王春华
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教师介绍

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中文名: 王春华 英文名:
学历: 职称: 教授
联系电话: 电子邮件: wch1227164@qq.com
研究方向: 现代通信电路与系统、混沌电路、忆阻器混沌、忆阻器神经网络、图像处理与加密、神经网络与类脑计算
联系地址: 湖南省长沙市岳麓区麓山南路2号,湖南大学信息科学与工程学院(410082)
所属机构:  先进通信省重点实验室  通信工程系  学院教师
个人简历

王春华(Chunhua Wang,男,湖南祁阳人,博士,湖南大学信息科学与工程学院二级教授,博士研究生导师,湖南大学岳麓学者特聘教授,先进通信技术湖南省高校重点实验室主任,湖南大学校学术委员会委员,中国电子学会电路与系统分会委员会委员中国电子学会电路与系统分会混沌与非线性电路专业委员会主任,电子与信息学报编委。1999年破格晋升副教授,2004年晋升教授。长期从事模拟/混合电路、忆阻器电路、混沌电路与系统、神经网络电路设计,图像处理与加密、类脑电路设计方面的科研与教学工作,主持承担国家自然科学基金重大研究计划项目、国家自然科学金面上项目及部省级项目10余项,在国内外学术期刊上及国际会议上发表论文150余篇,其中SCI检索120余篇,ESI高被引论文20篇。获2021年度湖南省自然科学二等奖(排名第一),入选2022年科睿唯安高被引科学家2022年、2023年爱思唯尔中国高被引学者,入选2021年及2022年全球2%顶级科学家。

 

研究方向

1. 模拟与混合集成电路设计

2.智能信息与信号处理电路

3.混沌电路与保密通信

4.图像处理与加密

5. 类脑计算电路与智能机器人




联系方式

email:wch1227164@qq.com

科研状况

1.主持国家自然科学基金重大研究计划项目非易失性CMOS忆阻器及其构成的计算存储融合可重构交叉阵列架构2020~2022)

2.主持国家自然科学基金面上项目基于VDCCTA具有长时记忆特性的忆阻器电路及其构成的神经网络2020~2023)

3.主持国防科技重点实验室基金课题,6142401180501,基于忆阻器的仿生物神经元和突触连接的微电子电路设计,2019/01-2020/12

4.主持国家自然科学基金面上项目多吸引子周期多涡卷混沌系统生成及其宽动态范围宽可调CCCII的电流模式电路实现2016~2019

5. 主持国家自然科学基金面上项目基于线性调谐宽带CDTA的电流模式连续时间可重构模拟阵列" (2013~2016,80万元)

6. 主持国家自然科学基金面上项目射频集成电路设计的电流模式方法学研究2008~2010 

7.主持国家自然科学基金面上项目新型差分式电流传输器及其构成的电流模式连续时间滤波器2007~2009 

8.  主持湖南省科技计划项目全集成超高频RFID读写器芯片研发2010.1~2011.12

9 主持湖南省高校创新平台开放基金项目“OFDM超宽带通信前端射频芯片设计研究2009~2011

10.  主持长沙市科技计划重点项目超高频RFID读写器芯片研发” (2009~2011)


学术论文

2022年:

[1] Zhou Chao, Wang Chunhua*, Yao Wei, LinHairong. Observer-based synchronization of memristive neural networks under DoSattacks and actuator saturation and its application to image encryption. Applicated Mathematics and Computation. 2022, 425: 127080. (1区SCI)

[2] Hairong LinChunhua Wang*, Li CuiYichuang Sun, XinZhang, Wei Yao. Hyperchaotic memristive ring neural network and application in medical image encryption. Nonlinear Dynamics. 2022. https://doi.org/10.1007/s11071-022-07630-0. (2区SCI).pdf

[3] 徐聪王春华*孙晶茹. 基于忆阻器的RBM及其在车牌图像处理中的应用. 中国科学: 信息科学. 2022, DOI: 10.1360/SSI-2022-0027.

[4] Hairong Lin, Chunhua Wang*, Li Cui, Yichuang Sun, Cong Xu, Fei Yu. Brain-like initial-boosted hyperchaos and application in biomedical image encryption. IEEE Transactions on Industrial Informatics, 2022, DOI: 10.1109/TII.2022.3155599. (1区SCI)

[5] Yanmei Lu, Chunhua Wang*, Quanli Deng, Cong Xu. The dynamics of a memristor-based Rulkov neuronwith fractional-order difference. Chinese Physics B. 2022, 31(6): 060502. (3区SCI)

[6] Hong Qinghui, Chen Hegan, Sun Jingru, Wang Chunhua*. Memristive Circuit Implementation of a Self-Repairing Network Based on Biological Astrocytes inRobot Application. IEEE Transactions on Neural Networks and Learning Systems, 2022,33(5): 2106-2120. (1区SCI)

[7]  Meiling LiaoChunhua Wang*, Yichuang Sun,Hairong Lin,Cong Xu. Memristor-based affective associative memory neural network circuit with emotional gradual processes. Neural Computing and Applications. 2022, 34: 13667–13682. (2区SCI).pdf

[8] Chao Zhou, Chunhua Wang*, Yichuang Sun, Wei Yao, Hairong Lin. Cluster output synchronizationfor memristive neural networks. Information Sciences. 2022, 589: 459-477. (2区SCI).pdf

[9] Yao Wei, Wang Chunhua*, Sun Yichuang, ZhouChao. Robust Multimode Function Synchronization of Memristive Neural NetworksWith Parameter Perturbations and Time-Varying Delays. IEEE Transactions onSystems, Man, and Cybernetics: Systems. 2022, 52(1): 260-274. (1区SCI).pdf


2021年:

[1] Lin Hairong, Wang Chunhua*, Yu Fei, Xu Cong, Hong Qinghui, Yao Wei, Sun Yichuang. An Extremely Simple Multiwing Chaotic System: Dynamics Analysis, Encryption Application, and Hardware Implementation. IEEE Transactions on Industrial Electronics. 2021, 68(12): 12708-12719. (1区SCI).pdf

[2] Hairong Lin, Chunhua Wang*, Quanli Deng, Cong Xu, Zekun Deng, Chao Zhou. Review on chaotic dynamics of memristive neuronand neural network. Nonlinear Dynamics 2021. 106(1): 959-973. (2区SCI).pdf

[3] Cong Xu, Chunhua Wang*, Jinguang Jiang, JingruSun, Hairong Lin. Memristive Circuit Implementation of Context-DependentEmotional Learning Network and Its Application in Multi-Task. IEEE Transactionson Computer-Aided Design of Integrated Circuits and Systems, 2021, DOI:10.1109/TCAD.2021.3116463 (CCF A类期刊).pdf

[4] Cong Xu, Chunhua Wang*, Yichuang Sun, Qinghui Hong, Quanli Deng, Haowen Chen. Memristor-based neural network circuitwith weighted sum simultaneous perturbation training and its applications. Neurocomputing.2021, 462: 581-590. (2区SCI).pdf

[5] Lin Hairong, Wang Chunhua*, Chen Chengjie, Sun, Yichuang, Zhou Chao, Xu Cong,  Hong Qinghui. Neural Bursting and Synchronization Emulated by Neural Networks and Circuits. IEEETransactions on Circuits and Systems I: Regular Papers. 2021, 68(8): 3397-3410. (SCI).pdf

[6] Yang Linmao, Wang Chunhua*. Emotion model of associative memory possessing variable learning rates with time delay. Neurocomputing. 2021, 460: 117-125. (2区SCI).pdf

[7] Wu Yazheng, Wang Chunhua*, Deng Quanli. A new 3D multi-scroll chaotic system generated with three types of hiddenattractors. The European Physical Journal Special Topics. 2021, 230(7):1863-1871. (SCI)

[8] Xie Wenli, Wang Chunhua*, Lin Hairong. A fractional-order multistable locally active memristor and its chaotic systemwith transient transition, state jump. Nonlinear Dynamics .2021, 104(4): 4523-4541. (2区SCI).pdf

[9] Zeng Jie, Wang Chunhua*. A Novel Hyperchaotic Image Encryption System Based on Particle Swarm OptimizationAlgorithm and Cellular Automata. Security and Communication Networks. 2021.2021: 6675565. (ESI高被引)

[10] Jie Deng, Minjun Zhou, Chunhua Wang*, Sicheng Wang, Cong Xu. Image segmentation encryption algorithm with chaotic sequence generation participatedby cipher and multi-feedback loops. Multimedia Tools and Applications. 2021,80(9):13821-13840 (ESI高被引).pdf


2020年:

[1] Yao Wei, Wang Chunhua, Sun Yichuang, Zhou Chao, Lin Hairong. Exponential multistability of memristive Cohen-Grossberg neural networks with stochastic parameter perturbations. Applicated Mathematics and Computation. 2020, 386:125483.(1区SCI).pdf

[2] Lin Hairong, Wang Chunhua, Yao Wei, Tan Yumei. Chaotic dynamics in a neural network with different types of external stimuli. Communications in Nonlinear Science and Numerical Simulation. 2020,90:105390.(1区SCI).pdf

[3] Hong Qinghui, Yan Renao, Wang Chunhua*, Sun Jingru. Memristive circuit implementation of biological nonassociative learning mechanism and its applications.IEEE Transactions on Biomedical Circuits and Systems.  2020, 14(5):1036-1050.(2区SCI).pdf

[4] Yao Wei, Wang Chunhua, Sun Yichuang, Zhou Chao, Lin Hairong. Synchronization of inertial memristive neural network with time-varying delays via static or dynamic event-triggered control. Neurocomputing. 2020,404:367-380.(2区SCI).pdf

[5] Zhou Chao, Wang Chunhua, Sun Yichuang, Yao Wei. Weighted sum synchronization of memristive coupled neural networks. Neurocomputing, 2020,403:211-223.(2区SCI).pdf

[6] Cheng Guangfeng, Wang Chunhua, Xu Cong. A novel hyper-chaotic image encryption scheme based on quantum genetic alogrithm and compressive sensing. Multimeida Tools and Applications, 2020,79(39):29243-29263.(SCI).pdf

[7] Lin Hairong, Wang Chunhua, Sun Yichuang, Yao Wei. Firing multistability in a locally active memristive neuron model. Nonlinear Dynamics, 2020,100(4):3667-3683.(2区SCI).pdf

[8] Lin Hairong, Wang Chunhua, Hong Qinghui, Sun Yichuang. A multi-stable memristor and its application in a neural network. IEEE Transactions on Circuits and Systems-II: Express Briefs. 2020,67(12):3472-3476.(3区SCI).pdf

[9] Zhu Minghao, Wang Chunhua, Deng Quanli. Locally active memristor with three coexisting pinched hysteresis loops and its emulator circuit. International Journal of Bifurcation and Chaos. 2020,30(13):2050184.(2区SCI).pdf

[10] Tan Yumei, Wang Chunhua. A simple locally active memristor and its application in HR neurons. Chaos: An Interdisciplinary Journal of Nonlinear Science, 2020, 30(5):053118.(3区SCI).pdf

[11] Deng Quanli, Wang Chunhua, Yang Linmao. Four-wing hidden attractors with one stable equilibrium point. International Journal of Bifurcation and Chaos, 2020,30(6):2050086.(2区SCI).pdf

[12]  Xu Cong, Sun Jingru, Wang Chunhua*. An Image Encryption Algorithm Based on Random Walk and Hyperchaotic Systems.  International Journal of Bifurcation and Chaos.2020.30(4): 2050060.(2SCI.pdf

[13]  Zhu Minghao, Wang Chunhua. A novel parallel chaotic system with greatly improved Lyapunov exponent and chaotic range.International Journal of Modern Physics B. 2020.34(7):2050048.(SCI).pdf

[14]  Xu Cong, Sun Jingru, Wang Chunhua*. A novel image encryption algorithm based on bit-plane matrix rotation and hyper chaotic systems.Multimedia Tools and Applications. 2020.79: 5573–5593. (SCI).pdf

[15]  Zhou Minjun, Wang Chunhua. A novel image encryption scheme based on conservative hyperchaotic system and closed-loop diffusion between blocks. Signal Processing. 2020.171:107484.(2SCI).pdf

[16] Lin Hairong, Wang Chunhua. Influences of electromagnetic radiation distribution on chaotic dynamics of a neural network.Applied Mathematics and Computation. 2020.369.124840. (1SCI)  https://doi.org/10.1016/j.amc.2019.124840

[17] Wang Sicheng,  Wang Chunhua, Xu Cong.An image encryption algorithm based on a hidden attractor chaos system and the Knuth–Durstenfeld algorithm. Optics and Lasers in Engineering. 2020. 128.105995.(2SCI) .pdf

[18]  Lin Hairong,  Wang Chunhua, Tan Yumei. Hidden extreme multistability with hyperchaos and transient chaos in a Hopfield neural network affected by electromagnetic radiation. Nonlinear Dynamics.  2020.99, 2369–2386.  (2SCIhttps://doi.org/10.1007/s11071-019-05408-5



2019年:

[1] Yao Wei, Wang Chunhua, Cao Jinde, Sun Yichuang, Zhou Chao. Hybrid multisynchronization of coupled multistable memristive neural networks with time delays. Neurocomputing. 2019,363:281-294.(2SCI).pdf https://doi.org/10.1016/j.neucom.2019.07.014

[2] Deng QuanliWang Chunhua. Multi-scroll hidden attractors with two stable equilibrium points.Chaos. 2019,29(9): 093112.(3区SCI).pdf

[3] Zhang Xin, Wang Chunhua Yao, Wei, Lin Hairong. Chaotic system with bondorbital attractors. Nonlinear Dynamics. 2019, 97(4): 2159-2174. (2SCI)  .pdf

[4] Cheng Guangfeng, Wang Chunhua*, Chen Hua. A Novel Color Image Encryption Algorithm Based on Hyperchaotic System and Permutation-Diffusion Architecture. International Journal of Bifurcation and Chaos. 2019,29(9):1950115.(2SCI).pdf

[5] Xin Zhang, Chunhua Wang*. Multiscroll Hyperchaotic System with Hidden Attractors and Its Circuit Implementation.International Journal of Bifurcation and Chaos,2019,29(9):1950117.(2SCI).pdf

[6] Chunhua Wang, Lin Xiong, Jingru Sun, Wei Yao. Memristor-based neural networks with weight simultaneous perturbation training. Nonlinear Dynamics, 2019,95(4):2893-2906.(2区 top, SCI).pdf

[7] Xin Zhang, Chunhua Wang*. A novel multi-attractor period multi-scroll chaotic integrated circuit based on CMOS wide adjustable CCCII. IEEE Access, 2019, 7(1): 16336-16350.(2区SCI).pdf

[8] Qing Zhao, Chunhua Wang*, Xin Zhang. A universal emulator for memristor, memcapacitor,  and meminductor and its chaotic circuit. Chaos,2019, 29(1): 013141.(3区SCI).pdf

2018年:

[1]Zhou Ling, Wang Chunhua(*), Zhou Lili. A novel no-equilibrium hyperchaotic multi-wing system via introducing memristor. International Journal of Circuit Theory & Applications, 2018, 46(1): 84-98 .pdf

[2] Xin Zhang, Chunhua Wang and Lv Zhao. A Multiple-Feedback UWB LNA with Low Noise and Improved Linearity. IETE Journal of Research. 2018, DOI: 10.1080/03772063.2017.1355750.(SCI)  .pdf

[3] Qi Yin, Chunhua Wang. A New Chaotic Image Encryption Scheme Using Breadth-First Search and Dynamic Diffusion. International Journal of Bifurcation and Chaos, 2018, 28(04):1850047. (2SCI).pdf

[4] Ling Zhou, Chunhua Wang, Xin Zhang and Wei Yao.Various Attractors, Coexisting Attractors and Antimonotonicity in a Simple Fourth-Order Memristive Twin-T Oscillator. International Journal of Bifurcation and Chaos. 2018. 28(04):1850050.(2SCI.pdf

[5] Zhu Cuirong, Wang Chunhua(*), Chen Hua, et al.A Novel CMOS CCCII with Wide Tunable R x and Its Application. Journal of Circuits, Systems and Computers, 2018, 27(13):1850198.(SCI)

[6] Chunhua Wang, Ling Zhou, Renping Wu. The Design and Realization of a Hyper-Chaotic Circuit Based on a Flux-Controlled Memristor with Linear Memductance. Journal of Circuits, Systems and Computers, 2018, 27(3), DOI: 10.1142/S021812661850038X.(SCI.pdf

[7] Boan Quan, Chunhua Wang(*), Jingru Sun, Yilin Zhao. A Novel Adaptive Active Control Projective Synchronization of Chaotic Systems. Journal of Computational and Nonlinear Dynamics, 2018, DOI: 10.1115/1.4039189.(SCI.pdf

[8] Xin Zhang, Chunhua Wang(*), Yichuang Sun,Haijun Peng. A Novel High Linearity and Low Power Folded CMOS LNA for UWB Receivers. Journal of Circuits, Systems and Computers, 2018, 27(03):1850047.(SCI).pdf

2017年:

[1] Yilin Zhao, Chunhua Wang(*), Yawen Deng, Changming Xie. A Novel Compact Ultra-Wideband Antenna with Quad Notched Bands Based on S-SCRLHs Resonator.Wireless Personal Communications, 2017, DOI: 10.1007/s11277-017-4744-8.(SCI).pdf

[2] Yi Li, Chunhua Wang(*), Baihui Zhu and Zhenhua Hu. Universal Current-Mode Filters Based on OTA and MO-CCCA. IETE Journal of Research. 2017, DOI: 10.1080/03772063.2017.1381575.(SCI.pdf

[3] Zhou Lili, Wang Chunhua(*),Du Sichun, et al. Cluster synchronization on multiple nonlinearly coupled dynamical subnetworks of complex networks with nonidentical nodes[J].IEEE Transactions on Neural Networks and  Learning Systems,2017, 28(3): 570-583.1区SCI.pdf

[4] Wang Chunhua(*), Liu Xiaoming, Xia Hu. Multi-piecewise quadratic nonlinearity memristor and its 2N-scroll and 2N+1-scroll chaotic attractors system[J]. Chaos, 2017, 27(3):033114. (3区SCI).pdf

[5] Wang Yue, Wang Chunhua(*), Zhou Ling. A Time-delayed Hyper-chaotic System Composed of Multi-scroll Attractors with Multiple Positive Lyapunov Exponents, Journal of Computational and Nonlinear Dynamics [J]. 2017, 12(5):051029. (3区SCI).pdf

[6] Zhou Ling, Wang Chunhua(*), Zhou Lili. Generating Four-Wing Hyperchaotic Attractor and Two-Wing, Three-Wing, and Four-Wing Chaotic Attractors in 4D Memristive System[J]. International Journal of Bifurcation & Chaos, 2017, 27(2):1750027. (2区SCI.pdf

[7] Li Yueping, Wang Chunhua, Chen Hua. A hyper-chaos-based image encryption algorithm using pixel-level permutation and bit-level permutation[J].Optics & Lasers in Engineering, 2017, 90:238-246. (3区SCI).pdf

[8] Wang Chunhua(*), Xia Hu, Zhou Ling. A Memristive Hyperchaotic Multiscroll Jerk System with Controllable Scroll Numbers[J]. International Journal of Bifurcation & Chaos, 2017, 27(6):1750091.(2区SCI).pdf

[9] Wang Chunhua(*), Xia Hu, Zhou Ling. Implementation of a new memristor-based multiscroll hyperchaotic system [J]. Pramana, 2017, 88(2):34.(SCI.pdf

[10] Peng Haijun, Wang Chunhua(*), Zhao Lv, et al. Novel SRR-loaded CPW-fed UWB antenna with wide band-notched characteristics[J]. International Journal of Microwave & Wireless Technologies, 2017, 9(4):875-880.(SCI)

[11] Zhu Baihui, Wang Chunhua(*), Sun Yichuang, et al. Systematic Design of Current-Mode Multiple-Loop Feedback Filters Based on a Single CDCTA[J]. Iete Journal of Research, 2017,63(3):435-447.(SCI.pdf



2016年:

[1] Zhou Ling, Wang Chunhua(*),Zhou Lili. Generating hyperchaotic multi-wing attractor in a 4D memristive circuit. Nonlinear Dyn., 2016, 85(4):2653–2663(2区SCI).pdf

[2] Zhou Lili, Wang Chunhua(*), Zhou Ling. Cluster synchronization on multiple sub-networks of complex networks with nonidentical nodes via pinning control[J]. Nonlinear Dynamics, 2016, 83(1-2):1079-1100. (2区SCI).pdf

[3] Zhou Houqiab, Wang C, Peng Hao. A novel double-incidence and multi-band left-handed metamaterials composed of double Z-shaped structure[J]. Journal of Materials Science Materials in Electronics, 2016, 27(3):1-11.(3区SCI).pdf

[4] Wu Renping, Wang Chunhua(*). A New Simple Chaotic Circuit Based on Memristor. International Journal of Bifurcation and Chaos. 2016, 26(9):1-11. (3区SCI)  .pdf

[5] Zhao Lv, Wang Chunhua(*). A linearized and low noise CMOS mixer with B-type amplifier-based sub-harmonic balun[J]. International Journal of Circuit Theory & Applications, 2016, 44(11):2003-2017. (3区SCI).pdf

[6] Lin Yuan,Wang Chunhua(*),He Haizhen,Zhou Lili. A novel four-wing non-equilibrium chaotic system and its circuit implementation. Pramana – J. Phys., 2016.86(4): 801-807.(SCI.pdf

[7] Lin Yuan, Wang Chunhua(*). Current-mode multi-scroll chaos generator employing CCCII. Electronics Letters, 2016, 52(15): 1295-1297(SCI.pdf

[8] Peng Hao, Wang Chunhua(*), Tian Xiaotong, et al. A Tunable Leapfrog Complex Filter for High Frequency and Wide Bandwidth Using Multi-Output Current Differencing Transconductance Amplifiers[J]. Iete Journal of Research, 2016, 62(5):1-11.(SCI)           .pdf

[9] Peng Hao, Wang Chunhua(*), Tian Xiaotong. A Novel Current–Mode High–Frequency Polyphase Filter using Multi–Output Current Differencing Transconductance Amplifiers[J]. Journal of Electrical Engineering, 2016, 67(5):311-322.(SCI)  .pdf

[10] Hu Zhenhua, Wang Chunhua(*), Sun Jingru, et al. A wideband linear tunable CDTA and its application in field programmable analogue array[J]. Analog Integrated Circuits & Signal Processing, 2016, 88(3):1-19.(SCI)  .pdf

[11] Zhao Lv, Wang Chunhua(*). A Low Power High Gain CMOS LNA with Multiple-Feedback Network for Low Voltage UWB Receiver[J]. Journal of Circuits Systems & Computers, 2016, 25(06):1650051.(SCI)  .pdf

[12] Xia Zanming, Wang Chunhua(*), Kuang Jun, et al. A novel ±0.8 V high-performance voltage-tunable CDTA with enhanced bandwidth[J]. International Journal of Electronics, 2015, 103(4):1-18.(SCI)

[13] Zhou Lili, Wang Chunhua(*). Hybrid combinatorial synchronization on multiple sub-networks of complex network with unknown boundaries of uncertainties[J]. Optik - International Journal for Light and Electron Optics, 2016, 127(22):11037-11048.(SCI)            .pdf

[14] Li Yi, Wang Chunhua(*). Design of a high gain and low noise CMOS folded mixer for 5GHz with low power consumption[C]// Progress in Electromagnetic Research Symposium. IEEE, 2016.

2015年:

[1] Zhou Lili, Wang Chunhua(*),He Haizhen. Time-controllablecombinatorial inner synchronization and outer synchronization of anti-starnetworks and its application in secure communication. Communications inNonlinear Science and Numerical Simulation,2015,22(1-3):623-640 (2区SCI).pdf

[2] Zhou Lili,Wang Chunhua(*),Lin Yuan,Combinatorialsynchronization of complex multiple networks with unknown parameters,Nonlinear Dynamics,2015,79(1):307-324(2区SCI)1.pdf

[3] Jin Jie, Wang Chunhua(*), Sun Jingru, etal. Design and simulation of novel amplifier-based mixer for ISM band wirelessapplications[M]. International Journal of Circuit Theory & Applications2014,43(11):1794-1800. (3区SCI).pdf

[4] Jin Jie, Wang Chunhua Jie Jin, WangChunhua(*), Xia Zanming, et al. Sub-harmonic upconversion mixer using 0.18 μmCMOS technology[J]. Electronics Letters, 2014, 50(25):1955-1957.(SCI)

[5] Xia Zanming, Wang Chunhua(*),Jin Jie, et al. Novel AM/FM/ASK/FSK/PSK/QAM Signal Generator Based on aDigitally Programmable CDTA[J]. Circuits Systems & Signal Processing, 2015,34(5):1635-1653.(SCI)

[6] Zhao Lv, Wang Chunhua(*). A Novel LowVoltage Low Power High Linearity Self-biasing Current-reuse Up-conversionMixer[J]. Wireless Personal Communications, 2015, 80(1):277-287.(SCI)

[7] Lin Yuan, Wang Chunhua(*),He Haizhen. Asimple multi-scroll chaotic oscillator employing CCIIs. Optik - InternationalJournal for Light and Electron Optics. 2015, 126(7-8): 824-827(SCI)

[8] Zhao Lv, Wang Chunhua(*). A Novel CMOSCCCII Based on Cross-Coupled Differential Transistor Pair and Its Application[M].Wireless personal communications, 2015.85(4):2295-2307(SCI)

[9] Wang Chunhua(*). Lin, Hairong.Multi-function Current Differencing Cascaded Transconductance Amplifier(MCDCTA) and Its Application to Current-Mode Multiphase SinusoidalOscillator[J]. Journal of Electrical Engineering, 2016, 86(2):367-383.(SCI)

[10] Hu Zhenhua, Wang Chunhua(*), Xia Zanming,et al. Resistorless Reconfigurable n th-Order Filter Based on DPCDTA forMulti-mode Filtering Applications[J]. Arabian Journal for Science &Engineering, 2015, 40(8):2423-2436.(SCI)

[11] Li Yi, Wang Chunhua(*), Chen Shiqiang.Current-mode four-phase quadrature oscillator[J]. Revue Roumaine des SciencesTechniques - Serie électrotechnique et énergétique, 2015, 60(3):293-301.(SCI)

[12] Xie, Changming; Wang Chunhua(*). ANovel Compact UWB Bandpass Filter with Quad-Notched Bands Based on S-SCRLHsResonator,Frequenz[J]. Frequenz, 2015,69(7-8):329-333.(SCI)

[13] Xiang Hongyong, Wang Chunhua(*), Guo Xiaorong,et al. Low Voltage and High Speed Dual-Modulus Prescaler with E-TSPC Technologyfor Frequency Synthesizer[J]. National Academy Science Letters, 2015,38(3):207-211.(SCI)

[14] Lin Yuan, Wang Chunhua(*), He Haizhen. Asimple multi-scroll chaotic oscillator employing CCIIs[J]. Optik -International Journal for Light and Electron Optics, 2015, 126(7–8):824-827.(SCI)

[15] Jin Jie, Wang Chunhua(*), Sun Jingru. NovelThird-Order Quadrature Oscillators with Grounded Capacitors[J]. Automatika,2015, 56(2).(SCI)

[16] Wang Wen, Wang Chunhua(*), Ding Jianqun. UltraLow Voltage and Power Design Of a 0.18um CMOS LNA For 4-5GHz Apllications[J].Electronics World, 2015, 121(1948):20-23.(SCI)

[17] Zhang xin, Wang Chunhua(*). New, High Performance,Second-generation, current-generation, current controlled current conveyor [J].Electronics World, 2015, 121(1946):30-34.(SCI)

[18] Lin Yuan, Wang Chunhua(*). A Novel Gridmulti-scroll chaotic Oscillator [J]. Electronics World, 2015, 121(1946):35-39.(SCI)


2001-2014年:

[1] Wan, QZ; Wang,CH.A wideband cmos current-mode down-conversion mixer for multi-standard receivers.Progress in Electromagnetics Research-PIER.  2012, 129: 421-437.  (2区SCI:  000306596700023)

[2] Wang, CH; Xu, H; Yu, F. A novel approach for constructing high-order chua's circuit with multi-directional multi-scroll chaotic attractors. International Journal of Bifurcation and Chaos. 2013, 23(2): 1350022-1-11.   (3区SCI: 000316916200008)

 [3] Lin, Y; Wang, CH; Yin, JW; Hu, Y.A Simple Grid Multiscroll Chaotic Electronic Oscillator Employing CFOAs. International Journal of Bifurcation and Chaos.2014, 24(3): 1450017-1-9.   (3区SCI:000332798800007)

[4] Jin, J; Wang, CH; Sun, JR; Tu, YX; Zhao, L; Xia, ZM. Novel digitally programmable multiphase voltage controlled oscillator and its stability discussion. Microelectronics Reliability. 2014, 54(3): 595-600. (3区SCI: 000334007000010)

[5] Luo, XW; Wang, CH; Wan, Z. Grid multi-wing butterfly chaotic attractors generated from a new 3-D quadratic autonomous system. Nonlinear Analysis-Modelling and Control. 2014, 19 (2): 272-285.   (3区SCI: 000334012800009)

[6] Xu, J; Wang, CH; Jin, J; Xia, ZM. Low-Voltage High-Linearity Wideband Current Differencing Transconductance Amplifier and Its Application on Current-Mode Active Filter. Radioengineering. 2014, 23 (1):512-522.   (SCI: 000334729600029)

[7] Xu, J; Wang, CH; Jin, J. Current Differencing Cascaded Transconductance Amplifier (CDCTA) and Its Applications on Current-Mode nth-Order Filters. Circuits Systems And Signal Processing. 2013, 32(5): 2047-2063.   (SCI: 000323656500003)

[8] Wan, QZ; Wang, CH; Yu, F. Design of a 2.4 GHz High-Performance Up-Conversion Mixer with Current Mirror Topology. Radioengineering. 2012, 21(2):  752-757.   (SCI: 000305713000028)

[9] Yang, H; Wang, CH; Guo, XR. A novel dual-band left-handed metamaterials composed of multi-defects hexagonal structure. ACTA PHYSICA SINICA. 2014, 63(1): 014103-1-7.   (SCI: 000332029100014)

[10] Jin, J; Wang, CH.Current-mode universal filter and quadrature oscillator using CDTAs. TURKISH JOURNAL OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCES. 2014, 22(2): 276-286.   (SCI: 000330573900003)

[11] Liu, J; Wang, CH. HIGHLY LINEAR AND LOW-POWER CMOS LOW-NOISE AMPLIFIER FOR UWB RECEIVERS. ELECTRONICS WORLD. 2014, 120: 16-23.   (SCI: 000329878600006)

[12] Jin, J; Wang, CH. Single CDTA-based current-mode quadrature oscillator. AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS. 2012,66(11): 933-936.   (SCI: 000309305700011)

[13] Wan, QZ ; Wang, CH. A low-voltage low-power CMOS transmitter front-end using current mode approach for 2.4 GHz wireless communications. MICROELECTRONICS JOURNAL. 2011, 42(5): 766-771.   (SCI: 000291071300020)

[14] Wan, Z; Wang, CH; Luo, XW; Lin, Y ; Huang, TL. Generating variable number of wings from a novel four-dimensional hyperchaotic system with one equilibrium. OPTIK. 2014, 125(3): 1371-1376.   (SCI: 000329377400104)

[15] Ma, KH; Wang, CH; Guo, XR; Huang, WB. Design A Low-Voltage UWB CMOS Mixer. MICROWAVES & RF. 2013, 52 (12): 54-+.   (SCI: 000336196600015)

[16] Yu, F; Wang, CH; Hu, Y; Yin, JW. Antisynchronization of a novel hyperchaotic system with parameter mismatch and external disturbances. PRAMANA-JOURNAL OF PHYSICS. 2013, 81(6): 1051-1053.   (SCI: 000328859500013)

[17] Wang, CH; Xu, H; Wan, Z; Hu, Y. A Colpitts chaotic oscillator based on metal oxide semiconductor transistors and its synchronizaiton research. ACTA PHYSICA SINICA. 2013, 62(20): 208401-1-8.   (SCI: 000327189800068)

[18] Liu, J; Wang, CH. LOW-POWER MIXER Converts UWB Signals. MICROWAVES & RF. 2013, 52(8): 65-+.   (SCI: 000323459900018)

[19] Wang, CH; Hu, Y; Yu, F; Xu, H. Time-controllable projective synchronization of a class of chaotic systems based on adaptive method. ACTA PHYSICA SINICA. 2013, 62(11): 110509-1-7.   (SCI: 000320244200020)

[20] Yu, F ; Wang, CH; He, HZ. Grid Multiscroll Hyperchaotic Attractors Based on Colpitts Oscillator Mode with Controllable Grid Gradient and Scroll Numbers. JOURNAL OF APPLIED RESEARCH AND TECHNOLOGY. 2013, 11: 371-380.  (SCI: 000320901800007)

[21] Liu, X; He, HZ; Wang, CH. SINGLE CDTA leads to MULTIPLE FILTERS. MICROWAVES & RF. 2013, 52(6): 86-+.   (SCI: 000320978400018)

[22] Du, SC ; Huang, WB; Wang, CH; Zhang, GX ; Zhang, JG. A High Linearity and Low Power 3.1-10.6GHz CMOS Up-Conversion Mixer for UWB Applications. 2013, 70(4): 1623-1632.   (SCI: 000320464900025)

[23] Wan, QZ; Wang, CH; Sun, JR. Design of a Low Voltage Highly Linear 2.4 GHz Up-Conversion Mixer in 0.18 mu m CMOS Technology. Wireless Personal Communications. 2013, 70(1): 57-68.   (SCI: 000317433300005)

[24] Xu, J; Wang, CH. Single Filter Has Many Responses. MICROWAVES & RF. 2013, 52(3): 60-+. (SCI: 000319479900015)

[25] Xu, J; Wang, CH. A low-voltage nmos mocdba-based current-mode universal filter and sinusoidal oscillator - using only one circuit. Electronics World. 2013, 119(1923): 18-+.   (SCI: 000316927800009)

[26] Fu, K; Guo, XR; Wang, CH; Tu, YX; Liu, CS; Mcgeehan, JP. Low-Power Receiver Serves Multiple Wireless Standards. MICROWAVES & RF. 2013, 52(2): 50-+.   (SCI: 000319479800012)

[27] Yu, F; Wang, CH; Wan, QZ; Hu, Y. Complete switched modified function projective synchronization of a five-term chaotic system with uncertain parameters and disturbances. PRAMANA-JOURNAL OF PHYSICS. 2013, 80(2): 223-235.   (SCI: 000314975600004)

[28] Tu, YX; Guo, XR; Wang, CH; Jin, J; Du, SC; Sun, JR. An improved 860-960 MHz fully integrated CMOS power amplifier designation for UHF RFID transmitter. AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS. 2013, 67(7): 574-577.   (SCI: 000320291800005)

[29] Zhou, X; Wang, CH; Guo, XR. A new grid multi-wing chaotic system and its circuit implementation. ACTA PHYSICA SINICA. 2012, 61(20): 200506-1-10.  (SCI: 000311525400016)

[30] Jin, J; Wang, CH. Current-mode four-phase quadrature oscillator using current differencing transconductance amplifier based first-order allpass filter. Revue Roumaine Des Sciences Techniques-Serie Electrotechnique Et Energetique. 2012, 57(3): 291-300.   (SCI: 000308572200007)

[31] Yu, F; Wang, CH; Hu, Y; Yin, JW. Antisynchronization of a novel hyperchaotic system with parameter mismatch and external disturbances. Pramana-Journal of Physics. 2012, 79(1): 81-93.   (SCI: 000307029700007)

[32] Cao, XD; Chen, L; Wang, CH; Wu, ZB. Mixer Translates Multiple Standards. MICROWAVES & RF. 2012, 51(7): 51-+.   (SCI: 000306681500016)

[33] Wang, CH; Tu, YX. Novel LNA Cuts Noise, Not Gain. MICROWAVES & RF. 2012, 51(6): 60-+. (SCI: 000305658200014)

[34] Cao, XY; Guo, XR; Wang, CH; Fu, K. Low-Power Mixer Hits High Intercept. MICROWAVES & RF. 2012, 51(5): 98-+.   (SCI: 000304581100017)

[35] Liu, JJ; Wang, CH; Cao, XD ; Xu, J. Design a CDBA In 0.18-mu m CMOS. MICROWAVES & RF. 2012, 51(4): 74-+.   (SCI: 000303282300018)

[36] Yu, F; Wang, CH; Hu, Y; Yin, JW. Projective synchronization of a five-term hyperbolic-type chaotic system with fully uncertain parameters. ACTA PHYSICA SINICA. 2012, 61(6): 060505-1-9.   (SCI: 000303174000009)

[37] Du, SC; Wang, CH; Zhang, GX. Current Reuse Enhances UWB LNA. MICROWAVES & RF. 2012, 51(2): 56-+.   (SCI: 000301097600011)

[38] Xiaorong, G; Sun, JR; Wang, CH; Yuan, C. CMOS Yields UHF RFID Transmitter. MICROWAVES & RF. 2012, 51(2): 62-+.   (SCI: 000301097600012)

[39] Lin, Y; Wang, CH ; Xu, H. Grid multi-scroll chaotic attractors in hybrid image encryption algorithm based on current conveyor. ACTA PHYSICA SINICA. 2012, 61(24): 240503.   (SCI: 000316734400011)

[40] Wang, CH ; Yin, JW ; Lin, Y. Design and realization of grid multi-scroll chaotic circuit based on current conveyers. ACTA PHYSICA SINICA. 2012, 61(21): 210507-1-7.   (SCI: 000316732100016)

[41] Sun, JR; Cao, XD; Wang, CH; Liu, JJ; Zhao, MF. A Low Voltage High Gain Transformer Noise-Canceling Current Mode Ultrawideband CMOS Low Noise Amplifier. FREQUENZ. 2012, 66(3-4): 85-90.   (SCI: 000303299000004)

[42] Tu, YX; Wang, CH; Chen, L; Wu, ZB; Zhang, GX. A Novel Current-Mode Differential Transconductance LNA for IEEE 802.11a Application. FREQUENZ. 2012, 66(3-4): 91-96.  (SCI:000303299000005)

[43] Yu, F; Wang, CH; Yin, JW; Xu, H. A 4-D chaos with fully qualified four-wing type. ACTA PHYSICA SINICA. 2012, 61(2): 020506-1-9.    (SCI: 000302129500016)

[44] Chen, L; Wang, CH; Tu, YX; Wu, ZB; Zhang, JG ; Wan, QZ. A High Linearity Low Noise Integrated UHF RFID Reader Receiver Front-end. FREQUENZ. 2012, 66(1-2): 1-6.   (SCI: 000300649900001)

[45] Cao, XD; Wang, CH; Sun, JR; Du, SC. CMOS LNA Supports Many Receiver Standards. MICROWAVES & RF. 2011, 50(11):58-+.    (SCI: 000297186200018)

[46] Yu, F ; Wang, CH. CMOS LNA Boosts 64 GHz. MICROWAVES & RF. 2011, 50(10): 64-+.    (SCI: 000296366500015)

[47] yuan, SJ; Wang, CH; Ma, ML. A 2.4 GHz High Linearity Subthreshold Current Mode Folded CMOS Mixer. IETE Journal of Research. 2011, 57(4): 357-362.   (SCI: 000296229000008)

[48] Zhang, QJ; Wang, CH; Sun, JR; Du, SC. A new type of current conveyor and its application in fully balanced differential current-mode elliptic filter design. Journal of Electrical Engineering-Elektrotechnicky Casopis. 2011, 62(3): 126-133. (SCI: 000293111000002)

[49] Wang, CH; Peng, GC; Ma, ML; Li, Z. A New Low-Power CMOS Quadrature VCO with Current Reused Structure. RADIOENGINEERING. 2011, 20(1): 360-364.   (SCI: 000289657400030)

[50] Deng, YB; Wang, CH; Fu, XQ ; Zhang, LF. Evolution of the exact spatiotemporal periodic wave and soliton solutions of the (3+1)-dimensional generalized nonlinear Schrodinger equation with distributed coefficients. OPTICS COMMUNICATIONS. 2011, 284(5): 1364-1369.   (SCI: 000287179500048)

[51] Ma, ML; Wang, CH. Coupling Quiets Quadrature Oscillator. MICROWAVES & RF. 2011, 50(2): 63-+.   (SCI: 000287893400019)

[52] Sun, JR ; Peng, GC; Wang, CH; Li, Z; Zhang, QJ. A Low Power Multi-Modulus Programmable Divider with TSPC Technology. FREQUENZ. 2011, 65(5-6): 137-142.   (SCI: 000294106900004)

[53] Wang, CH; Peng, GC; Sun, JR; Wan, QZ; Zhang, QJ. A Fast-Locking Frequency Synthesizer for the Single-Chip CMOS UHF RFID Reader. FREQUENZ. 2011, 65(1-2): 21-28.   (SCI: 000291715400005)

[54] Wang, CH; Xu, J; Keskin, AU; Du, SC; Zhang, QJ. A new current-mode current-controlled SIMO-type universal filter. AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS. 2011, 65(3): 231-234.  (SCI: 000287462400010)

[55] Ma, KH; Wang, CH; Guo, XR ; Liu, J. A 0.6-V 5.2 GHz Folded Cascode LNA with Transformer-feedback Technique for Ultra Low Power Applications. FREQUENZ. 2013, 67(11-12): 365-372.   (SCI: 000327766600004)

[56] Wan, QZ ; Wang, CH. Design of 3.1-10.6 GHz ultra-wideband CMOS low noise amplifier with current reuse technique. AEU-International Journal of Electronics and Communications. 2011, 65(12): 1006-1011.  (SCI: 000297002700004)

[57] Wang CH, Keskin AU, Leng, Y. Minimum configuration insensitive multifunctional   current-mode biquad using current conveyors and all-grounded passive components. Radioengineering, 2010, 19(1): 178-184.    (SCI: 000276841100029)

[58] Wang CH, Leng Y, Zhang QJ, et al. Systematic design of fully balanced differential    current-mode multiple-loop feedback filters using CFBCCII. Radioengineering, 2010, 19(1): 185-193.   (SCI: 000276841100030)

[59] Wang CH, Liu HG, Zhao Y. Universal current-mode filter with multiple inputs and one    output using MOCCII and MO-CCCA. (AEU)International Journal of Electronics and Communications, 2009, 63(6): 448-453.   (SCI: 000267035800004)

[60] Wang CH, Zhao Y, Zhang QJ, Du SC. A new current mode SIMO-type universal biquad   employing multi-output current conveyors (MOCCIIs). Radioengineering, 2009, 18(1): 83-88.   (SCI:000265405800013)

[61] Wang CH, Guo SQ, Jin J, et al. LNA Quiets 3.1 To 10.6 GHz. Microwaves & RF, 2010. 49(11): 79-84.   (SCI: 000284434500015)

[62] Wang CH, Jin J, Yu F. Low-power TIA tunes gain at 2.4 GHz. MICROWAVES & RF, 2010, 49(5): 78-80.   (SCI: 000278216000011)

[63] Wang CH, Liu BM. Low-power LNA drops noise at 2.4 GHz. MICROWAVES & RF, 2010, 49(2): 57-59.   (SCI: 000275235000013)

[64] Wang CH, Shi XY, Du SC, Wang QZ. A Low Power Highly Linear CMOS Current Mode Up-Conversion Mixer. Frequenz, 2010, 64(11-12):1-6.   (SCI:000286718600009)

[65] Wang CH, Zhou L, Li T. A new OTA-C current-mode biquad filter with single input and multiple outputs. (AEU) International Journal of Electronics and Communications, 2008, 62:232-234.   (SCI:000253788900010)

[66] Wang CH, Liu HG, Zhao Y. A new current-mode current-controlled universal filter based on CCCII(±). Circuits, Systems and Signal Processing, 2008, 27(5): 673-682.   (SCI: 000259859900006)

[67] Wang CH, Zhang QJ. A second current controlled current conveyor realization using Wilson current mirrors. International Journal of Electronics, 2007, 94: 699-706.   (SCI: 000248336000014)

[68] Wang CH, Jin J. A CMOS 2–11 GHz Continuous Variable Gain UWB LNA. IETE JOURNAL OF research. 2010, 56(6): 367-372.   (SCI: 000286992900009)

[69] Wang CH, Zhang QJ, Liu HG. CMOS current controlled fully balanced current conveyor. Journal of Semiconductors, 2009, 30(7): 075009-1--5   (国家权威刊物, EI: 10841528)

[70] Wang CH, Ma ML, Sun JR. A differential low-voltage high gain current-mode integrated RF receiver front-end. Journal of Semiconductors, 2011, 32(2): 025009-1-6 (国家权威刊物, EI: 11959636)

[71] 王春华, 佘志兴, 杨昌勇, 赵岩. 基于电流传输器的数字可编程电压模式双二次通用滤波器的分析综合法. 通信学报, 2008, 29(3): 129-134   (国家权威刊物, EI: 20081811231773)

[72] Yu F, WangCH. A CPW-Fed novel planar ultra-wideband antenna with a band-notch characteristic. Radioengineering, 2009, 18(4): 551-555.   (SCI: 000273126000014)

[73] Liu BM, Wang CH, Ma ML. An ultra-low-voltage and ultra-low-power 2.4GHz LNA design. Radioengineering, 2009, 18(4): 527-531.   (SCI:000273126000010)

[74] Wan QZ, Wang CH. Design of 3.1-10.6 GHz Ultra-wideband CMOS Low Noise Amplifier with Current Reuse Technique. (AEU) International Journal of Electronics and Communications. 2010(65): 1006-1011.   (SCI: 000297002700004)    

[75] Wan QZ, WangCH. A low-voltage CMOS current mode integrated transmitter front-end for 2.4-GHz wireless communications. Frequenz, 2010, 64(11-12): 240-245.   (SCI: 000286718600008)

[76] Wan QZ, Wang CH, Ma ML. A novel 2.4GHz CMOS up-conversion current-mode mixer. Radioengineering, 2009,18(4): 532-536.   (SCI: 000273126000011)

[77] Wan QZ, WangCH. A 0.18-um CMOS High-Performance Up-Conversion Mixer for 2.4-GHz Transmitter Application. Frequenz, 2010, 64(1-2): 14–18.   (SCI: 000276039900003)

[78] Yang K, WangCH. A new CMOS continuous variable gain LNA for 3-10GHz UWB wireless receivers. Frequenz, 2008, 62(11-12):293-296.   (SCI: 000263146600007)

[79] Du SC, Wang CH, Shi XY, Guo SQ. A 3.1-10.6GHz high linear low noise amplifier for ultra-wideband receivers. Frequenz, 2010, 64(1-2).   (SCI: 000276039900002)

[80] Ma ML, Wang CH, Yang CY. 2.4 GHz quadrature differential LC oscillator using two coupling capacitors. Frequenz, 2009, 63(1): 20-23.   (SCI: 000264515400004)

[81] Ma ML, Wang CH, Du SC. Low voltage current mode switched-current-mirror mixer. Radioengineering, 2009, 18(3): 295-299.   (SCI: 000269744600006)

[82] Ma ML, Wang CH, Wan QZ. Symmetrical low voltage low phase noise quadrature LC oscillator. Frequenz, 2010, 64: 19–22.   (SCI: 000276039900004)

[83] Ma ML, WangCH. A Current-Mode Tunable Low-Supply-Voltage Ring Oscillator. International Journal of RF and Microwave Computer-Aided Engineering, 2010, 20(6): 637-641.   (SCI: 000283609200006)

[84] Wang Chunhua, Li Jing. A CMOS differential current-controlled second generation current conveyor. 2005 the 6th International Conference on ASIC Proceedings(IEEE Catalog Number: 05TH8820).Oct. 24-27, 2005, P447—450.(EI检索)

[85] Wang Chunhua, Li Jin, Zhang Qiujing, Zhou Ling. A new differential current-controlled current conveyor and its differential ladder current-controlled current-mode filter. International Workshop on Electron Devices and Semiconductor Technology, pp 186-189, 2007/6/3(EI、ISTP检索)

[86] Chunhua, Wang, Qiujing, Zhang, Yan, Zhao, Zhixing, She. A new fully differential second generation current conveyor. 2007 7th International Conference on ASIC, ASICON 2007, pp 514-517, 2007/10/26(EI、ISTP检索)

[87] Chunhua, Wang, Zhixing, She, Haiguang, Liu. New CMOS current-controlled second generation current conveyors, 2008 4th IEEE International Conference on Circuits and Systems for Communications, ICCSC, pp 333-337, 2008/5/26(EI、ISTP检索)

[88] Zhang Qiujing, Wang Chunhua, Leng Yang. A novel building block: universal current conveyor. 8th International Conference on ASIC, pp 1109-1112, 2009/10/20(EI、ISTP检索)

[89] Chunhua Wang, Changyong Yang. A New Low-Power High Frequency CMOS Quadrature LC-VCO. 2008 the 4th International Conference on Wireless Communications, Networking and Mobile Computing. 2008 , Page(s):1 – 4(EI检索)

[90] Wang, Chunhua; Yang Changyong. A New Low-power High Frequency CMOS Quadrature LC-VCO. 2008 the 4th International Conference on Wireless Communications, Networking and Mobile Computing Proceedings, 12-14 Oct., 2008, Page(s):1 - 4(EI检索)

[91] Ju Jing, Chunhua Wang. A New current-mode differential Low Noise Amplifier. 2008 9th International Conference on Solid-State And Intergrated-Circuit Technology Proceedings, 2008,Beijing,p1524-1527(EI检索)

[92] Wang Chunhua, Du Chao. A New Two-Stage Ultra-Wide-Band 1-10-GHz Low Noise Amplifier. 2008 the 4th International Conference on Wireless Communications, Networking and Mobile Computing Proceedings, 12-14 Oct., 2008, Page(s):1 - 4(EI检索)

[93] Wang Chunhua, Du Chao. A CMOS 3.1-10.6 GHz Merged UWB LNA and Mixer. 2008 the 4th International Conference on Wireless Communications, Networking and Mobile Computing Proceedings, 12-14 Oct, 2008, Page(s):1 - 4(EI检索)

[94] Wang Chunhua, Xu Chen, Yan Jianzuo, Shi Chen, Shen Guandi. A MOCCII Current-mode KHN Filter and Its Non-ideal Characteristic Research. 2001 the 4th International Conference on ASIC Proceedings(IEEE Catalog Number: 01TH8549). 2001, P289—292.

[95] Wang Chunhua, Shen Guangdi. Systematic design of multiple-loop feedback voltage-mode filters based on CCII. 2002 3rd International Conference on Microwave and Millimeter Wave Technology Proceedings(IEEE Catalog Number: 02EX579). 2002,P868-870

[96] Wang Chunhua, Caojie. Multi-function current-mode second-order filters using a single MOCCII. Conference Proceedings of the Seventh International Conference on Electronic Measurement & Instruments. August 16~18, 2005, Beijing, P449-452

[97] Wang Chunhua, Zhao Yan.A Novel Current-Mode Readout Circuit for ISFET Sensor.2008IEEE Asia Pacific Confenrence on Circuits and Systems.(SCI index)accepted for publication

[98] 王春华,李仁发,何海珍等. 单MOCCII多功能电流模式二阶滤波器. 仪器仪表学报, 2006, 27(11): 1493-1496(EI检索)

[99] 王春华. 基于Wilson电流镜的CCCII电路. 仪器仪表学报, 2006, 27(4): 385-388(EI检索)

[100] 王春华,何海珍,胡明祥. 具有高频补偿的CMOS MOCCII. 电路与系统学报, 2009,14(6):32-37

[101] 王春华,王东民,张秋晶,刘海广基于CFBCC 11的差分式多环反馈电流模式滤波器的系统设计. 湖南大学学报(自然科学版), 2009,36(7):77-81(EI检索)

[102] 王春华, 李仁发, 何海珍, 李涛, 何松华, 何选森, 易波, 郭小蓉. 多输入单输出N 阶CCCⅡ-C 电流模式滤波器. 湖南大学学报(自然科学版), 2007,34(1): 76-80, (EI检索)

[103] 王春华, 刘海广, 张秋晶, 佘志兴.全差分式电流控制电流传输器. 湖南大学学报(自然科学版), 2008,35(4): 80-84(EI检索)

[104] 王春华, 何海珍, 李仁发. 新型电流控制电流传输器. 固体电子学研究与进展, 27(2), pp 275-279, 2007(EI检索)

[105] 杨威, 王春华, 谢庆楚. 跨导线性MDDCCⅡ电路. 固体电子学研究与进展, 2009,29(1): 112-116(EI检索)

[106] 王春华. 基于CCCII的系列电路. 电路与系统学报, 2007,12(4):45-59

[107] 邓桂平,王春华. 一种5.7GHz CMOS 全集成低噪声放大器设计. 微电子学,2007,37(2):214-216

[108] 王春华,戴普兴,杨凯. 3.1–10.6 GHz CMOS超宽带低噪声放大器设计. 电路与系统学报,2010,15(1)

[109] 杨凯, 王春华, 戴普兴. 一种3~5GHz连续增益可调CMOS超宽带LNA的设计. 微电子, 2008, 38(2):275-279

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