系统外干扰无法接入网络优化实例  

Optimization Examples on the External Interference Failing to Access Network

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作  者:赵启飞[1] 杨纪寿[2] 

机构地区:[1]云南大学,昆明650091 [2]柳州职业技术学院,广西柳州545006

出  处:《柳州职业技术学院学报》2013年第6期47-49,共3页Journal of Liuzhou Vocational & Technical College

摘  要:DCSl800的下行(1875MHz)与LTE的F频段(1880MHz)的保护带过小。导致DCSl800的下行对LTE的F频段(1880MHz-1900MHz)造成系统间干扰,由于是对LTE的上行频段形成干扰:故称为LTE的上行受到干扰。其主要表现在:前台测试发现,接入受到干扰小区的整体KPI都不高,影响上行吞吐率,UE发射功率高,干扰严重者,直接影响到该扇区的性能;系统测每个上行RB(0~99)的底噪高于正常值(正常为每个RB噪声-120dBm)。此种表现成因为:LTE与DC$1800基站共址;LTE与DCSl800天线的水平隔离度小于3米,垂直隔离度小于1米;解决方法为:退掉DCSl800的高频点,增加两者之间的保护隔离带;调整两者之间t天线的水平、垂直隔离度。DCS1800 downlink(1875MHz) and LTE F-band(1880MHz) guard band is too small, causing sys- tem interference between DCS1800 downlink frequency bands and LTE F-band(1880MHz-1900MHz). Be- cause the interference is in LTE uphnk bands, so call LTE uphnk interference. Its main features: reception test found that access to the overall KPI disturbed area is not high, affect the uphnk throughput, UE trans- mit power is high, impact directly on the performance of the sector. System testing each uplink RB(0-99) is higher than normal background noise (normal for each RB noise is -120dBm). These cases are because: LTE base station co-located with DCS1800, LTE and DCS1800 antenna isolation level is less than 3 me- ters and vertical separation is less than 1 meter. Workaround: drain away DCS1800 high-frequency point - and increase zone between protective buffer, adjust T antenna between the horizontal and vertical isolation.

关 键 词:系统间干扰 LTE KPI RSSI RSRP 

分 类 号:TN915.02[电子电信—通信与信息系统]

 

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