Efficient wide-band droop compensation for CIC filters: ad hoc and reconfigurable FIR architectures

Novel finite impulse response architectures for wide passband droop compensation of cascaded integrator-comb filters are presented. Compared with the recent wide-band compensators introduced in the literature, the proposed systems achieve better passband droop correction with lower power dissipation...

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Veröffentlicht in:	Electronics letters 2017-02, Vol.53 (4), p.228-229
Hauptverfasser:	Romero, D.E.T, Jimenez, M.G.C
Format:	Artikel
Sprache:	eng
Schlagworte:	ad hoc FIR architectures Architecture cascaded integrator‐comb filters CIC filters Circuits and systems comb filters Compensation Compensators Electronics finite impulse response architectures FIR filters FPGA Hardware hardware utilisation Impulse response Mathematical analysis passband droop correction post‐place‐and‐route information Power dissipation reconfigurable FIR architectures wide passband droop compensation wide‐band compensators wide‐band droop compensation
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container_title	Electronics letters
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creator	Romero, D.E.T Jimenez, M.G.C
description	Novel finite impulse response architectures for wide passband droop compensation of cascaded integrator-comb filters are presented. Compared with the recent wide-band compensators introduced in the literature, the proposed systems achieve better passband droop correction with lower power dissipation, lower hardware utilisation and higher maximum frequency of operation, as validated with post-place-and-route information from FPGA-based implementations.
doi_str_mv	10.1049/el.2016.3782
format	Article
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subjects	ad hoc FIR architectures Architecture cascaded integrator‐comb filters CIC filters Circuits and systems comb filters Compensation Compensators Electronics finite impulse response architectures FIR filters FPGA Hardware hardware utilisation Impulse response Mathematical analysis passband droop correction post‐place‐and‐route information Power dissipation reconfigurable FIR architectures wide passband droop compensation wide‐band compensators wide‐band droop compensation
title	Efficient wide-band droop compensation for CIC filters: ad hoc and reconfigurable FIR architectures
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