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Bandwidth (signal processing)
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=== Ratio bandwidth === Ratio bandwidth is defined as the ratio of the upper and lower limits of the band, <math display="block">B_\mathrm R= \frac {f_\mathrm H}{f_\mathrm L} \, .</math> Ratio bandwidth may be notated as <math>B_\mathrm R:1</math>. The relationship between ratio bandwidth and fractional bandwidth is given by, <math display="block">B_\mathrm F = 2 \frac {B_\mathrm R - 1}{B_\mathrm R + 1} </math> and <math display="block">B_\mathrm R = \frac {2 + B_\mathrm F}{2 - B_\mathrm F} \, .</math> Percent bandwidth is a less meaningful measure in wideband applications. A percent bandwidth of 100% corresponds to a ratio bandwidth of 3:1. All higher ratios up to infinity are compressed into the range 100β200%. Ratio bandwidth is often expressed in [[octave]]s (i.e., as a [[frequency level]]) for wideband applications. An octave is a frequency ratio of 2:1 leading to this expression for the number of octaves, <math display="block">\log_2 \left(B_\mathrm R\right) .</math>
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