SC-FDE宽带航空数传接收机的设计与实现

为满足航空信道条件下的远距离宽带数据传输需求,基于单载波频域均衡传输(SC-FDE)体制,采用8PSK调制体制进行了宽带数字接收机的设计,包括传输帧同步、载波同步、定时同步、信道估计和频域均衡.同时,为保证灵活应用的需求,采用数字内插的方式进行了可变传输速率设计.基于Xilinx现场可编程门阵列(FPGA)平台对硬件实现进行优化,最终实现了传输速率能够从112.5Mbit/s覆盖到900Mbit/s的数传接收机.仿真分析和硬件测试结果表明,该接收解调设备能够实现很好的性能指标,同时SC-FDE架构具备有效补偿多径传播影响的能力,适合应用于高动态无线宽带航空数据传输系统中....

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Bibliographic Details
Published in电讯技术 Vol. 57; no. 12; pp. 1408 - 1414
Main Author 杨大龙;陈大海;邝文;张祺
Format Journal Article
LanguageChinese
Published 中国工程物理研究院 电子工程研究所,四川 绵阳,621900 2017
Subjects
单载波频域均衡
变速率
航空信道宽带数字接收机
高速数传
single carrier frequency domain equalization ( SC-FDE)
aeronautical channel broadband digital receiver
单载波频域均衡
航空信道宽带数字接收机
高速数传
high data rate transmission
variable rate
变速率
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ISSN1001-893X
DOI10.3969/j.issn.1001-893x.2017.12.011

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Summary:为满足航空信道条件下的远距离宽带数据传输需求,基于单载波频域均衡传输(SC-FDE)体制,采用8PSK调制体制进行了宽带数字接收机的设计,包括传输帧同步、载波同步、定时同步、信道估计和频域均衡.同时,为保证灵活应用的需求,采用数字内插的方式进行了可变传输速率设计.基于Xilinx现场可编程门阵列(FPGA)平台对硬件实现进行优化,最终实现了传输速率能够从112.5Mbit/s覆盖到900Mbit/s的数传接收机.仿真分析和硬件测试结果表明,该接收解调设备能够实现很好的性能指标,同时SC-FDE架构具备有效补偿多径传播影响的能力,适合应用于高动态无线宽带航空数据传输系统中.
Bibliography:YANG Dalong,CHEN Dahai,KUANG Wen,ZHANG Qi(Institute of Electronic Engineering,China Academy of Engineering Physics,Mianyang 621900,China)
aeronautical channel broadband digital receiver;single carrier frequency domain equalization(SC-FDE);high data rate transmission;variable rate
51-1267/TN
To meet the demands of long distance broadband data transmission under aeronautical channel,adigital broadband receiver with 8PSK modulation scheme is designed by using single carrier frequency do-main equalization (SC-FDE),including transmission frame synchronization,carrier recovery,timing recov-ery,channel estimation and frequency domain equalization. Meanwhile,for flexible consideration,the varia-ble rate ability is designed by using numerical interpolation method. Based on implementation optimizationfor Xilinx field-programmable gate array (FPGA) platform,the broadband receiver is accomplished,whosetransmission rate covers 112. 5 - 900 Mbit / s. Numerical simulation analysis and hardware tests show thatthe receiver has a
ISSN:1001-893X
DOI:10.3969/j.issn.1001-893x.2017.12.011