Range detection of moisture plume with miniaturized microwave sensor

2012 1st International Symposium on Physics and Technology of Sensors (ISPTS-1) Pub Date : 2012-03-07 DOI:10.1109/ISPTS.2012.6260890

R. Rashmi, S. Duttagupta, K. P. Ray, M. D. Pandey

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引用次数: 2

Abstract

Range detection and tracking of moisture plume in the microwave spectrum (L-band: 1–2 GHz) has been successfully achieved using compact sensors. Range detection is advantageous over point sensors due to its long range tracking capability as well as its immunity from adverse weather conditions. Hexagonal Microstrip antenna (HMSA) and its miniaturized shorter versions (4X) are investigated as potential sensor candidates. HMSA is modified by shorting along the zero field to yield Quarter Hexagonal Microstrip Antenna (QHMSA). QHMSA acts as a shorted 90° sectoral antenna. There is a size reduction by a factor of four without any significant change in resonant frequency. The sensing is based on the principle of loss in attenuation in the presence of moisture plume. As moisture is known to absorb microwave frequency, there is a reduction in S21 which is a measure of the device sensitivity. Effective aperture size of the antenna in compact shorted mode is reduced and accordingly the gain. Since loss in attenuation (S21) is unchanged even with reduced gain, the sensitivity to moisture and thereby sensor's performance remains unaffected. The frequency with an insignificant variation of about 2–3% and an enhanced bandwidth (∼ 60%) of the QHMSA over HMSA further adds to its sensitivity.

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用微型微波传感器探测水汽羽流的距离

利用紧凑型传感器，成功实现了l波段1 ~ 2ghz微波频谱中水汽羽流的距离探测和跟踪。距离探测比点传感器更有优势，因为它具有远距离跟踪能力以及对恶劣天气条件的免疫力。六方微带天线(HMSA)及其小型化版本(4X)作为潜在的候选传感器进行了研究。采用沿零场短路的方法改进微带天线，得到四分之一六边形微带天线(QHMSA)。QHMSA作为一个短的90°扇形天线。尺寸减小了四分之一，而共振频率没有明显变化。这种感应是基于存在水汽羽流时衰减损失的原理。由于已知水分会吸收微波频率，因此S21的减少是测量器件灵敏度的一种方法。在紧凑短模下，天线的有效孔径减小，增益也随之降低。由于衰减损失(S21)即使在增益降低的情况下也不会改变，因此对水分的灵敏度和传感器的性能不受影响。与HMSA相比，QHMSA的频率变化约为2-3%，且带宽增强(约60%)，进一步增加了其灵敏度。

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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来源期刊

2012 1st International Symposium on Physics and Technology of Sensors (ISPTS-1)

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