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系統識別號 U0026-2608201505133700
論文名稱(中文) 應用可繞式電路板於無線微幫浦系統
論文名稱(英文) Development of Wireless Micropump System Using Flexible Circuit Board
校院名稱 成功大學
系所名稱(中) 電機工程學系碩士在職專班
系所名稱(英) Department of Electrical Engineering (on the job class)
學年度 103
學期 2
出版年 104
研究生(中文) 張育書
研究生(英文) Yu-Shu Chang
學號 N27981326
學位類別 碩士
語文別 英文
論文頁數 55頁
口試委員 口試委員-許藝菊
口試委員-李順來
口試委員-王明浩
指導教授-張凌昇
中文關鍵字 無線微幫浦  無線傳輸  射頻收發器  可繞式電路板  可攜式 
英文關鍵字 Wireless micropump  Wireless transmission  RF transceiver  Flexible printed circuit board (FPCB)  Protable 
學科別分類
中文摘要 近年來,糖尿病在許多國家已成為常見的疾病。在臨床試驗中證明通過良好的血糖控制,糖尿病的確可以有效防止或延緩糖尿病視網膜、腎臟和神經病變及其他疾病的發生。市售的生物物理傳感系統或生物醫學系統大多是離線作業。這些系統不但體積大、重量重、價格亦昂貴。近年來,微型電子機械系統技術(MEMSs),對於生物醫學傳感器和儀器帶來了很大的改善。使用MEMSs技術,生物傳感器和生物醫學系統將變得更輕、更加便利和便攜式。軟性印刷電路(FPC)技術具有輕、薄、柔性的優點。FPC技術也有助於縮小生物傳感器和生物醫學系統到便攜式設備。本研究提出了一種便攜式的、無線的液體輸送系統,可以應用在藥物輸送、液體輸送,特別是在胰島素給藥系統。該系統採用軟性電路板,可以使系統重量更輕、更便於攜帶且更適合用於。基於PC的圖形用戶界面(GUI)開發作為一個監測系統。此軟體的監控系統,可以通過射頻(RF)收發器控制和連結多個可移植和無線液體輸送系統。此系統的液體輸送採用相移法來控制。相移法量測分析結果,流體的流量與驅動波形的脈衝寬度相關,因此,藉由相移法的分析結果可以很容易的來控制液體的輸送量。本研究完成了以軟性電路板來做為電路設計的基板,並成功的以無線通信方式,來控制流體的流量。
英文摘要 Diabetes in many countries has become common disease in recent years. In clinical trials which prove that diabetes through good glucose control can indeed effectively prevent or delay the diabetic retina, kidney and neuropathy and other diseases occurrence. The commercially available biophysical sensing systems or biomedical systems are mostly off-line operating. These systems are not friendly in their size, weight and price. In recent years, micro-electronic mechanical systems (MEMSs) technology brings great improvement to the biomedical sensors and instruments. The biosensors and biomedical systems become lighter, handier and portable by using the MEMSs technology. Flexible printed circuit (FPC) technology has the advantage of light, thin, flexible. The FPC technology also helps to shrink the biosensor and biomedical systems into portable devices. This study presents a portable and wireless liquid delivery system which can be applied in drug delivery, liquid delivery and especially in insulin delivery system. This system uses FPC as the circuit board which can make the system lighter and flexible. A PC based graphic user interface (GUI) is developed as a monitoring system. This software monitoring system can control and access multiple portable and wireless liquid delivery systems through a radio frequency (RF) transceiver. The liquid delivery system is used to control the phase shift method. Phase shift method to measure results, fluid flow waveform pulse width of the drive associated, accordingly, by results of the analysis phase shift method can easily control the amount of liquid delivery. In this study, completed a circuit board FPC circuit design as a substrate, and the success of wireless communication, to control the flow of traffic.
論文目次 中文摘要...............................................Ⅰ
ABSTRACT..............................................Ⅱ
ACKNOWLEDGEMENTS......................................Ⅲ
CONTENTS..............................................Ⅳ
LIST OF TABLES........................................Ⅴ
LIST OF FIGURES.......................................Ⅶ
CHAPTER 1 INTRODUCTION...............................1
CHAPTER 2 THEORY.....................................3
2.1 The basic theory of the transmission line........3
2.1.1 Transmission line theory.......................3
2.1.2 Loss-less transmission line....................8
2.1.3 Low-loss transmission line.....................9
2.2 2.4GHz ISM Band Wireless System................10
2.2.1 Bluetooth Technology...........................12
2.2.2 Wi-Fi Technology...............................15
2.2.3 ZigBee Technology..............................18
2.3 FPC Technology.................................19
2.3.1 FPC Introduction...............................20
2.3.2 FPC Technology Applications....................23
2.4 Micropump Introduction.........................27
2.4.1 Peristaltic Micropump..........................28
2.4.2 Valve-less Micropump...........................29
CHAPTER 3 EXPERIMENTAL DETAILS.......................32
3.1 FPCB fabrication...............................32
3.2 Structures of actuator and micropump...........35
3.3 Experimental setup.............................36
CHAPTER 4 RESULTS AND DISCUSSION.....................38
4.1 50 ohm transmission line.......................38
4.2 Signal transmission antenna....................40
4.3 FPCB curved return loss........................43
4.4 Actual RF flow control measurement.............45
CHAPTER 5 CONCLUSIONS................................51
REFERENCE.............................................52
參考文獻 English Part

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Chinese Part

[C1] 吳志昌 ”以高分子與金屬多層膜堆疊技術應用於可撓式觸覺感測器之製作,” 國立成功大學奈米科技暨微系統工程研究所碩士論文, 民國96年6月。

[C2] Ryan Winfield Wooding ”避免2.4GHz ISM頻段各種類型無線設備干擾的技術,” Cypress半導體公司消費與計算產品部門, 民國94年4月。

[C3] 余永強 ”壓電微型幫浦之製作與電路設計,” 國立成功大學電機工程學系碩士論文, 民國94年7月。

[C4] 黃新立 ”Bluetooth網路跳頻碰撞分析,” 義守大學資訊工程研究所碩士論文, 民國92年6月。

[C5] 王怡均譯,”電磁學,”超級科技圖書,五版,民國79年9月。
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