Title :
Maximally flat power complementary filters with symmetric bandpass response
Author :
Pillai, S. Radhakrishnan ; Nugent, Sherwin T.
Author_Institution :
Dept. of Electr. Eng., James Cook Univ., Townsville, Qld., Australia
Abstract :
The problem of designing three channel power complementary filters that partition the frequency spectrum into nonoverlapping subbands is considered. It is shown that in the rational case maximally flatness, together with the power complementary condition G1(ω)+G2(ω)+G 3(ω)=1, uniquely specifies the desired filter transfer functions in terms of certain Butterworth polynomials. These optimal filters can be chosen to be stable, and they depend solely on the zeros of a key polynomial that is characteristic to the asymptotic behavior of the bandpass gain. Furthermore, if the bandpass gain G 2(ω) is also required to be symmetric, this key polynomial reduces to a real quadratic equation and its zeros can be used to shape the band responses
Keywords :
band-pass filters; filtering and prediction theory; frequency response; network synthesis; poles and zeros; polynomials; signal processing; transfer functions; Butterworth polynomials; bandpass gain; frequency spectrum; maximally flatness; nonoverlapping subbands; optimal filters; symmetric bandpass response; three channel power complementary filters; transfer functions; zeros; Band pass filters; Design engineering; Electronic mail; Frequency; Passband; Polynomials; Power engineering and energy; Power filters; Signal design; Signal processing;
Conference_Titel :
Signals, Systems and Computers, 1992. 1992 Conference Record of The Twenty-Sixth Asilomar Conference on
Conference_Location :
Pacific Grove, CA
Print_ISBN :
0-8186-3160-0
DOI :
10.1109/ACSSC.1992.269296
