.

教授課程

 工程數學(一), 被動微波元件, 高速電路板系統設計

榮譽獎項

2016  invited as the chairman for Antenna Techniques (II) session, 2016 IEEE International Symposium on Radio-Frequency Integration Technology (RFIT2016), 24-26 Aug. 2016, Taipei, Taiwan.

2015  invited as the chairman for signal integrity and power integrity session, Asia-Pacific International Symposium on Electromagnetic Compatibility, 25-29 May 2015, Taipei, Taiwan.

2011  best teaching award from the department of electronics engineering

2006  invited as the co-chairman for recent advances on periodic and multilayered structures session, Asia-Pacific Microwave Conference, 12-15 Dec. 2006, Yokohama, Japan.

2005  invited as the co-chairman for signal integrity session, Asia Pacific Symposium on EMC, 6-9 Dec. 2005, Taipei, Taiwan.

期刊論文

• W.-C. Lu, C.-H. Wu, C.-Y. Yeh, C.-H. Wu, C.-L. Wang, and L. A. Wang, “D-shaped silicon-cored fibers as platform to build in-line Schottky photodetectors,” Photonics Technology Letters, vol. 33, no. 6, pp. 317-320, Mar. 2021.
• C.-Y. Liao, J.-D. Cai, J.-C. Guo, and C.-L. Wang, “Right-angled coplanar waveguide using short-circuited slotline,” IEEE Trans. Electromagnetic Compatibility, vol. 63, no. 1, pp. 215-228, Feb. 2021.
• S.-H. Wang, C.-C. Chang, Y.-C. Lee, and C.-L. Wang, “Compact and broadband CPW-to-RWG transition using stub resonators,” IEEE Trans. Microwave Theory and Techniques, vol. 64, no. 10, pp. 3198–3207, Oct. 2016.
• B.-R. Huang, K.-C. Chen, and C.-L. Wang, “Far-end crosstalk noise reduction using decoupling capacitor,” IEEE Trans. Electromagnetic Compatibility, vol. 58, no. 3, pp. 836–848, Jun. 2016.
• C.-C. Yeh, K.-C. Chen, and C.-L. Wang, “Common-mode noise suppression of differential serpentine delay line using timing-offset differential signal,” IEEE Trans. Electromagnetic Compatibility, vol. 57, no. 6, pp. 1457–1465, Dec. 2015.
• C.-C. Yeh, B.-R. Huang, K.-C. Chen, R.-Y. Fang, and C.-L. Wang, “Reduction of common-mode and differential-mode noises using timing-offset differential signal,” IEEE Trans. Components, Packaging, and Manufacturing Technology, vol. 5, no. 12, pp. 1818–1827, Dec. 2015.
• B. R. Huang, C. H. Chang, R. Y. Fang, and C. L. Wang, “Common-mode noise reduction using asymmetric coupled line with SMD capacitor,” IEEE Trans. Components, Packaging, and Manufacturing Technology, vol. 4, no. 6, pp. 1082–1089, Jun. 2014.
• J. K. Chuang, R. Y. Fang, and C. L. Wang, “Compact and broadband rectangular waveguide power divider/combiner using microstrip-fed antisymmetric tapered probe,” IEEE Trans. Components, Packaging, and Manufacturing Technology, vol. 4, no. 1, pp. 109–116, Jan. 2014.
• J. K. Chuang, R. Y. Fang, Y. J. Huang, Y. C. Lee, C. L. Wang, and K. Y. Lee, “A broadband-matched load using multiwalled carbon nanotubes,” IEEE Trans. Nanotechnol., vol. 12, no. 6, pp. 1213–1218, Nov. 2013.
• R. Y. Fang, and C. L. Wang, “Miniaturized microstrip-to-waveguide transition using capacitance-compensated broadside-coupled microstrip line,” IEEE Trans. Components, Packaging, and Manufacturing Technology, vol. 9, no. 9, pp. 1588–1596, Sep. 2013.
• R. Y. Fang, C. T. Wang, and C. L. Wang, “A broadband CPW to rectangular waveguide power divider using a slot,” International Journal of RF and Microwave Computer-Aided Engineering, vol. 23, no. 2, pp. 232–237, Mar. 2013.
• R. Y. Fang, C.-F. Liu, and C. L. Wang, “Compact and broadband CB-CPW-to-SIW transition using stepped-impedance resonator with 90°-bent slot,” IEEE Trans. Components, Packaging, and Manufacturing Technology, vol. 3, no. 2, pp. 247–252, Feb. 2013.
• R. Y. Fang and C. L. Wang, “Miniaturized coplanar waveguide to rectangular waveguide transition using inductance-compensated slotline,” IEEE Trans. Components, Packaging, and Manufacturing Technology, vol. 2, no. 10, pp. 1666–1671, Oct. 2012.
• C. H. Chang, R. Y. Fang, and C. L. Wang, “Bended differential transmission line using compensation inductance for common-mode noise suppression,” IEEE Trans. Components, Packaging, and Manufacturing Technology, vol. 2, no. 9, pp. 1518–1525, Sep. 2012.
• J. K. Chuang, R. Y. Fang, and C. L. Wang, “Compact and broadband microstrip-to-waveguide transition using antisymmetric tapered probes,” Electron. Lett., vol. 48, no. 6, 15th Mar. 2012.
• R. Y. Fang and C. L. Wang, “Broadband slotline-to-rectangular waveguide transition using a truncated bow-tie antenna,” IEEE Trans. Components, Packaging, and Manufacturing Technology, vol. 1, no. 8, pp. 1154–1159, Aug. 2011.
• R. Y. Fang, C. T. Wang, and C. L. Wang, “Coplanar-to-rectangular waveguide transitions using slot antennas,” IEEE Trans. Components, Packaging, and Manufacturing Technology, vol. 1, no. 5, pp. 681–688, May 2011.
• C. F. Hung, A. S. Liu, C. H. Chien, C. L. Wang, and R. B. Wu, “Bandwidth enhancement on waveguide transition to conductor backed CPW with high dielectric constant substrate,” IEEE Microwave Wireless Compon. Lett., vol. 15, pp. 128–130, Feb. 2005.
• S. W. Wang, C. H. Chien, C. L. Wang, and R. B. Wu, “A circular polarizer designed with a dielectric septum loading,” IEEE Trans. Microwave Theory Tech., vol. 52, pp. 1719–1723, Jul. 2004.
• C. L. Wang, and R. B. Wu, “Modeling and design for electrical performance of wideband flip-chip transition,” IEEE Trans. Advanced Packaging, vol. 26, no. 4, pp. 385–391, Nov. 2003.

會議論文

• Y.-C. Lee and C.-L. Wang, “Ultra-wideband microstrip-fed antenna using magnetic loop,” International Conference on Electrical Engineering and Electronics (EEE), Aug. 2021.
• C.-C. Yeh, W.-J. Chen, and C.-L. Wang, “Bended differential stripline using timing-offset differential signal,” International Symposium on Intelligent Signal Processing and Communication Systems (ISPACS), Dec. 2019.
• C.-C. Yeh, Y.-H. Lu, and C.-L. Wang, “Differential serpentine delay line using strongly-coupled turns with timing-offset differential signal,” IEEE Electrical Design of Advanced Packaging and Systems (EDAPS) Symposium, Dec. 2019.
• C.-F. Liu, Y.-H. Lu, and C.-L. Wang, “GCPW-to-SIW transition using tapered slot,” International Conference on Electrical Engineering and Electronics (EEE), Aug. 2019.
• C.-H. Chang, W.-J. Chen, and C.-L. Wang, “Right-angled differential transmission line using un-chamfered inductive layout,” International Conference on Electrical Engineering and Electronics (EEE), Aug. 2019.
• W.-C. Lu, C.-H. Wu, L. A. Wang, and C.-L. Wang, “Improved responsivity and bandwidth of Schottky photodetector made on silicon cored fiber by using D-shaped polishing method,” IEEE International Conference on Optical MEMS and Nanophotonics (OMN), Jul. 2019.
• S.-H. Wang and C.-L. Wang, “Compact and broadband 50-ohms CPW-to-RWG transition,” 40th Photonics and Electromagnetics Research Symposium (PIERS), Aug. 2018.
• C.-Y. Liao, Y.-H. Cheng, and C.-L. Wang, “Power loss reduction on right-angled CPW bend using finger slots,” IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, 2017, pp. 81–82.
• J.-K. Chuang, Y.-H. Cheng, and C.-L. Wang, “Compact and broadband microstrip-fed antenna using antisymmetric tapered probe with triangular element,” IEEE International Symposium on Radio-Frequency Integration Technology (RFIT) 2016.
• C.-C. Yeh and C.-L. Wang, “Common-mode noise reduction of right-angled coupled stripline using timing-offset differential signal,” 20th IEEE Workshop on Signal and Power Integrity, May 2016.
• C.-Y. Lin, B.-R. Huang, K.-C. Chen, and C. L. Wang, “Common-mode noise suppression using decoupling capacitor,” IEEE 4th International Symposium on Next-Generation Electronics, May 2015.
• B.-R. Huang, C.-H. Chang, R.-Y. Fang, and C. L. Wang, “Bended differential transmission line using compensation inductance and capacitance,” 19th IEEE Workshop on Signal and Power Integrity, May 2015.
• C.-Y. Lin, B.-R. Huang, Z.-S. Yan, and C. L. Wang, “Differential-mode noise suppression using L-shaped pad,” 2015 Asia-Pacific International Symposium on Electromagnetic Compatibility, May 2015.
• Y. C. Lee and C. L. Wang, “Compact and UWB microstrip-fed monopoles antenna,” IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, 2014, pp. 1827–1828.
• C. C. Yeh, B. R. Huang, R. Y. Fang, and C. L. Wang, “Differential transmission line using timing-offset differential signal,” 37th International Spring Seminar on Electronics Technology (ISSE) 2014.
• C. Y. Lin, B. R. Huang, and C. L. Wang, “Common-mode noise suppression using SMD capacitor with grounded via,” IEEE International Symposium for Design and Technology in Electronic Packaging (SIITME) 2013.
• R. Y. Fang, C. F. Liu, C. Y. Liao, and C. L. Wang, “High-low impedance transformer using transmission line method,” IEEE International Symposium for Design and Technology in Electronic Packaging (SIITME) 2013, pp. 185–189.
• C. Y. Lin, Y. C. Lee, C. Y. Liao, and C. L. Wang, “Reflection noise elimination using bondwire-free balanced CPW,” Asia-Pacific Radio Science Conference 2013, E1b-1.
• C. H. Chang, R. Y. Fang, and C. L. Wang, “Bended differential transmission line using balanced model for common-mode noise suppression,” IEEE Electrical Design of Advanced Packaging and Systems Symposium 2012, pp. 37–40.
• R. Y. Fang, J. K. Chuang, and C. L. Wang, “Coplanar waveguide-to-rectangular waveguide transition using meander slotline,” Asia-Pacific Microwave Conference 2011, pp. 399–402.
• J. K. Chuang, C. J. Hsiao, R. Y. Fang, C. L. Wang, and K. Y. Lee, “Broadband patch absorber using multi-walled carbon nanotubes,” 24th International Microprocesses and Nanotechnology Conference 2011, pp. 27P-11-30.
• C. H. Chang, R. Y. Fang, and C. L. Wang, “Bended differential transmission line using short-circuited coupled line for common-node noise suppression,” IEEE 20th Conference on Electrical Performance of Electronic Packaging and Systems 2011, pp. 291–294.
• R. Y. Fang, C. F. Liu, and C. L. Wang, “Compact stepped-impedance resonator transformer,” IEEE 20th Conference on Electrical Performance of Electronic Packaging and Systems 2011, pp. 303–306.
• R. Y. Fang, C. T. Wang, and C. L. Wang, “A direct CPW-to-rectangular waveguide transition using a dipole slot antenna,” European Microwave Conference 2009, pp. 157–160.
• R. Y. Fang and C. L. Wang, “A coplanar waveguide to rectangular waveguide transition using a truncated bow-tie antenna,” European Microwave Conference 2008, pp. 468–471.
• R. Y. Fang and C. L. Wang, “Wideband slotline-to-rectangular waveguide transition using truncated bow-tie antenna,” Asia-Pacific Microwave Conference 2006, pp. 1399–1402.
• T. H. Yang, C. F. Chen, T. Y. Huang, C. L. Wang*, R. B. Wu, “A 60GHz LTCC transition between microstrip line and substrate integrated waveguide,” Asia-Pacific Microwave Conference 2005, p1.41.
• C. F. Hung, A. S. Liu, C. L. Wang, and R. B. Wu, “A broadband conductor backed CPW to waveguide transition realized on high dielectric constant substrate,” Asia-Pacific Microwave Conference 2003, pp. 1038–1041.
• S. W. Wang, C. L. Wang, and R. B. Wu, “A novel uniplanar bandpass filter with CPW-fed step-perturbed slot ring resonator,” Asia-Pacific Microwave Conference 2003, pp. 669–672.
• C. L. Wang, and R. B. Wu, “A locally matching technique for broadband flip-chip transition design,” IEEE MTT-Symp. Dig., 2002, pp. 1397–1400.
• C. J. Tsai, C. L. Wang, and R. B. Wu, “A simple idea for realizing a sharp bandpass filter with two types of microstrip ring resonators,” Asia-Pacific Microwave Conference 2002, pp. 867–869.
• C. L. Wang, and R. B. Wu, “Wideband coplanar waveguide flip-chip transition,” Proceedings of the 2002 National Symposium on Telecommunications, RF-4-1.
• C. L. Wang, and R. B. Wu, “Locally matching design for flip-chip transition,” Asia-Pacific Microwave Conference 2001, pp. 547–549.
• W. H. Tu, C. L. Wang, and R. B. Wu, “Hermetic housing design for TR module in LMDS system,” Asia-Pacific Microwave Conference 2001, pp. 153 –156.

研究計畫

• 小型化且寬頻的矩形波導轉接及圓形波導極化器 10908~11007 科技部
• 地面電路在微型且寬頻的天線、轉接、功率分配器之應用 10808~10907 科技部
• 不需使用磅線及介電質補償的九十度彎角共面波導結構 10708~10807 科技部
• 不受輸入阻抗限制的小型化且寬頻的共面波導至矩形波導轉接 10608~10707 科技部
• 使用去耦合電容來降低遠端串擾雜訊 10508~10607 科技部
• 使用位移時間差動訊號來降低共模及差模雜訊 10408~10507 科技部
• 使用非對稱耦合線結合SMD電容來降低差動傳輸線的共模雜訊及差模反射 10308~10407 科技部
• 非對稱探針在微型且寬頻的天線、轉接、功率分配器之應用 10208~10307 國科會
• 微型且寬頻的平面傳輸線至矩形波導轉接 10108~10207 國科會
• 使用補償電感消除直角差動傳輸線的共模雜訊 10008~10107 國科會
• 寬頻共面波導至矩形波導功率分配器 99.08~100.07 國科會
• 縮小化之寬頻共面波導至基板合成波導轉接 98.08~99.07 國科會
• 截斷式領結天線於共面波導至矩形波導轉接之應用 97.08~98.07 國科會
• 低頻電台廣播所產生電波干擾之模擬分析 97.01.11~98.01.10 中華電信研究所
• 寬頻共面波導到基板合成波導之轉接 95.08~96.07 國科會