Dynamic waveform shaping for reconfigurable radiated periodic signal generation with picosecond time-widths

Xue Wu, K. Sengupta
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引用次数: 13

Abstract

In this paper, a scalable architecture is presented which can generate and radiate reconfigurable periodic waveforms in free-space with picosecond time-widths. This is achieved by allowing radiated electromagnetic-fields of fundamental and multiple harmonic frequencies to combine in free-space with the right amplitudes and delays, and quasi-optically construct the time-domain waveform in the desired direction. In this paper, a 4-element array with integrated antennas is presented which is demonstrated to radiate pulse trains of 2.6 ps time-widths as well as pure tones and harmonic frequencies at 107.5 GHz (EIRP=4.5 dBm), 215 GHz (EIRP=5.0 dBm) and any combination of amplitudes and delays of these two harmonics to generate a set of reconfigurable waveforms in free space. No silicon lens or substrate thinning was employed. To the best of the authors' knowledge, this is the sharpest radiated pulses demonstrated in any IC technology. The chip is fabricated in 65nm LP CMOS process.
皮秒时间宽度可重构辐射周期信号生成的动态波形整形
本文提出了一种可扩展的结构,可以在自由空间产生和辐射具有皮秒时间宽度的可重构周期波形。这是通过允许基频和多谐波频率的辐射电磁场以正确的幅度和延迟在自由空间中组合,并在期望的方向上准光学地构建时域波形来实现的。本文提出了一种四元集成天线阵列,该阵列可以辐射2.6 ps时宽的脉冲序列,以及107.5 GHz (EIRP=4.5 dBm)和215 GHz (EIRP=5.0 dBm)的纯音和谐波频率,以及这两个谐波的幅值和延迟的任意组合,在自由空间中产生一组可重构的波形。没有使用硅透镜或衬底减薄。据作者所知,这是所有IC技术中最尖锐的辐射脉冲。该芯片采用65nm LP CMOS工艺制造。
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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