Kin-Joe Sham, Mahmoud Reza Ahmadi, S. Talbot, R. Harjani
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引用次数: 39
摘要
我们提出并验证了一种高速I/O收发器设计的高效架构,实现了远端串扰(ext)消除。在本设计中,传统上用于减少ISI的TX预强调与发射机的ext抵消相结合,以消除串扰引起的抖动和干扰。基于信道测量的仿真模型验证了该架构的有效性。采用台积电0.18 μ m CMOS技术开发了12.8Gbps源同步串行链路发射机的原型实现。提出的设计由三条12.8Gbps的数据线组成,使用6.4GHz的半速率锁相环时钟。该芯片包括一个PRBS发生器,以简化多车道测试。仿真结果表明,在线间距减小2倍的情况下,文本对消可以成功地减少51.2%的抖动UI,使眼睛变宽14.5%。2.5 × 1.5 mm2的核心在1.8V电源下,以12.8Gbps的速度每通道消耗630mW
FEXT Crosstalk Cancellation for High-Speed Serial Link Design
We have proposed and verified an efficient architecture for a high-speed I/O transceiver design that implements far-end crosstalk (FEXT) cancellation. In this design, TX pre-emphasis, used traditionally to reduce ISI, is combined with FEXT cancellation at the transmitter to remove crosstalk-induced jitter and interference. The architecture has been verified via simulation models based on channel measurement. A prototype implementation of a 12.8Gbps source-synchronous serial link transmitter has been developed in TSMC's 0.18mum CMOS technology. The proposed design consists of three 12.8Gbps data lines that uses a half-rate PLL clock of 6.4GHz. The chip includes a PRBS generator to simplify multi-lane testing. Simulation results show that, even with a 2times reduction in line separation, FEXT cancellation can successfully reduce jitter by 51.2 %UI and widen the eye by 14.5%. The 2.5 times 1.5 mm2 core consumes 630mW per lane at 12.8Gbps with a 1.8V supply
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