RFID超高频标签可靠、经济的防碰撞技术

J. Sampe, Khairul Parman Zakaria, F. H. Hashim, M. Othman
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引用次数: 4

摘要

提出了一种可靠且经济有效的0类超高频标签防碰撞技术(RCEAT)。RCEAT体系结构由两个主要子系统组成;事前和事后。precate子系统用于检测传入消息中的任何错误。然后将无错误包的标识位(ID)馈送到下一个子系统。postceat子系统通过使用建议的快速搜索查找表来识别标签。该系统采用Verilog HDL语言进行设计。采用Modelsim软件对系统进行仿真,采用Xilinix合成技术对系统进行合成。该系统采用现场可编程网格阵列(FPGA) Virtex II在硬件上成功实现。FPGA的输出波形已在泰克逻辑分析仪上进行了实时验证。最后,利用专用集成电路(ASIC)技术对RCEAT体系结构进行了重新合成,并在片上实现。该技术由0.18 μm库、Synopsys编译器和工具组成。硬件验证结果表明,在180MHz的最大工作频率下,RCEAT系统能够准确无误地识别标签。系统功耗为7.578 mW,占用6041个栅极,占地面积0.0375 mm2,数据到达时间为2.31 ns。
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Reliable and cost effective anti-collision technique for RFID UHF tag
This paper presents a proposed Reliable and Cost Effective Anti-collision technique (RCEAT) for Radio Frequency Identification (RFID) Class 0 UHF tag. The RCEAT architecture consists of two main subsystems; PreRCEAT and PostRCEAT. The PreRCEAT subsystem is to detect any error in the incoming messages. Then the identification bit (ID) of the no error packet will be fed to the next subsystem. The PostRCEAT subsystem is to identify the tag by using the proposed Fast-search Lookup Table. The proposed system is designed using Verilog HDL. The system is simulated using Modelsim and synthesized using Xilinix Synthesis Technology. The system has been successfully implemented in hardware using Field Programmable Grid Array (FPGA) Virtex II. The output waveforms from the FPGA have been tested on the Tektronix Logic Analyzer for real time verification. Finally the RCEAT architecture is resynthesized using Application Specific Integrated Circuit (ASIC) technology for on-chip implementation. This technology consists of 0.18 μm Library, Synopsys Compiler and tools. From the hardware verification results, it shows that the proposed RCEAT system enables to identify the tags without error at the maximum operating frequency of 180MHz. The system consumes 7.578 mW powers, occupies 6,041 gates and 0.0375 mm2 area with Data arrival time of 2.31 ns.
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