林宗賢教授的個人資料 - Profile of Tsung-Hsien Lin

林宗賢 Tsung-Hsien Lin

國立臺灣大學電機工程學系 教授
聯發科技-台大創新研發中心副主任 (Sep. 2022 - present)
台大系統晶片中心副主任 (Oct. 2020 - Sep. 2023)
台大電子所所長 (Aug. 2019 - July 2022)
台大電子所副所長 (Aug. 2016 - July 2019)
Professor, Department of Electrical Engineering, National Taiwan University
NTU GIEE Director (Aug. 2019 - July 2022)
NTU GIEE Deputy Director (Aug. 2016 - July 2019)

主要研究領域:

類比、射頻、混合信號積體電路設計

Major Research Areas:

Analog/RF/Mixed-Signal IC Design

研究領域摘要:

My research topics mainly encompass the following three areas.

(1) Energy-efficient wireless communication circuits for IoT/bio-medical applications

(2) Mixed-signal circuit techniques for Clock Generation and Delta-sigma ADC

(3) Sensor readout IC and bio-medical analog signal processing circuits

Please refer to  https://ericlab333.ee.ntu.edu.tw/ for more information.

Research Summary:

My research topics mainly encompass the following three areas.

(1) Energy-efficient wireless communication circuits for IoT/bio-medical applications

(2) Mixed-signal circuit techniques for Clock Generation and Delta-sigma ADC

(3) Sensor readout IC and bio-medical analog signal processing circuits

Please refer to https://ericlab333.ee.ntu.edu.tw/ for more information.

Photo of Tsung-Hsien Lin

代表性著作 Selected Publication

  1. M.-L. Chiu, I.-F. Lo, and T.-H. Lin, “A Time-Domain Current-Mode Buck Converter with a PI Compensator Incorporating an Infinite Phase Shift Delay Line,” IEEE J. of Solid-State Circuits, vol. 60, no. 6, pp. 2206-2214, Jun. 2025
  2. C.-Y. Lin, W.-H. Chen, Y.-T. Hung, T.-J. Wang, and T.-H. Lin, “An Area-Efficient Low-Jitter Fractional Output Divider with Replica-DTC-Free Background Calibration,” IEEE J. of Solid-State Circuits, vol. 59, no. 11, 3705, Nov. 2024
  3. W.-E. Lee and T.-H. Lin, “A 0.6-V 12-bit Set-and-Down SAR ADC With a DAC-Based Bypass Window Switching Method,” IEEE TCAS-2, 2023
  4. C.-Y. Lin, Y.-W. Huang, and T.-H. Lin, “A Temperature-Compensated Crystal Oscillator with Piecewise Polynomial Varactor Compensation Achieving ±3.75-ppm Inaccuracy from -30°C to 90°C,” IEEE TCAS-2, vol. 69, no. 4, 2016, Apr. 2022
  5. C.-Y. Chiu, Z.-C. Zhang, and T.-H. Lin, “Design of a 0.6-V 429-MHz FSK Transceiver by Using Q-enhanced and Direct Power Transfer Techniques in 90-nm CMOS,” IEEE J. of Solid-State Circuits, vol. 55, no. 11, 3024, Nov. 2020