A 56-Gbps PAM-4 Wireline Receiver With 4-Tap Direct DFE Employing Dynamic CML Comparators in 65 nm CMOS

This paper presents a four-level pulse amplitude modulation (PAM-4) receiver that incorporates a continuous time linear equalizer, a variable gain amplifier, a phase interpolator-based clock and data recovery, and a 4-tap direct decision feedback equalizer (DFE) for moderate channel loss applications in wireline communication. A dynamic current-mode logic comparator (DCMLC) is proposed and employed in the DFE. The DCMLC, which adopts dynamic logic, breaks the trade-off between the bandwidth and the clock to Q delay in the traditional current-mode logic comparator (CMLC). Compared with the traditional CMLC, the DCMLC reduces the clock to Q delay by 36%, which allows the implementation of a 4-tap direct DFE. Moreover, the first tap feedback signals are directly tapped from the output of the DCMLC, allowing the first tap feedback current to initiate 0.5UI before the decision clock. The PAM-4 receiver prototype is fabricated in a 65nm CMOS process. At a data rate of 56-Gbps, it can compensate for up to 20.17dB loss and achieve a bit error rate $< 1\text{E}$ -10 with a power efficiency of 4.75 pJ/bit.