標題: | 應用熱磁電耦合技術所建構之微型能源擷取器與磁感測器 Thermomagnetic-Piezoelectric Coupled Miniature Energy Harvester and Magnetic Sensor |
作者: | 曾佳元 Tseng, Chia-Yuan 鍾添淦 Chung, Tien-Kan 機械工程系所 |
關鍵字: | 壓電;熱磁;能源擷取器;磁感測器;Piezoelectric;Thermomagnetic;Energy Harvester;Magnetic Sensor |
公開日期: | 2013 |
摘要: | 近期,無線感測器以及無線感測網路蓬勃發展,並使用於各種無線感測的應用之中。然而,市售的無線感測器皆是使用電池做為能量供給,無線感測器在長時間使用後,必須將電池充電或是更換電池,因此開發出能擷取環境物理量轉換成電能之能源擷取器,作為無線感測器之能量來源,為目前發展的趨勢。
其中,若能將環境之物理量以很高的轉換效率轉換成電能,則可以作為能源擷取器,並驅動無線感測器,如果環境之物理量轉換成電能的效率不高,但靈敏度很高時,依然可以當作監測環境物理量之感測器來使用。
本論文利用熱磁電耦合技術,開發出能擷取環境之磁能、熱能物理量之熱磁式能源擷取器,擷取環境電磁能時,最大可輸出20 mV之電壓,擷取環境熱能時,最大可輸出70 mV之電壓。利用與能源擷取器相同之架構,製作了可利用熱能輔助作為重置開關之微型磁感測器,其量測結果,可量測之磁場範圍20~45高斯,磁場頻率10~500 Hz,靈敏度(Sensitivity)為64 nV/Gauss,解析度(Resolution)為0.4 Guass,精確度(Accuracy)為4%。 In this thesis, an innovative thermal-magnetic-piezoelectric multi-coupled technology is utilized to develop a miniature energy harvester and magnetic sensor. Due to the multi-coupling, the energy harvester is capable of harnessing the ambient magnetic and thermal energy and consequently convert the energy to piezoelectric voltage-response. Under an alternative magnetic field of 3.5 Oe and temperature-difference of 25 ˚C, the maximum piezoelectric voltage output produced by the harvester is 20 mV and 70 mV, respectively. Furthermore, through using the similar configuration, the energy harvester can be used as a magnetic sensor. To demonstrate the magnetic sensing through the similar configuration, millimeter-scale and micro-scale magnetic sensors are fabricated by conventional machining and MEMS-processing technology, respectively. The experimental results show the sensing-range, frequency-bandwidth, sensitivity, resolution and accuracy of the micro-scale magnetic sensor under an AC magnetic field of 45 gauss is 20-45 gauss, 10-500 Hz, 64 nV/gauss, 0.4 guass, and 4%, respectively. Due to the multi-coupling, the sensor also demonstrates a novel thermal-reset approach which are comparable with the conventional coil-reset approaches used by the conventional magnetic-domain-based AMR magnetic sensors. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#GT070051115 http://hdl.handle.net/11536/73208 |
Appears in Collections: | Thesis |