Moreover, due to the working frequency and principles of UHF RFID system, there are many impact factors which degrade RFID reading performance in different scenarios.
基于UHF RFID系统工作频段的特殊性以及读写原理的特点,不同的应用场景会存在削弱RFID读取性能的众多影响因子。
Therefore, how to enhance the reading performance of UHF RFID system as well as improve the efficiency of the implementation on site becomes an enormous challenge in RFID deployment field.
如何提高UHF RFID系统的读取性能和现场实施的效率,成为了RFID系统部署所面临的巨大挑战。
A system having a UHF RFID transceiver is adapted to communicate exclusively with a single electro-magnetically coupled transponder located in a predetermined confined transponder operating region.
具有UHF RFID收发器的系统适于排它地与位于预定的限定的应答器工作区中的单个电磁耦合应答器通信。
This paper's main task is the design, optimization and process testing of compact high-performance microstrip patch antenna for the reader antenna of the UHF band RFID reader antenna system.
本文的主要工作是针对UHF频段RFID系统读写器天线的要求,设计、优化并加工测试了小型化高性能的微带天线。
This paper's main task is the design, optimization and process testing of compact high-performance microstrip patch antenna for the reader antenna of the UHF band RFID reader antenna system.
本文的主要工作是针对UHF频段RFID系统读写器天线的要求,设计、优化并加工测试了小型化高性能的微带天线。
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