Generates the set of filter coefficients to implement a digital elliptic IIR filter. You can pass these coefficients to the IIR Cascade Filter VI. Details
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filter type specifies the passband of the filter.
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sampling freq: fs is the sampling frequency and must be greater than zero. The default is 1.0. If it is less than or equal to zero, the VI sets IIR Filter Cluster to an empty array and returns an error. | ||||||||
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high cutoff freq: fh is the high cutoff frequency. The VI ignores this parameter when filter type is 0 (Lowpass) or 1 (Highpass). When filter type is 2 (Bandpass) or 3 (Bandstop), high cutoff freq: fh must be greater than low cutoff freq: fl. | ||||||||
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low cutoff freq: fl is the low cutoff frequency and must observe the Nyquist criterion where
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passband ripple is the ripple in the passband. passband ripple must be greater than zero, and must be expressed in decibels. The default is 1.0. If passband ripple is less than or equal to zero, the VI sets the output filter data to an empty array and returns an error. | ||||||||
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order is the order of the IIR filter and must be greater than zero. | ||||||||
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stopband attenuation is the attenuation in the stopband. stopband attenuation must be greater than zero and you must express it in decibels. The default is 60.0. If stopband attenuation is less than or equal to zero, the VI sets IIR Filter Cluster to an empty array and returns an error. | ||||||||
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IIR Filter Cluster contains three elements: filter structure, Reverse Coefficients, and Forward Coefficients.
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error returns any error or warning from the VI. Refer to Signal Processing Error Codes for more information about these conditions. |
The Elliptic Coefficients VI is a subVI of the Elliptic Filter VI. Refer to Elliptic Filters for more information and examples of how to use the Elliptic Filter VI.