• 論文
  • 課程
  • 研究
  • 成員
  • 指導教授
  • 佈告欄

Selected Journal Papers:
[1] M.-J. Chiang, S. Wang, and C.-C. Hsu, “Miniaturized Printed Slot Antenna with Multi-Ring Technique for Dual-band and Broadband Operations,” IET Microwaves, Antennas & Propagation, vol. 8, Iss. 6, pp. 409-414, June 2014.
[2] S. Wang and Wen-Jie Lin, “A 10/24-GHz CMOS/IPD monopulse receiver for angle-discrimination radars,” IEEE Trans. Circuits Syst. I, Reg. Papers. vol.57 no.1, pp.2999-3006, Oct. 2014.
[3] S. Wang, “A Low-Phase-Noise Ka-Band Push-Push VCO Using CMOS/GIPD Technologies,” IEEE Trans. on Ultrasonics, Ferroelectrics, and Frequency Control, vol.61, no.9, pp.1456-1462, Sept. 2014.
[4] S. Wang and W.-J. Lin, “A C-band CMOS bandpass filter using active capacitance circuit,” IET Microwaves, Antennas & Propagation, vol. 8, Iss. 15, pp. 1416-1422, Dec. 2014.
[5] S. Wang, M.-J. Chiang, and C-T. Chang, “A novel CMOS 24-GHz in-phase power divider using synthetic coupled lines,” IEEE Trans. Components, Packaging and Manufacturing Technology, vol. 5 no. 3, pp.398-403, Mar. 2015.

[6] S. Wang and Po-Hung Chen, “A Low-Phase-Noise and Wide-Tuning-Range CMOS/IPD Transformer-Based VCO with High FOMT of -206.8-dBc/Hz,” IEEE Trans. Components, Packaging and Manufacturing Technology, vol. 6, no. 1, pp.145-152, Jan. 2016.
[7] S. Wang and C.-Y. Xiao, “A 7/24-GHz CMOS VCO with High Band Ratio Using a Current-Source Switching Topology,” accepted by IEEE Trans. on Ultrasonics, Ferroelectrics, and Frequency Control.
[8] S. Wang, C.-H. Lee, and Y.-B. Wu, “Fully-integrated 10-GHz Active Circulator and Quasi-Circulator using bridged-T networks in standard CMOS,” IEEE Trans. on Very Large Scale Integration (VLSI) Systems, vol. 24, no. 10, pp.3184–3192, Oct. 2016.
[9] S. Wang and Po-Hung Chen, “An Active Marchand Balun and Its Applications to a 24-GHz CMOS
Mixer,” IEEE Trans. Components, Packaging and Manufacturing Technology, vol. 6, no. 10, pp.1535–1541, Oct. 2016.
[10] S. Wang and K.-F. Cho, “CMOS/IPD switchable bandpass circuit for 28/39 GHz fifth-generation applications,”IET Microwaves, Antennas & Propagation, vol. 10, Iss. 14, pp. 1461–1466, Nov. 2016.

Selected Conference Papers:
[1] C.-T. Chang, and S. Wang, “A low-power CMOS low-noise amplifier for ultra-wideband applications,” in IEEE International Conference of Electron Devices and Solid-State circuits, Hong Kong, China, Jun. 3-5, 2013, pp. 1-2.
[2] S. Wang, M.-J. Chiang, and C.-C. Hsu, “A planar dual-band slot antenna design for access point application” in IEEE 2nd Global Conference on Consumer Electronics, Tokyo, Japan, Oct. 1-4, 2013, pp. 258-259.
[3] S. Wang, and W.-J. Lin, “A K-band Gm-boosting differential Colpitts VCO in 0.18-mm CMOS,” in IEEE Asia-Pacific Microwave Conference, Seoul, Korea, Nov. 5-8, 2013, pp. 1042-1045.
[4] S. Wang and C.-H. Lee, “Low-phase error and high isolation CMOS active balun,” in IEEE MTT-S Int. Dig., Jun. 2014, pp. 1–4.
[5] C.-Y. Xiao, S. Wang, and W.-H. Yen, “A CMOS direct injection-locked frequency divider with locking range enhancement,” in IEEE Asia-Pacific Microwave Conference, Sendai, Japan, Nov. 4-7, 2014, pp. 882-885.
[6] S. Wang, M.-J. Chiang, and C.-C. Hsu, “A dual-band slot antenna with two pairs of slot patches for cross-polarization reduction” in International Symposium on Antennas and Propagation, Kaohsiung, Taiwan, Dec. 2-5, 2014, pp. 465-466.
[7] R.-H. Chang, S. Wang and C.-C. Teng, “Two compact power-combining CMOS VCOs with excellent 2nd-harmonic rejection using three-conductor coupled-line,” in IEEE MTT-S Int. Dig., May 2015, pp. 1–4.
[8] K.-F. Cho and S. Wang, “A 0.4-5.3 GHz wideband LNA using resistive feedback topology,” in IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization for RF, Microwave and Terahertz Applications, Beijing, China, July 27-29, 2016, pp. 80–81.
[9] S. Wang and R.-H. Chang , “A 2.4-GHz noncontact vital-sign sensor based on two circulators and frequency-modulated /injection-locked VCO,” in URSI Asia-Pacific Radio Science Conference (AP-RASC), Seoul, Korea, Aug. 21-25, 2016, pp. 1915–1918.


Patents

Course

106-1

電磁學(四電資二)  (Syllabus)  (Lecture)

無線傳輸積體電路(電子所)  (Syllabus) (Lecture)


105-2

最後一哩路(IC布局課) (L1) (L2)

高頻電子電路(四子三甲/乙)  (Syllabus) (Lecture)  (Midterm_Sol) 產業導師教材-> 3/13(Lecture1) 5/1(Lecture2) 5/15(Lecture3) 6/5(Lecture4)

射頻被動電路設計(電子所)  (Syllabus) (Lecture)  (Midterm_Sol) 產業導師教材-> 3/13(Lecture1) 5/1(Lecture2) 5/15(Lecture3) 6/5(Lecture4)

電磁波(四電資二)  (Syllabus)  (Smith Chart)  (Midterm_Sol)


105-1

電磁學(四電資二)  (Syllabus)  (Lecture) (補充資料) (HW1)->10/28 17:00前繳交

無線傳輸積體電路(電子所)  (Syllabus) (Lecture) 產業導師教材-> 9/26(Lecture1) 10/24(Lecture2) 11/21(Lecture3) 11/28(Lecture4) 12/12(Lecture5) 12/26(Lecture6) *(期中書面報告)


104-2

最後一哩路(IC布局課) (L1) (L2)

高頻電子電路(四子三甲/乙)  (Syllabus) (Lecture) 產業導師教材->(Lecture1)(L1attached) (Lecture2)(L2attached) (L2attached1)

(L2attached2) **(學期成績)** !成績有問題的話,請在6/27(一)下午五點前通知我!

射頻被動電路設計(電子所)  (Syllabus) (Lecture) 期中書面報告->(TXT) 產業導師教材->(Lecture)


104-1

電磁學(四電資二)  (Syllabus)  (Lecture)

無線傳輸積體電路(電子所)  (Syllabus) (Lecture) 產業導師教材-> (Lecture1)


103-2

高頻電子電路(四子三甲/乙)  (Syllabus) (L1a) (L1b) (L2a) (L2b) (L3a) (L3b)(L3c) **(學期成績)** !成績有問題的話,請在6/30(二)下午五點前通知我!

射頻被動電路設計(電子所)  (Syllabus) (Lecture) 產業導師上課內容->(PDF) (補充資料) **(學期成績)** !成績有問題的話,請在6/30(二)下午五點前通知我!


103-1

電磁學(四電資二)  (Syllabus)  (Lecture) !成績有問題的話,請在1/22日中午前通知我! 祝同學們新年快樂!

無線傳輸積體電路(電子所)  (Syllabus) (Lecture) !成績有問題的話,請在1/22日中午前通知我! 祝同學們新年快樂!


102-2

高頻電路實習(四子三甲)  (Syllabus)

射頻被動電路設計(電通所)  (Syllabus) (Lecture)


102-1

電磁學(四電資二)  (Syllabus)  (Lecture) (Grade) !成績有問題的話,請在1/14日中午前通知我! 祝同學們新年快樂!

無線傳輸積體電路(電通所)  (Syllabus) (Lecture) (Grade)!成績有問題的話,請在1/14日中午前通知我! 祝同學們新年快樂!


101-2

高頻電路實習(四子三甲)  (Syllabus)-分組名單與上課時段(Grade)

積體電路佈局設計實務(四子四甲/四乙)  (Syllabus) (Lecture1) (Lecture2) (Lab1) (Lecture3a) (Lecture3b) (Lecture4) (Lab2) (Lecture5) (Lecture6) (Lab3) (Grade)

射頻被動電路設計(電通所)  (Syllabus) (Lecture1) (1_paper) (Lecture2) (2_paper) (Lecture3) (3_paper) (Lecture4) (4_paper)(Lecture5) (5_paper) (Grade)


101-1

大學入門(四子一乙)  (Syllabus)  (Week1-6) (Week7-12)(Grade)

電磁學(四電資二)  (Syllabus)  (Lecture1) (Lecture2) (Lecture3) (Lecture4) (Lecture5) (Lecture6) (Lecture7) (Grade)

無線傳輸積體電路(電通所)  (Syllabus) (Lecture1) (Lecture2) (Lecture3) (3_Paper) (Lecture4) (4_Paper) (Lecture5) (5_Paper)

(HomeworkI) (Lecture6) (6_Paper) (HomeworkII) (Lecture7)(Grade)


100-2

高頻電路實習(四子三甲)  (Syllabus)-分組名單與上課時段 (Lab1)(Lab3)(Grade)

電磁波(四電資二)  (Syllabus) Smith Chart: http://www.sss-mag.com/pdf/smithchart.pdf (Midterm_Grade) (HW1)(Grade)

積體電路佈局設計實務(四子四甲/四乙)  (Syllabus) (Lecture1) (Lecture2) (Lecture3a) (Lab1) (Lecture3b) (Lecture4) (Lab2) (Lecture5) (Lecture6) (Lab3)(Grade)

射頻被動電路設計(電通所)  (Syllabus) (Lecture1) (1 paper) (Lecture2) (2 paper) (Lecture3) (3 paper) (Lecture4) (4 paper) (Lecture5) (5_paper) (Ex1) (Grade)


100-1

實務專題(一)

大學入門(四子一乙)  (Syllabus)   (Attendance)  (Grade)

電磁學(四電資二)  (Syllabus)  (Quiz I)  (Quiz II)  (Midterm)  (Final)  (Solutions (Grade)

電磁學(電子學程)  (Syllabus)  (Midterm)  (Final)  (Solutions)  (Grade)

無線傳輸積體電路(電通所)  (Syllabus)  (Homework I(Homework II)  (Midterm)  (Final_Report)  (Final)  (Solutions)  (Grade)  (Lecture1)  (Lecture2)  (Lecture3)  (3_Paper)  (Lecture4)  (Lecture5)  (5_Paper)  (Lecture6)  (6_Paper)  (Lecture7)


99-2

高頻電路實習(四子三乙)  (Syllabus) (Lab I (Lab II)  (Lab III) (Lab IV)  (Lab V) (Attendance (Grade)

電磁波(四子三乙)  (Syllabus)  (Quiz I)  (HomeworkI)  (Midterm)  (Final)  (Solutions (Grade)

積體電路佈局設計實務(四子四甲/四乙)  (Syllabus)  (Lab I(Lab II)  (Lab III)  (Midterm (Final)  (Solutions (Grade (Lecture1)  (Lecture2)  (Lecture3)  (Lecture4)  (Lecture5) (Lecture6)  (Paper)


99-1

大學入門(四子一乙)  (Syllabus)  (Attendance(Grade)

電磁學(四電資二)  (Syllabus)  (Quiz I)  (HomeworkI)  (Midterm)  (Final)  (Solutions (Grade)

無線傳輸積體電路(電通所)  (Syllabus)  (Homework I(Homework II)  (HomeworkIII)  (Midterm (Final_Report)  (Solutions(Grade)          (Lecture1)  (Lecture2)  (Lecture3)  (3_Paper)  (Lecture4)  (Lecture5)  (5_Paper)  (Lecture6)  (6_Paper)  (Lecture7 & 8)


98-2

高頻電路實習(四子三乙)  (Syllabus) (Lab I(Lab II)  (Lab III) (Lab IV)  (Lab V) (Attendance(Grade)

電磁波(四子三乙)  (Syllabus)  (Quiz I)  (HomeworkI)  (Midterm)  (Final)  (Solutions (Grade)

積體電路佈局設計實務(四子四乙/二子四)  (Syllabus)  (Lab I(Lab II)  (Lab III)  (Midterm (Final_Report)  (Solutions(Grade)  (Lecture1)  (Lecture2)  (Lecture3)   (Lecture4)  (Lecture5)  (Lecture6)  (Paper)


Research Topic & Project
Design, Implementation and Development of CMOS RFICs & RF modules.

 

 

碩二

許耕齊、林聖哲、張心玉、王茹毓


碩一

洪盟翔、饒裕得、楊粘聖


Alumni

2012-鍾杰穎、王瑞憲、黃柏宗、李子康

2013-林文傑、張峻端、許俊傑

2014-李志軒、顏暐翰、鄧正杰

2015-張人驊、陳宜輝、陳柏宏、蕭長源

2016-卓剛甫、吳彥彬、蔡庭以

 

Sen Wang was born in Yilan, Taiwan. He received the B.S. degree in electrical engineering from National Taiwan University, Taipei, Taiwan, in 2004, and the M.S. degree and Ph.D. degree from the Graduate Institute of Communication Engineering, National Taiwan University, Taipei, Taiwan, in 2006, and 2009, respectively.
    He joined the Faculty of the Department of Electronic Engineering, National Taipei University of Technology, Taipei, Taiwan, as an Assistant Professor in February 2010. From 2013 to 2015, he also served as an Execute Secretary at the Center for Teaching & Learning Excellence in Northern Region, Ministry of Education for promoting excellent teaching & learning activities. He received the URSI Young Scientist Award in 2016. He is currently as a Full Professor, and continues his research on integrated circuit designs for research and development of RF system- on-chip, integrating active and passive microwave/millimeter-wave RF signal-processing components into a single chip. His research activities also involve the design and development of CMOS millimeter-wave and microwave active and passive circuits, the field theory analysis and design, and radar system engineering. Many research results are published in the top IEEE and IET journals or transactions. He has supervised 21 M.S. students and 2 Ph.D. students.

    Education:
      B.S. National Taiwan University 2004/06
      M.S. National Taiwan University 2006/06
      Ph.D. National Taiwan University 2009/01

   Current and Previous Positions:
     
National Taipei University of Technology : Professor 2017/02~
      National Taipei University of Technology : Associate Professor 2013/02~2017/01

   
   National Taipei University of Technology : Assistant Professor 2010/02~2013/01
  

   Office: 綜科館312-2室  E-mail: wangsen@ntut.edu.tw    Phone:
(02)-2771-2171 ext. 2226

 
新年快樂!