电子科技大学(深圳)高等研究院
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| 导师代码: |
11827
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| 导师姓名: |
周泽坤
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| 性 别: |
男 |
| 特 称: |
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| 职 称: |
教授
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| 学 位: |
工学博士学位
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| 属 性: |
专职 |
| 电子邮件: |
zkzhou@uestc.edu.cn
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| 学术经历:
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2001.09-2005.07:电子科技大学,本科
2005.08-2008.07:电子科技大学,硕士
2008.08-2012.06:电子科技大学,博士
2010.07-2010.09:比利时IMEC,访问学者
2014.09-2015.12:美国德州农工大学,博士后
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| 个人简介:
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周泽坤,博士,教授,博士生导师。
获2019年四川省技术发明二等奖,2018、2019年连续两届 工业和信息化部“全国大学生集成电路创新创业大赛”最高奖团队唯一指导老师,2012年IEEE CDS Excellent Student Paper Award。受聘为华为-电子科技大学 功率电子技术联合实验室 技术指导委员会成员;入选国家自然科学基金评审专家、四川省科技专家库、高新技术企业认定专家、成都市工业和信息化专家、重庆市科技专家等。
2014-2015年赴美国德州农工大学从事博士后研究工作。现就职于电子科技大学电子科学与工程学院功率集成技术实验室,从事高性能功率集成电路与系统研究,包括电源管理集成技术、高精度低功耗模拟集成电路、高速低噪声模拟前端集成电路、高功率密度控制器、宽禁带半导体集成电路及能量收集系统等。
长期作为IEEE等领域内核心期刊及国家自然科学基金等评审,并在IEEE Trans. Circuits Syst. I、IEEE Trans. Circuits Syst. II、IEEE Trans. Power Electron.、IEEE ISCAS等国内外期刊及会议上发表论文60余篇,国际会议邀请报告4次;授权中国发明专利过百项、美国发明专利授权6项,合作编写专著2本。
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| 科研项目:
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作为项目责任人或主研人员完成多个国家自然科学基金、国家重点研发计划、国家重大专项、横向项目、中央高校基本业务费、省部级和总装预研项目等。项目涉及DC/DC变换器、AC/DC变换器、LED驱动、电池电量监测/充电管理、高品质音频放大器、光电集成、高速栅驱动及PMU等诸多热门领域,被广泛应用于汽车电子、医疗电子、平板电视/电脑、机顶盒、分布式供电系统、大尺寸LED屏幕、LCD背光及低功耗通用SoC、多模导航SoC等诸多产品中。
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| 研究成果:
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部分学术成果
(1)期刊论文:
Jianwen Cao , Ze-kun Zhou* , Zhuo Wang , He Tang , and Bo Zhang. Design Techniques of Sub-ns Level Shifters With Ultrahigh dV/dt Immunity for Various Wide-Bandgap Applications. IEEE Trans. Power Electron., vol. 36, no. 9, pp. 10447-10460, Sep. 2021. (SCI)
Ze-Kun Zhou, Anqi Wang, Yunkun Wang, Jiani Wang, Yue Shi , Zhuo Wang , and Bo Zhang. An Error Amplifier with a Low Power Multi-Mode Voltage Clamper for Transient Enhancement and High Reliability. IEEE Trans. Circuits Syst. I, 67 (11), pp. 4075-4084, Nov. 2020. SCI.
Yue Shi, Shilei Li, Jianwen Cao, Ze-kun Zhou*, Weiwei Ling. A 180nm Self-biased Bandgap Reference with High PSRR Enhancement. Nanoscale Research Letters,May 2020, DOI: https://doi.org/10.1186/s11671-020-03333-w. SCI.
Yao Yao, Xian-he Huang, Bo-ya Zhang, Zhen Zhang, Dong Hou, Ze-kun Zhou. Facile fabrication of high sensitivity cellulose nanocrystals based QCM humidity sensors with asymmetric electrode structure. Sensors and Actuators B: Chemical, 302, 127192, 2020. SCI.
Ze-Kun Zhou, Hongming Yu, Yue Shi, Zhuo Wang, Bo Zhang. A High-Precision Bandgap Voltage Reference with Automatic Curvature-Compensation Technique. Journal of Circuits, Systems and Computers,Dec. 2019,28(13):1950214-1- 1950214-12. SCI.
Yue Shi, Anqi Wang, Jianwen Cao, Ze-kun Zhou*. A Transient-Enhanced Voltage Regulator with Stability and Power-Supply-Rejection Boosting. Nanoscale Research Letters,Dec 2019, DOI: https://doi.org/10.1186/s11671-019-3215-4. SCI.
Ze-kun Zhou, Junlin Qian, Xiang Li, Wang Shi, Yue Shi*, Zhuo Wang, Bo Zhang. An Integrated Transient Enhancement Circuit Suitable for Buck Converter with Large Output Capacitor , IEEE Transactions on Circuits and Systems II: Express Briefs, Oct. 2019, 66(10): 1743-1747. SCI.
Ze-kun Zhou, Yun-Kun Wang, Hong-Guo Gong, Yue Shi*, Zhuo Wang, Bo Zhang. A Fully-Integrated Optoelectronic Detector With High Gain Bandwidth Product, IEEE Access, May. 2019, 7: 53032-53039. SCI.
Ze-Kun Zhou, Yue Shi, Yao Wang, Nie Li, Zhiping Xiao, Yunkun Wang, Xiaolin Liu, Zhuo Wang, and Bo Zhang. A Resistorless High-Precision Compensated CMOS Bandgap Voltage Reference. IEEE Trans. Circuits Syst. I, 66 (1), pp. 428-437, Jan. 2019. SCI.
Zekun Zhou, Jianwen Cao, Yunkun Wang, Yue Shi, Zhuo Wang, Bo Zhang. A Nanoscale Low-Power Resistorless Voltage Reference with High PSRR. Nanoscale Research Letters,2019, DOI: https://doi.org/10.1186/s11671-019-2864-7. SCI.
Ze-Kun Zhou, Wang Shi, Yan-dong Yuan, Yue Shi, Bo Zhang, and Qing Hua. A 0.85 V, 4.9 ppm/ ℃ inherent temperature compensated voltage reference with -82 dB PSRR, IEICE Electronics Express,2018,15(22):1-6. SCI.
Nashiru Alhassan, Zekun Zhou, Edgar Sánchez Sinencio, An All-MOSFET Voltage Reference With -50dB PSR @ 80 MHz for Low Power SoC Design,IEEE Transactions on Circuits and Systems II: Express Briefs,Aug. 2017,64 (8):892-896. (SCI)
Nashiru Alhassan, Zekun Zhou, Edgar Sánchez Sinencio, An All-MOSFET Sub-1-V Voltage Reference With a ?51-dB PSR up to 60 MHz,IEEE Transactions on Very Large Scale Integration (VLSI) Systems,Mar. 2017,25 (3):919-928. (SCI)
Ze-kun Zhou,Yue Shi,Chao Gou,Xia Wang,GangWu,Jie-fei Feng,Zhuo Wang,Bo Zhang,A Resistorless Low-Power Voltage Reference,IEEE Transactions on Circuits and Systems II-Express Briefs,2016.07.10,63(7):613~617,SCI.
Xi Qu, Ze-Kun Zhou*, Bo Zhang, An ultra low-power fast-transient output-capacitor-less low-dropout regulator with advanced adaptive biasing circuit,IET Circuits, Devices & Systems,2015, 9 (3), pp. 172-180. (SCI)
Xi Qu, Ze-Kun Zhou*, Bo Zhang, A fast-transient high-PSR output-capacitor-free low-dropout regulator for low-power embedded systems,Analog Integrated Circuits and Signal Processing,2014, 81 (2), pp.443-451. (SCI)
Xi Qu, Ze-Kun Zhou*, Bo Zhang, A low-power on-chip LDO with advanced reference buffer,IEICE Electronics Express,2014,11(20):1-6. (SCI)
Xi Qu, Ze-Kun Zhou*, Bo Zhang, Qiang Fu, A fast-transient on-chip LDO with advanced dynamic biasing circuit,IEICE Electronics Express,2014,11(17):1-6. (SCI)
Xi Qu, Ze-Kun Zhou*, Bo Zhang, Embedded capacitor multiplier gain boosting compensation for large-capacitive-load three-stage amplifier with slew rate enhancement,Analog Integrated Circuits and Signal Processing,2014,79(3):543-553. (SCI)
Xi Qu, Ze-Kun Zhou*, Bo Zhang, A fully on-chip 1-uW capacitor-free low-dropout regulator with adaptive output stage,Analog Integrated Circuits and Signal Processing,2014,78(2):353-360. (SCI)
Xi Qu, Ze-Kun Zhou*, Bo Zhang, Zhao-Ji Li. An Ultralow-Power Fast- Transient Capacitor-Free Low -Dropout Regulator with Assistant Push-Pull Output Stage. IEEE Trans. Circuits Syst. II, Exp. Briefs, 60 (2), pp. 96-100, Feb. 2013. (SCI)
Ze-kun Zhou*, Pei-sheng Zhu, Yue Shi, Xi Qu, Hui-ying Wang, Xiao-min Zhang, Shi Qiu, Nie Li, Lin Tan, Zhuo Wang, and Bo Zhang. A Resistorless CMOS Voltage Reference Based on Mutual Compensation of VT and VTH. IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 60, no. 9, pp. 582-586, Sep. 2013. (SCI)
Ze-Kun Zhou*, Yue Shi, Huang Zhi, Pei-Sheng Zhu, Ying-Qian Ma, Yong-Chun Wang, Zao Chen, Xin Ming, Bo Zhang. A 1.6-V 25-μA 5-ppm/℃ Curvature-Compensated Bandgap Reference. IEEE Trans. Circuits Syst. I, 59 (4), pp. 677-684, Apr. 2012. (SCI)
Ze-kun Zhou*, Pei-sheng Zhu, Yue Shi, Hui-ying Wang, Ying-qian Ma, Xiang-zhu Xu, Lin Tan, Xin Ming, Bo Zhang. A CMOS Voltage Reference Based on Mutual Compensation of Vtn and Vtp. IEEE Trans. Circuits Syst. II, 59 (6), pp. 341-345, Jun. 2012. (SCI)
Ze-kun Zhou*, Xue-chun Ou, Yue Shi, Pei-sheng Zhu, Ying-qian Ma, Xin Ming, Bo Zhang. A 3.2ppm/℃ Curvature-Compensated Bandgap Reference with Wide Supply Voltage Range. Microelectronics Journal, 43 (11), pp: 863-868, Nov. 2012. (SCI)
Zekun Zhou*, Yue Shi, Peisheng Zhu, Yingqian Ma, Huiying Wang, Xin Ming, Bo Zhang. A 1.6-V 17-μA 5.2-ppm/°C bandgap reference with mutative curvaturecompensation. International Journal of Electronics, vol. 99 (4), pp: 519-530, Apr. 2012. (SCI)
Zekun Zhou*, Luping Feng, Yingqian Ma, Shi Yue, Xin Ming, Bo Zhang. A Resistorless CMOS Bandgap Reference with Low Temperature Coefficient and High PSRR. International Journal of Electronics, 99 (10), pp: 1427-1438, Oct. 2012. (SCI)
Zekun Zhou*, Yue Shi, Xin Ming, Bo Zhang, Zhaoji Li, Chen Zao. Modelling and analysis of a high-performance Class D audio amplifier using unipolar pulse-width-modulation. International Journal of Electronics, 99 (2), pp: 163-177, Feb. 2012. (SCI)
Zhou Zekun*, Ming Xin, Zhang Bo, Li Zhaoji. A novel precision curvature-compensated bandgap reference. Journal of Semiconductors, 31(1): 015010, Jan. 2010. (EI)
Zhou Zekun*, Ma Yingqian, Ming Xin, Zhang Bo, Li Zhaoji. A 2.2-V 2.9-ppm/℃ BiCMOS bandgap voltage reference with full temperature-range curvature-compensation. Journal of Semiconductors, 31(7): 075004, Jul. 2010. (EI)
(2)会议论文:
Cao Jianwen, Zhou Zekun, Zhuo Wang, He Tang, Bo Zhang. A Sub-Nanosecond Level Shifter with Ultra-High dV/dt Immunity Suitable for Wide-Bandgap Applications[C]. 2020 IEEE International Symposium on Circuits and Systems (ISCAS). IEEE, 2020.
Zhou Zekun, Li Shilei, Cao Jianwen, Yue Shi, Bo Zhang. A Temperature-Compensated Voltage Reference with High PSRR[C]. 15th IEEE International Conference on Solid-State and Integrated Circuit Technology, ICSICT 2020. Kunming. 2020.
Zhou Zekun, Wang Jiani, Jin Zhengyang, Bo Zhang. A High-stability Fast-recovery Floating Power Rail Generation Circuit for High-Voltage Applications[C]. 15th IEEE International Conference on Solid-State and Integrated Circuit Technology, ICSICT 2020. Kunming. 2020.
Zhou Ze-Kun, Qian Junlin, Li Xiang, Shi Wang, Shi Yue, Wang Zhuo, Zhang Bo. An adaptive zero voltage switching control circuit suitable for quasi-resonance converter[C]. 52nd IEEE International Symposium on Circuits and Systems, ISCAS 2020. 2020.
Zekun Zhou, Ping Luo. Reform Research and Practice on Analog CMOS Integrated Circuits Design Course Based on OBE Mode[C]. International Conference on Modern Educational Technology and Innovation and Entrepreneurship (ICMETIE 2020). 2020.
Zekun Zhou, Hongming Yu, Junlin Qian, Yue Shi, Bo Zhang. A Resistorless Low-Power Voltage Reference with Novel Curvature-Compensation Technique[C]. 2018 IEEE Asia Pacific Conference on Circuits and Systems (APCCAS). 2019.
Yue Shi, Jiawen Wang, Jianwen Cao, Zhou Zekun. An Ultra-Low Power Cycle-by-Cycle Current Limiter Suitable for Switching-Mode Power Supply with 2.2 MHz Frequency[C]. 2019 IEEE 13th International Conference on ASIC (ASICON). 2019.
Zekun Zhou, Hongming Yu, Yue Shi. A Time-domain Bandgap Reference with Continuous Output Voltage[C]. 2018 IEEE Asia Pacific Conference on Circuits and Systems (APCCAS). Chengdu. 2019.
Zekun Zhou, Yunkun Wang, Yue Shi. A Bandgap Reference Using a Novel Soft Self-start Bias Circuit[C]. 2018 IEEE Asia Pacific Conference on Circuits and Systems (APCCAS). Chengdu. 2019.
Zekun Zhou, Junyuan Rong, Jianwen Cao, Dengwei Li, Bo Zhang. A Fully Integrated Floating Gate Driver with Adaptive Gate Drive Technique for High-Voltage Applications[C]. 2018 IEEE 61st International Midwest Symposium on Circuits and Systems (MWSCAS). 2019.
Zekun Zhou, Junyuan Rong, Yue Shi, Bo Zhang. A Fast-Response BUCK Converter with Adaptive Detect and Transient Enhancement Techniques[C]. 2018 IEEE Asia Pacific Conference on Circuits and Systems. Chengdu. 2019.
Zekun Zhou, Yandong Yuan, Yunjun Wang, Yue Shi, Bo Zhang. A Novel Predictive Dead-Time Gate Driver Suitable for Half-Bridge Applications[C]. International Symposium on Power Semiconductor Devices and ICs (ISPSD). 2019.
Zhou Zekun, Jin Zhengyang, Cao Jianwen, Yue Shi, Bo Zhang. An on-time generator with zero quiescent power consumption suitable for aot buck converters[C]. 13th IEEE International Conference on ASIC, ASICON 2019. 2019.
Zekun Zhou, Xiaolin Liu, Xiang Li, Shi Wang, Shi Yue, Wang Zhuo, Zhang Bo. An Asynchronous Start Mode Suitable for DC-DC Converters in Parallel[C]. 2018 14th IEEE International Conference on Solid-State and Integrated Circuit Technology (ICSICT). Qingdao. 2018.
Zekun Zhou, Jianwen Cao, Yue Shi, Bo Zhang. A high-precision voltage regulator with dynamic load technique and overcurrent protection[C]. 2017 IEEE 12th International Conference on ASIC (ASICON). Guiyang. 2018.
Zekun Zhou, Hongming Yu, Yue Shi, Bo Zhang. An 1.4 ppm/°C Bandgap Voltage Reference with Automatic Curvature-Compensation Technique[C]. 2017 International Conference on Robotics and Machine Vision. 2017.
Ze-kun Zhou, Haiwu Xie, Yue Shi, Chuankui Wu, Jiangang Huang, Xin Ming, Bo Zhang. A High-Performance Current Sensing Circuit with Full-Phase Sampling Capability. IEEE International Conference on ASIC, Oct. 2013: 1-4. (EI)
Zekun Zhou*, Xin Wang, Yue Shi, Zhuo Wang, Bo Zhang. High-Precision LED Driving System Based on LLC Resonant Converter. 2012 IET International Conference on Information Science and Control Engineering, Dec. 2012. (EI)
Zekun Zhou, Xin Wang, Yue Shi, Zhuo Wang, Bo Zhang. High-Precision LED Driving System Based on LLC Resonant Converter. 2012 IET International Conference on Information Science and Control Engineering, Dec. 2012: 1-5. (EI)
Zekun Zhou*, Huifang Wang, Yue Shi, Nie Li, Xin Ming, Bo Zhang. A Novel Current-Limit Strategy Used in High Power Step-Down Converter. 11th IEEE International Conference on Solid-State and Integrated Circuit Technology, Oct. 2012: 1-3. (EI)
Zekun Zhou*, Huifang Wang, Yue Shi, Xin Ming, Bo Zhang. A High-Performance PWM Controller with Adjustable Current Limit. IEEE International Conference on ASIC, Oct. 2011: 100-103. (EI)
Zekun Zhou*, Xiangzhu Xu, Yue Shi, Xin Ming, Bo Zhang. A High-Performance Bandgap Reference with Advanced Curvature-Compensation. IEEE International Conference on ASIC, Oct. 2011: 524-527. (EI)
Zekun Zhou*, Huiying Wang, Xiaohan Mei, Cheng Chen, Bo Zhang. A 1.74 ppm/°C, high PSRR bandgap reference with fast start-up. IEEE International Conference on Microwaves, Communications, Antennas and Electronics Systems, 2011: 1-5. (EI)
Xiaohui Zhu*, Ping Luo, Shaowei Zhen, Kang Yang, Jiangkun Li, Zekun Zhou;. A voltage mode power converter with the function of digitally duty cycle tuning. 19th IFIP/IEEE International Conference on Very Large Scale Integration, 2011: 319-324. (EI)
Xin Ming*, Ze-kun Zhou, Bo Zhang. A low-power ultra-fast capacitor-less LDO with advanced dynamic push-pull techniques. 19th IFIP/IEEE International Conference on Very Large Scale Integration, 2011: 54-59. (EI)
Hu Zhiming*, Zhou Ze-Kun, Chen Yue, Zhang Bo. A ultra-fast load regulation capacitor-free LDO with advanced capacitive-coupling feedforward compensation. 10th IEEE International Conference on Solid-State and Integrated Circuit Technology, Nov. 2010: 482-484. (EI)
Zhou Zekun*, Lu Xuan, Ming Xin, Zhang Bo. Effective protection circuits used in high power step-down converter. International Conference on Communications, Circuits and Systems, 2010: 522-526. (EI)
Ze-kun Zhou*, Xin Ming, Bo Zhang, Zhaoji Li. A High-Order Curvature-Compensated CMOS Bandgap Reference. International Conference on Communications, Circuits and Systems, 2009: 652-656. (EI)
Zekun Zhou*, Xing Ming, Bo Zhang, Zhaoji Li. Design of novel bootstrap driver used in high power BUCK converter. IEEE International Conference on ASIC, 2009: 1165-1168. (EI)
Zekun Zhou*, Zhi Huang, Xing Ming, Bo Zhang, Zhaoji Li. An enhanced double current limit technique used in high power BUCK converter. IEEE International Conference of EDSSC, 2009: 376-379. (EI)
Ming Xin*, Chen Zao, Zhou Ze-kun, Zhang Bo. An advanced spread spectrum architecture to improve EMI emissions in Class D amplifier. International Conference on Communications, Circuits and Systems, 2009: 661-665. (EI)
(3)专著:
[1] 贺雅娟, 罗萍, 周泽坤, 明鑫, 甄少伟. 集成电路电源完整性分析与管理(译著). 电子工业出版社. 39万字, 2013.11.
[2] 张波, 罗小蓉, 等.“十三五”国家重点出版物 《功率集成电路设计技术》. 科学出版社. 2020.05. 负责撰写1/4内容。
(4)专利:
Zekun Zhou; Junyuan Rong; Zuao Wang; Yue Shi; Zhuo Wang; Bo Zhang; Transient response enhancement circuit for buck-type voltage converters, 2021-2-16, 美国发明专利, US 10924002 B2. (专利)
Zekun Zhou; Zhuo Wang; He Tang; Bo Zhang; Level Shifter For High-Speed Gate Drivers, 2020-8-12, 美国发明专利, US 10,862,463 B1. (专利)
Ze-kun Zhou, Yunkun Wang, Yandong Yuan, Shilei Li, Zhuo Wang, Bo Zhang. Predictive Dead Time Generating Circuit, 2020-1-7, 美国发明专利, US10,530,258 B1. (专利)
Ze-kun Zhou*; Jun-lin Qian; Xiao-lin Liu; Yue Shi; Zhuo Wang; Bo Zhang; Adaptive Control Method For Zero Voltage Switching, 2019-8-6, 美国发明专利, US10,374,506 B1. (专利)
Zekun Zhou; Xiang Li; Yandong Yuan; Yue Shi; Zhuo Wang; Bo Zhang; Sub-threshold low-power-resistor-less reference circuit, 2018-8-7, 美国发明专利, US 10,042,379 B1. (专利)
Zekun Zhou; Yao Wang; Cao Jianwen; Hongming Yu; Yunkun Wang; Anqi Wang; Zhuo Wang; Bo Zhang; CMOS subthreshold reference circuit with low power consumption and low temperature drift, 2018-4-12, 美国发明专利, US 10,146,238 B2. (专利)
周泽坤, 张家豪, 董瑞凯, 石跃, 王卓, 张波. 一种基于谷值检测的准谐振开关变换器. 2019.3, 中国, ZL 201710364904.6
周泽坤, 李天生, 曹建文, 石跃, 丁立文, 徐俊, 张波. 一种带有源钳位的无自举栅极驱动电路. 2018.8, 中国, ZL 201610554379.X
周泽坤, 徐俊, 冯捷斐, 李天生, 石跃, 王卓, 张波. 一种基于COT控制模式的失调电压消除电路. 2018.6, 中国, ZL 201610455492.2
周泽坤, 李天生, 曹建文, 石跃, 徐俊, 丁力文, 张波. 一种自偏置高电源抑制比基准电路. 2017.3, 中国, ZL 201610473881.8
周泽坤, 黄建刚, 罗明, 吴杰, 石跃, 邱实, 明鑫, 张波. 一种启动电路及集成该电路的供电系统. 2014.3, 中国, ZL 201210263995.1
周泽坤, 吴传奎, 王霞, 谢海武, 石跃, 王卓, 明鑫, 张波. 双环路低压差线性稳压器. 2014.3, 中国, ZL 201210321202.7
周泽坤, 李涅, 王慧芳, 石跃, 明鑫, 张波. 一种限流保护电路以及集成该电路的DC-DC转换器. 2014.2, 中国, ZL 201110393505.5
周泽坤, 张竹贤, 徐祥柱, 石跃, 黄建刚, 邱实, 明鑫, 张波. 一种带隙基准电压源. 2013.11, 中国, ZL201210043266.5
周泽坤, 朱培生, 王会影, 石跃, 明鑫, 张波. 一种非带隙电压基准源. 2013.8, 中国, ZL201110120552.2
周泽坤, 朱培生, 王慧芳, 石跃, 明鑫, 张波. 一种无电阻CMOS电压基准源. 2013.7, 中国, ZL201110120914.8
周泽坤, 欧春雪, 朱培生, 石跃, 明鑫, 张波. 一种高阶温度补偿的带隙电压基准源. 2013.7, 中国, ZL201110123687.4
周泽坤, 代高强, 石跃, 王慧芳, 明鑫, 张波. 一种有源箝位电路. 2013.7, 中国, ZL201110333828.5
周泽坤, 王会影, 石跃, 蔡小祥, 鲍小亮, 王易, 明鑫, 张波. 一种带隙电压基准源. 2013.6, 中国, ZL201110222964.7
周泽坤, 黄智, 朱培生, 王永春, 刘明亮, 明鑫, 张波. 一种高阶曲率补偿的带隙基准电压源. 2013.6, 中国, ZL201110120520.2
周泽坤, 徐祥柱, 石跃, 明鑫, 张波. 一种可变曲率补偿的带隙电压基准源. 2013.6, 中国, ZL201110120544.8
周泽坤, 钟博, 封鲁平, 马颖乾, 明鑫, 张波, 徐祥柱. 一种无电阻的带隙基准电压源. 2012.9, 中国, ZL201110120912.9
周泽坤, 马颖乾, 甑少伟, 明鑫, 张波, 戴瑶. 一种具有高阶温度补偿电路的电压基准源. 2012.5, 中国, ZL 201010283053.0
周泽坤, 胡志明, 张雨荷, 石跃, 明鑫, 张波. 一种基于动态零极点跟踪技术的LDO. 2012.1, 中国, ZL 201120147485.9
周泽坤, 王慧芳, 傅金, 马颖乾, 明鑫, 张波, 李肇基. 一种全温度范围补偿的电压基准源. 2011.12, 中国, ZL 201120147123.X
周泽坤, 胡志明, 王会影, 石跃, 明鑫, 张波. 一种低压差线性稳压器. 2011.11, 中国, ZL 201120147217.7
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