Publications and Technical Talks

From Jenny Yi-Chun Liu
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Publications

  • 毫米波系統與電路量測方法, in preparation.
  • J. Y.-C. Liu, J.-S. Chen, C. Hsia, P.-Y. Yeh, and C.-W. Lu, "A Wideband Inductorless Single-to-Differential LNA in 0.18-µm CMOS Technology for Digital TV Receivers," to be published.
  • J. Y.-C. Liu, C.-T. Chan, and S. S. H. Hsu, " A K-Band Power Amplifier with Adaptive Bias in 90-nm CMOS," to be presented.
  • C.-L. Hsieh, C.-M. Lai, G.-H. Ke, J. Y.-C. Liu, and P.-C. Huang, "A Mixed-Signal Phase-Domain FSK Demodulator for BLE Single-Path Low-IF Receiver", International Symposium on VLSI Design, Automation & Test, Apr. 2014. (Nominated for the Best Paper Award)
  • F.-T. Chen, J.-M. Wu, J. Y.-C. Liu, M.-C. Chang, "A 100Gb/s Quad-Rate Transformer-Coupled Injection-Locking CDR Circuit in 65nm CMOS", in Proc. IEEE International Symposium on Circuits and Systems, May 2013, pp. 1950-1953.
  • Z.-M. Tsai, H.-C. Liao, Y.-H. Hsiao, H. Wang, J. Y.-C. Liu, M.-C. F. Chang, Y.-M. Teng, G.-W. Huang, “A 1.2V Broadband D-band Power Amplifier with 12.6-dBm Output Power in Standard RF 65-nm CMOS,” in IEEE International Microwave Symposium, June 2012.
  • J. Y.-C. Liu, R. Berenguer, and M.-C. F. Chang, “Millimeter-Wave Self-Healing Power Amplifier With Adaptive Amplitude and Phase Linearization in 65-nm CMOS”, IEEE Transactions on Microwave Theory and Techniques, vol. 60, issue 5, pp. 1342-1352, May 2012.
  • A. Tang, F. Hsiao, D. Murphy, I.-N. Ku, J. Y.-C. Liu, N.-Y. Wang, S. D’Souza, H. Wu, Y.-H. Wang, Y.-C. Kuan, M. Tang, M. Pham, G. Virbila, D. Yang, Q. Gu, C. Chien, and M.-C. F. Chang, “A Low Overhead Self-Healing Embedded System for Ensuring High Performance Yield and Long-Term Sustainability of a 60GHz 4GBps Radio-on-a-Chip,” in Proc. IEEE International Solid-State Circuits Conference, February 2012, pp. 316-317.
  • J. Y.-C. Liu and M.-C. F. Chang, “Design and Optimization for a High Gain V-band CMOS Power Amplifier,” IEICE Transactions on Electronics, vol. E94-C, no. 10, pp. 1508-1514, October 2011. (Invited)
  • J. Y.-C. Liu, Q. J. Gu, A. Tang, N.-Y. Wang, and M.-C. F. Chang, “A 60 GHz Tunable Output Profile Power Amplifier in 65 nm CMOS,” IEEE Microwave and Wireless Component Letters, vol. 21, issue 7, pp. 377-379, July 2011.
  • J. Y.-C. Liu, A. Tang, N.-Y. Wang, Q. J. Gu, R. Berenguer, H.-H. Hsieh, P.-Y. Wu, C. Jou, and M.-C. F. Chang, “A V-band Self-Healing Power Amplifier with Adaptive Feedback Bias Control in 65 nm CMOS,” in Proc. IEEE Radio Frequency Integrated Circuits Symposium, June 2011.
  • N.-Y. Wang, H. Wu, J. Y.-C. Liu, J. Lu, H.-H. Hsieh, P.-Y. Wu, C. Jou, and M.-C. F. Chang, “A 60GHz Receiver with Two-Dimensional Passive Gm-Enhancement in 65nm CMOS,” in Proc. IEEE Radio Frequency Integrated Circuits Symposium, June 2011.
  • N.-Y. Wang, H. Wu, J. Y.-C. Liu, and M.-C. F. Chang, “65nm CMOS Receiver with 4.2dB NF and 66dB Gain for 60GHz Applications,” IET Electronics Letters, pp. 15-17, vol. 47, issue 1, January 2011.
  • N.-Y. Wang, H. Wu, J. Y.-C. Liu, and M.-C. F. Chang, “On the receiving end,” IET Electronics Letters, pp. 3-4, vol. 47, issue 1, January 2011. (Invited Feature Article)
  • J. Y.-C. Liu, Q. J. Gu, T. LaRocca, N.-Y. Wang, Y.-C. Wu, and M.-C. F. Chang, “A 60GHz High Gain Transformer-Coupled Differential Power Amplifier in 65nm CMOS,” in Asia-Pacific Microwave Conference, pp. 932-935, December 2010. (Best Paper Award)
  • T. LaRocca, J. Y.-C. Liu, F. Wang, and M.-C. F. Chang, “Embedded DiCAD Linear Phase Shifter for 57-65GHz Reconfigurable Direct Frequency Modulation in 90nm CMOS,” in Proc. IEEE Radio Frequency Integrated Circuits Symposium, pp. 219-222, June 2009. (Best Paper Award)
  • T. LaRocca, J. Y.-C. Liu, F. Wang, D. Murphy, and M.-C. F. Chang, “DCO with Embedded DiCAD Resonator in 90nm CMOS for 58-64GHz Linear Frequency Tuning and Low Phase Noise,” in Proc. IEEE International Microwave Symposium, pp. 685-688, June 2009.
  • T. LaRocca, J. Y.-C. Liu, and M.-C. F. Chang, “60GHz CMOS Amplifiers Using Transfomer-Coupling and Artificial Dielectric Differential Transmission Lines for Compact Design,” IEEE Journal of Solid-State Circuits, vol. 44, pp. 1425-1435, May 2009.
  • N.-Y. Wang, H. Wu, J. Y.-C. Liu, J. Lu, and M.-C. F. Chang "A 60dB Gain and 4dB Noise Figure CMOS V-Band Receiver Based on Two-Dimensional Passive Gm-Enhancement", submitted to IEEE Trans. on Microwave Theory and Techniques, 2012.
  • J. Y.-C. Liu, C.-M. Tang, and M.-C. F. Chang, “V-band Self-Healing Transmitter for Multi-Band Digital Communications”, in preparation to IEEE Journal of Solid-State Circuits, 2012.
  • T. LaRocca, J. Y.-C. Liu, and M.-C. F. Chang, “Digitally Controlled Analog Power Amplifier,” UCLA Invention Disclosure, June 2009.
  • J. Y.-C. Liu, A. Tang, and M.-C. F. Chang, “Self-Healing Power Amplifier with Adaptive Feedback Bias Control,” in preparation to UCLA Invention Disclosure.


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Book Chapter

  • RF/mm-Wave Power Generation in Silicon (co-authored), Elsevier UK, in preparation

Technical Talks

  • Millimeter-Wave Integrated Circuits and Systems, Department of Electrical Engineering, Jhongli, NCU, Taiwan, January 2014.
  • THz technology, JPL/UCLA Joint Collaboration Meeting, Los Angeles, CA, USA, April 2012.
  • Department Annual Research Review, UCLA, Los Angeles, CA, USA, November 2011.
  • Self-Healing CMOS Transmitter for Millimeter-Wave Broadband Digital Communications, Department of Electrical Engineering, NTHU, Hsinchu, Taiwan, October 2011.
  • Self-Healing CMOS Transmitter for Millimeter-Wave Broadband Digital Communications, Department of Electrical Engineering, NTU, Taipei, Taiwan, October 2011.
  • Self-Healing CMOS Transmitter for Millimeter-Wave Broadband Digital Communications, Mediatek Inc., Hsinchu, Taiwan, October 2011.
  • Self-Healing CMOS Transmitter for Millimeter-Wave Broadband Digital Communications, Department of Electrical Engineering, Jhongli, NCU, Taiwan, October 2011.
  • Self-Healing CMOS Transmitter for Millimeter-Wave Broadband Digital Communications, Department of Electrical Engineering, NCKU, Tainan, Taiwan, October 2011.
  • Self-Healing CMOS Transmitter for Millimeter-Wave Broadband Digital Communications, Realtek Semiconductor Corp., Hsinchu, Taiwan, October 2011.
  • Self-Healing CMOS Transmitter for Millimeter-Wave Broadband Digital Communications, TSMC, Hsinchu, Taiwan, October 2011.
  • Self-Healing CMOS Transmitter for Millimeter-Wave Broadband Digital Communications, Industrial Technology Research Institute (ITRT), Hsinchu, Taiwan, October 2011.
  • Self-Healing CMOS Transmitter for Millimeter-Wave Broadband Digital Communications, Department of Electronics Engineering, NCTU, Hsinchu, Taiwan, October 2011.
  • Self-Healing CMOS Transmitter for Millimeter-Wave Broadband Digital Communications, Department of Engineering and System Science, NTHU, Hsinchu, Taiwan, October 2011.
  • Self-Healing CMOS Transmitter for Millimeter-Wave Broadband Digital Communications, Department of Electrical Engineering, NCTU, Hsinchu, Taiwan, October 2011.
  • Research Overview: A 60-GHz Self-Healing transmitter, Department Annual Research Review, UCLA, Los Angeles, CA, USA, March 2011.
  • Self-Healing Transmitter for mm-Wave Digital Communications, Invited Talk, Marvell Semiconductor, Inc., Santa Clara, CA, USA, February 2011.
  • UCLA High-Speed Electronics Lab Selected Research Highlights, Invited Seminar, TSMC, Hsinchu, Taiwan, August 2009.
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