期刊論文 [1]
Tsong-Shing
Lee, Shyh-Jier Huang, and Ming-Jia
Wu, “Enhancement
of Wireless Power Transfer for Automated Guided Vehicles Considering
Disturbance Suppression,” IEEE Access, vol. 11, pp.
21508-21518, March 2023. (Impact
Factor: 3.476) [2]
Tsong-Shing
Lee, Te-Chun Hung, and Kuan-Chieh Huang, “Wireless
Power Transfer for Mobile Robot with Capacity Optimization and Dynamic
Protection Considerations,” Journal of the Chinese Institute
of Engineers, vol. 46, no. 2, pp. 128-140, January 2023. [3]
Shyh-Jier Huang, Tsong-Shing Lee, Ya-Ming Yang, and Cheng-Yi
Chen, “Intermediate
Coil-Aided Wireless Charging via Interactive Power Transmitting with
Misalignment-Tolerating Considerations,” IEEE
Transactions on Industrial Electronics, vol. 69, no. 10, pp. 9972-9983, October 2022. (Impact Factor: 8.236) [4]
Tsong-Shing Lee, Shyh-Jier Huang,
and Shuo-Huei Dai, “Contactless Power Transfer for Rail-Guided Vehicles with
Power Equalization and Efficiency Improvement Considerations,” IEEE Transactions on
Industrial Electronics, vol. 69, no. 4, pp. 3566-3576, April 2022. (Impact
Factor: 8.236) [5]
Te-Chun Hung, Tsong-Shing Lee, Kuan-Chieh Huang, and
Yu-Hsiang Chen, “Design
of a Modified-Bridge Circuit with Master-Slave Input Supply Mechanism for
Ozone-Driven System Applications,”
Electronics, 11(2), 254, pp. 1-23,
January 2022. [6]
Te-Chun Hung, Tsong-Shing Lee, Ting-Wei Wu, and Yu-Hsiang
Chen, “Investigation of Energy Delivery System with Buffering
and Recovery Capability for Energy Storage device Application,” Journal of
the Chinese Institute of Engineers, vol. 44, no. 8, pp. 727-739, November
2021. [7]
Tsong-Shing
Lee, Shyh-Jier Huang, Yu-Ren Lin, Te-Chun Hung, and Chien-Chang Chen, “Combination
of Filament-Heating and Cavity-Driven Circuit With Gain-Frequency Regulation
Control for Magnetrons,” IEEE
Transactions on Power Electronics, vol. 36, no. 2, pp. 1921-1930, February
2021. (Impact Factor: 6.153) [8]
Tsong-Shing
Lee, Shyh-Jier Huang, Shuo-Huei Dai, and Jun-Li Su, “Design of
Misalignment-Insensitive Inductive Power Transfer via Interoperable Coil Module
and Dynamic Power Control,” IEEE
Transactions on Power Electronics, vol. 35, no. 9, pp. 9024-9033, September
2020. (Impact Factor: 6.153) [9]
Shyh-Jier
Huang, Tsong-Shing Lee, Wei-Hua
Li, and Ruei-Yuan Chen, “Modular On-Road AGV Wireless Charging Systems via
Interoperable Power Adjustment,” IEEE
Transactions on Industrial Electronics, vol. 66, no. 8, pp. 5918-5928, August
2019. (Impact Factor: 7.05) [10]
Tsong-Shing Lee, Shyh-Jier Huang, Kuan-Chieh Huang, and Pang-Jen Chiang, “Modular
Design and Analysis of Plasma-Driven System with Integrated Resonant Circuit
and Capacity Expansion Mechanism,” IEEE
Transactions on Industrial Electronics, vol. 64, no. 2, pp. 1226-1234,
February 2018. (Impact Factor: 7.05) [11]
Shyh-Jier
Huang, Kuan-Chieh Huang, Te-Chun Hung, Shih-Yu Liu, Pin-Yuan Wen, and Tsong-Shing Lee, “Design of
Hybrid Power Supply System With Energy Regulation Capability for Hand-Held
Tools,” IEEE Transactions on Industrial
Electronics, vol. 64, no. 2, pp. 1148-1156, February 2017. (Impact Factor:
7.05) [12]
Tsong-Shing
Lee, Shyh-Jier Huang, Ruei-Yuan Chen, and Yun-Hsuan Yeh, “Enhancement of
Plasma-Driven System with Piezoelectric Transformer-Based Feedback Control
Approaches and Contactless Power Source,” IEEE
Transactions on Industrial Electronics, vol. 62, no. 12, pp. 7469-7478,
December 2015. (Impact Factor:
7.05) [13]
Shyh-Jier
Huang, Tsong-Shing Lee, and
Tzyy-Haw Huang, “Inductive Power Transfer Systems for PT-based Ozone-Driven
Circuit with Flexible Capacity Operation and Frequency-Tracking Mechanism,” IEEE Transactions on Industrial Electronics,
vol. 61, no. 12, pp. 6691-6699, December 2014. (Impact Factor: 7.05) [14]
Shyh-Jier
Huang, Tsong-Shing Lee, and
Peng-Yuan Lin, “Application of Piezoelectric Transformer-Based Resonant
Circuits for AC LED Lighting-Driven Systems with Frequency-Tracking
Techniques,” IEEE Transactions on
Industrial Electronics, vol. 61, no. 12, pp. 6700-6709, December 2014. (Impact
Factor: 7.05) [15] Shyh-Jier Huang and Tsong-Shing Lee, “Enhancing Luminance of CCFL-Based Lighting
System Using Low-Frequency Driving Techniques,” IEEE Transactions on Industrial Electronics, vol. 61, no. 7, pp.
3279-3287, July 2014. (Impact Factor: 7.05) 國際研討會論文 [1]
Shyh-Jier
Huang, Jeng-Yi Chen, Tsong-Shing Lee,
Ming-Jia Wu, and Yu-Ting Lin, “Design of Dual-Output Wireless Power
Transmission with Backup Power Considerations for Electric Scooter Applications,”
IEEE 45th Annual Conference of
the Industrial Electronics Society, Lisbon, Portugal, pp. 3463-3467, October
2019. [2]
Tsong-Shing Lee, Yu-Ting Lin, Shyh-Jier Huang, Jeng-Yi Chen, and Ya-Ming
Yang, “Realization Assessment of Coaxial Symmetrical Coils for Two-to-One
Inductive Power Transfer in Rail Charging Applications,” IEEE 45th Annual Conference of the Industrial Electronics
Society, Lisbon, Portugal, pp. 3474-3478, October 2019. [3]
Ya-Ming
Yang, Shyh-Jier Huang, Jeng-Yi Chen, Shuo-Huei Dai, and Tsong-Shing Lee, “Auxiliary Magnetic Repeater-Aided
Dual-Output Wireless Charging with Coupling Analysis and Power Transfer
Capability Considerations,” IEEE 45th
Annual Conference of the Industrial Electronics Society, Lisbon, Portugal, pp.
3450-3455, October 2019. [4]
Tsong-Shing Lee, Chun-Chia Chang, Shao-En Huang, Yi-Fan Chen, Yu-Lin
Chang, Te-Chun Hung, Yi-Hsuan Tsai, and Yu-Cheng Ke, “Implementation of a Power
Supply System with Burst Current Control Mechanism for Plasma Etching Process
Application,” 2018 National Conference on
Advanced Robotics, Taipei, Taiwan, August 2018. [5]
Shyh-Jier
Huang, Jun-Li Su, Shuo-Huei Dai, Cheng-Chi Tai, and Tsong-Shing Lee, “Enhancement of Wireless Power Transmission
with Foreign-Object Detection Considerations,” IEEE 6th Global Conference on Consumer Electronics,
Nagoya, Japan, pp. 191-192, October 2017. [6]
Shyh-Jier
Huang, Shuo-Huei Dai, Jun-Li Su, and Tsong-Shing
Lee, “Design of a Contactless Power Supply System with Dual Output
Capability for AGV Applications,” IEEE 6th
Global Conference on Consumer Electronics, Nagoya, Japan, pp. 195-197, October
2017. [7]
Shyh-Jier
Huang, Ding-Min Wang, Chien-Chang Chen, and Tsong-Shing Lee, “Enhancement of Magnetron-Driven System
with Simple Preheating and Power Modulation Mechanism,” IEEE 6th Global Conference on Consumer Electronics,
Nagoya, Japan, pp. 191-192, October 2017. [8]
Tsong-Shing
Lee and Cheng-Yi Chin, “Analysis of Enhanced
Compensator Circuit for Current-Mode Control Based Buck Converter Using Power Management IC,” IEEE 2016 International Automatic
Control Conference, Taichung, Taiwan, pp. 368-372, November 2016. [9]
Chen-Chi Lin, Shao-Wen Yen, Sheng-Yu Hsu,
Ting-Wei Kuo, Tsong-Shing Lee,
Chun-Hsin Liu, Shih-Liang Lin, Hsiamg-Yun Hsiao, Chih-Hao Kung, Yu-Fang Yeh,
and Yu-Hsin Lin, “AMOLED Pixel Structure Using the Close Loop Negative Feedback
Method for High Resolution Displays,” SID Symposium
Digest of Technical Papers, San Francisco, CA, USA, pp.61-64, May 2016. [10]
Shyh-Jier Huang, Pang-Jen Chiang, Tsong-Shing Lee, and Wei-Fu Su, “Enhancement of Ozone-Generation with Modular
Expansions and Dual-Drive Systems,” IEEE International Symposium on
Circuits and Systems, Montreal, Canada, pp. 209-212, May 2016. [11]
Pang-Jen Chiang, Kuan-Chieh
Huang, Shyh-Jier Huang, and Tsong-Shing Lee, “Circuit Realization and Performance
Improvement of Ozone Generation Systems Using Two-Terminal Driving Approaches,”
2015 International Conference on Green Energy Technology and Management,
Changhua, Taiwan, pp. 1-5, June 2015. [12]
Tsong-Shing Lee, Shyh-Jier Huang, Cheng-Chi Tai, Ruei-Yuan Chen, and
Bei-Ren Jiang, “Design of Wireless
Power Transfer for Dynamic Power Transmission with Position-Detection Mechanism,”
IEEE International Conference on Industrial Technology, Seville, Spain,
pp. 976-981, March 2015. [13]
Shyh-Jier
Huang, Tsong-Shing Lee, Ruei-Yuan Chen, and Yun-Hsuan Yeh, “Application of Hybrid-Loop Control Approach
to Inverter Design with Piezoelectric Transducers,” IEEE
International Conference on Industrial Technology, Seville, Spain, pp.
935-940, March 2015. [14]
Shyh-Jier
Huang and Tsong-Shing Lee, “Enhancement of piezoelectric transformer-based
LED lighting system with tracking mechanism,” IEEE International
Conference on Power Electronics and Drive Systems, Singapore, pp. 987-990,
December 2011. [15]
Shyh-Jier
Huang, Yu-Jhe Li, Bo-Ge Huang, Tzyy-Haw Huang, and Tsong-Shing Lee, “Contactless
energy-transfer system design for lithium iron phosphate battery-charging
circuits,” IEEE International Conference on Power Electronics and
Drive Systems, Kitakyushu, Japan, pp. 217-220, April 2013. [16]
Fu-Sheng
Pai, Shyh-Jier Huang, and Tsong-Shing
Lee, “Design of a PT-based resonant inverter for ozone
generation with flexible capacity operations,” IEEE International Conference on Power Electronics
and Drive Systems, Kitakyushu, Japan, pp. 1241-1244, April 2013. [17]
Shyh-Jier
Huang, Tsong-Shing Lee,
Fu-Sheng Pai, and Tzyy-Haw Huang, “Method
of feedback detection for loosely coupled inductive power transfer system with
frequency-tracking mechanism,” IEEE International Conference on Power
Electronics and Drive Systems, Kitakyushu, Japan, pp. 784-787, April 2013. [18]
Shyh-Jier Huang,
Tsong-Shing Lee, and
Cheng-Tao Hsieh, “Design of a Wireless
Power Transfer for Contactless Charging System Using Bio-Inspired Algorithm,”
IEEE International Conference on Innovations
in Bio-Inspired Computing and Applications, KaoHsiung, Taiwan, pp. 189-194,
September 2012. [19] Shyh-Jier Huang, Chia-Hung Sun, and Tsong-Shing Lee, “FPGA
Realization of Line-Interactive Uninterruptible Power Supply,” IEEE
International Conference on Power Electronics and Drive Systems, Singapore,
pp. 376-379, November 2003 研討會論文
[1] Zi-Wei
Wang, Pei-Chang Wu, Jeng-Siang Chen, Qiu-Ling Guo, and, Tsong-Shing Lee, “Realization of Long-Distance Inductive Lighting
Driving Circuit with Flexible Output via Intermediate Wireless Resonant Power Supply
Strategies,” The 17th Intelligent
Living Technology Conference, ILT 2023, Taichung, Taiwan, June 2023. (最佳論文獎) [2] Jing-Shun
Tsai, Yong-Yi Lin, Di-Yi Hou, Tsong-Shing
Lee, and Kuan-Chieh Huang, “Relay Resonator-Aided Contactless Power
Transfer System with Long-Distance Transmission Considerations Implementation of Disturbance-Insensitive
Driving Circuit via Unbalanced Resonant Strategy for DBD Ozone Generator,”
The 17th Intelligent Living
Technology Conference, ILT 2023, Taichung, Taiwan, June 2023. [3] Yi-Cheng
Tang, Tsong-Shing Lee, Zi-Ming
Wang, and Yu-Cun Chang, “Electrodeless Lamps-Driven System with
Transformer-Less Resonant Topology and Electric Equivalent Model Considerations,” The 43th
Symposium on Electrical Power Engineering, Taichung, Taiwan, December 2022. [4] Zi-Ming
Wang, Yu-Ping Lin, Yong-Yi Lin, Kuan-Chieh Huang, and Tsong-Shing Lee, “Enhancement of Wireless Charging System with Improved
Compensation Capacitance Decision Mechanisms,” The 43th
Symposium on Electrical Power Engineering, Taichung, Taiwan, December 2022. [5] Da-Lun
Chang, Cheng-Chi Tai, Cheng-Lin Yang, Tsong-Shing
Lee, and Cheng-En Ye, “Research on Resonance Characteristics of LCCL-N
Compensation for Wireless Power Transfer System and Design of Constant Voltage
Output,” The 43th Symposium on Electrical Power Engineering, Taichung,
Taiwan, December 2022. [6] Yong-Yi Lin,
Tsong-Shing Lee, Zi-Ming Wang,
and Cheng-Lin Yang, “Relay Resonator-Aided Contactless Power Transfer System
with Long-Distance Transmission Considerations,” The 16th Intelligent Living Technology Conference, ILT
2022, Taichung, Taiwan, pp. 169-174, June 2022. [7] Jeng-Siang
Chen, Yuan-Yu Lee, and Tsong-Shing
Lee, “Design of Multi-Coil Wireless Power Transfer Platform with
Flexible Charging Area Expansion Considerations,” The 16th Intelligent Living Technology Conference, ILT
2022, Taichung, Taiwan, pp. 182-187, June 2022. [8] Ming-Han
Jiang, Yu-Ping Lin, Kuan-Chieh Huang, and Tsong-Shing
Lee, “Development of Ultraviolet Light Disinfection System with
Contactless Power Transfer Techniques,” The
16th Intelligent Living Technology Conference, ILT 2022,
Taichung, Taiwan, pp. 194-198, June 2022. [9] Shyh-Jier
Huang, Tzeng-Rong Chen, Te-Chun Hung, Tsong-Shing
Lee, Yen-Chen Hung, Chen-Min Cheng, His-Cheng Lin, and Han-Sheng Hsu, “Development
of Insulation Resistance Measurement System for Multi-layer Ceramic Capacitors
with Voltage Adjustment and Testing Accuracy Improvement Considerations,” The 16th Intelligent Living
Technology Conference, ILT 2022, Taichung, Taiwan, pp. 121-126, June 2022. [10]
Tsong-Shing Lee, Kuan-Chieh
Huang, Cheng-Yang Hung, and Yuan-Yu Lee, “Tripolar
Pad for Inductive Power Transfer System with High Misalignment Tolerance using
Interactive Relay Resonators,” The 42th Symposium on Electrical
Power Engineering, Kaohsiung, Taiwan, November 2021. [11]
Tsong-Shing Lee, Kuan-Chieh Huang, Cheng-Lin Yang, and Zi-Ming Wang “Investigation on Inductive Light
Sources-Driven Circuit with Flexible Output Adjustment via Variable
Relay Resonators,” The 42th
Symposium on Electrical Power Engineering, Kaohsiung, Taiwan, November
2021. [12]
Yang-Yu
Cheng, Pin-Lun Chen, Tsong-Shing Lee,
and Ta-Lun Chang, “Research on Resonance Characteristics of Integrated LC/SS
Compensation Mechanism for On-Rails Guided Vehicle Contactless Charging
Application,” The 41th
Symposium on Electrical Power Engineering, Taipei, Taiwan, pp. 1321-1326,
September 2020. [13]
Min-Han Ho,
Ho-Lin Hu, Tsong-Shing Lee,
and Te-Chun Hung, “Research on Resonance Characteristics of Piezoelectric
Transducers Driving Circuit with LCL-T Network Compensation Mechanism,” The 41th Symposium on Electrical
Power Engineering, Taipei, Taiwan, pp. 166-171, September 2020. [14]
Wei-Long
Kuo, Tsong-Shing Lee,
Yu-Cheng Chiu, and Quan-Jun Yang, “Research on Resonance Characteristics of
Contactless Power Transmission Device with LCC/SS Compensation Mechanism for Underwater
UV Lamp,” The 41th Symposium
on Electrical Power Engineering, Taipei, Taiwan, pp. 222-227, September 2020. [15]
Shyh-Jier
Huang, Jin-Wei Guo, Tsong-Shing Lee,
and Ming-Jia Wu, “Design and Implementation of Wireless Power Transfer System
with Three-Dimensional Coil Design Applied to Factory Mobile Device,” The 41th Symposium on Electrical
Power Engineering, Taipei, Taiwan, pp. 368-373, September 2020. [16]
Wei-Ping
Liao and Tsong-Shing Lee,
“Improving the Temperature Effect of Piezoelectric Transducer in Driving System
Design Aided by Modified Resonant Circuit,” The
40th Symposium on Electrical Power Engineering, Kaohsiung,
Taiwan, September 2019. [17]
Shyh-Jier
Huang, Jeng-Yi Chen, Tsong-Shing Lee,
and Ming-Jia Wu, “Efficiency Enhancement and Coupling Analysis for Planar WPT
System with CC/CV Output Mechanism Via a Modified Repeating-Coil,” The 40th Symposium on Electrical
Power Engineering, Kaohsiung, Taiwan, September 2019. [18]
Yen-Chieh
Chang, Shyh-Jier Huang, Tsong-Shing
Lee, and Yong-Jun Wang, “Design and Enhancement of Hexagon Coil
Architecture for All-surface Induction Heating,” The 40th Symposium on Electrical Power Engineering, Kaohsiung,
Taiwan, September 2019. (優秀論文獎) [19]
Shyh-Jier
Huang, Ming-Jia Wu, Tsong-Shing Lee,
and Jeng-Yi Chen, “Wireless Charging System with Constant Current and Constant
Voltage Output Capability Using Dual Resonance Frequency Modulation Mechanism,”
The 40th Symposium on
Electrical Power Engineering, Kaohsiung, Taiwan, September 2019. [20]
Tsong-Shing Lee, Bo-Sheng Zhao, Chu-Hsien Tai, Yue-Yun Lin, Yao-Cheng Xu,
and Kai-Kuo Hsia, “Development of Multi-Coils Inductively Coupled Charging
System for Smart Robot Vacuum Cleaner Applications,” The 14th Intelligent Living Technology Conference, ILT 2019,
Taichung, Taiwan, pp. 188-192, June 2019. (最佳論文獎)
[21]
Shyh-Jier
Huang, Yu-Ting Lin, Tsong-Shing Lee,
Jun-Li Su, and Che-Jung Hsu, “Analysis and Implementation of Mutual Coupling
Characteristics with Coaxial Coils for Wireless Power Transfer System,” 2018 Taiwan Power Electronics Conference,
TPEC '15, Taichung, Taiwan, September 2018. (優秀論文獎)
[22]
Tsong-Shing Lee, Guan-Ru Jiang, Kai-Yuan Liu, Shao-En Huang, Zong-Han
Yang, Chun-Chia Chang, Te-Chun Hung, and Da-Lun Chang, “Implementation of a
Smart PT-Driven Circuit with Flexible Modular Expansion for Home Living Cleaner
Appliances,” The 13th Intelligent Living
Technology Conference, ILT 2018, Taichung, Taiwan, pp. 465-471, June 2018. (最佳論文獎)
[23]
Ya-Ming
Yang, Shyh-Jier Huang, Shuo-Huei, Jun-Li Su, and Tsong-Shing Lee, “Design and Implementation of
Two-Transmitter-Two-Receiver Wireless Power Transfer System with Coupling
Resonance Analysis,” The 38th Symposium
on Electrical Power Engineering, Chiayi, Taiwan, December 2017. (優秀論文獎)
[24]
Tsong-Shing Lee, Zong-Han Yang, Sheng-Jie Lin, Yin-Han Zhang, and Yi-Hsuan
Tsai, “Improvement of a Driver Circuit
using Frequency-Tracking Control Mechanism for Smart Cleaner Appliances,” The
12th Intelligent Living Technology Conference, ILT 2017, Taichung, Taiwan, pp. 144-149, June 2017. (最佳論文獎)
[25]
Ting-En
Lee, Tzyy-Haw Huang, Shyh-Jier Huang, Cheng-Chi Tai, Yu-Ren Lin, Tsong-Shing Lee, Te-Chun Hung,
Jer-Lun Kuo, Zhen-Mao Hung, and Chun-Li Su, “Implementation and Enhancement of Induction Power Transfer System with
Large Coil-Misalignment Capability using A Novel Transmitter Structure for EVs,”
2016 Taiwan Power Electronics Conference, TPEC '14, Changhua,
Taiwan, pp. C1-C6, September 2016. (優秀論文獎)
[26]
Shyh-Jier
Huang, Ruei-Yuan Chen, Tsong-Shing
Lee, and Bei-Ren Jiang, “Development
of Inductive Power Transfer Platform for Mobile Equipment with Pickup Position
Detection Capability,” The 35th
Symposium on Electrical Power Engineering, Kaohsiung, Taiwan, pp.
417.1-417.6, December 2014. (優秀論文獎)
[27]
Shyh-Jier
Huang, Ching-Yu Wang, Tsong-Shing Lee,
Ruei-Yuan Chen, and Chien-Hung Li, “Design
and Analysis of Enhanced Coils for Contactless Charging Platform with USB
Interface Applications,” The 9th Intelligent Living Technology
Conference, ILT 2014,
Taichung, Taiwan, pp. 213-218, June 2014. (論文佳作獎) 科技部計劃 [1]應用動態互動傳輸與拓樸可轉換策略實現新型調壓寬電壓增益之多輸出無線充電系統(112年度) [2]動態型無線供電系統開發實現AGV儲能快速充電之擬策略定與研究(大專學生研究計劃-112年度) [3]無線電能轉換系統之雙電流阻尼關鍵技術建立與新型控制策略擬定之研究(111年度) [4]嵌入無線中繼諧振策略供電實現彈性輸出暨長距離感應光源驅動電路研究(大專學生研究計劃畫-111年度) [5]電漿火炬驅動技術之整合型電路暨彈性功率調節機制分析與研究(大專學生研究計劃-110年度) [6]先進電漿電源系統之交互式感應供電策略暨模組化取電力控制整合與系統化分析(109年度) [7]含括括模組化增加輸入之整合型供電系統(大專學生研究計劃-109年度) [8]先進電漿電源系統之交互式感應供電策略暨模組化取電力控制整合與系統化分析(108年度) [9]無線供電技術之動態移動充電行為分析與研究(大專學生研究計劃-108年度) 產學計劃 [1]互動式電能傳輸調節系統之四動態無線傳輸模組開發 [2]電氣運具感應供電暨儲能規格研擬及產業技術分析 [3]無線充電模組彈性規劃暨儲能充電特性分析 [4]委託分散式質量調控系統之控制與輔助電源電路設計及佈局處理 [5]軌道交通連接電能係統雛型集成建設 [6]螺紋鋼感應加熱模組之諧振驅動電路規劃分析 [7]感應線圈模組暨電能轉換平台集成開發 [8]自動智控優化與節能效率提升增值 [9]搬運載具之非接觸式電能採集模組開發 [10] RF驅動電路與系統架構之完成分析 [11]能MPCVD之高速驅動電路與系統設計及控制方法評估 [12]集成RF電源驅動電路與系統完成優化於PECVD可實現技術研究 [13]尖端工程活線作業新技術及安全防護工具之研究 [14]無線訊號傳輸顯卡開發 專利 [1] INVERTER AND INVERTER UNIT THEREOF, 美國專利證號 US7394212B2
[2] 壓電變壓器之驅動電路, 臺灣專利證號 I302073
[3] 半導體發光元件陣列的驅動器及驅動方法, 中國專利證號 ZL200610004411.3
[4] DRIVER AND METHOD FOR DRIVING A SEMICONDUCTOR LIGHT EMITTING
DEVICE ARRAY, 美國專利證號 US7605809B2
[5] 壓電變壓器的驅動電路, 中國專利證號 ZL200610006724.2
[6] 光源驅動電路、具有電流反饋的發光裝置和平衡型變壓器, 中國專利證號 ZL200710091414.X
[7] 背光模塊, 中國專利證號 ZL200710130382.X
[8] 電流反饋及補償電路、發光二極管驅動裝置與背光系統, 中國專利證號 ZL200710166776.0
[9] DRIVER AND METHOD FOR DRIVING A SEMICONDUCTOR LIGHT EMITTING
DEVICE ARRAY, 日本專利證號 4654150
[10] PIEZOELECTRIC TRANSFORMER MODULE FOR
GENERATING BALANCE RESONANCE DRIVING CURRENT AND RELATED LIGHT MODULE, 美國專利證號 US7764024B2
[11] LED DRIVER WITH CURRENT SINK CONTROL
AND APPLICATIONS OF THE SAME, 美國專利證號 US7714517B2
[12] BACKLIGHT MODULE, 美國專利證號 US7677756B2
[13] 具有電流回授之發光裝置, 臺灣專利證號 I334123
[14] 過驅動裝置以及燈源系統, 臺灣專利證號 I319171
[15] 燈管點亮裝置, 中國專利證號 ZL200610007117.8
[16] 產生自然諧振頻率驅動電流的電換流控制模塊及光源模塊, 中國專利證號 ZL200610131794.0
[17] BACKLIGHT MODULE FOR LCD DEVICE, 美國專利證號 US8018180B2
[18] LIGHTING APPARATUS WITH CURRENT
FEEDBACK, 美國專利證號 US7872424B2
[19] 換流單元與換流器, 臺灣專利證號 I348670
[20] 產生自然諧振頻率之驅動電流之電換流控制模組以及應用其之光源模組, 臺灣專利證號 I345749
[21] 半導體發光元件陣列之驅動器及驅動方法, 臺灣專利證號 I341510
[22] 換流單元與換流器, 中國專利證號 ZL200610127481.8
[23] LIGHT-EMITTING DIODE DRIVER WITH
CONTROL DEVICE FOR DRIVING CURRENT STABILIZATION AND BACKLIGHT SYSTEM USING THE
SAME, 日本專利證號 4971949
[24] 電流回授電路、電流補償電路、發光二極體驅動裝置與背光系統, 臺灣專利證號 I374687
[25] 背光模組, 臺灣專利證號 I359316
[26] 一種具電壓轉換功能的連接器、變壓裝置及背光模塊, 中國專利證號 ZL200910203592.6
[27] 液晶顯示器之背光模組, 臺灣專利證號 I419611
[28] BACKLIGHT MODULE OF LIQUID CRYSTAL
DISPLAY DEVICE, 美國專利證號 US8653735B2
[29] 顯示裝置及無線電力傳輸系統, 臺灣專利證號 I446680
[30] 液晶顯示器之背光模組保護電路, 臺灣專利證號 I437927
[31] 液晶顯示器的背光模塊保護電路, 中國專利證號 ZL201010256921.6
[32] BACKLIGHT MODULE TRANSMITTING
ELECTRICITY THROUGH MAGNETIC FIELD INDUCTION, 美國專利證號 US9148913 B2, 2015/09/29
[33] DISPLAY DEVICE AND WIRELESS POWER
TRANSMISSION SYSTEM, 美國專利證號 US9125280B2, 2015/09/11
[34] WIRELESS POWER TRANSMISSION DEVICE, 美國專利證號 US9071126B2, 2015/06/30
[35] 觸控系統、充電系統及觸控指示裝置之充電方法, 臺灣專利證號 I514202, 2015/12/12
[36] 背光模組, 臺灣專利證號 I483041, 2015/05/01
[37] 無線電力傳輸裝置, 臺灣專利證號 I473382, 2015/02/11
[38] 顯示裝置及無線電力傳輸系統, 中國專利證號 ZL201210572938.1, 2015/05/13
[39] 無線電力傳輸裝置, 中國專利證號 ZL201210533736.6, 2015/04/29
[40] 背光模塊, 中國專利證號 ZL201210422729.9, 2015/04/15
[41] 顯示裝置, 臺灣專利證號 I559810, 2016/11/21
[42] 顯示裝置, 臺灣專利證號 I557699, 2016/11/11
[43] 液晶顯示裝置及螢幕閃爍方法, 臺灣專利證號 I555001, 2016/10/21
[44] 顯示裝置, 臺灣專利證號 I552319, 2016/10/01
[45] 無線電能傳輸裝置與方法, 臺灣專利證號 I520462, 2016/02/01
[46] Liquid crystal display device and
display flickering method, 美國專利證號 US10056044, 2018/08/21
[47] Display device, 美國專利證號 US9812083, 2017/11/07
[48] 顯示裝置, 中國專利證號 CN104080251B, 2016, 05/25
[49] 顯示裝置, 中國專利證號 CN105206213B, 2018/01/16
[50] 液晶顯示裝置及螢幕閃爍方法, 中國專利證號 CN104616634B, 2018/01/19
[51] 顯示裝置, 中國專利證號 CN1041344421B, 2017/04/12
[52] 無線電能傳輸裝置與方法, 中國專利證號 CN104242488B,
2017/06/16 指導碩博士論文 [1] 輔以LCC-SP諧振補償於軌道式感應供電之研究與特性分析
[2] 輔以主動傳輸電力調節技術之同軸對臥感應電能轉換系統設計分析
[3] 具非對稱功率調節機制之整合型LLC諧振轉換器設計於超音波換能器應用
[4] 具彈性容量操作與頻率追蹤控制之增強型電漿驅動電路開發
[5] 輔以無線供電與不對稱驅動機制於電漿產生系統設計及開發 得獎紀錄
[1] 2023 第五屆第一次電網人才發展聯盟獎學金 傑出專題成果獎(大學部) 指導老師
[2] 2023 第18屆 數位訊號處理創思設計競賽 Microchip數位訊號處理器應用組 第一名
[3] 2023 第18屆 數位訊號處理創思設計競賽 綠能與控制應用組 佳作
[4] 2023 第18屆 數位訊號處理創思設計競賽 健康照護應用組 第二名
[5] 2023 第18屆 數位訊號處理創思設計競賽 Microchip數位訊號處理器應用組 佳作
[6] 2022 全國智慧科技應用創意競賽 綠能、節能、儲能系統學生組 佳作
[7] 2022 第17屆 數位訊號處理創思設計競賽 Microchip數位訊號處理器應用組 佳作
[8] 2022 第17屆 數位訊號處理創思設計競賽 綠能與控制應用組 佳作
[9] 2022 第17屆 數位訊號處理創思設計競賽 綠能與控制應用組 佳作
[10]
2022 第17屆 數位訊號處理創思設計競賽 健康照護應用組 佳作
[11]
2021 第16屆 數位訊號處理創思設計競賽 Microchip應用組 佳作
[12]
2021 第16屆 數位訊號處理創思設計競賽 健康照護應用組 佳作
[13]
2021 第16屆 數位訊號處理創思設計競賽 綠能與控制應用組 第三名
[14]
2021 第16屆 數位訊號處理創思設計競賽 Microchip應用組 佳作
[15]
2020 第15屆 數位訊號處理創思設計競賽 Microchip應用組 佳作
[16]
2020 第15屆 數位訊號處理創思設計競賽 Microchip應用組 佳作
[17]
2020 第15屆 數位訊號處理創思設計競賽 綠能與控制應用組 第二名
[18]
2020 第15屆 數位訊號處理創思設計競賽 健康照護應用組 佳作
[19]
2020 第15屆 數位訊號處理創思設計競賽 健康照護應用組 佳作
[20]
2019 南臺科技大學 第二十二屆 校慶專題製作競賽 電機光電組 佳作
[21]
2019 第四十屆 臺灣電力工程研討會 優秀論文獎
[22]
2019 綠能運用與節能科技專題實作競賽
節能科技組 第三名
[23]
2019 綠能運用與節能科技專題實作競賽
綠能應用組 佳作
[24]
2019 第十四屆 ILT 智慧生活科技研討會 最佳論文獎
[25]
2019 第14屆 數位訊號處理創思設計競賽 健康照護組 第二名
[26]
2019 第14屆 數位訊號處理創思設計競賽 健康照護組 佳作
[27]
2019 第14屆 數位訊號處理創思設計競賽 綠能與控制應用組 佳作
[28]
2019 第14屆 數位訊號處理創思設計競賽 Microchip數位訊號處理器應用組 佳作
[29]
2019 第14屆 數位訊號處理創思設計競賽 Microchip數位訊號處理器應用組 佳作
[30] 2018 南臺科技大學 第二十一屆 校慶專題製作競賽 電機光電組 第二名
[31] 2018 南臺科技大學 第二十一屆 校慶專題製作競賽 電機光電組 佳作
[32] 2018 第十五屆 臺灣電力電子研討會 優秀論文獎
[33] 2018 綠能運用與節能科技專題實作競賽 智慧節能運用組 佳作
[34]
2018 第十三屆 ILT 智慧生活科技研討會 最佳論文獎
[35]
2018 第13屆 數位訊號處理創思設計競賽 綠能與控制應用組 佳作
[36]
2018 第13屆 數位訊號處理創思設計競賽 綠能與控制應用組 佳作
[37]
2018 第13屆 數位訊號處理創思設計競賽 Microchip數位訊號處理器應用組 第二名
[38]
2018 第13屆 數位訊號處理創思設計競賽 Microchip數位訊號處理器應用組 佳作
[39]
2017 第十二屆 ILT 智慧生活科技研討會 最佳論文獎
[40]
2017 南臺科技大學 第二十屆 校慶專題製作競賽 電機光電組 第二名
[41]
2017 第三十八屆 臺灣電力工程研討會 優秀論文獎
[42]
2017 International Symposium on Novel and Sustainable Technology Honorable Mention of Poster
Competition Award
[43]
2017 第12屆 數位訊號處理創思設計競賽 綠能與控制應用組 第二名
[44]
2017 第12屆 數位訊號處理創思設計競賽 綠能與控制應用組 佳作
[45]
2017 第12屆 數位訊號處理創思設計競賽 Microchip數位訊號處理器應用組 佳作
[46]
2017全國儲能應用專題創意競賽 佳作
[47]
2017全國儲能應用專題創意競賽 銅獎
[48]
2016 第十四屆 臺灣電力電子研討會 優秀論文獎
[49]
2016 南臺科技大學 第十九屆 校慶專題製作競賽 電機光電組 第一名
[50]
2014 第三十五屆 臺灣電力工程研討會 優秀論文獎
[51]
2014 第九屆 ILT 智慧生活科技研討會 論文佳作獎 其他項目
[1] 110 學年度 校級教學特優獎 優良教師
[2] 110 學年度 校級績優導師
[3] 109 學年度 校級教學特優獎 優良教師
[4] 109 學年度 院級績優導師
[5] 108 學年度 院級績優導師
[6] 107 學年度 校級教學甲等獎 優良教師
[7] 106 學年度 校級教學甲等獎 優良教師
[8] 106-2 學年度 績優導師獎
[9] 106 學年度 教育有愛 校園優良教師
[10]
105-2 學年度 績優導師獎
[11] 105-1 學年度 績優導師獎
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