# bandedgeFrequencies

Compute the bandedge frequencies

## Description

example

w = bandedgeFrequencies(obj) returns a vector of normalized frequencies, w, containing the bandedge frequencies between adjacent bandpass filters in the dsp.Channelizer System object™.

example

f = bandedgeFrequencies(obj,Fs) returns a vector of bandedge frequencies in Hz, using the sample rate Fs.

## Examples

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Compute the normalized bandedge frequencies of the bandpass filters in a channelizer using the bandedgeFrequencies function.

channelizer = dsp.Channelizer;
w = bandedgeFrequencies(channelizer)
w = 1×8

-2.7489   -1.9635   -1.1781   -0.3927    0.3927    1.1781    1.9635    2.7489

To compute the frequencies in Hz, pass a sampling frequency, Fs.

$f=\left(\omega /2\pi \right)×Fs$

where:

• f is frequency in Hz.

• $\omega$ is frequency in radians.

Here, the sampling frequency is 44,100 Hz.

f = bandedgeFrequencies(channelizer,44100)
f = 1×8
104 ×

-1.9294   -1.3781   -0.8269   -0.2756    0.2756    0.8269    1.3781    1.9294

## Input Arguments

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Input filter, specified as a dsp.Channelizer System object.

Sample rate used to compute the bandedge frequencies in Hz, specified as a positive scalar.

Data Types: single | double | int8 | int16 | int32 | int64 | uint8 | uint16 | uint32 | uint64

## Output Arguments

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Normalized frequencies containing the bandedge frequencies between adjacent bandpass filters in the channelizer, returned as a row vector. The length of the vector equals the number of frequency bands.

Data Types: double

Bandedge frequencies in Hz, returned as a row vector. The length of the vector equals the number of frequency bands. To return the frequencies in Hz, input the sample rate, Fs. Frequency in Hz is given by [w/(2π)]×Fs, where w is the normalized frequency in rad/sample, and Fs is the sampling rate in Hz.

Data Types: double

### Objects

Introduced in R2017b

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