國立成功大學電機工程學系 教師個人頁面
English Version
鄭光偉 教授
地址
電機系館9樓92901室
Email
TEL
06-2757575 ext.62369
實驗室網站連結
無線積體電路與系統實驗室(WICS)
(R92971/ext.62400-1671)
學經歷
學歷
2009
美國華盛頓大學電機博士
2002
國立台灣大學電機碩士
2000
國立臺灣大學電機學士
經歷
2023/11-present
國立成功大學電機系教授
2018/1-2023/11
國立成功大學電機系副教授
2012/02-2017/12
國立成功大學電機系助理教授 
2010/01-2012/02
新加坡 科技研究局 微電子研究院 生醫晶片組 計畫主持人 
2006/06-2006/09
美國 國家半導體 電路設計工程師
2002/08-2004/07
聯發科技 資深IC設計工程師
研究領域
  • Ultra-low-power RF front-end circuits and energy efficient wireless transceivers
  • Low power techniques for ADC and PLL
  • Wireless power transfer and energy harvest techniques
  • Bio-medical and sensor interface integrated circuits design
著作
期刊論文( Journal )
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  1. K. W. Cheng, S. K. Chang, B. S. Li, and Z. T. Tsai, "Design and Analysis of a Resistive Frequency-Locked Oscillator With Long-Term Stability Using Double Chopper Stabilization," IEEE Transactions on Circuits and Systems I: Regular Papers, vol. 70, no. 2, pp. 655-666, 2023
  2. K. W. Cheng, W. W. Chen, and S. D. Yang, "A Low Power Sub-GHz Wideband LNA Employing Current-Reuse and Device-Reuse Positive Shunt-Feedback Technique," IEEE Microwave and Wireless Components Letters, vol. 32, no. 12, pp. 1455-1458, 2022
  3. K. -W. Cheng and S. -E. Chen,"An Ultralow-Power OOK/BFSK/DBPSK Wake-Up Receiver Based on Injection-Locked Oscillator," in IEEE Transactions on Very Large Scale Integration (VLSI) Systems, vol. 29, no. 7, pp. 1379-1391, July 2021.
  4. S.-E. Chen, J.-S. Lin, H.-F. Li and K.-W. Cheng, "Reference-less wake-up receiver with noise suppression and injection-locked clock recovery," in IET Circuits, Devices & Systems, vol. 14, no. 2, pp. 168-175, March 2020.
  5. K.-W. Cheng, S.-K. Chang, and Y.-C. Huang, “Low-Power and Low-Phase-Noise Gm-Enhanced Current-Reuse Differential Colpitts VCO”, IEEE Trans. on Circuits and Systems II: Express Briefs, vol. 66, no. 5, pp. 733-737, May 2019.(Invited)
  6. K.-W. Cheng and S.-E. Chen, “An Ultralow-Power Wake-Up Receiver Based on Direct Active RF Detection,”IEEE Trans. on Circuits and Systems I, vol. 64, no. 7, pp. 1661-1672, Jul. 2017.
  7. K.-W. Cheng and Y.-R. Tseng, “5 GHz CMOS Quadrature VCO Using Trifilar-Transformer-Coupling Technology,” IEEE Microwave and Wireless Components Letters, vol. 26, no. 9, pp. 717-719, Sep. 2016.
  8. X. Zou, L. Liu, J. H. Cheong, L. Yao, P. Li, M.-Y. Cheng, W. L. Goh, R. Rajkumar, G. S. Dawe, K.-W. Cheng, and M. Je, “A 100-Channel 1-mW Implantable Neural Recording IC,” IEEE Trans. on Circuits and Systems I, vol. 60, no. 10, pp. 2584-2596, Oct. 2013.
  9. R.-F. Xue, K.-W. Cheng, and M. Je, “High-Efficiency Wireless Power Transfer for Biomedical Implants by Optimal Resonant Load Transformation,” IEEE Trans. on Circuits and Systems I, vol. 60, no. 4, pp. 867-874, Apr. 2013.
  10. K.-W. Cheng and M. Je, “A Current-Switching and gm-Enhanced Colpitts Quadrature VCO,” IEEE Microwave and Wireless Components Letters, vol. 23, no. 3, pp. 143-145, Mar. 2013.
  11. K.-W. Cheng, K. Natarajan, and D. J. Allstot, “A Current Reuse Quadrature GPS Receiver in 0.13 m CMOS,” IEEE J. Solid-State Circuits, vol.45, no.3, pp.510-523, Mar. 2010.
  12. Y. Tang, K.-W. Cheng, S. Gupta, J. Paramesh, and D. J. Allstot, “Cascaded Complex ADCs with Adaptive Digital Calibration for I/Q Mismatch,” IEEE Trans. on Circuits and Systems I, vol.55, no.3, pp. 817-827, Apr. 2008.
會議論文( Conference )
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  1. P. C. Yeh, S. E. Chen, and K. W. Cheng, "A 433MHz Multi-Mode Wake-Up Receiver Achieving High Sensitivity via Balun LNA and Injection Locked Oscillator," in 2023 21st IEEE Interregional NEWCAS Conference (NEWCAS), 26-28 June 2023
  2. Y. S. Hsieh, B. S. Li, and K. W. Cheng, "A 0.98 pJ/Cycle 3.7 ppm Long-Term Stability Frequency-Locked Oscillator with Switched-Capacitor and Switched-Resistor Techniques," in 2023 IEEE International Symposium on Circuits and Systems (ISCAS), 21-25 May 2023
  3. S. E. Chen, Y. C. Lin, and K. W. Cheng, "A High Sensitivity RF Energy Harvester with Dynamic Body-Biasing CMOS Rectifier," in 2022 20th IEEE Interregional NEWCAS Conference (NEWCAS), 19-22 June 2022
  4. B.-S. Li, S.-K. Chang, Z.-T. Tsai, and K.-W. Cheng, “A 1.17-nW/kHz Frequency-Locked On-Chip Wake-Up Timer in 0.18-μm CMOS, ” in VLSI Design/CAD symp., Aug. 2021.
  5. S.-K. Chang, Z.-T. Tsai, and K.-W. Cheng, “A 250 kHz Resistive Frequency-Locked On-Chip Oscillator with 24.7 ppm/°C Temperature Stability and 2.73 ppm Long-Term Stability”, in IEEE Int. Symp. on Circuits and Systems (ISCAS), Oct. 2020.
  6. S.-K. Chang, S.-D. Yang, K.-W. Cheng, “A Direct FSK/QPSK Modulation Transmitter Employing Dual Injection Locking Techniques, ” in Taiwan and Japan Conference on Circuits and Systems (TJCAS), Aug. 2019.
  7. Y.-C. Huang, S.-K. Chang, and K.-W. Cheng, “A 2.4 GHz Gm-Boosted Complementary Current-Reuse Colpitts VCO with FoM of 189 dBc/Hz in 0.18 μm CMOS, ” in VLSI Design/CAD symp., Aug. 2019.
  8. Y.-C. Huang, S.-K. Chang, and K.-W. Cheng, “Low-Power and Low-Phase-Noise Gm-Enhanced Current-Reuse Differential Colpitts VCO”, in IEEE Int. Symp. on Circuits and Systems (ISCAS), May 2019
  9. W.-W. Chen, and K.-W. Cheng, “A UWB CMOS LNA with Current Reuse Negative Feedback, ” in VLSI Design/CAD symposium, Aug. 2018.
  10. W.-W. Chen, S.-D. Yang, and K.-W. Cheng, “A 1.2 V 490 μW Sub-GHz UWB CMOS LNA with Current Reuse Negative Feedback”, in IEEE Int. Symp. on Circuits and Systems (ISCAS), May 2018.
  11. S.-K. Chang, K.-W. Chen, S.-D. Yang, C.-L. Yang, and K.-W. Cheng, “An Autonomous Wireless Transmitter with Piezoelectric Energy Harvester from Short-Duration Vibrations”, in IEEE Int. Symp. on Circuits and Systems (ISCAS), May 2018.
  12. S.-K. Chang, and K.-W. Cheng, “A Low Power Gm-Enhanced Current-Reuse Differential Colpitts QVCO, ” in VLSI Design/CAD symposium, Aug. 2017.
  13. S.-E. Chen and K.-W. Cheng, “A 433 MHz 54 μW OOK/FSK/PSK Compatible Wake-Up Receiver with 11 μW Low-Power Mode Based on Injection-Locked Oscillator,” in IEEE European Solid-State Circuits Conference (ESSCIRC), Sep. 2016.
  14. C.-M. Chou and K.-W. Cheng, “A Sub-2 dB Noise-Figure 2.4 GHz LNA Employing Complementary Current Reuse and Transformer Coupling”, in IEEE International Symposium on Radio-Frequency Integration Technology (RFIT), Aug. 2016. (Final list of Best Student Paper Award)
  15. K.-W. Cheng, J.-S. Lin, and S.-E. Chen, “Reference-Less Ultra-Low-Power Wake-Up Receiver with Noise Suppression”, in URSI Asia-Pacific Radio Science Conference, Aug. 2016. (Invited)
  16. M. Je, J. H. Cheong, C. K. Ho, S. S. Y. Ng, R.-F. Xue, H.-K. Cha, X. Liu, W.-T. Park, L. S. Lim, C. He, K.-W. Cheng, X. Zou, Z. Chen, L. Yao, S. J. Cheng, P. Li, L. Liu, M.-Y. Cheng, Z. Duan, R. Rajkumar, Y. Zheng, W. L. Goh, Y. Guo, G. Dawe, “Wireless sensor microsystems for emerging biomedical applications”, in IEEE Int. Symp. on Radio-Frequency Integration Technology (RFIT), Aug. 2015, pp. 139-141.
  17. S.-E. Chen, Chin-Lung Yang, and K.-W. Cheng, “A 4.5 μW 2.4 GHz Wake-Up Receiver Based on Complementary Current-Reuse RF Detector” in IEEE Int. Symp. on Circuits and Systems, April 2015, pp. 1214-1217.
  18. S.-E. Chen and K.-W. Cheng, “A 433MHz 6.4μW FSK Receiver with -68dBm Sensitivity Based on Injection-locked Frequency-to-Amplitude Conversion” in IEEE Int. Solid-State Circuits Conf. - Student Research Preview(ISSCC-SRP), Feb. 2015.
  19. J. Lee, V. V. Kulkarni, C. K. Ho, J. H. Cheong, P. Li, J. Zhou, W. Toh, X. Zhang, Y. Gao, K.-W. Cheng, X. Liu, M. Je, “A 60 Mb/s Wideband BCC Transceiver with 150 pJ/b RX and 31 pJ/b TX for Emerging Wearable Applications,” in IEEE Int. Solid-State Circuits Conf. (ISSCC) Dig. Tech. Papers, Feb. 2014, pp. 498-499.
  20. X. Zhang, R. Xue, K.-W. Cheng, J. Cheong, C. Ho, L. Yao, C. He, and M. Je, “Design of High-Efficiency Inductive Power Transfer Coils for Biomedical Implants,” in IEEE MTT-S Int. Microwave Workshop Series on RF and Wireless Technologies for Biomedical and Healthcare Applications, Dec. 2013.
  21. K.-W. Cheng, X. Liu, and M. Je, “A 2.4/5.8 GHz 10 W Wake-Up Receiver With -65/-50 dBm Sensitivity Using Direct Active RF Detection,” in IEEE Asian Solid-State Circuits Conf. (ASSCC), Nov. 2012, pp. 337-340.
  22. K.-W. Cheng, X. Zou, J. H. Cheong, R.-F. Xue, Z. Chen, L. Yao, H.-K. Cha, S. J. Cheng, P. Li, L. Liu, L. Andia, C. K. Ho, M.-Y. Cheng, Z. Duan, R. Ramamoorthy, Y. Zheng, W. L. Goh, Y. Guo, G Dawe, W.-T. Park, and M. Je, “100-Channel Wireless Neural Recording System with 54-Mb/s Data Link and 40%-Efficiency Power Link,” in IEEE Asian Solid-State Circuits Conf. (ASSCC), Nov. 2012, pp. 185-188.
  23. M.-Y. Cheng, W.-T. Park, X. Zou, K.-W. Cheng, K. L. Tan, and M. Je, “A novel integration scheme for A low-profile 3d neuroprobe array microsystem,” in IEEE Asia-Pacific Conf. on Transducers and Micro/Nano Technologies, Jul. 2012.
  24. A. T. Do, C. K. Lam, Y. S. Tan, K. S. Yeo, J. H. Cheong, X. Zou, L. Yao, K. W. Cheng, and M. Je, “A 160 nW 25 kS/s 9-bit SAR ADC for neural signal recording applications,” in IEEE 10th International New Circuits and Systems Conference (NEWCAS), Jun. 2012, pp. 525-528.
  25. L. Andia, R.-F. Xue, K.-W. Cheng and M. Je, “Closed loop wireless power transmission for implantable medical devices,” in IEEE Int. Symp. on Integrated Circuits. (ISIC), Dec. 2011, pp. 404-407.
  26. Z. Chen, K.-W. Cheng, Y. Zheng, and M. Je, “A 3.4-mW 54-Mbps Burst-Mode Injection-Locked FSK Transmitter,” in IEEE Asian Solid-State Circuits Conf. (ASSCC), Nov. 2011, pp. 289-292.
  27. S. Gupta, Y. Tang, K.-W. Cheng, J. Paramesh, and D.J. Allstot, “Multi-rate polyphase DSP and LMS calibration schemes for oversampled data conversion systems,” in IEEE Intl. Conf. on Acoustics, Speech, and Signal Processing (ICASSP), May 2011, pp. 1585-1588.
  28. K.-W. Cheng and D. J. Allstot, “A Gate-Modulated CMOS LC Quadrature VCO,” in IEEE Radio Frequency Integrated Circuits (RFIC) Symp., Jun. 2009, pp. 267-270. (Best Student Paper Award)
  29. N. M. Neihart, K.-W. Cheng, J. S. Walling, S. Yoo, and D. J. Allstot, “A 4-Antenna Transmitter in 0.18 m CMOS using Space-Time BlockCodes,” in IEEE Radio Frequency Integrated Circuits (RFIC) Symp., Jun. 2009, pp. 361-364.
  30. K.-W. Cheng, K. Natarajan, and D. J. Allstot, “A 7.2mW Quadrature GPS Receiver in 0.13 m CMOS,” in IEEE Int. Solid-State Circuits Conf. (ISSCC) Dig. Tech. Papers, Feb. 2009, pp. 422-423.
  31. H.-H. Chang, S.-P. Chen, K.-W. Cheng, and S.-I. Liu, “A 0.8V switched-opamp bandpass ΔΣ modulator using a two-path architecture,” in Proc. IEEE Asia-Pacific Conf. on ASIC, Aug. 2002, pp. 1-4.
專利
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  1. 鄭光偉、吳奕慶、陳仕恩,自我補償互補式整流器,中華民國專利第I623182號,2018年。
  2. K.-W. Cheng, W.-H. Ho, and S.-K. Chang, “Ultra Low Power Transmitter Applied in Multi-Channel Frequency Shift Keying (FSK) Communication,” US Patent 9,565,042, 2017.
  3.     鄭光偉、何文皓、張勝凱,應用於多通道頻率鍵移通訊的超低功耗發射機,中華民國專利第I535223號,2016年。
  4. K.-W. Cheng and M. Je, “Circuit Arrangement and Receiver Including the Circuit Arrangement”, U.S. Patent No. US 8626110 B2, Jan. 7, 2014 and Singapore Patent No. 188064, Jan. 30, 2014.
  5. K.-W. Cheng, Z. Chen, Y. Zheng, R.-F. Xue, and M. Je, “Receiver and method of controlling a receiver,” US Patent Pub. No US 20130329773 A1, Dec. 12, 2013.
  6. K.-W. Cheng and M. Je, “Quadrature Voltage Controlled Oscillator,” U.S. Patent Pub. No. US20120249250 A1, Oct. 4, 2012.
  7. Z. Chen, K.-W. Cheng, Y. Zheng, and M. Je, “Method and apparatus for a duty-cycled harmonic injection locked oscillator,” International Pub. No. WO2012134393 A1, Oct. 4, 2012.
其他
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  1. 鄭光偉、邱怡禎, “免電池物聯網連結的實現,” 科技部<科學發展>月刊, No. 527, 2016 年11月
研究計劃
  1. 臺美(US)國合計畫-臺美半導體合作計畫-即時優化收發器系統, 2023/7-2025/6
  2. 應用於物聯網之超低功耗多模多通道無線發射器, 2023/8-2025/7
  3. 低電壓鎖相迴路, 2022/9-2024/8
  4. 低功耗低抖動時脈產生器, 2022/3-2024/2
  5. 高靈敏度無線射頻辨識技術, 2022/10-2023/9
  6. 低功耗物聯網電路與系統之分析設計及改善, 2018/05-2022/04
  7. 適用於高安全性喚醒物聯網系統之超低功耗抗干擾無線接收發器, 2018/05-2022/04
  8. 低功耗無線傳輸之無鉛壓電MEMS加速規系統之開發, 2017/06-2018/05
  9. 可應用於自我供電感測平台之超低功耗喚醒接收器, 2016/12-2017/12
  10. 應用於物聯網之超低功耗多模無線電收發器, 2016/08–2019/07
  11. 可應用於自我供電感測平台濕度量測之超低功耗電容感測器, 2015/12-2016/12
  12. 大專學生研究計畫--應用於腦波感知安全帽之神經放大器, 2015/07-2016/02
  13. 大專學生研究計畫--無線電獵能裝置轉換驅動電子鐘, 2014/07-2015/02
  14. 低功耗正交電壓控制振盪器, 2013/08 - 2015/07
  15. 具綠能獵能器之能源自主無線傳訊系統-子計畫二:應用於能源自主系統之超低功耗微型無線電收發器, 2013/05 - 2016/04
  16. 應用於無線感測網路之超低功耗喚醒接收器, 2012/08 - 2013/07
開授課程
112學年上
111學年下
111學年上
110學年下
110學年上
109學年下
109學年上
108學年下
108學年上
指導學生
本學年度 實驗室成員
博士班
張勝凱
碩士班
吳元程
葉品蓁
王馨
莊友任
郭明軒
謝允聖
陳彥璋
夏翊瑄
許玳溶
邱裕琪
吳鎧辰
林智威
洪志豪
張紹宸
戴國靖
吳佳翰
劉承儒
許宗凱
已畢業學生
碩士班
102
何文浩
103
裘愉豪 (共同指導)
104
林志軒
105
吳奕慶   楊上德
106
王星皓
107
蔡治廷   陳偉偉   陳思宏   林詠章   周承潣   李欣芳
108
黃鈺絜   邱鈺婷
109
李錫樓   蔡俐萱
110
李家丞   陳鏡光   李柏陞   高承豪
111
沈晁安   林宜駿   張少庭   許仁瑋
博士班
109
陳仕恩
特殊榮譽
  1. 成功大學 教學優良教師,2021
  2. 旺宏金矽獎 第二十屆半導體設計與應用大賽, 應用組評審團銅獎,2020
  3. 最佳指導教授獎, 第二十屆半導體設計與應用大賽, 2020
  4. 科技部 未來科技突破獎,2019
  5. Best Young Professional Member Award, IEEE Tainan Section,2019
  6. 成功大學 教學優良教師,2019
  7. IEEE Tainan Section Macronix Award, 2018
  8. 陳思宏、周承潣:教育部IC設計競賽 類比電路設計組 設計完成獎, 2018
  9. 張勝凱:Winner of the SSCS 2017- 2018 Circuit Analysis and Design Contest, 2018
  10. 最佳指導教授獎, 旺宏金矽獎 第十七屆半導體設計與應用大賽, 2017
  11. 周承潣:CIC晶片製作 特優設計獎, 2017
  12. 張勝凱、陳仕恩:旺宏金矽獎 第十七屆半導體設計與應用大賽 設計組評審團銀獎, 2017
  13. 前瞻學術研究計畫特優獎, 科技部智慧電子國家型科技計劃, 2016
  14. 教學優良教師, 成功大學 電機資訊學院, 2016
  15. 卓越計畫獎(共同主持人), 科技部智慧電子國家型計劃, 2015
  16. 陳仕恩、張勝凱:TENG PRIZE 科技創新創業獎 銅獎, 2016
  17. 陳仕恩、楊上德:旺宏金矽獎 第十六屆半導體設計與應用大賽 應用組優勝獎, 2016
  18. 陳仕恩、裘愉豪:教育部IC設計競賽 類比電路設計組 設計完成獎, 2015
  19. 林志軒、朱保銘、張勝凱:國立成功大學 電機工程學系 優良助教獎, 2015
  20. Best Student Paper Award, IEEE Radio Frequency Integrated Circuits (RFIC) Symp., 2009
  21. Graduate Student Travel Award, Graduate School's Fund for Excellence and Innovation, University of Washington, Seattle, 2008
  22. Outstanding Student Designer Award, Analog Devices Inc., 2008
  23. Second Place, VLSI Conference Poster Contest, Dept. of Electric Engineering, University of Washington, Seattle, 2006
  24. Lee Memorial Fellowship, College of Engineering, University of Washington, Seattle, 2005-2006
  25. 教育部九十學年度大學校院 積體電路設計競賽 研究所\大學組 類比電路設計類 優等
  26. 教育部\國科會九十學年度大學 校 院 矽智產設計競賽 Hard IP組 優等
  27. 旺宏金矽獎 第二屆半導體設計與應用大賽 設計組一獎
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