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高頻電路及微波晶片設計實驗室

高頻電路及微波晶片設計實驗室

 

負責教師
  陳浩暉老師、許耀文老師
   
使用教師
  陳浩暉老師、許耀文老師
   
建置目的
  培育理論與實務兼具之高頻微波元件、電路、與應用系統的設計開發人才。
   
發展特色
  跨學程整合發展類比積體電路、射頻積體電路、高頻電路設計成為整合型類比積體電路晶片與射頻通訊電路研發設計中心。
   
教學研究重點
  高頻通訊電路的設計與實現
  無線通訊系統的實務應用
  各式驅動電路的設計與實現
  微波射頻元件與電路的設計開發
  射頻積體電路與元件的設計開發
   

 

高頻電路及微波晶片設計實驗室-設備

設備 數量 與課程之配合情形
Agilent E5071C 9KHz-8.5GHz
Network Analyzer
1 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
ROHDE&SCHWARZ ZVL 9KHz-3GHz Network Analyzer 1 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
Agilent N9310A RF Signal Generator 9KHz-3GHz 1 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
ROHDE&SCHWARZ SM300 RF Signal Generator 9KHz-3GHz 1 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
ROHDE&SCHWARZ FSL 9KHz-3GHz
Spectrum Analyzer
1 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
個人電腦 Lenovo Think Center A55 2 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
個人電腦Lenovo Think Center A55 2 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
個人電腦 Acer 2 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
電路皮雕刻機 1 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
acer筆記型電腦 1 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
ZV-Z121 Calibration Kit 校正儀器 1 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
HP LT P2015N印表機 1 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
Agilet N9320A 9KHz-3GHz Spectrum Analyzer 1 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
Agilet N1996A 100KHz-6GHz Spectrum Analyzer 1 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習
Agilet E4432B 250KHz-3GHz ESG-D SERIES SIGNAL GENERATOR 1 類比電路設計與實習、射頻積體電路設計、射頻辨識系統原理與應用、高頻電路設計與實習

 

高頻電路及微波晶片設計實驗室-研究成果

(A) 得獎紀錄
  教育部2007年全國技專校院學生實務專題製作競賽 卓越獎(第一名): 全彩LED 驅動電路設計與實現
  2007創意校園文化–全國LED創意設計競賽 入選獎
   
(B) 期刊論文Journal Papers
  [1] J.-T. Kuo, K.-Y. Su, D.-Y. Liu, H.-H. Chen, and S.-J. Chung, "Analytical Calculation for DC Inductances of Rectangular Spiral Inductors With Finite Metal Thickness in the PEEC Formulation," IEEE Microw. Wireless Compon. Lett., Vol. 16, pp. 69-71, Feb. 2006.
  [2] S.-C. Hsia, M.-H. Chen, P.-S. Tsai, “VLSI Implementation of Low-power High-Quality Color Interpolation Processor for CCD Camera”, IEEE Trans.  VLSI Systems, Vol. 14, No. 4, pp.361-369, Apr. 2006.
  [3] H.-H. Chen, C.-T. Lee, Y.-H. Chou, R.-C. Hsieh, and C.-C. Yeh, "Analysis of Cylindrical Transmission Lines Using Finite-Element Method Coupled With Cylindrical Method of Line," Int'l J. Microw. Opt. Tech., Vol. 1, pp. 238-244, Aug. 2006.
  [4] Y.-H. Chou, L.-J. Chen, P.-H. Liao, and H.-H. Chen, "Design of a Miniaturized Front-End Passive Integrated Module for WLAN Using LTCC," Int'l J. Microw. Opt. Tech., Vol. 1, pp. 384-388, Aug. 2006.
  [5] S.-C. Hsia, M.-H. Chen, and Y.-M. Chen, “A Cost-Effective Line-Based Light-Balancing Technique Using Adaptive Processing”, IEEE Trans. Image Processing, Vol. 15, No. 9, pp.2719-2729, Sep. 2006.
  [6] H.-H. Chen, S.-F. Yeh, Y.-H. Chou, and R.-C. Hsieh, "An FEM-MoL Approach for the Analysis of Three-Dimensional Electromagnetic Cavities," IET Microw. Antennas Propaga., (formerlyIEE Proc. - Microw., Antennas Propaga.), Vol. 1, pp. 751-756, June 2007.
  [7] R.-C. Hsieh, Y.-C. Chen, W.-J. Liu, H.-H. Chen, and Y.-H. Chou, " Computer-Aided Design of Planar Bandpass Filter," Int'l J. RF Microw. Comput-Aid Eng., Vol. 18, pp. 127-140, Feb. 2008.
  [8] R.-C. Hsieh, Y.-Y. Liu, H.-H. Chen, and Y.-H. Chou, "The Design of Microwave Diplexer Network Having Optimal Response," Int'l J. Elec. Eng., Vol. 15, No. 4, pp. 277-286, Aug. 2008.
  [9] H.-H. Chen, H.-W. Zhang, S.-J. Chung, J.-T. Kuo, and J.-C. Wu, "Accurate Systematic Model Parameter Extraction for On-Chip Spiral Inductors," IEEE Trans. Electron Devices, Vol. 55, No. 11, pp. 3267-3273, Nov. 2008.
  [10] M.-H. Chen, M.-C. Huang, Y.-C. Ting, H.-H. Chen, and T.-L. Li, "High-Frequency Wireless Communications System:2.45GHz Front-end Circuit and System Integration," IEEE Trans. Education, accepted.
   
C)發明專利
  中華民國發明專利:光補色偵測裝置
   
(D)學術研討會論文
  [1] Y.-H. Chou, J.-L. Lai, C.-C. Yeh, H.-H. Chen, and R.-C. Hsieh, "Designs of Miniaturized Noise Suppression Filter Using Multilayered Inductors," in 2006 Progress in Electromagnetics Research Symp. (PIERS), Tyoko, Japan, Aug. 2006.
  [2] J.-T. Kuo, T.-Y. Liu, H.-H. Chen, and S.-J. Chung, "Extraction of Distributed Parameters of Multiple Coupled Transmission Lines from Electromagnetic Simulation Data and Its Application to Evaluation of Inductance Values of RFIC Inductors," in 2006 Progress in Electromagnetics Research Symp. (PIERS), Tyoko, Japan, Aug. 2006.
  [3] R.-C. Hsieh, Y.-C. Chen H.-H. Chen, and Y.-H. Chou, "Designs and Turning of Planar Filter Having Optimal Band Pass Response," in 2006 Progress in Electromagnetics Research Symp.(PIERS), Tyoko, Japan, Aug. 2006.
  [4] H.-H. Chen, S.-H. Lee, C.-F. Liu, C.-C. Yeh, R.-C. Hsieh, and Y.-H. Chou, "Designs of 1/8-Wavelength Shorted-Patce Antennas in Multilayered Structures," in 2006 Progress in Electromagnetics Research Symp. (PIERS), Tyoko, Japan, Aug. 2006.
  [5] R.-C. Hsieh, J.-Z. Hong, H.-H. Chen, and Y.-H. Chou, "Design of Planar Slot Yagi-Uda Array Antenna," in 2007 Int'l Symp. Antennas Propag. (ISAP), Niigata, Japan, Aug. 2007.
  [6] H.-H. Chen, W.-K. Wu, C.-C. Wei, Y.-T. Lee, K.-C. Yang, Y.-H. Chou, R.-C. Hsieh, and C.-C. Yeh, "Miniaturized Shorted-Patch Antenna Designs in Multilayered Structures," in 2007 Int'l Symp. Antennas Propag. (ISAP), Niigata, Japan, Aug. 2007.
  [7] Y.-H. Chou, C.-Y. Huang, C.-C. Yeh, H.-H. Chen, and R.-C. Hsieh, "Analysis of the Gain and Linearity Characteristics in Bias Controlled Push Pull Power Amplifier," in 2007 Progress in Electromagnetics Research Symp. (PIERS), Prague, Czech, Aug. 2007.
  [8] H.-H. Chen, H.-W. Zhang, H.-C. Sung, S.-J. Chung and J.-T. Kuo, "An Analytical Approach for Improving the Quality Factor of RFIC Spiral Inductors," in 2007 Progress in Electromagnetics Research Symp. (PIERS), Prague, Czech, Aug. 2007.
  [9] R.-C. Hsieh, Y.-Y. Lin, H.-H. Chen, and Y.-H. Chou, "The Design of Microwave Diplexer Network Having Optimal Response," in 2007 全國電信研討會,Taipei, Taiwan, R.O.C., Oct. 2007.
  [10] C.-C. Yeh, H.-H. Chen, J.-T. Kuo, S.-J. Chung, and M.-H. Chen, "Analytical Calculation for DC Inductances of Octagonal and Circular RFIC Spiral Inductors," in 2009 Progress in Electromagnetics Research Symp. (PIERS), Beijing, China, Mar. 2009.
  [11] M.-H. Chen, C.-Y. Tasi, and H.-H. Chen, "A Band-notched Ultrawideband Filter Design with Genetic Algorithms," in 2010 Progress in Electromagnetics Research Symp. (PIERS), Xi'an, China, Mar. 2010.
  [12] Y.-H. Chou, Y.-C. Hung, and H.-H. Chen, "Design of Miniaturized Shorted End Coupled Line Section Using Parallel PI Capacitor Network," in 2010 Progress in Electromagnetics Research Symp. (PIERS), Xi'an, China, Mar. 2010.
  [13] H.-H. Chen, W.-J. Tseng, W.-K. Wu, and M.-H. Chen, "A Compact Microstrip Coupled-fed Planar Antenna for WLAN and WiMAX Applications," in 2010 Progress in Electromagnetics Research Symp. (PIERS), Xi'an, China, Mar. 2010.
   
(E)國內會議論文
  [1] . 陳朝烈, 張維麟, “以威爾森電流鏡為基礎之低功耗高效能電流模式感應放大器,” 2008年雛型系統與電路設計創新應用研討會。
  [2] . 黃吉弘, 張崇逸, 陳朝烈, “基於威爾森電流鏡差動對之運算放大器設計,” 2008年雛型系統與電路設計創新應用研討會。
  [3] . 陳朝烈, 鄭憲隆, 徐唯洋, “基於模糊理論之高效能多維度內插法,” 2008年雛型系統與電路設計創新應用研討會。
  [4] . 陳柏宏, 賴建豪, 陳朝烈, “背景無關之電腦即時視覺人機介面,” 2008年雛型系統與電路設計創新應用研討會。
   

 

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