一个硅双极15ghz静态分频器和10gb /s多路复用器

IEEE International Solid-State Circuits Conference, 1989 ISSCC. Digest of Technical Papers Pub Date : 1989-02-15 DOI:10.1109/ISSCC.1989.48264

P. Wegner, L. Treitinger, A. Wieder, H. Rein

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引用次数: 11

摘要

作者描述了一个16:1分频组成的四个2:1分频阶段和一个50- ω输出阶段。限速第一级是一个主/从d触发器，逆变器输出反馈到数据输入。第一级的功耗为310兆瓦，随后三个分压器的功耗为190兆瓦，输出缓冲器的功耗为40兆瓦。与III-V型半导体分压器相比，标准电源电压仅为5 V就足够了。该电路设计基于优化的8:1分频器，采用自对准发射基配置的2 μ m硅双极技术，产生8 GHz频率。分频器结果表明，该技术适合于高数据速率的数据处理，为此设计了多路复用器、解路复用器、d触发器等基本元件。结果表明，基于先进硅双极技术实现的集成电路的数据处理和通信可以在10 Gb/s及以上的数据速率下进行。

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A Si bipolar 15 GHz static frequency divider and 10 Gb/s multiplexer

The authors describe a 16:1 divider consisting of four 2:1 divider stages and a 50- Omega output stage. The speed-limiting first stage is a master/slave D-flip-flop with inverter output fed back to the data input. The power consumption is 310 mW for the first stage, 190 mW for all three succeeding divider stages, and 40 mW for the output buffer. In contrast to III-V semiconductor dividers, the standard supply voltage of only 5 V is sufficient. The circuit design is based on an optimized 8:1 frequency divider yielding 8 GHz for a 2- mu m silicon bipolar technology with self-aligned emitter-base configuration. As is shown by the divider results, this technology is suited for data processing at high data rates, for which basic elements such as multiplexers, demultiplexers, D-flip-flops, etc. have been designed. The results indicate that data processing and communication based on ICs realized in advanced silicon bipolar technologies can be performed at data rates of 10 Gb/s and above.<>

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来源期刊

IEEE International Solid-State Circuits Conference, 1989 ISSCC. Digest of Technical Papers

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