A 103.13-Gbps 4-lane transceiver for copper cable applications was fabricated in 28-nm CMOS technology. The transceiver can transmit 103.13-Gbps data through 4-lane 47-dB-loss channels. To achieve this result, ISI should be suppressed; equalization allocation of a four-tap FFE, a CTLE with a low-frequency equalizer and a DFE is optimized with the proposed tap-based auto equalization. In addition, SNR degradation should be suppressed as much as possible to receive a small signal through a large loss channel. Here, a sub-mV dynamic DC offset canceller and a DFE with a bias controlled tap slicer are proposed. The DC offset canceller reduces DC offset of the CTLE to less than 1 mV. The DFE with a bias controlled tap slicer has an input sensitivity finer than 1.2 mV 0p , which improves the SNR at the slicer’s input and reduces the dead zone of CDR phase detector to less than 1.7 ps. The transceiver consumes 403 mW from a 0.9 V and 1.5 V supply per lane, which includes 1/4 of the power consumption of the PLL and 1/8th the power consumption of the common block.