教師資料

劉政光 Cheng-Kuang Liu
職稱
名譽教授
學歷
美國紐約市立大學博士
電子郵件
辦公室

Office Hours
電話
傳真
個人網頁
實驗室
研究領域 光纖電射與光放大器、光電積體電路、感測器、半導體元件、電磁干擾
開授課程 電磁學、半導體元件理論、金氧半元件、光電元件、物理、感測器

2009.08 ~  2011.07 國立台灣科技大學電資學院院長
2008.08  ~  2009.07 國立台灣科技大學精誠榮譽學院精誠學系主任
2007.08  ~  2008.07 國立台灣科技大學電子系副系主任
2005.02  ~  2008.07 國立台灣科技大學電資學院光電中心主任
1997.08  ~  迄今 國立台灣科技大學 電子系教授
1983.01 ~  1984.12 中國工程師學會中國工程學刊編輯委員會總幹事
1980.08  ~  1997.07 國立台灣科技大學電子系副教授
1972.09  ~  1973.07 淡江大學電子系助教
1970.02 ~  1972.10 中山科學研究院第二研究所研助



研究成果
  [1]   15. Z. -R. Lin, UC. -K. Liu, Gerd Keiser, C.-L. Tseng , and Chia-Ming Chiu, “ Tunable C- and L-band erbium-doped fiber ring lasers for performance testing of wavelength-division-multiplexing access network with injection-locked Fabry-Perot laser diodes,” Optical Engineering, vol. 49, no. 10, pp. 105006-1~105006-7, Oct. 2010
  [2]   14. Z. -R. Lin, UC. -K. Liu, Y.-J. Jhang, and Gerd Keiser “ Tunable directly modulated fiber ring laser using a reflective semiconductor optical amplifier for WDM access networks,” Optics Express, vol. 18, no. 17, pp. 17610-17619, Aug 2010
  [3]   13. Z.-R. Lin, C.-K. Liu, Gerd Keiser, S.-L. Lee, K.-C. Lai, H.-C. Chang, C.-L. Tseng, and J.-J. Jou, “A low-cost passive optical network for television broadcasting and high-speed bidirectional communications in intelligent buildings,” Journal of the Chinese Institute of Engineers, vol. 33, no. 5, pp. 707-716, 2010
  [4]   12. C.-L. Tseng, J.-J. Jou, C.-K. Liu, and J.-H. Jian, “ A multiwavelength erbium-doped fiber MOPA laser with partial overlapping linear cavities, ” Optica Applicata, vol. 39, no. 3, pp. 579-585, 2009
  [5]   11. C. –L. Tseng, C. –K. Liu, J. –J. Jou, W. –Y. Lin, C. –W. Shih, S. –C. Lin, S. –L. Lee, and G. Keiser, “Bidirectional transmission using tunable fiber lasers and injection-locked Fabry–P?rot laser diodes for WDM access networks,” IEEE Photonics Technology Letters, Vol.. 20, no. 10, pp. 794-796, May 2008
  [6]   10. S. –C. Lin, S. –L. Lee, and C. –K. Liu, “ Simple approach for bidirectional performance enhancement on WDM-PONs with direct modulation lasers and RSOAs,” Optics Express, vol. 16, no. 6, pp. 3636-3643, March 2008.
  [7]   9. J.-J. Jou and C.-K. Liu, " Equivalent circuit model for erbium-doped fibre amplifiers including amplified spontaneous emission," IET Optoelectronics., vol. 2, no. 1, pp. 29-33, Feb. 2008.
  [8]   8. J.-J. Jou , C.-K. Liu, and S.-L. Lee, “A unified circuit model for static and dynamic analyses of semiconductor optical amplifiers and laser diodes,” Solid-State Electronics, vol. 51, no.3, pp.360-365, March 2007.
  [9]   7. J.-J. Jou and C.-K. Liu, "Computer-aided analysis of distortions in SCM systems with EDFAs including chirping effect," AEU International Journal on Electronics and Communications, vol. 61, no. 4, pp. 243-248, April 2007.
  [10]   6. H. –C. Lee and C. -K. Liu, “Si-based current-density-enhanced light emission and low-operating-voltage light emitting/receiving designs,” Solid-State Electronics, vol. 49, pp. 1172-1178, June, 2005.
  [11]   5. H. -C. Lee, S. –C. Lee, Y. –P.. Lin, and C. -K. Liu, "Interface-trap assisted emission in Si CMOS light emitting devices," Japan Journal of Applied Physics, vol. 44, no. 6A, pp.3867-3871, June, 2005.
  [12]   4. H. -C. Lee, S. -C. Lee, Y. -P. Lin, and C. -K. Liu, “All Si-based low operating-voltage and low power-dissipation device for optical interface,” IEICE Transactions on Electronics,” vol. E88-C, no. 7, pp. 1490-1494, July, 2005.
  [13]   3. J. -J. Jou, C. -K. Liu, C.-M. Hsiao, H.-H. Lin, and H. -C. Lee, "Time-delay circuit model of high-speed PIN photodiodes," IEEE Photonics Technology Letters, vol. 14, no. 4, pp. 525-527, April, 2002.
  [14]   2. C. -K. Liu, J. -J. Jou, S.- K. Liaw, and H. -C. Lee, "Computer-aided analysis of transients in fiber lasers and gain-clamped fiber amplifiers in ring and line configurations through a circuit simulator," Optical Communications, vol.209, no.4-6, pp. 427-436, Aug., 2002.
  [15]   1. J. -J. Jou and C. -K. Liu, "Application of SPICE simulation to study WDM and SCM systems using EDFAs with chirping," IEEE Transactions on Education, vol. 45, no. 3, pp. 238-244, Aug., 2002.
  [1]   Z.-R. Lin, G. Keiser, C.-K. Liu, K.-C.Lai, Y.-J. Jhang, and M.-J. Huang, “Effects of acid rain on optical fiber patch cord connectors”, (OECC 2010, July. 5~9, 2010, Sapporo, Japan)
  [2]   J.-L. Hong, J.-J. Jou, and C.-K. Liu, “Analysis of Dependence of Nonlinear Distortion on Input Optical Power for a Electro-Absorption Modulator,” in Opt. Photon. Taiwan’ 09, Taipei, Taiwan.R.O.C.BP-033, 2009
  [3]   Z.-R. Lin, K.-C. Lai, C.-K. Liu, S. –L. Lee, G. Keiser, H.-C. Chang, C.-L. Tseng, and J.-J. Jou, “A Low-Cost Passive Optical Network for Television Broadcasting and High-Speed Bidirectional Communications in Intelligent Buildings”, Intelligent Buildings and Smart Homes Conference 2009 (IBASH2009), pp.217-220, Nov. 18~20, 2009, Taipei, Taiwan
  [4]   C.-L. Chang, K.-M. Huang, Z.-R. Lin, G. Keiser, and C.-K. Liu, “Monitoring method for an intelligent building WDM PON”, (IBASH 2009, pp.179-181, Nov. 18~20, 2009, Taipei, Taiwan)
  [5]   Z.-R. Lin, C.-K. Liu, G. Keiser, K.-C. Lai, C.-M. Chiu, C.-L. Tseng, and J.-J. Jou, “Always Available Light Source for SOHO Communicationsin Intelligent Buildings,” Intelligent Buildings and Smart Homes Conference 2009 (IBASH2009,), pp.213-216, Nov.18~20, 2009, Taipei, Taiwan
  [6]   H. -J. Huang, J.-J. Jou, C.-L. Tseng, and C.-K. Liu, " Enhancement of pump efficiency for multi-stage L-band erbium-doped fiber amplifiers," Optics and Photonics Taiwan'07, Taichung, Taiwan, BP-064, Dec., 2007. (11/30~12/01)
  [7]   H.-C. Lee, C.-L. Tseng, S.-C. Lee, W.-C. Cheng, and C.-K. Liu, “Si-based optoelectronic transmitter/receiver designs,” 2005 Symposium on Technology Fusion of Optoelectronics and Communications (STFOC’05), International Conference on Photonics, National Taiwan Normal University, Taipei, Taiwan, May 18-22, pp. 60-61, 2005
  [8]   H.-C. Lee, C.-L. Tseng, S.-C. Lee, and C.-K. Liu, “Current density enhanced Si light-emitting device for optical interconnect,” 2005 Symposium on Technology Fusion of Optoelectronics and Communications (STFOC’05), International Conference on Photonics, National Taiwan Normal University, Taipei, Taiwan, May 18-22, pp. 110-111, 2005.
  [9]   J.-J. Jou and C.-K. Liu, “An equivalent circuit model of erbium doped fiber amplifier including amplified spontaneous emission,” 2005 Symposium on Technology Fusion of Optoelectronics and Communications (STFOC’05), International Conference on Photonics, National Taiwan Normal University, Taipei, Taiwan, pp. 48-49, May 18-22, 2005.
  [10]   C.-L. Tseng, J.-J. Jou, H.-C. Lee, J.-H. Jian, and C.-K. Liu, “Design of multiwavelength erbium-doped fiber lasers with linear cavities in MOPA configuration,” 2005 Symposium on Technology Fusion of Optoelectronics and Communications (STFOC’05), International Conference on Photonics, National Taiwan Normal University, Taipei, Taiwan, pp. 150-151, May 18-22, 2005.
  [11]   C.-L. Tseng, J.-J. Jou, J.- H. Jain, C.-F. Chen, and C.-K. Liu, "Low-Noise multiwavelength erbium-doped fiber lasers with a fiber loop mirror and cascaded FBGs in MOPA configuration," Proceedings of the 1st Applied Science and Technology, Kaohsiung, Taiwan, A-07, Dec. 9-10, 2004
  [12]   J.-J. Jou, C.-L. Tseng, C.-K. Liu, S.-L. Lee, and F.-S. Lai, "Applications of SPICE simulation to study optical fiber communication systems using the circuit model of a single-mode fiber," Opt. Photon. Taiwan’04, Tayuan, Taiwan, PB-SU1-15, Dec. 9-10, 2004.
  [13]   C.-L. Tseng, S.-K. Liaw, C.-K. Liu, and J.-J. Jou, "Power equalized multiwavelength erbium-doped fiber lasers with stable wavelengths and variable output power," Optics and Photonics Taiwan'03, National Taipei University of Technology, Taipei, Taiwan, pp. 280-282, Dec. 25-26, 2003
  [14]   H. -C. Lee, S. -C. Lee, J. -J. Jou, T. –P. Jou, and C. -K. Liu, "Layout effect of Si LEDs in standard CMOS technology," Optics and Photonics Taiwan'02, National Taiwan University of Science & Technology, Taipei, Taiwan, pp. 316-318, Dec. 12-13, 2002
  [15]   J. -J. Jou, H. -H. Lin, H.-C. Lee, S. -L. Lee, and C. -K. Liu, "A unified equivalent circuit model of semiconductor optical amplifier and semiconductor laser," Optics and Photonics Taiwan'02, National Taiwan University of Science & Technology, Taipei, Taiwan, pp. 139-141, Dec. 12-13, 2002
  [16]   C.-L. Tseng, S.-K. Liaw, C.-K. Liu, and J.-J. Jou, "Power equalized multiwavelength erbium-doped fiber lasers with stable wavelengths and variable output power," Optics and Photonics Taiwan'03, National Taipei University of Technology, Taipei, Taiwan, pp. 280-282, Dec. 25-26, 2003
  [1]   劉政光,李三良,曾志隆,周肇基,林淑娟,”可調式摻稀土族元素光纖激光光源的雙向傳輸網路裝置”中國實用新型:ZL 2008 2 0179601.3, 2009/9/2~2019/9/2
  [2]   劉政光,李三良,曾志隆,周肇基,林淑娟: “基於摻稀土族元素光纖雷射光源之雙向傳輸網路裝置”.中華民國專利: 新型第347761號, 2008年12月-2018年8月
  [3]   劉政光,周肇基:“以等效電路描述摻鉺光纖放大器特性之方法”.中華民國專利: 發明第196529號, 2004年1月-2023年1月

計畫名稱 計畫總額 執行始於 執行結束 委託單位
分波多工被動光網路之可調波長雷射與上行發訊器之訊衝響應研究(2/3) 938,000 9608 9707 國科會
分波多工被動光網路之可調波長雷射與上行發訊器之訊衝響應研究(1/3) 881,000 9508 9607 國科會
高密度分波多工系統的異質接合光電積體電路(3/3) 883,000 9408 9507 國科會
大學及技專校院辦理就業學(課)程計畫 602,000 9308 9407 勞委會職訓局
高密度分波多工系統的異質接合光電積體電路(2/3) 870,200 9308 9407 國科會
高密度分波多工系統的異質接合光電積體電路(1/3) 980,200 9208 9307 國科會
多波長光學網路中光放大器之動態增益控制技術分析與研究 598,000 9101 9112 工研院
摻鉺光纖放大器WDM系統的計算機輔助設計與分析 897,800 8908 9007 國科會
分波多工被動光網路之直調光源分析與可靠度試驗 890,000 0000-00-00 0000-00-00 國科會
分波多工被動光網路之可調波長雷射與上行發訊器之訊衝響應研究(3/3) 881000 0000-00-00 0000-00-00 國科會

指導學生
學年 論文題目 學生
98 摻鉺光纖雷射研製及其於光纖網路系統之應用 曾志隆
98 多波長可調式環型光纖雷射與注入鎖模法布里-比洛雷射二極體於光纖網路之應用 林姿蓉
93 CMOS製程在矽發光及光交連應用之研究 李修至
90 摻鉺光纖光放大器與相關元件之等效電路分析 周肇基
87 摻鉺光纖光放大器ASE雜訊與失真分析 賴富順
86 低頻雜訊頻譜在元件特性診斷上的應用 蔡漢彰
學年 論文題目 學生
100 矽基與矽鍺基發光、信號驅動以及檢光積體電路之設計與實現 陳柏安
100 矽基互補金氧半發光與檢光積體電路設計與實現 陳昱安
100 直調式可調雙波長環型光纖雷射之研製與於注入FP-LD之應用 時國昇
100 垂直共振腔面射型雷射與法布里比洛雷射二極體預燒試驗研究 洪昱全
100 電吸收調變器於光電與電光轉換應用之研究 邱騰輝
100 低成本法布里-比洛雷射二極體光注入自動鎖模監控系統研究 林晁磊
100 矽基與矽鍺基光通訊與光互連積體電路設計及實現 林柏宏
100 可動態調整頻寬的遠端泵激 分時分波多工被動光網路 李昌暐
99 矽鍺基光接收電路實現與矽基突發式自動增益電路設計 陳少石
98 電吸收調變器於光通訊收發之應用研究 黃敏哲
98 突發式光接收積體電路設計與實現 舒浩威
98 直調環型光纖雷射在光通訊之應用 張毓竹
97 矽鍺基光電晶體與光通訊相關積體電路設計 吳正宇
97 矽鍺基光電晶體與光接收積體電路設計與實現 賴信良
97 電視廣播與高速雙向傳輸的低成本被動光網路 賴國傑
96 L波帶光纖雷射在光通訊上之應用 司徒宇喆
96 光接收積體電路與雙頻式時脈資料回復電路 林宗霆
96 光互連相關積體電路設計與實現 林華偉
96 光纖雷射注入鎖模法布里-比洛雷射二極體於雙向光纖存取網路之應用 邱嘉明
96 矽鍺基金氧半發光與接收元件設計 黃瀚霆
96 發光及接收元件與鎖相迴路積體電路於通訊之應用 楊奇峻
95 光電流控制振盪器積體電路設計 白宏彬
95 光纖雷射於電吸收調變波長轉換之研究 林惟揚
95 環型被動鎖模光纖雷射應用之研究 施至偉
95 以積體電路實現溼度感測積體化之研究 羅稟邑
95 應用於通訊系統之鎖相迴路與導管式類比/數位轉換器 邱百毅
94 光控制電頻率產生器積體電路設計 陳彥宇
94 光纖雷射於波長轉換應用之研究 孫國展
94 互補式金氧半發光與檢光積體電路佈局之研究 陳奕甫
94 矽基積體電路於晶片與晶片間光互連之研究 李源評
93 積體電路晶片間的光互連研究 賴鴻儒
93 多波長MOPA式光纖雷射研製與特性分析 簡嘉宏
93 電吸收調變器的波長轉換研究 陳振豐
93 光偵測放大積體電路設計與分析 林宗建
92 多波長光纖雷射的模擬與研製 李致昀
92 矽基發光接收元件設計 郭家豪
92 矽基發光接收元件設計 林宜平
91 互補金氧半的光電-電光電路設計 李仕成
91 多波長摻鉺光纖雷射之研製 曾志隆
90 光電應用放大電路的設計與分析 陳威志
89 高速IC內的干擾抑制 陳欣傑
89 半導體雷射及光放大器在光傳輸系統中之應用分析 林煌翔
89 PCB上高速積體元件間干擾抑制的模擬分析 卓威明
89 光偵測器與WDM系統之計算機輔助分析 蕭建梅
87 去耦電容對PCB的雜訊減除研究 林錦宏
87 CMOS收發器的電磁干擾分析 陳宗元
87 金氧半閘電磁干擾效應的預估 陳中信
86 CMOS積體電路電磁干擾影響之研究 呂文超
86 電磁干擾對BiCMOS積體電路影響之研究 金思漢
學年 專題題目 學生
94 光互連積體電路設計 B007陳長鴻 B011李振銘
94 光纖放大器與光纖雷射模擬分析 B042黃建瑜 B054陳建仁
94 光電應用積體電路設計 B051陳奕仲 B005王智皇 B033李彥鋒
93 光傳送積體電路設計 B010李序恒 B055陳晉嘉
93 光信號放大系統模擬設計 B002林彥志 B018鄭淑瑛
91 雷射驅動器製作 A013陳紀翰 A027李俊慶 A053李慶泰
91 光電積體電路模擬設計 A050莊恭彰 A075李佳展
89 光電傳輸板製作 A161郭永憲 A166趙億裕
89 光電遠距偵測系統 A017蘇峻良 A018李東林 A020林宜平
86 低頻雜訊頻譜在元件特性診斷上的應用 蔡漢彰
年份 事蹟