采用65nm CMOS自混频器功率检测器的140ghz节能OOK接收机

2022 International Conference on IC Design and Technology (ICICDT) Pub Date : 2022-09-21 DOI:10.1109/ICICDT56182.2022.9933075

N. Khanh, D. Yamazaki, T. Iizuka

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引用次数: 0

摘要

本文提出了一种集成140 GHz的65nm CMOS接收器，包括一个功率检测器，用于高带宽和节能的通信和雷达应用。毫米波功率探测器采用自混频器方案，使用NMOS晶体管馈送到一个简单的RC低通滤波器。测量结果表明，该接收机可在134-158 GHz的宽带频率范围内工作，且其核心面积仅为220µm×220µm。为了实现解调波形和误码率(BER)测量，我们制作了一个原型，包括一个OOK调制器，然后是65nm CMOS工艺的拟议接收器。该原型成功演示了11gb /s载波频率为140ghz的解调波形和误码率测试。在11gb /s下，测得的误码率为2.1 × 10−4，在8gb /s或更低的情况下，误码率小于1 × 10−11，这是BERT的极限。我们的OOK收发器原型可以实现低功耗，高隔离，小芯片面积，具有更大的设计自由度，适合毫米波d波段通信或雷达系统。

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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140 GHz Energy-Efficient OOK Receiver using Self-Mixer-Based Power Detector in 65nm CMOS

This paper presents an integrated 140 GHz receiver in 65 nm CMOS including a power detector for high-bandwidth and power-efficient communication and radar applications. The mm-wave power detector utilizes a self-mixer scheme by the use of an NMOS transistor fed to a simple RC low-pass filter. Measured result shows that it can operate in a wide-band frequency range of 134–158 GHz and the proposed receiver occupies a small core area of 220 µm×220 µm. To realize the demodulated waveform and bit error rate (BER) measurements, we fabricated a prototype including an OOK modulator followed by the proposed receiver in a 65 nm CMOS process. The prototype successfully demonstrates a demodulated waveform and BER test at 11 Gb/s with a carrier frequency of 140 GHz. The measured BER is 2.1 × 10−4 at 11 Gb/s and less than 1 × 10−11, which is a limit of the BERT, at 8 Gb/s or less. Our OOK transceiver prototype can achieve low power, high isolation, and small die area with more design freedom and suitable for mm-wave D-band communication or radar systems.

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2022 International Conference on IC Design and Technology (ICICDT)

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