Parametric Equalizer Design

Use this port to specify the value of the Filter order parameter.

Dependencies

To enable this port, select the Specify filter order from input port parameter.

Use this port to specify the value of the Gain (dB) parameter.

Dependencies

To enable this port, select the Specify gain from input port parameter.

Use this port to specify the value of the Normalized center frequency parameter.

Dependencies

To enable this port, select the Specify normalized center frequency from input port parameter.

Use this port to specify the value of the Normalized bandwidth parameter.

Dependencies

To enable this port, select the Specify normalized bandwidth from input port parameter.

Numerator filter coefficients, returned as a matrix.

N is the number of filter sections and depends on the Maximum filter order parameter. If Filter order is less than the Maximum filter order, then the block sets the unused sections to pass-through sections.

Dependencies

Denominator filter coefficients, returned as a matrix.

N is the number of filter sections and depends on the Maximum filter order parameter. If Filter order is less than Maximum filter order, then the block sets the unused sections to pass-through sections.

Dependencies

Select this parameter to gradually change a filter parameter to the new value when tuning it. If you clear this parameter, the tuned parameter immediately switches to the new value. Specify the level of smoothing with the Smoothing factor parameter.

Smoothing factor for tuned parameters, specified as a scalar in the range [0,1). As the smoothing factor approaches 1, a tuned parameter changes more gradually to the new value. A smoothing factor of 0 is equivalent to no smoothing.

For more information about smoothing, see Smoothing.

Maximum filter order of the designed coefficients, specified as a positive even integer. The Filter order parameter cannot exceed this value.

When you select this parameter, an additional input port, N, is added to the block.

Filter order of designed coefficients, specified as a positive even integer.

When you select this parameter, an additional input port, G, is added to the block. Use this port to specify the gain of the filter.

Gain of the filter in dB, specified as a real scalar.

When you select this parameter, an additional input port, Fc, is added to the block.

Normalized center frequency of the filter, specified as a scalar in the range [0,1] where 1 corresponds to the Nyquist frequency.

When you select this parameter, an additional input port, BW, is added to the block.

Normalized bandwidth of the filter, specified as a scalar in the range [0,1] where 1 corresponds to the Nyquist frequency.

Normalized bandwidth is measured at gain/2 dB. If gain is set to -Inf (notch filter), normalized bandwidth is measured at the 3 dB attenuation point: $$10\times {\log }_{10}\left(0.5\right)$$.

To convert octave bandwidth to normalized bandwidth, calculate the associated Q-factor as

Then convert to bandwidth

Dependencies

To enable this parameter, clear the Specify normalized bandwidth from input port parameter.

Form of cascaded filter sections, specified as Second-order sections for SOS filters or Fourth-order sections for FOS filters.

Data type of output coefficients, specified as double or single.

Sample time of the block, in seconds, specified as -1 or a positive scalar. Setting this parameter to -1 means Simulink determines the sample time automatically for you. You can set this parameter to enable the design block to run at a slower rate than the filtering block.