사진

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Kim, Seong-Jin (김성진)

Department
Department of Electrical Engineering(전기전자공학과)
Website
http://biml.unist.ac.kr
Lab
Bio-inspired Advanced Sensors Lab. (지능형 센서 설계 연구실)
Research Keywords
3D 영상센서, 차량용 라이다 시스템, 생체의료센서, 헬스케어 스마트 소자, 3D image sensor, LiDAR systems in automotives, Low-power biomedical sensors, Wearable healthcare smart devices
Research Interests
Bio-inspired Advanced Sensors Laboratory (BIAS) aims to realize self-contained smart microsystems that will interface people to nature, machine, and even their own bodies with many electronic devices seamlessly. The system will be implemented on a single chip platform based on modern analog and digital VLSI circuits and systems technology. We are especially interested in imaging and bio-related applications for point-of-care diagnostics, human-machine interface, and novel implantable prosthetics.
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Issue DateTitleAuthor(s)TypeViewAltmetrics
2022-07A Low-Power Indirect Time-of-Flight CMOS Image Sensor With Fixed Depth Noise Compensation and Dual-Mode Imaging for Depth Dynamic Range EnhancementPiao, Canxing; Ahn, Yeonsoo; Kim, Donguk, et alARTICLE102 A Low-Power Indirect Time-of-Flight CMOS Image Sensor With Fixed Depth Noise Compensation and Dual-Mode Imaging for Depth Dynamic Range Enhancement
2022-06A BJT-Based Temperature-to-Frequency Converter With +/- 1 degrees C (3 sigma) Inaccuracy From-40 degrees C to 140 degrees C for On-Chip Thermal MonitoringPark, Jee-Ho; Hwang, Jung-Hye; Shin, Changyong, et alARTICLE147 A BJT-Based Temperature-to-Frequency Converter With +/- 1 degrees C (3 sigma) Inaccuracy From-40 degrees C to 140 degrees C for On-Chip Thermal Monitoring
2022-01A 3.8-µW 1.5-NEF 15-GΩ Total Input Impedance Chopper Stabilized Amplifier with Auto-calibrated Dual Positive Feedback in 110nm CMOSPark, Yongjae; Cha, Ji-Hyoung; Han, Su-Hyun, et alARTICLE217 A 3.8-µW 1.5-NEF 15-GΩ Total Input Impedance Chopper Stabilized Amplifier with Auto-calibrated Dual Positive Feedback in 110nm CMOS
2021-11A 5.02nW 32-kHz Self-Reference Power Gating XO with Fast Startup Time Assisted by Negative Resistance and Initial Noise BoostersPark, Jee-Ho; Shin, Yongtae; Choi, Jaehyuk, et alARTICLE221 A 5.02nW 32-kHz Self-Reference Power Gating XO with Fast Startup Time Assisted by Negative Resistance and Initial Noise Boosters
2021-09A Multimodal Neural Activity Readout Integrated Circuit for Recording Fluorescence and Electrical SignalsLee, Taeju; Park, Jee-Ho; Chou, Namsun, et alARTICLE320 A Multimodal Neural Activity Readout Integrated Circuit for Recording Fluorescence and Electrical Signals
2021-04Direct TOF Scanning LiDAR Sensor With Two-Step Multievent Histogramming TDC and Embedded Interference FilterSeo, Hyeongseok; Yoon, Heesun; Kim, Dongkyu, et alARTICLE192 Direct TOF Scanning LiDAR Sensor With Two-Step Multievent Histogramming TDC and Embedded Interference Filter
2020-11Indirect Time-of-flight CMOS Image Sensor with On-chip Background Light Cancelling and Pseudo 4-Tap/2-Tap Hybrid Imaging for Motion Artifact SuppressionKim, Donguk; Lee, Seunghyun; Park, Dahwan, et alARTICLE426 Indirect Time-of-flight CMOS Image Sensor with On-chip Background Light Cancelling and Pseudo 4-Tap/2-Tap Hybrid Imaging for Motion Artifact Suppression
2020-10CMOS Skin Sensor for Mobile Skin Diagnosis Using an Electronic Cotton PadRie, Hyunsub Norbert; Cho, Junhyung; Lee, Jungjoon, et alARTICLE387 CMOS Skin Sensor for Mobile Skin Diagnosis Using an Electronic Cotton Pad
2020-08A Real-Time Depth of Anesthesia Monitoring System Based on Deep Neural Network With Large EDO Tolerant EEG Analog Front-EndPark, Yongjae; Han, Su-Hyun; Byun, Wooseok, et alARTICLE210 A Real-Time Depth of Anesthesia Monitoring System Based on Deep Neural Network With Large EDO Tolerant EEG Analog Front-End
2019-09Design of a Time-of-Flight Sensor with Standard Pinned-Photodiode Devices Towards 100 MHz Modulation FrequencyLee, Seunghyun; Park, Dahwan; Lee, Sanguk, et alARTICLE593 Design of a Time-of-Flight Sensor with Standard Pinned-Photodiode Devices Towards 100 MHz Modulation Frequency
2019-07Tunnelling-based ternary metal–oxide–semiconductor technologyJeong, Jae Won; Choi, Young Eun; Kim, Woo Seok, et alARTICLE1811 Tunnelling-based ternary metal–oxide–semiconductor technology
2019-02A Sub-μW/Ch Analog Front-End for Δ-Neural Recording With Spike-Driven Data CompressionKim, Seong-Jin; Han, Su-Hyun; Cha, Ji-Hyoung, et alARTICLE507 A Sub-μW/Ch Analog Front-End for Δ-Neural Recording With Spike-Driven Data Compression
2018-09CMOS depth sensor with programmable filter circuits for environment-adaptive noise suppressionSeo, Hyeongseok; Kim, Bumjun; Chun, Junghoon, et alARTICLE608 CMOS depth sensor with programmable filter circuits for environment-adaptive noise suppression
2018-08High-density impedance-sensing array on complementary metal-oxide-semiconductor circuitry assisted by negative dielectrophoresis for single-cell-resolution measurementChung, Jaehoon; Chen, Yu; Kim, Seong-JinARTICLE879 High-density impedance-sensing array on complementary metal-oxide-semiconductor circuitry assisted by negative dielectrophoresis for single-cell-resolution measurement
2018-08A 1.08-nW/kHz 13.2-ppm/°C Self-Biased Timer Using Temperature-Insensitive Resistive CurrentJung, Jaehong; Kim, Ik-Hwan; Kim, Seong-Jin, et alARTICLE679 A 1.08-nW/kHz 13.2-ppm/°C Self-Biased Timer Using Temperature-Insensitive Resistive Current
2015-07Portable Coulter counter with vertical through-holes for high-throughput applicationsChen, Yu; Kim, Seong-Jin; Guo, Jinhong, et alARTICLE1457 Portable Coulter counter with vertical through-holes for high-throughput applications
2014-10A 3-D Camera With Adaptable Background Light Suppression Using Pixel-Binning and Super-ResolutionCho, Jihyun; Choi, Jaehyuk; Seong-Jin Kim, et alARTICLE1034 A 3-D Camera With Adaptable Background Light Suppression Using Pixel-Binning and Super-Resolution
2012-11A CMOS Image Sensor Based on Unified Pixel Architecture with Time-Division Multiplexing Scheme for Color and Depth Image AcquisitionKim, Seong-Jin; Kim, James D. K.; Kang, Byongmin, et alARTICLE975 A CMOS Image Sensor Based on Unified Pixel Architecture with Time-Division Multiplexing Scheme for Color and Depth Image Acquisition
2012-10Performance Evaluation of Pinning Potential Adjustment in Two-Dimensional/Three-Dimensional Image SensorKim, Seong-JinARTICLE965 Performance Evaluation of Pinning Potential Adjustment in Two-Dimensional/Three-Dimensional Image Sensor
2012-06Label-free CMOS Bio Sensor with On-chip Noise Reduction Scheme for Real-time Quantitative Monitoring of BiomoleculesKim, Seong-Jin; Yoon, EuisikARTICLE938 Label-free CMOS Bio Sensor with On-chip Noise Reduction Scheme for Real-time Quantitative Monitoring of Biomolecules

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