[1] Du S C*, Yin H X, Huang W B, Zhang G X, Liang Z W, CURRENT-MODE 3.1-10.6GHZ HIGH LINEARITY UP-MIXER FOR UWB TRANSMITTERS, Electronics World,120(1933),pp30-33,2014(SCI收录:000329878600008)
[2] Du S C*, Yin H X, Huang W B, Wang C H, Current-Mode Amp Powers 2.4 GHz, Microwaves &RF,52(5),pp104-108,2013(SCI收录:000319480100019)
[3] Du S C*, Huang W B, Wang C H, Yin H X, Liang Z W, A single-chip highly efficient CMOS class-e power amplifier for WLAN applications. IETE Journal of Research ,59(6),pp762-767, 2013(SCI收录)
[4] Du S C*, Wang C H, Shi X Y, and Guo S Q, A 3.1–10.6GHz high linear Low Noise Amplifier for Ultra-wideband Receivers. Frequenz,64(1-2),pp11-13,2010(SCI:000276039900002, EI:12016129)
[5] Du S C*, Wang C H, Zhang G X, Current Reuse Enhances UWB LNA. Microwaves &RF,51(2),pp56-61,2012(SCI收录:000301097600011)
[6] Du S C*, Huang W B, Wang C H, Zhang G X, Zhang J Q, A High Linearity and Low Power 3.1~10.6GHz CMOS Up-Conversion Mixer for UWB Applications, Wireless Pers Commun, 70(4),pp1623-1632,2013(SCI收录: 000320464900025)
[7] 杜四春,王春华*,张光祥,具有平坦增益的3.1-10.6GHz UWB CMOS低噪声放大器设计,湖南大学学报(自科版),第39卷,第7期,49-53页,2012(EI收录).
[8] Tu Y X, Guo X R, Wang C H*, Jin J,Du S C, Sun J R, An improved 860-960 MHz fully integrated CMOS power amplifier designation for UHF RFID transmitter, AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS,67(7),pp574-577,2013(SCI收录: 000320291800005)
[9] Zhang Q J, Wang C H*, Sun J R, and Du S C, A new type of current conveyor and its application in fully balanced differential current–mode elliptic filter design, Journal of Electrical Engineering,62(3), pp1-8,2011 (SCI:000293111000002)
[10] Wang C H*, Zhao Y, Zhang Q J, and Du S C, A New Current Mode SIMO-Type Universal Biquad Employing Multi-Output Current Conveyors (MOCCIIs), Radioengineering, 18(1),pp 83-88, 2009(SCI:000265405800013, EI: 10706065)
[11] Wang C H*, Keskin A ü, Leng Y, Zhang Q J, and Du S C, Minimum configuration insensitive multifunctional current-mode biquad using current conveyors and all-grounded passive components, Radioengineering, 19(1),pp178-184,2010(SCI:000276841100029)
[12] Wang C H*, Xu J, Keskin A ü, Du S C, and Zhang Q J, A new current-mode current-controlled SIMO-type universal filter, AEü - International Journal of Electronics and Communications, 65(3),pp231-234,2011(SCI:000287462400010, EI: 12224963)
[13] Wang C H*, Shi X Y, Du S C, Wang Q Z, and Sun J R, A Low Power Highly Linear CMOS Current Mode Up-Conversion Mixer, Frequenz,64(11-12),pp1-6,2010( SCI:000286718600009, EI: 12101941)
[14] Ma M L, Wang C H﹡, Du S C, Low Voltage Current Mode Switched-Current-Mirror Mixer, Radioengineering, 18(3),pp295-299,2009(SCI收录) (SCI:000269744600006, EI: 11224536)
[15] Cao X D,WANG C H*, Sun J R, and Du S C, CMOS LNA supports many receiver standards, MicroWaves&RF,50(11),pp58-66,2011(SCI收录:000297186200018)
[16] Chunhua Wang*, Ma Minglin, Jingru Sun, Du Sichun, Guo Xiaorong, A differential low-voltage high gain current-mode integrated RF receiver front-end, Journal of Semiconductors, 32(2),pp1-6,2011(EI: 20110813679137)
[17] 罗文远,王春华*,杜四春, 2~12 GHz CMOS 超宽带低噪声放大器设计,微电子学,第40卷,第2期,243-247页,2010
[1] 深亚微米CMOS集成功率放大器关键技术研究,13K014,湖南省高校创新平台基金项目,2013/01-2015/12,主持
[2] 射频集成功率放大器研究与设计,2013WK3019,湖南省科技计划项目, 2013/01-2014/01,主研;
[3] 超宽带无线通信系统射频前端集成关键技术研究, 2010FJ4246, 湖南省科技计划项目,2010/12-2012/12,主持完成;
[4] 电流模式通信前端射频集成电路设计研究,12K012,湖南省高校创新平台基金项目,2010/09-2013/12,主持完成;
[5] 超低功耗宽范围频率可调射频集成电路设计及其在多标准通信系统中的应用,12K01,湖南省教育厅,2012/01-2014/12,主研;
[6] 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,61274020,国家自然科学基金委, 2013/01-2016/12,主研;
[7] 面向流程企业铁路运输调度优化方法及应用,湖南省自然科学基金项目, 2011/01-2013/12,主研;
[8] 超宽带无线通信系统射频前端集成关键技术研究,中央高校青年教师科技创新扶持项目,2010/12-2011/12,主持完成;
