國立成功大學電機工程學系 教師個人頁面
English Version
郭泰豪 特聘教授
地址
奇美系館3樓95301室
Email
TEL
06-2757575 ext.62389
實驗室網站連結
混合類比數位積體電路實驗室
(R95302/ext.62400-2889 / (06)2375406)
學經歷
學歷
1988/08~1990/06
美國馬里蘭大學電機博士
1986/08~1988/06
美國馬里蘭大學電機碩士
1978/09~1982/06
國立成功大學電機學士
經歷
2016/08~present
國立成功大學電機工程學系特聘教授
1997/08~present
國立成功大學電機工程學系教授
2005/12~2007/01
晶豪科技副總經理(成大借調)
2004/02~2005/11
集新科技總經理(成大借調)
1992/08~1997/07
國立成功大學電機系副教授
1990/11~1992/07
工研院電子所計畫經理
1990/08~1990/10
美國Integrated Device Technology IC設計工程師
1989/09~1990/06
美國馬里蘭大學電機系研究助理
1989/05~1989/08
美國Allied-Signal太空科技中心超高速IC設計工程師
1987/07~1989/04
美國馬里蘭大學電機系研究助理
1984/06~1986/07
工研院電子所IC設計工程師
研究領域
  • 類比積體電路(Analog Integrated Circuit)
  • 混合信號積體電路(Mixed-Signal Integrated Circuit)
  • Delta-Sigma調變技術(Delta-Sigma Modulation Technique)
  • 能源與綠能電子(Power and Green Electronics)
  • D類音訊功率放大器(Class-D Audio Amplifier)
  • 類比/數位轉換器(Analog-to-Digital Converter)
  • 數位/類比轉換器(Digital-to-Analog Converter)
  • MEMS麥克風(MEMS Microphone)
  • 無線感測網路之獵能電路(Energy Harvesting Circuit for Wireless Sensor Network)
  • 無線功率傳輸(Wireless Power Transfer)
著作
期刊論文( Journal )
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  1. Jia-Ching Wang and Tai-Haur Kuo, "A 72-dB SNDR 130-MS/s 0.8-mW Pipelined-SAR ADC Using a Distributed Averaging Correlated Level Shifting Ring Amplifier," IEEE J. Solid-State Circuits, vol. 57, no. 12, pp. 3794-3803, Dec. 2022.
  2. Yi-Wei Huang, and Tai-Haur Kuo, “Fixed-Switching-Frequency Background Capacitor-Current-Sensor Calibration for DC-DC Converters,” IEEE J. Solid-State Circuits, vol. 57, no. 5, pp. 1504-1516, May 2022.
  3. Yi-Zhi Qiu, Shih-Hsiung Chien, and Tai-Haur Kuo, “A 0.4-mA-Quiescent-Current, 0.00091%-THD+N Class-D Audio Amplifier with Low-Complexity Frequency Equalization for PWM-Residual-Aliasing Reduction,” IEEE J. Solid-State Circuits, vol. 57, no. 2, pp. 423-433, Feb. 2022.
  4. Hung-Yi Huang, Xin-Yu Chen, and Tai-Haur Kuo, “A 10-Gs/s NRZ/Mixing DAC With Switching-Glitch Compensation Achieving SFDR > 64/50 dBc Over the First/Second Nyquist Zone,” IEEE J. Solid-State Circuits, vol. 56, no. 10, pp. 3145-3156, Oct. 2021.
  5. Chung-Ming Yang and Tai-Haur Kuo, “A 3 mW 6-bit 4 GS/s Subranging ADC with Subrange-Dependent Embedded References,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 68, no. 7, pp. 2312-2316, July 2021.
  6. Jia-Ching Wang, Tsung-Chih Hung, and Tai-Haur Kuo, ”A Calibration-Free 14-b 0.7-mW 100-MS/s Pipelined-SAR ADC Using a Weighted-Averaging Correlated Level Shifting Technique,” IEEE J. Solid-State Circuits, vol. 55, no. 12, pp. 3271-3280, Dec. 2020.
  7. Hung-Yi Huang and Tai-Haur Kuo, “A 0.07-mm2 162-mW DAC Achieving > 65 dBc SFDR and < -70 dBc IM3 at 10 GS/s With Output Impedance Compensation and Concentric Parallelogram Routing,” IEEE J. Solid-State Circuits, vol. 55, no. 9, pp. 2478-2488, Sept. 2020.
  8. Yi-Wei Huang, Ting-Yu Yu, and Tai-Haur Kuo, "Transient Output-Current Regulator with Background Calibration Applied to a Buck Converter for Fast Load-Transient Response," IEEE Solid-State Circuits Lett., vol. 3, pp. 462-465, 2020.
  9. Peng-Chang Huang and Tai-Haur Kuo, “A Reconfigurable and Extendable Single-Inductor Single-Path Three-Switch Converter for Indoor Photovoltaic Energy Harvesting,” IEEE J. Solid-State Circuits, vol. 55, no. 7, pp. 1998-2008, July 2020.
  10. Pai-Yi Wang, Yi-Wei Huang, and Tai-Haur Kuo, “A Reconfigurable Transient Optimizer Applied to a Four-Phase Buck Converter for Optimizing Both DVS and Load Transient Responses,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 67, no. 1, pp. 52-56, Jan. 2020.
  11. Tsung-Chih Hung, Fan-Wei Liao, and Tai-Haur Kuo, “A 12-Bit Time-Interleaved 400-MS/s Pipelined ADC With Split-ADC Digital Background Calibration in 4,000 Conversions/Channel,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 66, no. 11, pp. 1810-1814, Nov. 2019.
  12. Peng-Chang Huang, Yeong-Chau Kuo, Yi-Chen Liu, and Tai-Haur Kuo, “An Analog Optimum Torque Control IC for a 200-W Wind Energy Harvesting System,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 66, no. 11, pp. 1790-1794, Nov. 2019.
  13. Tsung-Chih Hung and Tai-Haur Kuo, “A 75.3 dB SNDR 24 MS/s Ring Amplifier-Based Pipelined ADC Using Averaging Correlated Level Shifting and Reference Swapping for Reducing Errors from Finite Opamp Gain and Capacitor Mismatch,” IEEE J. Solid-State Circuits, vol. 54, no. 5, pp. 1425-1435, May 2019.
  14. Shih-Hsiung Chien, Yi-Wen Chen, and Tai-Haur Kuo, “A Low Quiescent Current, Low THD+N Class-D Audio Amplifier with Area-Efficient PWM-Residual-Aliasing Reduction,” IEEE J. Solid-State Circuits, vol. 53, no. 12, pp. 3377-3385, Dec. 2018.
  15. Yi-Wei Huang, Tai-Haur Kuo, Szu-Yu Huang, and Kuan-Yu Fang, “A Four-Phase Buck Converter With Capacitor-Current-Sensor Calibration for Load-Transient-Response Optimization That Reduces Undershoot/Overshoot and Shortens Settling Time to Near Their Theoretical Limits,” IEEE J. Solid-State Circuits, vol. 53, no. 2, pp. 552-568, Feb. 2018.
  16. Yi-Hsiang Wang, Yi-Wei Huang, Peng-Chang Huang, Hsuan-Ju Chen, and Tai-Haur Kuo, “A Single-Inductor Dual-Path Three-Switch Converter with Energy-Recycling Technique for Light Energy Harvesting,” IEEE J. Solid-State Circuits, vol. 51, no. 11, pp. 2716-2728, Nov. 2016.
  17. Tai-Haur Kuo, Shih-Hsiung Chien, Jyun-Jia Huang, Yi-Wen Chen, and Yu-An Lee, “A 2.4 mA Quiescent Current, 1 W Output Power Class-D Audio Amplifier with Feed-Forward PWM-Intermodulated-Distortion Reduction,” IEEE J. Solid-State Circuits, vol. 51, no. 6, pp. 1436-1445, June 2016.
  18. Shih-Hsiung Chien, Ting-Hsuan Hung, Szu-Yu Huang, and Tai-Haur Kuo, “A Monolithic Capacitor-Current-Controlled Hysteretic Buck Converter With Transient-Optimized Feedback Circuit,” IEEE J. Solid-State Circuits, vol. 50, no. 11, pp. 2524-2532, Nov. 2015.
  19. Wei-Te Lin, Hung-Yi Huang, and Tai-Haur Kuo, “A 12-bit 40 nm DAC Achieving SFDR > 70 dB at 1.6GS/s and IMD < -61 dB at 2.8GS/s With DEMDRZ Technique,” IEEE J. Solid-State Circuits, vol. 49, no. 3, pp. 708-717, Mar. 2014.
  20. Jia-Ming Liu, Shih-Hsiung Chien, and Tai-Haur Kuo, “A 100 W 5.1-Channel Digital Class-D Audio Amplifier With Single-Chip Design,” IEEE J. Solid-State Circuits, vol. 47, no. 6, pp. 1344-1354, June 2012.
  21. Wei-Te Lin and Tai-Haur Kuo, “A Compact Dynamic-Performance-Improved Current-Steering DAC With Random Rotation-Based Binary-Weighted Selection,” IEEE J. Solid-State Circuits, vol. 47, no. 2, pp. 444-453, Feb. 2012.
  22. Jia-Ming Liu, Pai-Yi Wang, and Tai-Haur Kuo, “A Current-Mode DC-DC Buck Converter with Efficiency-Optimized Frequency Control and Reconfigurable Compensation,” IEEE Trans. Power Electron., vol. 27, no. 2, pp. 869-880, Feb. 2012.
  23. Jia-Ming Liu, Shih-Hsiung Chien, and Tai-Haur Kuo, “Optimal Design for Delta-Sigma Modulators With Root Loci Inside Unit Circle,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 59, no. 2, pp. 83-87, Feb. 2012.
  24. Chun-Hsien Kuo, Tso-Hung Fan, and Tai-Haur Kuo, “Leading-Subcycles Capacitor Error-Averaging Scheme for Cyclic ADCs,” IEEE Trans. Instrum. Meas., vol. 60, no. 3, pp. 776-783, Mar. 2011.
  25. Chun-Hsien Kuo, Chia-Chin Lin, Tai-Haur Kuo, and Kow-Liang Wen, “Bias-and-Input Interchanging Technique for Cyclic/Pipelined ADCs With Opamp Sharing,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 57, no. 3, pp. 168-172, Mar. 2010.
  26. Da-Huei Lee, Tai-Haur Kuo, and Kow-Liang Wen, “Low-Cost 14-Bit Current-Steering DAC With a Randomized Thermometer-Coding Method,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 56, no. 2, pp. 137-141, Feb. 2009.
  27. Chun-Hsien Kuo and Tai-Haur Kuo, “Capacitor-Swapping Cyclic A/D Conversion Technique With Reduced Mismatch Sensitivity,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 55, no. 12, pp. 1219-1223, Dec. 2008.
  28. Da-Huei Lee and Tai-Haur Kuo, “Advancing Data Weighted Averaging Technique for Multi-Bit Sigma-Delta Modulators,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 54, no. 10, pp. 838-842, Oct. 2007.
  29. Da-Huei Lee, Yu-Hong Lin, and Tai-Haur Kuo, “Nyquist-Rate Current-Steering Digital-to-Analog Converters With Random Multiple Data-Weighted Averaging Technique and QN Rotated Walk Switching Scheme,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 53, no. 11, pp. 1264-1268, Nov. 2006.
  30. Tai-Haur Kuo, Cheng-Chung Yang, Kuan-Dar Chen, and Wen-Chi Wang, “Design Method for High-Order Sigma-Delta Modulator Stablized by Departure Angles Designed to Keep Root Loci in Unit Circle,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 53, no. 10, pp. 1083-1087, Oct. 2006.
  31. Hwi-Ming Wang and Tai-Haur Kuo, “An Automatic Coefficient Design Methodology for High-Order Bandpass Sigma-Delta Modulator With Single-Stage Structure,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 53, no. 7, pp. 580-584, July 2006.
  32. Hwi-Ming Wang and Tai-Haur Kuo, “The Design of High-Order Bandpass Sigma-Delta Modulators Using Low-Spread Single-Stage Structure,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 51, no. 4, pp. 202-208, Apr. 2004.
  33. Chun-Wei Hsu and Tai-Haur Kuo, “6-Bit 500 MHz Flash A/D Converter With New Design Techniques,” IEE Proc. Circuits, Devices Syst., vol. 150, no. 5, pp. 460-464, Oct. 2003.
  34. Tai-Haur Kuo, Kuan-Dar Chen, and Horng-Ru Yeng, “A Wideband CMOS Sigma-Delta Modulator with Incremental Data Weighted Averaging,” IEEE J. Solid-State Circuits, vol. 37, no. 1, pp. 11-17, Jan. 2002.
  35. Shuenn-Yuh Lee, Tai-Haur Kuo, and Jaw-Juinn Horng, “Coefficients Synthesis Method for High-Order Bandpass Sigma-Delta Modulators,” J. Chin. Inst. Electr. Eng., vol. 7, no. 1, pp. 53-61, Feb. 2000.
  36. Kuan-Dar Chen and Tai-Haur Kuo, “An Improved Technique for Reducing Baseband Tones in Sigma-Delta Modulators Employing Data Weighted Averaging Algorithm Without Adding Dither,” IEEE Trans. Circuits Syst. II - Analog Digit. Signal Process., vol. 46, no. 1, pp. 63-68, Jan. 1999.
  37. Tai-Haur Kuo, Kuan-Dar Chen, and Jhy-Rong Chen, “Automatic Coefficients Design for High-Order Sigma-Delta Modulators,” IEEE Trans. Circuits Syst. II - Analog Digit. Signal Process., vol. 6, no. 1, pp. 6-15, Jan. 1999.
  38. Tai-Haur Kuo, Shuenn-Yuh Lee, Ding-Jou Lu, Thomas Jih, and Jeng-Joung Tsaur, “3.3 V Mixed-Mode IC Design Using Switched-Current Techniques for Speech Applications,” IEE Proc. Circuits, Devices Syst., vol. 144, no. 6, pp. 367-374, Dec. 1997.
  39. Tai-Haur Kuo, Shuenn-Yuh Lee, and Kuan-Dar Chen, “Offset Current Cancellation Based on a Multiple-Path Feedback Compensation (MPFC) Technique for Switched-Current Circuits and Systems,” IEEE Trans. Circuits Syst. II - Analog Digit. Signal Process., vol. 44, no. 4, pp. 299-309, Apr. 1997.
  40. C. Y. Huang, J. E. Morris, Y. K. Su, and Tai-Haur Kuo, “New Method of Modeling Multipeak Resonant Tunneling Diode,” Electronics Letters, vol. 30, no. 12, pp. 1012-1013, June 1994.
  41. Tai-Haur Kuo, “Modeling and Simulation of Vertically Integrated Resonant Tunneling Diode Based High-Speed Circuits,” Optical Engineering, vol. 32, no. 1, pp. 131-137, Jan. 1993.
  42. Tai-Haur Kuo, Hung C. Lin, Robert C. Potter, and Dave Schupe, “Multiple Valued Counter,” IEEE Trans. Computers, vol. 42, no. 1, pp. 106-109, Jan. 1993.
  43. Tai-Haur Kuo, Hung C. Lin, Robert C. Potter, and Dave Schupe, “A Novel A/D Converter Using Resonant Tunneling Diodes,” IEEE J. Solid-State Circuits, vol. 26, no. 2, pp. 145-149, Feb. 1991.
  44. Tai-Haur Kuo, Hung C. Lin, Robert C. Potter, and Dave Schupe, “Analysis of the Hysteresis in the I-V Characteristic of Vertically Integrated, Multipeaked Resonant-Tunneling Diodes,” J. Appl. Phys., vol. 68, no. 5, pp. 2496-2498, Sept. 1990.
會議論文( Conference )
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  1. Jia-Ching Wang and Tai-Haur Kuo, “A 3-mW 2.7-GS/s 8b Subranging ADC with Multiple-Reference-Embedded Comparators,” in IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2023, pp. 276-278.
  2. Jia-Ching Wang , Bing-Yang Li, and Tai-Haur Kuo, “A 9.8-fJ/conv.-step FoMW 8b 2.5-GS/s Single-Channel CDAC-Assisted Subranging ADC with Reference-Embedded Comparators,” in IEEE Symposium on VLSI Circuits (VLSIC), June. 2022, pp.92-93.
  3. Jia-Ching Wang and Tai-Haur Kuo, “A 0.82-mW 14-bit 130-MS/s Pipelined-SAR ADC with a Distributed Averaging Correlated Level Shifting (DACLS) Ringamp and Bypass-Window Backend,” in IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2022, pp. 162-163.
  4. Wei-Hao Sun, Shih-Hsiung Chien, and Tai-Haur Kuo, “A 121dB-DR, 0.0017%-THD+N, 8x Jitter Effect Reduction Digital-Input Class-D Audio Amplifier with Supply-Voltage-Scaling Volume Control and Series-Connected DSM,” in IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2022, pp. 486-487.
  5. Tai-Haur Kuo, Kuan-Yu Chen, Hsiao-Ping Lin, and Shang-Jung Liu, “Self-Powered Light Sensor for Simultaneous intensity-and-Direction Sensing and maximum-Energy Harvesting with Shared Photodiodes,” in IEEE Asian Solid-State Circuits Conference (A-SSCC), Nov. 2021.
  6. Yi-Wei Huang, Ting-Yu Yu, and Tai-Haur Kuo, “Transient Output-Current Regulator with Background Calibration Applied to a Buck Converter for Fast Load-Transient Response,”in IEEE Asian Solid-State Circuits Conference (A-SSCC), Nov. 2020, pp. 462-465.
  7. Hung-Yi Huang , Xin-Yu Cheng, and Tai-Haur Kuo, “A 177mW 10GS/s NRZ DAC with Switching-Glitch Compensation Achieving > 64dBc SFDR and < -77dBc IM3,” in IEEE Symposium on VLSI Circuits (VLSIC), June 2020, pp 1-2.
  8. Tsung-Chih Hung, Jia-Ching Wang, and Tai-Haur Kuo, “A Calibration-Free 71.7dB SNDR 100MS/s 0.7mW Weighted-Averaging Correlated Level Shifting Pipelined SAR ADC with Speed-Enhancement Scheme,” in IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2020, pp. 256-257.
  9. Shih-Hsiung Chien, Tai-Haur Kuo, Hung-Yi Huang, Hong-Bing Wang, and Yi-Zhi Qiu, “A 0.41mA Quiescent Current, 0.00091% THD+N Class-D Audio Amplifier with Frequency Equalization for PWM-Residual-Aliasing Reduction,” in IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2020, pp. 352-353.
  10. Peng-Chang Huang and Tai-Haur Kuo, “A 100-pA Adaptive-FOCV MPPT Circuit with >99.6% Tracking Efficiency for Indoor Light Energy Harvesting,” in IEEE Asian Solid-State Circuits Conference (A-SSCC), Nov. 2019, pp. 185-188.
  11. Hung-Yi Huang and Tai-Haur Kuo, “A 0.07mm2 210mW Single-1.1V-Supply 14-bit 10GS/s DAC with Concentric Parallelogram Routing and Output Impedance Compensation,” in IEEE Symposium on VLSI Circuits (VLSIC), June 2019, pp. 136-137.
  12. Chung-Ming Yang and Tai-Haur Kuo, “A 3mW 6b 4GS/s Subranging ADC with Adaptive Offset-Adjustable Comparators,” in IEEE Custom Integrated Circuits Conference (CICC), Apr. 2019, pp. 1-4.
  13. Tsung-Chih Hung and Tai-Haur Kuo, “A 40/30 MS/s Dual-Mode Pipelined ADC with Error Averaging Techniques in 90nm CMOS Achieving 71.2/74.5 dB SNDR over the Entire Nyquist Bandwidth,” in IEEE Custom Integrated Circuits Conference (CICC), Apr. 2019, pp. 1-4.
  14. Tai-Haur Kuo, Yi-Wei Huang, and Pai-Yi Wang, “Background Capacitor-Current-Sensor Calibration of DC-DC Buck Converter with DVS for Accurately Accelerating Load-Transient Response,” in IEEE International Solid-State Circuits Conference (ISSCC), Feb. 2019, pp. 430-431.
  15. Shih-Hsiung Chien, Yi-Wen Chen, and Tai-Haur Kuo, “A 0.96mA Quiescent Current, 0.0032% THD+N, 1.45W Class-D Audio Amplifier with Area-Efficient PWM-Residual-Aliasing Reduction,” in IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2018, pp. 60-61.
  16. Szu-Yu Huang, Kuan-Yu Fang, Yi-Wei Huang, Shih-Hsiung Chien, and Tai-Haur Kuo, “Capacitor-Current-Sensor Calibration Technique and Application in a 4-Phase Buck Converter with Load-Transient Optimization,” in IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2016, pp. 228-229.
  17. Tsung-Chih Hung and Tai-Haur Kuo, “A 4.86 mW 15-Bit 22.5 Ms/S Pipelined ADC with 74 dB SNDR in 90 nm CMOS Using Averaging Correlated Level Shifting Technique,” in IEEE Asian Solid-State Circuits Conference (A-SSCC), Nov. 2016, pp. 161-164.
  18. Hsuan-Ju Chen, Yi-Hsiang Wang, Peng-Chang Huang, and Tai-Haur Kuo, “An Energy-Recycling Three-Switch Single-Inductor Dual-Input Buck/Boost DC-DC Converter with 93% Peak Conversion Efficiency and 0.5mm2 Active Area for Light Energy Harvesting,” in IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2015, pp. 374-375.
  19. Pai-Yi Wang, Szu-Yu Huang, Kuan-Yu Fang, and Tai-Haur Kuo, “An Undershoot/Overshoot-Suppressed Current-Mode Buck Converter with Voltage-Setting Control for Type-II Compensator,” in IEEE Asian Solid-State Circuits Conference (A-SSCC), Nov. 2015, pp. 1-4.
  20. Shih-Hsiung Chien, Ting-Hsuan Hung, Szu-Yu Huang, and Tai-Haur Kuo, “A Monolithic Capacitor-Current-Controlled Hysteretic Buck Converter with Transient-Optimized Feedback Circuit,” in IEEE Asian Solid-State Circuits Conference (A-SSCC), Nov. 2014, pp. 57-60.
  21. Pai-Yi Wang, Li-Te Wu, and Tai-Haur Kuo, “A Current-Mode Buck Converter with Bandwidth Reconfigurable for Enhanced Efficiency and Improved Load Transient,” in IEEE Asian Solid-State Circuits Conference (A-SSCC), Nov. 2014, pp. 69-72.
  22. Peng-Chang Huang, Wen-Chuen Liu, Yi-Chen Liu, Yeong-Chau Kuo, and Tai-Haur Kuo, “An Analog Optimum Torque Control IC for a 200W Wind Energy Conversion System with Over 99% MPPT Accuracy, 1.7% THDi and 0.99 Power Factor,” in IEEE Custom Integrated Circuits Conference (CICC), Sept. 2014, pp. 1-4.
  23. Shih-Hsiung Chien, Li-Te Wu, Ssu-Ying Chen, Ren-Dau Jan, Min-Yung Shih, Ching-Tzung Lin, and Tai-Haur Kuo, “An Open-Loop Class-D Audio Amplifier with Increased Low-Distortion Output Power and PVT-Insensitive EMI Reduction,” in IEEE Custom Integrated Circuits Conference (CICC), Sept. 2014, pp. 1-4.
  24. Yi-Wei Huang, Yun-Yao Hung, Tai-Haur Kuo, and Chao-Wen Chiang, “A Load-Transient-Enhanced Wireless Power Transfer System via Transmitter-Side Regulator,” in IEEE International Conference on Electron Devices and Solid State Circuits (EDSSC), June 2014, pp. 1-2.
  25. Yi-Hsiang Wang, Wen-Chuen Liu, and Tai-Haur Kuo, “A 200W MPPT Boost Converter for BIPV Applications with Integrated Controller,” in IEEE International Symposium on Computer, Consumer and Control (IS3C), June 2014, pp. 288-291.
  26. Wen-Chuen Liu, Yi-Hsiang Wang, and Tai-Haur Kuo, “An Adaptive Load-Line Tuning IC for Photovoltaic Module Integrated Mobile Device with 470μs Transient Time, Over 99% Steady-State Accuracy and 94% Power Conversion Efficiency,” in IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2013, pp. 70-71.
  27. Wei-Te Lin and Tai-Haur Kuo, “A 12b 1.6GS/s 40mW DAC in 40nm CMOS with >70dB SFDR over Entire Nyquist Bandwidth,” in IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2013, pp. 474-475.
  28. Wei-Te Lin and Tai-Haur Kuo, “A Low-Spurious Low-Power 12-Bit 300MS/s DAC with 0.1mm2 in 0.18μm CMOS Process,” in IEEE International Conference on Electron Devices and Solid-State Circuits (EDSSC), June 2013, pp. 1-2.
  29. Wei-Chih Chen, Ming-Yang Cheng, Tai-Haur Kuo, and Cheng-Lin Li, “Development of Intellectual Property for Brushless DC Motor Drives,” in IEEE Symposium on Industrial Electronics and Applications (ISIEA), Sept. 2011, pp. 499-504.
  30. Jia-Ming Liu, Yi-Cheng Huang, Yu-Chun Ying, and Tai-Haur Kuo, “Slew-Rate Controlled Output Stages for Switching DC-DC Converters,” in IEEE International Conference on IC Design & Technology (ICICDT), May 2011, pp. 1-4.
  31. Chun-Hsien Kuo, Tso-Hung Fan, and Tai-Haur Kuo, “A 12-bit Cyclic ADC with Random Feedback Capacitor Interchanging Technique,” in IEEE International SoC Design Conference (ISOCC), Nov. 2009, pp. 508-511.
  32. Jia-Ming Liu, Chun-Jen Yu, Yeong-Chau Kuo, and Tai-Haur Kuo, “Optimizing the Efficiency of DC-DC Converters with an Analog Variable-Frequency Controller,” in IEEE Asia Pacific Conference on Circuits and Systems (APCCAS), Dec. 2008, pp. 910-913.
  33. Da-Huei Lee and Tai-Haur Kuo, “Random Incrementing Data Weighted Averaging for Nyquist-Rate Digital-to-Analog Converters,” in IEEE International Symposium on Integrated Circuits (ISIC), Sept. 2007, pp. 592-595.
  34. Chun-Hsien Kuo and Tai-Haur Kuo, “A Cyclic A/D Conversion Technique with Improved SFDR,” in IEEE International Symposium on Integrated Circuits (ISIC), Sept. 2007, pp. 434-437.
  35. Cheng-Chung Yang, Chen-Yu Wang, and Tai-Haur Kuo, “Current-Mode Converters with Adjustable-Slope Compensating Ramp,” in IEEE Asia Pacific Conference on Circuits and Systems (APCCAS), Dec. 2006, pp. 655-658.
  36. Hwi-Ming Wang and Tai-Haur Kuo, “The Design Methodology for Single-Stage High-Order Bandpass Sigma-Delta Modulators,” in IEEE International Conference on Systems and Signals (ICSS), Apr. 2005, pp. 1425-1428.
  37. Yu-Hong Lin, Da-Huei Lee, Cheng-Chung Yang, and Tai-Haur Kuo, “High-Speed DACs with Random Multiple Data-Weighted Averaging Algorithm,” in IEEE International Symposium on Circuits and Systems (ISCAS), May 2003, pp. I-993 - I-996.
  38. Hwi-Ming Wang and Tai-Haur Kuo, “A Single-Stage, Area-Efficient Structure for Bandpass Sigma-Delta Modulators,” IEEJ International Analog VLSI Workshop, Sept. 2002, pp. 56-59.
  39. Cheng-Chung Yang, Kuan-Dar Chen, Wen-Chyi Wang, and Tai-Haur Kuo, “Transfer Function Design of Stable High-Order Sigma-Delta Modulators with Root Locus Inside Unit Circle,” in IEEE Asia-Pacific Conference on ASIC, Aug. 2002, pp. 5-8.
  40. Da-Huei Lee, Ching-Chung Li, and Tai-Haur Kuo, “High-Speed Low-Complexity Implementation for Data Weighted Averaging Algorithm,” in IEEE Asia-Pacific Conference on ASIC, Aug. 2002, pp. 283-286.
  41. Shuenn-Yuh Lee, Jiann-Jong Wang, Yang-Tee Teo, Tai-Haur Kuo, and Jaw-Juinn Horng, “Small Coefficient Spread Structure for High-Q Bandpass Sigma-Delta Modulator Design," in IEEJ International Analog VLSI Workshop, May 1999, pp. 33-36.
  42. Kuan-Dar Chen, Tai-Haur Kuo, and Shuenn-Yuh Lee, “A Novel Offset Current Cancellation Technique for Switched-Current Circuits and Systems,” in IEEE International Symposium on Circuits and Systems (ISCAS), May 1996, pp. 417-420.
  43. Jhy-Rong Chen and Tai-Haur Kuo, “An Efficient Design Method for the Modulator of High-Order Sigma-Delta ADCs,” in IEEE International Symposium on Circuits and Systems (ISCAS), May 1996, pp. 9-12.
  44. Kang-Wei Hsuen, Tai-Haur Kuo, and Li-Lun Chang, “Design of a CMOS Continuous-Time Video Filter with On-Chip Automatic Tunning,” in HD-MEDIA Technology and Applications Workshop, Nov. 1995.
  45. Chun-Hsien Su, Tai-Haur Kuo, Jhy-Rong Chen, Wen-Fu Yang, and Gilbert C. Chang, “A High Performance Sigma-Delta Modulator Based on Ladder-Type Structures for Advanced Digital Audio,” in HD-MEDIA Technology and Applications Workshop, Nov. 1995.
  46. Shen-Chuen Liang, Tai-Haur Kuo, and Li-Lun Chang, “A 10-bit 60 MHz Pipelined CMOS Analog to Digital Converter,” in the 6th VLSI Design/CAD Symposium, Aug. 1995, pp. 47-50.
  47. Chun-Hsien Su, Tai-Haur Kuo, Wen-Bin Lin, and Vincent Chen, “A Peak-Detection Sampling Approach for Data Compression,” in the 6th VLSI Design/CAD Symposium, Aug. 1995, pp. 245-248.
  48. Wen-Bin Lin, Tai-Haur Kuo, Chun-Hsien Su, and Jhy-Rong Chen, “Design and Analysis of High Order Leapfrog Topologies for Sigma-Delta A/D Converter,” in IEEE Asia Pacific Conference on Circuits and Systems (APCCAS), Dec. 1994, pp. 10B.2.1-10B.2.6.
  49. Shuenn-Yuh Lee, Tai-Haur Kuo, and Kuan-Dar Chen, “IC Design of High Performance Switched-Current Filters,” in the 5th VLSI Design/CAD Symposium, Aug. 1994, pp. 18-23.
  50. Shuenn-Yuh Lee, Tai-Haur Kuo, and Kuan-Dar Chen, “A High Performance Switched-Current Filter with Low Output Current Offset,” in HD-MEDIA Technology and Applications Workshop, 1994.
  51. Chun-Hsien Su, Jhy Rong Chen, Tai-Haur Kuo, and Wen-Bin Lin, “The Fourth Order Sigma-Delta Modulator Based on Leapfrog Topologies,” in the 5th VLSI Design/CAD Symposium, Aug. 1994, pp. 24-29.
  52. Chung J. Kuo, Shy H. Wu, and Tai-Haur Kuo, “Improved Topology for the Sigma-Delta Modulators,” in HD-MEDIA Technology and Applications Workshop, Oct. 1993, pp. S11-18.
  53. Chi M. Chen, Chung J. Kuo, and Tai-Haur Kuo, “A VLSI Architecture and Implementation for the 8*8 IDCT,” in National Computer Symposium, Dec. 1993, pp. 510-515.
  54. (Invited) Robert C. Potter, Dave Shupe, Tai-Haur Kuo, and Hung C. Lin, “Signal Processing with Vertically-Integrated Resonant Tunneling Diodes,” in IEEE International Symposium on Circuits and Systems (ISCAS), May. 1990, pp. 2557-2561.
  55. Tai-Haur Kuo, Hung C. Lin, Robert C. Potter, and Dave Shupe, “Large Signal Resonant-Tunneling Diodes Model for SPICE3 Simulation,” in IEEE International Electron Devices Meeting (IEDM) Tech. Digest, Dec. 1989, pp. 567-570.
  56. Tai-Haur Kuo, Hung C. Lin, Robert C. Potter, and Dave Shupe, “A/D Converter Using InGaAs/InAlAs Resonant-Tunneling Diodes,” in IEEE Cornell Conference, Aug. 1989, pp. 265-273.
  57. Tai-Haur Kuo and H. C. Lin, “Mismatch and Asymmetric Characteristics of Concerentic MOSFETs,” in Colorado Microelectronics Conference, Apr. 1989, pp. 83-86.
專利
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  1. Tai-Haur Kuo, “Switching Amplifier with Adaptive Supply-Voltage Scaling,” US Patent No. 11764742, Sep. 2023.
  2. Tai-Haur Kuo, “Series-Connected Delta-Sigma Modulators,” US Patent No. 11616512, Mar. 2023.
  3. Chung-Ming Yang and Tai-Haur Kuo, “Analog to Digital Converter with Offset-Adjustable Comparators,” US Patent No. 10826513, Nov. 2020.
  4. Peng-Chang Huang, Hsuan-Ju Chen, I-Hsiang Wang, Yi-Wei Huang, and Tai-Haur Kuo, “Energy Harvesting System with Indirect Power Transmission and Power Distribution Method,” US Patent No. 10224738, Mar. 2019.
  5. Kuan-Yu Fang, Szu-Yu Huang, and Tai-Haur Kuo, “Method and Apparatus of Calibrating Impedance-Matching Current Sensor,” US Patent No. 10120056, Nov. 2018.
  6. Tai-Haur Kuo, Shih-Hsiung Chien, and Jyun-Jia Huang, "Distortion Compensation Method for Class-D Audio Amplifier," US Patent No. 9887672, Feb. 2018.
  7. Tai-Haur Kuo, Hung-Yi Huang, and Wei-Cheng Hung, "Digital-to-Analog Converter with Output Impedance Compensation," US Patent No. 9621181, Apr. 2017.
  8. Ting-Hsuan Hung, Szu-Yu Huang, Tai-Haur Kuo, and Kow-Liang Weng, "Buck Converter with a Variable-Gain Feedback-Circuit for Transient Responses Optimization," US Patent No. 9602001, Mar. 2017.
  9. Wei-Te Lin and Tai-Haur Kuo, “Digital to Analog Converting Method and Converter Insensitive to Code-Dependent Distortions,” US Patent No. 8872687, Oct. 2014.
  10. Yeong-Chau Kuo, Wen-Chuan Liu, Tai-Haur Kuo, “Analog Controller for Inverter,” US Patent No. 8842456, Sept. 2014.
  11. Wei-Te Lin and Tai-Haur Kuo, “Digital-to-Analog Converter and Performing Method Thereof,” US Patent No. 8711021, Apr. 2014.
  12. Jia-Ming Liu, Yeong-Chau Kuo, and Tai-Haur Kuo, “Analog Variable-Frequency Controller and Switching Converter Therewith,” US Patent No. 7923975, Apr. 2011.
  13. Da-Huei Lee and Tai-Haur Kuo, “Randomized Thermometer-Coding Digital-to-Analog Converter and Method Therefor,” US Patent No. 7679539, Mar. 2010.
  14. Da-Huei Lee and Tai-Haur Kuo, “Return-to-Zero Current-Steering DAC with Clock-to-Output Isolation,” US Patent No. 7576675, Aug. 2009.
  15. Cheng-Chung Yang, Da-Huei Lee, and Tai-Haur Kuo, “Power Output Device with Protection Function for Short Circuit and Overload,” US Patent No. 7295414, Nov. 2007.
  16. Chun-Hsien Kuo and Tai-Haur Kuo, “Capacitor with a Geometrical Layout,” US Patent No. 6974994, Dec. 2005.
  17. Tai-Haur Kuo, Kuo-Hsin Chen, Jyh-Fong Lin, and Hsin-Chieh Lin, “Data Converter with Background Auto-Zeroing via Active Interpolation,” US Patent No. 6856265, Feb. 2005.
  18. Tai-Haur Kuo, Kuo-Hsin Chen, Jyh-Fong Lin, Hsin-Chieh Lin, “Data Converter with Background Auto-Zeroing via Active Interpolation,” US Patent No. 6642866, Nov. 2003.
  19. Kuan-Dar Chen and Tai-Haur Kuo, “Multibit Sigma-Delta Converters Employing Dynamic Element Matching with Reduced Baseband Tones,” US Patent No. 6304608, Nov. 2001.
  20. Tai-Haur Kuo and Jhy-Woei Yeh, “Instability Recovery Method for Sigma-Delta Modulators,” US Patent No. 5757301, May 1998.
  21. Tai-Haur Kuo, Wen-Chyi Wang, Kuan-Dar Chen, Jhy-Rong Chen, and Jhy-Woei Yeh, “Stabilizing Mechanism for Sigma-Delta Modulator,” US Patent No. 5742246, Apr. 1998.
  22. Tai-Haur Kuo, Wen-Bin Lin, Chun-Hsien Su, and Jhy-Rong Chen, “4th-Order Sigma-Delta Modulator with Leapfrog Topology,” US Patent No. 5623263, Apr. 1997.
  23. Tai-Haur Kuo and Hung C. Lin, “Analog-to-Digital Converter Utilizing Devices with Current Versus Voltage Characteristics with a Plurality of Peaks and Negative Resistance Regions Between Peaks,” US Patent No. 5113188, May 1992.
  24. Hung C. Lin and Tai-Haur Kuo, “Multistate Device for Electronic Counting,” US Patent No. 5033069, July 1991.
  25. Tai-Haur Kuo, “Matching Current Source,” US Patent No. 4706013, Nov. 1987.
  26. Tai-Haur Kuo, “Matching Current Source,” Japan Patent No. 1994-54455, July 1994.
  27. Tai-Haur Kuo, “Matching Current Source,” European Patent No. 0268345, June 1992.
  28. 王家慶, 郭泰豪, “可減少增益誤差之位準變換放大器,” 中華民國專利第I822550號, Nov. 2023.
  29. 陳蔚銘, 黃奕瑋, 郭泰豪, “電池的充電系統及方法,” 中華民國專利第I491141號, July 2015.
  30. 林韋德, 郭泰豪, “數位至類比轉換器及其操作方法,” 中華民國專利第I481202號, Apr. 2015.
  31. 郭永超, 劉文權, 郭泰豪, “換流器之類比控制器,” 中華民國專利第I444807號, July 2014.
  32. 郭俊賢, 郭泰豪, 黃弘毅, “運算放大器,” 中華民國專利第I397258號, May 2013.
  33. 劉家銘, 郭永超, 郭泰豪, “類比式可變頻率控制器以及其直流-直流切換式轉換器,” 中華民國專利第I396373號, May 2013.
  34. 郭永超, 李貞慶, 郭泰豪, 黃鵬彰, “最大功率追蹤裝置,” 中華民國專利第I381263號, Jan. 2013.
  35. 郭泰豪, 劉家銘, 楊健忠, 王奕翔, “可重新組態之積分三角調變模組,” 中華民國專利第I382671號, Jan. 2013.
  36. 翁孟澤, 郭泰豪, “自動頻率校正的寬頻連續速率時脈與資料回復電路,” 中華民國專利第I330943號, Sept. 2010.
  37. 楊健忠, 李大輝, 郭泰豪, “具有過載保護之功率輸出裝置,” 中華民國專利第I296456號, May 2008.
  38. 郭泰豪, 陳國欣, 林志峰, 林欣杰, “背景校正之主動內插式資料轉換電路,” 中華民國專利I256772號, June 2006.
  39. 汪輝明, 郭泰豪, “具低係數延展之帶通積分三角調變裝置,” 中華民國專利第I224889號, June 2005.
  40. 郭俊賢, 郭泰豪, “以十字形圖案佈局之電容架構,” 中華民國專利第I234281號, June 2005.
  41. 郭泰豪, 陳國欣, 林志峰, 林欣杰, “背景校正之主動內差式資料轉換電路,” 中華民國專利第191093號, Dec. 2003.
  42. 郭泰豪, 李大輝, “應用動態元件匹配技術來降低基頻帶諧波問題之多位元積分三角調變器,” 中華民國專利第152450號, Mar. 2002.
  43. 郭泰豪, 陳冠達, “採動態元件匹配且具較低基頻諧波之積分三角(sigma-delta)轉換器,” 中華民國專利第128568號, Mar. 2001.
  44. 郭泰豪, 葉智偉, “具有不穩定回復功能的積分三角(sigma-delta)調變器,” 中華民國專利第092398號, Jan. 1998.
  45. 郭泰豪, 王文祺, 陳冠達, 陳志榮, “適用於高階 Sigma-delta調變器的穩定機制,” 中華民國專利第079759號, July 1996.
  46. 郭泰豪, 李順裕, 陳冠達, 張立侖, “一種消除交換電流系統中漂移電流之電路,” 中華民國專利第082637號, Nov. 1996.
  47. 郭泰豪, 林文彬, 陳志榮, 蘇純賢, 王文祺, “超取樣四階跳蛙(leapfrog)調變器,” 中華民國專利第076728號, Jan. 1996.
  48. 郭泰豪, “相等流出流入電流源電路,” 中華民國專利第034718號, Feb. 1987.
其他
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  1. 歷年技術轉移總金額: 新台幣2600萬元
  2. 技術轉移技術名稱: 新世代通訊系統之高性能類比數位轉換器研發(1/3), 授權單位: 國立成功大學, 接受單位: 創惟科技股份有限公司, 合約期間: 2024/6~2025/5
  3. 技術轉移技術名稱: A 3-mW 2.7-GS/s 8b Subranging ADC with Multiple-Reference-Embedded Comparators 設計技術, 授權單位: 國立成功大學, 接受單位: 新曄電子信息有限公司, 合約期間: 2022/12~2032/11
  4. 技術轉移技術名稱: Class-D音頻放大器設計技術, 授權單位: 國立成功大學, 接受單位: 凌陽科技, 合約期間: 2022/01~2042/12
  5. 技術轉移技術名稱: Audio ADC and DAC設計技術, 授權單位: 國立成功大學, 接受單位: 笙泉科技, 合約期間: 2018/02~2028/01
  6. 技術轉移技術名稱: 數位類比轉換器積體電路設計技術, 授權單位: 國立成功大學, 接受單位: 工研院, 合約期間: 2017/04~2019/04
  7. 技術轉移技術名稱: 無線能量傳輸電路設計技術報告, 授權單位: 國立成功大學, 接受單位: 笙泉科技, 合約期間: 2016/08~2021/08
  8. 技術轉移技術名稱: 物聯網訊號處理與電源管理積體電路設計技術, 授權單位: 國立成功大學, 接受單位: 笙泉科技, 合約期間: 2015/02~2033/09
  9. 技術轉移技術名稱: 數位類比轉換器積體電路設計技術, 授權單位: 國立成功大學, 接受單位: 瑞昱半導體, 合約期間: 2014/12~2033/09
  10. 技術轉移技術名稱: Audio DAC and ADC Analog Modulator, 授權單位: 國立成功大學, 接受單位: 立錡科技, 合約期間: 2009/01~2019/03
  11. 技術轉移技術名稱: 1.1MHz帶寬之高階超取樣調變器電路實現技術, 授權單位: 國立成功大學, 接受單位: 瑞昱半導體, 合約期間: 2000/07起
  12. 技術轉移技術名稱: 一種消除交換電流系統中飄移電流之電路, 專利名稱: 一種消除交換電流系統中飄移電流之電路, 授權單位: 國科會, 接受單位: 合泰半導體, 合約期間: 1996/09~2001/08
  13. 技術轉移技術名稱: 超取樣類比/數位轉換器之穩定機制, 專利名稱: 超取樣類比/數位轉換器之穩定機制, 授權單位: 國科會, 接受單位: 台積電, 矽統科技, 揚智科技, 合約期間:1996/03~2001/02
研究計劃
  1. 新世代通訊系統之高性能類比數位轉換器研發(1/3)(113-2622-E-006-008), 113/06-114/05,國科會,經費:2,400,000
  2. 高速低功耗高效能類比數位轉換器(111-2221-E-006-178-MY3), 111/08-114/07, 科技部, 經費:4,257,000
  3. 具高傳真低電磁干擾類比與數位輸入D類音頻放大器(111-2221-E-006-184-MY3), 111/08-114/07, 科技部, 經費:3,566,000
  4. 新世代行動通訊之高性能數位類比轉換器前瞻技術研發(3/3)(111-2622-E-006-001-CC1), 111/06-112/05, 科技部, 經費:1,350,000
  5. 新世代行動通訊之高性能數位類比轉換器前瞻技術研發(2/3)(110-2622-E-006-019-CC1), 110/06-111/05, 科技部, 經費:1,907,000
  6. 新世代行動通訊之高性能數位類比轉換器前瞻技術研發(1/3)(109-2622-E-006 -016 -CC1), 109/06-110/05, 科技部, 經費:1,950,000
  7. 低功耗高效能類比數位轉換器(108-2221-E-006-144-MY3), 108/08-111/07, 科技部, 經費:3,485,000
  8. 快速響應直流至直流轉換器(108-2221-E-006-146-MY3), 108/08-111/07, 科技部, 經費:3,500,000
  9. 下世代光能及無線電能獵取前瞻技術研發(3/3)(108-2622-E-006-001-CC1), 108/06-109/05, 科技部, 經費:1,962,293
  10. 低靜態電流低失真D類音頻放大器(107-2221-E-006-193-MY3), 107/08-110/07, 科技部, 經費:3,296,000
  11. 下世代光能及無線電能獵取前瞻技術研發(2/3)(107-2622-E-006-003-CC1), 107/06-108/05, 科技部, 經費:1,962,520
  12. 下世代光能及無線電能獵取前瞻技術研發(1/3)(106-2622-E-006-025-CC1), 106/06-107/05, 科技部, 經費:1,962,916
  13. 應用於可攜式裝置之暫態響應最佳化電源管理IC研發(105-2221-E-006-222-MY3), 105/08-108/07, 科技部, 經費:3,565,000
  14. 下世代寬頻通訊之數位類比轉換器前瞻技術研發(3/3)(105-2622-E-006-008-CC1), 主持人, 105/06~106/05 , 科技部, 經費:2,563,513
  15. 具快速響應傳送端功率控制器之車內可攜式裝置無線充電系統, 主持人, 105/01~105/12, 成功大學, 車輛中心, 經費:1,000,000
  16. 物聯網無線通訊應用之前瞻類比數位轉換器研發(104-2221-E-006-165-MY3), 主持人, 104/08~107/07, 科技部, 經費:3,313,000
  17. 下世代寬頻通訊之數位類比轉換器前瞻技術研發(2/3)(104-2622-E-006-013-CC1), 主持人, 104/06~105/05 , 科技部, 經費:2,920,755
  18. 具綠能獵能器之能源自主無線傳訊系統-總計畫暨子計畫三:高效能光能獵能器(3/3) (104-2220-E-006-001), 主持人, 104/05~105/04 , 科技部, 經費:3,662,000
  19. 具快速負載暫態響應之車內可攜式裝置無線充電系統, 主持人, 104/01~104/12 , 成功大學, 車輛中心, 經費:1,000,000
  20. 無線感測器之低成本高效能單晶片光能獵能器, 主持人, 104/01~104/12 , 成功大學, 台達電子, 經費:1,000,000
  21. 應用於可攜式裝置之低相位雜訊低功耗微機電振盪器, 主持人, 103/08~104/07 , 臺綜大, 工研院, 經費:500,000
  22. 內建混合信號處理器之超薄型側進音微機電麥克風, 學研機構主持人, 103/07~104/06, 科技部竹科管理局, 經費:1,445,500
  23. 下世代寬頻通訊之數位類比轉換器前瞻技術研發(1/3) (103-2622-E-006-036-CC1), 主持人, 103/06~104/05 , 科技部, 經費:2,920,889
  24. 適用於下世代中央處理器之電源管理模組關鍵技術研發, 學研機構主持人, 103/05~104/04 , 竹科管理局, 經費:1,400,000
  25. 具綠能獵能器之能源自主無線傳訊系統-總計畫暨子計畫三:高效能光能獵能器(2/3)(103-2220-E-006-002), 主持人, 103/05~104/04 , 科技部, 經費:3,714,000
  26. 以具校正機制之電容電流偵測器實現快速暫態響應電源管理電路, 主持人, 103/01~103/12, 成功大學, 台達電子, 經費:800,000
  27. 車內可攜式裝置之無線充電系統, 主持人, 103/01~103/12, 成功大學, 車輛中心, 經費:1,000,000
  28. 整合電源管理技術之D類音訊放大器(102-2221-E-006-264-MY2), 主持人, 102/08~104/07, 國科會, 經費:2,382,000
  29. 整合感測器及電路之低功率高信噪比微機電麥克風, 學研機構主持人, 102/07~103/06, 科技部竹科管理局, 經費:1,700,000
  30. 具綠能獵能器之能源自主無線傳訊系統-總計畫暨子計畫三:高效能光能獵能器(1/3)(102-2220-E-006-017), 主持人, 102/05~103/04, 國科會, 經費:3,478,000
  31. 具高速切換頻率之電源管理晶片設計, 主持人, 102/01~102/12, 成功大學, 台達電子
  32. 具快速暫態響應之電源管理晶片設計, 主持人, 101/02~102/01, 成功大學, 台達電子
  33. 電源管理電路研發, 主持人, 100/05~103/01, 笙泉科技
  34. 高效能類比/數位及數位/類比轉換器(99-2221-E-006-218-MY3), 主持人, 99/08~102/07, 國科會
  35. CCD類比前端之類比-數位轉換器設計, 主持人, 99/06~100/05, 立錡科技
  36. 可攜式機電裝置之節能關鍵技術研發(100-2218-E-006-001, 99-2218-E-006-003, 98-2218-E-006-242), 主持人, 98/10~101/09, 國科會
  37. 高解析低成本類比/數位轉換晶片設計, 主持人, 98/04~99/03, 成功大學, 台達電子
  38. 具最大功率追蹤與控制之併聯型混合太陽能與風力發電電源轉換器 晶片設計與系統研製 (99-2220-E-006-006, 98-2220-E-006-014, 97-2220-E-006-014), 共同主持人, 97/11~100/10, 國科會
  39. 類比變頻控制器研發與應用, 主持人, 97/08~99/07, 笙泉科技
  40. 積分三角調變器係數設計及驗證, 主持人, 97/03~99/07, 揚智科技
  41. 脈波寬度調變相關應用之積體電路研發, 主持人, 97/02~99/01, 世紀創新
  42. 積體電路設計及驗證, 主持人, 96/01~97/12, 笙泉科技
  43. 高解析高傳真D類音訊放大器之積體電路設計(96-2628-E-006-253-MY3), 主持人, 96/08~99/07, 國科會
  44. 高解析低成本高速類比/數位及數位/類比轉換器設計(95-2221-E-006-447-MY3), 主持人, 95/08~98/07, 國科會
  45. Analog IC 設計技術, 共同主持人, 94/10~96/03, 集新科技
  46. 研究發展Analog IP, 共同主持人, 93/12~95/01, 集新科技
  47. 晶片系統智財彙集驗證及介面整合實驗三年計畫, 共同主持人, 93/04~94/03, 經濟部
  48. 研究發展Mixed-Signal及RF技術, 主持人, 90/12~92/11, 集新科技
  49. 適用於通訊系統之高速資料轉換器(94-2215-E-006-062-), 主持人, 92/08~95/07, 國科會
  50. 使用Sigma-Delta調變技術之電壓供應模組IC設計(一)(92-2218-E-006-038- ), 主持人, 92/08~93/07, 國科會
  51. 5GHz 無線區域網路(WLAN)接收機之前端CMOS電路設計(91-2215-E-006-005- ), 主持人, 89/08~92/07, 國科會
  52. 適合SOC應用之寬頻Sigma-Delta轉換器, 主持人, 90/08~91/07, 國科會
  53. 單晶片語音系統之混合類比/數位界面低功率電路設計(NSC89-2215-E-006-014), 主持人, 87/08~90/07, 國科會
  54. 應用於數位音訊廣播的帶通類比/數位轉換器(NSC89-2215-E-006-010), 主持人, 86/08~89/07, 國科會
  55. COFDM 高頻晶片技術(T2-89043-f), 主持人, 88/07~89/06, 工研院
  56. 應用於WDAS的高速高解析度的類比/數位轉換器, 主持人, 87/07~88/06, 工研院
  57. 應用於ADSL系統的超取樣類比及數位調變器架構設計, 主持人, 87/07~88/06, 工研院
  58. 高效能轉換器設計, 主持人, 86/06~88/06, 台積電
  59. 高精密類比/數位及數位/類比轉換器, 主持人, 86/06~87/11, 矽統科技
  60. 應用於DAB的Sigma-Delta解調變器, 主持人, 86/07~87/06, 工研院
  61. 應用於數位無線通訊的帶通類比/數位轉換器製作(NSC86-2221-E-006-031), 主持人, 83/08~86/07, 國科會
  62. 應用於高級數位音響之超取樣數位/類比轉換器(一)(NSC86-2221-E-006-021), 主持人, 85/08~86/07, 國科會
  63. 應用於TDMA Radio系統的帶通Sigma-Delta類比/數位轉換器製作, 主持人, 85/07~86/06, 工研院
  64. 超大型積體電路與系統設計教育改進計劃, 共同主持人, 85/07~86/06, 教育部
  65. 應用於HDTV的高頻類比濾波器(NSC85-2221-E-006-044), 主持人, 80/08~85/07, 國科會
  66. 高速類比/數位轉換器設計, 主持人, 84/07~85/06, 工研院
  67. 應用於數位信號處理的交換電流類比前置電路(II)(NSC84-2215-E-006-028), 主持人, 83/08~84/07, 國科會
  68. 應用於信號處理的交換電流濾波器設計, 主持人, 83/07~84/06, 工研院
  69. 應用超取樣技術設計高精密數位電表, 主持人, 83/03~84/06, 旺宏電子
開授課程
112學年度上學期
指導學生
本學年度 實驗室成員
碩士班
陳嘉勳
吳忠諭
劉尚榮
范宸銘
郭諺興
陳映余
許智皓
呂佳樺
鄭聿程
宋志斌
吳彥霆
陳易欣
劉奕均
張博偉
林子清
謝霆威
蕭帆毅
吳智群
專題生
孫仕宸
謝欣栢
黃明誼
崔哲瑜
李易翰
游至楷
王沛鈞
趙偉博
已畢業學生
博士班
88
李順裕
89
陳冠達
94
汪輝明
96
楊健忠   李大輝
98
郭俊賢
100
劉家銘
101
林韋德
106
王奕翔
107
簡士雄   洪宗志
108
王派益   黃鵬彰
109
楊忠明   黃奕瑋   黃弘毅
110
王家慶
博士班候選人
87
張培華
91
朱立平
95
李敬中
101
郭志寬
碩士班
83
林文彬
84
陳志榮   梁聖泉   蘇純賢   薛康偉
85
王文祺   張立侖
86
詹景堯   葉智偉   葉又熒
87
施克彥   朱永正   顏陳松
88
陳正原   張盛邦   王建中
89
陳志龍   黃崇銘   林正忠   張永智
90
陳國欣   張凌瑞
91
黃永霖   許浚偉   林育弘
92
黃子龍   黃瑞祥   李易霖   趙建勝   王惠民   林郅勳
93
范文騰   林慶鈞   徐元平   劉昀儒   黃威霖
94
王振宇   何俊斌   黃獻霆   呂建平   陳奕光
95
翁孟澤   孫紹茗   孫廷瑋
96
范佐弘   鍾凱翔   張耿毓   張峻旗   陳世浤
97
林佳慶   廖俊杰   劉育辰   宋治國   黃逸誠   尤俊仁
98
李貞慶   王派益   歐育綸   邱銘吉   趙一安   許富盛
99
楊忠明   謝尚甫   許育嘉
100
應佑君
101
劉文權   洪偉程   陳蔚銘
102
洪挺軒   劉怡辰   翁聖洋   張君豪
103
黃俊嘉   陳玄儒   洪韻堯   黃斯郁   柯亭宇
104
廖凡緯   黃思衡   方冠寓   陳翊文
105
賴柏宇   鄭詠元   林宗賢   王政傑
106
王泓斌   張敏瑩   郭曜誠   尤亭又   李祐安
107
吳漢祥   劉忠瑋   林泓志
108
邱詣智   莊佳益   賴柏宇   陳信宇
109
孫偉皓   李秉洋   林小平   劉奕圻   陳盛韻
110
邱于展   楚聿程   邱敏瑞   蘇唐生
111
吳少瑋   王繶瑄   林極儒   陳冠宇   丁淯卿
112
王子軒   張芷綺   闕壯維
特殊榮譽
  1. 老師榮譽
  2. 國科會產學計畫成果特優獎, 2023.
  3. 國研院研發服務平台亮點成果獎, 2022.
  4. 晶豪科技獨立董事, 2022/06~至今.
  5. IEEE Takuo Sugano Award (ISSCC 2019 Outstanding Far-East Paper), 2020.
  6. 科技部傑出研究獎, 2018.
  7. 台灣半導體產學研發聯盟(TIARA)理事, 2016-2021.
  8. 盛群半導體獨立董事, 2016-2022.
  9. 南茂科技獨立董事, 2013-2021.
  10. IEEE Journal of Solid-State Circuits (JSSC) Guest Editor, 2017~2018.
  11. IEEE ISSCC International Technical Program Committee (ITPC) & Far-East Regional Committee Member, 2016~2018.
  12. 鈺太科技董事, 2016~2018.
  13. 李國鼎金質獎, 2017.
  14. 科技部先導型產學計畫成果優良獎, 2017.
  15. 科技部傑出技術移轉貢獻獎, 2016.
  16. IEEE Himax Award (Tainan Section, Region 10), 2016.
  17. 科技部前瞻研究計畫特優獎, 2016.
  18. 科技部先導型產學計畫成果優良獎, 2016.
  19. 科技部卓越研究計畫獎(具綠能獵能器之能源自主無線傳訊系統), 2015.
  20. 科技部卓越產學計畫獎(內建混合信號處理器之超薄型側進音微機電麥克風), 2015.
  21. IEEE Outstanding Technical Achievement Award (Tainan Section, Region 10), 2015.
  22. 成大教學優良教師, 2015.
  23. 中國電機工程學會傑出電機工程教授, 2014.
  24. 車王電子顧問, 2012-2013.
  25. 成大教學特優教師(電資學院唯一獲獎教師), 2012.
  26. 成大產學合作成果特優教師(全校共2位教師獲獎), 2012.
  27. 第十二屆旺宏金矽獎設計組評審團金獎、最佳創意獎、最佳指導教授獎, 2012.
  28. 科技部智慧電子國家型科技計畫(NPIE)評議委員、顧問, 2011~2015.
  29. 教育部綠能電子聯盟共同召集人, 2011~2012、諮詢委員, 2013~2015.
  30. 成大教學優良教師(電機系全系學生問卷普查,獲所有教師中最高分), 2010.
  31. 第十屆旺宏金矽獎設計組評審團銅獎二隊、指導教授獎, 2010.
  32. 第一屆國科會技術移轉績優楷模獎, 2002.
  33. 第二屆旺宏金矽獎設計組優等獎、最佳指導教授獎, 2002.
  34. 教育部VLSI電路及系統設計教育改進計劃教材優等獎, 1998.
  35. 國科會歷年來個人技術移轉排行第一名, 1997.
  36. 中國電機工程學會優秀青年電機工程師獎, 1997.
  37. Invited Paper in IEEE ISCAS, USA, 1990.
  38. 第一屆工研院年度個人傑出貢獻獎, 1986.
  39. 指導研究生榮譽
  40. 王子軒、林極儒、吳彥霆,國研院台灣半導體研究中心(TSRI)類比電路組特優設計獎, 2024.
  41. 王繶瑄、陳冠宇,國研院台灣半導體研究中心(TSRI)微機電組優等設計獎, 2024.
  42. 王家慶, IEEE Best Ph.D. Thesis Award (Tainan Section, Region 10), 2023.
  43. 王家慶,臺灣積體電路設計學會112年度博士論文獎(第一名), 2023.
  44. 楚聿程, 臺灣積體電路設計學會112年度碩士論文獎, 2023.
  45. 王家慶,國研院台灣半導體研究中心(TSRI)特別設計獎(ISSCC論文發表), 2023.
  46. 王家慶、李秉洋,國研院台灣半導體研究中心(TSRI)類比電路組特優設計獎, 2023.
  47. 楚聿程、邱敏瑞,國研院台灣半導體研究中心(TSRI)類比電路組優等設計獎, 2023.
  48. 王家慶, 111年度科林博士論文獎, 2022.
  49. 孫偉皓, 中國電機工程學會青年論文獎(第一名), 2022.
  50. 王家慶, Grand Review博士生傑出獎, 2022.
  51. 王家慶, 中技社111年度科技研究獎, 2022.
  52. 孫偉皓, IEEE Best Master Thesis Award (Tainan Section, Region 10), 2022.
  53. 黃弘毅, 臺灣積體電路設計學會111年度博士論文獎, 2022.
  54. 孫偉皓, 臺灣積體電路設計學會111年度碩士論文獎(第一名), 2022.
  55. 王家慶,國研院台灣半導體研究中心(TSRI)特別設計獎(ISSCC論文發表), 2022.
  56. 孫偉皓,國研院台灣半導體研究中心(TSRI)特別設計獎(ISSCC論文發表), 2022.
  57. 莊佳益,國研院台灣半導體研究中心(TSRI)類比電路組優等設計獎, 2022.
  58. 王家慶,台灣半導體協會博士研究生半導體獎, 2022.
  59. 黃弘毅, IEEE Best Ph.D. Thesis Award (Tainan Section, Region 10), 2021.
  60. 黃奕瑋, 臺灣積體電路設計學會110年度博士論文獎, 2021.
  61. 邱詣智, 臺灣積體電路設計學會110年度碩士論文獎, 2021.
  62. 黃弘毅、陳信宇,國研院台灣半導體研究中心(TSRI)類比電路組優等設計獎, 2021.
  63. 黃奕瑋,國研院台灣半導體研究中心(TSRI)類比電路組優等設計獎, 2021.
  64. 邱詣智,國研院台灣半導體研究中心(TSRI)類比電路組優等設計獎, 2021.
  65. 邱詣智, 109年度科林碩士論文獎, 2021.
  66. 楊忠明, IEEE International Symposium on Computer, Consumer and Control (IS3C) Best Paper Award, 2020.
  67. 黃奕瑋, IEEE Best Ph.D. Thesis Award (Tainan Section, Region 10), 2020.
  68. 邱詣智, 中技社109年度科技創意獎, 2020.
  69. 陳信宇, 中國電機工程學會青年論文獎(第一名), 2020.
  70. 李秉洋、邱于展,教育部108學年IC設計競賽類比電路設計組特優, 2020.
  71. 楚聿程、陳冠宇,教育部108學年IC設計競賽類比電路設計組優等, 2020.
  72. 洪宗志, 臺灣積體電路設計學會109年度博士論文獎(第一名), 2020.
  73. 陳信宇, 臺灣積體電路設計學會109年度碩士論文獎(第一名), 2020.
  74. 洪宗志、王家慶,國研院台灣半導體研究中心(TSRI)特別設計獎(ISSCC論文發表), 2020.
  75. 簡士雄、黃弘毅、王泓斌、邱詣智,國研院台灣半導體研究中心(TSRI)特別設計獎(ISSCC論文發表), 2020.
  76. 邱詣智,國研院台灣半導體研究中心(TSRI)類比電路組優等設計獎, 2020.
  77. 黃弘毅、陳信宇,國研院台灣半導體研究中心(TSRI)類比電路組優等設計獎, 2020.
  78. 黃奕瑋、王派益,IEEE Takuo Sugano Award (ISSCC 2019 Outstanding Far-East Paper), 2020.
  79. 洪宗志、楊忠明、王家慶,第十九屆旺宏金矽獎設計組評審團銅獎, 2019.
  80. 簡士雄、邱詣智,第十九屆旺宏金矽獎設計組評審團銅獎, 2019.
  81. 邱詣智、孫偉皓,教育部107學年IC設計競賽類比電路設計組優等, 2019.
  82. 洪宗志,國研院台灣半導體研究中心(TSRI)類比電路組特優設計獎, 2019.
  83. 楊忠明,國研院台灣半導體研究中心(TSRI)類比電路組優等設計獎, 2019.
  84. 黃奕瑋、王派益,國研院台灣半導體研究中心(TSRI)特別設計獎(ISSCC論文發表), 2019.
  85. 黃奕瑋,台灣半導體協會博士研究生半導體獎, 2019.
  86. 黃弘毅,第十八屆旺宏金矽獎設計組優勝獎, 2018.
  87. 洪宗志, 國家研究院晶片中心(CIC)類比電路組優等設計獎, 2018.
  88. 黃弘毅, 國家研究院晶片中心(CIC)類比電路組優等設計獎, 2018.
  89. 陳翊文, 簡士雄,國家研究院晶片中心(CIC)特別設計獎(ISSCC論文發表), 2018.
  90. 王奕翔, 106年度科林博士論文獎, 2018.
  91. 張敏瑩, 林泓志,教育部105學年IC設計競賽類比電路設計組優等, 2017.
  92. 王泓斌, 李祐安,教育部105學年IC設計競賽類比電路設計組佳作, 2017.
  93. 王派益,國家研究院晶片中心(CIC)類比電路組特優設計獎, 2017.
  94. 洪宗志,國家研究院晶片中心(CIC)類比電路組優等設計獎, 2017.
  95. 廖凡緯,國家研究院晶片中心(CIC)類比電路組優等設計獎, 2017.
  96. 王奕翔,台灣半導體產業協會博士研究生半導體獎, 2017.
  97. 黃奕瑋、王奕翔,成大電機系科技創新創業獎(TENG PRIZE)銅獎, 2016.
  98. 廖凡緯, 賴柏宇,教育部104學年IC設計競賽類比電路設計組優等, 2016.
  99. 林宗賢, 張敏瑩,教育部104學年IC設計競賽類比電路設計組佳作, 2016.
  100. 王政傑, 張敏瑩,第十六屆旺宏金矽獎應用組優勝獎, 2016.
  101. 方冠寓, 黃奕瑋,第十六屆旺宏金矽獎設計組優勝獎, 2016.
  102. 黃斯郁, 方冠寓, 黃奕瑋, 簡士雄,國家研究院晶片中心(CIC)特別設計獎(ISSCC論文發表), 2016
  103. 黃俊嘉, 簡士雄,國家研究院晶片中心(CIC)類比電路組特優設計獎, 2016
  104. 黃思衡,國家研究院晶片中心(CIC)類比電路組優等設計獎, 2016
  105. 陳玄儒, 臺灣積體電路設計學會104年度碩士論文獎, 2016.
  106. 黃斯郁, 中技社104年度科技創意獎, 2015.
  107. 黃思衡, 中技社104年度外籍生科技研究獎, 2015.
  108. 黃斯郁, 廖凡緯, 教育部103學年IC設計競賽類比電路設計組優等, 2015.
  109. 簡士雄, 台灣半導體產業協會博士研究生半導體獎, 2015.
  110. 陳玄儒, 王奕翔, 黃鵬彰, 國家研究院晶片中心(CIC)特別設計獎(ISSCC論文發表), 2015.
  111. 翁聖洋, 黃弘毅, 國家研究院晶片中心(CIC)類比電路組特優設計獎, 2015.
  112. 黃思衡, 陳翊文, 教育部102學年IC設計競賽類比電路設計組優等, 2014.
  113. 洪挺軒, 黃斯郁, 國家研究院晶片中心(CIC)類比電路組特優設計獎, 2014.
  114. 劉怡辰, 黃鵬彰, 國家研究院晶片中心(CIC)類比電路組優等設計獎, 2014.
  115. 黃俊嘉, 第十四屆旺宏金矽獎設計組優勝獎, 2014.
  116. 劉文權, 中國電機工程學會青年論文獎, 2013.
  117. 林韋德, 國家研究院晶片中心(CIC)特別設計獎(ISSCC論文發表), 2013.
  118. 王奕翔, 劉文權, 國家研究院晶片中心(CIC)特別設計獎(ISSCC論文發表), 2013.
  119. 黃俊嘉、陳玄儒, 教育部101學年IC設計競賽類比電路設計組特優(第一名), 2013.
  120. 林韋德, 第十二屆旺宏金矽獎設計組評審團金獎, 最佳創意獎, 2012.
  121. 王派益, 洪挺軒, 教育部100學年IC設計競賽類比電路設計組優等(第一名), 2012.
  122. 劉家銘, 王派益, 第十屆旺宏金矽獎設計組評審團銅獎, 2010.
  123. 王奕翔, 李貞慶, 第十屆旺宏金矽獎設計組評審團銅獎, 2010.
  124. 劉文權, 洪偉程, 教育部98學年IC設計競賽類比電路設計組優等, 2010.
  125. 王派益, 洪宗志, 教育部98學年IC設計競賽類比電路設計組佳作, 2010.
  126. 楊忠明, 簡士雄, 教育部98學年IC設計競賽類比電路設計組佳作, 2010.
  127. 李貞慶, 楊忠明, 教育部97學年IC設計競賽類比電路設計組優等, 2009.
  128. 郭俊賢, 第九屆旺宏金矽獎設計組優勝獎, 2009.
  129. 楊健忠, 劉家銘, 第八屆旺宏金矽獎應用組優勝獎, 2008.
  130. 翁孟澤, 鳳凰盃IC設計競賽佳作, 2006.
  131. 許浚偉, 第二屆旺宏金矽獎設計組優等獎, 最佳指導教授獎, 2002.
  132. 黃子龍, 教育部90學年IC設計競賽研究所組全國第一名, 2002.
  133. 陳冠達, 龍騰博士論文金質獎(最高榮譽), 2000.
  134. 李順裕, 龍騰博士論文金質獎(最高榮譽), 1999.
  135. 陳冠達, 李順裕, 張永智, 教育部87學年度大專校院通訊科技專題製作競賽特優(研究所組全國第一名), 1999.
  136. 張永智, 楊健忠, 教育部87學年度大專校院 Silicon Intellectual Property 創作競賽硬體組優等(研究所組全國第一名), 1999.
  137. 陳冠達, 李順裕, 李大輝, 教育部87學年度大專校院 Silicon Intellectual Property 創作競賽軟體組優等(研究所組全國第二名), 1999.
  138. 施克彥, 龍騰論文獎(最高榮譽), 1998.
  139. 葉智偉, 龍騰論文獎, 1997.
  140. 王文祺, 龍騰論文獎, 1996.
  141. 王文祺, 中國電機工程學會青年論文獎第一名, 1996.
  142. 葉智偉, 國科會研究創作獎, 1996.
  143. 蘇純賢, 全錄(Xerox)論文獎(最高榮譽), 1995.
  144. 陳冠達, 國科會研究創作獎, 1995.
  145. 蘇純賢, 國科會研究創作獎, 1994.
  146. 課程助教及畢業專題獲獎
  147. 鄭聿程、陳易欣,成大電機系課程助教優等獎, 2024
  148. 呂佳樺、吳彥霆、林子清,成大電機系課程助教特優獎, 2024
  149. 闕壯維,成大電機系課程助教優等獎(第一名)(共52門教學課程,其中45門入選,本教學課程獲學生評為112年全系第一名), 2023.
  150. 王子軒、陳映余,成大電機系課程助教優等獎(第一名)(共24門實驗課程,本實驗課程獲學生評為112年全系第一名), 2023.
  151. 邱于展、陳冠宇,成大電機系課程助教優等獎(第一名)(共53門教學課程,其中46門入選,本教學課程獲學生評為110年全系第一名), 2021.
  152. 林極儒, 丁淯卿,成大電機系課程助教優等獎, 2021.
  153. 林小平, 邱于展,成大電機系課程助教優等獎, 2020.
  154. 蘇唐生, 邱敏瑞,成大電機系課程助教優等獎, 2020.
  155. 陳冠宇,成大電機系108學年畢業專題實作成果競賽設計類第三名, 2019.
  156. 陳信宇、林小平,成大電機系課程助教優等獎, 2019.
  157. 莊佳益、李秉洋,成大電機系課程助教優等獎, 2019.
  158. 邱于展,成大電機系107學年畢業專題實作成果競賽設計類第二名, 2018.
  159. 陳信宇, 吳漢祥,成大電機系課程助教優等獎, 2018.
  160. 莊佳益, 林泓志,成大電機系課程助教優等獎, 2018.
  161. 邱詣智,成大電機系105學年畢業專題實作成果競賽設計類第一名, 2016.
  162. 莊佳益,成大電機系105學年畢業專題實作成果競賽設計類第二名, 2016.
  163. 張敏瑩, 王政傑,成大電機系課程助教優等獎, 2016.
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