An 11.05 mW/Gbps Quad-Channel 1.25-10.3125 Gbps Serial Transceiver With a 2-Tap Adaptive DFE and a 3-Tap Transmit FFE in 40 nm CMOS

Hong Chen,Dengjie Wang,Ziqiang Wang,Shuai Yuan,Chun Zhang,Zhihua Wang

doi:10.1109/access.2021.3078844

Hong Chen, Dengjie Wang + Show 4 more

Open Access

https://doi.org/10.1109/access.2021.3078844

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Abstract

This paper presents a quad-channel 1.25-10.3125 Gbps wireline transceiver implemented in 40 nm CMOS technology. The transmitter consists of a bit width adjustment, a 40:2 multiplexer, a 2:1multiplexer, and a current-mode logic driver with a 3-tap feedforward equalizer. The receiver has a two-stage continuous-time linear equalizer, a 2-tap half-rate fully adaptive decision-feedback equalizer, a phase interpolation-based digital clock and data recovery (CDR) followed by a 2:40 demultiplexer, a bit width adaption. The transceiver also supports AC/DC coupling, CDR locking detection, PLL locking detection, loss of signal detection, automatic termination impedance calibration. A ring VCO-based PLL is designed in each lane to save power consumption, and a dual-core LC VCO-based PLL is implemented in each bank to generate a low jitter clock signal. At 10.3125 Gbps, the transceiver can equalize 28 dB Nyquist loss at a bit error rate of 10−12, and it consumes 114 mW with a 1.1 V supply. This work presents a high power efficiency of 11.05 mW/Gbps, and the transceiver is suitable for multi-standard applications due to its flexibility and power efficiency.

Highlights

With the development of interconnect technology, high-speed serial transceivers are widely used in computers, embedded systems, communication networks, and consumer electronic products
It is of great significance to develop a multiple standards wireline transceiver to meet the urgent needs of real-time, flexible interconnection, and high-speed data exchange among devices with different protocols
MEASUREMENT RESULTS The multi-standard serial transceiver chip is fabricated in a 40nm CMOS process

Summary

Introduction

With the development of interconnect technology, high-speed serial transceivers are widely used in computers, embedded systems, communication networks, and consumer electronic products. The CML driver with adjustable tail currents controlled by digital to analog converters (DACs) is designed to achieve the flexibility of output swing, equalization, as well as highenergy efficiency.

Results

Conclusion