Multiple apodized self-correlating tapped delay line for ID-tag and sensor applications

T. Vandahl, S. Klett, W. Buff
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引用次数: 4

Abstract

A special SAW device design, derived from conventional tapped delay lines and optimized for wireless interrogation as a two-terminal ID-tag and sensor, is presented. The working principle is based on superposition of the correlation signals of multiple apodized transducer pairs that are connected in parallel. In the device, every transducer (tap) works as both, receiver and transmitter. Design rules for calculating the apodization of multiple transducers for a given PSK-code sequence are discussed under consideration of second order effects. Optimization criteria for low-loss design of diffraction-compensated devices are addressed. Measurement results for designs with and without diffraction compensation are shown and device characteristics are derived from the results. The measured ID-tag samples were fabricated on a 128/spl deg/-YX-LiNbO/sub 3/ substrate to operate at 433.92 MHz.
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用于身份标签和传感器应用的多重自相关抽头延迟线
提出了一种特殊的声表面波器件设计,该设计源自传统的抽头延迟线,并对其作为双端id标签和传感器进行了优化。其工作原理是基于并联的多个apoapozed换能器对的相关信号的叠加。在该装置中,每个换能器(抽头)都可以同时充当接收器和发射器。在考虑二阶效应的情况下,讨论了计算给定psk码序列的多个换能器的apodization的设计规则。讨论了衍射补偿器件低损耗设计的优化准则。给出了带和不带衍射补偿设计的测量结果,并推导了器件的特性。测量的id标签样品在128/spl度/-YX-LiNbO/sub - 3/衬底上制作,工作频率为433.92 MHz。
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