Title :
Chebyshev Stopbands for CIC Decimation Filters and CIC-Implemented Array Tapers in 1D and 2D
Author :
Coleman, Jeffrey O.
Author_Institution :
Radar Div., Naval Res. Lab., Washington, DC, USA
Abstract :
The stopbands of a cascaded integrator-comb (CIC) decimation filter are ordinarily very narrow, as each results from a single multiple zero. Here response sharpening with a Chebyshev polynomial, using a previously reported CIC variant, separates each such multiple zero into an equiripple stopband. By trading unneeded depth at stopband center for improved depth at the stopband edge, the latter depth improves by some 6(N-1) dB in an Nth-order system. Increased computational complexity is modest: a few low-speed additions and multiplications by small integer coefficients that can often be chosen as powers of two. Alternatively, parameters can be configured to replace the many small stopbands with one large one, and this is demonstrated here with example spatial-processing CIC designs that create pencil beams for 1D and 2D receive antenna arrays.
Keywords :
antenna arrays; band-stop filters; computational complexity; digital filters; polynomials; receiving antennas; 1D receive antenna arrays; 2D receive antenna arrays; CIC decimation filters; CIC-implemented array tapers; Chebyshev polynomial; Chebyshev stopbands; Nth-order system; cascaded integrator-comb decimation filter; computational complexity; digital filters; equiripple stopband; pencil beams; small integer coefficients; spatial-processing CIC designs; Chebyshev approximation; Digital filters; Digital signal processing; Frequency response; Passband; Polynomials; Digital signal processing; digital filters;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2012.2206435
