Title :
Low Power Sparse Polynomial Equalizer (SPEQ) for Nonlinear Digital Compensation of an Active Anti-Alias Filter
Author :
Gettings, K. ; Bolstad, Andrew ; Chen, S.-Y.S. ; Ericson, Marten ; Miller, Benjamin A. ; Vai, M.
Abstract :
We present an efficient architecture to perform on-chip non-linear equalization of an anti-alias RF filter. The sparse polynomial equalizer (SPEq) achieves substantial power savings through co-design of the equalizer and the filter, which allows including the right number of processing elements, filter taps, and bits to maximize performance and minimize power consumption. The architecture was implemented in VHDL and fabricated in CMOS 65 nm technology. Testing results show that undesired spurs are suppressed to near the noise floor, improving the system´s spur-free dynamic range by 25 dB in the median case, and consuming less than 12 mW of core power when operating at 200 MHz.
Keywords :
CMOS integrated circuits; active filters; compensation; equalisers; hardware description languages; interference suppression; low-power electronics; radiofrequency filters; CMOS technology; SPEQ; VHDL; active anti-alias filter; anti-alias RF filter; equalizer co-design; filter co-design; filter taps; low power sparse polynomial equalizer; noise suppression; nonlinear digital compensation; on-chip nonlinear equalization; power consumption; processing elements; spur-free dynamic range; substantial power savings; Active filters; Delay; Dynamic range; Equalizers; Finite impulse response filter; Polynomials; Receivers; Nonlinear equalization; algorithm/hardware co-design; filter compensation; low power architectures;
Conference_Titel :
Signal Processing Systems (SiPS), 2012 IEEE Workshop on
Conference_Location :
Quebec City, QC
Print_ISBN :
978-1-4673-2986-6
DOI :
10.1109/SiPS.2012.45
