Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/91078
標題: 應用GMR感測器於停車場非接觸式充放電裝置之定位控制
Contactless Bidirectional Charging and Discharging System Positioning Control for Parking Lot using GMR Sensor
作者: 張俊傑
Chun-Chieh Chang
關鍵字: Contactless bidirectional charging and discharging device;giant magneto resistance (GMR);flexible magnetic stripe;positioning system;非接觸式雙向充放電裝置;巨磁阻感測器;撓性磁帶;定位系統
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摘要: 
Implementation of a novel multifunctional contactless sensor based on the giant magneto resistance (GMR) effect combined with a bidirectional charging and discharging system positioning control scheme for parking lot's vehicles is proposed. Traditional Hall effect sensors detect magnetic flux changes, however, if the changes are not significant enough to induce interference voltage level there will be leading to error judgment. On the other hand, a GMR sensor may detect tiny changes in the magnetic field which will produce a larger change in resistance; this resistance is less susceptible to external noise influence while producing a relatively stable output signal level. As a novel application, our research combines the GMR sensor, a flexible magnetic stripe, a microprocessor and a bidirectional charging and discharging system to fulfill a positioning control system for the parking lot's vehicles. Real-world experiments are conducted to verify the proposed approach.

本研究的目的在於提出一種多功能非接觸式巨磁阻讀取感測器實現於停車場車輛非接觸充放電裝置之定位控制。有別於傳統的霍爾感測器元件是利用磁通量變化來進行判讀,若磁通量變化不夠明顯將造成電壓高低過大而產生干擾與誤判的缺點,反之採用巨磁阻讀取原理,當巨磁阻讀取機構接受到微小磁場變化時就會產生極大的電阻變化且此電阻不易受外界雜訊影響,故所呈現之輸出電壓相對穩定。我們也提出了一項創新的應用,結合巨磁阻感測器、撓性磁帶及具開放式架構的微處理器與非接觸式充放電裝置,實現了停車場車輛非接觸式感應線圈最佳耦合位置之定位控制方案,並於實驗結果中獲得成功驗證。
URI: http://hdl.handle.net/11455/91078
其他識別: U0005-0808201515330500
Rights: 同意授權瀏覽/列印電子全文服務,2018-08-27起公開。
Appears in Collections:電機工程學系所

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