基于AD9361的掌上型LTE RRU设计与开发
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摘要
当前小体积远端射频单元(Remote Radio Unit,RRU)主要是皮站级别的Pico-RRU,其重量和体积仍然难以满足掌上型的要求。为此,采用高集成度的AD9361芯片来实现长期演进(Long Term Evolution,LTE)宽带收发信机功能,配合时钟同步模块、放大器模块和控制接口电路等一起构建低成本的掌上型RRU。主要解决了基于AD9516的时钟同步、低相位噪声设计和高灵敏度接收机设计三个技术难点,成功实现了掌上型、高性能、低成本的设计目标。整个RRU样机尺寸为18 cm×10 cm×2 cm,质量约500 g,量产成本千元以内。测试表明,该RRU下行误差向量幅度(Error Vector Magnitude,EVM)小于3%,优于3GPP要求的8%; 10 MHz带宽时上行接收机灵敏度优于3GPP要求的-93.5 d Bm。
Pico-RRU( Remote Radio Unit) is current typical small size RRU,while it is still too big and too heavy for the handheld equipment.In this paper,a low cost and small size handheld long term evolution( LTE) RRU is developed.It includes clock synchronization module,low noise amplifier module,control &interface circuit and a transceiver module based on AD9361.Three key technical issues are solved including clock synchronization based on AD9516,low noise design and high sensitivity receiver.Finally a small size,high performance and low cost RRU sample is released.Its size is 18 cm×10 cm×2 cm,weight is about 500 g and its cost is no more than 1 000 RMB.The downlink error vector magnitude( EVM) is below 3%,better than 8% required by 3 GPP; the uplink receiver reference sensitivity is better than-93.5 dBm required by3 GPP when the bandwidth is 10 MHz.
Pico-RRU( Remote Radio Unit) is current typical small size RRU,while it is still too big and too heavy for the handheld equipment.In this paper,a low cost and small size handheld long term evolution( LTE) RRU is developed.It includes clock synchronization module,low noise amplifier module,control &interface circuit and a transceiver module based on AD9361.Three key technical issues are solved including clock synchronization based on AD9516,low noise design and high sensitivity receiver.Finally a small size,high performance and low cost RRU sample is released.Its size is 18 cm×10 cm×2 cm,weight is about 500 g and its cost is no more than 1 000 RMB.The downlink error vector magnitude( EVM) is below 3%,better than 8% required by 3 GPP; the uplink receiver reference sensitivity is better than-93.5 dBm required by3 GPP when the bandwidth is 10 MHz.
引文
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[2]徐贵森,王瑜琦,钱志红,等.浅析数字集群宽带化发展趋势[J].移动通信,2013(18):25-29.
[3] XIANG H,YANG X,LI Z,et al.A new multi-core software architecture for improving CUR in LTE Layer1 DSP/So C[C]//Proceedings of 2013 International Conference on Connected Vehicles and Expo(ICCVE). Las Vegas:IEEE,2013:521-525.
[4]董海涛,杨志华,韩晓亮,等.分布式皮基站解决室内深度覆盖探讨[J].电信技术,2017(7):81-84.
[5]中兴公司.Qcell-创新的多模多频室内深度覆盖解决方案[EB/OL].[2018-12-10]. https://www. zte. com.cn/china/solutions/access/flexible/Qcell.
[6]费元春,徐学新,陈世伟.移动通信接收机设计与实现[J].兵工学报,2002,23(4):497-499.
[7]杨洪涛,王巍,隋天宇,等.LTE毫微微蜂窝基站射频收发器的设计与实现[J].微波学报,2015,31(6):59-63.
[8]曹新涛.基于AD9361的无线收发系统设计[D].西安:西安电子科技大学,2016.
[9] 3GPP.Base station(BS)transmission and reception:TS36.104 version 11.16.0 release 11[S]. Valbonne:3GPP,2016:70-71.
[10]牛光辉,苏鹏.带通采样在多载波数字中频接收机中的应用[J].电讯技术,2008,48(1):47-51.
[11] Texas Instruments. TPS7A8300 datasheet[EB/OL].[2018-12-10]. http://www. ti. com/lit/ds/symlink/tps7a8300.pdf.
[12]毛华平.放大器噪声系数计算[EB/OL].[2018-06-15]. http://www. ti. com. cn/cn/lit/an/zhca525/zhca525.pdf.
[13]许琼.基于TD-LTE技术的无线链路物理模型构建及其预算方案[J].兰州交通大学学报,2014,33(6):39-43.
[14]孙彦超,李校林,李大龙.TD-LTE网络规划覆盖分析[J].数字通信,2013,40(6):12-16.