具有模拟反向散射的太阳能尖峰通信系统

2015 IEEE Asia Pacific Conference on Postgraduate Research in Microelectronics and Electronics (PrimeAsia) Pub Date : 2015-11-01 DOI:10.1109/PRIMEASIA.2015.7450483

Javed S. Gaggatur, M. Machnoor

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引用次数: 6

摘要

射频反向散射涉及到用消息信号调制天线负载。报文信号的信息含量体现在天线反射信号的幅度上。消息可以是数字信号，也可以是模拟信号。前者产生数字后向散射通信，后者产生模拟后向散射通信。本文提出了利用多个时间间隔尖峰信号进行模拟后向散射的方法，这些尖峰信号在它们的时间间隔中携带着识别信息和传感器信息。设计了太阳能电池驱动的尖峰产生电路，并在尖峰产生电路中加入延时元件对识别信息和传感器信息进行编码。HSMS2852小信号肖特基二极管用于模拟尖峰后向散射。为了减少所提出的全双工通信系统的干扰，实现了一种基于双耦合器的射频对消技术。对携带传感器和ID信息的尖峰进行时频分析。

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Solar-powered spike-based communication system with analog back scatter

Radio frequency backscatter involves the modulation of antenna load with the message signal. The information content of the message signal appears in the amplitude of the reflected signal from the antenna. The message can either be a digital signal or an analog signal. The former results in a digital backscatter communication while the latter results in an analog backscatter communication. In this paper, the analog backscatter using multiple time-spaced spike signals, which carry information of its identification and the sensor in their time separations is presented. A solar-cell powered spike generation circuit is designed and delay elements are used with the spike generator to encode the information of the identification and sensor. An HSMS2852 small signal Schottky diode is used for analog spike backscattering. A two coupler based RF cancellation technique is implemented to reduce the interference for the proposed full duplex communication system. A time-frequency analysis of the spikes carrying sensor and ID information is performed.

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来源期刊

2015 IEEE Asia Pacific Conference on Postgraduate Research in Microelectronics and Electronics (PrimeAsia)

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