介绍一种用于适用于超高频段以上的射频读写器功率控制方案。
Present a design of the Emissive Microwave Power Control used for the UHF RFID Reader.
射频识别系统主要由读写器、天线、电子标签等硬件设备和数据采集、处理中间件等软件组成。
Generally, RFID System consists of hardware instruments, such as RF reader, antenna, transponder, and software components such as data collecting and processing Middleware.
射频识别系统主要由应答器和读写器两部分组成。
RFID system is mainly composed of two parts, tag and target.
射频识别系统主要由读写器、应答器两部分组成,通过射频方式进行无线双向通信,完成目标识别和数据交换。
A simple RFID system consists of reader and transponder, by wireless two-way radio communication, target recognition and data exchange.
文中给出射频识别系统的设计方案,系统采用反向散射调制技术完成从电子标签到读写器的数据传输。
The design scheme of a RFID (Radio Frequency Identification)System is given in this paper. The backscatter modulation technique is used to transmit the data to the reader from a tag.
射频识别(RFID)技术是一门新兴的自动识别技术,其主要核心部件是读写器和电子标签。
Radio Frequency Identification(RFID) is an identification technique such as the barcode or magnetic strip technology.
紧接着按照非接触式ic智能射频卡特点,重点研发了射频ic卡及其读写器的硬件电路。
Basing on the characteristics of contactless RF IC card, this paper then stresses to analyse and develop the system's hardware circuit.
紧接着按照非接触式ic智能射频卡特点,重点研发了射频ic卡及其读写器的硬件电路。
Basing on the characteristics of contactless RF IC card, this paper then stresses to analyse and develop the system's hardware circuit.
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