基于FPGA的恒温晶振频率校准系统的设计
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摘要
为满足三维大地电磁勘探技术对多个采集站的同步需求,基于FPGA设计了一种晶振频率校准系统。系统可以调节各采集站的恒温压控晶体振荡器同步于GPS,从而使晶振能够输出高准确度和稳定度的同步信号。系统中使用FPGA设计了高分辨率的时间间隔测量单元,达到0.121 ns的测量分辨率,能对晶振分频信号与GPS秒脉冲信号的时间间隔进行高精度测量,缩短了频率校准时间。同时在FPGA内部使用PicoBlaze嵌入式软核处理器监控系统状态,并配合滑动平均滤波法对测量得到的时间间隔数据实时处理,有效地抑制了GPS秒脉冲波动对频率校准的影响。
In order to meet the demands of synchronization between signal acquisition stations in the three-dimensional magne-totelluric exploration technology,this paper designs an OCXO frequency calibration system for acquisition stations,which can be used to synchronize the OCXO in each acquisition station to GPS system with high accuracy and stability.We use FPGA to design a high resolution time interval measurement unit achieving 0.121 ns resolution,which can measure the time interval between the OCXO and GPS with a high precision and enhance the system working efficiency.In addition,soft IP processor PicoBlaze is em-ployed to supervise the system status and coordinates with moving-average filtering algorithm to filter the fluctuation in measurement data,which can effectively suppress the fluctuation of 1-pps.
In order to meet the demands of synchronization between signal acquisition stations in the three-dimensional magne-totelluric exploration technology,this paper designs an OCXO frequency calibration system for acquisition stations,which can be used to synchronize the OCXO in each acquisition station to GPS system with high accuracy and stability.We use FPGA to design a high resolution time interval measurement unit achieving 0.121 ns resolution,which can measure the time interval between the OCXO and GPS with a high precision and enhance the system working efficiency.In addition,soft IP processor PicoBlaze is em-ployed to supervise the system status and coordinates with moving-average filtering algorithm to filter the fluctuation in measurement data,which can effectively suppress the fluctuation of 1-pps.
引文
[1]何展翔.非地震勘探技术的进步与发展趋势[J].石油地球物理勘探,2000,35(3):354-361.
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[3]潘继飞,姜秋喜,毕大平.基于内插采样技术的高精度时间间隔测量方法[J].系统工程与电子技术,2006,28(11):1633-1636.
[4]SZPLET R,KALISZ J,SZYMANOWSKI R.Interpolatingtime counter with 100 ps resolution on a single FPGAdevice[J].IEEE Trans.Instrum.Meas,2000,49(4):879-883.
[5]孙杰,潘继飞.高精度时间间隔测量方法综述[J].计算机测量与控制,2007,15(2):145-148.
[6]WU J,SHI Z,WANG I Y.Firmware-only implementationof time-to-digital converter in field programmable gatearray[J].Proc.IEEE Conf.Rec.NSS.,2003(1):177-181.
[7]SONG J,AN Q,LIN S B.A high-resolution time-to-digital converter implemented in field programmable gatearrays[J].IEEE Trans.Nuclear Science,2006,53(1):236-241.
[8]TORRES D A,PEREZ D V.A PicoBlaze-based embed-ded system for monitoring applications[J].ConielecompConf,2009:173-177.
[2]孟庆杰,徐建芬,姜雪松.GPS基频率标准的计量校准[J].宇航计测技术,2007,27(5):16-21.
[3]潘继飞,姜秋喜,毕大平.基于内插采样技术的高精度时间间隔测量方法[J].系统工程与电子技术,2006,28(11):1633-1636.
[4]SZPLET R,KALISZ J,SZYMANOWSKI R.Interpolatingtime counter with 100 ps resolution on a single FPGAdevice[J].IEEE Trans.Instrum.Meas,2000,49(4):879-883.
[5]孙杰,潘继飞.高精度时间间隔测量方法综述[J].计算机测量与控制,2007,15(2):145-148.
[6]WU J,SHI Z,WANG I Y.Firmware-only implementationof time-to-digital converter in field programmable gatearray[J].Proc.IEEE Conf.Rec.NSS.,2003(1):177-181.
[7]SONG J,AN Q,LIN S B.A high-resolution time-to-digital converter implemented in field programmable gatearrays[J].IEEE Trans.Nuclear Science,2006,53(1):236-241.
[8]TORRES D A,PEREZ D V.A PicoBlaze-based embed-ded system for monitoring applications[J].ConielecompConf,2009:173-177.
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