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研究生:施建良
研究生(外文):SHI, JIAN-LIANG
論文名稱:以具有溫度係數互補的串聯電阻之帶差參考電壓電路實現溫度感測器及溫度不靈敏之感測讀取電路
論文名稱(外文):Temperature Sensor Using Bandgap Voltage Reference with Temperatutre-coefficient Complemantary Resistors in Series and Temperature-insensitive Readout Circuit for Sensors
指導教授:王瑞祿
指導教授(外文):WANG, RUEY-LUE
口試委員:王瑞祿羅有龍林明權
口試委員(外文):WANG, RUEY-LUELUO, YOU-LONGLIN, MING-CYUAN
口試日期:2016-07-22
學位類別:碩士
校院名稱:國立高雄師範大學
系所名稱:電子工程學系
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2016
畢業學年度:104
語文別:中文
論文頁數:110
中文關鍵詞:離子感測場效電晶體酸鹼值延伸式閘極離子感測場效電晶體感測讀取電路溫度感測電路運算放大器帶差參考電壓電路補償電路
外文關鍵詞:ISFETpH-valueEG-ISFETReadout CircuitTemperature SensorOperation AmplifierBandgap Voltage ReferenceCompensation Circuit
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致謝 2
摘要 4
Abstract 7
目錄 10
第一章 緒論 13
1-1研究背景 13
1-2研究動機 14
1-3研究目的 16
1-4論文內容提要 17
第二章 感測器原理與分析 19
2-1 感測器 19
2-1.1生物感測器之定義 20
2-1.2生物感測器之發展 22
2-2離子場效電晶體(ISFET)原理 23
2-2.1 MOSFET原理 23
2-2.2 ISFET原理與架構 29
2-2.3 溫度對ISFET架構所造成之影響 35
2-2.4 EGFET原理與架構 38
2-2.5吸附鍵結模型與電雙層模型 41
2-2.6電雙層(Electrical double layer) 44
2-3 參考電極(Reference Electrode) 46
2-4 ISFET元件實驗與結果 47
第三章 溫度不靈敏感測讀取電路 51
3-1電路介紹 52
3-1.1帶差參考電壓電路(Bandgap Voltage Reference) 52
3-1.2操作放大器(Operational Amplifier,OP) 57
3-1.3低壓疊接電流鏡 61
3-1.4溫度不靈敏感測讀取電路 63
3-2電路工作原理與操作 65
3-3模擬與量測 69
3-4結果與討論 79
第四章 以具有溫度係數互補的串聯電阻代 差參考電壓電路及其讀取電路 80
4-1電路介紹 80
4-1.1電流控制振盪器(Current Controlled Oscillator) 80
4-1.2具有溫度係數互補的串聯電阻之帶差參考電壓電路及電流控制震盪器 85
4-2電路設計 87
4-3模擬與量測 91
4-4結果與討論 99
第五章 結論 100
參考文獻 103


[1]P. Bergveld, “Development of an ion-sensitive solid-state device forneurophysiological measurements”, IEEE Trans. Bio-Med. Eng.(Short Commun.), Vol. BME-17, pp. 70-71, Jan. 1970.
[2]S. Caras, J. Janata, “Field Effect Transistor Sensitive to Penicillin”, Analytical Chemistry 52, pp. 1935-1937, 1980.
[3]N. Jafiezic-Renault, A. Soldatkin, C. Martelet, P. Temple-Boyer, W. Sant, M.L. Pourciel, P. Montoriol, A. Montiel-Costes, “Tailoring enzymatic membranes for ENFETs for dialysis monitoring”, Trans. Solid-State Sensors, Actuators and Microsystems Conference, 12th International Conference, Vol. 2, pp. 1188-1191, 2003.
[4]J. C. Dutta, M. Hazarika, “Modeling of Enzyme Biosensor based on pH­sensitive Field Effect Transistor for detection of Glucose”, Devices, Circuits and Systems(ICDCS), International Conference, pp. 686-688, 2012.
[5]J. C. Dutta, S. Roy, “Biologically Inspired Circuit Model for Simulation of Acetylcholine Gated Ion Channels of the Postsynaptic Membrane at Synaptic Cleft”, Biomedical Engineering and Sciences(IECBES), IEEE EMBS Conference, pp. 17-19, 2010.
[6]J. V. D. Spiegel, I. Lauks, P. Chan and D. Babic, “ The Extended Gate Chemical Sensitive Field Effect Transistor as Multi-Species Microprobe”, Sensors and Actuators, Vol. 4, pp. 291-298, 1983.
[7]P. Chen, C. C. Chen, C. C. Tsai, and W. F. Lu: IEEE J. Solid-State Circuits, Vol. 40, pp.1642, 2005.
[8]C. C. Chen, P. Chen, A. W. Liu, W. F. Lu, and Y. C. Chang: Meas. Sci.Technol., Vol. 17, pp.840, 2006.
[9]H. F. Hamann, A. Weger, J. A. Lacey, Z. Hu, P. Bose, E. Cohen, and J. Wakil: IEEE J. Solid-State Circuits, Vol. 42, pp.50, 2007.
[10]A.C. Paglinawan, Y. H. Wang, S. C. Cheng, C. C. Chuang, and W. Y.Chung: Electron. Lett., Vol. 45, pp.1291, 2009.
[11]M. K. Law, A. Bermark, and H. C. Luong: J. Solid-State Circuits, Vol.45, pp.1246, 2010.
[12]F. Sebastiano, L.J. Breems, K. A. A. Makinwa, S.D. Drago, M.W. Leenaerts, and B. Nauta: IEEE J. Solid-State Circuits, Vol. 45, pp.2591, 2010.
[13]A. Vaz, A. Ubarretxena, I. Zalbide, D. Pardo, H. Solar, A. García-Alonso, and R. Berenguer: IEEE Trans. Circuits Syst. II, Vol. 57, pp.95 2010.
[14]D. Ha, K. Woo, S. Meninger, T. Xanthopoulos, E. Crain, and D. Ham: IEEE Trans. Very Large Scale Integration Syst., Vol. 20, pp.1590, 2012.
[15]J. Cheon, J. Lee, I. Lee, Y. Chae, Y. Yoo, and G. Han: IEEE Sensors J., Vol. 9, pp.914, 2009.
[16]K. Opasjumruskit, T. Thanthipwan, O. Sathusen, P. Sirinamarattana, P. Gadmanee, E. Pootarapan, N. Wongkomet, A. Thanachayanont, M. Thamsirianunt, “Self-powered wireless temperature sensors exploit RFID technology”, IEEE Pervasive Comput., Vol. 5, pp. 54-61, 2006.
[17]A. Vaz et al., “Full passive UHF tag with a temperature sensor suitable for human body temperature monitoring”, IEEE Trans. Circuits Syst. II, Vol. 57, no. 2, pp. 95–99, 2010.
[18]G. C. M. Meijer, A. J. M. Boomkamp, and R. J. Duguesnoy, “An accurate biomedical temperature transducer with on-chip microcomputer interfacing”, IEEE J. Solid-State Circuits, Vol. 23, no. 6, pp.1405–1410, 1998.
[19]徐照夫, “光感測器及其使用法”, 全華科技圖書出版, pp. 1-3, 1993.
[20]陳治誠, “生化感測器技術簡介” 科儀新知, 第15卷, 第2期, pp.71-81.
[21]陳冠宏, “可攜式微生物毒性感測器: 不同好氧桿菌對廢水毒性反應與判讀方法之比較”, 私立中原大學醫學工程研究所碩士論文, Jun. 2002.
[22]施敏, “半導體元件物理與製作技術”, 國立交通大學出版社, Sep. 2006.
[23]武世香, 虞惇, 王貴華, “化學量傳感器”, 傳感器技術, 第3期, pp. 55-60, 1990.
[24]P. Bergveld, A. Sibbald, “Analytical and Biomedical Applications of Ion-Selective Field-Effect Transistors”, Elsevier Science publishing Company Inc., Chapter 2~3, 1988.
[25]傅建程, “具溫度感測之CMOS生物感測讀取電路”, 國立高雄師範大學電子工程學系碩士論文, Jul. 2013.
[26]S. Martinoia, L. Lorenzelli, G. Massobrio,P. Conci, and A. Lui, Sensors and Actuators B:Chemical, Vol.50, pp.60-68, 1998.
[27]P. Bergveld, “Thirty years of ISFETOLOGY What happened in the past 30 years and what may happen in the next 30 years”, Sensors and Actuators B Vol.88 pp.1–20, 2003.
[28]L. T. Yin, J. C. Chou, W. Y. Chung, T. P. Sun, and S. K. Hsiung, "Separate structure extended gate H^+-ion sensitive field effect transistor on a glass substrate," Sens. Actuators B, Chem., vol. 71, no. 1/2, pp. 106–111,Nov. 2000.
[29]D. E. Yates, S. Levine, and T. W. Healy, "Site-binding model of the electrical double layer at the oxide/water interface," J. Chem. Soc. Faraday Trans. 1, vol. 70, pp. 1807–1818, Jan. 1974.
[30]R. E. G. Van Hall, J. C.T. Eijkel, P. Bergveld, "A Novel Description of ISFET Sensitivity with the Buffer Capacity and Double-Layer Capacitance as Key Parameters," Sensors and Actuators B, Vol. 24-25, PP.201-205, 1995.
[31]C.D. Fung, P.W. Cheung and W. H. Ko, "A generalized theory of an electrolyte-insulator-semiconductor field-effect transistor," IEEE Trans. Electron Devices, Vol. ED-33, NO.1, PP. 8-18, 1986.
[32]C. H. Hamann, A. Hamnett, and W. Vielstich, “Electrochemistry”, Wiley-Vch: New York, 1998.
[33]J. L. Chiang, S. S. Jan, J. C. Chou, Y. C. Chen, "Study on the temperature effect, hysteresis and drift of pH-ISFET devices based on amorphous tungsten oxide," Sensors and Actuators B: Chemical, vol. 76, pp. 624-628, 2001.
[34]J. H. L. Lu, M. Inerowicz, S. Joo, J. K. Kwon, and B. Jung, IEEE Sens. J. 11 (2011) 1134.
[35]M. L. Sheu, W. H. Hsu, and L. J, Tsao, IEEE TRAN. Instrumentation Meas. 61 (2012) 447.
[36]D. G. Chen, D. Matolin, A. Bermak, and C. Posch, IEEE Trans. Biomed. Circuits Syst. 5 (2011) 64.
[37]R. L. Wang, W. D. Wu, C. Yu, P. H. Chiu, J. L. Shi, Y. F. Hao, H. H. Liao, H. H. Tsai and Y. Z. Juang, Jpn. J. Appl. Phys. 54 (2015) 04DL02-1.
[38]R. L. Wang, C. C. Fu, C. Yu, W. D. Wu, Y. T. Chuang, C. F. Lin, H. H. Liao, H. H. Tsai and Y. Z. Juang, “A Multi-sensor Readout Circuit Using a Multiple Differential-input Operation Amplifier with Pulse Output”, Japanese Journal of Applied Physics, Vol. 53, No. 4S, Mar. 2014.
[39]R. L. Wang, C. C. Fu, C. M. Yeh, C. Yu, C. Y. Yu, C. F. Lin, H. H. Tsai and Y. Z. Juang, “A Multisensor Readout Circuit with a Multiplexed Pulse-signal Output”, 2012 International Conference on Solid State Devices and Materials (SSDM 2012), Kyoto, Japan, 25-27 Sep. 2012,
[40]R. L. Wang, C. W. Yu, C. Yu, T. H. Liu, C. M. Yeh, C. F. Lin, H. H. Tsai and Y. Z. Juang, “A temperature sensor using a BJT-MOSFET pair”, Electronics Letters, vol. 48, No.9, pp.503-504. 26 Apr. 2012.
[41]R. L. Wang, C. C. Fu, C. Yu, Y. F. Hao, J. L. Shi, C. F. Lin, H. H. Liao, H. H. Tsai and Y. Z. Juang, “CMOS Temperature Sensor Using a Resistively Degenerated Common-source Amplifier Biased by an Adjustable Proportional-to-absolute-temperature Voltage”, Japanese Journal of Applied Physics, Vol. 53, No. 4S, Feb. 2014
[42]R. L. Wang, C. C. Fu, C. Yu, P. Y. Liu, Y. T. Chuang, C. F. Lin, H. H. Liao, H. H. Tsai and Y. Z. Juang, “A Multi-sensor Readout Circuit Using Multiple Differential-input Operation Amplifier with Pulse Output”, 2013 International Conference on Solid State Devices and Materials (SSDM 2013), Fukuoka, Japan, pp.118-119, 24-27 Sep. 2013.
[43]R. L. Wang, C. C. Fu, C. Yu, Y. F. Hao, J. L. Shi, C. F. Lin, H. H. Liao, H. H. Tsai and Y. Z. Juang, “CMOS Temperature Sensor Using a PTAT-voltage Biasing Common-source Amplifier with a Source-degeneration Polycrystalline Silicon Resistor”, 2013 International Conference on Solid State Devices and Materials (SSDM 2013), Fukuoka, Japan, pp.300-301, 24-27 Sep. 2013.
[44]H. H. Liao, H. H. Tsai, Y. Z. Juang, R. L. Wang, C. C. Fu and C. Yu, “ISFET with Built-in Gold Electrode and Readout Circuit with Frequency-Adjustable Pulse Output”, 7th International Conference on Sensing Technology (ICST 2013), Wellington, New Zealand, pp. 461-464, 3-5 Dec. 2013.
[45]游錡,CMOS溫度感測電路及其應用於感測讀取電路的溫度補償,國立高雄師範大學電子工程學系,Jul.2014
[46]陳耀鵬, “以管線式為架構設計高速類比數位轉換器”, 朝陽科技大學資訊工程系碩士論文, Jan. 2005.
[47]D. Johns and K. Martin, “Analog Integrated Circuit Design”, ISBN 0-471-14448-7, Wiley, 1997.
[48]葉瓊敏, "具溫度感測之生醫多路感測晶片設計," 國立高雄師範大學 電子碩士論文, Jul. 2011.
[49]Behzad-Razavimarcado, Design of Analog-CMOS-Integrated Circuits
[50]A. L. Aita, M. A. P. Pertijs, K. A. A. Makinwa, J. H. Huijsing, and G. C. M. Meijer, IEEE Sensors J. 13, 1840 (2013).
[51]M. K. Law and A. Bermak, IEEE Tran. Circuits Syst. II 56, 891 (2009).
[52]P. Chen, C. C. Chen, Y. H. Peng, K. M. Wang, and Y. S. Wang, IEEE J. Solid-State Circuits 45, 600 (2010).
[53]K. Ueno, T. Asai, and Y. Amemiya, Sens. Actuators A 165, 132 (2011).
[54]K. Woo, S. Meninger, T. Xanthopoulos, E. Crain, D. Ha, and D. Ham, IEEE Int. Solid-State Circuits Conf., 2009, p. 68.
[55]S. Hwang, J. Koo, K. Kim, H. Lee, and C. Kim, IEEE Tran. Circuits Syst. I 60, 2241 (2013).
[56]K. Kim, H. Lee, S. Jung, and C. Kim, Proc. IEEE Custom Integrated Circuit Conf., 2009, p.203.
[57]C. K. Kim, J. G. Lee, Y. H. Jun, C. G. Lee, and B. S. Kong, Microelectronics Journal 38, 1042 (2007).
[58]H. Lee, K. Kim, S. Jung, J. Song, J. K. Kim, and C. Kim, Analog Integr. Circuits Signal Process. 64, 153 (2010).
[59]S. S. Chouhan and K. Halonen, IEEE Sensors J. 15, 4234 (2015).
[60]R. L. Wang, W. D. Wu, C. Yu, P. H. Chiu, J. L. Shi, Y. F. Hao, H. H. Liao, H. H. Tsai and Y. Z. Juang, Jpn. J. Appl. Phys. 54, 04DL02-1 (2015).
[61]G. C. M. Meijer, Sens. Actuators, 10, 103 (1986).
[62]A. Bakker, Proc. IEEE Sensors 2, 1423 (2002).
[63]M. A. P. Pertijs, G. C. M. Meijer, and J. H. Huijsing, IEEE Sensors J. 4, 294 (2004).
[64]M. A. P. Pertijs, K.A.A. Makinwa, and J.H.Huijsing, IEEE J. Solid-State Circuits 40, 2805 (2005).
[65]H. Lakdawala, Y. W. Li, A. Raychowdhury, G. Taylor, and K. Soumyanath, IEEE J. Solid-State Circuits 44, 3621 (2009).
[66]A. Bakker and J. H. Huijsing, IEEE J. Solid-State Circuits 31, 933 (1996).
[67]K. K. Lee, T. S. Lande, and P. D. Häfliger, IEEE Tran. Circuits Syst. I 62, 1 (2015).
[68]C. Falconi, A. D’Amicoa, C. D. Natale, and M. Faccio, Sens. Actuators A 117, 127 (2005).
[69]N. Beppu, T. Takahashi, T. Ohashi, and K. Uchida, Jpn. J. Appl. Phys. 51, 02BC15 (2012).

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