陷波频率点可精确控制的高效FRM陷波器设计

Journal of Systems Engineering and Electronics ›› 2009, Vol. 31 ›› Issue (10): 2320-2322,2454.

陷波频率点可精确控制的高效FRM陷波器设计

黄翔东, 王兆华, 吕卫

天津大学电子信息工程学院, 天津, 300072

收稿日期:2008-10-06 修回日期:2009-01-08 出版日期:2009-10-20 发布日期:2010-01-03
作者简介:黄翔东(1979- ),男,博士,主要研究方向为滤波器设计、频谱分析.E-mail:laohuang0423@163.com
基金资助:
国家自然科学基金(60802048);高等学校博士学科点专项科研基金新教师基金(200700056105)资助课题

Design of high-efficiency FRM notch filter with frequency point accurately controlled

HUANG Xiang-dong, WANG Zhao-hua, LÜ Wei

School of Electronics and Information Engineering, Tianjin Univ., Tianjin 300072, China

Received:2008-10-06 Revised:2009-01-08 Online:2009-10-20 Published:2010-01-03

摘要/Abstract

摘要： 为在精确控制陷波频率点的前提下尽可能降低陷波器的硬件成本,提出了将全相位滤波技术与频率响应屏蔽技术相结合的陷波器设计算法.该算法将相移措施引入到单窗全相位陷波器设计中,只需根据所推导出的原型滤波器阶数N、内插因子M、陷波整数频点位置m和相移参数λ的数值关系,即可构造出简单实用的新型陷波结构.理论和仿真实验表明,新型设计算法既保证了陷波器在精确频点具有足够大的衰减,又节省了成本,提高了陷波效率.

Abstract: To reduce the hardware cost of notch filter with the notch frequency point accurately controlled as far as possible,a novel notch filter design algorithm combining the techniques of all-phase filtering and frequency response masking(FRM) is presented.Based on introducing phase-shift measure into the design of all-phase notch filter with single window,and deducing the numerical relation between the order N of the prototype filter,the interpolation factor M,the integer position m of notch frequency and the phase-shift parameter λ,one novel simple and practical notch filtering structure can be constructed.Both theoretical and simulation experiments show that this novel design algorithm not only guarantees that the notch filter has sufficient attenuation at the accurate frequency point,but also reduces the cost and enhances the notch filtering efficiency.

中图分类号:

TN911.72

黄翔东, 王兆华, 吕卫. 陷波频率点可精确控制的高效FRM陷波器设计[J]. Journal of Systems Engineering and Electronics, 2009, 31(10): 2320-2322,2454.

HUANG Xiang-dong, WANG Zhao-hua, LÜ Wei. Design of high-efficiency FRM notch filter with frequency point accurately controlled[J]. Journal of Systems Engineering and Electronics, 2009, 31(10): 2320-2322,2454.

参考文献

[1] 杨小明,陶然.直接序列扩频通信系统中干扰样式的自动识别[J].兵工学报,2008,29(9):1078-1082.
[2] Zahradnik P.Fast analytical design algorithms for FIR notch filters[J].IEEE Trans.on Circuits and Systems,2004,51(3):608-611.
[3] Zahradnik P,Vlcek M.An analytical procedure for critical frequency tuning FIR filters[J].IEEE Trans.on Circuits and Systems Ⅱ:Express Briefs,2006,53(1):72-76.
[4] Lai X P.Constrained chebyshev design of FIR filters[J].IEEE Trans.on Circuits and Systems-Ⅱ,2004,51(3):143-146.
[5] 黄翔东,王兆华.基于两种对称频率采样的全相位FIR滤波器设计[J].电子与信息学报,2007,29(2):478-481.
[6] 黄翔东.王兆华.一种设计频率特性有间断滤波器的新方法[J].天津大学学报,2006,39(5):614-620.
[7] 黄翔东,王兆华.基于双相移组合全相位法的FIR陷波器设计[J].系统工程与电子技术,2008,30(1):14-18.(Huang Xiang-dong,Wang Zhaohua.FIR notch fiter design on double phaseshift combination all-phase method[J].Systems Engineering and Electronics,2008,30(1):14-18.)
[8] Lim Y C.Frequency-response masking approach for the synthesis of sharp linear phase digital filters[J].IEEE Trans.on Circuits and Systems,1986,33(4):357-364.
[9] Lu Wusheng,Hinamoto T.Optimal design of frequency-response masking filters using semidefinite programming[J].IEEE Trans.on Circuits and Systems Ⅰ:Fundamental Theory and Applications,2003,50(4):557-568.
[10] Lim YongChing,Yu YaJun,Saramaki T.Optimum masking levels and coefficient sparseness for Hilbert transformers and half-band filters designed using the frequency-response masking technique[J].IEEE Trans.on Circuits and Systems Ⅰ,Regular Papers,2005,52(11):2444-2453.
[11] Liu Y,Lin Z.Optimal design of frequency-response masking filters with reduced group delays[J].IEEE Trans.on Circuits and Systems Ⅰ:Regular Papers,2008,55(6):1560-1570.

[1]	孙世岩, 张钢, 梁伟阁, 佘博, 田福庆. 基于时间序列数据扩增和BLSTM的滚动轴承剩余寿命预测方法[J]. 系统工程与电子技术, 2022, 44(3): 1060-1068.
[2]	黄翔东, 赵一冉, 苗笛. 基于噪声子空间特性的波束形成器设计[J]. 系统工程与电子技术, 2021, 43(8): 2297-2302.
[3]	邵凯, 陈连成, 刘胤. 高移动性Jakes信道的学习与估计[J]. 系统工程与电子技术, 2021, 43(4): 1119-1125.
[4]	孙世岩, 张钢, 田福庆, 梁伟阁. 多输入混合深度学习网络的健康因子构建方法[J]. 系统工程与电子技术, 2020, 42(10): 2390-2398.
[5]	张钢, 田福庆, 梁伟阁, 佘博. 基于多尺度AlexNet网络的健康因子构建方法[J]. 系统工程与电子技术, 2020, 42(1): 245-252.
[6]	荣海娜, 张葛祥, 金炜东. 多分量雷达辐射源信号检测新方法[J]. Journal of Systems Engineering and Electronics, 2009, 31(9): 2096-2100.
[7]	汪飞, 周建江. 基于四元数矩阵的谐波信号多参量联合估计[J]. Journal of Systems Engineering and Electronics, 2009, 31(9): 2037-2041.
[8]	殷复莲, 郭黎利, 卢满宏. 扩频测控系统常见干扰检测技术研究[J]. Journal of Systems Engineering and Electronics, 2009, 31(9): 2195-2199.
[9]	张中华, 张端金. 一种新的变步长LMS自适应滤波算法及性能分析[J]. Journal of Systems Engineering and Electronics, 2009, 31(9): 2238-2241.
[10]	张朝柱, 张健沛, 孙晓东. 基于自适应粒子群优化的盲源分离[J]. Journal of Systems Engineering and Electronics, 2009, 31(6): 1275-1278.
[11]	张坤雷, 王树勋, 曹凡. 多分量二维线性调频信号瞬时频率变化率估计[J]. Journal of Systems Engineering and Electronics, 2009, 31(5): 1001-1006.
[12]	杨莘元, 赵立权, 张朝柱, 贾雁飞. 自适应实时型复值混合信号盲分离算法研究[J]. Journal of Systems Engineering and Electronics, 2009, 31(5): 1018-1021.
[13]	马社祥, 赵朝霞. 空间交叉阵被动声定位算法及其性能分析[J]. Journal of Systems Engineering and Electronics, 2009, 31(3): 553-556.
[14]	董航, 孙洪. 一种变阶数自适应滤波算法[J]. Journal of Systems Engineering and Electronics, 2009, 31(01): 15-17,32.
[15]	汪飞, 王树勋, 刘渝. 基于四元数理论的时延估计方法[J]. Journal of Systems Engineering and Electronics, 2009, 31(01): 25-28.