標題: 電動助力車行車坡度偵測系統
Various Slope Estimation System
作者: 林芳楚
Lin, Feng-Chu
林錫寬
Lin, Shir-Kuan
電控工程研究所
關鍵字: 電動助力車;坡度;e-bike;slope
公開日期: 2011
摘要: 騎乘電動助力車仍需踩踏腳踏板來驅使車子前進,不同的是,該車配置一助力馬達,在踩踏過程中馬達會提供些許助力,進而提升騎乘的舒適性。一般騎乘時遇到的路況類別不外乎坡度、風阻、和路面摩擦阻力,本文將提出一套行車坡度偵測系統。然而,不同的路況,馬達的助力或換檔時機必須有所調整,因此,如果有一套及時的坡度偵測系統,將有助於廠商設計出舒適性和安全性兼顧的電動助力車。 本系統讀取電動車的行車資訊,經微控器運算後,對路況做出即時的判別,其資訊源包括電池保護板直流匯流排的電流、和控制馬達轉動的電壓訊號。微控器內部程式的設計依據路況、電流、和馬達輸出轉矩三者的關係來實現,詳細的描述在本文第二章至第四章呈現。最後欲確認本系統是否可行,選擇坡度為路況因子進行實驗,原因是不同坡度的路況其狀態穩定且容易找尋。實測分成兩部分,第一部分驗證對路況的判別結果是否準確;第二部分為觀察響應時間是否在可接受範圍內;而實驗後的結果顯示,本系統比該電動車的坡度偵測計效果更好,實驗部分在第五章討論。
We still need to pedal when riding an e-bike, but the differ¬ence is that there is a DC motor in the front wheel. During pedaling, the rider gets addi¬tional power from the motor, and that will enhance the comfort of pedaling. Gener¬ally speaking, categories of various resistant torques are nothing else but slope, wind resistance, and road friction. However, the power of motor and the timing of shifting gear have to adjust to different resistances. This thesis presents a system which estimates vari¬ous slope based on an e-bike and it will be useful for e-bike manufacturers. During riding, the MCU will do a real-time discrimination by computing data which includes the DC bus current of Current-protection and the voltage signal for controlling motor. Some programs will be designed according to the relationship between the resistance, the current, and the torque of DC motor. The above is described in chapter 2 and chapter 3. Finally, we will check whether the system is feasible, so we choose "slope" which is the factor of experiment. This factor is more stable and can be found easier than oth¬ers. There are two experiments, one is the accuracy of discrimination and the other is about response time. However, we will say that this system is better than the slope sensor on the e-bike in chapter 4.
URI: http://140.113.39.130/cdrfb3/record/nctu/#GT079912553
http://hdl.handle.net/11536/49255
Appears in Collections:Thesis