Advanced Analysis Library Only
AnalysisLibErrType Elp_BSF (double inputArray[], int numberOfElements, double samplingFreq, double lowerCutoffFreq, double upperCutoffFreq, double ripple, double stopBandAtten, int order, double outputArray[]);
Filters the input array using an elliptic bandstop digital filter. Elp_BSF can perform the operation in place; that is, the input and output arrays can be the same.
/* Generate a random signal and filter it using a fifth-order bandstop
elliptic filter. The stop band is from 200.0 to 300.0. */
double x[256], y[256], fs, fl, fh, ripple, atten;
int n, order;
n = 256;
fs = 1000.0;
fl = 200.0;
fh = 300.0;
ripple = 0.5;
atten = 40.0;
order = 5;
Uniform (n, 17, x);
Elp_BSF (x, n, fs, fl, fh, ripple, atten, order, y);
Input | ||
Name | Type | Description |
inputArray | double-precision array | Array containing the raw data to filter. |
numberOfElements | integer | Number of elements in both the input and output array. |
samplingFreq | double-precision | Sampling frequency in Hertz. |
lowerCutoffFreq | double-precision | Lower cutoff frequency in Hertz. |
upperCutoffFreq | double-precision | Upper cutoff frequency in Hertz. |
ripple | double-precision | The amplitude of the stop band ripple in decibels. Default Value: 0.1 db. |
stopBandAtten | double-precision | Stop band attenuation in decibels. Default Value: 40.0 db. |
order | integer | Filter order. Default Value: 5. |
Output | ||
Name | Type | Description |
outputArray | double-precision array | Filtered data. |
Name | Type | Description |
status | AnalysisLibErrType | A value that specifies the type of error that occurred. Refer to analysis.h for definitions of these constants. |