Department of Electronic Engineering

Po-Yu Kuo, Professor

  • Title/Professor
  • Tel/(05)5342601#4334 / (05)5312063
  • Room/ES906
  • Laboratory/Computer Aided Design Lab./Semiconductor Device Process and Simulation Lab. ES1010 (#4369)、Integrated Circuit and Systems Lab. ES303
  • Education/PhD, Institute of Electrical Engineering, The University of Texas at Dallas
  • Specialty/Analog Circuit Design, Power Management Circuit, Readout Circuit of Biosensor Measurement

News

No message!

Experience

No message!

一、學術期刊論文
  1. Yu-Hsun Nien, Zhi-Xuan Kang, Tzu-Yu Su, Chih-Sung Ho, Jung-Chuan Chou, Chih-Hsien Lai, Po-Yu Kuo, Tsu-Yang Lai, Zhe˗Xin Dong, Yung-Yu Chen, and Yu-Hao Huang, 2021, Investigation of Flexible Arrayed Lactate Biosensor Based on Copper Doped Zinc Oxide Films Modified by Iron-Platinum Nanoparticles, Polymers, Vol.13, 12 pages. (SCIE)(以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型NiO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109-2221-E-224-013)
  2. Po-Yu Kuo, Zhe-Xin Dong, and Yung-Yu Chen, 2021, The Stability Analysis of Potentiometric Urea Biosensor Under Microfluidic System and Remote Measurement, IEEE Transactions on Instrumentation and Measurement, Vol.70, 13 pages. (SCI, SCIE)(以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型NiO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109-2221-E-224-013)
  3. Po-Yu Kuo, Zhe-Xin Dong, and Yung-Yu Chen, 2021, The Hysteresis Reduction Approach for Urea Biosensor Modified by Silver Nanoparticles, IEEE Transactions on Nanotechnology, Vol.20, pp.311-320. (SCI, SCIE)(以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型NiO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109-2221-E-224-013)
  4. Jung-Chuan Chou, Tsu-Yang Lai, Si-Hong Lin, Po-Yu Kuo, Chih-Hsien Lai, Yu-Hsun Nien, and Tzu-Yu Su, 2021, Characteristics and Stability of a Flexible Arrayed Uric Acid Biosensor Based on NiO Film Modified by Graphene and Magnetic Beads, IEEE Sensors Journal, Vol.21, No.6, pp.7218-7225. (SCI, SCIE)(以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型NiO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109-2221-E-224-013)
  5. Yu-Hsun Nien, Hui-Hsuan Hsu, Zhen-Rong Yong, Geng-Ming Hu, Huang-Hua Chen, Manjunath Rangasamy, Jung-Chuan Chou, Po-Yu Kuo, Chih-Hsien Lai, Cheng-Chu Ko, and Jun-Xiang Chang, 2021, The Characterization of Dye-Sensitized Solar Cell Modified by Reduced Graphene Oxide and ZrO2-Doped TiO2 Nanofibers at Low Light Intensities, IEEE Transactions on Electron Devices, Vol.68, No.3, pp.1155-1161. (SCI, SCIE)(以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型NiO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109-2221-E-224-013)
  6. Po-Yu Kuo and Yung-Yu Chen, 2021, A Novel Low Unity-Gain Frequency and Low Power Consumption Instrumentation Amplifier Design for RuO2 Uric Acid Biosensor Measurement, IEEE Transactions on Instrumentation and Measurement, Vol.70, 9 pages. (SCI, SCIE)(以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型NiO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109-2221-E-224-013)
  7. Jung-Chuan Chou, Yu-Che Lin, Chih-Hsien Lai, Po-Yu Kuo, Yu-Hsun Nien, Ruei-Hong Syu, Zhen-Rong Yong, and Yi-Ting Wu, 2021, AgNWs@TiO2 and AgNPs@TiO2 Double-Layer Photoanode Film Improving Light Capture and Application under Low Illumination, Chemosensors, Vol.9, 11 pages. (SCIE)(以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型NiO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109-2221-E-224-013)
  8. Jung-Chuan Chou, Yu-Che Lin, Chih-Hsien Lai, Po-Yu Kuo, Yu-Hsun Nien, Jun-Xiang Chang, Geng-Ming Hu, and Zhen-Rong Yong, 2021, Electron Conduction Channel of Silver Nanowire Modified TiO₂ Photoanode for Improvement of Interface Impedance of Dye-Sensitized Solar Cell, IEEE Journal of the Electron Devices Society, Vol.9, pp.250-256. (SCI, SCIE)(以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型N iO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109- 2221-E-224-013)
  9. Yu-Hsun Nien, Tzu-Yu Su, Jung-Chuan Chou, Po-Yu Kuo, Chih-Hsien Lai, Chih-Sung Ho, Zhe˗Xin Dong, Zhi-Xuan Kang, and Tsu-Yang Lai, 2021, Improving the Drift Effect and Hysteresis Effect of Urea Biosensor Based on Graphene Oxide/Nickel Oxide Sensing Film Modified either by Au Nanoparticles or γ-Fe2O3 Nanoparticles Using Back-End Calibration Circuit, IEEE Journal of the Electron Devices Society, Vol.9, pp.242-249. (SCI, SCIE)(以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型NiO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109-2221-E-224-013)
  10. Po-Yu Kuo, Ming-Hwa Sheu, Chang-Ming Tsai, Ming-Yan Tsai, and Jin-Fa Lin, 2020, A Novel Cross-Latch Shift Register Scheme for Low Power Applications, Applied Sciences, Vol.11, 11 pages. (SCIE)
  11. Yu-Hsun Nien, Geng-Ming Hu, Manjunath Rangasamy, Zhen-Rong Yong, Jung-Chuan Chou, Chih-Hsien Lai, Po-Yu Kuo, Jun-Xiang Chang, and Yu-Che Lin, 2020, Investigation on Photoanode Modified with TiO2-ZnO-Ag Nanofibers in Dye Sensitized Solar Cell under Different Intensities of Illuminations, IEEE Transactions on Electron Devices, Vol.67, No.11, pp.4983-4989. (SCI, SCIE)(以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型NiO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109-2221-E-224-013)
  12. Yu-Hsun Nien, Tzu-Yu Su, Chih-Sung Ho, Jung-Chuan Chou, Chih-Hsien Lai, Po-Yu Kuo, Zhi-Xuan Kang, Zhe-Xin Dong, Tsu-Yang Lai, and Chu-Hsuan Wang, 2020, The Analysis of Potentiometric Flexible Arrayed Urea Biosensor Modified by Graphene Oxide and γ-Fe2O3 Nanoparticles, IEEE Transactions on Electron Devices, Vol.67, No.11, pp.5104-5110. (SCI, SCIE)(以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型NiO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109- 2221-E-224-013)
  13. Yu-Hsun Nien*, Hui-Hsuan Hsu, Geng-Ming Hu, Manjunath Rangasamy, Zhen-Rong Yong, Huang-Hua Chen, Po-Yu Kuo, Jung-Chuan Chou, Chih-Hsien Lai, Chien-Hung Kuo , Cheng-Chu Ko, Jun-Xiang Chang, 2020, Study of Novel Dye-sensitized Solar Cells with Modified Photoelectrode by ZrO2 and rGO Doped TiO2 Composite Nanofibers, IEEE Transactions on Electron Devices, Vol.67, No.9, pp.3660-3666. (SCI, SCIE)(以微流體架構研究差動對參考電極整合磁珠與氧化石墨烯修飾可撓式陣列型氧化鋁鋅葡萄糖生醫感測器特性, MOST 108-2221-E-224-020)
  14. Yu-Hsun Nien, Tzu-Yu Su, Jung-Chuan Chou*, Chih-Hsien Lai, Po-Yu Kuo, Si-Hong Lin, Tsu-Yang Lai, and Manjunath Rangasamy, 2020, Investigation of Flexible Arrayed Urea Biosensor Based on Graphene Oxide/Nickel Oxide Films Modified by Au Nanoparticles, IEEE Transactions on Instrumentation and Measurement, Vol.70, pp.1-9. (SCI, SCIE)(以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型NiO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109- 2221-E-224-013)
  15. Jung-Chuan Chou*, Jun-Xiang Chang, Cheng-Chu Ko, Po-Yu Kuo, , Chih-Hsien Lai, Yu-Hsun Nien, Huang-Hua Chen, Hui-Hsuan Hsu, and Geng-Ming Hu, 2020, Improving DSSC Performance Using Enhanced Double Layers Based on Magnetic Beads and Reduced Graphene Oxide, IEEE Transactions on Nanotechnology, Vol.19, pp.375-381. (SCI, SCIE)(以微流體架構研究差動對參考電極整合磁珠與氧化石墨烯修飾可撓式陣列型氧化鋁鋅葡萄糖生醫感測器特性, MOST 108-2221-E-224-020)
  16. Yu-Hsun Nien*, Geng-Ming Hu, Manjunath Rangasamy, Huang-Hua Chen, Hui-Hsuan Hsu, Jung-Chuan Chou, Chih-Hsien Lai, Po-Yu Kuo, Cheng-Chu Ko, and Jun-Xiang Chang, 2020, Investigation of Dye-Sensitized Solar Cell With Photoanode Modified by TiO2-ZnO Nanofibers, IEEE Transactions on Semiconductor Manufacturing, Vol.33, No.2, pp.295-301. (SCI, SCIE)(以微流體架構研究差動對參考電極整合磁珠與氧化石墨烯修飾可撓式陣列型氧化鋁鋅葡萄糖生醫感測器特性, MOST 108-2221-E-224-020)
  17. Yu-Hsun Nien*, Huang-Hua Chen, Hui-Hsuan Hsu, Manjunath Rangasamy, Geng-Ming Hu, Zhen-Rong Yong, Po-Yu Kuo, Jung-Chuan Chou, Chih-Hsien Lai, Cheng-Chu Ko, and Jun-Xiang Chang, 2020, Study of How Photoelectrodes Modified by TiO2/Ag Nanofibers in Various Structures Enhance the Efficiency of Dye-Sensitized Solar Cells under Low Illumination, Energies, Vol.13, pp.1-14. (SCI, SCIE)(以微流體架構研究差動對參考電極整合磁珠與氧化石墨烯修飾可撓式陣列型氧化鋁鋅葡萄糖生醫感測器特性, MOST 108-2221-E-224-020)
  18. Jung-Chuan Chou*, Si-Hong Lin, Tsu-Yang Lai, Po-Yu Kuo, Chih-Hsien Lai, Yu-Hsun Nien, Tzu-Yu Su, 2020, A Facile Fabrication of a Potentiometric Arrayed Glucose Biosensor Based on Nafion-GOx/GO/AZO, Sensors, Vol.20, pp.1-20. (SCIE)(以微流體架構研究差動對參考電極整合磁珠與氧化石墨烯修飾可撓式陣列型氧化鋁鋅葡萄糖生醫感測器特性, MOST 108-2221-E-224-020)
  19. Jung-Chuan Chou*, Cheng-Chu Ko, Jun-Xiang Chang, Yu-Hsun Nien, Chih-Hsien Lai, Po-Yu Kuo, Huang-Hua Chen, Hui-Hsuan Hsu, and Geng-Ming Hu, 2020, Photovoltaic Properties of an rGO/Pt Counter Electrode with AZO Photoanode for Dye-sensitized Solar Cells under Low Light Intensity, IEEE Transactions on Semiconductor Manufacturing, Vol.33, No.1, pp.121-127. (SCIE)(以微流體架構研究差動對參考電極整合磁珠與氧化石墨烯修飾可撓式陣列型氧化鋁鋅葡萄糖生醫感測器特性, MOST 108-2221-E-224-020)
  20. Jung-Chuan Chou*, Si-Hong Lin, Po-Yu Kuo, Chih-Hsien Lai, Yu-Hsun Nien, Tsu-Yang Lai, and Tzu-Yu Su, 2019, Integrating a Plastic Glucose Biosensor Based on Arrayed Screen-Printed Electrodes Utilizing Magnetic Beads with a Microfluidic Device, IEEE Journal of the Electron Devices Society, Vol.7, pp.1151-1160. (SCIE)(探討磁珠與石墨烯改良可撓式陣列型氧化鎳葡萄糖及乳酸感測器之穩定性、干擾性、阻抗分析之量測於整合微流體架構, MOST 107-2221-E-224-030)
  21. Po-Yu Kuo*, Chia-Hsin Hsieh, Jin-Fa Lin, Ming-Hwa Sheu, and Yi-Ting Hung, 2019, Low Complexity and Low Power Sense-Amplifier Based Flip-Flop Design, IEICE Transactions on Electronics, Vol.E102-C, No.11, pp.833-838. (SCIE)(基於無人機應用之自動辨識與追蹤控制系統晶片設計研究, MOST 107-2221-E-224-041-MY2)
  22. Po-Yu Kuo* and Zhe-Xin Dong, 2019, A New Calibration Circuit Design to Reduce Drift Effect of RuO2 Urea Biosensors, Sensors, Vol.19, No.20, pp.1-13. (SCIE)(探討磁珠與石墨烯改良可撓式陣列型氧化鎳葡萄糖及乳酸感測器之穩定性、干擾性、阻抗分析之量測於整合微流體架構, MOST 107-2221-E-224-030)
  23. Po-Yu Kuo* and Ze-Lin Lian, 2019, NCRC to Improve Linearity and Sensitivity for RuO2 Urea Biosensor Sensing Measurement, Electronics Letters, Vol.55, No.20, pp.1076-1078. (SCIE)(探討磁珠與石墨烯改良可撓式陣列型氧化鎳葡萄糖及乳酸感測器之穩定性、干擾性、阻抗分析之量測於整合微流體架構, MOST 107-2221-E-224-030)
  24. Po-Yu Kuo* and Sheng-Da Tsai, 2019, An Enhanced Scheme of Multi-Stage Amplifier With High-Speed High-Gain Blocks and Recycling Frequency Cascode Circuitry to Improve Gain-Bandwidth and Slew Rate, IEEE Access, Vol.7, pp.130820-130829. (SCIE)(低靜態電電無負載電容低壓降線性穩壓器之研究, MOST 106-2221-E-224-052)
  25. Jung-Chuan Chou*, Si-Hong Lin, Po-Yu Kuo, Chih-Hsien Lai, Yu-Hsun Nien, Tsu-Yang Lai, and Tzu-Yu Su, 2019, A Sensitive Potentiometric Biosensor using MBs-AO/GO/ZnO Membranes-based Arrayed Screen-printed Electrodes for AA Detection and Remote Monitoring, IEEE Access, Vol.7, pp.105962-105972. (SCIE)(探討磁珠與石墨烯改良可撓式陣列型氧化鎳葡萄糖及乳酸感測器之穩定性、干擾性、阻抗分析之量測於整合微流體架構, MOST 107-2221-E-224-030)
  26. Jung-Chuan Chou*, Cian-Yi Wu, Si-Hong Lin, Po-Yu Kuo, Chih-Hsien Lai, Yu-Hsun Nien, You-Xiang Wu, and Tsu-Yang Lai, 2019, The Analysis of the Urea Biosensors Using Different Sensing Matrices Via Wireless Measurement System & Microfluidic Measurement System, Sensors, Vol.19, pp.1-11. (SCIE)(探討磁珠與石墨烯改良可撓式陣列型氧化鎳葡萄糖及乳酸感測器之穩定性、干擾性、阻抗分析之量測於整合微流體架構, MOST 107-2221-E-224-030)
  27. Jung-Chuan Chou*, Cheng-Chu Ko, Po-Yu Kuo, Chih-Hsien Lai, Yu-Hsun Nien, Jun-Xiang Chang, 2019, Fabrication of Dye-Sensitized Solar Cells Using Zinc Oxide Nanorod-Modified Titanium Dioxide Photoanode, IEEE Transactions on Nanotechnology, Vol.18, pp.553-561. (SCIE)(探討磁珠與石墨烯改良可撓式陣列型氧化鎳葡萄糖及乳酸感測器之穩定性、干擾性、阻抗分析之量測於整合微流體架構, MOST 107-2221-E-224-030)
  28. Jung-Chuan Chou*, Chien-Hung Kuo, Po-Yu Kuo, Chih-Hsien Lai, Yu-Hsun Nien, Yi-Hung Liao, Cheng-Chu Ko, Chung-Ming Yang, and Chang-Yi Wu, 2019, The Retardation Structure for Improvement of Photovoltaic Performances of Dye-sensitized Solar Cell under Low Illumination, IEEE Journal of Photovoltaics, Vol.9, No.3, pp.926-933. (SCIE)(探討磁珠與石墨烯改良可撓式陣列型氧化鎳葡萄糖及乳酸感測器之穩定性、干擾性、阻抗分析之量測於整合微流體架構, MOST 107-2221-E-224-030)
  29. Jung-Chuan Chou*, You-Xiang Wu, Po-Yu Kuo, Chih-Hsien Lai, Yu-Hsun Nien, Si-Hong Lin, Siao-Jie Yan, Cian-Yi Wu, Yi-Hung Liao, 2019, Improving the Properties of L-Ascorbic Acid Biosensor Based on GO/IGZO/Al Using Magnetic Beads, IEEE Transactions on Electron Devices, Vol.66, No.4, pp.1924-1929. (SCIE)(探討磁珠與石墨烯改良可撓式陣列型氧化鎳葡萄糖及乳酸感測器之穩定性、干擾性、阻抗分析之量測於整合微流體架構, MOST 107-2221-E-224-030)
  30. Jung-Chuan Chou*, You-Xiang Wu, Po-Yu Kuo, Chih-Hsien Lai, Yu-Hsun Nien, Si-Hong Lin, Siao-Jie Yan, Cian-Yi Wu, 2019, Determination of L-Ascorbic Acid Using MBs-AOX/GO/IGZO/Al by Wireless Sensing System and Microfluidic Framework, IEEE Access, Vol.7, pp.45872-45880. (SCIE)(探討磁珠與石墨烯改良可撓式陣列型氧化鎳葡萄糖及乳酸感測器之穩定性、干擾性、阻抗分析之量測於整合微流體架構, MOST 107-2221-E-224-030)
  31. Jung-Chuan Chou*, Cian-Yi Wu, Po-Yu Kuo, Chih-Hsien Lai, Yu-Hsun Nien, You-Xiang Wu, Si-Hong Lin, Yi-Hung Liao, 2019, The Flexible Urea Biosensor Using Magnetic Nanoparticles, IEEE Transactions on Nanotechnology, Vol.18, pp.484-490. (SCIE)(探討磁珠與石墨烯改良可撓式陣列型氧化鎳葡萄糖及乳酸感測器之穩定性、干擾性、阻抗分析之量測於整合微流體架構, MOST 107-2221-E-224-030)
  32. Shih-Chang Hsia, Jyun-Jia Ciou, and Po-Yu Kuo, 2018, A Single Chip for 4-channel LED Dimming Driver of 240W True Color Display with SPI Control, Microelectronics Journal, Vol.78, pp.16-25. (SCIE)
  33. Po-Yu Kuo* and Gang-Jhih Fan, 2018, An Improved Recycling Nested Miller Compensation Amplifier with High Gain-Bandwidth, International Journal of Engineering & Technical Research, Vol.8, No.4, pp.33-35. (其他)(科技部計畫: 低靜態電流無負載電容低壓降線性穩壓器之研究, MOST 106-2221-E-224-052)
  34. Po-Yu Kuo* and Zhih-Zhong Wu, 2017, Pre-Analyze the Noise Performance of Switched-Capacitor Low-Pass Filter, International Journal of Engineering & Technical Research, Vol.7, No.3, pp.14-17. (其他)(改良式循環摺疊疊接放大器之研究, MOST 105-2221-E-224-061)
  35. Zhi-Ming Lin, Po-Yu Kuo*, and Zhong-Cheng Su, 2017, Design a Folded Mixer with High Conversion Gain for 2-11GHz WiMAX System, IEICE Transactions on Electronics, Vol.E100-C, No.2, pp.204-210. (SCIE)(改良式循環摺疊疊接放大器之研究, MOST 105-2221-E-224-061)
  36. Guanming Huang, Donesh Gillin, Dian Zhou, Jin Liu, Xuan Zeng, and Po-Yu Kuo*, 2016, An Efficient and Robust Method to Determine the Optimal Tap Coefficients of High Speed FIR Equalizer, Science China-Information Science, Vol.60, No.2, pp.1-11. (SCIE)
  37. P.-Y. Kuo and G.-Z. Fan, 2015, Analysis and Implementation of Rayleigh Fading Channel using MATLAB, Applied Mechanics and Materials, Vol.764-765, pp.476-480. (EI)(交換式電容低通濾波器的雜訊自動化合成流程之研究, 103-2221-E-224-079-)
  38. Zhi-Ming Lin, Po-Yu Kuo*, and Shu-Chung Yi, 2014, A Novel Non-Linear Transient Analysis for Phase-Locked Loop Design, International Journal of Engineering and Technical Research, Vol.2, No.12, pp.213-220. (其他)(交換式電容低通濾波器的雜訊自動化合成流程之研究, MOST 103-2221-E-224-079)
  39. Shu-Chung Yi, Zhi-Ming Lin, Po-Yo Kuo and Hsin-Chi Lai, 2013, CMOS Driver for Heavy-Load Flat-Panel Scan-Line Circuit Based on Complementary Dual-Bootstrap, IEICE TRANSACTIONS on Electronics, Vol.E96-C, No.11, pp.1399-1403. (SCI)
  40. P.-Y. Kuo, S. Saibua, G. Huang, and D. Zhou, 2012, An Efficient Method for Evaluating Analog Circuit Performance Bounds under Process Variations, IEEE Transactions on Circuits and Systems-II (TCAS-II), Vol.59, No.6, pp.351-355. (SCI)
二、研討會論文
  1. Po-Yu Kuo and Jing-Siang Peng, 2020, An Improved Operational Transconductance Amplifier With High Gain and High Common-Mode Rejection Ratio, International Conference on Applied System Innovation 2020 (ICASI 2020), 2020/11/05-08, International (Taiwanese) Institute of Knowledge Innovation, Taitung. (應用深度學習技術於路邊停車車輛偵測之多車牌辨識系統設計, MOST 108-2221-E-224-040)
  2. Po-Yu Kuo and Jian-Hong Lin, 2020, A License Plate Recognition System Based on Deep Learning and Adaptive Threshold Method, International Conference on Applied System Innovation 2020 (ICASI 2020), 2020/11/05-08, International (Taiwanese) Institute of Knowledge Innovation, Taitung. (應用深度學習技術於路邊停車車輛偵測之多車牌辨識系統設計, MOST 108-2221-E-224-040)
  3. Po-Yu Kuo, Yung-Yu Chen, Jung-Chuan Chou, Chih-Hsien Lai, Yu-Hsun Nien, and Zhe-Xin Dong, 2020, A New Readout Circuit to Reduce Noise of the Flexible Arrayed RuO2 Uric Acid Biosensor, International Conference on Applied System Innovation 2020 (ICASI 2020), 2020/11/05-08, International (Taiwanese) Institute of Knowledge Innovation, Taitung.
  4. Po-Yu Kuo, Zhe-Xin Dong, Jung-Chuan Chou, Chih-Hsien Lai, Yu-Hsun Nien, Tsu-Yang Lai, 2020, A New Readout Circuit to Improve the Hysteresis Effect of Flexible Urea Biosensor Modified by Silver Nanoparticle, International Conference on Applied System Innovation 2020 (ICASI 2020), 2020/11/05-08, International (Taiwanese) Institute of Knowledge Innovation, Taitung.
  5. Yung-Yu Chen, Po-Yu Kuo, Jung-Chuan Chou, Chih-Hsien Lai, Yu-Hsun Nien, Zhe-Xin Dong, Tsu-Yang Lai, Tzu-Yu Su, Yu-Hao Huang, Zhi-Xuan Kang, 2020, A Low Power and High CMRR Instrumentation Amplifier for Potentiometric Biosensor Measurement System, International Electron Devices & Materials Symposium 2020, 2020/10/15-16, Chang Gung University, Taoyuan City. (以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型NiO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109- 2221-E-224-013)
  6. Yung-Yu Chen, Po-Yu Kuo, Jung-Chuan Chou, Chih-Hsien Lai, Yu-Hsun Nien, Zhe-Xin Dong, Tsu-Yang Lai, Tzu-Yu Su, Yu-Hao Huang, Zhi-Xuan Kang, 2020, The Analysis of Sensing and Material Characteristics for RuO2 Uric Acid Biosensor, International Electron Devices & Materials Symposium 2020, 2020/10/15-16, Chang Gung University, Taoyuan City. (以微流體架構探討差動對參考電極整合磁珠與石墨烯修飾可撓式陣列型NiO尿酸生醫感測器特性、穩定性之研究與後端類比讀出電路校正之量測, MOST 109- 2221-E-224-013)
  7. Po-Yu Kuo, Hong-Wei Liao, and Jing-Siang Peng, 2020, An Improved Recycling Folded-Cascode Amplifier with High Unity-Gain Frequency, 2020 IEEE International Conference on Consumer Electronics–Taiwan (2020 ICCE-TW), 2020/09/28-30, National Central University, Taoyuan.
  8. Zhe-Xin Dong and Po-Yu Kuo*, 2019, Improve the Drift Effect of RuO2 Urea Biosensor Based on Voltage Regulation Method, 2019 VLSI Design/CAD Symposium, 2019/08/06-09, Taiwan IC Design Society, Kaohsiung. (探討磁珠與石墨烯改良可撓式陣列型氧化鎳葡萄糖及乳酸感測器之穩定性、干擾性、阻抗分析之量測於整合微流體架構, MOST 107-2221-E-224-030)
  9. Po-Yu Kuo* and Ting-Yao Gao, 2019, Settling Time Enhancement of Output Capacitor-Less Low-Dropout Regulator, IEEE International Conference on Consumer Electronics–Taiwan(ICCE-TW), 2019/05/20-22, National Yilan University, Yilan, pp.1-2.
  10. Ze-Lin Lian, Po-Yu Kuo*, and Zhe-Xin Dong, 2019, Analysis Impact of Power Supply Noise for RuO2 Urea Biosensor, 2019 The 3rd IEEE & 4th The International Conference on Science, Education, and Viable Engineering(ICSEVEN 2019), 2019/04/06-10, Taiwan Association for Academic Innovation (TAAI), Ho Chi Minh. (探討磁珠與石墨烯改良可撓式陣列型氧化鎳葡萄糖及乳酸感測器之穩定性、干擾性、阻抗分析之量測於整合微流體架構, MOST 107-2221-E-224-030)
  11. Zhe-Xin Dong, Po-Yu Kuo*, and Ze-Lin Lian, 2019, Design the Calibration Circuit to Improve the Drift Effect of RuO2 Hydrogen Ion Sensing Device, 2019 The 3rd IEEE & The 4th International Conference on Science, Education and Viable Engineering(ICSEVEN 2019), 2019/04/06-10, Taiwan Association for Academic Innovation (TAAI), Ho Chi Minh City. (探討磁珠與石墨烯改良可撓式陣列型氧化鎳葡萄糖及乳酸感測器之穩定性、干擾性、阻抗分析之量測於整合微流體架構, MOST 107-2221-E-224-030)
  12. 郭柏佑, 郭秋勳, 2018, 數位時代的教育資源應用, 2018數位時代的教育發展論壇, 2018/06/15, 國立公共資訊圖書館, 台中市, pp.7-20.
  13. Ming-Yan Tsai, Po-Yu Kuo, Jin-Fa Lin, Ming-Hwa Sheu, 2018, An Ultra-low-power True Single-phase Clocking Flip-flop with Improved Hold time Variation using Logic Structure Reduction Scheme, 2018 IEEE International Symposium on Circuits and Systems (ISCAS), 2018/05/27-30, University of Pavia, Florence, Italy, pp.1-4.
  14. Po-Yu Kuo* and Jia-Wei Wan, 2018, A Novel Optimal Route Planning Based on Ramp Lowest Point Search Method for Unmanned Aerial Vehicle, 2018 IEEE International Conference on Consumer Electronics-Taiwan (ICCE-TW), 2018/05/19-21, National Chung Hsing University, Taichung City. (科技部計畫: 低靜態電流無負載電容低壓降線性穩壓器之研究, MOST 106-2221-E-224-052)
  15. Po-Yu Kuo* and Qi-Jun Zhuang, 2018, Analyze Buck Converter with PWM Feedback Circuit Using Matlab Simulink tool, 2018 IEEE International Conference on Consumer Electronics-Taiwan (ICCE-TW), 2018/05/19-21, National Chung Hsing University, Taichung City. (科技部計畫: 低靜態電流無負載電容低壓降線性穩壓器之研究, MOST 106-2221-E-224-052)
  16. Po-Yu Kuo* and Che-Hao Chang, 2017, An Output-Capacitorless Low-Dropout Regulator with -132dB PSRR at 1KHz, 2017 IEEE International Conference on Consumer Electronics-Taiwan (ICCE-TW), 2017/06/12-14, National Taipei University of Technology, Taipei City, pp.175-176. (改良式循環摺疊疊接放大器之研究, MOST 105-2221-E-224-061)
  17. Po-Yu Kuo* and Sheng-Da Tsai, 2017, A Compensation Technique for Recycling Folded-Cascode Amplifier, 2017 IEEE International Conference on Consumer Electronics-Taiwan (ICCE-TW), 2017/06/12-14, National Taipei University of Technology, Taipei City, pp.167-168. (改良式循環摺疊疊接放大器之研究, MOST 105-2221-E-224-061)
  18. Po-Yu Kuo* and Sheng-Da Tsai, 2017, A High Slew Rate Multi-Stage Amplifier Design, 2017中華民國系統科學與工程研討會, 2017/05/19-20, 中華民國系統學會, 台北市, pp.258-260. (改良式循環摺疊疊接放大器之研究, MOST 105-2221-E-224-061)
  19. 郭柏佑*, 張哲豪, 2017, 高電源電壓抑制比無負載電容式低壓降穩壓器設計, 2017第十五屆微電子技術發展與應用研討會, 2017/05/19, 國立高雄海洋科技大學, 高雄市, pp.296-301. (改良式循環摺疊疊接放大器之研究, MOST 105-2221-E-224-061)
  20. Po-Yu Kuo*, Zong-Syuan Sie, Guan-Hong Liou, Jhih-Hao Zou, 2016, Design automation tool for noise performance of Sallen-Key filter, 2016 Asia-Pacific Conference on Engineering and Applied Sciences (2016 APCEAS), 2016/08/25-27, Higher Education Forum, Tokyo, pp.59-60. (改良式循環摺疊疊接放大器之研究, MOST 105-2221-E-224-061)
  21. Po-Yu Kuo*, Gang-Jhih Fan, and Sheng-Da Tsai, 2016, The Enhancement of Recycling Folded Cascode Amplifier, 2016 IEEE International Conference on Consumer Electronics-Taiwan (ICCE-TW), 2016/05/27-29, National Chi Nan University, Nantou County, Taiwan, pp.1-2.
  22. 郭柏佑, 2016, 交換式電容低通濾波器的雜訊自動化合成流程, 第十四屆微電子技術發展與應用研討會, 2016/05/20, 國立高雄海洋科技大學, 高雄市, 國立高雄海洋科技大學.
  23. 郭柏佑, 夏世昌, 范振文, 吳志中, 2015, 智慧型照度調控系統, 2015智慧電子應用設計研討會, 2015/11/30, 國立高雄應用科技大學, 高雄, 國立高雄應用科技大學, 高雄. (104-105年智慧電子跨領域應用專題系列課程計畫)
  24. Po-Yu Kuo, Gang-Zhi Fan and Chi-Huang Chiu, 2015, Analyze Power Supply Rejection Ratio of LDO Regulator Based on Accurate Small Signal Model, The International Conference on Electronics and Software Science(ICESS2015), 2015/07/20-22, Kagawa University, Takamatsu, pp.124-128. (交換式電容低通濾波器的雜訊自動化合成流程之研究, MOST 103-2221-E-224-079)
  25. Po-Yu Kuo and Liao-Fong Sie, 2015, Analyze the Behavior Model Based on Verilog-A for Sallen-Key Low-Pass Filter, IEEE International Conference on Consumer Electronics–Taiwan (IEEE 2015 ICCE-TW), 2015/06/06-08, 台科大, 台科大, 台北市, pp.460-461. (交換式電容低通濾波器的雜訊自動化合成流程之研究, MOST 103-2221-E-224-079)
  26. Po-Yu Kuo, Ting-Hao Kan, and Kuo-Yen Hsu, 2015, The Standard Design Flow for Two-Stage Amplifier Design, IEEE International Conference on Consumer Electronics–Taiwan (IEEE 2015 ICCE-TW), 2015/06/06-08, 台科大, 台科大, 台北市, pp.458-459. (交換式電容低通濾波器的雜訊自動化合成流程之研究, MOST 103-2221-E-224-079)
  27. Po-Hui Yang, Jing-Min Chen, Po-Yu Kuo, Chia-Chun Wu, 2015, Application on Metastable Measurement with Wide Range High Resolution VDL Circuit, International Conference on Electrical Engineering and Technology (ICEET 2015), 2015/05/28-29, World Academy of Science, Engineering and Technology, Tokyo.
  28. 郭柏佑, 2014, 智慧照明電能監控系統, 智慧電子應用設計研討會, 2014/12/04, 智慧電子應用設計(IED)聯盟, 高雄市, 高雄應用科技大學. (交換式電容低通濾波器的雜訊自動化合成流程之研究, MOST 103-2221-E-224-079)
  29. 郭柏佑, 2014, 智慧型藍芽電錶, 智慧電子應用設計研討會, 2014/12/04, 智慧電子應用設計(IED)聯盟, 高雄市, 高雄應用科技大學. (交換式電容低通濾波器的雜訊自動化合成流程之研究, MOST 103-2221-E-224-079)
  30. 郭柏佑, 2014, Analysis and Implementation of Rayleigh Fading Channel Using MATLAB, The 3rd International Conference on Engineering and Technology Innovation 2014, 2014/10/31-2014/11/04, Taiwan Association of Engineering and Technology Innovation (TAETI), Kenting, pp.25. (交換式電容低通濾波器的雜訊自動化合成流程之研究, MOST 103-2221-E-224-079)
  31. 郭柏佑, 2014, A Novel Approach to Analyze the Impact of PSRR for Low-Dropout Regulator Under Parameter Variations, 第九屆智慧生活科技研討會(ILT 2014), 2014/06/06, 勤益科技大學電子工程系, 台中市, 勤益科技大學. (本校鼓勵性專題研究計畫, 103-T07)
  32. 郭柏佑, 2014, Apply Breadth-First Search and Depth-First Search on Android Environment, 第九屆智慧生活科技研討會(ILT 2014), 2014/06/06, 勤益科技大學電子工程系, 台中市, 勤益科技大學. (本校鼓勵性專題研究計畫, 103-T07)
  33. 郭柏佑, 2013, Analyze and Design the Accurate Behavior Model for PSRR of The Low-Dropout Regulator, 第24屆超大型積體電路設計暨計算機輔助設計技術研討會(The 24th VLSI Design/CAD Symposium), 2013/08/06-09, 國立中央大學電機系/智慧晶片及系統中心, 高雄市, S16-4.
  34. 郭柏佑, 2013, TMS320C600 Non-Power of 2 Circular Buffers Implementation and optimization, 第八屆智慧生活科技研討會, 2013/06/07, 國立勤益科技大學資訊工程系(所), 台中市, 勤益科技大學.

Plan

No message!

Teaching Materials

No message!

Research Team

No message!

Event Album

No message!

Department of Electronic Engineering, YunTech

123 University Road, Section 3,Douliou, Yunlin 64002, Taiwan, R.O.C. (Department of Electronic Engineering Office ES202)

Tel:+886-5-534-2601 Ext.4301 4302 4303 / Fax:+886-5-531-2063

Email:uel@yuntech.edu.tw

Quick Link

News

About Us

Admissions

Faculty

Courses

Plan

Student

YunTech

繁體中文

Facebook

© Department of Electronic Engineering.
Web Design DESIGNGOGO