現招收有集成電路設計專業背景和科研經驗的博士後/博士/碩士/科研助理🧙🏼。
研究方向🪝:
1.低功耗電源管理芯片🏊🏼,開關電感、開關電容及混合型DC-DC電壓轉換器
Power management circuits and systems👩🎨,switch mode, switched-capacitor and hybrid DC-DC power converters
2.振動能/太陽能/熱能/無線等能量收集芯片
Piezoelectric/photovoltaic/thermoelectric/RF etc. energy harvesting chips
3.無線充電技術,隔離電源技術🈹,AC-DC整流器
Wireless power transfer, Isolation power management and AC-DC rectifiers
4.高能效GaN驅動芯片,LED驅動芯片
High efficiency GaN drivers,LED drivers
教育背景:
2011年09月-2018年06月 澳門大學, 電機及電腦工程, 碩士、博士
2017年03月-2017年09月 香港科技大學, Integrated Power Electronics Lab 訪問交流
2007年09月-2011年07月 澳門大學, 電機及電腦工程, 學士
工作經歷:
2021年-至今 沐鸣娱乐, 沐鸣, 青年研究員
2018年12月-2021年1月 沐鸣娱乐, 博士後
2018年09月-2018年12月 沐鸣娱乐, 沐鸣, 研究助理
學術兼職🐧:
IEEE電路與系統學會電力電子分會委員
SCI期刊《Energies》客座編輯,《微電子學》🙋🏿♂️,《Smart Grids》等期刊編委
IEEE ISCAS等會議分會主席
IEEE JSSC, TCAS-1等期刊和會議審稿人
科研獲獎🫣:
2024年指導學生獲得研究生“創芯大賽”企業命題賽道特等獎
2022年中國電子學會-智芯專項
2019年上海市首屆超級博士後
2018年澳門發展基金會博士研究生科技研發獎
科研經歷:
在能量收集、電源管理領域發表了二十余篇高質量的文章,其中包含有6篇固態電路頂刊JSSC 論文和3篇“芯片奧林匹克”ISSCC 論文,6篇電力電子頂刊TPE論文,生物電子頂刊TBioCAC論文和定製集成電路頂會CICC論文等🙍🏽,google scholar引用超500次🤙🏻😼。作為項目負責人承擔了一批國家級項目和企業項目,包括國家自然科學基金“可用於物聯網的超低功耗壓電能源采集和電源管理芯片”項目,國家重點實驗室面上項目🗒,晶華微電子等公司項目;作為核心成員參與國家科技部重點研發計劃“光電子與微電子器件及集成”重點專項“高能效人機交互芯片技術”和澳門科學技術發展基金會“可用於雙向通信的超低功率太陽能CMOS生物可植入傳感芯片”等項目🧘🏻♂️。授權多項國際、國內專利🧓🏿。
代表性論文(*通訊作者)💁♂️:
1) J. Ruan, Z. Chen, et al., “A Hybrid Buck-or-Boost Converter for Fast-Transient and Wide-Voltage-Range Applications With Continuous Output Delivery Current,” IEEE Journal of Solid-State Circuits (JSSC), 2025.
2) Y. Wei, Z. Chen, et al., “An Inductor-less Capacitor-less Synchronous Piezoelectric-Electromagnetic Hybrid Energy Harvesting Platform with Coil-Sharing Scheme,” IEEE International Solid-State Circuits Conference (ISSCC), Feb, 2025.
3)J. Wang, Z. Chen*, et al., “Enhancing Efficiency in Piezoelectric Energy Harvesting: Collaborative-flip Synchronized Switch Harvesting on Capacitors Rectifier and Multi-Output DC-DC Converters Utilizing Shared Capacitors,” IEEE Journal of Solid-State Circuits (JSSC), 2024.
4) Z. Li, Z. Chen*, et al., “Piezoelectric Energy Harvesting Interface Using Self-bias-flip Rectifier and Switched-PEH DC-DC for MPPT,” IEEE Journal of Solid-State Circuits (JSSC), 2024.
5) Q. Zuo, Z. Chen*, et al., An Ultra-Efficient and Compact Flipping-Input Synchronized Switch Harvesting on Inductor and Capacitors Interface Circuit for Piezoelectric Energy Harvesting, IEEE Transaction on Circuits and SystemsⅡ(TCAS-Ⅱ), 2024.
6) W. Li, Z. Chen*, et al., “A Single-Stage Four-Phase Dual-Output Regulating Rectifier With Ultrafast Transient Response Using Double-Frequency Current-Wave Modulation”, IEEE Int. Symp. Circuits and Systems (ISCAS), 2024.
7) X. Yue, Z. Chen, et al., “A Fully Integrated Sequential Synchronized Switch Harvesting on Capacitors Rectifier Based on Split-Electrode for Piezoelectric Energy Harvesting”, IEEE Transactions on Power Electronics (TPE), 2024.
8) T. Lu, Z. Chen, et al., “A Thermoelectric Energy Harvesting System Assisted by a Piezoelectric Transducer Achieving 10-mV Cold-startup and 82.7% Peak Efficiency”, IEEE Transactions on Power Electronics (TPE), 2024.
9) Z. Li, Z. Chen*, et al., “A Self-Bias-flip Piezoelectric Energy Harvester Array without External Energy Reservoirs achieving 488% Improvement with 4-Ratio Switched-PEH DC-DC Converter, IEEE Custom Integrated Circuits Conference (CICC), Apr., 2023.
10) Z. Li, Z. Chen*, et al., “A Self-bias-flip with Charge Recycle Interface Circuit with No External Energy Reservoir for Piezoelectric Energy Harvesting Array, IEEE Transactions on Power Electronics (TPE), July, 2023.
11) Q. Lu, Z. Chen, et al., “A Dynamically Reconfigurable Recursive Switched-Capacitor DC-DC Converter with Adaptive Load Ability Enhancement, IEEE Transactions on Power Electronics (TPE), June, 2023.
12) S. Liu, Z. Chen, et al., “A Single-stage 3-Mode Reconfigurable Regulating Rectifier for Wireless Power Transfer, IEEE Transactions on Power Electronics (TPE), June, 2023.
13) J. Wang, Z. Chen*,et al., Piezoelectric Energy Harvesters: An Overview on Design Strategies and Topologies, IEEE Transaction on Circuits and SystemsⅡ(TCAS-Ⅱ), Vol. 69, no. 7, pp 3057-3063, July 2022.
14) Y. Yang, Z. Chen*, et al., Circuit Techniques for High Efficiency Piezoelectric Energy Harvesting, Micromachines, vol. 13, no. 7, pp 1044, 2022.
15) H. Zhao, Z. Chen*, et al., A Tuning Range Extension Technique for Waveform-Shaping Single-core CMOS Oscillators with No Dedicated Harmonic Tuning, IEEE Transaction on Circuits and SystemsⅡ(TCAS-Ⅱ), Oct. 2022.
16) J. Wang, Z. Chen*, et al., A Cross Regulation Reduced Multi-Output and Multi-VCR Piezoelectric Energy Harvesting System Using Shared Capacitors, IEEE Int. Symp. Circuits and Systems (ISCAS), Oct. 2022.
17) Y. Yang, Z. Chen*, et al., A Multiple Charge Extractions and Multiple Pre-charge Interface Circuit for Piezoelectric Energy Harvesting, IEEE Int. Symp. Circuits and Systems (ISCAS), Oct. 2022.
18) B. Zhao, Z. Chen, et al “Series Synchronized triple bias-flip circuit: maximizing the usage of single storage capacitor for piezoelectric energy harvesting enhancement”, IEEE Transactions on Power Electronics (TPE), Vol. 36, pp 6787 - 6796, Jun. 2021.
19) Z. Chen, et al., Piezoelectric Energy Harvesting Interface using Split-Phase Flipping-Capacitor Rectifier with Capacitor-Reuse for Input Power Adaptation, IEEE Journal of Solid-State Circuits (JSSC), Vol. 55, pp 2106-2117, Aug, 2020.
20) Z. Li, Z. Chen*, et al., An Energy Harvesting System with Reconfigurable Piezoelectric Energy Harvester Array for IoT Applications, IEEE Int. Symp. Circuits and Systems (ISCAS), Oct. 2020.
21) L. Teng, Z. Chen, “Multiple Charge Extractions with Bias-flip Interface Circuit for Piezoelectric Energy Harvesting, IEEE Int. Symp. Circuits and Systems (ISCAS), Oct. 2020.
22) Z. Chen, et al., A Piezoelectric Energy-Harvesting Interface using Split-Phase Flipping-Capacitor Rectifier (SPFCR) and Capacitor Reuse Multiple-VCR SC DC-DC Achieving 9.3x Energy-Extraction Improvement, IEEE International Solid-State Circuits Conference (ISSCC), Feb, 2019.
23) Y. Jiang, Z. Chen, et al, Algebraic Series-Parallel-Based Switched-Capacitor DC–DC Boost Converter with Wide Input Voltage Range and Enhanced Power Density, IEEE Journal of Solid-State Circuits (JSSC), Sep. 2019.
24) Z. Chen, et al., Fully-Integrated Inductor-less Flipping-Capacitor Rectifier (FCR) for Piezoelectric Energy Harvesting, IEEE Journal of Solid-State Circuits (JSSC), Vol. 52, pp 3168-3180, Dec, 2017.
25) Z. Chen, et al., “A 1.7mm2 Inductor-less Fully-Integrated Flipping-Capacitor Rectifier (FCR) for Piezoelectric Energy Harvesting with 483% Power Extraction Enhancement, IEEE International Solid-State Circuits Conference (ISSCC), Feb, 2017.
26) Z. Chen, et al., A Single-Chip Solar Energy Harvesting IC using Integrated Photodiodes with a 66% Charge Pump Maximum Efficiency, IEEE Transaction on Biomedical Circuits and Systems (TBioCAS), Vol. 11, pp 1-10, Jan, 2016.
27) Z. Chen, et al., Optimization of On-Chip Charge Pump Together with Solar Cell in Micro Watts, IEEE International Conference on Electron Device Solid-State Circuits (EDSSC), Sep. 2013.
