We have studied the effects of nearby Na Cl solution on the performance of ultra high frequency(UHF) radio frequency identification(RFID) tags, using simulations and measurements. The main reason for the decrease of r...We have studied the effects of nearby Na Cl solution on the performance of ultra high frequency(UHF) radio frequency identification(RFID) tags, using simulations and measurements. The main reason for the decrease of read range in proximity to Na Cl solution is the antenna gain penalty. The boundary conditions near the surface reduce antenna efficiency and antenna gain. With the conductivity of the Na Cl solution increasing, the read range of the RFID system decreases. A theoretical formula is proposed for the read range to calculate the material losses of tag antenna. The formula establishes relationship between conductivity and read range of RFID system. The maximum read range is also calculated theoretically with simulation software. In addition, we develop an experimental measurement technique to certify the feasibility of the derived formula, which involves a dynamic measurement system. Consequently, the experimental results are found to be in good agreement with theoretical data.展开更多
基金supported by National Natural Science Foundation of China(61475071)Jiangsu Natural Science Foundation(BK20141032)+3 种基金the China Postdoctoral Science Foundation(2013M531363)the Postdoctoral Science Foundation of Jiangsu Province(1202020C)the Science and Technology Project of General Administration of Quality Supervision,Inspection and Quarantine of China(2013QK194)the Science and Technology Project of Quality and Technical Supervision of Jiangsu Province(KJ133818)
文摘We have studied the effects of nearby Na Cl solution on the performance of ultra high frequency(UHF) radio frequency identification(RFID) tags, using simulations and measurements. The main reason for the decrease of read range in proximity to Na Cl solution is the antenna gain penalty. The boundary conditions near the surface reduce antenna efficiency and antenna gain. With the conductivity of the Na Cl solution increasing, the read range of the RFID system decreases. A theoretical formula is proposed for the read range to calculate the material losses of tag antenna. The formula establishes relationship between conductivity and read range of RFID system. The maximum read range is also calculated theoretically with simulation software. In addition, we develop an experimental measurement technique to certify the feasibility of the derived formula, which involves a dynamic measurement system. Consequently, the experimental results are found to be in good agreement with theoretical data.