呂學士特聘教授的個人資料 - Profile of Shey-Shi Lu

呂學士 Shey-Shi Lu

國立臺灣大學電機工程學系 特聘教授
聯發科技-臺大創新研究中心主任
智慧電子國家型計畫分項召集人
Distinguished Professor, Department of Electrical Engineering, National Taiwan University
Director of MediaTek-NTU Research Center
Principal Investigator of National Intelligent Electronics Program

主要研究領域:

醫療電子,類比電路射,數位電路,頻積體電路及半導體製程/元件

Major Research Areas:

CMOS-based biomedical system-on-a-chip and technologies, analog/digital/RF circuits, semiconductor devices/processing

研究領域摘要:

本實驗室目前研究領域主要在CMOS 醫療電子系統晶片,以及數位,類比,射頻與等積體電路及系統的設計。

本實驗室近年來將過去無線電路的研發成果應用於 More than Moore 領域中的醫療電子方面之研究, 主要係將自行開發之半導體製程技術結合 CMOS 積體電路而開發出創新式醫療電子晶片系統,於 ISSCC 發表六篇(2006 (蛋白質SoC)、2009(智慧釋藥SoC)、2010(止痛晶片)、2014 (動力晶片船SoC),2015(氣體偵測SoC及Lab-on-Chip CMOS SoC))醫療電子相關的論文,為全台灣之最。並於2011、2012與2013在電路設計領域另一極重要之會議 Symposium on VLSI circuits 分別發表全球第一個將 MEMS cantilever 與電路整合製作於同一 CMOS 晶片的 DNA 感測 SoC (2011)、 第一個將奈米線與電路整合製作於同一CMOS 晶片的病毒感測 SoC(2012)及第一個自供電可重組多重感測器生醫 SoC(2013)。

Research Summary:

We are now focusing on the research areas of CMOS-based biomedical system-on-a-chip and technology, digital circuits, analog circuits and radio-frequency integrated circuits (RFIC).

Recent years, we have applied our RFIC research results to biomedical electronics in the "More than Moore" era. Semiconductor processing technologies combined with IC design, pioneering CMOS-based biomedical SoCs are developed. Six medical electronics related papers were presented at ISSCC 2006 (Protein SoC), 2009 (Drug Delivery SoC), 2010 (Pain Relief SoC), 2014 (locomotive Chip SoC), and 2015 (Gas Detector SoC and Lab-on-Chip SoC). World's first DNA cantilever sensor SoC (2011), Virus nanowire SoC (2012), and multi-sensor biomedical SoC (2013) were presented at Symposium on VLSI circuits.

Photo of Shey-Shi Lu

代表性著作 Selected Publication

  1. P.-H. Kuo, J.-Y. Hsieh, Y.-C. Huang, Y.-J. Huang, R.-D. Tsai, T. Wang, H.-W. Chiu, S.-S. Lu, “A Remotely Controlled Locomotive IC Driven by Electrolytic Bubbles and Wireless Powering,” IEEE, International Solid-State Circuit Conference (ISSCC), San Francisco, Feb. 2014
  2. Y.-J. Huang, T.-W. Lin, T.-H. Tzeng C.-W. Huang, P.-W. Yen, C.-T. Lin, ,S.-S. Lu, “A Self-powered CMOS Reconfigurable Multi-sensor SoC for Biomedical Applications,” IEEE Symposium on VLSI Circuits, Kyoto, Japan, Jun. 2013
  3. C.-W. Huang, Y.-J. Huang, P.-W. Yen, H.-T. Hsueh., C.-Y. Lin, M.-C. Chen, C.-H. Ho, F.-L. Yang, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, C.-K. Wang, C.-T. Lin, and S.-S. Lu, “A Fully Integrated Hepatitis B Virus DNA Detection SoC based on Monolithic Polysilicon Nanowire CMOS Process,” 2012 Symposia on VLSI Technology and Cricuits, Hawaii, USA, Jun. 2012
  4. Y.-J. Huang, C.-W. Huang, T.-H. Lin, C.-T. Lin, L.-G. Chen, P.-Y. Hsiao, B.-R. Wu, H.-T. Hsueh, B.-J. Kuo1, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, C.-K. Wang, and S.-S Lu, “A Fully-integrated Cantilever-based DNA Detection SoC in a CMOS Bio-MEMS Process,” IEEE Symposium on VLSI Circuits, pp.50 - 51, Kyoto, Japan, Feb. 2011
  5. S.-S. Lu, “ Miniaturized Wireless CMOS Drug Delivery SoC,” IEEE International Solid-State Circuit Conference (ISSCC), San Francisco, Feb. 2011
  6. Yu-Tso Lin; Yo-Sheng Lin; Chun-Hao Chen; Hsiao-Chin Chen; Yu-Che Yang; Shey-Shi Lu;, “A 0.5 V Biomedical System-on-a-Chip for Intra-body Communication System,” IEEE Transactions on Industrial Electronics, Volume:58, Issue: 2, pp.690-699, Feb. 2011
  7. H. W. Chiu, ……., S. S. Lu, “Pain Control On Demand Based on Pulsed Radio-Frequency Stimulation of the Dorsal Root Ganglion Using a Batteryless Implantable CMOS SoC,” IEEE Trans. Biomedical Circuits and Systems, Vol.4, No.6, pp.350-359, Dec. 2010
  8. C.-W. Lin, …, Shey-Shi Lu, “Pain Control On Demand Based on Pulsed Radio-Frequency Stimulation of the Dorsal Root Ganglion Using a Batteryless Implantable CMOS SoC,” IEEE, International Solid-State Circuit Conference (ISSCC), San Francisco, Feb. 2010
  9. Y. J. Yang, Y. J. Huang, …, Shey-shi Lu, “A Release-on-Demand Wireless CMOS Drug Delivery SoC Based on Electrothermal Activation Technique,” IEEE, ISSCC, San Francisco, Feb. 2009
  10. H. K. Chen, …, Shey-shi Lu, “A mm-Wave CMOS Multimode Frequency Divider,” IEEE, ISSCC, San Francisco, Feb. 2009
  11. H. C. Chen, T. Wang, and S. S. Lu, “A 5-6 GHz 1-V CMOS Direct Conversion Receiver with an Integrated Quadrature Coupler,” IEEE Journal of Solid-State Circuits, vol.42, no.9, pp.1963-1975, Sept. 2007
  12. Y. -C. Yang and S. -S. Lu, “A CMOS ΔΣ Fractional-N Frequency Synthesizer with Quantization Noise Pushing Technique,” IEEE Symposium on VLSI Circuits, Kyoto, Japan, Jun. 2007
  13. Y.-S. Lin, C.-C. Chen, H. B. Liang, C.-Z. Chen, J.-F. Chang, T. Wang, and S. S. Lu, “A High-Performance Micromachined RF Monolithic Transformer with Optimized Pattern Ground Shield for UWB RFIC Applications,” IEEE Trans. on Electron Devices, vol. 54, no.3, pp.609-613, Mar. 2007
  14. Y. S. Lin, H. B. Liang, T. Wang, and S. S. Lu, “An Analysis of Perfect- Magnetic-Coupling Ultra-Low-Loss Micromachined SMIS RF Transformers for RFIC Applications,” IEEE Trans. on Microwave Theory and Techniques, Vol.54, No.12, pp.4256-4267, Dec. 2006
  15. Wang, T., Chen, C.-H., Lin, Y.-S., Lu, S.-S., “A Micromachined CMOS Distributed Amplifier by CMOS Compatible ICP,” IEEE Electron Device Letters, Vol. 27, No. 4, pp.291-293, Apr. 2006
  16. Tao Wang, Yo-Sheng Lin, and Shey-Shi Lu, “An Ultra-Low-Loss and Broadband Micomachined RF Inductor for RFIC Input-Matching Application,” IEEE Trans. on Electron Devices, vol. 53, no.3, pp.568-570, Mar. 2006
  17. H. W. Chiu, S. S. Lu and Y. S. Lin, “Micromachined CMOS LNA and VCO By CMOS Compatible ICP Deep Trench Technology,” IEEE Tran. on Microwave Theory and Technique, vo1.54, no.6, pp.580-588, Feb. 2006
  18. C. H. Chen, …, Shey-shi Lu, “A wireless Bio-MEMS Sensor for C-Reactive Protein Detection Based on Nanomechanics,” IEEE, ISSCC, San Francisco, Feb. 2006
  19. H. W. Chiu, S. S. Lu and Y. S. Lin, “A 2.17 dB NF, 5 GHz Band Monolithic CMOS LNA with 10 mW DC Power Consumption,” IEEE Tran. on Microwave Theory and Technique, vol.53, no.3, pp.813-824, Mar. 2005
  20. H. W Chiu and S. S. Lu, “A 2.17 dB NF, 5 GHz Band Monolithic CMOS LNA with 10 mW DC Power Consumption,” Symposium on VLSI Circuits, Honolulu, Honolulu, USA, Jun. 2002
  21. M. C. Chiang, S. S. Lu et al, “Analysis, Design, and Optimization of InGaP/GaAs HBT Matched-Impedance Wide-band Amplifiers with Multiple Feedback Loops,” IEEE J. Solid State Circuits, vol. 37,No.6, pp.694-701, Jan. 2002