一体化三相逆变陀螺电源的设计研究
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摘要
为了保证陀螺经纬仪安全可靠地工作,高性能的陀螺电源就成为其中不可缺少的部分,而且要求电压和频率有很高的稳定性。针对目前国内陀螺电源的体积大、电路复杂、频率精度不高、调试维护困难等缺点,本文研究了一种体积小、重量轻、频率和电压稳定的陀螺电源。
本课题采用SPWM技术,利用单片机控制智能功率模块(IPM),实现了直流到交流的逆变。本文提出并设计了由两个8位微处理器组成的双CPU控制电路,其中一片作为主控制器,另一片作为SPWM信号发生器。该方法提高了电源输出电压和频率的稳定性,同时将单一的模拟电路处理方式转变为数字电路与模拟电路相结合的方式,降低了电路的复杂性,实现了陀螺逆变电源的小型化。
本论文的主要工作内容如下:
1)首先对逆变电源的国内外研究现状进行了综述,继而又对逆变电源设计的理论基础进行了详细的分析。
2)论文给出了陀螺电源的整体设计方案,在此基础上设计了主电路和控制电路。主电路包括滤波电路,储能缓冲电路,放电电路,以及由智能功率模块—PS21563构成的逆变电路;控制电路包括按键电路,显示电路,故障处理电路,指示电路和SPWM信号驱动电路。
3)用C语言编程结合自然采样法获得SPWM方波驱动信号的脉宽时间,然后用汇编语言编程,使单片机自动输出SPWM驱动信号去控制逆变器的各个开关管的导通与关断,实现直流到交流的逆变。
4)对陀螺电源的性能进行了实验验证。通过实验证明,该陀螺电源输出电压、频率以及电流的稳定性可以达到陀螺经纬仪所需电源的指标要求。
The high-performance gyroscope power with good voltage and frequencystability is the part in order to guarantee the Gyrocompass worked safely and reliably.In view of the deficiencies of bulkiness, circuit complicatedness, bad frequencyprecision, the convenience in debugging and maintenance for the present domesticgyroscope power supply, a small, light gyroscope power with high voltage andfrequency stability is discussed in this paper.
The subject has adopted the SPWM technology, controlling IPM by themicrocontroller to achieve the Invertion from DC to AC. The control circuit has two8-digit micro-processors. One of the CPUs is used as the main controller and the otheris used as the SPWM Signal Generator. This method improved the stability of thepower output voltage and the output frequency. And it turns the analog circuit into aanalog-digital one thus to reduced the complexity of the circuit and realized theminiaturization and lightweight of the gyroscope inverter.
The content in this paper as follows:
1)First, the research status of inverter is generally presented in this paper. Afterthat, the theory background for inverter design is discussed in detail.
2)Worked out a holistic design scheme for the gyroscope power in the paper,designed the main circuit and the control circuit. The main circuit consists of the filtercircuit, the discharge circuit, the inverter circuit which consists of IPM- PS21563.thecontrolling circuit consists of the Keyboard circuit, the display circuit, the faulttreatment circuit, the indication circuit and the SPWM driver.
3)Obtain the pulse width time by the combination of digital natural samplingbased spwm and C Program. With the assemble program, the microcontroller outputDriving SPWM signals automatically to control the Tubes of the inverter, achievingthe invertion from DC to AC. By controlling the operation of the power by MCU, itcan deal with various troubles in time, which improves the stability and theintelligentized degree of the power system and makes the system easier to use andmaintain.
4)The property of the gyroscope power is validate by experiment. The stabilityof the gyroscope power output (voltage, frequency, current, ect.) meets the techniquerequest of the gyroscope power for Gyrocompass well.
本课题采用SPWM技术,利用单片机控制智能功率模块(IPM),实现了直流到交流的逆变。本文提出并设计了由两个8位微处理器组成的双CPU控制电路,其中一片作为主控制器,另一片作为SPWM信号发生器。该方法提高了电源输出电压和频率的稳定性,同时将单一的模拟电路处理方式转变为数字电路与模拟电路相结合的方式,降低了电路的复杂性,实现了陀螺逆变电源的小型化。
本论文的主要工作内容如下:
1)首先对逆变电源的国内外研究现状进行了综述,继而又对逆变电源设计的理论基础进行了详细的分析。
2)论文给出了陀螺电源的整体设计方案,在此基础上设计了主电路和控制电路。主电路包括滤波电路,储能缓冲电路,放电电路,以及由智能功率模块—PS21563构成的逆变电路;控制电路包括按键电路,显示电路,故障处理电路,指示电路和SPWM信号驱动电路。
3)用C语言编程结合自然采样法获得SPWM方波驱动信号的脉宽时间,然后用汇编语言编程,使单片机自动输出SPWM驱动信号去控制逆变器的各个开关管的导通与关断,实现直流到交流的逆变。
4)对陀螺电源的性能进行了实验验证。通过实验证明,该陀螺电源输出电压、频率以及电流的稳定性可以达到陀螺经纬仪所需电源的指标要求。
The high-performance gyroscope power with good voltage and frequencystability is the part in order to guarantee the Gyrocompass worked safely and reliably.In view of the deficiencies of bulkiness, circuit complicatedness, bad frequencyprecision, the convenience in debugging and maintenance for the present domesticgyroscope power supply, a small, light gyroscope power with high voltage andfrequency stability is discussed in this paper.
The subject has adopted the SPWM technology, controlling IPM by themicrocontroller to achieve the Invertion from DC to AC. The control circuit has two8-digit micro-processors. One of the CPUs is used as the main controller and the otheris used as the SPWM Signal Generator. This method improved the stability of thepower output voltage and the output frequency. And it turns the analog circuit into aanalog-digital one thus to reduced the complexity of the circuit and realized theminiaturization and lightweight of the gyroscope inverter.
The content in this paper as follows:
1)First, the research status of inverter is generally presented in this paper. Afterthat, the theory background for inverter design is discussed in detail.
2)Worked out a holistic design scheme for the gyroscope power in the paper,designed the main circuit and the control circuit. The main circuit consists of the filtercircuit, the discharge circuit, the inverter circuit which consists of IPM- PS21563.thecontrolling circuit consists of the Keyboard circuit, the display circuit, the faulttreatment circuit, the indication circuit and the SPWM driver.
3)Obtain the pulse width time by the combination of digital natural samplingbased spwm and C Program. With the assemble program, the microcontroller outputDriving SPWM signals automatically to control the Tubes of the inverter, achievingthe invertion from DC to AC. By controlling the operation of the power by MCU, itcan deal with various troubles in time, which improves the stability and theintelligentized degree of the power system and makes the system easier to use andmaintain.
4)The property of the gyroscope power is validate by experiment. The stabilityof the gyroscope power output (voltage, frequency, current, ect.) meets the techniquerequest of the gyroscope power for Gyrocompass well.
引文
[1]江涛.一种新颖的精密陀螺电源[J].电源技术应用,2000,3(3):109~110.
[2] Luigi Malesani, Palo Tomasin, PWM Current Control Techniques of Voltage SourceConverters-A Survey. IEEE PESC'92 Conf. Rec., 1992.
[3]刘陵顺,鲁芳,姜忠山.一种高精度开关稳压电源的设计[J].仪表技术,2001,(4):45~46.
[4]胡汉才.单片机原理及其接口技术[M].北京:清华大学出版1996.228~282.
[5] Valter Quercioli, Pulse Width Modulated (PWM) Power Supplies, 1993, Elsevier SciencePublishers B.V.
[6]李爱文,张承慧著.现代逆变技术及其应用[M].北京:科学出版社,2000:46~59页,140~149页,176~ 181页.
[7]陈坚编著.电力电子学——电力电子变和控制技术[M].北京:高等教育出版社,2002: 7~12页,45~47页,100~125页,276~285页.
[8]卢慧芬.基于DSP的SPWM控制波形生成的一种方法[J].机电工程,2002(5):30~33页.
[9]王清灵.对SPWM变频器输出电压的分析[J].淮南工业学院学报,2002(9):18~21页.
[10] Neser M.Abdel-Rahim,John E.Quaicoe,“Analysis and Design of a Multiple Feedback LoopControl Strategy for Single-Phase Voltage-Souse UPS Inverters”.IEEE Transactions onPower Electronics,vol.11,no.4,p.562-541,July 1996).
[11]刘凤君.正弦波逆变器[M].北京:科学出版社,2002.
[12]孙巧榆,刘永强,鱼瑞文.基于自然采样法的SPWM脉冲计算方法[J].电气传动自动化,2001,23(1):12~19.
[13]伟福系列仿真系统使用说明书.南京:南京伟福实业有限公司,2002.
[14]黄复清.新型显示驱动器ICM7218A原理及应用[J].天津理工学院学报,2001,17(1):53~55.
[15]谢兴仪著.电路和电机基础[M].重庆大学出版社,1986:118~123页.
[16]林善明著.电路与电机技术[M].机械工业出版社,2001:66~67页.
[17] Pee ran S M,Cascadden CWP.Application design and specification of harm on ic filters forvariable frequency drives [J]. IEEE Trans on IndustryApplications, 1995,31(4),841~847.
[18] Clemente etc.IGBT Characteristics and Applications.AN-983.
[19]高俊岭,朱咏梅.IPM高智能模块在变频器中的应用[J]煤矿机械.2004,11(3):69~71.
[20]吉昌.智能功率模块在变频空调器中的应用[J].变频技术,2000,9(10):34~36.
[21]何会齐,刘小生.电压变化对陀螺定向的影响研究[J]江西有色金属,2003,17(3):10~12.
[22]王轲,谢道守.陀螺马达电源的研究[J].中国惯性技术的研究,1996,4(4):52~55.
[23]王振民著.三相异步电机的制动[M].机械工业出版社,1992:1~22页.
[24]邹志革,邹雪城,黄峰.低压低功耗模拟集成电路设计技术及展望[J].微电子学,2006,36(1):60~65页.
[25]陈朝奎,张团善..用智能功率模块(IPM)改造传统变频调速器[J].西北纺织工学院学报,1999,13(4):367~369.
[26]张国良编.陀螺经纬仪定向[M].中国矿业大学出版社:1988:16~26页.
[27]张乃国著.电源技术[M].中国电力出版社:1998:1~80页.
[28]陈慧民.一种无源软开关技术的研究[J].通信电源技术,2006,23(6):7~10页.
[29] Logan Kevin P. Determining an azimuth with a gyro-theodolite [M].Virginia: engineertopographic laboratories, 1986.
[30] JT15型陀螺经纬仪使用说明书.徐州光学仪表厂.
[31]马忠梅,籍顺心,张凯等.单片机的C语言应用序设计.北京:北京航空航天大学出版社,1999.
[32]张振祥.准谐振模式开关电源在电视机电源中的应用[J].辽宁工学院学报.2006,26(3):155~160页.
[33]蔡文,龚幼民.一种新型矩阵式可控整流器的研究[J].上海师范大学学报.2004,33(2):47~51页.
[34] Kai N. Lee, Compass &Gyroscope~Integrating Science&Politics for the Environment,Island: Island Pr, 1994.
[35]何春红,王崇军.无功功率补偿的技术性分析[J]西北电力技术.2006,NO.3.
[36]张俊杰,张文学.大功率电源上电冲击电流限制电阻的设计[J]现代电子技术.2005,NO.9.
[37]余鸣,陈其工.GTR的驱动与保护电路设计[J]安徽机电学院学报.2002,17(4):53~56页.
[38]杨玉强,腾香.单片机电路设计中的抗干扰技术[J].锦州师范学院学报,2001,22(4):39~41页.
[39] S. R.Narayana Prakash et al. A new sinewave inverter with high frequency link andsynchronous rectification using MOSFETS. IEEE PESC,1990: P723~P728.
[40] D. G. Holmes, D. A. Martin. Implementation of direct digital predictive current controller forsingle and three phase voltage source inverters. In: Conf. Rec.IEEE-IAS Annu. Meeting,1996, 906~913.
[2] Luigi Malesani, Palo Tomasin, PWM Current Control Techniques of Voltage SourceConverters-A Survey. IEEE PESC'92 Conf. Rec., 1992.
[3]刘陵顺,鲁芳,姜忠山.一种高精度开关稳压电源的设计[J].仪表技术,2001,(4):45~46.
[4]胡汉才.单片机原理及其接口技术[M].北京:清华大学出版1996.228~282.
[5] Valter Quercioli, Pulse Width Modulated (PWM) Power Supplies, 1993, Elsevier SciencePublishers B.V.
[6]李爱文,张承慧著.现代逆变技术及其应用[M].北京:科学出版社,2000:46~59页,140~149页,176~ 181页.
[7]陈坚编著.电力电子学——电力电子变和控制技术[M].北京:高等教育出版社,2002: 7~12页,45~47页,100~125页,276~285页.
[8]卢慧芬.基于DSP的SPWM控制波形生成的一种方法[J].机电工程,2002(5):30~33页.
[9]王清灵.对SPWM变频器输出电压的分析[J].淮南工业学院学报,2002(9):18~21页.
[10] Neser M.Abdel-Rahim,John E.Quaicoe,“Analysis and Design of a Multiple Feedback LoopControl Strategy for Single-Phase Voltage-Souse UPS Inverters”.IEEE Transactions onPower Electronics,vol.11,no.4,p.562-541,July 1996).
[11]刘凤君.正弦波逆变器[M].北京:科学出版社,2002.
[12]孙巧榆,刘永强,鱼瑞文.基于自然采样法的SPWM脉冲计算方法[J].电气传动自动化,2001,23(1):12~19.
[13]伟福系列仿真系统使用说明书.南京:南京伟福实业有限公司,2002.
[14]黄复清.新型显示驱动器ICM7218A原理及应用[J].天津理工学院学报,2001,17(1):53~55.
[15]谢兴仪著.电路和电机基础[M].重庆大学出版社,1986:118~123页.
[16]林善明著.电路与电机技术[M].机械工业出版社,2001:66~67页.
[17] Pee ran S M,Cascadden CWP.Application design and specification of harm on ic filters forvariable frequency drives [J]. IEEE Trans on IndustryApplications, 1995,31(4),841~847.
[18] Clemente etc.IGBT Characteristics and Applications.AN-983.
[19]高俊岭,朱咏梅.IPM高智能模块在变频器中的应用[J]煤矿机械.2004,11(3):69~71.
[20]吉昌.智能功率模块在变频空调器中的应用[J].变频技术,2000,9(10):34~36.
[21]何会齐,刘小生.电压变化对陀螺定向的影响研究[J]江西有色金属,2003,17(3):10~12.
[22]王轲,谢道守.陀螺马达电源的研究[J].中国惯性技术的研究,1996,4(4):52~55.
[23]王振民著.三相异步电机的制动[M].机械工业出版社,1992:1~22页.
[24]邹志革,邹雪城,黄峰.低压低功耗模拟集成电路设计技术及展望[J].微电子学,2006,36(1):60~65页.
[25]陈朝奎,张团善..用智能功率模块(IPM)改造传统变频调速器[J].西北纺织工学院学报,1999,13(4):367~369.
[26]张国良编.陀螺经纬仪定向[M].中国矿业大学出版社:1988:16~26页.
[27]张乃国著.电源技术[M].中国电力出版社:1998:1~80页.
[28]陈慧民.一种无源软开关技术的研究[J].通信电源技术,2006,23(6):7~10页.
[29] Logan Kevin P. Determining an azimuth with a gyro-theodolite [M].Virginia: engineertopographic laboratories, 1986.
[30] JT15型陀螺经纬仪使用说明书.徐州光学仪表厂.
[31]马忠梅,籍顺心,张凯等.单片机的C语言应用序设计.北京:北京航空航天大学出版社,1999.
[32]张振祥.准谐振模式开关电源在电视机电源中的应用[J].辽宁工学院学报.2006,26(3):155~160页.
[33]蔡文,龚幼民.一种新型矩阵式可控整流器的研究[J].上海师范大学学报.2004,33(2):47~51页.
[34] Kai N. Lee, Compass &Gyroscope~Integrating Science&Politics for the Environment,Island: Island Pr, 1994.
[35]何春红,王崇军.无功功率补偿的技术性分析[J]西北电力技术.2006,NO.3.
[36]张俊杰,张文学.大功率电源上电冲击电流限制电阻的设计[J]现代电子技术.2005,NO.9.
[37]余鸣,陈其工.GTR的驱动与保护电路设计[J]安徽机电学院学报.2002,17(4):53~56页.
[38]杨玉强,腾香.单片机电路设计中的抗干扰技术[J].锦州师范学院学报,2001,22(4):39~41页.
[39] S. R.Narayana Prakash et al. A new sinewave inverter with high frequency link andsynchronous rectification using MOSFETS. IEEE PESC,1990: P723~P728.
[40] D. G. Holmes, D. A. Martin. Implementation of direct digital predictive current controller forsingle and three phase voltage source inverters. In: Conf. Rec.IEEE-IAS Annu. Meeting,1996, 906~913.
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