In this experiment we were supposed to find the output of digital Butterworth Filter. First the order of the filter and cut off frequency is calculated. After this normalized transfer function is calculated from which denormalised transfer function is calculated by replacing 's'. Then z transform is obtained by BLT and the output graph of magnitude v/s frequency is observed.
Butterworth
Analog Butterworth LPF has only poles and no zeros.
ReplyDeleteThis is because the transfer function of Butterworth filter is of the form: H(s)= 1/(f(s))
Deletehence it always deal with the poles and not zeros
Due to its maximum flat pass band nature it is used as anti-aliasing filter in data converter applications.
ReplyDeleteoh! Thanks for the valuable information Pranav
DeleteIt has applications in radars such as in designing the display of radar target track. These are also used in digital filters for motion analysis.
ReplyDelete