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光学非球面检测平台伺服控制系统研究 被引量:2

Study on Servo Control System of Measurement Platform for Optical Aspheric Surfaces
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摘要 根据高精度非球面表面检测的要求,设计了一种用于微纳精度测量的光学非球面检测平台伺服控制系统。系统基于DSP芯片控制技术,采用Ti公司生产的TMS320F2812芯片为运动控制电路的核心;基于Windows操作平台和CCS2.0集成开发工具进行软件开发。系统设计的目的是实现平台的多轴运动控制及伺服运动控制系统的软硬件模块的扩展。通过试验和运动仿真对系统的稳定性和精度进行了分析,分析结果表明系统达到了较高的定位控制精度。 According to the requirements of high precision measurement of aspheric surfaces, a servo control system which was used for the micro--nanometer accuracy measurement platform for optical aspheric surfaces was established. The system was based on the control technology of high performance DSP chip. The chip,TMS320F2812 produced by Ti Company,was as the core of motion control circuit. Under Windows operating system and CCS2.0, the software development was accomplished. The system was designed to achieve multi--axis motion control and to expand the hardware and software module for the servo motion control part. The stability and accuracy of the system was analyzed separately by simulation and experiment. The results show that the system has better performance in positioning control.
作者 郭隐彪 杨平 刘建春
机构地区 厦门大学 厦门理工学院
出处 《中国机械工程》 EI CAS CSCD 北大核心 2007年第14期1639-1643,共5页 China Mechanical Engineering
基金 国家863高技术研究发展计划资助项目(8638042416) 厦门大学创新团队资助项目
关键词 非球面 检测 DSP 伺服电机 运动控制 aspheric surface measurement DSP servo motor motion control
分类号 TH741 [机械工程—光学工程]
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参考文献3

  • 1郭隐彪,杨继东,梁锡昌,庄司克雄.轴对称非球面模具加工中的补偿技术研究[J].中国机械工程,2000,11(4):415-417. 被引量:20
  • 2Ti Company.TMS320F28x Peripherals Reference Guide[M].Dallas,Texas:Texas Instruments Incorporated,2002.
  • 3Ti Company.TMS320F28x Optimizing C/C+ + Compiler User's Guide[M].Dallas,Texas:Texas Instruments Incorporated,2001.

二级参考文献3

共引文献19

同被引文献12

  • 1Jain A,Yi A Y. Finite Element Modeling of Struc-tural Relaxation During Annealing of a PrecisionMolded Glass Lens [ J]. Journal of ManufacturingScience and Engineering, 2006 ,128(3) : 683-690.
  • 2Yan Jiwang,Zhou Tiangfeng,Masuda Jun,et al.Moldeing High — temperature Glass MoldingProcess by Coupling Heat Transfer and Viscous De-formation Analysis[J]. Precision Engineering,2009,33(2):150-159.
  • 3Fellows C J, Shaw F. Laboratory Investigation ofGlass to Mold Heat Transfer During Pressing[J].Glass Technoly,1978,19(1) :4-9.
  • 4Zhou H M, Xi G D, Li D Q. Modeling and Simula-tion of Shrinkage During the Picture Tube PanelForming Process[J]. Journal of Manufacturing Sci-ence and Engineering, ASME, 2007 . 129 ( 2 ) : 380 -387.
  • 5Waqas Iqbal. Identifying the Optimum Process Pa-rameters of Precision Glass Molding for AsphericalLenses[D]. City of Clemson: Clemson University,2009.
  • 6Zhou Tianfeng,Yan Jiwang, Kuriyagawa Tsunemo-to. Evaluating the Viscoelastic Properties of GlassAbove Transition Temperature for NumericalModeling of Lens Molding Process[C]//Interna-tional Symposium on Photoeletronic Detection andImaging: Technology and Application. Beijing,2007 ,662402 — 1-662402 —11.
  • 7陈涛,李光耀,孙光永.覆盖件冲压仿真参数化建模方法[J].中国机械工程,2008,19(19):2292-2296. 被引量:7
  • 8尹韶辉,大森整,林伟民,上原嘉宏,陈逢军,朱科军.一种光学材料高效超精密加工方法[J].中国机械工程,2008,19(21):2540-2544. 被引量:16
  • 9康念辉,李圣怡,郑子文,戴一帆.化学气相沉积碳化硅平面反射镜的高精度超光滑加工[J].中国机械工程,2009,10(1):69-73. 被引量:2
  • 10陈逢军,尹韶辉,范玉峰,朱勇建,刘庆.一种非球面超精密单点磨削与形状误差补偿技术[J].机械工程学报,2010,46(23):186-191. 被引量:24

引证文献2

二级引证文献6

中国机械工程
2007年 第14期

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