三相混合式步进电动机细分驱动系统的研究与实现
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摘要
本文以三相混合式步进电动机数学模型为基础,推导出其转矩解析式,分析了细分驱动对于改善步进电动机运行性能的作用,论述了正弦波细分驱动可以实现等步距角、等力矩均匀细分驱动的原理。提出了通过任意均匀细分来实现任意步距角的新方法,从而打破步进电动机相数和齿数对步距角的限制,简化步进电动机及驱动器的生产格局,充分发挥机电一体化的系统效果。
基于固定开关频率型正弦电流跟踪PWM技术,采用软硬件结合的方式完成三相混合式步进电动机正弦波细分驱动系统的研制。以IGBT三相桥作为主逆变电路,对电机绕组电流按正弦规律进行电流闭环控制实现正弦波细分驱动。由于电路复杂,在印刷电路板结构设计中,考虑了功率高频调制等各种因素的影响,以增强系统的协调性和抗干扰性。
驱动系统采用微机控制,灵活方便的用软件实现正弦波均匀细分和任意步距角。同时可以将步进电动机驱动器集运动控制与驱动于一体,按照优化的加减速曲线运行来完成运动控制,从而减轻系统集成的难度。研制的驱动器用单一单片机控制平面x-y双轴步进电机,节约了成本,简化了生产设备。最后给出了完整的试验结果,包括不同细分步数下的输出电流和驱动效果等。
经现场长时间运行,该双电机驱动系统对整个数控系统运行噪音、机械振动的抑制,定位精度的提高和位置控制的协调性都具有显著的效果。
Based on the model of a three-phase hybrid stepping motor, the torque expression is deduced. The effect of subdivided driving on operating performance is analysed. It is illustrated that sine wave subdivided driving can make stepping angle and torque equal. This paper proposes a new method to obtain any wanted stepping angle with adjustable and even subdivision. With the method, the stepping angle isn't restricted with different phase number and tooth number any longer. So the product arrangement of stepping motors and drives can be simplified. And the efficacy of the system is taken full advantage of.
Based on the PWM technology (the style of traced SIN current) with fixed switch frequency, a SIN subdivided driving system for three-phase hybrid stepping motor has been built. Both software and hardware are synthesized. Three-phase bridge inverter used, the current in each phase is made similar to sine wave using current closed loop control. Because of the complicacy of the circuit, all sorts of influencing factors, such as power and high frequency modulation etc., are considered to strengthen the harmony and the noise-immunity of the system, while the printed circuit board is designed.
The driving system is controlled with microprocessor. It is easy to realize SIN even subdivided driving and to obtain any wanted stepping by programming. Motion controlling can be integrated with driving. According to the optimised curve of acceleration and deceleration, the moving control can be achieved by the drive. So the difficulty of system integration is lessened. The drive with single microprocessor is used to control the two stepping motors in a two-axis stepper motion system at
the same time. So the cost is reduced and the produce device is simplified. Finally, this paper presents the experiment result, including the output current and the driving effect using different micro-step number.
The driving system operates for a long time in the numerical control system. Due to the driving system, noise and vibration are restrained. The positioning accuracy and the harmony of the position control system are also increased.
基于固定开关频率型正弦电流跟踪PWM技术,采用软硬件结合的方式完成三相混合式步进电动机正弦波细分驱动系统的研制。以IGBT三相桥作为主逆变电路,对电机绕组电流按正弦规律进行电流闭环控制实现正弦波细分驱动。由于电路复杂,在印刷电路板结构设计中,考虑了功率高频调制等各种因素的影响,以增强系统的协调性和抗干扰性。
驱动系统采用微机控制,灵活方便的用软件实现正弦波均匀细分和任意步距角。同时可以将步进电动机驱动器集运动控制与驱动于一体,按照优化的加减速曲线运行来完成运动控制,从而减轻系统集成的难度。研制的驱动器用单一单片机控制平面x-y双轴步进电机,节约了成本,简化了生产设备。最后给出了完整的试验结果,包括不同细分步数下的输出电流和驱动效果等。
经现场长时间运行,该双电机驱动系统对整个数控系统运行噪音、机械振动的抑制,定位精度的提高和位置控制的协调性都具有显著的效果。
Based on the model of a three-phase hybrid stepping motor, the torque expression is deduced. The effect of subdivided driving on operating performance is analysed. It is illustrated that sine wave subdivided driving can make stepping angle and torque equal. This paper proposes a new method to obtain any wanted stepping angle with adjustable and even subdivision. With the method, the stepping angle isn't restricted with different phase number and tooth number any longer. So the product arrangement of stepping motors and drives can be simplified. And the efficacy of the system is taken full advantage of.
Based on the PWM technology (the style of traced SIN current) with fixed switch frequency, a SIN subdivided driving system for three-phase hybrid stepping motor has been built. Both software and hardware are synthesized. Three-phase bridge inverter used, the current in each phase is made similar to sine wave using current closed loop control. Because of the complicacy of the circuit, all sorts of influencing factors, such as power and high frequency modulation etc., are considered to strengthen the harmony and the noise-immunity of the system, while the printed circuit board is designed.
The driving system is controlled with microprocessor. It is easy to realize SIN even subdivided driving and to obtain any wanted stepping by programming. Motion controlling can be integrated with driving. According to the optimised curve of acceleration and deceleration, the moving control can be achieved by the drive. So the difficulty of system integration is lessened. The drive with single microprocessor is used to control the two stepping motors in a two-axis stepper motion system at
the same time. So the cost is reduced and the produce device is simplified. Finally, this paper presents the experiment result, including the output current and the driving effect using different micro-step number.
The driving system operates for a long time in the numerical control system. Due to the driving system, noise and vibration are restrained. The positioning accuracy and the harmony of the position control system are also increased.
引文
[1]朱宇,王伟.步进电动机的应用.微电机,2002年,35(4):55-58.
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[5] So, E.C.T.; Williams, R.G.D.; Yang, S.J.Hybrid stepping motor vibration. Industry Applications Magazine, IEEE , Volume: 1 Issue: 3 , May-June 1995: 21 -27.
[6]Cheng Zhi; Wang Zongpei; Han Guangxian; Hirobumi,S. The vibration characteristic and saturation effect of the 2-phase hybrid stepping motor.Electrical Machines and Systems, 2001. ICEMS 2001. Proceedings of the Fifth International Conference on , Volume: 1 , 18-20 Aug. 2001: 404 -407 vol.1.
[7]李忠杰、宁守信.步进电动机应用技术.机械工业出版社.1988年12月.
[8]张宇.步进电机驱动噪音的消除方法.火控雷达技术,2000年6月,第29卷,25-27.
[9]Jenkins, M.Hybrid stepper motors. Permanent Magnet Machines, IEE Colloquium on , 15 Jun 1988 : 7/1 -7/2.
[10] Baker, D.2 phase hybrid stepping motors. Stepper Motors and Their Control, IEE Colloquium on , 25 Jan 1994: 2/1 -2/3.
[11]Paresh C.Sen. Electric Motor Drives and Control-Past, Present, and Future. IEEE Trans. On IE.,Vol.37,No.6,Dec.,1990:562-575.
[12]Wale, J.D.; Pollock, C.Hybrid stepping motors and drives.Power Engineering Journal [see also Power Engineer] , Volume: 15 Issue: 1 , Feb 2001: 5 -12.
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[18] 孙鹤旭.交流步进传动系统.机械工业出版社,1996年12月第一版.
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[20]Mizutami, K.; Hayashi, S.; Matsui, N. Modeling and control of hybrid stepping motors. Industry Applications Society Annual Meeting, 1993., Conference Record of the 1993 IEEE , 2-8 Oct. 1993 : 289 -294 vol.1.
[21]Kosaka, T.; Matsui, N.Simple nonlinear magnetic analysis for three-phase hybrid stepping motors.Industry Applications Conference, 2000. Conference Record of the 2000 IEEE , Volume: 1 , 8-12 Oct. 2000: 126 -131 vol.1.
[22]Kano, Y.; Kosaka, T.; Matsui, N.Simple non-linear magnetic analysis-based optimum design of three-phase hybrid stepping motors.Electric Machines and Drives Conference, 2003. IEMDC'03. IEEE International , Volume: 2 , 1-4 June 2003: 1201 -1207 vol.2.
[23]Kou Bao-quan; Li Li-yi; Cheng Shu-kang; Meng Fan-rong.Torque characteristics of double-stator hybrid stepping motor with serial magnetic circuit structure. Electric Machines and Drives Conference, 2003. IEMDC'03. IEEE International , Volume: 1 , 1-4 June 2003: 313 -318 vol.1.
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[27]林波,李兴根.混合式步进电机SPWM微步驱动技术得研究.微电机,2000年,33(3):16-18、20.
[28]王宗培、程智、任雷.统一混合式步进电动机相数的研究,第六届全国永磁电机学术交流会论文集,吉林,1998年,94-104.
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[31]程智、任雷等.任意步距角步进驱动器的实现.微电机,2001年第34卷第1期:18-10、48.
[32]唐爱民,胡金高.单片机控制的正弦波细分三相混合式步进电机驱动系统.东南大学学报,2003,33(Sup.):144-146.
[33]Dianguo Xu; Yan Wang; Wei Wang.The application of frequency/voltage coordinating control strategy to 9-phase hybrid stepping motor driving system .Power Electronics Specialists Conference, PESC '94 Record., 25th Annual IEEE , 20-25 June 1994: 528 -531 vol.1.
[34]Du Xu; Yongping Jiang.A method and implementation of fully digitized continuous microstep for step motor.Electric Machines and Drives Conference Record, 1997, IEEE International , 18-21 May 1997: TC2/9.1 -TC2/9.3.
[35]Ogasawara, S.An application of sensorless drive technology to a three-phase hybrid stepping motor drive. Power Conversion Conference, 2002. PCC Osaka 2002. Proceedings of the , Volume: 3 , 2-5 April 2002 : 964 -970 vol.3.
[36]Po Wa Lee; Pollock, C.Shared switch converter topology for a two phase bipolar drive hybrid stepping motor.Power Electronics Specialists Conference, 1996. PESC '96 Record., 27th Annual IEEE , Volume: 1 , 23-27 June 1996: 127 -133 vol.1.
[37]陈伯时,陈敏逊.交流调速系统.机械工业出版社,1998年5月第一版.
[38]陈国呈.PWM变频调速及软开关电力变换技术.机械工业出版社,2002年1月第1版.
[39]谭会生、张昌凡.EDA技术及应用.西安电子科技大学出版社,2001年9月第1版.
[40]黄正谨.CPLD系统设计技术入门与应用.电子工业出版社,2002年3月第1版.
[41]吴守箴,藏英杰.电气传动的脉宽调制控制技术.机械工业出版社,1995年1月第一版.
[42]Zhang Xiaomei; Cheng Yaozhong.A new model of the variable current servo-system.Intelligent Control and Automation, 2000. Proceedings of the 3rd World Congress on , Volume: 5 , 28 June-2 July 2000: 3745 -3749 vol.5.
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[2]刘宝廷,程树康等.步进电动机及其驱动控制系统.哈尔滨工业大学出版社,1997年11月.
[3]王宗培、赵书韬、任雷等.混合式步进电动机的研究(一).电工技术杂志,1998年,(3),3-6.
[4]王宗培、赵书韬、任雷等.混合式步进电动机的研究(二).电工技术杂志,1998年,(4),5-7.
[5] So, E.C.T.; Williams, R.G.D.; Yang, S.J.Hybrid stepping motor vibration. Industry Applications Magazine, IEEE , Volume: 1 Issue: 3 , May-June 1995: 21 -27.
[6]Cheng Zhi; Wang Zongpei; Han Guangxian; Hirobumi,S. The vibration characteristic and saturation effect of the 2-phase hybrid stepping motor.Electrical Machines and Systems, 2001. ICEMS 2001. Proceedings of the Fifth International Conference on , Volume: 1 , 18-20 Aug. 2001: 404 -407 vol.1.
[7]李忠杰、宁守信.步进电动机应用技术.机械工业出版社.1988年12月.
[8]张宇.步进电机驱动噪音的消除方法.火控雷达技术,2000年6月,第29卷,25-27.
[9]Jenkins, M.Hybrid stepper motors. Permanent Magnet Machines, IEE Colloquium on , 15 Jun 1988 : 7/1 -7/2.
[10] Baker, D.2 phase hybrid stepping motors. Stepper Motors and Their Control, IEE Colloquium on , 25 Jan 1994: 2/1 -2/3.
[11]Paresh C.Sen. Electric Motor Drives and Control-Past, Present, and Future. IEEE Trans. On IE.,Vol.37,No.6,Dec.,1990:562-575.
[12]Wale, J.D.; Pollock, C.Hybrid stepping motors and drives.Power Engineering Journal [see also Power Engineer] , Volume: 15 Issue: 1 , Feb 2001: 5 -12.
[13]程智.混合式步进驱动单元的研究.[博士后士学位论文]. 浙江:浙江大学电气工程学院,2000年.
[14]徐殿国,王宗培.伺服驱动系统发展概况.微电机,1990(3):16-22.
[15]牒正文.微特电机工业现状及发展趋势.微特电机,2003年,36(3):45-51.
[16]施进浩,龚春雨,吴舜洁.步进电动机产品质量现状及分析.微特电机,2002年3月,14-15,18.
[17] 华蕊。步进电机细分驱动技术综述。佛山科学技术学院学报(自然科学版),1999年9月17(3):50-54.
[18] 孙鹤旭.交流步进传动系统.机械工业出版社,1996年12月第一版.
[19]Sheng-Ming Yang; Pei-Der Su. Active damping control of hybrid stepping motor . Power Electronics and Drive Systems, 2001. Proceedings., 2001 4th IEEE International Conference on , Volume: 2 , 22-25 Oct. 2001: 749 -754 vol.2.
[20]Mizutami, K.; Hayashi, S.; Matsui, N. Modeling and control of hybrid stepping motors. Industry Applications Society Annual Meeting, 1993., Conference Record of the 1993 IEEE , 2-8 Oct. 1993 : 289 -294 vol.1.
[21]Kosaka, T.; Matsui, N.Simple nonlinear magnetic analysis for three-phase hybrid stepping motors.Industry Applications Conference, 2000. Conference Record of the 2000 IEEE , Volume: 1 , 8-12 Oct. 2000: 126 -131 vol.1.
[22]Kano, Y.; Kosaka, T.; Matsui, N.Simple non-linear magnetic analysis-based optimum design of three-phase hybrid stepping motors.Electric Machines and Drives Conference, 2003. IEMDC'03. IEEE International , Volume: 2 , 1-4 June 2003: 1201 -1207 vol.2.
[23]Kou Bao-quan; Li Li-yi; Cheng Shu-kang; Meng Fan-rong.Torque characteristics of double-stator hybrid stepping motor with serial magnetic circuit structure. Electric Machines and Drives Conference, 2003. IEMDC'03. IEEE International , Volume: 1 , 1-4 June 2003: 313 -318 vol.1.
[24]钟仁人.步距角任意细分的步进电动机电流波形的讨论.微特电机,1996年第3期:22-25.
[25]林瑞沢、孙兴进.步进电动机的最佳细分电流波形及其实现.电气自动化,2000年第4期:16-19.
[26]周尊源,S.M.欧文斯.正弦波细分步进电机微步驱动器.微特电机,1997年第5期:29-30,37.
[27]林波,李兴根.混合式步进电机SPWM微步驱动技术得研究.微电机,2000年,33(3):16-18、20.
[28]王宗培、程智、任雷.统一混合式步进电动机相数的研究,第六届全国永磁电机学术交流会论文集,吉林,1998年,94-104.
[29]王宗培、孙宝奎、程智等.论步进电动机产品的格局(统一步进电动机相数和齿数的研究),电工技术学报,1999年,14(4):5-9.
[30]程智、任雷、王宗培.两相混合式步进电动机通电方式的新设计,电工电能新技术,2000年第1期:50-53.
[31]程智、任雷等.任意步距角步进驱动器的实现.微电机,2001年第34卷第1期:18-10、48.
[32]唐爱民,胡金高.单片机控制的正弦波细分三相混合式步进电机驱动系统.东南大学学报,2003,33(Sup.):144-146.
[33]Dianguo Xu; Yan Wang; Wei Wang.The application of frequency/voltage coordinating control strategy to 9-phase hybrid stepping motor driving system .Power Electronics Specialists Conference, PESC '94 Record., 25th Annual IEEE , 20-25 June 1994: 528 -531 vol.1.
[34]Du Xu; Yongping Jiang.A method and implementation of fully digitized continuous microstep for step motor.Electric Machines and Drives Conference Record, 1997, IEEE International , 18-21 May 1997: TC2/9.1 -TC2/9.3.
[35]Ogasawara, S.An application of sensorless drive technology to a three-phase hybrid stepping motor drive. Power Conversion Conference, 2002. PCC Osaka 2002. Proceedings of the , Volume: 3 , 2-5 April 2002 : 964 -970 vol.3.
[36]Po Wa Lee; Pollock, C.Shared switch converter topology for a two phase bipolar drive hybrid stepping motor.Power Electronics Specialists Conference, 1996. PESC '96 Record., 27th Annual IEEE , Volume: 1 , 23-27 June 1996: 127 -133 vol.1.
[37]陈伯时,陈敏逊.交流调速系统.机械工业出版社,1998年5月第一版.
[38]陈国呈.PWM变频调速及软开关电力变换技术.机械工业出版社,2002年1月第1版.
[39]谭会生、张昌凡.EDA技术及应用.西安电子科技大学出版社,2001年9月第1版.
[40]黄正谨.CPLD系统设计技术入门与应用.电子工业出版社,2002年3月第1版.
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