NCKUEE Faculty Data
Chinese Version
Professor Chien-Hung Tsai
Address
ChiMei Building 3F R95311
Email
TEL
+886-6-2757575 ext.62432
Lab Weblink
Integrated Mixed-Signal and Power Management Design Lab
(R95315/ext.62400-2858)
Background
Educations
1996
Ph.D., Department of Electrical Engineering, National Taiwan University, Taiwan
1989
M.S., Department of Electrical Engineering, National Taiwan University, Taiwan
1985
B.S., Department of Electrical Engineering, Tatung Institute of Technology, Taiwan
Experiences
2015/08-present
Professor, Department of Electrical Engineering, National Cheng Kung University, Taiwan.
2011/02-2015/07
Associate Professor, Department of Electrical Engineering, National Cheng Kung University, Taiwan.
2005/02-2011/01
Assistant Professor, Department of Electrical Engineering, National Cheng Kung University, Taiwan.
2004/08-2005/01
Assistant Vice President (A.V.P.) , IC Design Div. III, ALi Corporation, Taiwan.
2001/05-2004/07
Department Director, Optical Storage Business Division, ALi Corporation, Taiwan.
1998/02-2001/07
Associate Professor, Department of Electronic Engineering, Lunh-Hwa Institute of Technology/ Lung-Hwa University of Science and Technology, Taiwan.
1996/02-1998/01
Chairman, Department of Electronic Engineering, Lunh-Hwa Institute of Technology/ Lung-Hwa University of Science and Technology, Taiwan.
1990/02-1996/01
Instructor, Department of Electronic Engineering, Lunh-Hwa Institute of Technology/ Lung-Hwa University of Science and Technology, Taiwan.
1989/06-1990/02
Associate Engineer, Design Automation Department, ERSO, ITRI (Industrial Technology and Research Institute), Taiwan.
Specialities
  • Integrated Power Management Circuit Design
  • Soruce Driver Design for LCD
  • Integrated Mix-Signal Circuit Design
Publication
Journal
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  1. K-Y Hu, W-T Yeh, C-H Tsai and C-W Tsai, "Fully Digital Current Mode Constant On-Time Controlled Buck Converter With Output Voltage Offset Cancellation," in IEEE Access, vol. 9, pp. 162572-162580, 2021
  2. K-Y. Hu, C-H Tsai and C-W Tsai, "Digital V2 Constant ON-Time Control Buck Converter With Adaptive Voltage Positioning and Automatic Calibration Mechanism," in IEEE Transactions on Power Electronics, vol. 36, no. 6, pp. 7178-7188, June 2021
  3. Y-J Lee, C-P Niou, C-Y Chen and C-H Tsai, “A Digital Power Factor Controller for Primary-Side-Regulated LED Driver," in IEEE Access, vol. 8, pp. 21813-21822, Jan. 2020.
  4. Y-D Yang, K-Y Hu and C-H Tsai, “Digital Battery Management Design for Point-of-Load Applications with Cell Balancing," in IEEE Transactions on Industrial Electronics, vol. 67, no. 8, pp. 6365-6375, Aug. 2020
  5. T-B Hu, C-H Tasi, H-C Lin; C-H Tsai, “Power-factor correction boost converter with digital nonlinear carrier control," International Journal of Electrical Engineering, vol. 24, no. 5, pp. 209-216, Apr. 2017.
  6. Y-Y Tsai; Y-S Tsai; C-W Tsai; C-H Tsai, “Digital Noninverting-Buck-Boost Converter With Enhanced Duty-Cycle-Overlap Control," IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 64, no. 1, pp. 41-45, Jan. 2017.
  7. C-H Tsai, C-Y Huang, J-S Guo, and C-Y Wang “Quasi-V2 Hysteretic Control Boost DC-DC Regulator with Synthetic Current Ripple Technique," International Journal of Circuit Theory and Applications, vol. 45, pp. 571-591, July 2016.
  8. C-H Tsai, B-M Chen, and H-L Li, “Switching Frequency Stabilization Techniques for Adaptive On-Time Controlled Buck Converter with Adaptive Voltage Positioning Mechanism," IEEE Trans. Power Electronics, vol. 31, pp. 443-451, Jan. 2016.
  9. K-Y Hu, S-M Lin, and C-H Tsai, “A Fixed-Frequency Quasi-V2 Hysteretic Buck Converter With PLL-Based Two-Stage Adaptive Window Control," IEEE Trans. Circuits and System I, vol. 62, pp. 2565-2573, Oct. 2015.
  10. C-H Tsai, Y-S Tsai, and H-C Liu, “A Stable Mode-Transition Technique for a Digitally Controlled Non-Inverting Buck-Boost DC-DC Converter," IEEE Trans. Industrial Electronics, vol. 62, no. 1, pp. 475-483, Jan. 2015.
  11. C-H Tsai, C-H Yang, J-H Shiau and B-T Yeh, “Digitally Controlled Switching Converter with Automatic Multi-Mode Switching," IEEE Trans. Power Electronics, vol. 29, no. 4, pp. 1830-1839, Apr. 2014.
  12. C-H Tsai, C-H Yang, and C-W Leng, “Design and Implementation of a Digitally Controlled Single-Inductor Dual-Output (SIDO) Buck Converter,” International Journal of Circuit Theory and Applications, vol. 42, no. 3, pp.221-237, Mar. 2014.
  13. C-H Tsai, C-H Yang, and J-C Wu, “A digitally controlled switching regulator with reduced conductive EMI spectra,” IEEE Trans. Industrial Electronics, vol. 60, no. 9, pp. 3938-3947, Sep. 2013.
  14. C-H Tsai, S-M Lin, and C-S Huang, “A Fast-Transient Quasi-V2 Switching Buck Regulator Using AOT Control with Load Current Correctrion (LCC) Technique," IEEE Trans. Power Electronic, vol. 28, no. 8, pp. 3949-3957, Aug. 2013.
  15. C-H Tsai and J-H Wang, “A High-Speed Rail-to-Rail Output Buffer with Push-Pull Dual-Path and Dynamic-Bias for LCD Driver ICs,” Analog Integrated Circuits and Signal Processing, Vol. 70, No. 3, pp. 303-310, 2012.
  16. J-H Wang, C-H Tsai, and S-W Lai, “A Low-Dropout Regulator with Tail Current Control for DPWM Clock Correction,” IEEE Trans. Circuits and System II, vol.59, pp. 45-49, Jan. 2012.
  17. C-H Tsai and J-H Wang, “Capacitor-Less Low-Dropout Regulator with Slew-Rate-Enhanced Circuit,” IET Circuits, Devices & Systems, vol. 5, pp. 384-391, 2011
  18. C-H Tsai and J-H Wang, “A Capacitor-Less Fast-Transient Low-dropout Regulator with Mismatch-Comparator-Control for Portable Electronic Products,” International Journal of Electrical Engineering, vol. 18, pp. 35-42, Feb. 2011.
  19. C-H Tsai and J-H Wang, “Cross-Self-Bias Rail-to-Rail Column Buffer for 640-channel 6-bit LCD,” IEEE/OSA Journal of Display Technology, vol. 7, no. 5, pp. 235-242, 2011.
  20. C-H Tsai , J-H Wang, H-Y Zheng, C-T Chang, and C-Y Wang, “A New Compact Low-Offset Push-Pull Output Buffer with Current Positive-Feedback (CPF) for a 10-bit LCD Source Driver,” IET Circuits, Devices & Systems , vol. 4, pp. 539-547,2010.
  21. C-H Tsai , J-H Wang, C-T Chang, and C-Y Wang, “High-Speed Rail-to-Rail Output Buffer Amplifier with Dynamic-Bias Circuit,” Electronics Letters, vol. 45, pp. 1199-1200, 2009.
  22. C-L Wei, L-Y Wu, H-H Yang, B-D Liu,C-H Tsai and S-J Chang, “A Versatile Step-Up/Step-Down Switched-Capacitor-Based DC-DC Converter,” IEICE Transactions on Electronics, vol.E91-C, no.5, pp.809-812, May 2008.
Conference
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  1. W. -T. Yeh, C. -L. Chang, S. -C. Yin and C. -H. Tsai, "Mixed-Level Design Methodology With SystemVerilog Behavior Models for Digitally Controlled Power Converter ICs," 2023 IEEE 12th Global Conference on Consumer Electronics (GCCE), Nara, Japan, 2023, pp. 1172-1175.
  2. L. Hsu, J. -C. Cheng, W. -T. Yeh and C. -H. Tsai, "A Wide Load Range and Low Current Distortion Digital Boost PFC Converter With Mixed Conduction Mode Operation," 2023 IEEE 12th Global Conference on Consumer Electronics (GCCE), Nara, Japan, 2023, pp. 1168-1171.
  3. Y. -C. Jian, K. -H. Lai, J. -W. Huang, W. -T. Yeh and C. -H. Tsai, "A Novel Cost Effective Variable On-Time Control of Digital Boost PFC Converter in Boundary Conduction Mode," 2023 IEEE 12th Global Conference on Consumer Electronics (GCCE), Nara, Japan, 2023, pp. 1176-1178.
  4. W. -T. Yeh, G. -S. Yao, C. -Y. Chen and C. -H. Tsai, "A 411nA Quiescent Current Hysteretic Buck Converter with Self-Control Biasing and Dynamic Voltage Scaling (DVS) for IoT Applications," 2023 International VLSI Symposium on Technology, Systems and Applications (VLSI-TSA/VLSI-DAT), HsinChu, Taiwan, 2023, pp. 1-2.
  5. G-S Yao, Y-Y Tsai, K-Y Hu, C-Y Chen, K-H Lai and C-H Tsai, “All-Digital Current-Sensorless Multi-Mode DC-DC Converter for Battery Powered Applications," in IEEE 8th Global Conference on Consumer Electronics (GCCE), Osaka, Japan, 2019, pp. 1144-1145.
  6. C-P Niou, C-H Tsai, and T-J Chen, “A digital peak current delay compensation for primary-side regulation flyback adapter," in International Symposium on VLSI Design, Automation and Test (VLSI-DAT), Hsinchu, 2018, pp. 1-4.
  7. H-C Lin, W-M Chu, C-H Tsai, and W-C Su, “A digitally variable on-time controlled PFC flyback converter with primary-side regulation," in 7th International Symposium on Next Generation Electronics (ISNE), Taipei, 2018, pp. 1-4.
  8. Y-H Chang, K-Y Hu, G-S Yao, C-Y Chen, and C-H Tsai, “Mixed-Level Design Methodology for Digitally Controlled Power Converter IC" in IEEE 7th Global Conference on Consumer Electronics (GCCE), 2018, pp. 175-178.
  9. K-Y Hu, Y-H Chen, H-C Lin, and C-H Tsai, “Digital Buck Converter with Adaptive Driving Circuit for Cascode Power MOS," in IEEE 7th Global Conference on Consumer Electronics (GCCE), 2018, pp. 811-812.
  10. K-Y Hu, Y-S Chen, and C-H Tsai, “A Digital Multiphase Converter with Sensor-less Current and Thermal Balance Mechanism," in IEEE Asian Solid-State Circuits Conference (A-SSCC), 2018, pp. 126-127.
  11. K-Y Hu, B-M Chen, and C-H Tsai, “Low transient voltage dual loop buck converter using digital charge control technique," in IEEE Asia Pacific Conference on Postgraduate Research in Microelectronics and Electronics (PrimeAsia), Kuala Lumpur, 2017, pp. 53-56.
  12. K-S Chang and C-H Tsai, “Transient performance estimation of DLDO by building model in MATLAB Simulink," in IEEE Asia Pacific Conference on Postgraduate Research in Microelectronics and Electronics (PrimeAsia), Kuala Lumpur, 2017, pp. 57-60.
  13. K-Y. Hu, B-M. Chen, and C-H Tsai, “A digitally controlled buck converter with current sensor-less adaptive voltage positioning (AVP) mechanism," in International Symposium on VLSI Design, Automation and Test (VLSI-DAT), Hsinchu, 2017, pp. 1-4.
  14. L-Y Lu et al. “A testable and debuggable dual-core system with thermal-aware dynamic voltage and frequency scaling," 2016 21st Asia and South Pacific Design Automation Conference (ASP-DAC), Macau, 2016, pp. 17-18.
  15. K-Y Hu, Y-Y Tsai, S-M Wang, and C-H Tsai, “High Power Factor Boost PFC Controller with Feedforward Adaptive On-time Control," in IEEE 5th Global Conference on Consumer Electronics (GCCE), Kyoto, 2016, pp. 621-622.
  16. C-Y Huang, K-Y Hu, S-M Lin, and C-H Tsai, “Fast transient current mode dc-dc converter with optimized loop response," in IEEE International Future Energy Electronics Conference, 2015, pp. 1-4.
  17. J-T Lin, K-Y Hu, and C-H Tsai, “Digital multiphase buck converter with current balance/phase shedding control," in IEEE Region 10 Conference (TENCON), Macao, 2015, pp. 1-5.
  18. C-C Pao, Y-C Chen, and C-H Tsai, “Top-down methodology based low-dropout regulator design using Verilog-A," in IEEE International Conference on Solid-State and Integrated Circuit Technology, 2014, pp.1-3.
  19. C-H Teng and C-H Tsai, “A digital DC-DC buck converter with adaptive on-time PWM/PFM control," in IEEE International Conference on Solid-State and Integrated Circuit Technology, 2014, pp.1-3.
  20. J-T Lin, J-H Shiau, and C-H Tsai, “A Fast Transient and Under/Overshoot Suppression DC-DC Buck Converter with ACP Control," in IEEE International Symposium on VLSI Design, Automation and Test (VLSI-DAT), 2014, pp. 1-4.
  21. Y-C Chang and C-H Tsai, “Predictive Digital Current Mode Controlled DC-DC Converter with Duty Calibration Technique," in IEEE International Future Energy Electronics Conference, 2013, pp. 316-319
  22. C-Y Huang, S-F Kang, and C-H Tsai, “Design and Implementation of a Current-Mode DC-DC Converter for LED Driving," in IEEE International Future Energy Electronics Conference, 2013, pp. 436-439.
  23. J-S Guo, S-M Lin, and C-H Tsai, “A Hysteretic Boost Regulator with Emulated-Ramp Feedback (ERF) Current-Sensing Technique for LED Driving Applications," in IEEE Asian Solid-State Circuits Conference (A-SSCC), 2013, pp. 61-64.
  24. H-L Li, C-C Pao, B-M Chen, and C-H Tsai, “AOT-Controlled Dual-Mode AVP Buck Regulator with AEAF Mechanism," in IEEE Custom Integrated Circuit Conference (CICC), 2013, pp.1-4.
  25. C-Y Wang, J-S Guo, C-Y Huang, and C-H Tsai, “A High Efficiency DC/DC Boost Regulator with Adaptive Off/On-Time Control," in IEEE International Symposium on VLSI Design, Automation and Test (VLSI-DAT), 2013, pp. 1-4.
  26. B-T Yeh, C-H Yang, K-C Juang, and C-H Tsai, “Sensorless Dead-Time Exploration for Digitally Controlled Switching Converters," in IEEE International Symposium on VLSI Design, Automation and Test (VLSI-DAT), 2013, pp. 1-4.
  27. C-Y Huang, Y-C Chen, and C-H Tsai, “Integrated Single-Inductor Dual-Output DC-DC Converter with Power-Distributive Control," in IEEE International Symposium on Next-Generation Electronics, 2013, pp. 33-36.
  28. C-Y Huang, Y-T Chang, and C-H Tsai, “Design and Implementation of a Switching DC-DC Converter IC Using Sigma-Delta Modulator,” in International Conference on Anti-counterfeiting, Security, and Identification, 2012, pp. 1-5.
  29. G-L Li, Y-C Chen, Y-T Chang, C-H Tsai, and C-H Yang, “A Single-Inductor Dual-Output DC-DC Converter with Output Voltage Mode Switching,” in IEEE Workshop on Control and Modeling for Power Electronics, 2012, pp. 1-4.
  30. H-S Chen, C-H Yang, and C-H Tsai, “Design and Implementation of Window Delay-Line ADC for Low-Power DC-DC SMPS,” in IEEE Workshop on Control and Modeling for Power Electronics, 2012, pp. 1-4
  31. C-S Huang, C-Y Wang, J-H Wang, and C-H Tsai, “A Fast-Transient Quasi-V2 Switching Buck Regulator Using AOT Control,” in IEEE Asian Solid-State Circuits Conference (A-SSCC), 2011, pp. 53-56.
  32. K-F Wong and C-H Tsai, “A Completely Smooth Transition Buck-Boost Converter with Continuity-Mode (CM) Technique for Only Using 2 Switches in Whole Battery Life,” in IEEE Power Electronics and Drive Systems, 2011, pp. 974-977.
  33. J-Y Liu, C-H Yang, and C-H Tsai, “Correlation-based system identification of digitally controlled SMPS,” in IEEE Power Electronics and Drive Systems, 2011, pp. 1149-1152.
  34. C-H Yang, C-W Mu, and C-H Tsai, “Synthesizable Wide Range DPWM with All-Digital PLL for Digitally-Controlled Switching Converter,” in IEEE Industrial Electronics Conference, 2011, pp. 1626-1630.
  35. C-S Huang, C-H Tsai, and J-H Wang, “Design and Verification of an Integrated Current Mode Switching Regulator,” in IEEE International Symposium on VLSI Design, Automation and Test (VLSI-DAT), 2011, pp. 1-4.
  36. J-H Wang and C-H Tsai, “A Fast-Transient Low-Dropout Regulator with Current Feedback Buffer,” in Int. Sym. Next-Generation Electronics, 2010, pp. 170-173.
  37. C-H Yang, C-N Liu, C-H Tsai, “Direct Digital Compensator Design for Switching Converters,” in IEEE Int. Symp. Next-Generation Electronics, 2010, pp. 143-146.
  38. C-H Yang, J-H Shiau, C-H Tsai, “Programmable Reference for Power-Aware DVS,” in IEEE Int. Symp. Aware Computing, 2010, pp. 166-170.
  39. C-N Liu, C-H Yang, and C-H Tsai, “Digital Compensator Design for Power-Aware DC-DC Converters,” in IEEE Int. Symp. Aware Computing, 2010, pp. 177-180.
  40. J-H Wang, S-W Lai, C-S Huang, and C-H Tsai, “A Low Voltage and Low Ground Current Low-Dropout Regulator with Transient Enhanced Circuit for SoC,” in IEEE International Conference on Green Circuits and System, Jun. 2010, pp.428-431.
  41. H-S Jhuang, J-H Wang, and C-H Tsai, “A High PSR over Wideband Frequency Range Low Dropout Voltage Regulator,” in IEEE International Conference on Green Circuits and System, Jun. 2010, pp. 508-511.
  42. C-C Yeh, J-H Wang, and C-H Tsai, “An Output Buffer with Slew-Rate Calibration for Different TFT-LCD Loadings,” in IEEE International Conference on Green Circuits and System, Jun. 2010, pp. 512-515.
  43. J-H Wang, C-H Tsai, C-T Chang, and C-Y Wang, “An 8-bit LCD Source Driver with Push-Pull Low-Power Output Buffer Amplifiers,” in IEEE International Symposium on VLSI Design, Automation and Test (VLSI-DAT), Apr. 2010, pp. 327-330.
  44. W-H Chang, J-H Wang, and C-H Tsai, “A Peak-Current Controlled Single-Inductor Dual-Output DC-DC Buck Converter with a Time- Multiplexing Scheme,” in IEEE International Symposium on VLSI Design, Automation and Test (VLSI-DAT), Apr. 2010, pp. 331-334.
  45. C-W Leng, C-H Yang, and C-H Tsai, “Digital PWM controller for SIDO Switching Converter with Time-Multiplexing Scheme,” in IEEE International Symposium on VLSI Design, Automation and Test (VLSI-DAT), 2009, pp. 52-55.
  46. J-H Wang, H-Y Zheng, C-H Tsai, C-T Chang, C-C Lee, and C-Y Wang, “A Compact Rail-to-Rail Buffer with Current Positive-Feedback for LCD Source Driver,” in IEEE International Symposium on VLSI Design, Automation and Test (VLSI-DAT), 2009, pp. 43-46.
  47. H-Y Zheng, J-H Wang, C-H Tsai, C-T Chang, C-C Lee, and C-Y Wang, “Area-Efficient R-C DACs with Low-Offset Push-Pull Output Buffers for a 10-bit LCD Source Driver,” in IEEE International Symposium on Circuits and Systems, 2009, pp. 1597-1600.
  48. P-K Leong, C-H Yang, C-W Leng, and C-H Tsai, “Design and Implementation of Sigma-Delta DPWM Controller for Switching Converter,” in IEEE International Symposium on Circuits and Systems, 2009, pp. 3074-3077.
  49. J-C Wu, C-W Mu, C-H Yang, and C-H Tsai, “Digitally Controlled Low-EMI Switching Converter with Random Pulse Position Modulation,” in IEEE Asian Solid-State Circuits Conference, 2009, pp. 341-344.
  50. W-H Chang, Y-H Jen, and C-H Tsai, “An Integrated Sigma-Delta Noise-Shaped Buck Converter,” in IEEE Power Electronics and Drive Systems, 2009, pp. 18-21.
  51. W-H Chang, H-W Chang, and C-H Tsai, “Integrated Single-Inductor Buck-Boost or Boost-Boost DC-DC Converter with Power-Distributive Control,” in IEEE Power Electronics and Drive Systems, 2009, pp. 1184-1187.
  52. C-C Yeh J-H Wang and C-H Tsai “A compact low-offset voltage and low power rail-to-rail output buffer for TFT-LCD panel” in IEEE Integrated Circuits,2009, pp. 372-375
  53. H-S Jhuang, J-H Wang, Z-Y Zeng and C-H Tsai “A low dropout linear regulator with high power supply rejection” in IEEE Integrated Circuits,2009, pp. 41-44.
  54. C-W Leng, C-H Yang, and C-H Tsai, “An Integrated GUI Design Tool for Digitally Controlled Switching DC-DC Converter,” in IEEE International Communications, Circuits and Systems, 2008, pp. 1324-1327.
  55. W-H Chang, Y-H Jen, and C-H Tsai, “An Integrated DCM Buck Converter with Peak-Current Mode Control,” in IEEE IEEE International Communications, Circuits and Systems, 2008, pp. 1061-1065.
  56. H-Y Chu, C-H Yang, C-W Leng, and C-H Tsai, “A Top-Down, Mixed-Level Design Methodology for CT BP ΔΣ Modulator Using Verilog-A,” in IEEE Asia-Pacific Conference on Circuits and Systems, 2008, pp. 1390-1393.
  57. J-H Wang, J-C Qiu, H-Y Zheng, C-H Tsai, C-Y Wang, C-C Lee, and C-T Chang, “A Compact Low-Power High Slew-Rate Rail-to-Rail Class-AB Buffer Amplifier for LCD Driver ICs,” in IEEE Electron Devices and Solid-State Circuits, 2007, pp. 397-400.
  58. S-I Liu, P-K Chen, and J-H Tsay, “Wide Range Linear Tunable BiCMOS Transconductor and Four-Quadrant Multiplier,” in Proc. IEEE Int. Symp. on Circuits and Systems, pp. 308-311, 1996.
  59. J-H Tsay, S-I Liu, and Y-P Wu, “Measuring the Threshold Voltage of a MOSFET with an Active Attenuator,” in Proc. IEEE Int. Symp. on Circuits and Systems, pp.397-400, 1996.
  60. K-Y Hu, C-H. Tsai and C-W Tsai, “Digital V2 Constant ON-Time Control Buck Converter With Adaptive Voltage Positioning and Automatic Calibration Mechanism," in IEEE Transactions on Power Electronics, vol. 36, no. 6, pp. 7178-7188, June 2021.
  61. C-H Tsai, B-M Chen, and H-L Li, “Switching Frequency Stabilization Techniques for Adaptive On-Time Controlled Buck Converter with Adaptive Voltage Positioning Mechanism," IEEE Trans. Power Electronics, vol. 31, pp. 443-451, Jan. 2016.
  62. J-S Guo, C-Y Wang, C-Y Huang, and C-H Tsai, “A Hysteretic Boost Regulator using Emulated Ramp Feedback(REF) Control for LED Drivers," in Proc. VLSI Design/CAD Symposium, 2013
  63. S-M Lin, and C-H Tsai, “Fast Transient Current Mode DC-DC Buck Converter with Optimized Loop Reponse," in Proc. VLSI Design/CAD Symposium, 2013.
  64. Y-C Chang and C-H Tsai, “Predictive Digital Current Mode Controlled DC-DC Converter with Duty Calibration Technique," in IEEE International Future Energy Electronics Conference, 2013, pp. 316-319.
  65. C-Y Huang, S-F Kang, and C-H Tsai, “Design and Implementation of a Current-Mode DC-DC Converter for LED Driving," in IEEE International Future Energy Electronics Conference, 2013, pp. 436-439.
  66. B-T Yeh, C-H Yang, K-C Juang, and C-H Tsai, “Sensorless Dead-Time Exploration for Digitally Controlled Switching Converters," in IEEE International Symposium on VLSI Design, Automation and Test (VLSI-DAT), 2013, pp. 1-4.
  67. C-Y Wang, J-H Guo, and C-H Tsai, “A High Effieciency Adaptive Off/On-Time Control DC/DC Boost Regulator,” in Proc. VLSI Design/CAD Symposium, 2012.
  68. C-S Huang, J-H Wang, C-Y Wang and C-H Tsai, “A Fast-Transient Quasi-V2 Switching Buck Regulator Using AOT Control,” in Proc. VLSI Design/CAD Symposium, 2011.
  69. C-N Liu, C-W Huang and C-H Tsai, “Direct Digital Compensator Design and IC Implementation of DC-DC Converter,” in Proc. VLSI Design/CAD Symposium, 2011.
  70. J-H Shiau, C-H Yang, and C-H Tsai, “Current-Sensorless Multi-Mode Digital DC-DC Controller for Portable Applications,” in Proc. VLSI Design/CAD Symposium, 2011.
  71. S-W Lai, C-H Tsai, “PSR Enhancement of Low-Dropout Regulator with 5-bit Programmable Output Using a Tail Current Control Circuit,” in Proc. VLSI Design/CAD Symposium, 2010.
  72. C-C Yeh , J-H Wang and C-H Tsai, “A Low Static Current Tail Current Control Output Buffer for TFT-LCD ,” in Proc. VLSI Design/CAD Symposium , 2010.
  73. C-H Yang, C-W Mu, and C-H Tsai, “Synthesizable Wide Range DPWM with All-Digital PLL for Digitally-Controlled Switching Converter,” in IEEE Industrial Electronics Conference, 2011, pp. 1626-1630.
  74. Y-T. Chang, R-L Lin and C-H Tsai, “Voltage-Loop Compensator Design of Current-Mode CCM Double-Input DCDC Converter for High/Low Voltage Sources,” in Proc. Power Electronics Conf. , pp. 524-529, 2009.
  75. C-W Mu, R-L Lin and C-H Tsai, “Voltage-Loop Compensator Design of Current-Mode Boost Converter with High Step-up Ratio,” in Proc. Power Electronics Conf. , pp. 518-523, 2009.
  76. C-N Liu, R-L Lin and C-H Tsai, “Voltage-loop Compensator Design for Current-mode Buck-Buck Converter with High Step-down Ratio,” in Proc. Power Electronics Conf. , pp. 547-552, 2009.
  77. Y-J. Chen, R-L Lin and C-H Tsai, “Voltage-loop Compensator Design for Current-mode Buck-Boost Converter with Low Output Voltage Ripple,” in Proc. Power Electronics Conf. , pp. 536-541, 2009.
  78. W-H Chang, Y-H Jen and C-H Tsai, “An Integrated Sigma-Delta Noise-Shaped Buck Converter,” in IEEE Power Electronics and Drive Systems, 2009, pp. 18-21.
  79. Z-Y Zeng, H-Y Zheng, C-H Tsai, “A Low Dropout Linear regulator with High Power Supply Rejection,” in Proc. VLSI Design/CAD Symposium, Aug. 2008.
  80. H-Y Chu, C-H Yang, C-W Leng, and C-H Tsai, “A Top-Down, Mixed-Level Design Methodology for CT BP ΔΣ Modulator Using Verilog-A,” in IEEE Asia-Pacific Conference on Circuits and Systems, 2008, pp. 1390-1393.
  81. C-M. Pan, C-H Tsai, “An Embedded 10-bit 200MHz DAC IP with Self-Calibrating Current Bias for SoC Applications,” in Proc. VLSI Design/CAD Symposium, Aug. 2007.
  82. Y-H Jen, H-Y Zheng, R-L Lin, C-H Tsai, “Voltage Mode Compensator Design for Four Phase Interleaving Buck Converter,” Symposium on Electrical Power Engineering, 2007.
  83. W-H Chang, Z-Y Zeng, R-L Lin,C-H Tsai,“A Compensator Design for VRM With a Current Sharing Control” in Proc. Power Electronics Conference, 2007., “A Compensator Design for VRM With a Current Sharing Control,” Symposium on Electrical Power Engineering, 2007.
Patent
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  1. C-Y Chen, C-H Tsai, “Boost converter with fast transient response,” US Patent 11,569,740 B2 (Issue date : Jan. 31, 2023)
  2. W-T Yeh, C-H Tsai, “All-MOSFET voltage reference circuit with stable bias current and reduced error,” US Patent 11,320,851 B1 (Issue date : May. 3, 2022)
  3. K-Y Hu, C-H Tsai, “Digital constant on-time controller adaptable to a DC-TO-DC converter,” US Patent 10,811,966 B1 (Issue date : Oct. 20, 2020)
  4. K-Y Hu, C-H Tsai, “DC-TO-DC Converter and a digital constant on-time controller thereof,” US Patent 10,291,121 B1 (Issue date : May. 14, 2019)
  5. H-C Liu, C-H Tsai, and Y-S Tsai, “Digitally controlled non-inverting buck-boost DC-DC converter system,” US Patent 9,122,294 B2 (Issue date : Sep. 1, 2015)
  6. C-Y Lu, C-H Tsai, C-H Yang, and S-M L, “Monitoring method with function of correlation-based system identification,” US Patent 8,957,654 B2 (Issue date : Feb. 17, 2015)
  7. C-H Tsai, J-H Wang, Y-L Chen, and C-T Chang, “Source driver,” US Patent 8,717,349 B2 (Issue date : May 6, 2014)
  8. J-H Wang, C-H Tsai, Y-L Chen, and C-T Chang, “Buffering circuit with reduced dynamic power consumption,” US Patent 8,508,515 B2 (Issue date : Aug. 13, 2013)
  9. C-H Tsai, J-H Wang, and C-C Lee, “Output buffer and source driver using the same,” US Patent 8,368,673 B2 (Issue date : Feb. 5, 2013)
  10. C-H Tsai, J-H Wang, J-C Qiu, and C-Y Wang, “Source driving circuit with output buffer,” US Patent 8,188,955 B2 (Issue date : May 29, 2012)
  11. C-H Tsai, J-H Wang, J-C Qiu, and C-Y Wang, “Output Buffer with High Driving Ability,” US Patent 7,880,514 B2 (Issue date : Feb. 1, 2011)
  12. 胡愷育、蔡建泓:「直流轉換器與數字固定導通時間控制器」,中國大陸專利 (證書號:CN 111130346B) (申請日:2018/11/01; 公開日:2020/05/08; 授權日:2020/11/20)
  13. 劉翰虔、蔡建泓、蔡育新:「非反向-升降壓兩用型直流轉直流數位控制系統」(中國大陸專利 103683933 B,授權日:2016/08/31)
  14. 蔡建泓、王家輝、張進添、陳英烈:「源極驅動器」,中國大陸專利 (證書號:CN 102005169B) (申請日:2010/02/01; 公開日:2011/04/06; 授權日:2012/12/26)
  15. 蔡建泓、王家輝、張進添、陳英烈:「輸出緩衝電路、放大器裝置及顯示裝置」,中國大陸專利 (證書號:CN 101996552B) (申請日:2010/08/04; 公開日:2011/03/30; 授權日:2012/11/21)
  16. 蔡建泓、王家輝、邱景傳、王振宇:「具有高驅動能力的輸出緩衝器」,中國大陸專利 (證書號:CN 101777316B) (申請日:2009/04/13; 公開日:2010/07/14; 授權日:2012/09/26)
  17. 蔡建泓、王家輝、邱景傳、王振宇:「具輸出緩衝器的源極驅動電路」,中國大陸專利 (證書號:CN 101727861B) (申請日:2009/04/13; 公開日:2010/06/09; 授權日:2012/08/29)
  18. 蔡建泓、王家輝、李敬中:「輸出緩衝器及使用該輸出緩衝器的源極驅動器」,中國大陸專利 (證書號:CN 101714868B) (申請日:2009/03/12; 公開日:2010/05/26; 授權日:2012/07/04)
  19. Chien-Hung Tsai, Jia-Hui Wang, Ying-Lie Chen and Chin-Tien Chang, “Source driver and compensation method for offset voltage of output buffer thereof,” US Patent Application No. US 2011/0050665 A1 (Filing date : Aug. 28, 2009; Pub. date : Mar. 3, 2011)
  20. 蔡建泓、葉韋廷:「全金屬氧化物半導體場效應電晶體的電壓參考電路」(中華民國專利 I768578,授權日:2022/06/21)
  21. 蔡建泓、胡愷育:「適用於直流轉換器與數位固定導通時間控制器」(中華民國專利 I705648,授權日:2020/09/21)
  22. 蔡建泓、胡愷育:「直流轉換器與數位固定導通時間控制器」(中華民國專利 I689163,授權日:2020/3/21)
  23. 蔡建泓、張凱璿:「數位線性調節器與功率金屬氧化物半導體陣列」(中華民國 I678061,授權日:2019/11/21)
  24. 劉翰虔、蔡建泓、蔡育新:「非反向-升降壓兩用型直流轉直流數位控制系統」,中國大陸專利(申請號:CN 103683933 A) (申請日:2012/12/26; 公開日:2014/03/26)
  25. 劉俊延、蔡建泓、楊峻泓、林士銘:「具相關性系統識別功能之監測方法」(證書號:I493850) (申請日:2012/10/08; 公開日:2014/04/16; 授權日:2015/07/21)
  26. 劉翰虔、蔡建泓、蔡育新:「非反向-升降壓兩用型直流轉直流數位控制系統」(證書號:I473407) (申請日:2012/09/19; 公開日:2014/04/01; 授權日:2015/02/11)
  27. 蔡建泓、王家輝、陳英烈、張進添:「源極驅動器」 (證書號: I423209) (申請日:2009/10/27; 公開日:2011/03/01; 授權日:2014/01/11)
  28. 蔡建泓、王家輝、陳英烈、張進添:「輸出緩衝電路、放大器裝置及顯示裝置」 (證書號: I423211) (申請日:2009/12/30; 公開日:2011/02/16; 授權日:2014/01/11)
  29. 蔡建泓、王家輝、李敬中:「輸出緩衝器及使用該輸出緩衝器的源極驅動器」( 證書號: I409748 ) (申請日:2009/07/08; 公開日:2010/04/01; 授權日:2013/09/21)
  30. 蔡建泓、王家輝、邱景傳、王振宇:「具輸出緩衝器之源極驅動電路」(證書號:I406251) (申請日:2009/07/08; 公開日:2010/05/01; 授權日:2013/08/21)
  31. 蔡建泓、王家輝、邱景傳、王振宇:「具高驅動能力之輸出緩衝器」(證書號:I392233) (申請日:2009/04/06; 公開日:2010/07/16; 授權日:2013/04/01)
  32. 蔡建泓、潘春明:「應用元件方法之小面積及低電流不匹配溫度計碼電流式數位類比轉換器」( 證書號: I345886 ) (申請日:2007/03/22; 公開日:2008/10/01; 授權日:2011/07/21 )
  33. 蔡建泓、王家輝、陳英烈、張進添:「源極驅動器及其輸出緩衝器的位移電壓補償方法」(申請號:098136318) (申請日:2009/10/27; 公開日:2011/03/01)
Others
more
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  1. 蔡建泓, '互補式金氧半靜態隨機存取記計憶體之系統設計論', 國立台灣大學電機研究所碩士論文, 民國78年6月(指導教授:許振發教授)。
  2. 蔡建泓, '使用三極區之金氧半場效電晶體的若干類比電路設計與應用', 國立台灣大學電機研究所博士論文, 民國84年12月(指導教授:吳炎培教授,劉深淵教授)。
Projects
  1. MOST-111-2221-E-006 -181 -MY3 極低功耗電源轉換器技術與晶片開發(2022/08/01 ~ 2025/07/31)
  2. MOST-110-2221-E-006 -209 -MY3-:具廣負載範圍及低電流失真之數位式功因修正技術研發(2021/08/01~2024/07/31)
  3. MOST-109-2622-8-006 -017 -TA-:數位電源控制之關鍵技術研究與晶片開發(2020/01/01~2020/12/31)
  4. MOST-108-2221-E-006 -145 -MY2-:應用於快充行動電源之數位升壓型轉換器設計(2019/08/01~2021/07/31)
  5. MOST-107-2221-E-006 -201 -:應用於智慧雲端/終端系統之數位電源設計(I)(2018/08/01-2019/07/31)
  6. MOST-106-2221-E-006 -241 - :高安全數位電量等化控制設計之電池管理系統研發 (2017/08/01-2018/07/31)
  7. NSC-106-2221-E-006 -241:高安全數位電量等化控制設計之電池管理系統研發 (2017/08/01~2018/07/31)
  8. NSC-104-2221-E-006 -193 -MY2:應用型數位AC-DC綠能控制晶片與設計平台開發(2015/08/01~2017/10/31)
  9. NSC-102-2221-E-006-227-MY3:考量三維晶片平面規劃與除錯之低功耗動態調整電壓與頻率之設計方法-子計畫二:三維晶片負載點之供電方案與電源管理系統設計 (3/3) (2015/08/01 -2016/07/31)
  10. MOST-104-2221-E-006-193-MY2:應用型數位AC-DC綠能控制晶片與設計平台開發 (2015/08/01~2017/10/31)
  11. NSC-102-2221-E-006-227-MY3:考量三維晶片平面規劃與除錯之低功耗動態調整電壓與頻率之設計方法-子計畫二:三維晶片負載點之供電方案與電源管理系統設計 (2/3) (2014/08/01 -2015/07/31)
  12. NSC-102-2221-E-006-227-MY3:考量三維晶片平面規劃與除錯之低功耗動態調整電壓與頻率之設計方法-子計畫二:三維晶片負載點之供電方案與電源管理系統設計 (1/3) (2013/08/01 -2014/07/31)
  13. NSC 101-2220-E-006 -003:具易除錯特性之智慧型低功率多核心系統之設計技術研發:從電子系統層級至矽晶片層級-子計畫二:智慧型數位電源管理應用於多核心系統之電子系統 設計平台與矽智財開發(3/3)(2012/08/01 -2013/07/31)
  14. NSC 100-2220-E-006 -003:具易除錯特性之智慧型低功率多核心系統之設計技術研發:從電子系統層級至矽晶片層級-子計畫二:智慧型數位電源管理應用於多核心系統之電子系統 設計平台與矽智財開發(2/3)(2011/08/01 -2012/07/31)
  15. NSC-99-2220-E-006-016 :具易除錯特性之智慧型低功率多核心系統之設計技術研發:從電子系統層級至矽晶片層級-子計畫二:智慧型數位電源管理應用於多核心系統之電子系統設計平台 與矽智財開發 (1/3) (2010/08/01 -2011/07/31)
  16. NSC-98-2221-E-006-185 :具快速動態響應之非線性數位控制 DC-DC 轉換器矽智財研究與設計 (I) (2009/08/01 -2010/07/31)
  17. NSC-96-2221-E-006-298-MY2 :數位 ΣΔ 調變技術應用於單電感多輸出 DC-DC 電源控制轉換矽智財之研究與設計 (2/2) (2008/08/01 -2009/07/31)
  18. NSC-96-2221-E-006-298-MY2 :數位 ΣΔ 調變技術應用於單電感多輸出 DC-DC 電源控制轉換矽智財之研究與設計 (1/2) (2007/08/01 -2008/07/31)
  19. NSC-95-2221-E-006-448 :適合 SoC 整合之單電感升 / 降壓雙輸出、全數位電流控制切換式直流 - 直流電源轉換矽智財研製 (2006/08/01 -2007/07/31)
  20. 108-2813-C-006-009-E : 具電流及溫度平衡控制之無感測式數位四相降壓型轉換器設計與實作 (2019/07/01~2020/02/28)
  21. NSC-107-2813-C-006 -026 -E:無額外電流感測電路且具自我校正之數位多模式降壓型轉換器研究與實作(2018/07/01 – 2019/02/28)
  22. NSC-106-2813-C-006-091-E數位主動式功因修正升壓型轉換器研究與實作 (2017/07/01 – 2018/02/28)
  23. NSC-105-2815-C-006-089-E: 數位適應性導通時間控制降壓型轉換器研究與實作(2016/07/01 - 2017/02/28)
  24. NSC-104-2815-C-006-117-E: 預測式數位電流控制降壓型轉換器研究與設計(2015/07/01 – 2016/02/28)
  25. NSC-103-2815-C-006-051-E:低壓應用 -具快速響應與高調節率的遲滯定頻降壓直流-直流轉換器(2014/07/01 - 2015/02/28)
  26. NSC-102-2815-C-006-040-E:漣波控制切換式升壓調節器之研究與設計 (2013/07/01 - 2014/02/28)
  27. NSC-100-2815-C-006 -045-E:可程式調整輸出電壓之低EMI數位控制直流-直流轉換器 (2011/07/01 -2012/02/29)
  28. NSC-100-2815-C-006 -029-E:數位控制之分時多工不連續導通模式單電感雙輸出切換式轉換器 (2011/07/01 -2012/02/29)
  29. NSC-99-2815-C-006 -061 -E:應用全數位鎖相迴路技術之數位控制直流-直流轉換器 (2010/07/01 -2011/02/28)
  30. 通嘉科技股份有限公司,交錯式升壓型功因修正轉換器之數位控制技術與軟體工具環境/設計流程開發(2020/09/01~2022/08/31)
  31. 奇景光電股份有限公司,面板驅動應用之單電感雙極性電壓輸出電源晶片開發 (2021/01/01-2022/12/31)
  32. 立錡科技股份有限公司,「數位控制」電源系統/IC研發環境及設計流程開發(2021/03/01~2023/02/28)
  33. 奇景光電股份有限公司,極低功耗IoT及面板驅動應用之電源轉換IC設計 (2019/01/01-2020/12/31)
  34. 立錡科技股份有限公司,數位電源混合訊號IC之設計流程及範例開發(2019/01/01~2020/12/31)
  35. 通嘉科技股份有限公司,Boost PFC Pre-regulator及PSR multi-mode Flyback Adapter之數位控制技術開發 (2018/10/01-2020/09/30)
  36. 奇景光電股份有限公司,DC/DC轉換器之數位控制技術開發 (2016/01/01-2018/12/31)
  37. 通嘉科技股份有限公司,AC/DC轉換器之數位控制技術開發 (2016/11/01-2019/10/31)
  38. 通嘉科技股份有限公司,AC/DC轉換器及LED驅動器之數位控制技術開發 (2014/11/01-2016/10/31)
  39. 通嘉科技股份有限公司,數位相機之微處理器電源控制策略 (2010/03/01-2010/12/31)
  40. 奇景光電股份有限公司,大尺寸液晶電視源極驅動電路之低功率驅動研發 (2007/03/01 -2009/02/28)
  41. 「智慧電子混合訊號與射頻電路(MSR)設計領域課程發展計畫」(2011/10/1-2013/1/31)
  42. 「前瞻晶片系統設計 (SOC) 學程計畫- A 類計畫之 MSR 學程「數位電源控制電路與系統實作專題」課程開發 ( 第二年 ) ( 2010/02/01-2011/01/31)
  43. 「前瞻晶片系統設計 (SOC) 學程計畫- A 類計畫之 MSR 學程「數位電源控制電路與系統實作專題」課程開發 ( 第一年 ) ( 2009/03/01-2010/01/31)
  44. 「前瞻晶片系統設計人才培育先導型計畫 — 生醫智慧介面 IC 整合課程發展計畫」子計畫八「生醫電力電子系統」模組課程開發 (2008/11/01-2009/10/31)
  45. 「前瞻晶片系統設計人才培育先導型計畫 — 奈米類比積體電路」模組課程開發 (2006/09/01-2008/01/31)
Classes
112 Academic year 1
113 Academic year 1
112 Academic year 2
111 Academic year 2
111 Academic year 1
110 Academic year 2
110 Academic year 1
109 Academic year 2
109 Academic year 1
108 Academic year 2
107 Academic year 2
107 Academic year 1
106 Academic year 2
106 Academic year 1
105 Academic year 2
105 Academic year 1
104 Academic year 1
103 Academic year 2
Students
Current Academic Year Lab Members
博士班
王禎佑
碩士班
張家豪
葉家彣
鄞上智
黃俊瑋
陳彥甫
黃柏鈞
簡倚辰
盧建旭
楊鈞翰
賴冠君
羅韋韜
羅新康
朱星霖
徐銘璟
楊尚千
洪榆茜
陳裕仁
鍾沛志
吳宗諺
蘇丞泓
蔡承翰
Graduates of all Previous Years
碩士
96
瞿鴻遠   林昭雄
97
梁沛基   甯智威   曾資育   張偉勛   任永星   潘春明   邱景傳
98
吳瑞麒   張宏瑋   鄭皓元
99
張貽婷   賴聖文   陳盈吉   穆志偉   莊慧生   葉純綺
100
劉俊男   蕭俊竑   黃俊勝
101
康淑雰   陳惠姍   葉柏廷   王禎佑   李冠霖   劉俊延   劉翰虔   黃健富
102
李欣倫   郭致賢
103
包佳正   張永謙   林詩梅   王聖銘
104
陳柏銘   蔡育新   鄧君曉
105
胡宗伯   陳育煌   林靖騰
106
陳達進   張倚華   謝宗廷   朱韋銘   蔡奕洋
107
陳煜欣   許晉維   張凱璿   牛駿憑
108
林亨錡   江榮祥   楊胤迪
109
陳俊宇   姚冠伸   趙文彥   張中綸   賴冠樺
110
陳俊彥   陳柏儒   葉韋廷
111
李怡靚   張歆晢   莊凱丞   鄭仁杰   邱群硯
112
徐磊   陳志豪   吳宣甫   黃源東   蔡孟勳
博士
100
王家輝
101
楊峻泓
110
胡愷育
Honors
  1. 指導學生 葉韋廷 蔡孟勳 同學 榮獲110學年度全國大學校院積體電路設計競賽 研究所全客戶設計組 優等
  2. 指導學生 陳志豪 吳宣甫 同學 榮獲110學年度全國大學校院積體電路設計競賽 類比電路設計組 設計完成獎
  3. 指導學生 葉韋廷 蔡孟勳 同學 榮獲109學年度全國大學校院積體電路設計競賽 類比電路設計組 特優
  4. 指導學生 陳俊彥 陳俊宇 同學 榮獲109學年度全國大學校院積體電路設計競賽 類比電路設計組 優等
  5. 指導學生 莊凱丞 鄭仁杰 同學 榮獲109學年度全國大學校院積體電路設計競賽 類比電路設計組 佳作
  6. 指導學生 陳志豪 吳宣甫 同學 榮獲109學年度全國大學校院積體電路設計競賽 類比電路設計組 設計完成獎
  7. 指導學生 陳俊宇 姚冠伸 同學 榮獲108學年度斐陶斐榮譽會員
  8. 指導學生 陳俊宇 張中綸 莊凱丞 鄭仁杰 同學 榮獲108學年度全國大學校院積體電路設計競賽 類比電路設計組 佳作
  9. 指導學生 葉韋廷 顏振宇 同學 榮獲108學年度全國大學校院積體電路設計競賽 類比電路設計組 設計完成獎
  10. 指導學生胡愷育、林修賢榮獲「教育部107 學年度大學校院積體電路設計競賽,類比電路設計組」特優。
  11. 指導學生賴冠樺、陳俊宇榮獲 「2019 綠能運用與節能科技專題實作競賽 綠能運用組」 佳作
  12. 指導學生顏振宇榮獲「 107 學年度 大專學生研究計畫 大專學生研究創作獎」
  13. 指導學生鄭仁杰、陳俊彥、莊凱丞、葉韋廷、顏振宇、鄧士新榮獲「 107 學年電機工程學系畢業專題實作成果競賽 電路與系統學群」第一名
  14. 指導學生陳煜欣 榮獲「 2019國研院台灣半導體研究中心成果發表會優良晶片,類比組」 特優設計奬
  15. 榮獲成功大學106學年度 教學優良教師
  16. 指導大學部學生陳俊宇榮獲「106 學年度 大專學生研究計畫」大專學生研究創作獎。
  17. 指導碩士班學生陳煜欣榮獲「2018 綠能運用與節能科技專題實作競賽 智慧節能運用組」第二名。
  18. 指導博士班學生胡愷育榮獲「第十八屆旺宏金矽獎 設計組」優勝獎。
  19. 指導博士班學生胡愷育及碩士班學生張凱璿榮獲「教育部106 學年度大學校院積體電路設計競賽,類比電路設計組」佳作。
  20. 指導碩士班學生張倚華榮獲「106年度科林論文獎之半導體與光電科技領域碩士論文獎」。
  21. 指導碩士班學生朱韋銘、張凱璿榮獲「教育部105 學年度大學校院積體電路設計競賽,類比電路設計組」優等。
  22. 指導碩士班學生胡宗伯、陳達進、朱韋銘榮獲「2016綠能運用與節能科技專題實作競賽」優等第三名。
  23. 指導碩士班學生胡愷育、蔡奕洋榮獲「2016運用於高階量測儀器之積體電路設計競賽」優等。
  24. 指導學生朱韋銘、張凱璿榮獲「教育部104 學年度大學校院積體電路設計競賽,類比電路設計組」佳作。
  25. 指導碩士班學生林靖騰榮獲「2015運用於高階量測儀器之積體電路設計競賽,數位電路設計組」優等。
  26. 指導學生陳彥志、陳育煌榮獲「教育部103 學年度大學校院積體電路設計競賽,類比電路設計組」佳作。
  27. 指導碩士班學生蔡育新、吳書豪、林靖騰榮獲「102學年度全國大學院校院智慧電子系統(IE)設計競賽 定題挑戰組」佳作。
  28. 指導碩士班學生陳柏銘榮獲【第二十五屆 VLSI Design/CAD Symposium最佳海報獎】。
  29. 102年度智慧電子國家型科技計劃「績優計畫獎」,計畫主持人:李昆忠教授(總主持人)、陳中和教授、蔡建泓教授、邱瀝毅教授、張順志教授、林家民教授、郭致宏教授。
  30. 指導碩士班學生林詩梅、包佳正獲「教育部101 學年度大學校院積體電路設計競賽,類比電路設計組」優等。
  31. 指導碩士班學生郭致賢、王聖銘獲「教育部101 學年度大學校院積體電路設計競賽,類比電路設計組」佳作。
  32. 指導碩士班學生張永謙獲「運用於高階量測儀器之積體電路設計競賽,數位電路設計組」優等。
  33. 葉柏廷、陳惠姍、楊峻泓同學,入圍 【第二十三屆 VLSI Design/CAD Symposium最佳論文候選名單】。
  34. 指導博士班學生黃啟原與碩士班學生李冠霖獲「教育部 100 學年度大學校院積體電路設計競賽,類比電路設計組」佳作。
  35. 指導碩士班學生王禎佑、郭致賢獲「教育部 100 學年度大學校院積體電路設計競賽,類比電路設計組」佳作。
  36. 指導博士班學生楊峻泓及碩士班學生葉柏廷、劉俊延、黃崇瑋獲「100年經濟部技術處 樂活百年 搶鮮大賽」,系統實作類季軍。
  37. 指導碩士班學生黃俊勝、王禎佑獲「教育部 99 學年度大學校院積體電路設計競賽,類比電路設計組」佳作。
  38. 黃俊勝、王禎佑同學,入圍 【第二十二屆 VLSI Design/CAD Symposium最佳論文候選名單】。
  39. 指導碩士班學生陳盈吉、黃俊勝獲「教育部 98 學年度大學校院積體電路設計競賽,類比電路設計組」優等獎 (名次第一)。
  40. 指導碩士班學生陳盈吉、黃俊勝、李冠霖獲「第二屆立錡盃電源 IC 設計暨系統應用設計競賽」,電源 IC 設計組佳作。
  41. 碩士班學生鄭浩元及葉純綺之碩士論文獲得2010年「第五屆奇美獎」兩項評審團特別獎。
  42. 指導碩士班學生吳瑞騏、甯智威、梁沛基、楊峻泓、穆志偉獲「第一屆立錡盃電源IC設計暨系統應用設計競賽」,電源IC設計組佳作。
  43. 指導碩士班學生吳瑞騏獲「台灣積體電路設計學會98年度碩士論文獎」。
  44. 吳瑞騏同學,入圍 【第二十屆 VLSI Design/CAD Symposium最佳論文候選名單】。
  45. 指導博士班學生王家輝及碩士班學生鄭皓元獲「 2008 年台南區影像顯示創意專題實作競賽」,工程技術組第二名 (第一名從缺 ) 。
  46. 指導博士班學生王家輝及碩士班學生邱景傳獲「 2007 年台南區影像顯示創意專題實作競賽」,工程技術組第一名。
  47. 指導博士班學生王家輝及碩士班學生邱景傳以「 應用於大尺寸液晶顯示器之低功率輸出緩衝器」獲「 2007 年教育部全國區影像顯示科技專題實作競賽暨友達獎」,工程技術組第三名。 
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