TEEP
Program name: Microwave and Millimeter-Wave Antenna and Circuit Design
Mentor's introduction:
From 1986 to 2005, Dr. Kuo-Sheng Chin was with the Chung Shan Institute of Science and Technology, Taoyuan, as a Research Assistant, becoming an Assistant Scientist, and then an Associate Scientist. He joined Chang Gung University, Taoyuan, as a Faculty Member, in 2006, where he is currently Associate Dean of the College of Engineering and the Professor with the Department of Electronic Engineering.
Lab's introduction:
The “Electromagnetic Wave and Antenna Laboratory” is affiliated to the Department of Electronic Engineering of Chang Gung University. The laboratory is equipped with a microwave anechoic chamber, and millimeter-wave probe on-chip radiation field test equipment, as well as E5071C (frequency 300 KHz~20 GHz) and E8361C (with spread spectrum module, frequency up to 110 GHz) network analyzer. These devices adequately support research needs. In terms of computer simulation software, the laboratory is equipped with high-frequency electromagnetic simulation software HFSS and IE3D, which can conduct research smoothly in electromagnetic modeling and circuit optimization. In recent years, the laboratory has conducted in-depth research on the antenna, filter, coupler and duplexer design of 5G communication and millimeter-wave automotive radar, and has achieved many achievements. We has published nearly a hundred related papers in international academic journals and conferences such as TAP, AWPL, ACCESS, TMTT and TCPMT, and has received dozens of research grants. All graduates of this laboratory can obtain comprehensive professional training in microwave engineering and antennas, and are highly recognized by the employing companies.
Research Topics:
Advanced Driver Assistance Systems (ADAS) is currently the focus of automotive safety protection technology, in which the millimeter-wave automotive radar must be used. In addition, since the millimeter-wave band can provide large bandwidth, B5G/6G mobile communications will also develop in millimeter-wave band. This project designs microwave and millimeter-wave high-gain low-sidelobe harmonic-suppressed wideband array antenna using high-order mode patches, dipoles, slots, and parasitic elements, which can be used in microwave and millimeter wave wireless communication systems, and automotive radar systems.
Period and Subsidies:
2024/1/1-2024/12/31
The longest internship period is six months, and students must arrive in Taiwan before August 2024. Interns will receive 15,000 NTD subsidy monthly. Registration fee is free, and on-campus accommodation fee is ~$NT 520/week.
Honor:
Dr. Kuo-Sheng Chin supervised a student team to win first place in the 2009 National Electromagnetism Application Innovation Competition, Taiwan. He was one of the recipients of the Best Paper Award of the International Conference on Electromagnetic Near Field Characterization and Imaging in 2009, the Honorable Paper Award of the International High Speed Intelligent Communication Forum in 2010, the Best Student Paper Award of the International Symposium on Next-Generation Electronics in 2014, the Best Paper Award of the Taiwan Precision Engineering Workshop in 2016, and the Best Student Paper Award of 2018 The 8th International Symposium on InfoComm & Mechatronics Technology in Bio-Medical & Healthcare Application. Dr. Chin received the Outstanding Teacher Award from Chang Gung University in 2014 and 2021. He served as an Associate Editor for Microwave and Optical Technology Letters in 2019-2020. His current research interests include microwave and millimeter-wave couplers, filters, duplexers, low-temperature cofired ceramic circuits, automotive radar antennas, frequency-selective surfaces, filtering antennas, radomes, and electromagnetic pulse research.
Educational Background:
Dr. Kuo-Sheng Chin received the B.S. degree in electrical engineering from the Chung Cheng Institute of Technology, Taoyuan, Taiwan, in 1986, the M.S.E.E. degree from Syracuse University, Syracuse, NY, USA, in 1993, and the Ph.D. degree in communication engineering from National Chiao Tung University, Hsinchu, Taiwan, in 2005.
Contact Information:
Dr. Kuo-Sheng Chin
+886922233668
kschin@mail.cgu.edu.tw
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NSTC Project
114年科技部研究計畫,"可切換八波束毫米波槽孔陣列天線",114/8/1~115/7/31,計畫編號: NSTC 114-2221-E-182-037,經費1,001,000-
113年科技部研究計畫,"E頻段高增益寬頻串聯饋電貼片陣列天線",113/8/1~114/7/31,計畫編號: NSTC 113-2221-E-182-046,經費94,3000.-
112年科技部研究計畫,"可供同頻全雙工應用之寬頻雙圓極化天線",112/8/1~113/7/31,計畫編號: NSTC 112-2221-E-182-036,經費95,0000.-
112年科技部研究計畫,"具TM03模貼片及寄生元件之毫米波高增益低旁瓣陣列天線", 112/8/1~113/7/31,計畫編號: NSTC 112-2221-E-182-035,經費93,1000.-
112年科技部大專生研究計畫,林佳昌,"77/79 GHz車用高階模貼片陣列天線",112/7/1~113/2/28,計畫編號: 112-2813-C-182-006-E。
111年科技部研究計畫,"具高增益、低旁瓣及低交叉極化之79 GHz TM05模貼片陣列天線", 111/8/1~112/7/31,計畫編號: MOST 111-2221-E-182-029,經費975,000.-
111年科技部大專生研究計畫,劉冠彣,"79 GHz車用TM03模貼片陣列天線",111/7/1~112/2/28,計畫編號: 111-2813-C-182-003-E。
110年科技部研究計畫,"毫米波79 GHz單極化/雙極化寬波束陣列天線設計",110/8/1~111/7/31,計畫編號: MOST 110-2221-E-182-022,經費704,000.-
109年科技部研究計畫,"可切換四波束之輻射場型可重構雙頻偶極陣列天線",109/8/1~110/7/31,計畫編號: MOST 109-2221-E-182-047,經費956,000.-
109年科技部大專生研究計畫,李桉箐,"同時同頻全雙工4 x 4差分饋電濾波陣列天線設計",106/7/1~107/2/28,計畫編號: 109-2813-C-182-004-E
108年科技部研究計畫,"5G毫米波差分饋電濾波陣列天線設計",108/8/1~109/7/31,計畫編號: MOST 108-2221-E-182-002,經費902,000.-
108年中科院科專產學合作計畫,"毫米波基板集成波導載板設計模擬與高頻傳輸特性研究",108/1/22~108/11/30,計畫編號:NCSIST-0622-V201(108),經費 600,000.-
107年科技部研究計畫,"具有低旁波瓣位準及波束切換功能之毫米波陣列天線設計",107/8/1~108/7/31,計畫編號: MOST 107-2221-E-182-027,經費750,000.-
107年中科院科專產學合作計畫,"毫米波基板集成波導結構設計與特性研究",107/1/24~107/11/30,計畫編號:NCSIST-0622-V101(107),經費 600,000.-
106年科技部研究計畫,"多波束切換38 GHz相位陣列天線設計",106/8/1~107/7/31,計畫編號: MOST 106-2221-E-182-006,經費843,000.-
106年科技部大專生研究計畫,張晨恩,"5G通訊用多波束切換相位陣列天線設計",106/7/1~107/2/28,計畫編號: 106-2813-C-182-009-E
長庚產學合作案,"24 GHz雷達天線委託設計驗證與測試",鼎天國際公司,105/8/1~106/7/31,經費120,000.-
105年科技部研究計畫,"差分饋電之高性能60 GHz微帶天線陣列設計",105/8/1~106/7/31,計畫編號: MOST 105-2221-E-182-010,經費820,000.-
105年科技部大專生研究計畫,鄭宇峰,"設計具高頻率比及強偶合之雙頻耦合線耦合器",105/7/1~106/2/28,計畫編號: 105-2815-C-182-052-E
105年中科院科專產學合作計畫,"具備自測功能之毫米波基地台天線技術開發",105/4/1~105/11/30,計畫編號:NCSIST-AAI-V104 (105),經費 700,000.-
104年科技部研究計畫,"具有高頻率比及強耦合量之雙頻耦合器設計",104/8/1~105/7/31,計畫編號: MOST 104-2221-E-182-007,經費 702,000.-
104年科技部大專生研究計畫,林儀禎,"60 GHz高隔離度雙工器研製",104/7/1~105/2/28,計畫編號: 104-2815-C-182-033-E
102年國科會研究計畫,"60 GHz LTCC射頻前端關鍵電路研製及整合",計畫編號: NSC 102-2221-E-182-012,經費758,000.-
101年國科會研究計畫,"Ka及V頻帶LTCC 耦合共振式濾波器研究",計畫編號: NSC 101-2221-E-182-052, 經費663,000.-
100年國科會研究計畫,"雙頻功率分配器及巴倫器設計",計畫編號: NSC 100-2221-E-182-060,經費661,000.-
99-102年國科會提升私校研發能量專案計畫(整合型計畫 共同主持人),"次世代光子毫米波元件與技術之研究",計畫編號: NSC 99-2632-E-182-001-MY3,經費13,311,000.-
99年國科會研究計畫,"三種微帶線雙頻 耦合器之電路新架構與其合成方法",計畫編號: NSC 99-2221-E-182-033,經費534,000.-
99年長庚大學研究計畫,"供光纖上下鏈之毫米波收發機微型天線及帶通濾波器研製(二)",計畫編號: UERPD290051
98年長庚大學研究計畫,"供光纖上下鏈之毫米波收發機微型天線及帶通濾波器研製(一)",計畫編號: UERPD280061
97年國科會研究計畫,"微帶線雙頻帶拒及帶通濾波器合成方法研究",計畫編號: NSC 97-2221-E-182-015,經費614,000.-
97年長庚大學研究計畫,"以浮動板疊層增強耦合量及抑制虛假響應之平行耦合線帶通濾波器研究",計畫編號: UERPD270031
97年(授課教師),被動微波電路設計課程,96學年度教育部資通訊課程推廣計畫課程補助案,台顧字第0960205468A號
96年國科會研究計畫,"以單一開迴圈微帶線共振腔實現具有虛假響應抑制能力之微波帶通濾波器",計畫編號: NSC 96-2221-E-182-002,經費575,000.-
95年國科會研究計畫,"具備精確頻寬及柴比雪夫響應之平行耦合微帶線帶通濾波器之新合成方法",計畫編號: NSC 95-2221-E-182-012,經費575,000.-
95年教育部通訊科技人才培育先導型計畫特定課程補助案,(計畫主持人),被動微波電路設計課程, 台顧字第0950130909號
專利:
郭庭瑋、金國生、李仲益、孫信傑、朱陳育良 ,具高增益之高階模貼片天線 ,發明專利,發明第 I803135
郭庭瑋、金國生、李仲益、孫信傑、朱陳育良 ,差分饋電TM05模貼片陣列天線 ,發明專利,發明第 I803136
羅宏偉、金國生、李仲益、陳佳昌 ,可穿戴寬頻織物天線 ,發明專利,發明第 I707503
羅宏偉、金國生、李仲益、陳佳昌 ,可穿戴雙寬頻織物天線 ,發明專利,發明第 I707502
金國生、郭皓哲、邱啟陽、王昱中 ,具有互補式分裂環的槽孔天線 ,發明專利,發明第I608656號
金國生、李仲益、葉昱辰 ,低旁波瓣陣列天線 ,發明專利,發明第I674704
金國生、李仲益、葉昱辰 ,寬波束高增益陣列天線 ,發明專利,發明第I674703
黃鉥棚、金國生、李仲益、廖翊鈞、郭庭瑋 ,可切換三波束貼片陣列天線 ,發明專利,發明第 I707501
黃鉥棚、金國生、李仲益、廖翊鈞、郭庭瑋 ,可切換三波束貼片陣列天線之開關電路設計 ,發明專利,發明第 I708433
金國生、李仲益、廖翊鈞、郭庭瑋 ,可切換三波束SIW槽孔陣列天線 ,發明專利,發明第 I708432
李仲益, 金國生, 林信宏 ,無線基地台及其陣列天線的自我檢測方法 ,發明專利,發明第 I 617814