光电编码器动态检测转台的空间矢量力矩合成驱动系统

于海; 万秋华; 杜颖财; 王树洁; 卢新然

doi:doi:10.3788/ope.20142204.0979

光学精密工程, 2014, 22 (4): 979, 网络出版: 2014-05-06

光电编码器动态检测转台的空间矢量力矩合成驱动系统

Drive system of dynamic detection equipment for photoelectric encoders using space-vector torque combination

论文大纲

于海 ^1,2,*万秋华 ¹杜颖财 ¹王树洁 ¹卢新然 ¹

作者单位

¹ 中国科学院长春光学精密机械与物理研究所, 吉林长春 130033

² 中国科学院大学, 北京 100039

摘要

为了提高光电编码器动态检测技术的稳速精度, 设计了基于永磁无刷直流电机的转台驱动系统。分析了动态检测转台工作时速度波动对编码器角度误差的影响; 结合空间矢量法建立无刷电机三相绕组的力矩合成模型, 使合成力矩在空间内任意位置幅值相同; 最后加入PI控制器, 并利用DSP+CPLD设计了驱动电路, 以保证电机匀速转动, 并可模拟编码器在实际应用中的各种转动方式。实验结果表明: 设计的编码器动态检测转台驱动系统在高、低速转动时都能保持恒定的转矩输出, 系统稳速精度高, 稳态误差小于±1 (°)/s。另外, 转台驱动系统转动稳定, 有效降低了速度波动对编码器误差检测的影响, 满足光电编码器动态检测的要求。

Abstract

To increase the measurement precision of dynamic detection for an optical encoder in the steady speed, a turntable drive system with a brushless DC motor was designed. The influence of the speed fluctuation of dynamic detection equipement on the angle errors of the encoder was analyzed. A model of winding torque composition with space-vector was set up to make the torque's value to be a constant. Finally, the PI controller was added to this system, and the drive circuit was designed with a DSP+CPLD. The experiment shows that the drive system of dynamic detection equipment for the encoder can mantian the output torque stable in all the speeds. The steady speed precision of the system is better, and the steady error is less than ±1 (°)/s. The stable drive system effectively reduces the effect of speed fluctuation on the detection error and satisfies the dynamic detection requirement of photoelectric encoders.

参考文献

[1] EVITON D B,KIRK J,LOBSINGER I. Ultra-high resolution Cartesian absolute optical encoder［J］.SPIE,2003,5190: 111-121.

[2] 万秋华, 孙莹, 王树洁, 等.双读数系统的航天级绝对式光电编码器设计［J］.光学精密工程,2009,17(1): 52-57.

WANG Q H, SUN Y, WANG SH J. Design for space borne absolute photoelectric encoder of dual numerical system ［J］. Opt. Precision Eng., 2009, 17(1): 52-57.(in Chinese)

[3] 王显军.光电轴角编码器细分信号误差及精度分析［J］.光学精密工程,2012,20(2): 379-386.

WANG X J. Errors and precision analysis of subdivision signals for photoelectric angle encoders ［J］.Opt. Precision Eng., 2012, 20(2): 379-386.

[4] 艾晨光,褚明,孙汉旭,等.基准圆光栅偏心检测及测角误差补偿［J］.光学精密工程, 2012,20(11): 2079-2084.

AI CH G, CHU M, SUN H X, et al.. Eccentric testing of benchmark circular grating and compensation of angular error ［J］. Opt. Precision Eng.,2012,20(11): 2079-2084.(in Chinese)

[5] 吴宏圣, 曾琪峰, 乔栋, 等.提高光栅莫尔条纹信号质量的滤波方法［J］.光学精密工程, 2011,19(8): 1944-1949.

WU H SH, ZENG Q F, QIAO D, et al..Filtering method of improving quality of grating moiré fringe ［J］. Opt. Precision Eng., 2011, 19(8): 1944-1949.(in Chinese)

[6] 王显军.基于SOC单片机的高集成度光电编码器电路设计［J］.光学精密工程,2011,19(5): 1082-1087.

WANG X J. Circuit design for high integrated photoelectric encoder base on SOC single chip ［J］. Opt. Precision Eng., 2011, 19(5): 1082-1087.(in Chinese)

[7] 陆华才, 徐月同, 杨伟民, 等.无位置传感器表面式永磁同步直线电机初始位置估计新方法［J］.中国电机控制学报, 2008,28(15): 109-113.

LU H C, XU Y T,YANG W M,et al.. A novel estimation method of sensorless initial rotor position for surface-mounted PMLSM ［J］. Proceedings of the CSEE,2008,28(15): 109-113.(in Chinese)

[8] 夏长亮.无刷直流电机控制系统［M］.北京: 科学出版社, 2009: 1-12．

XIA CH L.The Control System of BLDC Motor ［M］.Beijing: Science Press,2009: 1-12.(in Chinese)

[9] 王晓远,田亮,冯华.无刷直流电机直接转矩模糊控制研究［J］.中国电机控制学报, 2006,26(15): 134-138.

WANG X Y, TIAN L, FENG H.Study of the fuzzy control on direct torque control for BLDCM［J］. Proceedings of the CSEE, 2006,26(15): 134-138.(in Chinese)

[10] SHI T N, LU N, ZHANG Q .Brushless DC motor sliding mode control with kalman fiter ［J］.IEEE International Conference on Industrial Technology, 2008, 4: 1-6.

[11] TIAN Y,SHI T N,XIA C L.Position sensorless control using adaptive wavelet neural network for PM BLDCM［J］.IEEE International Symposium on Industrial Electronics ,2007,2848-2852.

[12] FILATOR Y V,AGAPOV M Y, BOURNACHEV M N. Laser goniometer systems for dynamic calibration of optical encoders, optical measurement system for industrial inspection III［C］.Proceedings of SPIE,2003,5144: 381-390.

[13] TSUKASA W, HIROVUKI F. Automatic high precision calibration system for angle encoder ［C］.Proceedings of SPIE, Recent Developments in Traceable Dimensional Measurements, 2001,4401: 267-274.

[14] 邓方, 陈杰, 陈文颉, 等.高精度的光电编码器检测方法及其装置［J］.北京理工大学学报, 2007,27(11), 977-980.

DENG F, CHEN J, CHEN W J, et al.. A high precision test method and apparatus for photoelectric encoder ［J］.Transactions of Beijing Institute of Technology, 2007, 27(11): 977-980.(in Chinese)

[15] 佟丽翠, 李晨阳, 赵柱, 等.编码器自动检测过程的虚拟仪器化设计［J］.仪表技术与传感器,2010,2: 31-33.

TONG L C, LI CH Y, ZHAO ZH,et al.. Virtual instrument design of encoder automatically detection process ［J］.Instrument Technique and Sensor, 2010, 2: 31-33.(in Chinese)

[16] 赵柱, 续志军, 王显军.基于运动控制技术的编码器自动检测系统［J］.中国光学与应用光学,2009,2(2): 134-138.

ZHAO ZH, XV ZH J, WANG X J. An automatic detection system of encoder error based on motion control technology ［J］.Chinese Journal of Optics and Applied Optics, 2009,2(2): 134-138.(in Chinese)

[17] 杨进堂, 杨庆辉.莫尔条纹动态细分误差的测量［J］. 计量技术,1998,7: 14-16.

YANG J T,YANG Q H. The detection of dynamic interpolation error of Moiré fringe ［J］. Measure Technique, 1998, 7: 14-16.

[18] 康华光, 陈大钦.电子技术基础模拟部分(第四版)［M］.北京: 高等教育出版社, 1999.

KANG H G, CHEN D Q. Electronic Technology Base (fourth edition) ［M］. Beijing: Higher Education Press, 1999. (in Chinese)

于海, 万秋华, 杜颖财, 王树洁, 卢新然. 光电编码器动态检测转台的空间矢量力矩合成驱动系统[J]. 光学精密工程, 2014, 22(4): 979. YU Hai, WAN Qiu-hua, DU Ying-cai, WANG Shu-jie, LU Xin-ran. Drive system of dynamic detection equipment for photoelectric encoders using space-vector torque combination[J]. Optics and Precision Engineering, 2014, 22(4): 979.

光电编码器动态检测转台的空间矢量力矩合成驱动系统

关于本站 Cookie 的使用提示

全站搜索

光电编码器动态检测转台的空间矢量力矩合成驱动系统

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索