臺灣博碩士論文加值系統

本論文旨在利用無線供電建立一應用於水族箱之監控系統，本文所使用的水族箱為家用水族箱，其長寬高為35x18X24，容量約為15公升。而監控系統是結合Arduino與App Inventor 2所建立之系統，其利用藍芽來連結手機與監控系統，讓使用者可以直接從手機端控制所有設備，而操作模式分為自動與手動模式，若切換至自動模式，系統會以感測器所偵測到的值來做控制；反之切換至手動模式，便可以從手機控制所有設備的開關。而監控系統的電源是採用12V/5V的磁場耦合諧振的無線供電模組來供給系統所需之電源。

This thesis develops a monitoring system for aquariums by wireless power supply, and the used in this paper is a home edition aquariums, it’s capacity of about 15 liters. The monitoring system is built by Arduino and App Inventor 2, which uses Bluetooth to connect the cellphone and monitoring system, it can be controlled by cellphone, and it has two operating modes, one is manual mode and the other is automatic mode. When the switch is switched to automatic mode the system will be controlled by the value of sensor, or it can be switched to manual mode, the system will be controlled by user from the cellphone. The power supply of the monitoring system is using wireless power supply module which is using magnetic field coupling resonant to provide 12 voltage to 5 voltage.

摘要...........................................................i
Abstract.....................................................ii
誌謝..........................................................iii
目錄..........................................................iv
表目錄......................................................vi
圖目錄.....................................................vii
第一章 緒論...........................................1
1.1 研究背景...........................................1
1.2 研究動機及目的...............................2
1.3 論文架構...........................................2
第二章 無線充電...................................3
2.1 電磁原理...........................................3
2.1.1 電磁感應原理...........................5
2.1.2 磁場耦合諧振原理...................7
2.1.3 無線電波接收原理.................10
第三章 軟體介紹.................................11
3.1 Arduino簡介...................................11
3.1.1 Arduino特性...........................12
3.2 Aduino開發環境介紹.....................12
3.2.1 Arduino程式範例....................14
3.3 App Inventor 2 簡介........................15
3.3.1 App Inventor 2 特性................15
3.4 App Inventor 2 開發環境介紹………15
3.4.1 App Inventor 2 程式範例........18
第四章 系統架構..................................20
4.1. Arduino 硬體架構...........................21
4.1.1 藍芽模組..................................21
4.1.2 時間模組..................................22
4.1.3 類比溫度感測模組..................22
4.1.4 光敏電阻模組..........................23
4.2. 無線供電模組..................................24
第五章 實驗結果..................................25
5.1 電源供應..........................................25
5.1.1 無線供電模組..........................26
5.2 Arduino硬體....................................27
5.3 Android 手機控制端.......................29
5.3.1 自動模式..................................31
5.3.2 手動模式..................................33
5.4 數據儲存..........................................34
第六章 結論與未來展望......................36
6.1 研究成果..........................................36
6.2 未來展望..........................................36
參考文獻..................................................37
Extended Abstract....................................38
簡歷(CV)...................................................42

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