直线旋转永磁作动器的双DSP控制系统设计
金平1,江泽南1,许多1,陈芷群1,林伟伟1,孔祥春1,金敏毅2
1 河海大学 能源与电气学院,江苏 南京 210098;
2 法泰电器(江苏)股份有限公司,江苏 苏州 215031
摘 要:介绍了一种直线旋转永磁作动器(LRPMA)的结构特点与运行原理,分析了其数学模型,针对LRPMA需要实现直线、旋转和螺旋运动的功能特点,设计了基于DSP2812和双口RAM的双DSP结构伺服控制系统。该控制系统通过共享存储器,实现了双DSP之间的实时通信,给出了系统软硬件设计及不同运动形式的控制策略。经实验测试,结果表明该系统满足控制的要求。
关键词:直线旋转永磁作动器;双DSP;双口RAM
中图分类号:TM351;TP273 文献标识码:A 文章编号:1007-3175(2015)10-0006-06
Double Digital Signal Processor Control System Design of Linear and Rotary Permanent Magnet Actuator
JIN Ping1, JIANG Ze-nan1, XU Duo1, CHEN Zhi-qun1, LIN Wei-wei1, KONG Xiang-chun1, JIN Min-yi2
1 College of Energy and Electrical Engineering, Hohai University, Nanjing 210098, China;
2 Foretech Electric Appliance (Jiangsu) Corporation Ltd, Suzhou 215031, China
Abstract: Introduction was made to the structural characteristics and operating principle of a kind of linear and rotary permanent magnet actuator (LRPMA), whose mathematical model was analyzed. In allusion to the function characteristics of linear, rotary and helical motion which the LRPMA needed to realize, this paper designed the servo control system with the double digital signal processor (DSP) based on DSP2812 and dual-port random-access memory (RAM). This control system shared the memory to achieve real-time communication between the two DSPs, and gave the design of system software and hardware, and different forms of motion control strategy. The experimental results show that the servo control system satisfies the demand of controlling.
Key words: linear and rotary permanent magnet actuator; double digital signal processor; dual-port random-access memory
参考文献
[1] Kohli Dilip, Sandor George N.Rotary Linear Actuator for Use in Robotic Manipuators:United States Patent,4806068[P].1989-02-21.
[2] Bolognesi P, Bruno O, Papini F, et al.A low-complexity rotary-linear motor useable for actuation of active wheels[C]//International symposium on SPEEDAM, 2010:331-338.
[3] Bolognesi P, Biagini V.Modeling and control of a rotary and linear drive using a novel isotropic brushless machine[C]//2010 XIX International Conference on Electrical Machines(ICEM),2010:1-6.
[4] Bertoluzzo M, Bolognesi P, Bruno O,et al.A distributed driving and steering system for electric vehicles using rotary-linear motors[C]//2010 International symposium on SPEEDAM, 2010:1156-1159.
[5] Chen L, Hofmann W.Design of one rotary-linear permanent magnet motor with two independently energized three phase windings[C]//2007 International Conference on Power Electronics and Drive Systems, Bangkok, 2007.
[6] 李滨城,陈立,卢蓉芝.一种带有两套三相绕组旋转直线永磁电机的设计[J].江苏科技大学学报:自然科学版,2009,23(1):42-46.
[7] Krebs G, Tounzi A, Pauwels B, et al.Modeling of a Linear and Rotary Permanent Magnet Actuator[J].IEEE Transactions on Magnetics, 2008,44(11):4357-4360.
[8] Krebs G, Tounzi A, Pauwels B, et al.Design of a permanent magnet actuator for linear and rotary movements[J].The European Physical Journal Applied Physics, 2008(44):77-85.
[9] Jin Ping, Fang Shuhua, Lin Heyun.A novel linear and rotary Halbach permanent magnet actuator with two degrees-of-freedom[J].Journal of Applied Physics, 2012,111(7):1-3.
[10] Jin Ping, Fang Shuhua, Lin Heyun,et al.Analytical magnetic field analysis and prediction of cogging force and torque of a linear and rotary permanent magnet actuator[J].IEEE Transactions on Magnetics,2011,47(10):3004-3007.
[11] Jin Ping, Lin Heyun, Fang Shuhua, et al.3-D analytical linear force and rotary torque analysis of linear and rotary permanent magnet actuator[J].IEEE Transactions on Magnetics, 2013,49(7):3989-3992.
[12] Jin Ping, Yuan Yue, Guo Jian, et al.Static Characteristics of Novel Air-Cored Linear and Rotary Halbach Permanent Magnet Actuator[J].IEEE Transactions on Magnetics,2014,50(2):1-3.
[13] Jin Ping, Lin Heyun, Fang Shuhua, et al.Decoupling control of linear and rotary permanent magnet actuator using bidirectional d-q transformation[J].IEEE Transactions on Magnetics, 2012,48(10):2585-2591.
