DocumentCode
3159850
Title
Velocity profile algorithm realization on FPGA for stepper motor controller
Author
Bangji, Wang ; Qingxiang, Liu ; Lei, Zhou ; Yanrong, Zhang ; Xiangqiang, Li ; Jianqiong, Zhang
Author_Institution
Coll. of Phys. Sci. & Technol., Southwest Jiaotong Univ., Chengdu, China
fYear
2011
fDate
8-10 Aug. 2011
Firstpage
6072
Lastpage
6075
Abstract
In order to optimize the open loop control strategy of stepper motor, the velocity profiles of stepper motor were studied. There are three widespread used velocity profiles: trapezoidal, parabolic, and S-curve profiles. In this paper, trapezoidal velocity profile was chosen for further study. In order to accurately generate an arbitrary trapezoidal velocity profile, a new velocity profile generation methodology is developed. It shows how to deal with computational complexity and balance performance against resources requirements using field programmable gate field (FPGA). Thus, a high performance stepper motor controller can be achieved by combining a system on a chip (SOC) with this hardware. Experimental results verify the accuracy and efficiency of the proposed approaches.
Keywords
computational complexity; field programmable gate arrays; machine control; open loop systems; optimisation; stepping motors; system-on-chip; FPGA; S-curve profile; SOC; computational complexity; field programmable gate arrays; open loop control strategy optimization; parabolic velocity profile; stepper motor controller; system on chip; trapezoidal velocity profile; velocity profile algorithm realization; velocity profile generation methodology; Acceleration; Field programmable gate arrays; Generators; Hardware; Pulse width modulation; Radiation detectors; Timing; Stepper Motor; Velocity Profile; field programmable gate field (FPGA); system on a chip (SOC);
fLanguage
English
Publisher
ieee
Conference_Titel
Artificial Intelligence, Management Science and Electronic Commerce (AIMSEC), 2011 2nd International Conference on
Conference_Location
Deng Leng
Print_ISBN
978-1-4577-0535-9
Type
conf
DOI
10.1109/AIMSEC.2011.6009864
Filename
6009864
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