研究生: |
許偉正 Wei-Jheng Syu |
---|---|
論文名稱: |
具可調節雙降壓式轉換器之線性放大器應用於雙軸平面伺服馬達驅動器 Linear Amplifier Powered by Adjustable Dual Buck Converter for 2-axis Planar Servo Motor Driver |
指導教授: |
楊宗銘
Chung-Ming Young |
口試委員: |
謝耀慶
Yao-Ching Hsieh 陳良瑞 Liang-Rui Chen |
學位類別: |
碩士 Master |
系所名稱: |
電資學院 - 電機工程系 Department of Electrical Engineering |
論文出版年: | 2015 |
畢業學年度: | 103 |
語文別: | 中文 |
論文頁數: | 82 |
中文關鍵詞: | 雙軸平面馬達驅動 、雙降壓式轉換器 、正弦脈波寬度調變 、推挽式放大器 、電流頻寬 、抵補電壓 |
外文關鍵詞: | 2-axis planar motor driver, dual buck converter, sine pulse width modulation, push pull amplifier, current bandwidth, offset voltage |
相關次數: | 點閱:359 下載:6 |
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本論文主旨在設計及研製一雙軸平面伺服馬達驅動器並結合雙降壓式轉換器電路(Dual Buck Converter)。電路架構分別為命令端、控制級與功率級,命令端由載具移動速度調整弦波訊號之操作頻率變化,由控制級的線性放大器放大輸出電壓提供負載,輸出電壓經電壓校正後,根據操作頻率之正弦波與切換頻率鋸齒波比較產生正弦脈波寬度調變(Sine Pulse Width Modulation)。由命令端正弦波操作頻率之相對應的SPWM控制雙降壓轉換器的開關,調節轉換器正負半週輸出電壓追隨負載端電壓,提高推挽式放大器(Push-Pull Amplifier)效率。本論文建立一+/-50V之直流電源,根據命令端正弦波訊號之操作頻率變化下,無論是在無載或滿載的情況,輸出電流頻寬(Current Bandwidth)能維持一穩定輸出推動能力。因此本論文負載端電源採用雙降壓式轉換器,由載具移動速度控制操作頻率變化與正弦波波形之特性,分析降壓式轉換器設計的電感與電容最大的電流變動量以符合負載電流之需求。降壓式轉換器電路由模擬之電感與電容參數符合本論文之輸出調節電壓,探討轉換器設計之調節輸出電壓現象與轉換器電感、電容設計不當可能造成的問題。然而,為彌補轉換器之電流變化量不足,電路中加入抵補電壓(Offset)限制最小責任週期大小,在轉換器電容儲存能量,改善轉換器電感電流變化量之不足,但相對在轉換器的電容上儲存電壓,造成推挽式放大器電晶體產生功率損失,降低效率。本論文由電路模擬分析與實作驗證其效率有顯著的改善,降壓式轉換器的調節輸出電壓,實作驗證其成果。
The purpose of this thesis is to build a 2-axis planar motor driver by ajustable dual buck converter. This circuit includes command, controller stage and power stage. According to mover demands moving speed,the sine wave signal adjusts the operation frequency. Linear amplifier of controller stage supplies output voltage to load voltage. The controller regulates load voltage to compare with sawtooth wave of contorller IC TL494 which produces sine pulse width modulation. Moreover,the controller provides SPWM to convert power stage for dual buck converter switches. Dual buck converter defines positive buck converter and negative converter. The dual buck converter can adjust output voltage by SPWM.This method can improve efficient of push pull amplifier circuit in planar motor driver. In order to demonstrating the performance of the proposed dual buck converter, a ±50V source is established and operation frequency difference. Current bandwidth can smooth output in operation frequency difference. Otherwise,the dual buck converter is limited output currrent variation and output voltage variation by designing inductor and capacitor of converter.Output current variation is not enough to offer load current because sine wave of load current slope is too great to support in first duty cycle of converter. As a result, the circuit limits minium duty cycle which charges capacitor voltage of converter by adding offset voltage to support inductor of converter current variation. Finally, both the simulation and experiment results are obtained to show the validity of the proposed circuit.
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