Non‐linear MLE‐based digital equaliser for ADC‐based backplane receivers

Abstract

Analogue-to-digital-converter-based (ADC-based) backplane receivers have been widely studied in recent years as ever-increasing data rate calls for strong equalisation. However, despite their ability to support various types of digital equalisation techniques, most receivers rely on linear finite-impulse-response-filter-based (FIR-filter-based) equalisers that are susceptible to quantisation error of the front-end ADC. This Letter proposes a non-linear maximum-likelihood-estimation-based (MLE-based) equaliser that utilises channel output distribution and probability theory to make bit decisions. The proposed non-linear algorithm achieves robust performance against quantisation noise of the front-end ADC. Moreover, a feed-forward equaliser can be implemented without involving multi-bit multipliers and adders that cause serious hardware complexity overhead. Simulation results suggest that the proposed MLE-based equaliser can improve bit error rate (BER) by 1010 times with a 5-bit front-end ADC and save front-end ADC bit resolution by more than 0.8 bits with BER of 10−15, when compared with the conventional FIR-filter-based equaliser.