本論文的目標旨在發展以感應機為基礎之一套整合式感應機啟動-發電系統。此系統藉由同一台感應機完成自行啟動、發電並產生穩定直流鏈電壓供電負載之運轉。
採用間接磁場導向控制做為所研究感應機之控制方法，此系統包含了兩個工作模式啟動模式與發電模式。當系統在啟動模式時，由外部提供直流電源，經過換流器驅動感應機旋轉。當系統在發電模式時，外部直流電源切離，並由原動機作為動能來源，驅動感應發電機旋轉。利用磁場導向之控制器，可有效控制整流器輸出一個穩定的直流鏈電壓，並提供功率給負載使用。
除利用數位訊號控制器dsPIC30F6010A做為訊號的處理及控制，並配合周邊的硬體來控制功率半導體開關及訊號的回授外，亦利用電力電子暨馬達模擬軟體PSIM完成整體系統之運轉模擬，以驗證本論文所提系統之可行性。

The aim of this thesis is to develop an induction machine-based integrated starter-generator system. This system can start up and generate power to regulate dc-bus voltage supplying loads using the same induction machine.
The system includes two operation modes, i.e., startup mode and generation mode. When the system is operated under the startup mode, the induction machines can be started up by an inverter that is powered by an external dc voltage source. When the system is operated under the generation mode, the external dc voltage source is disconnected and a prime mover is used as a kinetic-energy source to drive induction machine. This thesis uses an indirect field oriented control as the control scheme for the studied system to control the rectifier to generate a stable dc voltage to supply power to the loads.
This thesis not only uses a digital signal controller dsPIC30F6010A to perform signal process and designs peripheral hardware to control power semiconductor switches, but also employs Powersim software to carry out the simulations of the whole system.

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