Journal and Letter Articles

2024

[59] Van-Son Trinh, Jeong-Moon Song, and Jung-Dong Park, "A 16.5 dBm D-band 8-way Power Amplifier Utilizing Cascaded Transformers in 40-nm Bulk CMOS," in IEEE Microwave and Wireless Technology Letters, 2024

2023

[58] Jeong-Moon Song, Van-Son Trinh, Soo-Yeon Kim, and Jung-Dong Park, "275 GHz Quadrature Receivers for THz-Band 6G Indoor Network in 130-nm SiGe Technology," in IEEE Access, vol. 11, pp. 138540-138548, 2023

[57] Hyeong-Geun Park, Van-Son Trinh, Mun-Kyo Lee, Bok-Hyung Lee, Kyoung-Il Na, and Jung-Dong Park, “32-GHz Eight-Way Power Amplifier MMIC in 150 nm GaN HEMT Technology,” Electronics 2023, 12(15), 3278; https://doi.org/10.3390/electronics12153278

[56] Hyeonseok Lee, Hyeong-Geun Park, Van-Du Le, Van Phu Nguyen,Jeong-Moon Song,Bok-Hyung Lee and Jung-Dong Park, "X-Band MMICs for a Low-Cost Radar Transmit/Receive Module in 250nm GaN HEMT Technology," Sensors 2023,23(10),4840

[55] Van-Son Trinh and Jung-Dong Park, "An E-band Transformer-based ×8 Frequency Multiplier with Enhanced Harmonic Rejection," IEEE Transactions on Microwave Theory and Techniques, vol. 71, no. 3, pp. 1019-1030, March 2023.

[54] Van-Son Trinh, Jeong-Moon Song, Jung-Dong Park, "A 260–300-GHz Mixer-First IQ Receiver With Fundamental LO Driver in 130-nm SiGe Process," in IEEE Microwave and Wireless Technology Letters, vol. 33, no. 4, pp. 435-438, April 2023

2022

[53] Jun-Hee Lee, Mun-Kyo Lee, and Jung-Dong Park, “A Direct Feedback FVF LDO for High Precision FMCW Radar Sensors in 65-nm CMOS Technology,” Sensors, 22(24), 9672, 2022, doi.org/10.3390/s22249672

[52] Van-son Trinh, Jeong-Moon Song and Jung-Dong Park, "A 280GHz 30GHz Bandwidth Cascaded Amplifier Using Flexible Interstage Matching Strategy in 130nm SiGe Technology," Electronics 2022, 11, 3045.

[51] Van-son Trinh, Hyohyun Nam, Jeong-Moon Song and Jung-Dong Park, "A 78.8-84 GHz Phase Locked Loop Synthesizer for a W-band Frequency-Hopping FMCW Radar Transceiver in 65nm CMOS," Sensors 2022,02,3626

[50] Hyeonseok Lee, Van-son Trinh, and Jung-Dong Park, "A 90GHz Broadband Balanced 8-Way Power Amplifier for High Precision FMCW Radar Sensors in 65-nm CMOS," Sensors 22, no.9:3114

[49] Jeong-Moon Song, and Jung-Dong Park,"A 5-11 GHz 8-bit Precision Passive True-Time Delay in 65-nm CMOS Technology," IEEE Access, vol. 10, 2022, pp.18456-18462

[48] Van-Son Trinh, and Jung-Dong Park,"An 85-GHz Power Amplifier Utilizing a Transformer-Based Power Combiner Operating Beyond the Self-Resonance Frequency," IEEE Journal of Solid-State Circuits, vol. 57, 2022, pp.882-891

2021 (Sabbatical)

[47] Van-Son Trinh, and Jung-Dong Park,"A 16.4dbm 20.3% PAE 22-dB Gain 77GHz Power Amplifier in 65-nm CMOS Technology," IEEE Access, vol. 9, 2021, pp.159541-159548

[46] Van-Son Trinh, and Jung-Dong Park,"A 25.1dbm 25.9-dB Gain 25.4% PAE X-band Power Amplifier Utilizing Voltage Combining Transformer in 65-nm CMOS," IEEE Access,10.1109/ACCESS.2020.3048757

2020

[45] Hyohyun Nam, Van-Viet Nguyen, Van-Son Trinh, Jeong-Moon Song, Bok-Hyung Lee and Jung-Dong Park, “A Full X-band Phased-Array Transmit/Receive Module Chip in 65-nm CMOS Technology,” IEEE Access, vol. 8, 2020, pp.76182-76192.

[44] Hyohyun Nam, and Jung-Dong Park, “A W-band Divide-by-Three Injection Locked Frequency Divider with Injection Current Boosting Utilizing Inductive Feedback in 65nm CMOS,” IEEE Microw. Wireless Compon. Letters, vol.30, no.5, May 2020, pp.516-519.

[43] Van-Son Trinh, and Jung-Dong Park, “Common-Mode Stability Test and Design Guidelines for a Transformer-coupled Push-pull Power Amplifier,” IEEE Access, vol. 8, 2020, pp.42243-42250.

[42] Van-Son Trinh, Hsiang Nerng Chen, and Jung-Dong Park "A +3dBm EIRP 240 GHz Circular Polarized Radiator Utilizing a Sub THz PA in 65 nm CMOS,” IEEE Microw. Wireless Compon. Letters, vol.30, no.4, April 2020, pp.399-402.

[41] Young-Joe Choe, Hyohyun Nam, and Jung-Dong Park, “A Low Drop-Out Regulator With PSRR Enhancement Through Feed-Forward Ripple Cancellation Technique in 65-nm CMOS Process,” Electronics 2020, 9(1), 146.

[40] Hyohyun Nam, Woojae Lee, Ju Ho Son, and Jung-Dong Park, “A Compact I/Q Up-Conversion Chain for a 5G Wireless Transmitter in 65-nm CMOS Technology,” IEEE Microw. Wireless Compon. Letters, vol.30, no.3, March 2020, pp.284-287.

[39] Van-Son Trinh, and Jung-Dong Park, “A 16.3-dBm 14.1% PAE 28-dB Gain W-band Power Amplifier with Inductive Feedback in a 65-nm CMOS,” IEEE Microw. Wireless Compon. Letters, vol.30, no. 2, February 2020, pp.193-196

2019

[38] Van-Son Trinh, and Jung-Dong Park, “Theory and Design of Impedance Matching Network Utilizing a Lossy On-Chip Transformer,” IEEE Access, vol.7, no.1, October 2019, pp. 140980-140989.

[37] Hsiang Nerng Chen, Jeong-Moon Song, and Jung-Dong Park, “A Compact Circularly Polarized MIMO Dielectric Resonator Antenna over Electromagnetic Bandgap Surface for 5G Applications,” IEEE Access, vol.7, no.1, October 2019, pp. 140889-140898.

[36] Young Jo Choe, Hyohyun Nam, and, Jung-Dong Park, “A Compact 5 GHz Power Amplifier using a Spiral Transformer for Enhanced Power Supply Rejection in 180-nm CMOS Technology,” Electronics 2019, 8(9), 1043.

[35] Hyohyun Nam, Junsik Park, Jung-Dong Park, “A 2–18 GHz Compressed Sensing Receiver with Broadband LO chain in 0.13-μm SiGe BiCMOS," IEEE Microw. Wireless Compon. Letters, vol. 29, no. 9, pp. 620–622, March 2019.

[34] Hyohyun Nam, Dong-Sik Ko, and Jung-Dong Park, "A Compact W-band Mixer-First Receiver in 65-nm CMOS," Microw. Opt. Technol. Lett., vol.61, no.7, pp.1702–1705, 2019.

[33] Van-Son Trinh and Jung-Dong Park, "An X-band Single-Pull Class A/B Power Amplifier in 0.18μm CMOS," Microw. Opt. Technol. Lett., vol.61, no.7, pp.1736–1740, 2019.

[32] Van-Viet Nguyen, Hyohyun Nam, Bok-Hyung Lee, and Jung-Dong Park, "A 5.8-17.6 GHz Cascaded Bidirectional Distributed Gain Amplifier utilizing Asymmetric Stages in 65nm CMOS," Microw. Opt. Technol. Lett., vol.61, no.7, pp.1683–1687, 2019.

[31] Jung-Dong Park, Muhib Ur Rahman, Hsiang Nerng Chen, “Isolation Enhancement of Wide-Band MIMO Array Antennas Utilizing Resistive Loading," IEEE Access, vol.7, no.1, June 2019, pp.81020-81026.

[30] Van-Son Trinh, Hyohyun Nam, and Jung-Dong Park, "A 20.5 dBm X-band Power Amplifier with a 1.2-V Supply in 65-nm CMOS Technology," IEEE Microw. Wireless Compon. Letters, vol. 29, no. 3, pp. 234–236, March 2019.

2018

[29] Hyohyun Nam, Changhwan Shin, and Jung-Dong Park, "Impact of the Metal-Gate Material Properties in FinFET (versus FD-SOI MOSFET) on High-κ/Metal-Gate Work-Function Variation," IEEE Transactions on Electron Devices, vol. 65, no. 11 Nov. 2018, pp.4780 -4785.

[28] Van-Viet Nguyen, Hyohyun Nam, Young Jo Choe, Bok-Hyung Lee, Jung-Dong Park, 2018. "An X-band Bi-Directional Transmit/Receive Module for a Phased Array System in 65-nm CMOS." Sensors 18, no. 8: 2569.

[27] MuhibUr Rahman, Dong-Sik Ko, and Jung-Dong Park, “A compact tri-band bandpass filter utilizing double mode resonator with 6 transmission zeros,” Microw Opt Technol Lett. 2018; 60:1767–1771.

[26] MuhibUr Rahman, and Jung-Dong Park, “The Smallest Form Factor UWB Antenna with Quintuple Rejection Bands for IoT Applications Utilizing RSRR and RCSRR,” Sensors, 2018, 18(3), 911; DOI:10.3390/s18030911.

[25] MuhibUr Rahman, and Jung-Dong Park, “A Compact Tri-Band Bandpass Filter using Two Stub-Loaded Dual Mode Resonators, Progress In Electromagnetics Research M, Feb. 2018.

[24] Hyohyun Nam, and Jung-Dong Park, “A 1-13 GHz CMOS Low-Noise Amplifier using Compact Transformer-based Inter-stage Networks,” IEICE Electronics Express Jan. 2018.

2017

[23] MuhibUr Rahman, and Jung-Dong Park, “A Compact Multiple Notched Ultra-Wide Band Antenna with an Analysis of the CSRR-TO-CSRR Coupling for Portable UWB Applications,” Sensors, 2017, 17(10), 2174; DOI:10.3390/s17102174.

[22] Youngtaek Lee, Jaesung Jo, Karam Cho, Sangheon Oh, Jung-Dong Park, Changhwan Shin, “Experimental Observation of Negative Capacitance in Organic/Ferroelectric Capacitor for Steep Switching MOSFET,” Journal of Nanoscience and Nanotechnology, 2017, Vol. 17, No. 5, pp.3469-3471.

2016

[21] Eunah Ko, Hyunjae Lee, Jung-Dong Park, and Changhwan Shin, “Vertical tunnel FET: Design optimization with triple metal-gate layers,” IEEE Trans. Electron Devices, vol. 63, no. 12, Dec. 2016, pp. 5030–5035.

[20] Hyunjae Lee, Jung-Dong Park, and Changhwan Shin, “Performance booster for vertical tunnel field-effect transistor: Field-enhanced high-κ layer,” IEEE Electron Device Letters, vol. 37, no. 11, November 2016, pp.1383 - 1386.

[19] Hyohyun Nam, Youngtaek Lee, Jung-Dong Park, and Changhwan Shin, “Study of Work-Function Variation in High-κ Metal-Gate Gate-All-Around Nanowire MOSFET,” IEEE Transactions on Electron Devices, vol. 63, no. 8, August 2016, pp.3338 - 3341.

[18] Hyunjae Lee, Jung-Dong Park, and Changhwan Shin, “Study of Random Variation in Germanium Source Vertical Tunnel FET,” IEEE Transactions on Electron Devices, vol. 63, no. 5, July 2016, pp.1827 - 1834.

[17] Karam Cho, Jung-Dong Park, and Changhwan Shin, “Atomic Layer Deposition of TiO2 using Titanium Isopropoxide and H2O: Operational Principle of Equipment and Parameter Setting,” Journal of Semiconductor Technology and Science.Vol.16, No.3, June 2016, pp.346-351.

2015

[16] Youngtaek Lee, Hyohyun Nam, Jung-Dong Park, and Changhwan Shin, “Study of Work-Function Variation for High-k/Metal-Gate Ge-Source Tunnel Field-Effect Transistors,” IEEE Transactions on Electron Devices, vol. 62, no. 7, July 2015, pp.2143 - 2147.

[15] Jaesung Jo, Woo Young Choi, Jung-Dong Park, Jae Won Shim, Hyun-Yong Yu, and Changhwan Shin, “Negative Capacitance in Organic/Ferroelectric Capacitor to Implement Steep Switching MOS Devices,” Nano Letters, vol. 15, no.7, June 2015, pp.4553-4556.

[14] Sangheon Oh, Jaesung Jo, Hyunjae Lee, Gyo Sub Lee, Jung-Dong Park, and Changhwan Shin, “Worst Case Sampling Method with Confidence Ellipse for Estimating the Impact of Random Variation on Static Random Access Memory (SRAM),” Journal of Semiconductor Technology and Science.Vol.15, No3, pp.374-380

~2014

[13] Jung-Dong Park, " Design of Switching-Mode CMOS Frequency Multipliers in Sub-Terahertz Regime," IEICE Electronics Express, vol. 11, no. 18, Sept. 2014..

[12] Jung-Dong Park, " 260GHz Spatially Combined Transmitter with a V-band Distributed OOK Modulator," IEICE Electronics Express, vol. 11, no. 18, Sept. 2014..

[11] Jung-Dong Park, Ali M. Niknejad, “Y-band On-chip Dual Half-width Leaky-wave Antenna in a Nanoscale CMOS Process,” IEEE Antennas and Wireless Propagation Letters, vol. 12, Nov., 2013.

[10] Jung-Dong Park, Ali M. Niknejad, “A Wideband W-Band Low Noise Amplifier with Slow-wave CPW in 65nm LP CMOS,” Microw. Opt. Technol. Lett., vol. 55, no. 8, Aug., 2013.

[9] Jung-Dong Park, Ali M. Niknejad, “Theory and Design of N-Push BJT Clamping Harmonic Generator for Silicon Terahertz ICs,” IEEE Microw. Wireless Compon. Lett.,vol. 22, no. 12, Dec., 2012.

[8] Jung-Dong Park, Shinwon Kang, and Ali M. Niknejad, “A 0.38 THz Fully Integrated Transceiver Utilizing a Quadrature Push-Push Harmonic Circuitry in SiGe BiCMOS,” in IEEE Journal of Solid-State Circuits, vol. 47, no. 10, pp.2344~2354, October, 2012.

[7] Jung-Dong Park, Ali M. Niknejad, “A Ladder Shaped Network for ESD Protection of Millimeterwave CMOS ICs,” Electronics Letters, vol.45, no.15, pp.795~797, July, 2009.

[6] Marcu, D. Chowdhury, C. Thakkar, J.-D. Park, L.-K. Kong, M. Tabesh, Y. Wang, A. Afshar, A. Gupta, A. Arbabian, S. Gambini, R. Zamani, E. Alon, A. M. Niknejad, “A 90nm CMOS Low-Power 60GHz Transceiver with Integrated Baseband Circuitry,” IEEE Journal of Solid-State Circuits, vol. 44, no.12, December, 2009.

[5] Jung-Dong Park, Wan Joo Kim, “An Efficient Method of Eliminating the Range Ambiguity for a Low-Cost FMCW Radar Using VCO Tuning Characteristics,” IEEE Trans. Microw. Theory Techn., vol. 54, no. 10, pp. 3623-3629, Oct., 2006.

[4] Y.-H. Baek, B.-H. Lee, J.-H. Oh, B.-O. Lim, D.-An, J.-D. Park, S.-D. Kim, J.-K. Rhee, “Wband resistive mixer using metamorphic HEMT,” Current Applied Physics, 6, pp.821-826, 2006.9.

[3] D. An, S.-C. Kim, J.-D. Park, M.-K Lee, H.-C. Park, S.-D. Kim, W.-J. Kim, and J.-K Rhee, “A Novel 94-GHz MHEMT Resistive Mixer Using a Micromachined Ring Coupler,” IEEE Microw. Wireless Compon. Lett., vol. 16, no. 8, 467-469, 2006.8.

[2] B.H. Lee, D. An, M.K. Lee, B.O. Lim, J.H. Oh, S.D. Kim, J.K. Rhee, J.-D. Park, S.R. Lee, “Low Conversion Loss and High LO-RF Isolation 94GHz Active Down Converter,” IEEE Trans. Microw. Theory Tech., vol. 54, no. 6, June 2006, pp. 2422-2430.

[1] Jung-Dong Park, Wan Joo Kim, “An Efficient Method of Decreasing the Problems of Transmitter Signal Leakages on Low Cost Homodyne FMCW Radar with a Single Antenna Configuration,” Microw. Opt. Technol. Lett., vol. 46, no. 5, pp. 512-515, Sept., 2005.

Korean Journal and Letter Articles

[9] 뉴엔반비엣, 남효현, 이복형, 이문교, 최선열, 송정문, 박정동, "비대칭 이득증폭 단위셀을 이용한 2-13 GHz 양방향 증폭기," 대한전자공학회논문지, 55(12), 2018.12, 65-71. (2019년도 대한전자공학회 반도체소사이어티 최우수논문상)

[8] 남효현, 김형규, 김당오, 류현준, 김주혜, 박정동, "65nm CMOS공정을 이용한 FMCW 레이더 및 라디오미터 일체형 센서용 광대역 IF 가변 이득 증폭기," 대한전자공학회논문지, 55(10), 2018.10, 61-66.

[7] 남효현, 박준식, 송규하, 박정동, “압축 센싱 수신기용 광대역 전단부 집적화 설계,” 전자공학회논문지 제55권 제4호(통권 제485호), 2018.4, 37-43

[6] 남효현, 박준식, 송규하, 박정동, “4 채널 36 Gb/s 27-1 초고속 의사 이진수열 (PRBS) 발생기의 집적화 설계,” 전자공학회논문지 제55권 제1호(통권 제482호), 2018.1.

[5] 박정동, 박준식, “실리콘 공정기술 기반 초고속 압축센싱 수신기의 집적화 연구,” 전자공학회지, 제3권 10호, 35-42, 2016.10.

[4] 박정동, 김완주, “단일 안테나를 사용하는 W-대역 호모다인 FMCW 레이더의 누설신호에 의한 IF 잡음에 관한 연구,” 전자공학회논문지, 42, TC편, 2005.7.

[3] 안 단, 이복형, 임병옥, 이문교, 이상진, 진진만, 고두현, 김성찬, 박정동, 신동훈, 박형무, 박현창, 김삼동, 이진구 “높은 LO-RF 격리 특성의 W-band MMIC Single-balanced 믹서,” 전자공학회 논문지, vol. 42, no. 6, TC편, 431-438, 2005.7.

[2] 안 단, 이복형, 임병옥, 이문교, 오정훈, 백용현, 김성찬, 박정동, 신동훈, 박형무, 박현창, 김삼동, 이진구, “낮은 변환손실 특성의 94 GHz MHEMT MMIC Resistive 믹서,” 전자공학회 논문지, 42, TC편, 357-364, 2005.5.

[1] 박정동, “지면 클러터 환경에서 금속표적감지를 위한 W-대역 FMCW 레이더의 설계 및 제작,” 한국군사과학기술학회지, 제7권 제3호, 2004.9.