Microwave analog-to-digital converters for broadband communications

2000 IEEE Emerging Technologies Symposium on Broadband, Wireless Internet Access. Digest of Papers (Cat. No.00EX414) Pub Date : 2000-04-10 DOI:10.1109/ETS.2000.916832

G. Frazier

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Abstract

Summary form only given. Microwave A/D and D/A converters enable digital RF systems where virtually all information is processed or generated by direct digital means. A complete receiver link can consist of a sensor (e.g. antenna or photodetector), an N-bit A/D converter, and a digital signal processor. A complete transmitter can be built using the appropriate actuator (antenna or laser), an N-bit D/A converter and a digital waveform synthesizer. Future radar, electronic warfare, and communication systems will exploit this all-digital approach to increase the performance and flexibility while lowering the cost. We describe how quantum switching devices can be used to build A/D converters with ultimate sampling rates well above 100 GHz. Resonant tunneling diodes (RTDs) are integrated with heterojunction field effect or bipolar transistors to sample, quantize, encode, demodulate, and filter broadband analog signals. Single-ended and differential circuits are discussed and compared for power consumption, area, and speed. Comparisons are made between RTD/FET and FET-only A/D functions. Results are shown for A/D quantizers that have sub-millivolt threshold sensitivity at 10 GHz sampling rates.

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宽带通信用微波模数转换器

只提供摘要形式。微波A/D和D/A转换器使几乎所有信息都通过直接数字手段处理或生成的数字射频系统成为可能。一个完整的接收链路可以由传感器(如天线或光电探测器)、n位A/D转换器和数字信号处理器组成。使用适当的执行器(天线或激光)、n位D/A转换器和数字波形合成器可以构建完整的发射机。未来的雷达、电子战和通信系统将利用这种全数字方法来提高性能和灵活性，同时降低成本。我们描述了如何使用量子开关器件来构建最终采样率远高于100 GHz的A/D转换器。谐振隧道二极管(rtd)集成了异质结场效应或双极晶体管采样，量化，编码，解调和滤波宽带模拟信号。讨论并比较了单端和差分电路的功耗、面积和速度。比较了RTD/FET和仅FET的A/D函数。结果显示了在10 GHz采样率下具有亚毫伏阈值灵敏度的A/D量化器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2000 IEEE Emerging Technologies Symposium on Broadband, Wireless Internet Access. Digest of Papers (Cat. No.00EX414)

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