ByeongHun Yun (0000-0001-7847-1329)

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High-Power 150/245-GHz Fundamental Oscillators With 12.1/−2.54-dBm Peak Output Power for Phased Array Transceivers

IEEE Journal of Solid-State Circuits

2024-11 | Journal article

DOI: 10.1109/JSSC.2024.3412939

Contributors: Abdul Qahir; Dzuhri Radityo Utomo; Byeonghun Yun; Kyung-Sik Choi; Dae-Woong Park; Sang-Gug Lee

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A D-Band Low-Noise and High-Gain Receiver Front-End Adopting Gmax-Driven Active Mixer

IEEE Transactions on Microwave Theory and Techniques

2024-09 | Journal article

DOI: 10.1109/TMTT.2024.3377612

Contributors: Kyung-Sik Choi; Hokeun Lee; Byeonghun Yun; Sang-Gug Lee

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A D-Band Wideband Low-Noise Amplifier Adopting Pseudo-Simultaneous Noise and Input Matched Dual-Peak G max-Core

IEEE Transactions on Microwave Theory and Techniques

2024-05 | Journal article

DOI: 10.1109/TMTT.2023.3322838

Contributors: Hokeun Lee; Byeonghun Yun; Hyoryeong Jeon; Wooyong Keum; Sang-Gug Lee; Kyung-Sik Choi

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Analysis and Design of Power-Efficient H-Band CMOS Frequency Doubler Employing Gain Boosting and Harmonic Enhancing Techniques

IEEE Access

2023 | Journal article

DOI: 10.1109/ACCESS.2023.3264531

Contributors: Byeong-Taek Moon; Byeonghun Yun; Jusung Kim; Sang-Gug Lee

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H-Band Power Amplifiers in 65-nm CMOS by Adopting Output Power Maximized G max-Core and Transmission Line-Based Zero-Degree Power Combining Networks

IEEE Journal of Solid-State Circuits

2023-11 | Journal article

DOI: 10.1109/JSSC.2023.3299735

Contributors: Byeonghun Yun; Dae-Woong Park; Sang-Gug Lee

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A 250-GHz Wideband Direct-Conversion CMOS Receiver Adopting Baseband Equalized Low-Loss Resistive Passive Mixer

IEEE Transactions on Circuits and Systems II: Express Briefs

2023-10 | Journal article

DOI: 10.1109/TCSII.2023.3289215

Contributors: Hyo-Ryeong Jeon; Byeong-Hun Yun; Ho-Keun Lee; Sang-Gug Lee; Kyung-Sik Choi

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A −124-dBm Sensitivity Interference-Resilient Direct-Conversion Duty-Cycled Wake-Up Receiver Achieving 0.114 mW at 1.966-s Wake-Up Latency

IEEE Journal of Solid-State Circuits

2023-06 | Journal article

DOI: 10.1109/JSSC.2022.3208563

Contributors: Keun-Mok Kim; Kyung-Sik Choi; Hyunki Jung; Byeonghun Yun; Jinglong Xu; Jinho Ko; Sang-Gug Lee

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A 201- and 283-GHz Dual-Band Amplifier in 65-Nm CMOS Adopting Dual-Frequency $G_{\max }$-Core With Dual-Band Matching

IEEE Transactions on Terahertz Science and Technology

2023-05 | Journal article

DOI: 10.1109/TTHZ.2023.3263644

Contributors: Dae-Woong Park; Byeonghun Yun; Dzuhri Radityo Utomo; Jong-Phil Hong; Sang-Gug Lee

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A D-Band Power Amplifier in 65-nm CMOS by Adopting Simultaneous Output Power-and Gain-Matched Gmax-Core

IEEE Access

2021 | Journal article

DOI: 10.1109/ACCESS.2021.3096423

Contributors: Dae-Woong Park; Dzuhri Radityo Utomo; Byeonghun Yun; Hafiz Usman Mahmood; Sang-Gug Lee

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Design of High-Gain Sub-THz Regenerative Amplifiers Based on Double-G max Gain Boosting Technique

IEEE Journal of Solid-State Circuits

2021-11 | Journal article

DOI: 10.1109/JSSC.2021.3092168

Contributors: Dae-Woong Park; Dzuhri Radityo Utomo; Byeonghun Yun; Hafiz Usman Mahmood; Jong-Phil Hong; Sang-Gug Lee

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A –123-dBm Sensitivity Split-Channel BFSK Reconfigurable Data/Wake-Up Receiver for Low-Power Wide-Area Networks

IEEE Journal of Solid-State Circuits

2021-09 | Journal article

DOI: 10.1109/JSSC.2021.3063134

Contributors: Keun-Mok Kim; Hyun-Gi Seok; Oh-Yong Jung; Kyung-Sik Choi; Byeonghun Yun; Subin Kim; Wonkab Oh; Eui-Rim Jeong; Jinho Ko; Sang-Gug Lee

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A D-Band High-Gain and Low-Power LNA in 65-nm CMOS by Adopting Simultaneous Noise- and Input-Matched G max-Core

IEEE Transactions on Microwave Theory and Techniques

2021-05 | Journal article

DOI: 10.1109/TMTT.2021.3066972

Contributors: Byeonghun Yun; Dae-Woong Park; Hafiz Usman Mahmood; Doyoon Kim; Sang-Gug Lee

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A 250-GHz 12.6-dB Gain and 3.8-dBm P sat Power Amplifier in 65-nm CMOS Adopting Dual-Shunt Elements Based G max-Core

IEEE Microwave and Wireless Components Letters

2021-03 | Journal article

DOI: 10.1109/LMWC.2020.3046745

Contributors: Byeonghun Yun; Dae-Woong Park; Won-Jong Choi; Hafiz Usman Mahmood; Sang-Gug Lee

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A 5.5-dBm, 31.9% Efficiency 915-MHz Transmitter Employing Frequency Tripler and 207-$\mu$ W Synthesizer

IEEE Microwave and Wireless Components Letters

2020-01 | Journal article

DOI: 10.1109/LMWC.2019.2953208

Contributors: Kyung-Sik Choi; Keun-Mok Kim; Su-Bin Kim; Byeong-Hun Yun; Jinho Ko; Jusung Kim; Sang-Gug Lee

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ByeongHun Yun

https://orcid.org/0000-0001-7847-1329

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Works (14)

High-Power 150/245-GHz Fundamental Oscillators With 12.1/−2.54-dBm Peak Output Power for Phased Array Transceivers

A D-Band Low-Noise and High-Gain Receiver Front-End Adopting Gmax-Driven Active Mixer

A D-Band Wideband Low-Noise Amplifier Adopting Pseudo-Simultaneous Noise and Input Matched Dual-Peak G max-Core

Analysis and Design of Power-Efficient H-Band CMOS Frequency Doubler Employing Gain Boosting and Harmonic Enhancing Techniques

H-Band Power Amplifiers in 65-nm CMOS by Adopting Output Power Maximized G max-Core and Transmission Line-Based Zero-Degree Power Combining Networks

A 250-GHz Wideband Direct-Conversion CMOS Receiver Adopting Baseband Equalized Low-Loss Resistive Passive Mixer

A −124-dBm Sensitivity Interference-Resilient Direct-Conversion Duty-Cycled Wake-Up Receiver Achieving 0.114 mW at 1.966-s Wake-Up Latency

A 201- and 283-GHz Dual-Band Amplifier in 65-Nm CMOS Adopting Dual-Frequency $G_{\max }$-Core With Dual-Band Matching

A D-Band Power Amplifier in 65-nm CMOS by Adopting Simultaneous Output Power-and Gain-Matched Gmax-Core

Design of High-Gain Sub-THz Regenerative Amplifiers Based on Double-G max Gain Boosting Technique

A –123-dBm Sensitivity Split-Channel BFSK Reconfigurable Data/Wake-Up Receiver for Low-Power Wide-Area Networks

A D-Band High-Gain and Low-Power LNA in 65-nm CMOS by Adopting Simultaneous Noise- and Input-Matched G max-Core

A 250-GHz 12.6-dB Gain and 3.8-dBm P sat Power Amplifier in 65-nm CMOS Adopting Dual-Shunt Elements Based G max-Core

A 5.5-dBm, 31.9% Efficiency 915-MHz Transmitter Employing Frequency Tripler and 207-$\mu$ W Synthesizer