S. Chandramouli, F. Bien, Hyoungsoo Kim, E. Gebara, J. Laskar
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引用次数: 3
摘要
在0.18 μ m 40 GHz ft CMOS工艺中实现了非锁定模拟决策反馈均衡器(ADFE),以8~10 gb /sec的速度均衡传统的FR-4背板通道。通过使用新颖的无锁反馈拓扑和电流模式逻辑(CML)电路构建块,满足了DFE关键的第一次反馈环路延迟要求。该电路由一个4抽头线性模拟前馈滤波器组成,该滤波器消除光标前符号间干扰(ISI)以部分打开眼睛,以及一个新颖的1抽头模拟可调CML反馈滤波器,该滤波器能够以10 gb /秒的速度消除第一个后光标,而无需使用较小的工艺节点或推测技术。带衬垫的芯片占地1.04 mm2,在典型的工艺角处从1.8 V电源吸取240 mA直流电流。ADFE用于以8gb /秒和10gb /秒的速度均衡20英寸的FR-4背板走线。
A 10-Gb/sec unclocked current-mode logic (CML) analog decision-feedback equalizer (ADFE) in 0.18-μm CMOS
An unclocked analog decision-feedback equalizer (ADFE) is implemented in a 0.18-mum 40 GHz ft CMOS process to equalize legacy FR-4 backplane channels at 8~10-Gb/sec. The critical first feedback-loop latency requirement of the DFE is met by using a novel unclocked feedback topology and current-mode logic (CML) circuit building blocks. The circuit consists of a 4-tap linear analog feed-forward filter that cancels pre-cursor inter-symbol interference (ISI) to partially open the eye and a novel 1-tap analog tunable CML feedback filter that enables cancellation of the first post-cursor at 10-Gb/sec without the use of smaller process nodes or speculative techniques. The chip with pads occupies 1.04 mm2 and draws 240 mA DC current from a 1.8 V supply at a typical process corner. The ADFE is used to equalize 20 inches of FR-4 backplane traces at 8-Gb/sec and 10-Gb/sec.
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