid this result.
Another goal of frequency compensation is to control the step response of an amplifier circuit as shown in Figure 1. For example, if a step in voltage is input to a voltage amplifier, ideally a step in output voltage would occur. However, the output is not ideal because of the frequency response of the amplifier, and ringing occurs. Several figures of merit to describe the adequacy of step response are in common use. One is the rise time of the output, which ideally would be short. A second is the time for the output to lock into its final value, which again should be short. The success in reaching this lock-in at final value is described by overshoot (how far the response exceeds final value) and settling time (how long the output swings back and forth about its final value). These various measures of the step response usually conflict with one another, requiring optimization methods.
Frequency compensation is implemented to optimize step response, one method being pole splitting.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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