Negative voltage feedback affect all the frequencies equally. Hence by simple observation it is clear that, negative feedback doesn't affect the bandwidth of the circuit. But in many books, it is written that negative voltage feedback increases the bandwidth of the circuit.
Can you explain how negative feedback affect the bandwidth ?
Answer
You have to realize what Bandwidth actually means.
Bandwidth is the frequency at which the gain starts to drop when frequency increases. So if lowering the gain (using feedback) moves that point (where the gain starts to drop) to a higher frequency then the bandwidth has increased.
Let's take an example of an amplifier. It has a frequency response as shown below:
This amplifier has a voltage gain of 1 Million but a bandwidth of only 10 Hz.
This plotted gain of this amplifier is the maximum it can do, there can never be more gain than this. From the plot it is easy to see that the maximum gain depends on the frequency of the signal. At 1 Hz the gain can be 1 Million but at 10 kHz the gain cannot exceed 1000.
We can use feedback to lower the gain, make the gain smaller than the value from the plot. This also moves the point where the gain starts to drop off to the right. That is because the gain curve still applies, if through feedback we lower the gain to 100 then above 100 kHz, the gain would still drop because the gain cannot be 100 above 100 kHz (blue dotted line).
Since Gain x Bandwidth remains constant and we reduced the gain by a factor 1 million/100 = 10 thousand we can expect the bandwidth to increase by a factor 10 thousand so that would make 10 Hz time 10 thousand = 100k Hz. Which is where the blue dotted line crosses the "open loop gain" curve.
The resulting transfer curve of the amplifier with feedback would then look like the green curve on the plot below. In the plot below the blue curve is the open-loop gain. Please do not compare the numbers in both plots, I just pulled these from the Internet, they do not apply to the same amplifier. It is the shape of the curve and the relation to the open-loop gain curve what matters.
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