周澤坤,男,博士,教授,博士生導師。現為電子科技大學積體電路科學與工程學院教授。
基本介紹
- 中文名:周澤坤
- 國籍:中國
- 民族:漢
- 畢業院校:電子科技大學
人物簡介,學術兼職,研究方向,科研成果,榮譽獎勵,主要作品,
人物簡介
2014-2015年赴美國德州農工大學從事博士後研究工作。現就職於電子科技大學積體電路科學與工程學院功率集成技術實驗室。
學術兼職
受聘為華為-電子科技大學 功率電子技術聯合實驗室 技術指導委員會成員;入選國家自然科學基金評審專家、四川省科技專家庫、高新技術企業認定專家、成都市工業和信息化專家、重慶市科技專家等。
研究方向
從事高性能功率積體電路與系統研究,包括電源管理集成技術、高精度低功耗模擬積體電路、高速低噪聲模擬前端積體電路、高功率密度控制器、寬禁帶半導體積體電路及能量收集系統等。
科研成果
作為項目責任人或主研人員完成多個國家自然科學基金、國家重點研發計畫、國家重大專項、橫向項目、中央高校基本業務費、省部級和總裝預研項目等。項目涉及DC/DC變換器、AC/DC變換器、LED驅動、電池電量監測/充電管理、高品質音頻放大器、光電集成、高速柵驅動及PMU等諸多熱門領域,被廣泛套用於汽車電子、醫療電子、平板電視/電腦、機頂盒、分散式供電系統、大尺寸LED螢幕、LCD背光及低功耗通用SoC、多模導航SoC等諸多產品中。
長期作為IEEE等領域核心心期刊及國家自然科學基金等評審,並在IEEE Trans. Circuits Syst. I、IEEE Trans. Circuits Syst. II、IEEE Trans. Power Electron.、IEEE ISCAS等國內外期刊及會議上發表論文60餘篇,國際會議邀請報告4次;授權中國發明專利過百項、美國發明專利授權6項,合作編寫專著2本。
榮譽獎勵
獲2019年四川省技術發明二等獎,2018、2019年連續兩屆 工業和信息化部“全國大學生積體電路創新創業大賽”最高獎團隊唯一指導老師,2012年IEEE CDS Excellent Student Paper Award,2009年四川省精品課程《微電子電路設計》。
主要作品
部分學術成果
(1)期刊論文:
[1] Jianwen Cao , Ze-kun Zhou* , Zhuo Wang , HeTang , and Bo Zhang. Design Techniques of Sub-ns Level Shifters WithUltrahigh dV/dt Immunity for Various Wide-Bandgap Applications. IEEE Trans.Power Electron., vol. 36, no. 9, pp. 10447-10460, Sep. 2021. (SCI)
[2] Ze-KunZhou, Anqi Wang, YunkunWang, Jiani Wang, Yue Shi , Zhuo Wang , and Bo Zhang. An Error Amplifier with aLow Power Multi-Mode Voltage Clamper for Transient Enhancement and HighReliability. IEEE Trans. Circuits Syst. I, 67 (11), pp. 4075-4084, Nov. 2020.SCI.
[3] Yue Shi, Shilei Li, Jianwen Cao, Ze-kunZhou*, Weiwei Ling. A 180nm Self-biased Bandgap Reference with HighPSRR Enhancement. Nanoscale Research Letters,May 2020, DOI: https://doi.org/10.1186/s11671-020-03333-w.SCI.
[4] Yao Yao, Xian-he Huang, Bo-ya Zhang, Zhen Zhang,Dong Hou, Ze-kun Zhou. Facilefabrication of high sensitivity cellulose nanocrystals based QCM humiditysensors with asymmetric electrode structure. Sensors and Actuators B: Chemical,302, 127192, 2020. SCI.
[5] Ze-KunZhou, Hongming Yu, Yue Shi,Zhuo Wang, Bo Zhang. A High-Precision Bandgap Voltage Reference with AutomaticCurvature-Compensation Technique. Journal of Circuits, Systems and Computers,Dec. 2019,28(13):1950214-1-1950214-12. SCI.
[6] Yue Shi, Anqi Wang, Jianwen Cao, Ze-kunZhou*. A Transient-Enhanced Voltage Regulator with Stability andPower-Supply-Rejection Boosting. Nanoscale Research Letters,Dec 2019,DOI: https://doi.org/10.1186/s11671-019-3215-4. SCI.
[7] Ze-kunZhou, Junlin Qian, XiangLi, Wang Shi, Yue Shi*, Zhuo Wang, Bo Zhang. An Integrated TransientEnhancement 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.
[8] Ze-kunZhou, Yun-Kun Wang,Hong-Guo Gong, Yue Shi*, Zhuo Wang, Bo Zhang. A Fully-Integrated OptoelectronicDetector With High Gain Bandwidth Product, IEEE Access, May. 2019, 7:53032-53039. SCI.
[9] Ze-KunZhou, Yue Shi, Yao Wang,Nie Li, Zhiping Xiao, Yunkun Wang, Xiaolin Liu, Zhuo Wang, and Bo Zhang. AResistorless High-Precision Compensated CMOS Bandgap Voltage Reference. IEEETrans. Circuits Syst. I, 66 (1), pp. 428-437, Jan. 2019. SCI.
[10] ZekunZhou, Jianwen Cao, YunkunWang, Yue Shi, Zhuo Wang, Bo Zhang. A Nanoscale Low-Power Resistorless VoltageReference with High PSRR. Nanoscale Research Letters,2019, DOI: https://doi.org/10.1186/s11671-019-2864-7.SCI.
[11] Ze-KunZhou, Wang Shi, Yan-dongYuan, Yue Shi, Bo Zhang, and Qing Hua. A 0.85 V, 4.9 ppm/ ℃ inherenttemperature compensated voltage reference with -82 dB PSRR, IEICE ElectronicsExpress,2018,15(22):1-6. SCI.
[12] Nashiru Alhassan, Zekun Zhou, Edgar Sánchez Sinencio, An All-MOSFET Voltage ReferenceWith -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)
[13] Nashiru Alhassan, Zekun Zhou, Edgar Sánchez Sinencio, An All-MOSFET Sub-1-V VoltageReference 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)
[14] Ze-kunZhou,Yue Shi,Chao Gou,Xia Wang,GangWu,Jie-fei Feng,Zhuo Wang,Bo Zhang,A Resistorless Low-Power Voltage Reference,IEEETransactions on Circuits and Systems II-Express Briefs,2016.07.10,63(7):613~617,SCI.
[15] Xi Qu, Ze-KunZhou*, Bo Zhang, An ultra low-power fast-transient output-capacitor-lesslow-dropout regulator with advanced adaptive biasing circuit,IETCircuits, Devices & Systems,2015, 9 (3), pp. 172-180. (SCI)
[16] Xi Qu, Ze-KunZhou*, Bo Zhang, A fast-transient high-PSR output-capacitor-freelow-dropout regulator for low-power embedded systems,Analog IntegratedCircuits and Signal Processing,2014, 81 (2), pp.443-451. (SCI)
[17] Xi Qu, Ze-KunZhou*, Bo Zhang, A low-power on-chip LDO with advanced reference buffer,IEICEElectronics Express,2014,11(20):1-6. (SCI)
[18] Xi Qu, Ze-KunZhou*, Bo Zhang, Qiang Fu, A fast-transient on-chip LDO with advanceddynamic biasing circuit,IEICE Electronics Express,2014,11(17):1-6. (SCI)
[19] Xi Qu, Ze-KunZhou*, Bo Zhang, Embedded capacitor multiplier gain boosting compensationfor large-capacitive-load three-stage amplifier with slew rate enhancement,AnalogIntegrated Circuits and Signal Processing,2014,79(3):543-553. (SCI)
[20] Xi Qu, Ze-KunZhou*, Bo Zhang, A fully on-chip 1-uW capacitor-free low-dropout regulatorwith adaptive output stage,Analog Integrated Circuits and Signal Processing,2014,78(2):353-360.(SCI)
[21] Xi Qu, Ze-KunZhou*, Bo Zhang, Zhao-Ji Li. An Ultralow-Power Fast- TransientCapacitor-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)
[22] Ze-kunZhou*, Pei-sheng Zhu, YueShi, 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 MutualCompensation of VT and VTH. IEEE Trans. Circuits Syst. II, Exp. Briefs, vol.60, no. 9, pp. 582-586, Sep. 2013. (SCI)
[23] Ze-KunZhou*, Yue Shi, Huang Zhi,Pei-Sheng Zhu, Ying-Qian Ma, Yong-Chun Wang, Zao Chen, Xin Ming, Bo Zhang. A1.6-V 25-μA 5-ppm/℃ Curvature-Compensated Bandgap Reference. IEEE Trans.Circuits Syst. I, 59 (4), pp. 677-684, Apr. 2012. (SCI)
[24] Ze-kunZhou*, Pei-sheng Zhu, YueShi, Hui-ying Wang, Ying-qian Ma, Xiang-zhu Xu, Lin Tan, Xin Ming, Bo Zhang. ACMOS Voltage Reference Based on Mutual Compensation of Vtn and Vtp. IEEE Trans.Circuits Syst. II, 59 (6), pp. 341-345, Jun. 2012. (SCI)
[25] Ze-kunZhou*, 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)
[26] ZekunZhou*, Yue Shi, PeishengZhu, Yingqian Ma, Huiying Wang, Xin Ming, Bo Zhang. A 1.6-V 17-μA 5.2-ppm/°Cbandgap reference with mutative curvaturecompensation. International Journal ofElectronics, vol. 99 (4), pp: 519-530, Apr. 2012. (SCI)
[27] ZekunZhou*, Luping Feng, YingqianMa, Shi Yue, Xin Ming, Bo Zhang. A Resistorless CMOS Bandgap Reference with LowTemperature Coefficient and High PSRR. International Journal of Electronics, 99(10), pp: 1427-1438, Oct. 2012. (SCI)
[28] ZekunZhou*, Yue Shi, Xin Ming, BoZhang, Zhaoji Li, Chen Zao. Modelling and analysis of a high-performance ClassD audio amplifier using unipolar pulse-width-modulation. International Journalof Electronics, 99 (2), pp: 163-177, Feb. 2012. (SCI)
[29] ZhouZekun*, Ming Xin, Zhang Bo,Li Zhaoji. A novel precision curvature-compensated bandgap reference. Journalof Semiconductors, 31(1): 015010, Jan. 2010. (EI)
[30] ZhouZekun*, Ma Yingqian, MingXin, Zhang Bo, Li Zhaoji. A 2.2-V 2.9-ppm/℃ BiCMOS bandgap voltage referencewith full temperature-range curvature-compensation. Journal of Semiconductors,31(7): 075004, Jul. 2010. (EI)
(2)會議論文:
[1] Cao Jianwen,Zhou Zekun, Zhuo Wang, He Tang, Bo Zhang. A Sub-Nanosecond Level Shifterwith Ultra-High dV/dt Immunity Suitable for Wide-Bandgap Applications[C]. 2020IEEE International Symposium on Circuits and Systems (ISCAS). IEEE, 2020.
[2] ZhouZekun, Li Shilei, CaoJianwen, Yue Shi, Bo Zhang. A Temperature-Compensated Voltage Reference withHigh PSRR[C]. 15th IEEE International Conference on Solid-State and Integrated CircuitTechnology, ICSICT 2020. Kunming. 2020.
[3] ZhouZekun, Wang Jiani, JinZhengyang, Bo Zhang. A High-stability Fast-recovery Floating Power RailGeneration Circuit for High-Voltage Applications[C]. 15th IEEE InternationalConference on Solid-State and Integrated Circuit Technology, ICSICT 2020.Kunming. 2020.
[4] ZhouZe-Kun, Qian Junlin, LiXiang, Shi Wang, Shi Yue, Wang Zhuo, Zhang Bo. Anadaptive zero voltage switching control circuit suitable for quasi-resonanceconverter[C]. 52nd IEEE International Symposium on Circuits and Systems, ISCAS2020. 2020.
[5] ZekunZhou, Ping Luo. ReformResearch and Practice on Analog CMOS Integrated Circuits Design Course Based onOBE Mode[C]. International Conference on Modern Educational Technology andInnovation and Entrepreneurship (ICMETIE 2020). 2020.
[6] ZekunZhou, Hongming Yu, JunlinQian, Yue Shi, Bo Zhang. A Resistorless Low-Power Voltage Reference with NovelCurvature-Compensation Technique[C]. 2018 IEEE Asia Pacific Conference onCircuits and Systems (APCCAS). 2019.
[7] Yue Shi, Jiawen Wang, Jianwen Cao, Zhou Zekun. An Ultra-Low PowerCycle-by-Cycle Current Limiter Suitable for Switching-Mode Power Supply with2.2 MHz Frequency[C]. 2019 IEEE 13th International Conference on ASIC (ASICON).2019.
[8] ZekunZhou, Hongming Yu, Yue Shi.A Time-domain Bandgap Reference with Continuous Output Voltage[C]. 2018 IEEEAsia Pacific Conference on Circuits and Systems (APCCAS). Chengdu. 2019.
[9] ZekunZhou, Yunkun Wang, Yue Shi.A Bandgap Reference Using a Novel Soft Self-start Bias Circuit[C]. 2018 IEEEAsia Pacific Conference on Circuits and Systems (APCCAS). Chengdu. 2019.
[10] ZekunZhou, Junyuan Rong, JianwenCao, Dengwei Li, Bo Zhang. A Fully Integrated Floating Gate Driver withAdaptive Gate Drive Technique for High-Voltage Applications[C]. 2018 IEEE 61stInternational Midwest Symposium on Circuits and Systems (MWSCAS). 2019.
[11] ZekunZhou, Junyuan Rong, YueShi, Bo Zhang. A Fast-Response BUCK Converter with Adaptive Detect andTransient Enhancement Techniques[C]. 2018 IEEE Asia Pacific Conference onCircuits and Systems. Chengdu. 2019.
[12] ZekunZhou, Yandong Yuan, YunjunWang, Yue Shi, Bo Zhang. A Novel Predictive Dead-Time Gate Driver Suitable forHalf-Bridge Applications[C]. International Symposium on Power SemiconductorDevices and ICs (ISPSD). 2019.
[13] ZhouZekun, Jin Zhengyang, CaoJianwen, Yue Shi, Bo Zhang. An on-time generator with zero quiescent powerconsumption suitable for aot buck converters[C]. 13th IEEE InternationalConference on ASIC, ASICON 2019. 2019.
[14] ZekunZhou, Xiaolin Liu, XiangLi, ShiWang, Shi Yue, Wang Zhuo, Zhang Bo. An Asynchronous Start Mode Suitable forDC-DC Converters in Parallel[C]. 2018 14th IEEE International Conference onSolid-State and Integrated Circuit Technology (ICSICT). Qingdao. 2018.
[15] ZekunZhou, Jianwen Cao, Yue Shi,Bo Zhang. A high-precision voltage regulator with dynamic load technique andovercurrent protection[C]. 2017 IEEE 12th International Conference on ASIC(ASICON). Guiyang. 2018.
[16] Zekun Zhou, Hongming Yu, Yue Shi, Bo Zhang. An1.4 ppm/°C Bandgap Voltage Reference with Automatic Curvature-CompensationTechnique[C]. 2017 International Conference on Robotics and Machine Vision.2017.
[17] Ze-kunZhou, Haiwu Xie, Yue Shi,Chuankui Wu, Jiangang Huang, Xin Ming, Bo Zhang. A High-Performance CurrentSensing Circuit with Full-Phase Sampling Capability. IEEE InternationalConference on ASIC, Oct. 2013: 1-4. (EI)
[18] ZekunZhou*, Xin Wang, Yue Shi,Zhuo Wang, Bo Zhang. High-Precision LED Driving System Based on LLC ResonantConverter. 2012 IET International Conference on Information Science and ControlEngineering, Dec. 2012. (EI)
[19] ZekunZhou, Xin Wang, Yue Shi,Zhuo Wang, Bo Zhang. High-Precision LED Driving System Based on LLC ResonantConverter. 2012 IET International Conference on Information Science and ControlEngineering, Dec. 2012: 1-5. (EI)
[20] ZekunZhou*, Huifang Wang, YueShi, Nie Li, Xin Ming, Bo Zhang. A Novel Current-Limit Strategy Used in HighPower Step-Down Converter. 11th IEEE International Conference on Solid-Stateand Integrated Circuit Technology, Oct. 2012: 1-3. (EI)
[21] ZekunZhou*, Huifang Wang, YueShi, Xin Ming, Bo Zhang. A High-Performance PWM Controller with AdjustableCurrent Limit. IEEE International Conference on ASIC, Oct. 2011: 100-103. (EI)
[22] ZekunZhou*, Xiangzhu Xu, Yue Shi,Xin Ming, Bo Zhang. A High-Performance Bandgap Reference with AdvancedCurvature-Compensation. IEEE International Conference on ASIC, Oct. 2011:524-527. (EI)
[23] ZekunZhou*, Huiying Wang, XiaohanMei, Cheng Chen, Bo Zhang. A 1.74 ppm/°C, high PSRR bandgap reference with faststart-up. IEEE International Conference on Microwaves, Communications, Antennasand Electronics Systems, 2011: 1-5. (EI)
[24] Xiaohui Zhu*, Ping Luo, Shaowei Zhen, Kang Yang,Jiangkun Li, Zekun Zhou;. A voltagemode power converter with the function of digitally duty cycle tuning. 19thIFIP/IEEE International Conference on Very Large Scale Integration, 2011:319-324. (EI)
[25] Xin Ming*, Ze-kunZhou, Bo Zhang. A low-power ultra-fast capacitor-less LDO with advanceddynamic push-pull techniques. 19th IFIP/IEEE International Conference on VeryLarge Scale Integration, 2011: 54-59. (EI)
[26] Hu Zhiming*, ZhouZe-Kun, Chen Yue, Zhang Bo. A ultra-fast load regulation capacitor-free LDOwith advanced capacitive-coupling feedforward compensation. 10th IEEEInternational Conference on Solid-State and Integrated Circuit Technology, Nov.2010: 482-484. (EI)
[27] ZhouZekun*, 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)
[28] Ze-kunZhou*, 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)
[29] ZekunZhou*, 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)
[30] ZekunZhou*, Zhi Huang, Xing Ming,Bo Zhang, Zhaoji Li. An enhanced double current limit technique used in highpower BUCK converter. IEEE International Conference of EDSSC, 2009: 376-379.(EI)
[31] Ming Xin*, Chen Zao, Zhou Ze-kun, Zhang Bo. An advanced spread spectrum architecture toimprove EMI emissions in Class D amplifier. International Conference onCommunications, Circuits and Systems, 2009: 661-665. (EI)
(3)專著:
[1] 賀雅娟, 羅萍, 周澤坤, 明鑫, 甄少偉. 積體電路電源完整性分析與管理(譯著). 電子工業出版社. 39萬字, 2013.11.
[2] 張波, 羅小蓉, 等.“十三五”國家重點出版物 《功率積體電路設計技術》. 科學出版社. 2020.05. 負責撰寫1/4內容。
(4)專利:
[1] ZekunZhou; Junyuan Rong; ZuaoWang; Yue Shi; Zhuo Wang; Bo Zhang; Transient response enhancement circuit forbuck-type voltage converters, 2021-2-16, 美國發明專利, US 10924002 B2. (專利)
[2] ZekunZhou; Zhuo Wang; He Tang;Bo Zhang; Level Shifter For High-Speed Gate Drivers, 2020-8-12, 美國發明專利, US10,862,463 B1. (專利)
[3] Ze-kunZhou, Yunkun Wang, YandongYuan, Shilei Li, Zhuo Wang, Bo Zhang. Predictive Dead Time Generating Circuit, 2020-1-7,美國發明專利, US10,530,258 B1. (專利)
[4] Ze-kunZhou*; Jun-lin Qian;Xiao-lin Liu; Yue Shi; Zhuo Wang; Bo Zhang; Adaptive Control Method For ZeroVoltage Switching, 2019-8-6, 美國發明專利, US10,374,506 B1. (專利)
[5] ZekunZhou; Xiang Li; YandongYuan; Yue Shi; Zhuo Wang; Bo Zhang; Sub-threshold low-power-resistor-lessreference circuit, 2018-8-7, 美國發明專利, US 10,042,379 B1. (專利)
[6] ZekunZhou; Yao Wang; CaoJianwen; Hongming Yu; Yunkun Wang; Anqi Wang; Zhuo Wang; Bo Zhang; CMOS subthresholdreference circuit with low power consumption and low temperature drift,2018-4-12, 美國發明專利, US 10,146,238 B2. (專利)
[7] 周澤坤, 張家豪, 董瑞凱, 石躍, 王卓, 張波. 一種基於谷值檢測的準諧振開關變換器. 2019.3, 中國, ZL 201710364904.6
[8] 周澤坤, 李天生, 曹建文, 石躍, 丁立文, 徐俊, 張波. 一種帶有源鉗位的無自舉柵極驅動電路. 2018.8, 中國, ZL 201610554379.X
[9] 周澤坤, 徐俊, 馮捷斐, 李天生, 石躍, 王卓, 張波. 一種基於COT控制模式的失調電壓消除電路. 2018.6, 中國, ZL 201610455492.2
[10] 周澤坤, 李天生, 曹建文, 石躍, 徐俊, 丁力文, 張波. 一種自偏置高電源抑制比基準電路. 2017.3, 中國, ZL 201610473881.8
[11] 周澤坤, 黃建剛, 羅明, 吳傑, 石躍, 邱實, 明鑫, 張波. 一種啟動電路及集成該電路的供電系統. 2014.3, 中國, ZL 201210263995.1
[12] 周澤坤, 吳傳奎, 王霞, 謝海武, 石躍, 王卓, 明鑫, 張波. 雙環路低壓差線性穩壓器. 2014.3, 中國, ZL 201210321202.7
[13] 周澤坤, 李涅, 王慧芳, 石躍, 明鑫, 張波. 一種限流保護電路以及集成該電路的DC-DC轉換器. 2014.2, 中國, ZL 201110393505.5
[14] 周澤坤, 張竹賢, 徐祥柱, 石躍, 黃建剛, 邱實, 明鑫, 張波. 一種帶隙基準電壓源. 2013.11, 中國, ZL201210043266.5
[15] 周澤坤, 朱培生, 王會影, 石躍, 明鑫, 張波. 一種非帶隙電壓基準源. 2013.8, 中國, ZL201110120552.2
[16] 周澤坤, 朱培生, 王慧芳, 石躍, 明鑫, 張波. 一種無電阻CMOS電壓基準源. 2013.7, 中國, ZL201110120914.8
[17] 周澤坤, 歐春雪, 朱培生, 石躍, 明鑫, 張波. 一種高階溫度補償的帶隙電壓基準源. 2013.7, 中國, ZL201110123687.4
[18] 周澤坤, 代高強, 石躍, 王慧芳, 明鑫, 張波. 一種有源箝位電路. 2013.7, 中國, ZL201110333828.5
[19] 周澤坤, 王會影, 石躍, 蔡小祥, 鮑小亮, 王易, 明鑫, 張波. 一種帶隙電壓基準源. 2013.6, 中國, ZL201110222964.7
[20] 周澤坤, 黃智, 朱培生, 王永春, 劉明亮, 明鑫, 張波. 一種高階曲率補償的帶隙基準電壓源. 2013.6, 中國, ZL201110120520.2
[21] 周澤坤, 徐祥柱, 石躍, 明鑫, 張波. 一種可變曲率補償的帶隙電壓基準源. 2013.6, 中國, ZL201110120544.8
[22] 周澤坤, 鐘博, 封魯平, 馬穎乾, 明鑫, 張波, 徐祥柱. 一種無電阻的帶隙基準電壓源. 2012.9, 中國, ZL201110120912.9
[23] 周澤坤, 馬穎乾, 甑少偉, 明鑫, 張波, 戴瑤. 一種具有高階溫度補償電路的電壓基準源. 2012.5, 中國, ZL 201010283053.0
[24] 周澤坤, 胡志明, 張雨荷, 石躍, 明鑫, 張波. 一種基於動態零極點跟蹤技術的LDO. 2012.1, 中國, ZL 201120147485.9
[25] 周澤坤, 王慧芳, 傅金, 馬穎乾, 明鑫, 張波, 李肇基. 一種全溫度範圍補償的電壓基準源. 2011.12, 中國, ZL 201120147123.X
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