Elliptic Filter
Syntax
Hd = ellip (Order, Frequencies, Rp, Rs, Type, DFormat)
Description
Classic IIR Elliptic filter design.
- Equiripple in both the passband and stopband.
- Fastest roll-off.
- Lowest order filter of all supported prototypes.
Hd = ellip (Order, Frequencies, Rp, Rs, Type, DFormat)
Order: may be specified up to 20 (professional) and up to 10 (educational) edition. Setting the Order to 0, enables the automatic order determination algorithm.
Frequencies: lowpass and highpass filters have one transition band, and in as such require two frequencies (i.e. lower and upper cut-off frequencies of the transition band). For bandpass and bandstop filters, four frequencies are required (i.e. two transition bands). All frequencies must be ascending in order and < Nyquist (see the example below).
Rp: Passband ripple in dB.
Rs: Stopband attenuation in dB.
Type: The elliptic method facilitates the design of lowpass, highpass, bandpass and bandstop filters respectively.
Hd: the elliptic method designs an IIR Elliptic filter based on the entered specifications and places the transfer function (i.e. numerator, denominator, gain) into a digital filter object, Hd. The digital filter object can then be combined with other methods if so required. For a digital filter object, Hd, calling getnum(Hd), getden(Hd) and getgain(Hd) will extract the numerator, denominator and gain coefficients respectively – see below.
DFormat: allows you to specify the display format of resulting digital filter object.
symbolic |
Display a symbolic representation of the filter object. If the order > 10, the symbolic display option will be overridden and set to numeric. |
numeric |
Display a matrix representation of the filter object. |
void |
Create a filter object, but do not display output. |
Example
ClearH1; // clear primary filter from cascade
ShowH2DM; // show DM on chart</code>
Main()
Rp=1;
Rs=80;
F={50,120};
Hd=ellip(0,F,Rp,Rs,"lowpass","symbolic");
F={50,80,100,120};
Hd=ellip(0,F,Rp,Rs,"bandpass","symbolic");
Num = getnum(Hd); // define numerator coefficients
Den = getden(Hd); // define denominator coefficients
Gain = getgain(Hd); // define gain
See also
bessel / butter / cheby1 / cheby2 / ellip / arbmagphase / cplxfreqshift / dcremover / notch / peaking