电控罗经数字三相逆变电源的研究与设计
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摘要
中频三相逆变电源是惯导系统的重要组成部分,电源输出电压、频率和波形质量直接影响陀螺仪漂移特性、寿命与惯导系统的精度。本课题拟通过给陀螺提供恒频恒压三相正弦波电源,改善其运行环境,从而减小它的漂移参数波动,延长陀螺的使用寿命,提高导航精度。
本文首先分析了现代逆变技术、液浮陀螺磁滞同步电机及某型电控罗经系统特点进行分析,提出110V/400Hz隔离式三相交-直-交逆变电源方案并给出设计指标。然后论文对现代逆变电源的主电路拓扑和正弦脉宽调制(SPWM)谐波特性进行了探讨,结合工程实现是对输入整流滤波、输出滤波电路进行参数仿真设计。
在逆变电源拓扑结构确定的基础上,本文针对电控罗经电路系统不对称负载特性,提出相电压解耦控制策略,建立三相逆变电源开环控制模型,推导了解耦控制算法,并进行PID算法仿真。最后,以TI公司MSP430单片机为三相数字逆变电源控制核心,采用富士公司IPM逆变模块构成的硬件方案实现某电控罗经电源硬件电路,并在该硬件方案上实现对称规则采样数字SPWM算法、数字解耦和数字变积分PID控制算法。
通电调试后,电源在不对称负载条件下输出波形良好、频率精度高、电压稳定。仿真和实验的结果证明了本系统的控制策略可行,到达设计目的,可为电控罗经提供高品质的电源。
Drifting, life-span and accuracy of Electric Gyroscope is directly affected by voltage, frequency and waveform of Three-phase Inverter, which is one of the most important components in Inertial Navigation System. We plan to provide Electric Gyroscope with Sine-wave Inverter of CFCV to make it run smoothly, that can reduce the fluctuation of drifting parameters and prolong the life-span of Gyroscope.
First, Modern inverting technology, the Hysteresis Synchronized Motor and unbalanced loads of an Electric Compass are analyzed, and then schemes and parameters of Three-phase Insulated Inverter of 110V/400Hz are given in the thesis. Second, discussion on topology of modern inverter and SPWM theory is carried out. The circuit topology of Three-phase Inverter along with its rectifier filter and output filter are designed and simulated quantitatively.
Decoupling Control for Multi-variable System is applied for unbalanced loads of Inverter here, based on topology of Inverter. The Open-loop Model of the Three-phase Inverter is built, the Decoupling Control algorithm is deduced and the Simulation of PID algorithm is carried out, too. Finally, all the theory above is successfully carried out on hardware of three-phase Inverter, in which MSP430 mixed signals controller is take as controlling core and IPM of Fuji Co. is used as inverter bridge.
Electricity with stable voltage, accuracy frequency and good wave is successfully output from the Inverter. The simulation and experiment results show the feasibility of the system. The research in the dissertation, to some extend, has paved a way for the further research, improvement and application in Electric Compass.
本文首先分析了现代逆变技术、液浮陀螺磁滞同步电机及某型电控罗经系统特点进行分析,提出110V/400Hz隔离式三相交-直-交逆变电源方案并给出设计指标。然后论文对现代逆变电源的主电路拓扑和正弦脉宽调制(SPWM)谐波特性进行了探讨,结合工程实现是对输入整流滤波、输出滤波电路进行参数仿真设计。
在逆变电源拓扑结构确定的基础上,本文针对电控罗经电路系统不对称负载特性,提出相电压解耦控制策略,建立三相逆变电源开环控制模型,推导了解耦控制算法,并进行PID算法仿真。最后,以TI公司MSP430单片机为三相数字逆变电源控制核心,采用富士公司IPM逆变模块构成的硬件方案实现某电控罗经电源硬件电路,并在该硬件方案上实现对称规则采样数字SPWM算法、数字解耦和数字变积分PID控制算法。
通电调试后,电源在不对称负载条件下输出波形良好、频率精度高、电压稳定。仿真和实验的结果证明了本系统的控制策略可行,到达设计目的,可为电控罗经提供高品质的电源。
Drifting, life-span and accuracy of Electric Gyroscope is directly affected by voltage, frequency and waveform of Three-phase Inverter, which is one of the most important components in Inertial Navigation System. We plan to provide Electric Gyroscope with Sine-wave Inverter of CFCV to make it run smoothly, that can reduce the fluctuation of drifting parameters and prolong the life-span of Gyroscope.
First, Modern inverting technology, the Hysteresis Synchronized Motor and unbalanced loads of an Electric Compass are analyzed, and then schemes and parameters of Three-phase Insulated Inverter of 110V/400Hz are given in the thesis. Second, discussion on topology of modern inverter and SPWM theory is carried out. The circuit topology of Three-phase Inverter along with its rectifier filter and output filter are designed and simulated quantitatively.
Decoupling Control for Multi-variable System is applied for unbalanced loads of Inverter here, based on topology of Inverter. The Open-loop Model of the Three-phase Inverter is built, the Decoupling Control algorithm is deduced and the Simulation of PID algorithm is carried out, too. Finally, all the theory above is successfully carried out on hardware of three-phase Inverter, in which MSP430 mixed signals controller is take as controlling core and IPM of Fuji Co. is used as inverter bridge.
Electricity with stable voltage, accuracy frequency and good wave is successfully output from the Inverter. The simulation and experiment results show the feasibility of the system. The research in the dissertation, to some extend, has paved a way for the further research, improvement and application in Electric Compass.
引文
[1] 张树侠,孙静.捷联式惯性导航系统.国防工业出版社,1992:1-11页,126-158页
[2] 陈哲.捷联惯性导航原理.宇航出版社,1986:1-85页,194-205页
[3] 赵磊.三相逆变陀螺电源的研究与设计.哈尔滨工程大学硕士论文.2004:1-3页,15-27页
[4] 王兆安,黄俊.电力电子技术.第四版.机械工业出版社,2005:1-90页,132-169页
[5] 陈道炼.DC-AC逆变技术及其应用.机械工业出版社,2003:160-182页,285-322页
[6] 李爱文,张承慧.现代逆变技术及其应用.科学出版社,2000:1-74页,140-247页
[7] 周志敏,周纪海,纪爱华.逆变电源实用技术—设计与应用.中国电力出版社,2005:1-40页,135-188页
[8] 黄德鸣,张树侠,孙枫.平台罗经.国防工业出版社,1990:9-40页
[9] 黄德鸣,程禄.惯性导航系统.国防工业出版社,1986:1-61页
[10] 张立,赵永建.现代电力电子技术.科学出版社,1995:1-17页,87-109页,216-236页
[11] 何克忠,李伟.计算机控制系统.清华大学出版社,1998:147-171页,228-295页
[12] 孙进等.中频小功率三相逆变电源的研制.电力电子技术.2002,第36卷 第六期:10-12页
[13] 陶永华.新型PID控制及其应用.第二版.机械工业出版社,2005:1-100页
[14] 林敏,丁金华,田涛.计算机控制技术及工程应用.国防工业出版社,2005:142-177页
[15] 魏小龙.MSP430系列单片机接口技术及系统设计实例.北京航空航天大学出版社,2002:1-306页
[16] 沈建华,杨艳琴,翟骁曙.MSP430系列16位超低功耗单片机原理与应用.清华大学出版社,2004:1-353页
[17] 李国勇,谢克明.控制系统数字仿真与CAD.电子工业出版社,2004:8-72页,110-176页,225-262页
[18] 王晓明,王玲.电动机的DSP控制—TI公司DSP应用.北京航空航天大学,2004:94-153页
[19] 薛年喜.MATLAB在数字信号处理中的应用.清华大学出版社,2003:218-251页,339-371页
[20] 胡兴柳.400Hz逆变器的数字控制研究.南京航空航天大学硕士论文.2004:1-10页,11-30页
[21] 郑娜.机载三相电源研究与设计.西北工业大学硕士论文.2005:30-54页
[22] 杨成林.三相逆变器DSP控制技术的研究.浙江大学硕士论文.2004:26-44页
[23] 何中一.SPWM逆变器控制技术研究.南京航空航天大学硕士论文.2005:7-43页
[24] 孙进等.逆变电源技术及其发展概况.逆变电源.2006.08:28-30页
[25] 刘媛.双频电源设计及其工程实现.导航与控制.2004,第3卷第2期:32-34页
[26] 谢运祥等.消谐控制逆变器的输出滤波参数的分析与设计.华南理工大学学报(自然科学版).2004,第32卷第5期:1-4页
[27] 唐海运.延长陀螺经纬仪使用寿命的技术问题分析.焦作工学院学报(自然科学版).2001.01,第20期第1卷:35-37
[28] Fuji Electric Co. 6MBP15RH060 IGBT-IPM Modules Datasheet. Fuji Electric Co.: 1-6P
[29] ADI. Low Cost, Low Power, True RMS-to-DC Converter AD736 Datasheet. Analog Devices, Inc. 2003: 1-12P
[30] TI. MSP430x13x, MSP430x14x Mixed Signal Microcontroller Datasheet. Texas Instruments Incorporated. 2000. 07: 1-64P
[31] TI. MSP430x1xx User's Guide. Texas Instruments Incorporated. 2005: 3. 1-3. 29P, 11.1-11. 35P
[32] TI. Programming a Flash-Based MSP430 Using the JTAG Interface. Texas Instruments Incorporated. 2005. 12: 4-12P
[33] IAR. MSP430 IAR Embedded Workbench(TM) IDE User Guide. IAR Systems. 2005: 24-69P, 135-146P
[34] 李文秀.自动控制原理.哈尔滨工程大学出版社,2001:152-195页
[35] 贾嘉斌.80C196 MC微控制器在中频电源中的应用.冶金设备.2004,第4期:18-21页
[36] 陈颖.SPWM逆变电源的谐波分析及抑制策略.船电技术.2005,第1期:28-30页
[37] 王幸之,王雷等.单片机应用抗干扰技术.北京航空航天大学出版社,2000:321-344页
[38] 刘凤君.逆变器用整流电源.机械工业出版社,2004:1-51页
[2] 陈哲.捷联惯性导航原理.宇航出版社,1986:1-85页,194-205页
[3] 赵磊.三相逆变陀螺电源的研究与设计.哈尔滨工程大学硕士论文.2004:1-3页,15-27页
[4] 王兆安,黄俊.电力电子技术.第四版.机械工业出版社,2005:1-90页,132-169页
[5] 陈道炼.DC-AC逆变技术及其应用.机械工业出版社,2003:160-182页,285-322页
[6] 李爱文,张承慧.现代逆变技术及其应用.科学出版社,2000:1-74页,140-247页
[7] 周志敏,周纪海,纪爱华.逆变电源实用技术—设计与应用.中国电力出版社,2005:1-40页,135-188页
[8] 黄德鸣,张树侠,孙枫.平台罗经.国防工业出版社,1990:9-40页
[9] 黄德鸣,程禄.惯性导航系统.国防工业出版社,1986:1-61页
[10] 张立,赵永建.现代电力电子技术.科学出版社,1995:1-17页,87-109页,216-236页
[11] 何克忠,李伟.计算机控制系统.清华大学出版社,1998:147-171页,228-295页
[12] 孙进等.中频小功率三相逆变电源的研制.电力电子技术.2002,第36卷 第六期:10-12页
[13] 陶永华.新型PID控制及其应用.第二版.机械工业出版社,2005:1-100页
[14] 林敏,丁金华,田涛.计算机控制技术及工程应用.国防工业出版社,2005:142-177页
[15] 魏小龙.MSP430系列单片机接口技术及系统设计实例.北京航空航天大学出版社,2002:1-306页
[16] 沈建华,杨艳琴,翟骁曙.MSP430系列16位超低功耗单片机原理与应用.清华大学出版社,2004:1-353页
[17] 李国勇,谢克明.控制系统数字仿真与CAD.电子工业出版社,2004:8-72页,110-176页,225-262页
[18] 王晓明,王玲.电动机的DSP控制—TI公司DSP应用.北京航空航天大学,2004:94-153页
[19] 薛年喜.MATLAB在数字信号处理中的应用.清华大学出版社,2003:218-251页,339-371页
[20] 胡兴柳.400Hz逆变器的数字控制研究.南京航空航天大学硕士论文.2004:1-10页,11-30页
[21] 郑娜.机载三相电源研究与设计.西北工业大学硕士论文.2005:30-54页
[22] 杨成林.三相逆变器DSP控制技术的研究.浙江大学硕士论文.2004:26-44页
[23] 何中一.SPWM逆变器控制技术研究.南京航空航天大学硕士论文.2005:7-43页
[24] 孙进等.逆变电源技术及其发展概况.逆变电源.2006.08:28-30页
[25] 刘媛.双频电源设计及其工程实现.导航与控制.2004,第3卷第2期:32-34页
[26] 谢运祥等.消谐控制逆变器的输出滤波参数的分析与设计.华南理工大学学报(自然科学版).2004,第32卷第5期:1-4页
[27] 唐海运.延长陀螺经纬仪使用寿命的技术问题分析.焦作工学院学报(自然科学版).2001.01,第20期第1卷:35-37
[28] Fuji Electric Co. 6MBP15RH060 IGBT-IPM Modules Datasheet. Fuji Electric Co.: 1-6P
[29] ADI. Low Cost, Low Power, True RMS-to-DC Converter AD736 Datasheet. Analog Devices, Inc. 2003: 1-12P
[30] TI. MSP430x13x, MSP430x14x Mixed Signal Microcontroller Datasheet. Texas Instruments Incorporated. 2000. 07: 1-64P
[31] TI. MSP430x1xx User's Guide. Texas Instruments Incorporated. 2005: 3. 1-3. 29P, 11.1-11. 35P
[32] TI. Programming a Flash-Based MSP430 Using the JTAG Interface. Texas Instruments Incorporated. 2005. 12: 4-12P
[33] IAR. MSP430 IAR Embedded Workbench(TM) IDE User Guide. IAR Systems. 2005: 24-69P, 135-146P
[34] 李文秀.自动控制原理.哈尔滨工程大学出版社,2001:152-195页
[35] 贾嘉斌.80C196 MC微控制器在中频电源中的应用.冶金设备.2004,第4期:18-21页
[36] 陈颖.SPWM逆变电源的谐波分析及抑制策略.船电技术.2005,第1期:28-30页
[37] 王幸之,王雷等.单片机应用抗干扰技术.北京航空航天大学出版社,2000:321-344页
[38] 刘凤君.逆变器用整流电源.机械工业出版社,2004:1-51页