國立臺南大學教師基本資料

基本資料
姓名 陳居毓
系所 電機工程學系
職稱 教授
校內分機 7795
傳真
辦公室/研究室
E-mail cychen57@mail.nutn.edu.tw
網址
專長/研究領域 射頻元件設計,電磁相容設計,計算電磁波
 

畢業學校國別主修學門學位修業期間
Oakland University美國Electrical Engineering Ph. D.1996/8-1999/12

服務機關部門 / 系所職稱服務期間

著作
名稱Chu-Yu Chen*, Cheng-Ying Hsu, Sung-Fong Lin "A novel compact miniaturized wideband microstrip bandpass filters with dual-mode ring resonators" Microwave and Optical Technology Letters Volume 45,Issue 4, Date: 20 May 2005, Pages: 312-315 (SCI)
年度2005
類別期刊論文
摘要 
關鍵字 
名稱Cheng-Ying Hsu, Chu-Yu Chen* "The UWB Filter Using Dual-mode Ring ResonatorWith Spurious Passbands Suppression" Microwave journal, Nov. 2005 (SCI)
年度2005
類別期刊論文
摘要 
關鍵字 
名稱Chu-Yu Chen*, Cheng-Ying Hsu "Microstrip Interlocking Resonators Bandpass FilterWith Wide Band Rejection" Microwave and Optical Technology Letters, Vol 17, No 3, November, pp261-263, 2005 (SCI)
年度2005
類別期刊論文
摘要 
關鍵字 
名稱Chu-Yu Chen*, Cheng-Ying Hsu "Design of UWB Low Insertion Loss Bandpass Filter With Spurious Response Suppression", Microwave journal, Feb. 2006 (SCI)
年度2006
類別期刊論文
摘要 
關鍵字 
名稱Chu-Yu Chen*, Cheng-Ying Hsu " A Simple and Effective Method for Microstrip Dual-Band Filters Design ", IEEE Microwave and Wireless Components Letters, vol. 16, no. 5, pp. 246-248, May 2006 (SCI)
年度2006
類別期刊論文
摘要 
關鍵字 
名稱Chu-Yu Chen*, Cheng-Ying Hsu, and Huey-Ru Chuang " Design of Miniature Planar Dual-Band Filter Using Dual-Feeding Structures and Embedded Resonators", IEEE Microwave and Wireless Components Letters, vol. 16, no. 12, pp. 669-671, Dec. 2006 (SCI)
年度2006
類別期刊論文
摘要 
關鍵字 
名稱Chu-Yu Chen*, Li-Mei Tu, “The Design of A Dual Ultra-wide Bandpass Filter Using L-Shaped Step Impedance,”Microwave Journal, vol. 51, no. 1, Jan. 2008. (SCI)
年度2008
類別期刊論文
摘要 
關鍵字 
名稱K.-H. Pao, C.-Y. Hsu, H.-R. Chuang and C.-Y. Chen “Design of a 3-10 GHz UWB CMOS T/R Switch,” Microwave andOptical Technology Letters. vol. 50, no. 2, pp. 457-460, Feb. 2008. (SCI,EI)
年度2008
類別期刊論文
摘要 
關鍵字 
名稱C.-Y. Hsu, C.-Y Chen* and H.-R. Chuang, “A 60-GHz Millimeter-Wave Bandpass Filter Using 0.18-μm CMOS Technology,”IEEE Electron Device Letters, vol. 29, issue 3. March, (2008) pp.246-248(SCI)
年度2008
類別期刊論文
摘要
關鍵字
名稱C.-Y. Chen* and Ye S.-H. “A Symmetric Log-Periodic Balun for Ultra-Wideband Application,” Microwave and Optical Technology Letters. vol. 50, no. 4, pp. 947-948, Apr. 2008. (SCI,EI)
年度2008
類別期刊論文
摘要 
關鍵字 
名稱C.-Y. Hsu, C.-Y Chen* and H.-R. Chuang, “70 GHz Folded Loop Dual-Mode Bandpass Filter Fabricated using 0.18 um Standard CMOS Technology,”IEEE Microwave and Wireless Components Letters, vol. 18, no. 9, Sept. 2008 (SCI)
年度2008
類別期刊論文
摘要 
關鍵字 
名稱L.-K. Yeh, C.-Y. Hsu, C.-Y. Chen and H.-R. Chuang “A 24/60-GHz CMOS On-Chip Dual-Band Bandpass Filter Using Tri-section Dual-Behavior Resonators,” IEEE Electron Device Letters. vol. 29, no. 12, pp. 1373-1375, Dec. 2008.(SCI,EI)
年度2008
類別期刊論文
摘要 
關鍵字 
名稱 C.-H. Liu, C.-Y. Hsu, C.-Y. Chen* and H.-R. Chuang, “60-GHz bandpass filter with ACMRC resonator fabricated using 0.18-m CMOS technology,“ Microwave and Optical Technology Letters. vol. 51, no. 3, pp. 597-600, Mar. 2009. (SCI,EI)
年度2009
類別期刊論文
摘要 
關鍵字 
名稱C.-H. Liu, C.-Y. Hsu, H.-R. Chuang and C.-Y. Chen, “A 60-GHz millimeter-wave CMOS Marchand balun using 0.18-m CMOS technology,“ Microwave and Optical Technology Letters. vol. 51, no. 3, pp. 766-770, Mar. 2009. (SCI,EI)
年度2009
類別期刊論文
摘要 
關鍵字 
名稱C.-Y. Hsu, C.-Y. Chen* and H.-R. Chuang, “Compact Microstrip UWB Dual-band Band-pass Filter with Tunable Rejection Band,“ Journal of Electromagnetic Waves and Applications, vol. 23, no. 5-6, pp. 617-626, 2009
年度2009
類別期刊論文
摘要
關鍵字
名稱L.-K. Yeh, C.-Y. Chen*, and H.-R. Chuang "A Millimeter-Wave CPW CMOS On-Chip Bandpass Filter Using Conductor-Backed Resonators" IEEE Electron Device Letters., VOL. 31, NO. 5, MAY (2010)pp.399-401(SCI)
年度2010
類別期刊論文
摘要
關鍵字
名稱Cheng-Ying Hsu, Chu-Yu Chen and Huey-Ru Chuang "77-GHz CMOS On-Chip Bandpass Filter With Balanced and Unbalanced Outputs"IEEE Electron Device Letters., VOL. 31, NO. 11, NOVEMBER 2010 pp.1205 - 1207(SCI)
年度2010
類別期刊論文
摘要
關鍵字
名稱T.-C. Chou,M.-H. Tsai and C.-Y. Chen*,“A LOW INSERTION LOSS AND HIGH SELECTIVITY UWB BANDPASS FILTER USING COMPOSITE RIGHT/LEFT-HANDED MATERIAL,”Progress In Electromagnetics Research C, Vol. 17, 163-172, 2010
年度2010
類別期刊論文
摘要A novel bandpass ¯lter (BPF) based on the composite right/left-handed (CRLH) material and 0± feeding structure is proposed. With multiple unit-cells cascaded, the new section comprises the series interdigital capacitors and the shunt short-circuited stub inductors in the symmetric con¯guration. The circuit is designed to be unbalanced, a tunable gap between left handed and right handed modes in the ¯ ! ! diagram can control out of band performance. With careful design, a bandpass ¯lter with wide rejection band can be achieved. Furthermore, by using the 0± feeding associated structure,two extra transmission zeros are created just outside the intended passband. Finally, a three cells bandpass ¯lter has been designed and fabricated with 1.1 dB insertion loss at the center frequency of 4.2 GHz. Two transmission zeros are located at 2.95 GHz and 6.18 GHz with attenuations of !44:1 dB and !37:3 dB, respectively. Also, a wide rejection band from 5.4 to 9 GHz is obtained.
關鍵字BANDPASS FILTER , COMPOSITE RIGHT/LEFT-HANDED MATERIAL
名稱C.-Y. Chen* and C.-C. Lin, “THE DESIGN AND FABRICATION OF A HIGHLY COMPACT MICROSTRIP DUAL-BAND BANDPASS FILTER,“ Progress In Electromagnetics Research, Vol. 112, 299{307, 2011
年度2011
類別期刊論文
摘要Abstract|A highly miniaturized 2.45/5.7 GHz dual-band bandpass filter is presented in this paper. It shows that the proposed ¯lter which combines diRerent sizes of open-loop resonators can excite two desired passbands. With the meandered technology and fractal geometry, the overall size is extremely compact compared with the published dual-band bandpass ¯lters. Furthermore, the skirt selectivity of the proposed ¯lter with two transmission zeros locating at both sides of the passbands is much improved. The rejection of the spurious response from 6.7 GHz to 14.5 GHz is successfully suppressed to the level lower than !15 dB. The occupied area of the proposed ¯lter is 9:8£8:7mm2. The measurement is in good agreement with the simulation.
關鍵字DUAL-BAND BANDPASS FILTER
名稱C.-Y. Chen* and T.-C. Chou, “A MINIATURIZED CMOS ON-CHIP 60-/110-GHZ DUAL BAND BANDPASS FILTER,”J. of Electromagn. Waves and Appl., Vol. 25, 1391–1401, 2011
年度2011
類別期刊論文
摘要Abstract—This paper presents the design and implementation of a 60-/110-GHz millimeter-wave CMOS dual-band on-chip bandpass filter. This miniaturized dual-band filter using embedded metamaterial resonators (EMRs) and half wavelength open-loop resonators has been proposed. The EMRs are designed to have both left and right hand modes, which are simultaneously excited by the composite right/lefthanded(CRLH) structure. The half wavelength open-loop resonator is designed to provide another passband. Without using an external dual-band impedance transformer, the proposed structure can provide two transmission passbands. The dual-feed structure is presented to control the external quality factors of the first and second bands. Such an approach leads to a significant reduction for the on-chip area. Also, the frequency selectivity and impedance matching are further improved. Finally, this designed bandpass filter with the core size of 0.351mm × 0.245mm has been fabricated on a 0.18-μm standard CMOS process. The insertion losses at the frequencies 60 and 110GHz are 3.5 and 3.4 dB, respectively. Up to 110 GHz, the EM simulated and measured results of the proposed filter are shown in a good agreement.
關鍵字DUAL-BAND BANDPASS FILTER, CMOS
名稱A Miniaturized Dual-Band Bandpass Filter Using Embedded Resonators
年度2011
類別期刊論文
摘要A compact microstrip dual-band bandpass filter (BPF) using the embedded open-loop ring resonator is proposed. The filter can achieve two passbands without using the external dual-band impedance transformer in the input/output feeding line. Furthermore, by using the developed design method, the ratio of the first passband to the second passband can be controlled. A compact microstrip dual-band BPF operated at 2.45/5.7 GHz is demonstrated. The designed filter has low insertion loss, high rejection between the two passbands, and a very small size of 11.5 × 4.65 mm2 (0.094λ0 × 0.039 λ0), λ0 being the free-space wavelength of the center operating frequency of the 2.45 GHz. The good agreement between simulation and measurement is obtained.
關鍵字Bandpass filter (BPF), dual-band, embedded resonator,
名稱A 77-GHz miniaturized slow-wave SIR bandpass filter fabricated using 0.18-μm standard CMOS technology
年度2012
類別期刊論文
摘要This article presents a 77-GHz miniaturized on-chip bandpass filter using a 0.18-μm standard CMOS process. At first the stepped impedance resonator is used to reduce the length of the stub resonator. Then the slotted ground slow-wave structure (SGSWS) is applied for further reducion of the overall component size. The size of the designed filter with SGSWS is smaller than that of the original stub filter with a size reduction of 40% when operating at the same resonant frequency. The simulated and measured results are in good agreement. The return loss is better than 15 dB within the passband and a low insertion loss of 2.9 dB is obtained.
關鍵字77 GHz;bandpass filter;CMOS;stepped impedance resonator;slotted ground slow-wave structure;slow-wave
名稱Shunted-Line Stepped-Impedance Resonator
年度2012
類別期刊論文
摘要This article provides an extensive review of dual-band bandpass filter designs and discusses the pros and cons of these design methods. The behavior of an SLSIR proposed by the authors shows that two passbands can be generated without using external dual-band impedance transformers. Furthermore, by using the design curves shown in this article, the k and the Qe, which are used for the synthesis of a dual-band bandpass filter, can be accurately calculated. Two examples of dual-band bandpass filters operated at 1.9/5.7 and 2.45/5.7 GHz with different bandwidths was presented to show details of the design technique. The simulation and measurement results shown are in good agreement. The resulting SLSIR dual-band filters using this technique not only provide controllable responses but also have high frequency selectivity and good impedance matching with considerable size reduction. Finally, a performance comparison comparing the technique in this article with previous design methods is listed in Table 3. The design methodology should be useful in dual-band RF transceiver design.
關鍵字
名稱Microstrip Dual-Band Bandpass Filter Design With Closely Specified Passbands
年度2013
類別期刊論文
摘要Abstract—An efficient and practical design method for a dual-band bandpass filter (BPF) is presented. The electrical specifications of the filter, such as the center frequency, bandwidth, and transmission zero location, are controllable and adjustable. Once, the desired ratio of the resonant frequency of the two bands is given, the characteristic impedance of the line corresponding to the specific ratio can be accurately determined from the design curve. Compared with the conventional halfand quarter-wavelength stepped-impedance resonators (SIRs), the proposed unequal-length shunted-line stepped- impedance resonator (shunted-line SIR) can provide an efficient way to realize the dual-band filter, especially when two passbands are closely spaced. Furthermore, the multitransmission zeros and one controllable transmission zero are generated near the passbands to improve the out-of-band rejection. The design examples of microstrip dual-band BPFs operating at 2.2/3.45 and 1.95/2.65 GHz with equal absolute bandwidths and high isolation are demonstrated to validate of the design method. In the illustrated cases, a small frequency ratio of 1.3 between two resonant frequencies can be achieved. The proposed design method is very useful for the dual-band BPF design, especially when the two passbands are very close.
關鍵字Bandpass filter (BPF), dual-band, microstrip,open-loop ring resonator (OLRR), unequal-length shunted-line,stepped-impedance resonator (shunted-line SIR).