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提出了一种仅用电流反馈放大器实现网格多涡卷混沌系统的方法. 首先用电流反馈放大器设计非线性函数电路;再用电流反馈放大器设计网格多涡卷混沌电路,根据混沌吸引子参数确定电路参数,由于电流反馈放大器具有较好的频率特性和端口特性,使该电路的工作频率高、电路结构简单、使用元件少;最后,通过电路仿真验证该方法的可行性.
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关键词:
- 网格多涡卷混沌吸引子 /
- 电流反馈放大器 /
- 电路实现
In this paper, a method is proposed to realize the grid multi-scroll chaotic system with the current feedback operational amplifier (CFOA). Firstly, nonlinear circuit is designed based on the CFOA. Then the grid multi-scroll chaotic circuit is designed and relevant circuit parameters are calculated. Finally circuit simulation is conducted, and the results show that the circuit has a higher central frequency, needs less components, and possesses simpler circuit structure, good frequency characteristic and port characteristic of the CFOA.-
Keywords:
- grid multi-scroll chaotic attractors /
- current feedback operational amplifier /
- circuit implementation
[1] Trejo-Guerra R, Tlelo-Cuautle E, Cruz-Hernandez C, Sanchez-Lopez C 2009 Int. J. Bifurc. Chaos 19 4217
[2] Suykens J A K, Vandewalle J 1993 IEEE Trans. Circ. Syst. 40 861
[3] L J H, Chen G R, Yu X H, Leung H 2004 IEEE Trans. Circ. Syst. 51 2476
[4] Chen S B, Zeng Y C, Xu M L, Chen J S 2011 Acta Phys. Sin. 60 020507(in Chinese)[陈仕必, 曾以成, 徐茂林, 陈家胜 2011 物理学报 60 020507]
[5] Zhang C X, Yu S M 2009 Chin. Phys. B 18 119
[6] Luo X H, Tu Z W, Liu X R, Cai C, Liang Y L, Gong P 2010 Chin. Phys. B 19 070510
[7] Sanchez-Lopez C 2011 Appl. Math. Comp. 217 4350
[8] Elwakil A S, Kennedy M P 1998 Electron. Lett. 34 1161
[9] Senani R, Gupta S S 1998 Electron. Lett. 34 829
[10] Elwakil A S, Kennedy M P 2000 IEEE Trans. Circ. Syst. 47 76
[11] Kilic R 2003 Circ. Syst. Signal Process 22 475
[12] Yalcin M E, Ozoguz S, Suykens J A K, Vandewalle J 2001 Electron. Lett. 37 147
[13] Trejo-Guerra R, Tlelo-Cuautle E, Sanchez-Lopez C, Munoz-Pacheco J M, Cruz-Hernandez C 2010 Rev. Mex. Fis. 56 268
[14] Munoz-Pacheco J M, Campos-Lopez W, Tlelo-Cuautle E, Sanchez-Lopez C 2012 Trends Appl. Sci. Res. 7 168
[15] Trejo-Guerra R, Tlelo-Cuautle E, Carbajal-Gomez V H, Rodriguez-Gomez G 2013 Appl. Math. Comput. 219 5113
[16] Sanchez-Lopez C, Trejo-Guerra R, Munoz-Pacheco J M, Tlelo-Cuautle E 2010 Nonliear Dyn. 61 331
[17] Wang C H, Yin J W, Lin Y 2012 Acta Phys. Sin. 61 210507(in Chinese)[王春华, 尹晋文, 林愿 2012 物理学报 61 210507]
[18] Lin Y, Wang C H, Xu H 2012 Acta Phys. Sin. 61 240503(in Chinese)[林愿, 王春华, 徐浩 2012 物理学报 61 240503]
[19] Munoz-Pacheco J M, Tlelo-Cuautle E 2009 J. Appl. Res. Technol. 7 5
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[1] Trejo-Guerra R, Tlelo-Cuautle E, Cruz-Hernandez C, Sanchez-Lopez C 2009 Int. J. Bifurc. Chaos 19 4217
[2] Suykens J A K, Vandewalle J 1993 IEEE Trans. Circ. Syst. 40 861
[3] L J H, Chen G R, Yu X H, Leung H 2004 IEEE Trans. Circ. Syst. 51 2476
[4] Chen S B, Zeng Y C, Xu M L, Chen J S 2011 Acta Phys. Sin. 60 020507(in Chinese)[陈仕必, 曾以成, 徐茂林, 陈家胜 2011 物理学报 60 020507]
[5] Zhang C X, Yu S M 2009 Chin. Phys. B 18 119
[6] Luo X H, Tu Z W, Liu X R, Cai C, Liang Y L, Gong P 2010 Chin. Phys. B 19 070510
[7] Sanchez-Lopez C 2011 Appl. Math. Comp. 217 4350
[8] Elwakil A S, Kennedy M P 1998 Electron. Lett. 34 1161
[9] Senani R, Gupta S S 1998 Electron. Lett. 34 829
[10] Elwakil A S, Kennedy M P 2000 IEEE Trans. Circ. Syst. 47 76
[11] Kilic R 2003 Circ. Syst. Signal Process 22 475
[12] Yalcin M E, Ozoguz S, Suykens J A K, Vandewalle J 2001 Electron. Lett. 37 147
[13] Trejo-Guerra R, Tlelo-Cuautle E, Sanchez-Lopez C, Munoz-Pacheco J M, Cruz-Hernandez C 2010 Rev. Mex. Fis. 56 268
[14] Munoz-Pacheco J M, Campos-Lopez W, Tlelo-Cuautle E, Sanchez-Lopez C 2012 Trends Appl. Sci. Res. 7 168
[15] Trejo-Guerra R, Tlelo-Cuautle E, Carbajal-Gomez V H, Rodriguez-Gomez G 2013 Appl. Math. Comput. 219 5113
[16] Sanchez-Lopez C, Trejo-Guerra R, Munoz-Pacheco J M, Tlelo-Cuautle E 2010 Nonliear Dyn. 61 331
[17] Wang C H, Yin J W, Lin Y 2012 Acta Phys. Sin. 61 210507(in Chinese)[王春华, 尹晋文, 林愿 2012 物理学报 61 210507]
[18] Lin Y, Wang C H, Xu H 2012 Acta Phys. Sin. 61 240503(in Chinese)[林愿, 王春华, 徐浩 2012 物理学报 61 240503]
[19] Munoz-Pacheco J M, Tlelo-Cuautle E 2009 J. Appl. Res. Technol. 7 5
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