Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

We were given a task to implement a filter(digital high pass IIR filter) to reduce frequencies below 500 Hz and allow higher frequencies. Using the sptool, and the ellip funciton we constructed the following

% Sampling Rate (Hz)
Fs = 46875; 

% High-pass filter
N = 4; % Filter Order
Wn = 500/(46875/2);  % Cutoff Frequency in terms of Passband / Nyquist frequency ratio
Rp = 0.5; % Passband ripple specification
Rs = 20; % Stopband attenuation

[Num,Den] = ellip(N,Rp,Rs,Wn,'high');

secondOrderSection = tf2sos(Num,Den)./2

We then calculated the scalefactors using L1 norm: We need to implement this on a 16 bit atmel microcontroller, (AC3U3 Xplained) and must therefore calculate the scalefactors in Q_0.15 form

firstScaleFactor = 1/(sum(abs(impz(1,secondOrderSection(1,4:6)))))
sf1_2_Q = round(firstScaleFactor*(2^15))

secondScaleFactor = 1/(sum(abs(impz(1,secondOrderSection(2,4:6)))))
sf2_2_Q = round(secondScaleFactor*(2^15))

The Problem: Our scalefactors seems to be a bit low, First scale factor is 77, second is 14. Is there any errors in our calculations?

share|improve this question

1 Answer 1

This application note by Texas Instruments contains an overview of techniques for overflow avoidance in fixed-point filter implementation.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.