이화여자대학교

Sung Min Park Professor

Semiconductor Engineering/ Graduate Program in System Health and Engineering/Electronic & Electrical Engineering

박성민 프로필 사진 
Dr. Sung Min Park, a professor at the department of Electronics engineering, is an outstanding researcher in the fields of high-speed analog/digital IC designs. He received PhD degree at Imperial College London in UK, and has been conducting researches on Wireline/Wireless high-speed IC designs including the applications of 100GbE and Silicon Photonics.
He has been serving IEEE SSCS (Solid-State Circuits Society) Seoul chapter as an executive member since 2004, and served the most prestigious conference (IEEE ISSCC) in the field of IC designs as a TPC (Technical Program Committee) member from 2005 to 2009.
Also, He has been elected as a Senior Member of IEEE at 2013, and published 30 papers at the SCI journals including IEEE JSSC (J. of Solid-State Circuits) and at the prestigious international conferences including IEEE ISSCC. Recently, he has been awarded "Best Teaching Award" at 2014, and 7 more Best Paper Awards at international and domestic conferences.
  • Director, Center for Convergence in Emerging Electronic Technology
  • Asan Engineering Building #501
  • 02-3277-4085
  • Office hours
    • 화 3-5시, 목 2-4시
Research Record
  • A CMOS Optoelectronic Transceiver with Concurrent Automatic Power Control for Short-Range LiDAR Sensors SENSORS, 2025, v.25 no.3, 753
    SCIE Scopus dColl.
  • A Complementary Metal-Oxide Semiconductor (CMOS) Analog Optoelectronic Receiver with Digital Slicers for Short-Range Light Detection and Ranging (LiDAR) Systems MICROMACHINES, 2025, v.16 no.2, 215
    SCIE Scopus dColl.
  • A Complementary Metal-Oxide-Semiconductor Optoelectronic Analog Front-End Preamplifier with Cross-Coupled Active Loads for Short-Range LiDARs SENSORS, 2025, v.25 no.4, 1040
    SCIE Scopus dColl.
  • A Low-Noise CMOS Transimpedance-Limiting Amplifier for Dynamic Range Extension MICROMACHINES, 2025, v.16 no.2, 153
    SCIE Scopus dColl.
  • A CMOS Current-Mode Vertical-Cavity-Semiconductor-Emitting-Laser Diode Driver for Short-Range LiDAR Sensors Sensors, 2024, v.24 no.11, 3513
    SCIE Scopus dColl.
  • A CMOS Inverter-Based Active Feedback Transimpedance Amplifier Photonics, 2024, v.11 no.7, 617
    SCIE Scopus dColl.
  • A CMOS Optoelectronic Transimpedance Amplifier Using Concurrent Automatic Gain Control for LiDAR Sensors Photonics, 2024, v.11 no.10, 974
    SCIE Scopus dColl.
  • A Current-Mode VCSEL Driver for Short-Range LiDAR Sensors in 180-nm CMOS IDEC Journal of Integrated Circuits and Systems, 2024, v.10 no.2, 18-22
    KCI dColl.
  • A Modified Current-Mode VCSEL Driver for Short-Range LiDAR Sensor Applications in 180 nm CMOS Photonics, 2024, v.11 no.9, 868
    SCIE Scopus dColl.
  • An 8 × 8 CMOS Optoelectronic Readout Array of Short-Range LiDAR Sensors Sensors, 2024, v.24 no.20, 6686
    SCIE Scopus dColl.
  • An Optoelectronic Read-Out IC for Indoor-Monitoring LiDAR Sensors in 180-nm CMOS IDEC Journal of Integrated Circuits and Systems, 2024, v.10 no.3, 22-26
    KCI dColl.
  • A 208-MHz, 0.75-mW Self-Calibrated Reference Frequency Quadrupler for a 2-GHz Fractional-N Ring-PLL in 4-nm FinFET CMOS IEEE Transactions on Circuits and Systems II: Express Briefs, 2023, v.70 no.8, 2719-2723
    SCIE Scopus dColl.
  • A CMOS Fully Differential Optoelectronic Receiver for Short-Range LiDAR Sensors IEEE Sensors Journal, 2023, v.23 no.5, 4930-4939
    SCIE Scopus dColl.
  • A Current-Mode Optoelectronic Receiver IC for Short-Range LiDAR Sensors in 180 nm CMOS Photonics, 2023, v.10 no.7, 746
    SCIE Scopus dColl.
  • A Low-Cost Measurement Methodology for LiDAR Receiver Integrated Circuits Sensors, 2023, v.23 no.13, 6002
    SCIE Scopus dColl.
  • A Novel CMOS Optoelectronic Receiver IC for Elder-Care LiDAR Sensors IDEC Journal of Integrated Circuits and Systems, 2023, v.9 no.4, 33-36
    KCI dColl.
  • A CMOS Integrator-Based Clock-Free Time-to-Digital Converter for Home-Monitoring LiDAR Sensors SENSORS, 2022, v.22 no.2, 554
    SCIE Scopus dColl.
  • A CMOS LiDAR Sensor OEIC for Elder-Care Systems IDEC Journal of Integrated Circuits and Systems, 2022, v.8 no.2, 10-14
    KCI dColl.
  • An Indoor-Monitoring LiDAR Sensor for Patients with Alzheimer Disease Residing in Long-Term Care Facilities SENSORS, 2022, v.22 no.20, 7934
    SCIE Scopus dColl.
  • An Optoelectronic Transimpedance Amplifier in 180-nm CMOS for Short-range LiDAR Sensors JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2022, v.22 no.4, 275-281
    KCI dColl.
  • An Optoelectronic Transimpedance Amplifier in 180-nm CMOS for Short-range LiDAR Sensors JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2022, v.22 no.4, 275-281
    SCIE Scopus KCI dColl.
  • Meal-Monitoring Systems Using Weight and Temperature Sensors for Elder Residents in Long-Term Care Facilities INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH, 2022, v.19 no.2, 808
    SCIE SSCI Scopus dColl.
  • A CMOS Optoelectronic Receiver IC with an On-Chip Avalanche Photodiode for Home-Monitoring LiDAR Sensors SENSORS, 2021, v.21 no.13, 4364
    SCIE Scopus dColl.
  • Mirrored Current-Conveyor Transimpedance Amplifier for Home Monitoring LiDAR Sensors IEEE Sensors Journal, 2021, v.21 no.5, 5589-5597
    SCIE Scopus dColl.
  • A 3-dimensional Modified Vernier Time-to-digital Converter for LiDAR Sensors JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2020 , 543-551
    SCIE Scopus KCI dColl.
  • A CMOS Read-Out IC for Cyanobacteria Detection With 40 nA(pp) Sensitivity and 45-dB Dynamic Range IEEE SENSORS JOURNAL, 2020, v.20 no.8, 4283-4289
    SCIE Scopus dColl.
  • A Dual-feedback Folded-cascode Fully Differential Transimpedance Amplifier in 65-nm CMOS JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2020, v.20 no.3, 281-287
    SCIE Scopus KCI dColl.
  • A Mirrored Current-conveyor Transimpedance Amplifier in 65-nm CMOS JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2020 , 526-532
    SCIE Scopus KCI dColl.
  • A switchable dual-mode fully-differential common-source low-noise amplifier in 0.18-μm CMOS technology Microwave and Optical Technology Letters, 2020, v.62 no.3, 1163-1168
    SCIE Scopus dColl.
  • Bootstrapped Fully Differential CMOS Transimpedance Amplifier JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2020, v.20 no.1, 1-7
    SCIE Scopus KCI dColl.
  • Complementary Metal-Oxide-Semiconductor Symmetric Current-Conveyor Transimpedance Amplifier JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 2020, v.20 no.8, 4793-4798
    SCIE Scopus dColl.
  • A 10-Meter Active Optical Cable Utilizing POF With 4 x 10-Gb/s CMOS Transceiver Chipsets IEEE PHOTONICS JOURNAL, 2019, v.11 no.2, 6601011
    SCIE Scopus dColl.
  • A 40-GHz Mirrored-Cascode Differential Transimpedance Amplifier in 65-nm CMOS IEEE JOURNAL OF SOLID-STATE CIRCUITS, 2019, v.54 no.5, 1468-1474
    SCIE Scopus dColl.
  • A Modified 2-D Vernier Time-to-digital Converter Using Resettable T-latch JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2019, v.19 no.5, 477-484
    SCIE Scopus KCI dColl.
  • CMOS 대칭형 전류전달 트랜스임피던스 증폭기 전자공학회논문지, 2019, v.56 no.6, 26-31
    KCI dColl.
  • 부트스트랩 차동 CMOS 트랜스임피던스 증폭기 전자공학회논문지, 2019, v.56 no.6, 19-25
    KCI dColl.
  • A 4-Channel 8-Gb/s/ch VCSEL Driver Array JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2018, v.18 no.1, 1-6
    SCIE Scopus KCI dColl.
  • A CMOS Dual-mode High-dynamic-range Wideband Receiver RF Front-end JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2018, v.18 no.5, 616-625
    SCIE Scopus KCI dColl.
  • A CMOS high-performance inductorless ring VCO with extended monotonic tuning voltage range IEICE ELECTRONICS EXPRESS, 2018, v.15 no.23
    SCIE Scopus dColl.
  • A CMOS symmetric self-biased voltage reference MICROELECTRONICS JOURNAL, 2018, v.80, 28-33
    SCIE Scopus dColl.
  • A Linear-Mode LiDAR Sensor Using a Multi-Channel CMOS Transimpedance Amplifier Array IEEE SENSORS JOURNAL, 2018, v.18 no.17, 7032-7040
    SCIE Scopus dColl.
  • A Wide-gain-range Intermediate Frequency Integrated Circuit for a Superheterodyne Receiver JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2018, v.18 no.4, 525-535
    SCIE Scopus KCI dColl.
  • 4-채널 3.125-Gb/s/ch VCSEL 드라이버 어레이 전자공학회논문지, 2017, v.54 no.1, 33
    KCI dColl.
  • A 1.5 Gbps Transceiver Chipset in 0.13-mu m CMOS for Serial Digital Interface JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2017, v.17 no.4, 552-560
    SCIE Scopus KCI dColl.
  • A 4-Channel 6.25-Gb/s/ch VCSEL Driver for HDMI 2.0 Active Optical Cables JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2017, v.17 no.4, 561-567
    SCIE Scopus KCI dColl.
  • Portable Fluorometer for Cyanobacteria Detection IEEE SENSORS JOURNAL, 2017, v.17 no.8, 2377-2384
    SCIE Scopus dColl.
  • Portable cyanobacteria detection fluorometer with current-conveyor transimpedance amplifiers Journal of Semiconductor Technology and Science, 2017, v.17 no.6, 886-892
    SCIE Scopus KCI dColl.
  • 영상신호 전송용 CMOS 광대역 시리얼 데이터 송신기 전자공학회논문지, 2017, v.54 no.4, 35~43
    KCI dColl.
  • 1-Gb/s readout amplifier array for panoramic scan ladar systems Transactions of the Korean Institute of Electrical Engineers, 2016, v.65 no.3, 452-456
    Scopus KCI dColl.
  • A dual-channel CMOS transimpedance amplifier array with automatic gain control for unmanned vehicle LADARs Transactions of the Korean Institute of Electrical Engineers, 2016, v.65 no.5, 831-835
    Scopus KCI dColl.
  • A 10-channel 300-Mb/s/ch replica TIA array with equalizer in 0.18-μm CMOS ISOCC 2015 - International SoC Design Conference: SoC for Internet of Everything (IoE), 2015, 11 February 2016, 329-330
    Scopus dColl.
  • A 16-channel CMOS inverter transimpedance amplifier array for 3-D image processing of unmanned vehicles Transactions of the Korean Institute of Electrical Engineers, 2015, v.64 no.12, 1730-1736
    KCI Scopus dColl.
  • A 6.6 mW, -94 dBc/Hz, 1.0-to-4.5 GHz phase-lock loop in 65-nm CMOS ISOCC 2015 - International SoC Design Conference: SoC for Internet of Everything (IoE), 2015, 11 February 2016, 235-236
    Scopus dColl.
  • A multi-channel CMOS feedforward transimpedance amplifier array for LADAR systems Transactions of the Korean Institute of Electrical Engineers, 2015, v.64 no.12, 1737-1741
    KCI Scopus dColl.
  • A 3.125-to-22-Gb/s multi-rate clock and data recovery using voltage-regulated active filter IEICE ELECTRONICS EXPRESS, 2014, v.11 no.23
    SCIE Scopus dColl.
  • A multi-channel current-mode CMOS optical receiver array for active optical HDMI cables IEICE ELECTRONICS EXPRESS, 2014, v.11 no.23
    SCIE Scopus dColl.
  • Dual-mode CMOS feed-forward transimpedance amplifier for LADARs ELECTRONICS LETTERS, 2014, v.50 no.23, 1678-1679
    SCIE Scopus dColl.
  • 파노라믹 스캔 라이다 시스템용 4-채널 차동 CMOS 광 트랜스 임피던스 증폭기 어레이 전자공학회논문지, 2014, 제41권 9호, 82-90
    KCI dColl.
  • [학술지논문] A CMOS Current-Mode Vertical-Cavity-Semiconductor-Emitting-Laser Diode Driver for Short-Range LiDAR Sensors SENSORS, 2024, v.24 no.11 , 3513-3513
    SCIE
  • [학술지논문] A CMOS Optoelectronic Transimpedance Amplifier Using Concurrent Automatic Gain Control for LiDAR Sensors PHOTONICS, 2024, v.11 no.10 , 974-974
    SCIE
  • [학술지논문] A Low-Power Optoelectronic Receiver IC for Short-Range LiDAR Sensors in 180 nm CMOS MICROMACHINES, 2024, v.15 no.9 , 1066-1066
    SCIE
  • [학술지논문] An 8 x 8 CMOS Optoelectronic Readout Array of Short-Range LiDAR Sensors SENSORS, 2024, v.24 no.20 , 6686-6686
    SCIE
  • [학술지논문] A CMOS Fully Differential Optoelectronic Receiver for Short-Range LiDAR Sensors IEEE SENSORS JOURNAL, 2023, v.23 no.5 , 4930-4939
    SCIE
  • [학술지논문] A Current-Mode Optoelectronic Receiver IC for Short-Range LiDAR Sensors in 180 nm CMOS PHOTONICS, 2023, v.10 no.7 , 746-746
    SCIE
  • [학술지논문] Meal-Monitoring Systems Using Weight and Temperature Sensors for Elder Residents in Long-Term Care Facilities INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH, 2022, v.19 no.2 , 808-808
    SSCI
  • [학술지논문] A CMOS Optoelectronic Receiver IC with an On-Chip Avalanche Photodiode for Home-Monitoring LiDAR Sensors SENSORS, 2021, v.21 no.13 , 4364-4364
    SCIE
  • [학술지논문] A 3-dimensional Modified Vernier Time-to-digital Converter for LiDAR Sensors JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2020, v.20 no.6 , 543-551
    SCIE
  • [학술지논문] A Mirrored Current-conveyor Transimpedance Amplifier in 65-nm CMOS JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2020, v.20 no.6 , 526-532
    SCIE
  • [학술지논문] Bootstrapped Fully Differential CMOS Transimpedance Amplifier JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, 2020, v.20 no.1 , 1-7
    SCIE
  • [저역서] Integrated Circuits/Microchips IntechOpen, 2020, 204
  • [학술발표] An APD-based Optoelectronic Integrated Circuit for LiDAR Sensors 한국반도체학술대회, 대한민국, 2021-01-27 한국반도체학술대회논문집, 2021, 129-129
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