Improved implementation of Chua’s circuit on an active inductor and non-autonomous system
Chua’s circuit is a well-established model for studying chaotic phenomena and is extensively implemented in fields like encrypted communication. However, a traditional Chua’s circuit has large volume, high component precision requirements and limited adjustable parameter range, which are not conduci...
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sg-ntu-dr.10356-1816112024-12-13T15:42:25Z Improved implementation of Chua’s circuit on an active inductor and non-autonomous system Zhang, Ziqi Wen, Yiming Ning, Yafei Zhang, Zirui Li, Hu Xia, Yuhan School of Electrical and Electronic Engineering Engineering Chua’s circuit Active inductor Chua’s circuit is a well-established model for studying chaotic phenomena and is extensively implemented in fields like encrypted communication. However, a traditional Chua’s circuit has large volume, high component precision requirements and limited adjustable parameter range, which are not conducive to application. In order to solve these problems, we propose an improved implementation of Chua’s circuit on an active inductor and non-autonomous system. First, we adopt the strategy of using active inductors instead of traditional passive inductors, achieving the miniaturization of the circuit and improving the accuracy of inductance. In addition, we present the theory of substituting non-autonomous systems for classical autonomous systems to reduce the requirements for the accuracy of components and improve the robustness of the circuit. Lastly, we connect the extension resistor in parallel with Chua’s diode to optimize circuit structure, thereby increasing the range of the adjustable parameter. Based on the three improvements above, experiments have shown that the average maximum error tolerance of components of our improved design has been increased from 1.88% to 7.38% when generating a single vortex, and from 4.73% to 12.61% when generating a double vortex, compared with the traditional Chua’s circuit. The range of the adjustable parameter has been increased by 195.83% and 36.98%, respectively, when generating a single vortex and double vortex. In summary, our improved circuit is more practical than the traditional Chua’s circuit and has good application value. Published version This work was supported by Guangdong Basic and Applied Basic Research Foundation, Grant/Award Number 2023A1515011218. 2024-12-10T07:37:20Z 2024-12-10T07:37:20Z 2024 Journal Article Zhang, Z., Wen, Y., Ning, Y., Zhang, Z., Li, H. & Xia, Y. (2024). Improved implementation of Chua’s circuit on an active inductor and non-autonomous system. Electronics, 13(13), 13132637-. https://dx.doi.org/10.3390/electronics13132637 2079-9292 https://hdl.handle.net/10356/181611 10.3390/electronics13132637 2-s2.0-85198349141 13 13 13132637 en Electronics © 2024 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/). application/pdf |
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Engineering Chua’s circuit Active inductor |
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Engineering Chua’s circuit Active inductor Zhang, Ziqi Wen, Yiming Ning, Yafei Zhang, Zirui Li, Hu Xia, Yuhan Improved implementation of Chua’s circuit on an active inductor and non-autonomous system |
| description |
Chua’s circuit is a well-established model for studying chaotic phenomena and is extensively implemented in fields like encrypted communication. However, a traditional Chua’s circuit has large volume, high component precision requirements and limited adjustable parameter range, which are not conducive to application. In order to solve these problems, we propose an improved implementation of Chua’s circuit on an active inductor and non-autonomous system. First, we adopt the strategy of using active inductors instead of traditional passive inductors, achieving the miniaturization of the circuit and improving the accuracy of inductance. In addition, we present the theory of substituting non-autonomous systems for classical autonomous systems to reduce the requirements for the accuracy of components and improve the robustness of the circuit. Lastly, we connect the extension resistor in parallel with Chua’s diode to optimize circuit structure, thereby increasing the range of the adjustable parameter. Based on the three improvements above, experiments have shown that the average maximum error tolerance of components of our improved design has been increased from 1.88% to 7.38% when generating a single vortex, and from 4.73% to 12.61% when generating a double vortex, compared with the traditional Chua’s circuit. The range of the adjustable parameter has been increased by 195.83% and 36.98%, respectively, when generating a single vortex and double vortex. In summary, our improved circuit is more practical than the traditional Chua’s circuit and has good application value. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhang, Ziqi Wen, Yiming Ning, Yafei Zhang, Zirui Li, Hu Xia, Yuhan |
| format |
Article |
| author |
Zhang, Ziqi Wen, Yiming Ning, Yafei Zhang, Zirui Li, Hu Xia, Yuhan |
| author_sort |
Zhang, Ziqi |
| title |
Improved implementation of Chua’s circuit on an active inductor and non-autonomous system |
| title_short |
Improved implementation of Chua’s circuit on an active inductor and non-autonomous system |
| title_full |
Improved implementation of Chua’s circuit on an active inductor and non-autonomous system |
| title_fullStr |
Improved implementation of Chua’s circuit on an active inductor and non-autonomous system |
| title_full_unstemmed |
Improved implementation of Chua’s circuit on an active inductor and non-autonomous system |
| title_sort |
improved implementation of chua’s circuit on an active inductor and non-autonomous system |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/181611 |
| _version_ |
1819112982669426688 |