Ultra-wide-band SAW RFID/sensors

2014 European Frequency and Time Forum (EFTF) Pub Date : 2014-06-23 DOI:10.1109/EFTF.2014.7331416

V. Plessky, M. Lamothe

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引用次数: 3

Abstract

During 2-year project “SAWtag” supported in frames of French program “Chaıre d'Excellence” a SAW tag and sensor system operating in the Ultra-Wide-Band (UWB) frequency range has been developed. Often SAW tags and sensors operate in 2.44 GHz ISM band using relatively narrow bandwidth B= 82.5 MHz. The characteristics of these devices can be improved using UWB technology. We have developed two prototype devices operating in 200MHz-400 MHz and 2000MHz-2500 MHz UWB frequency ranges. A UWB interrogating device (the “reader”) operating in continuous wave radar mode for 2.0-2.5 GHz range was developed and manufactured by T. Ostertag. The remote measurements show compressed RF pulses of about 2 ns duration, which include unique RF filling of a few sinusoids with amplitude modulation. Precise measurement of the pulse position is possible by correlation methods, avoiding the phase ambiguity problem. The temperature is measured with a precision of about 0.1 °C. This correlation method works even in an environment with strong reflections from metal objects. The short compressed pulses allow measuring a number of sensors simultaneously. For tag application, we measure and identify three different tags at the same time without a collision problem, and this number can easily be greatly increased. Using of Hyperbolically Frequency Modulated (HFM) signals in SAW-tags is also discussed. A UWB SAW-tag with extremely small chip size (0.8mm × 2.1 mm) has been demonstrated. We also briefly discuss the development of 6GHz SAW-tags.

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超宽带SAW RFID/传感器

在法国“Chaıre d’excellence”计划框架下支持的为期两年的“SAWtag”项目中，开发了在超宽带(UWB)频率范围内工作的SAW标签和传感器系统。通常SAW标签和传感器工作在2.44 GHz ISM频段，使用相对较窄的带宽B= 82.5 MHz。使用超宽带技术可以改善这些器件的特性。我们已经开发了两个在200mhz - 400mhz和2000mhz - 2500mhz UWB频率范围内工作的原型设备。T. Ostertag公司研制了一种工作在2.0-2.5 GHz连续波雷达模式下的超宽带询问装置(“阅读器”)。远程测量显示压缩的射频脉冲约2ns持续时间，其中包括独特的射频填充的几个正弦波的振幅调制。通过相关方法可以精确测量脉冲位置，避免了相位模糊问题。测量温度的精度约为0.1°C。这种关联方法即使在金属物体反射强烈的环境中也有效。短压缩脉冲允许同时测量多个传感器。对于标签应用，我们同时测量和识别三个不同的标签，没有冲突问题，而且这个数字很容易大大增加。讨论了双曲调频信号在saw标签中的应用。已经演示了一种芯片尺寸极小(0.8mm × 2.1 mm)的超宽带saw标签。我们还简要讨论了6GHz saw标签的发展。

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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2014 European Frequency and Time Forum (EFTF)

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