谐振隧道二极管在高速数字集成电路中的应用

Conference Proceedings. Eleventh International Conference on Indium Phosphide and Related Materials (IPRM'99) (Cat. No.99CH36362) Pub Date : 1999-05-16 DOI:10.1109/ICIPRM.1999.773719

T. Akeyoshi, H. Matsuzaki, T. Itoh, T. Waho, J. Osaka, M. Yamamoto

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引用次数: 22

摘要

谐振隧道二极管(rtd)在超高速电路中的应用得到了发展。关键是利用RTD的负差分电阻产生的边缘触发和锁存特性，以及RTD与高电子迁移率晶体管(hemt)的结合。各种触发器(FF)电路单片集成基于inp的rtd和hemt的高速低功耗工作已经在室温下进行了演示，包括35 Gbit/s的延迟触发器操作。将电子输入电路的概念扩展到光输入电路，开发了一种集成rtd和光电二极管的超高速光电电路。利用这种光电电路，我们成功地将80 Gbit/s的光信号解复用为40 Gbit/s的电信号。这些结果显示了基于rtd的电路在超高速通信和信号处理电路中的潜力。

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Applications of resonant-tunneling diodes to high-speed digital ICs

Ultrahigh-speed circuit applications of resonant-tunneling diodes (RTDs) have been developed. The key points are the utilization of the edge-triggered and latching properties arising from the negative differential resistance of the RTD, and the combination of RTDs and high electron mobility transistors (HEMTs). High-speed and low power operation of various flip-flop (FF) circuits monolithically integrating InP-based RTDs and HEMTs have been demonstrated at room temperature, including a delayed flip-flop operation at 35 Gbit/s. By extending the concept of electronic-input circuits to the optical-input circuit, an ultrahigh-speed optoelectronic circuit integrating RTDs and a photodiode has been developed. Using this optoelectronic circuit, we have succeeded in demultiplexing a 80 Gbit/s optical signal into a 40 Gbit/s electrical signal. These results show the potentiality of RTD-based circuits for ultrahigh-speed communications and signal processing circuits.

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Conference Proceedings. Eleventh International Conference on Indium Phosphide and Related Materials (IPRM'99) (Cat. No.99CH36362)

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