基于单片机的高精度步进电机控制研究
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摘要
近年来硬盘制造业高速发展,大容量、小体积、高读取速度的硬盘,是硬盘市场的发展趋势。这些体积小、结构复杂的硬盘对加工工艺提出了很高的要求。而加工中主要是采用步进电机作为伺服控制系统的。
步进电机以其独特的特点可以在无速度传感器和无位置传感器系统中实现精确的开环状态定位或同步运行。我们通过调节发送给步进电机的步进脉冲个数来实现精确的位移或者角度定位,而调节发送的步进脉冲频率就可以实现速度调节,这些都有利装置或设备的小型化和低成本,因而在众多领域中得到广泛的应用。
细分驱动技术是一种能有效改善步进电机低频特性和提高步进精度的驱动技术。广泛应用于对工况要求较高的场合,尤其在一些要求高精度、低噪音、低振动的系统中,细分驱动成为步进电机驱动的首选驱动技术。
本文先介绍了三相混合式步进电机的结构和工作原理,然后在对步进电机细分驱动技术、PWM逆变技术以及单片机研究的基础上,分析了细分驱动对于改善步进电机运行性能的作用,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,提出了一种基于正弦电流细分和电流追踪型脉宽调制(PWM)的细分驱动技术,该方案中正弦电流细分技术基本上克服了传统步进电机低速振动大和噪音大的缺点,减小发生共振的几率。电流追踪型脉宽调制(PWM)技术使电机运行在较大速度范围内转矩保持恒定。该方案能避免其它相绕组的感应电压和绕组电流的漂移带来的误差,提高了细分精度。本文采用控制电路主要由AT89C51单片机、晶振电路、地址锁存器、译码器、EEPROM存储器及可编程键盘/显示控制器Intel-8279等组成,单片机是控制系统的核心。采用IR2130功率驱动芯片作为三相混合式步进电机的功率驱动器件。文中对整个系统的架构及硬件电路和驱动软件的实现都做了详细的介绍。
最后本文又通过实验对这个系统的可靠性和步进精度进行了测试,实验结果表明该系统能够满足用户的定位精度要求,有效的抑制了运行噪声和机械振动。同时由于该系统实现了恒力矩细分驱动,从而提高了系统的可靠性,降低了成本。具有较强的实用件。
Rapid development of Hard Disk Drive industry in recent years has beenpushing HDD to advance on the trend of large capacity, small size and rapid access, which put great requirements on machining techniques of HDD.But, processing middle is to adopt step-by-step electric motor to be servo control systematically mainly.
With its special features in the construction stepper motor is widely used in the system that without speed sensors and location sensors to achieve precise positioning of the non-feedback controlling central or synchronous operation. We adopted the regulation that we can conveniently achieve precise position by sending to the stepper motor a given number of electrical pulse and by adjusting the step pulse frequency to control its speed .These characters can be contribute to make the device or equipment miniaturization and low-cost, so they are widely spread in many areas.
The stepper motor's micro-stepping driver is a kind of driving technology that can effectively improve the step precision and characteristic of low frequency. It is mostly used when the equipments require high-precision, low noise or low vibration system, and it is being a more and more popular driving technology.
In this paper, the working principle and configuration of three-phase hybrid Stepper are introduced, then based on technologies such as stepper motor controller, PWM inverter and microcontroller. We analysis the using of micro-stepping driving technology to improve operational performance,discuss the principles of SPWM inverter for stepper motor with invariable torque micro-stepping driver, and propound sine wave current subdividing and current tracking PWM technology. Sine wave current subdividing technology not only overcomes the disadvantages of motor's vibration and noise at low speeds but also reduces probability of resonance. Current tracking PWM technology can maintain constant torque within wide speed range. It prevents the reactive voltage errors brought by other windings and the drift errors brought by current. It improves the precision of subdivision. In the thesis, we develop a single chip computer -based digital controlling system for a three-phase hybrid stepper motor that is mainly constructed from a AT89C51 single chip computer and 8279IC which is used as the core of control parts and a three full-bridge driver IR2130.The power stage of this driver uses IGBT IR2130 that provides high reliability.Based on the approach, the system's whole architecture, the design of hardware and software are introduced in detail.
In finally, the reliability and stepper accuracy of this new control system are tested. The results show that the system can effectively satisfy the fixed position accuracy of customer request, represses movement noise and mechanical vibration. Meanwhile, the realization of the invariable torque micro-stepping technology of stepper motor can effectively reduce the cost ,improve the system's reliability and relevance.
步进电机以其独特的特点可以在无速度传感器和无位置传感器系统中实现精确的开环状态定位或同步运行。我们通过调节发送给步进电机的步进脉冲个数来实现精确的位移或者角度定位,而调节发送的步进脉冲频率就可以实现速度调节,这些都有利装置或设备的小型化和低成本,因而在众多领域中得到广泛的应用。
细分驱动技术是一种能有效改善步进电机低频特性和提高步进精度的驱动技术。广泛应用于对工况要求较高的场合,尤其在一些要求高精度、低噪音、低振动的系统中,细分驱动成为步进电机驱动的首选驱动技术。
本文先介绍了三相混合式步进电机的结构和工作原理,然后在对步进电机细分驱动技术、PWM逆变技术以及单片机研究的基础上,分析了细分驱动对于改善步进电机运行性能的作用,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,提出了一种基于正弦电流细分和电流追踪型脉宽调制(PWM)的细分驱动技术,该方案中正弦电流细分技术基本上克服了传统步进电机低速振动大和噪音大的缺点,减小发生共振的几率。电流追踪型脉宽调制(PWM)技术使电机运行在较大速度范围内转矩保持恒定。该方案能避免其它相绕组的感应电压和绕组电流的漂移带来的误差,提高了细分精度。本文采用控制电路主要由AT89C51单片机、晶振电路、地址锁存器、译码器、EEPROM存储器及可编程键盘/显示控制器Intel-8279等组成,单片机是控制系统的核心。采用IR2130功率驱动芯片作为三相混合式步进电机的功率驱动器件。文中对整个系统的架构及硬件电路和驱动软件的实现都做了详细的介绍。
最后本文又通过实验对这个系统的可靠性和步进精度进行了测试,实验结果表明该系统能够满足用户的定位精度要求,有效的抑制了运行噪声和机械振动。同时由于该系统实现了恒力矩细分驱动,从而提高了系统的可靠性,降低了成本。具有较强的实用件。
Rapid development of Hard Disk Drive industry in recent years has beenpushing HDD to advance on the trend of large capacity, small size and rapid access, which put great requirements on machining techniques of HDD.But, processing middle is to adopt step-by-step electric motor to be servo control systematically mainly.
With its special features in the construction stepper motor is widely used in the system that without speed sensors and location sensors to achieve precise positioning of the non-feedback controlling central or synchronous operation. We adopted the regulation that we can conveniently achieve precise position by sending to the stepper motor a given number of electrical pulse and by adjusting the step pulse frequency to control its speed .These characters can be contribute to make the device or equipment miniaturization and low-cost, so they are widely spread in many areas.
The stepper motor's micro-stepping driver is a kind of driving technology that can effectively improve the step precision and characteristic of low frequency. It is mostly used when the equipments require high-precision, low noise or low vibration system, and it is being a more and more popular driving technology.
In this paper, the working principle and configuration of three-phase hybrid Stepper are introduced, then based on technologies such as stepper motor controller, PWM inverter and microcontroller. We analysis the using of micro-stepping driving technology to improve operational performance,discuss the principles of SPWM inverter for stepper motor with invariable torque micro-stepping driver, and propound sine wave current subdividing and current tracking PWM technology. Sine wave current subdividing technology not only overcomes the disadvantages of motor's vibration and noise at low speeds but also reduces probability of resonance. Current tracking PWM technology can maintain constant torque within wide speed range. It prevents the reactive voltage errors brought by other windings and the drift errors brought by current. It improves the precision of subdivision. In the thesis, we develop a single chip computer -based digital controlling system for a three-phase hybrid stepper motor that is mainly constructed from a AT89C51 single chip computer and 8279IC which is used as the core of control parts and a three full-bridge driver IR2130.The power stage of this driver uses IGBT IR2130 that provides high reliability.Based on the approach, the system's whole architecture, the design of hardware and software are introduced in detail.
In finally, the reliability and stepper accuracy of this new control system are tested. The results show that the system can effectively satisfy the fixed position accuracy of customer request, represses movement noise and mechanical vibration. Meanwhile, the realization of the invariable torque micro-stepping technology of stepper motor can effectively reduce the cost ,improve the system's reliability and relevance.
引文
[1] 刘宝廷,程树康.步进电机及其驱动控制系统.哈尔滨:哈尔滨工业大学出版社,1997:2.
[2] 孙孝年.浅析步进电机驱动器与步进电机的相互关系.世界电子元器件,1999,(3):36-37.
[3] 王晓明.电动机的单片机控制.北京:北京航空航天大学出版社,2002.5.
[4] 赵影.电机与电力拖动.北京:国防工业出版社,2006.7.
[5] 孙建忠,白凤仙.特种电机及其控制.北京:中国水利水电出版社,2005.
[6] 周明安,朱光忠,宋晓华等.步进电机驱动技术发展及现状.机电工程技术,2005,34(2):16-17.
[7] 王鸿枉.步进电机控制技术入门.上海:同济大学出版社,1990:71-92.
[8] Zhongbo Li. Study on driving system of three-phase hybrid stepping motor. Electrical Machines and Systems, 2003. ICEMS 2003. Sixth International Conference on Volume 2, 9-11 Nov. 2003 Page (s):608—610 vol.,2.
[9] 王卫,冯培松.一种新颖的三相混合式步进电机驱动器的设计.电工技术,1995,(1):20-22.
[10] 赵奉先.提高步进电机运行速度的研究.仪表技术与传感器,2000,(2):45-46.
[11] 王宗培,赵书韬,任雷等.混合式步进电机的研究(一).电工技术杂志,1998,(3):3-5.
[12] 王宗培,赵书韬,任雷等.馄合式步进电机的研究(二).电工技术杂志,1998,(4):5-7.
[13] 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),1999,17(3):50-54.
[14] 赵永瑞,李刚.三相混合式步进电机系统.机电一体化,2000,(3):50-51.
[15] Tieluo Lin. Jianxun Zhang. DSP-based microstep controller of stepper motor. Intelligent Control and Automation, 2004. WCICA2004. Fifth World Congress on Volume 5, 15-19 June 2004 Page (s):4441—4445
[16] Lars Larsson. Micro Step vs. Full Step—a Quantitative Competition, TRINAMIC Microchips GmbH, SAE 2003 World Congress, March 2003 Detroit, MI, USA.
[17] 肖本贤,陈荣保,李斌等.步进电机微步驱动技术研究,自动化与仪表,1997,12(5):47-49.
[18] 林伟杰,李兴根,潘安克.三相混合式步进电机正弦波细分驱动的研究.中小型电机, 2003,30(5)26-28.
[19] 易长松.新型三相混合式步进电机驱动器.机电一体化,2001,(6):30-33.
[20] 林成武.步进电机微步驱动分析.沈阳工业大学学报.1996,(3):1-4.
[21] 陈国呈.新型电力电子变换技术.北京:中国电力出版社,2004.
[22] 吴守缄,减英杰.电气传动的脉宽调制控制技术.北京:机械工业出版社,2002.
[23] International Rectifier Corporation. Data Sheet No. pD6OO19J.
[24] 周炼,谢运祥.逆变电源PWM消谐模型的同伦方法研究[J].电工技术杂志,2000.
[25] 谭建成.电机控制专用集成电路[M].北京:机械工业出版,1997.
[26] 李峻.开关集成稳压器控制器的原理和应用.北京:人民交通出版社,1997.
[27] 熊腊森,王汝琴.电流型PWM制控制器UC3845及其在弧焊逆变电源中的应用,电焊机,1998,(4):17-18,25.
[28] 林蔚天,焦斌.应用集成芯片UC3845构成高频开关电源.上海工程技术大学学报,2001.15(2):157-160.
[29] UC3845 DATA SHEET. Motorola Inc.
[30] 马忠梅.单片机的C语言应用程序设计.北京:北京航空航天大学出版社,1999.
[31] 王正谋,朱力恒.Protel 99SE电路设计与仿真技术.福建:福建科学技术出版社.2004.
[32] 童诗白.模拟电子技术基础.北京:高等教育出版社,1988.
[33] 陈敏祥.五相混合式步进电动机驱动新技术[[J].电机与控制学报,1998(3):38-41.
[34] 王宗培,程智.两相混合式步进电机系统转矩提升的实践[J].微电机,2000(3),57-59.
[35] 唐竞新,祝永进.脉冲电流源型步进电机驱动器的研究[[J].清华大学学报自然科学版,2001(9),44-7.
[36] 张旭辉.管道对接焊缝自动超声检测系统的研制:[学位论文].西安:西安科技大学机械工程系,2002
[37] 王广炎.五轴联动数控系统的开放化设计。组合机床与自动化加工技术,2000(2):19-22
[38] 陈光东,赵性初.单片微型计算机原理与接口技术.武汉:华中理工大学出版社,1993.
[39] 何立民.单片机应用技术选编.北京:北京航空航天大学出版社,1999
[40] 高明.单片微机接口与系统设计.哈尔滨:哈尔滨工业大学出版社,1995
[41] 余永权.ATMEL89系列(MCS251兼容)Flash单片机原理及应用。北京:电子工业出版社,1997
[2] 孙孝年.浅析步进电机驱动器与步进电机的相互关系.世界电子元器件,1999,(3):36-37.
[3] 王晓明.电动机的单片机控制.北京:北京航空航天大学出版社,2002.5.
[4] 赵影.电机与电力拖动.北京:国防工业出版社,2006.7.
[5] 孙建忠,白凤仙.特种电机及其控制.北京:中国水利水电出版社,2005.
[6] 周明安,朱光忠,宋晓华等.步进电机驱动技术发展及现状.机电工程技术,2005,34(2):16-17.
[7] 王鸿枉.步进电机控制技术入门.上海:同济大学出版社,1990:71-92.
[8] Zhongbo Li. Study on driving system of three-phase hybrid stepping motor. Electrical Machines and Systems, 2003. ICEMS 2003. Sixth International Conference on Volume 2, 9-11 Nov. 2003 Page (s):608—610 vol.,2.
[9] 王卫,冯培松.一种新颖的三相混合式步进电机驱动器的设计.电工技术,1995,(1):20-22.
[10] 赵奉先.提高步进电机运行速度的研究.仪表技术与传感器,2000,(2):45-46.
[11] 王宗培,赵书韬,任雷等.混合式步进电机的研究(一).电工技术杂志,1998,(3):3-5.
[12] 王宗培,赵书韬,任雷等.馄合式步进电机的研究(二).电工技术杂志,1998,(4):5-7.
[13] 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),1999,17(3):50-54.
[14] 赵永瑞,李刚.三相混合式步进电机系统.机电一体化,2000,(3):50-51.
[15] Tieluo Lin. Jianxun Zhang. DSP-based microstep controller of stepper motor. Intelligent Control and Automation, 2004. WCICA2004. Fifth World Congress on Volume 5, 15-19 June 2004 Page (s):4441—4445
[16] Lars Larsson. Micro Step vs. Full Step—a Quantitative Competition, TRINAMIC Microchips GmbH, SAE 2003 World Congress, March 2003 Detroit, MI, USA.
[17] 肖本贤,陈荣保,李斌等.步进电机微步驱动技术研究,自动化与仪表,1997,12(5):47-49.
[18] 林伟杰,李兴根,潘安克.三相混合式步进电机正弦波细分驱动的研究.中小型电机, 2003,30(5)26-28.
[19] 易长松.新型三相混合式步进电机驱动器.机电一体化,2001,(6):30-33.
[20] 林成武.步进电机微步驱动分析.沈阳工业大学学报.1996,(3):1-4.
[21] 陈国呈.新型电力电子变换技术.北京:中国电力出版社,2004.
[22] 吴守缄,减英杰.电气传动的脉宽调制控制技术.北京:机械工业出版社,2002.
[23] International Rectifier Corporation. Data Sheet No. pD6OO19J.
[24] 周炼,谢运祥.逆变电源PWM消谐模型的同伦方法研究[J].电工技术杂志,2000.
[25] 谭建成.电机控制专用集成电路[M].北京:机械工业出版,1997.
[26] 李峻.开关集成稳压器控制器的原理和应用.北京:人民交通出版社,1997.
[27] 熊腊森,王汝琴.电流型PWM制控制器UC3845及其在弧焊逆变电源中的应用,电焊机,1998,(4):17-18,25.
[28] 林蔚天,焦斌.应用集成芯片UC3845构成高频开关电源.上海工程技术大学学报,2001.15(2):157-160.
[29] UC3845 DATA SHEET. Motorola Inc.
[30] 马忠梅.单片机的C语言应用程序设计.北京:北京航空航天大学出版社,1999.
[31] 王正谋,朱力恒.Protel 99SE电路设计与仿真技术.福建:福建科学技术出版社.2004.
[32] 童诗白.模拟电子技术基础.北京:高等教育出版社,1988.
[33] 陈敏祥.五相混合式步进电动机驱动新技术[[J].电机与控制学报,1998(3):38-41.
[34] 王宗培,程智.两相混合式步进电机系统转矩提升的实践[J].微电机,2000(3),57-59.
[35] 唐竞新,祝永进.脉冲电流源型步进电机驱动器的研究[[J].清华大学学报自然科学版,2001(9),44-7.
[36] 张旭辉.管道对接焊缝自动超声检测系统的研制:[学位论文].西安:西安科技大学机械工程系,2002
[37] 王广炎.五轴联动数控系统的开放化设计。组合机床与自动化加工技术,2000(2):19-22
[38] 陈光东,赵性初.单片微型计算机原理与接口技术.武汉:华中理工大学出版社,1993.
[39] 何立民.单片机应用技术选编.北京:北京航空航天大学出版社,1999
[40] 高明.单片微机接口与系统设计.哈尔滨:哈尔滨工业大学出版社,1995
[41] 余永权.ATMEL89系列(MCS251兼容)Flash单片机原理及应用。北京:电子工业出版社,1997
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