现代电子技术
現代電子技術
현대전자기술
MODERN ELECTRONICS TECHNIQUE
2014年
9期
66-69,72
,共5页
移动通信干扰%RFID标签%标签天线%抗干扰%UHF频段
移動通信榦擾%RFID標籤%標籤天線%抗榦擾%UHF頻段
이동통신간우%RFID표첨%표첨천선%항간우%UHF빈단
mobile communication interference%RFID label%tag antenna%anti-interference%UHF band
我国的UHF RFID使用的800/900 MHz频段距离移动通信CDMA800、GSM等频段较近,易受到移动通信系统的干扰,导致RFID标签的解调误码率增加。在分析干扰形成机理的基础上,通过对UHF频段频率分布的分析,提出了抗移动通信终端干扰的UHF RFID标签天线设计方法,推导出介质基板厚度h计算公式。将该方法应用到IT设备资产进行管理的RFID标签天线设计上,仿真结果表明,RFID频段的回波损耗S11值均小于-10 dB,CDMA800、GSM等频段的回波损耗S11均大于-10 dB,RFID频段的电压驻波比VSWR值均小于2,移动通信频段的电压驻波比VSWR值均大于2,获得了良好的抗移动通信终端干扰的性能。
我國的UHF RFID使用的800/900 MHz頻段距離移動通信CDMA800、GSM等頻段較近,易受到移動通信繫統的榦擾,導緻RFID標籤的解調誤碼率增加。在分析榦擾形成機理的基礎上,通過對UHF頻段頻率分佈的分析,提齣瞭抗移動通信終耑榦擾的UHF RFID標籤天線設計方法,推導齣介質基闆厚度h計算公式。將該方法應用到IT設備資產進行管理的RFID標籤天線設計上,倣真結果錶明,RFID頻段的迴波損耗S11值均小于-10 dB,CDMA800、GSM等頻段的迴波損耗S11均大于-10 dB,RFID頻段的電壓駐波比VSWR值均小于2,移動通信頻段的電壓駐波比VSWR值均大于2,穫得瞭良好的抗移動通信終耑榦擾的性能。
아국적UHF RFID사용적800/900 MHz빈단거리이동통신CDMA800、GSM등빈단교근,역수도이동통신계통적간우,도치RFID표첨적해조오마솔증가。재분석간우형성궤리적기출상,통과대UHF빈단빈솔분포적분석,제출료항이동통신종단간우적UHF RFID표첨천선설계방법,추도출개질기판후도h계산공식。장해방법응용도IT설비자산진행관리적RFID표첨천선설계상,방진결과표명,RFID빈단적회파손모S11치균소우-10 dB,CDMA800、GSM등빈단적회파손모S11균대우-10 dB,RFID빈단적전압주파비VSWR치균소우2,이동통신빈단적전압주파비VSWR치균대우2,획득료량호적항이동통신종단간우적성능。
The 800/900 MHz band that China's UHF RFID uses is near CDMA800 and GSM band of mobile communica-tion,so it is vulnerable to interference from mobile communication system and results in the increase of the demodulation bit er-ror rate of RFID tags. On the basis of the analysis on the formation mechanism of interference and the frequency distribution of UHF band,the design method of the UHF RFID tag antenna against mobile communication terminal interference is put forward, and a calculation formula for the dielectric substrate thickness is derived. The method is applied to RFID tag antenna design of the IT equipment asset management. The simulation results show that the return loss S11 of RFID band is less than -10 dB,the return loss S11 of CDMA800 and GSM band is larger than -10 dB, the voltage standing wave ratio(VSWR) in RFID band is less than 2,but VSWR in mobile communication frequency band is greater than 2. The design method of the antenna obtained perfect performance against interference from the mobile communication terminal.
