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Jong-Phil Hong
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2020 – today
- 2023
- [j13]Dana Kim, Jong-Phil Hong, Jiwon Lee, Jae-Won Nam:
High-Speed Light Detection Sensor for Hardware Security in Standard CMOS Technology. IEEE Trans. Circuits Syst. II Express Briefs 70(10): 3917-3921 (2023) - 2022
- [j12]Jae-Won Nam, Ju-Hyeok Ahn, Jong-Phil Hong:
Compact SRAM-Based PUF Chip Employing Body Voltage Control Technique. IEEE Access 10: 22311-22319 (2022) - 2021
- [j11]Seungbum Baek, Guk-Hyeon Yu, Jaewoo Kim, Chi Trung Ngo, Jason Kamran Eshraghian, Jong-Phil Hong:
A Reconfigurable SRAM Based CMOS PUF With Challenge to Response Pairs. IEEE Access 9: 79947-79960 (2021) - [j10]Dae-Woong Park, Dzuhri Radityo Utomo, Byeonghun Yun, Hafiz Usman Mahmood, Jong-Phil Hong, Sang-Gug Lee:
Design of High-Gain Sub-THz Regenerative Amplifiers Based on Double-Gmax Gain Boosting Technique. IEEE J. Solid State Circuits 56(11): 3388-3398 (2021) - 2020
- [j9]Kang-Un Choi, Seungbum Baek, Jino Heo, Jong-Phil Hong:
A 100% Stable Sense-Amplifier-Based Physically Unclonable Function With Individually Embedded Non-Volatile Memory. IEEE Access 8: 21857-21865 (2020) - [j8]Thanh Dat Nguyen, Jong-Phil Hong:
High Power and High Frequency CMOS Oscillator With Source-to-Drain Coupling and Capacitive Load Reduction Circuit. IEEE Access 8: 138584-138594 (2020) - [c3]Dae-Woong Park, Dzuhri Radityo Utomo, Jong-Phil Hong, Kristof Vaesen, Piet Wambacq, Sang-Gug Lee:
A 247 and 272 GHz Two-Stage Regenerative Amplifiers in 65 nm CMOS with 18 and 15 dB Gain Based on Double-Gmax Gain Boosting Technique. VLSI Circuits 2020: 1-2
2010 – 2019
- 2019
- [j7]Dae-Woong Park, Dzuhri Radityo Utomo, Bao Huu Lam, Sang-Gug Lee, Jong-Phil Hong:
A 230-260-GHz Wideband and High-Gain Amplifier in 65-nm CMOS Based on Dual-Peak $G_{{\mathrm{max}}}$ -Core. IEEE J. Solid State Circuits 54(6): 1613-1623 (2019) - 2018
- [j6]Kang-Un Choi, Thanh Dat Nguyen, Seong-Gon Choi, Jong-Phil Hong:
High Frequency Buffer-Feedback Oscillator With an RF Negative-Resistance Circuit. IEEE Access 6: 20964-20970 (2018) - [c2]Dae-Woong Park, Dzuhri Radityo Utomo, Jong-Phil Hong, Sang-Gug Lee:
A 230-260GHz wideband amplifier in 65nm CMOS based on dual-peak Gmax-core. ASP-DAC 2018: 301-302 - 2017
- [j5]Jino Heo, Chang-ho Hong, Hyung Jin Yang, Jong-Phil Hong, Seong-Gon Choi:
Analysis of optical parity gates of generating Bell state for quantum information and secure quantum communication via weak cross-Kerr nonlinearity under decoherence effect. Quantum Inf. Process. 16(4): 110 (2017) - 2016
- [j4]Chang-Wan Kim, Dat Nguyen, Jong-Phil Hong:
A Low Power Buffer-Feedback Oscillator with Current Reused Structure. IEICE Trans. Electron. 99-C(12): 1335-1338 (2016) - 2014
- [j3]Jong-Phil Hong:
A low supply voltage and wide-tuned CMOS Colpitts VCO. IEICE Electron. Express 11(13): 20140428 (2014) - 2012
- [c1]Jong-Phil Hong, Sung-Jin Kim, Jenlung Liu, Nan Xing, Tae-Kwang Jang, Jaejin Park, Jihyun F. Kim, Taeik Kim, Hojin Park:
A 0.004mm2 250μW ΔΣ TDC with time-difference accumulator and a 0.012mm2 2.5mW bang-bang digital PLL using PRNG for low-power SoC applications. ISSCC 2012: 240-242
2000 – 2009
- 2009
- [j2]Jong-Phil Hong, Sang-Gug Lee:
Low Phase NoiseGm-Boosted Differential Gate-to-Source Feedback Colpitts CMOS VCO. IEEE J. Solid State Circuits 44(11): 3079-3091 (2009) - 2007
- [j1]Jong-Phil Hong, Seok-Ju Yun, Sang-Gug Lee:
360-µW/1 mW Complementary Cross-Coupled Differential Colpitts LC-VCO/QVCO in 0.25-µm CMOS. IEICE Trans. Electron. 90-C(12): 2289-2292 (2007)
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