A 2.29pJ/b 112Gb/s Wireline Transceiver with RX 4-Tap FFE for Medium-Reach Applications in 28nm CMOS
Bingyi Ye, Kai Sheng, Weixin Gai, Haowei Niu, Boyang Zhang, Yandong He, Song Jia, Congcong Chen, Jiaqi Yu
Abstract
The increasing demand for higher network data rates by new businesses and entertainment has never been fulfilled. Mixed-signal PAM - 4 transceivers prevail over their ADC - DSP counterparts in energy efficiency and chip area, but they have difficulties operating over high - loss links. Typically, a continuous-time linear equalizer (CTLE) and a multi-tap decision-feedback equalizer (DFE) are implemented in a mixed-signal receiver (RX). However, when the data rate reaches 112Gb/s, the implementation of the DFE suffers from stringent feedback timing. Direct DFE works only at 100Gb/s in an optical receiver [1], leaving no room for feedforward error correction (FEC). A speculative 1 - tap DFE is implemented in [2], but it requires an 8-tap feedforward equalizer (FFE) at the transmitter (TX) to generate a 1+0.5D response; this may be impractical without knowing the characteristics of the entire channel. Another drawback of a speculative DFE is the large 1 <sup xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">st</sup> -tap latency, which brings about challenges in realizing two or more taps. In addition, the DFE does not compensate for pre-cursor inter-symbol interference (ISI), which becomes significant for channels with higher loss. Without a DFE, the CTLE only covers a small loss of up to 10dB [3,4]. This paper presents a 112Gb/s mixed-signal transceiver using an RX analog FFE with adaptive pre- and post-cursor ISI equalization in 28nm CMOS, compensating for 20.8dB loss at a power efficiency of 2.29pJ/b.