dq全数字化双闭环可逆直流PWM调速系统的研究(论文+DWG图纸)

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摘 要 


当今，自动化控制系统己经在各行各业得到了广泛的应用和发展，而直流调速控制作为电气传动的主流在现代化生产中起着主要作用。本文主要研究直流调速系统，它主要由三部分组成，包括控制部分、功率部分、直流电动机。长期以来，直流电动机因其具有调节转速比较灵活、方法简单、易于大范围内平滑调速、控制性能好等特点，一直在传动领域占有统治地位。 
微机技术的快速发展，在控制领域得到广泛应用。本文对基于微机控制的双闭环可逆直流PWM调速系统进行了较深入的研究，从直流调速系统原理出发，逐步建立了双闭环直流PWM调速系统的数学模型，用微机硬件和软件发展的最新成果，探讨一个将微机和电力拖动控制相结合的新的控制方法，研究工作在对控制对象全面回顾的基础上，重点对控制部分展开研究，它包括对实现控制所需要的硬件和软件的探讨，控制策略和控制算法的探讨等内容。在硬件方面充分利用微机外设接口丰富，运算速度快的特点，采取软件和硬件相结合的措施，实现对转速、电流双闭环调速系统的控制。  [版权所有：http://think58.com]
论文分析了系统工作原理和提高调速性能的方法，研究了IGBT模块应用中驱动、吸收、保护控制等关键技术。在微机控制方面，讨论了数字触发、数字测速、数字PWM调制器、双极式H型PWM变换电路、转速与电流控制器的原理，并给出了软、硬件实现方案。该方案以89C52微机为核心，分别采用了8255, 8253, 8279, ADC0809, 741914等芯片与一些外围电路。通过实时测试与调节电动机的转速/电流，此调速系统可获得快速、精确的调速效果。

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关键词：直流可逆调速，数字触发，PWM，数字控制器 
Abstract


Today, autocontrol systems have been widely used and deleloped in every Walk of life, while DC speed regulation as the artery in the area of electric drive systems acts the main effect in modernization production. DC speed regulation is mainly made up of control unite, power unite and DC motor. For a long time，DC motor has possessed the main role in the area of electric drive field because of its neatly adjust, easy method and smooth timing in wide rage, also, its control performance is very good.
With the rapid development of microcomputer, it is widely used in the control field. This paper reserches reversible DC-PWM timing system with a dual-converter and dual-closed-loop. Beginning with the theory of the DC timing system, this article has build up the maths model of the reversible DC-PWM timing system with Central a dual-converter and dual-closed-loop，discussing a microcomputer with DC-drive. Based new method that 0n the overall review of control object, the emphasis is put on the part of control system, which includes the discussion of hardware and software, control policy and algorithm, etc. In the hardware, it fully utilizes the advantage of microcomputer that are abundant interface and fast speed so as to realize the control of the system. [版权所有：http://think58.com]

This paper analyzes the working principles of the system and some key technical issues of the application based on the IGBT apparatus, which include drive circuit,snubber circuit,protection and controlling the quantity of heat, and so on.In the aspect of microcomputer control, it has discussed the principle of number touch off、number velocity testing、current/velocity controller、number PWM modulator and presents the hardware/software scheme to achieve it. This scheme is based on the core of 89C52 single chip, using the chips of 8255/8253/8279/ADC0809/74191 and some peripheral circuits. By real time testing dand adjusting the motor’s velocity/current, this timing system can get quick and exact timing result.
Keywords: reversible DC timing system, number touch off, Pulse-Width Modulation, number controller

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目 录 


第1章 引言......................................................................................................……....1
1.1电气传动技术发展现状.......................................... .............................……......1
1.2微机控制电机的发展和现状.........................................................…….............1
1.3电机微机控制系统的特点...............................................................……...........2
1.4本课题在实际应用方面的意义和价值..........................................……............2
第2章 单闭环控制直流脉宽调速系统...................................................…….......... 4
2.1单闭环直流调速系统简介...............................................................…….......... 4

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2.1.1直流电动机的调速方案.........................................................……............. 4
2.1.2调速系统的静态指标........................................ ......................……............5
2.2开环系统机械特性和闭环系统静特性.........................................….................6
2.3采用比例调节器的单闭环控制脉宽调速系统..............................…................7
2.4比例积分单闭环脉宽控制系统(无静差系统)..............................……..............8
2.5本章小结 .............................................................................................…............9
第3章 微机控制双闭环可逆直流PWM调速系统原理设计......….................... 11
3.1转速、电流双闭环调速系统及其静特性..........................…..........................11
3.1.1问题的提出......................................................................…......................11
3.1.2转速、电流双闭环调速系统的组成..........................…….......................12 [资料来源：www.THINK58.com]
3.1.3稳态结构图和静特性.............................................................…...............13
3.1.4各变量的稳态工作点和稳态参数计算..................................…..............14
3.2双闭环脉宽调速系统的动态性能...............................................…................15
3.2.1动态数学模型......................................................................…..................15
3.2.2起动过程分析..................................................................…...…...............15
3.2.3动态性能和两个调节器的作用.............................................…...............17
3.3电流调节器和转速调节器的设计................................................…...............18
3.3.1电流调节器的设计..................................................................…..............18
3.3.2转速调节器的设计..................................................................…..............19
3.4可逆PWM变换器......................................................................……...............20 [资料来源：http://THINK58.com]
3.4.1可逆PWM变换器上作原理...............................................……...............20
3.4.2 IGBT缓冲电路..................................................................…................ 23
3.5脉宽调速系统的开环机械特性...................................................…................24
3.6脉宽调速系统的电流脉动量和转速脉动量.......................................……....25
3.6.1电流脉动量.................................................................................…...........25
3.6.2转速脉动量............................................................................…................28
3.7脉宽调制器和PWM变换器的传递函数..................................…...........…....31
3.8电力晶体管的开关过程、开关损耗和最佳开关频率................…...…......... 31
3.8.1开关过程......................................................................................…..........31
3.8.1.1开通时间...............................................................................…..........31 [来源：http://www.think58.com]
3.8.1.2关断时间..............................................................................…...........32
3.8.2开关损耗..........................................................................................…....33 
3.8.3最佳开关频率.................................................................................…...33
3.9本章小结..................................................................................................34
第4章 双闭环可逆直流PWM调速系统的硬件设计..................................…...…....35
4.1双闭环可逆直流PWM调速系统简介.........................................…........35
4.2双闭环可逆直流PWM调速系统总体设计...................................…......36
4.3主要芯片的选择 ............................................................................…......36
4.3.1单片机的选择....................................................................…............36
4.3.2 8253可编程定时器/计数器芯片.....................................…..........37 [来源：http://www.think58.com]
4.3.3 8279 可编程键盘、显示接口芯片................................…...........37
4.3.4 A/D转换芯片ADC0809........................................................……38
4.4高精度数字测速电路 ........................................................................…...38
4.4.1 M/T法测速原理......................................................................…...39
4.4.2数字测速硬件电路....................................................................…....40
4.5键盘/显示接口..................................................................................…....40
4.6全数字PWM调制器............................................................................…42
4.7泵升电压限制电路...........................................................................…... 43
4.8本章小结...........................................................................................…....44
第5章 调速系统的软件设计.............................................................................…...45 [资料来源：http://THINK58.com]
5.1软件设计的基本要求.......................................................................…....45
5.2软件的结构设计...............................................................................…....45
5.3软件的编制......................................................................................….....47
5.3.1微机头文件的设置.........................................................................47
5.3.2主程序设计.....................................................................................47
5.3.3数字电流调节器和数字转速调节器的算法及软件实现............49
5.4系统的软件抗干扰措施 .................................................................…...53
5.4.1模拟输入信号的噪声滤波 .............................................................53
5.4.2防止程序运行失常的软件措施 ........................................................54
5.4.3软件冗余技术 ............................................................................…....55 [资料来源：http://think58.com]
第6章 硬件电路的改进............................................................................................56
第7章 总结.......................................................................................................….58
参考文献..............................................................................................................…...59
致 谢...............................................................................................................……60
附录A 系统硬件原理图..................................................................................……61
附录B 系统程序清单......................................................................................…....62

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第1章 引言

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1.1电气传动技术发展现状 [来源：http://think58.com]

电气传动技术以电动机控制为控制对象，以微电子装置为核心，以电力电子功率变换装置为执行机构，在自动控制理论指导下组成电气传动控制系统。因电机种类的不同分为直流电动机传动(简 [资料来源：THINK58.com]

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