Title :
Micro controller unit based motor control system using field oriented control algorithm
Author :
Hsing-Chuang Liu ; Chang-Hsin Cheng ; Chun-Yen Wu ; Kung-Ming Ji ; You-Gu Chen ; Chung Chuang ; Chih-Chien Shen ; Yong-Kai Lin
Author_Institution :
Automotive Electron. Design & Applic. Dept., ITRI, Hsinchu, Taiwan
Abstract :
This paper focuses on micro controller unit (MCU) based platform and field oriented control (FOC) algorithm applying 3rd harmonic injection algorithm. The target application of this paper is power chain systems of electric vehicle (EV) and electric scooter (E-Scooter). The MCU based system on chip (SoC) is proposed, called Bison1, and the proposed platform is called Bison1 platform which is including specification I/O controller for motor control and memory with FOC algorithm. The experiment results show the proposed methodology has good performance for complexity FOC algorithm and, the proposed Bison1 platform provides some protected mechanisms such as over heating and over current for safety The execution time for the motor control of the proposed system is about 44.9 us which is almost the same with digital signal processor (DSP) based system.
Keywords :
computational complexity; electric vehicles; machine vector control; microcontrollers; motorcycles; permanent magnet motors; synchronous motors; system-on-chip; 3rd harmonic injection algorithm; Bison1 platform; DSP based system; FOC algorithm; I/O controller; MCU; SoC; complexity; digital signal processor; e-scooter; electric scooter; electric vehicle; field oriented control algorithm; microcontroller unit; motor control system; over current; over heating; permanent magnet synchronous motor; power chain systems; safety; system on chip; Algorithm design and analysis; Control systems; Digital signal processing; Harmonic analysis; Motor drives; Pulse width modulation; FOC; MCU; SoC; motor control;
Conference_Titel :
Information, Communications and Signal Processing (ICICS) 2013 9th International Conference on
Conference_Location :
Tainan
Print_ISBN :
978-1-4799-0433-4
DOI :
10.1109/ICICS.2013.6782806
