基于FPGA的编码超声发射系统的设计
周奇,王晓春,计建军,王延群△
(中国医学科学院生物医学工程研究所,天津300192)
摘 要:介绍一张以现场可编码门阵列(FPGA)为基础的低电压编码超声发射系统。该系统采用XC3S400FPGA产生编码超声发射所对应的数字编码,该数字编码经过模数转换产生编码发射波形,再将发射波形经过放大后作用于超声换能器,通过回波信号放大电路提取回波信号,对回波信号压缩处理分析结果表明:该编码超声发射系统能满足超声成像指标要求,降低超声单脉冲发射峰值声功率,提高信噪比。
关键词:编码发射;脉冲压缩;信噪比;回波;Golay,码;现场可编码门阵列
中图分类号:R318 文献标识码:A 文章编号:1672-6278(2008)04-0243-05
Coded Ultrasound Transmitting System based on Field Programmable Gate Array
ZHOU Qi, WANG Xiaochun, JI Jianjun, WANG Yanqun
( Institute of Biomedical Engineering , Chinese Academy of Medical Sciences , Tianyin 300192, China)
Abstract: To design a low voltage coded ultrasound transmiting system based on feld programmable gate array( FPGA) . The digital codescorresponding to coded ultrasound transmitting was generated by XC3S400 FPCA. The digital code was transformed coded transmitting wave byanalog-to-digital converting. Coded transmiting wave was amplified and then acted on the ultrasound probe. The coded transmitting echo wasgotten by an amplifier circuit. As a result of echo' s pulse compression, this coded ultrasound transmiting system can fufill the standard of echoi mage. The system can reduce peak value power of single pulse sending and increase the signal-to- noise.
Key words: Coded excitation; Pulse compression; Signal- to-noise; Echo; Golay code; Field programmable gate array
1 编码发射技术原理
编码发射技术使用一连串脉冲序列激励宽带换能器,再接牧一连串序列的回波,通过脉冲压缩得到分辨率与单脉冲一样的解码脉冲,其原理见图1[1]。在峰值声功率相同的条件下,由于编码发射与单脉冲发射相比提高了发射信号的平均声功率,采用适当的解码方法如匹配滤波,得到的解码脉冲能够提高系统的信噪比,成像质量更高。
由上图可知,编码发射成像系统与传统单脉冲回波成像系统的不同之处在于:发射电路采用编码发射;同时;为了满足与单脉冲发射一样的分辨率要求,接收电路中需要对回波信号进行脉冲压缩。本研究介绍了一种基于FPGA的编码超声发射电路以及回波提取放大电路,发射Golay 互补序列对,用matlab对接收到的回波信号进行压缩分析。
