电力电子技术相关论文选题方向怎么写
[电子机械论文] 电力电子技术论文现代电源技术是应用电力电子半导体器件,综合自动控制、计算机(微处理器)技术和电磁技术的多学科边缘交又技术。在各种高质量、高效、高可靠性的电源中起关键作用,是现代电力电子技术的具 体应用。 当前,电力电子作为节能、节才、自动化、智能化、机电一体化的基础,正朝着应用技术高频化、硬件结构模块化、产品性能绿色化的方向发展。在不远的将来,电力电子技术将使电源技术更加成熟、经 济、实用,实现高效率和高品质用电相结合。2 模块化 模块化有两方面的含义,其一是指功率器件的模块化,其二是指电源单元的模块化。我们常见的器件模块,含有一单元、两单元、六单元直至七单元,包括开关器件和与之反并联的续流二极管,实质上都属于“标准”功率模块(SPM)。近年,有些公司把开关器件的驱动保护电路也装到功率模块中去,构成了“智能化”功率模块(IPM),不但缩小了整机的体积,更方便了整机的设计制造。实际上,由于频率的不断提高,致使引线寄生电感、寄生电容的影响愈加严重,对器件造成更大的电应力(表现为过电压、过电流毛刺)。为了提高系统的可靠性,有些制造商开发了“用户专用”功率模块(ASPM),它把一台整机的几乎所有硬件都以芯片的形式安装到一个模块中,使元器件之间不再有传统的引线连接,这样的模块经过严格、合理的热、电、 机械方面的设计,达到优化完美的境地。它类似于微电子中的用户专用集成电路(ASIC)。只要把控制软件写入该模块中的微处理器芯片,再把整个模块固定在相应的散热器上,就构成一台新型的开关电源装置。由此可见,模块化的目的不仅在于使用方便,缩小整机体积,更重要的是取消传统连线,把寄生参数降到最小,从而把器件承受的电应力降至最低,提高系统的可靠性。另外,大功率的开关电源,由于器件容量的限制和增加冗余提高可靠性方面的考虑,一般采用多个独立的模块单元并联工作,采用均流技术,所有模块共同分担负载电流,一旦其中某个模块失效,其它模块再平均分担负载电流。这样,不但提高了功率容量, 在有限的器件容量的情况下满足了大电流输出的要求, 而且通过增加相对整个系统来说功率很小的冗余电源模块,极大的提高系统可靠性,即使万一出现单模块故障,也不会影响系统的正常工作,而且为修复提供充分的时间。 3 数字化 在传统功率电子技术中,控制部分是按模拟信号来设计和工作的。在六、七十年代,电力电子技术完全是建立在模拟电路基础上的。但是,现在数字式信号、数字电路显得越来越重要,数字信号处理技术日趋完善成熟,显示出越来越多的优点:便于计算机处理控制、避免模拟信号的畸变失真、减小杂散信号的干扰(提高抗干扰能力)、便于软件包调试和遥感遥测遥调,也便于自诊断、容错等技术的植入。所以,在八、九十年代,对于各类电路和系统的设计来说,模拟技术还是有用的,特别是:诸如印制版的布图、电磁兼容(EMC) 问题以及功率因数修正(PFC)等问题的解决,离不开模拟技术的知识,但是对于智能化的开关电源,需要用计算机控制时,数字化技术就离不开了。 4 绿色化 电源系统的绿色化有两层含义:首先是显著节电, 这意味着发电容量的节约,而发电是造成环境污染的重要原因,所以节电就可以减少对环境的污染;其次这些电源不能(或少)对电网产生污染,国际电工委员会(IEC)对此制定了一系列标准,如IEC555、IEC917、IECl000等。事实上,许多功率电子节电设备,往往会变成对电网的污染源:向电网注入严重的高次谐波电流,使总功率因数下降,使电网电压耦合许多毛刺尖峰,甚至出现缺角和畸变。20世纪末,各种有源滤波器和有源补偿器的方案诞生,有了多种修正功率因数的方法。这些为2l世纪批量生产各种绿色开关电源产品奠定了基础。 现代电力电子技术是开关电源技术发展的基础。随着新型电力电子器件和适于更高开关频率的电路拓扑的不断出现,现代电源技术将在实际需要的推动下快速发展。在传统的应用技术下,由于功率器件性能的限制而使开关电源的性能受到影响。为了极大发挥各种功率器件的特性,使器件性能对开关电源性能的影响减至最小,新型的电源电路拓扑和新型的控制技术,可使功率开关工作在零电压或零电流状态,从而可大大的提高工作频率,提高开关电源工作效率,设计出性能优良的开关电源。 总而言之,电力电子及开关电源技术因应用需求不断向前发展,新技术的出现又会使许多应用产品更新换代,还会开拓更多更新的应用领域。开关电源高频化、模块化、数字化、绿色化等的实现,将标志着这些技术的成熟,实现高效率用电和高品质用电相结合。这几年,随着通信行业的发展,以开关电源技术为核心的通信用开关电源,仅国内有20多亿人民币的市场需求,吸引了国内外一大批科技人员对其进行开发研究。开关电源代替线性电源和相控电源是大势所趋,因此,同样具有几十亿产值需求的电力操作电源系统的国内市场正在启动,并将很快发展起来。还有其它许多以开关电源技术为核心的专用电源、工业电源正在等待着人们去开发。
电力电子技术:一门新兴的应用于电力领域的电子技术
SPWM斩波,或者提高效率一类的,电机的控制等等
电力电子技术相关论文选题方向怎么选
电力电子很简单,当然没有毕设题目给你,你就选单片机吧~或是PLC
个人觉得还是选单片机比较好,这个考上研究生了还能用上,毕竟电力电子搞硬件的还是比较多的。
Abstract: With the development of power electronics technology, harmonic hazards has become increasingly serious, harmonic governance issues has been On the power source for electronic devices harmonic analysis and concluded that its harm and the corresponding harmonic management principles and comprehensive management, and management of a harmonic Key words: power electronics; harmonics; hazards; inhibition INTRODUCTION With the development of power electronics technology, power electronic devices to the extensive application of power system harmonics caused serious Various power electronic equipment in the transport, metallurgical, chemical and other industrial traffic the extensive application of harmonics in the grid problem is becoming increasingly serious, many low power factor of power electronic devices to the power grid additional burden on the quality of power and influence, Therefore, the power electronic devices harmonic pollution has become hinder the development of power electronics technology major Therefore, inhibition harmonic pollution and improve the power factor of power electronics technology has become a major issue in This paper focus on the key issues of power through electronic harmonic sources and the danger of understanding and analysis, and control of pollution from the relationship between the consideration of a comprehensive management approach on the final harmonic trends in the development of comprehensive management of the A power electronic device - the main source of harmonics Nonlinear load is a harmonic sources, which caused grid voltage distortion, in the voltage several times with the whole of the fundamental frequency Harmonic as the main source of power for various electronic devices mainly AC-DC converter (rectifiers, inverters, chopper, Drives), as well as bidirectional thyristor controlled switching equipment, as well as internal power system Variable Flow equipment, such as HVDC rectifier valve and the valve, and other Below its harmonics generated an analysis of the 1 Rectifier As a DC power supply devices, rectifiers widely used in various Figure 1 (a) and Figure 1 (b) respectively for the single-phase and three-phase circuits In rectifier devices, AC power supply for the current rectangular wave, rectangular wave of the fundamental frequency for the current and Jibeiai several times for the high-frequency harmonic current waveform Obtained by Fourier series of rectangular wave of high harmonics In fundamental component I1 and the largest ratio of 1 / n, with the trigger control angle α, and the decrease of overlap angle μ for the increase of harmonic wave components have reduced In addition, the existing research results indicate that: Rectifier harmonic current operation mode of the size, has a direct impact, therefore consider adjusting the voltage and current rectifier, it is best to conduct overlap angle, as well as for harmonic phase pressure drop calculations, in order to determine safe and economical operation mode when the control close to 40 ° angle α, overlapping in the 8 ° angle μ about the circumstances are often the most serious state of harmonic, so to go through, as far as possible through the correct choice of regulating transformers tap in order to avoid Harmonic most serious point [1] 2 exchange regulator Exchange regulator used for lighting dimming and induction motor speed, and so Figure 2 (a) and 2 (b) respectively for the single-phase and three-phase circuits Exchange regulator and the harmonic frequency rectifier basically the Frequency Converter 3 Frequency converter is AC / AC Converter behalf of equipment, when used as motor speed control devices, which contain a change with the output frequency band edge, as for the frequency change, the more complicated harmonic Universal Converter 4 GM converter input circuits are all from the diode bridge rectifier and DC capacitor components in Figure 3 (a) shows, this circuit impedance input current waveform with the different big In the source impedance relatively small cases, the waveform for the lanky Zhaier high-waveform in Figure 3 (b) solid line shows the contrary, when the source impedance relatively large, its waveform for the dwarf and wide flat waveform Figure 3 (b) shown in dotted In addition to these typical converter will be a great number of harmonics, household appliances is not to be ignored harmonic Such as television sets, battery Although their individual capacity little, but because a lot of volume, they injected into the power supply system to the harmonic components can not be 2 harmonic hazards Harmonic hazards of the public network include: 1) make a public network components have additional harmonic loss and reduce the power generation, power transmission equipment efficiency, a large number of 3rd harmonic flow neutral line, the line will cause overheating or even a fire; 2) impact of the normal work of electrical equipment, in addition to additional wear and tear caused, and also enable a motor mechanical vibration, noise and over-voltage, transformer partial serious overheating, capacitors, cables and other equipment overheating, insulation aging, shortened life expectancy, resulting damage; 3) common cause in the local power grid and parallel resonant series resonance, so that harmonic magnification so that the aforementioned hazards greatly increase, or even lead to serious accidents; 4) will lead to protection and automatic device misoperation, and electrical measuring instrument measurement inaccurate; 5) to neighbouring interfere with communications systems, light, noise and lower the quality of communication, information led to heavy loss of the communications systems do not work 3 harmonic management principles To improve power quality, we must strengthen the management of the In restricted to the utility grid harmonic source harmonic current injection, will be allowed to limit the harmonic voltage within the scope of the First it is necessary to have systems in the harmonic sources and distribution, in the harmonic limit its scope in order to allow access, not curing the management measures must be taken to prevent the spread of For this reason the International Electrotechnical Commission (IEC) and the United States have recommended IEEE standards such as IEEE provisions of the current standard harmonic limits shown in Table China Power Grid with the actual level and the standard of other developed countries voltage distortion sine-rate provisions in table Table 1 harmonic current limits (IEEE519-1992 Provisions) Isc / IL H <11 11
毕业设计无所谓了孩纸,电力电子最多还是应用于电机控制啊,所以毕业设计做电机本体也是很好的,再说考研要考电力电子吗?到了研究生再学业赶趟。电力电子两个方向比较火,一个是电机控制,一个是电源。至于电力系统啊,最关键的是功率补偿,其实说白了也是电力电子的知识,神马FPGA啊,单片机啊,都是应用于电机控制的了。
电力电子技术相关论文选题方向
电力电子很简单,当然没有毕设题目给你,你就选单片机吧~或是PLC
Abstract: With the development of power electronics technology, harmonic hazards has become increasingly serious, harmonic governance issues has been On the power source for electronic devices harmonic analysis and concluded that its harm and the corresponding harmonic management principles and comprehensive management, and management of a harmonic Key words: power electronics; harmonics; hazards; inhibition INTRODUCTION With the development of power electronics technology, power electronic devices to the extensive application of power system harmonics caused serious Various power electronic equipment in the transport, metallurgical, chemical and other industrial traffic the extensive application of harmonics in the grid problem is becoming increasingly serious, many low power factor of power electronic devices to the power grid additional burden on the quality of power and influence, Therefore, the power electronic devices harmonic pollution has become hinder the development of power electronics technology major Therefore, inhibition harmonic pollution and improve the power factor of power electronics technology has become a major issue in This paper focus on the key issues of power through electronic harmonic sources and the danger of understanding and analysis, and control of pollution from the relationship between the consideration of a comprehensive management approach on the final harmonic trends in the development of comprehensive management of the A power electronic device - the main source of harmonics Nonlinear load is a harmonic sources, which caused grid voltage distortion, in the voltage several times with the whole of the fundamental frequency Harmonic as the main source of power for various electronic devices mainly AC-DC converter (rectifiers, inverters, chopper, Drives), as well as bidirectional thyristor controlled switching equipment, as well as internal power system Variable Flow equipment, such as HVDC rectifier valve and the valve, and other Below its harmonics generated an analysis of the 1 Rectifier As a DC power supply devices, rectifiers widely used in various Figure 1 (a) and Figure 1 (b) respectively for the single-phase and three-phase circuits In rectifier devices, AC power supply for the current rectangular wave, rectangular wave of the fundamental frequency for the current and Jibeiai several times for the high-frequency harmonic current waveform Obtained by Fourier series of rectangular wave of high harmonics In fundamental component I1 and the largest ratio of 1 / n, with the trigger control angle α, and the decrease of overlap angle μ for the increase of harmonic wave components have reduced In addition, the existing research results indicate that: Rectifier harmonic current operation mode of the size, has a direct impact, therefore consider adjusting the voltage and current rectifier, it is best to conduct overlap angle, as well as for harmonic phase pressure drop calculations, in order to determine safe and economical operation mode when the control close to 40 ° angle α, overlapping in the 8 ° angle μ about the circumstances are often the most serious state of harmonic, so to go through, as far as possible through the correct choice of regulating transformers tap in order to avoid Harmonic most serious point [1] 2 exchange regulator Exchange regulator used for lighting dimming and induction motor speed, and so Figure 2 (a) and 2 (b) respectively for the single-phase and three-phase circuits Exchange regulator and the harmonic frequency rectifier basically the Frequency Converter 3 Frequency converter is AC / AC Converter behalf of equipment, when used as motor speed control devices, which contain a change with the output frequency band edge, as for the frequency change, the more complicated harmonic Universal Converter 4 GM converter input circuits are all from the diode bridge rectifier and DC capacitor components in Figure 3 (a) shows, this circuit impedance input current waveform with the different big In the source impedance relatively small cases, the waveform for the lanky Zhaier high-waveform in Figure 3 (b) solid line shows the contrary, when the source impedance relatively large, its waveform for the dwarf and wide flat waveform Figure 3 (b) shown in dotted In addition to these typical converter will be a great number of harmonics, household appliances is not to be ignored harmonic Such as television sets, battery Although their individual capacity little, but because a lot of volume, they injected into the power supply system to the harmonic components can not be 2 harmonic hazards Harmonic hazards of the public network include: 1) make a public network components have additional harmonic loss and reduce the power generation, power transmission equipment efficiency, a large number of 3rd harmonic flow neutral line, the line will cause overheating or even a fire; 2) impact of the normal work of electrical equipment, in addition to additional wear and tear caused, and also enable a motor mechanical vibration, noise and over-voltage, transformer partial serious overheating, capacitors, cables and other equipment overheating, insulation aging, shortened life expectancy, resulting damage; 3) common cause in the local power grid and parallel resonant series resonance, so that harmonic magnification so that the aforementioned hazards greatly increase, or even lead to serious accidents; 4) will lead to protection and automatic device misoperation, and electrical measuring instrument measurement inaccurate; 5) to neighbouring interfere with communications systems, light, noise and lower the quality of communication, information led to heavy loss of the communications systems do not work 3 harmonic management principles To improve power quality, we must strengthen the management of the In restricted to the utility grid harmonic source harmonic current injection, will be allowed to limit the harmonic voltage within the scope of the First it is necessary to have systems in the harmonic sources and distribution, in the harmonic limit its scope in order to allow access, not curing the management measures must be taken to prevent the spread of For this reason the International Electrotechnical Commission (IEC) and the United States have recommended IEEE standards such as IEEE provisions of the current standard harmonic limits shown in Table China Power Grid with the actual level and the standard of other developed countries voltage distortion sine-rate provisions in table Table 1 harmonic current limits (IEEE519-1992 Provisions) Isc / IL H <11 11
毕业设计无所谓了孩纸,电力电子最多还是应用于电机控制啊,所以毕业设计做电机本体也是很好的,再说考研要考电力电子吗?到了研究生再学业赶趟。电力电子两个方向比较火,一个是电机控制,一个是电源。至于电力系统啊,最关键的是功率补偿,其实说白了也是电力电子的知识,神马FPGA啊,单片机啊,都是应用于电机控制的了。
电力电子技术:一门新兴的应用于电力领域的电子技术
电力电子技术相关论文选题方向是什么
电力电子技术:一门新兴的应用于电力领域的电子技术
1、 高压软开关充电电源硬件设计2、 自动售货机控制系统的设计3、 PLC控制电磁阀耐久试验系统设计4、 永磁同步电动机矢量控制系统的仿真研究5、 PLC在热交换控制系统设计中的应用6、 颗粒包装机的PLC控制设计7、 输油泵站机泵控制系统设计8、 基于单片机的万年历硬件设计 9、 550KV GIS中隔离开关操作产生的过电压计算10、 时滞网络化控制系统鲁棒控制器设计11、 多路压力变送器采集系统设计12、 直流电机双闭环系统硬件设计 13、 漏磁无损检测磁路优化设计14、 光伏逆变电源设计15、 胶布烘干温度控制系统的设计16、 基于MATLAB的数字滤波器设计与仿真17、 电镀生产线中PLC的应用18、 万年历的程序设计19、 变压器设计20、 步进电机运动控制系统的硬件设计21、 比例电磁阀驱动性能比较22、 220kv变电站设计 23、 600A测量级电流互感器设计24、 自动售货机控制中PLC的应用25、 足球机器人比赛决策子系统与运动轨迹的研究26、 厂区35kV变电所设计27、 基于给定指标的电机设计28、 电梯控制中PLC的应用29、 常用变压器的结构及性能设计30、 六自由度机械臂控制系统软件开发31 输油泵站热媒炉PLC控制系统设计32 步进电机驱动控制系统软件设计33 足球机器人的视觉系统与色标分析的研究34 自来水厂PLC工控系统控制站设计35 永磁直流电动机磁场分析36 永磁同步电动机磁场分析37 应用EWB的电子表电路设计与仿真38 电路与电子技术基础》之模拟电子篇CAI课件的设计39 逻辑无环流直流可逆调速系统的仿真研究40 机器人足球比赛图像采集与目标识别的研究41 自来水厂plc工控系统操作站设计42 PLC结合变频器在风机节能上的应用43 交流电动机调速系统接口电路的设计44 直流电动机可逆调速系统设计45 西门子S7-300PLC在二氧化碳变压吸附中的应用46 DMC控制器设计47 电力电子电路的仿真48 图像处理技术在足球机器人系统中的应用49 管道缺陷长度对漏磁场分布影响的研究 50 生化过程优化控制方案设计51 交流电动机磁场定向控制系统设计52 开关电磁阀流量控制系统的硬件设计53 比例电磁阀的驱动电源设计54 交流电动机SVPWM控制系统设计55 PLC在恒压供水控制中的应用56 西门子S7-200系列PLC在搅拌器控制中的应用57 基于侧抑制增强图像处理方法的研究58 西门子s7-300系列plc在工业加热炉控制中的应用59 西门子s7-200系列plc在电梯控制中的应用60 PLC在恒压供水控制中的应用61 磁悬浮系统的常规控制方法研究62 建筑公司施工进度管理系统设计63 网络销售数据库系统设计64 生产过程设备信息管理系统的设计与实现
个人觉得还是选单片机比较好,这个考上研究生了还能用上,毕竟电力电子搞硬件的还是比较多的。
电子电力技术论文选题方向怎么写
以家用电器为出发点,写身边运用到电力电子技术的东西~~
SPWM斩波,或者提高效率一类的,电机的控制等等
电子信息科学与技术专业本科毕业设计(论文)选题指南 一、电子信息科学与技术专业的学科领域 电子信息科学与技术专业属于电子信息科学类专业。电子信息科学类专业还包括:微电子学(071202);光信息科学与技术(071203)。 二、电子信息科学与技术专业的主要研究方向和培养目标 1、电子信息科学与技术专业的主要研究方向 (1) 电路与系统 (2) 计算机应用 2、电子信息科学与技术专业的培养目标 本专业培养具备电子信息科学与技术、计算机科学与技术的基本理论和基本知识,受到严格的科学实验训练和科学研究初步训练,能在电子信息科学与技术、计算机科学与技术及相关领域和行政部门从事科学研究、教学、科技开发、产品设计、生产技术或管理工作的电子信息科学与技术高级专门人才。 本专业学生主要学习电子信息科学与技术的基本理论和技术,受到科学实验与科学思维的训练,具有本学科及跨学科的应用研究与技术开发的基本能力。 毕业生应具备以下几方面的知识、能力和素质: (1) 掌握数学,物理等方面的基本理论和基本知识,; (2) 掌握电子信息科学与技术,计算机科学与技术等方面的基本理论,基本 知识和基本技能与方法; (3) 了解相近专业的一般原理和知识; (4) 熟悉国家电子信息产业政策及国内外有关知识产权的法律法规; (5) 了解电子信息科学与技术的理论前沿,应用前景和最新发展动态,以及 电子信息产业发展状况; (6) 掌握现代电路设计自动化技术。 (7) 掌握资料查询,文献检索及运用现代信息技术获取相关信息的基本方法;具有一定的技术设计,归纳、整理、分析实验结果,撰写论文,参与学术交流的能力; (8) 具备善于运用已有知识来学习挖掘新知识,能够将所学知识运用到实践活动中去和运用科学知识分析解决实际问题的能力; (9) 具有独立观察,分析问题,敢于标新立异,勇于置疑,具备开展科学创新活动的基本能力; (10) 善于自我设计、自我推销,协调和处理人际关系,能够及时掌握人才市场需求的信息,具有自主择业的能力。 三、毕业设计(论文)选题原则 本专业毕业论文(设计)题目的选择要遵循以下原则: 1、要结合所学专业 毕业论文主要用来衡量学生对所学知识的掌握程度,所以论文题目不能脱离所学的专业知识。有些学生工作与所学专业没有关系,而本人对所从事的工作有一定的探索或研究,毕业论文就写了这方面的内容。这只能算是工作总结,但不能算是一篇毕业论文。 工科学生学习的专业往往和他们从事的工作有教紧密的关系,他们有教丰富的实验经验和感性认识,经过几年的系统学习,可以学到相应的理论知识,使他们对自己的工作有一种新的认识,他们可以利用所学知识对原来的工作方式、工作程序、工作工具进行改进,以提高工作效率。 2、内容要新 工科论文除了具有理论性之外,更重要的是它的实践性和实际操作性。工科各学科发展非常之快,往往教科书刚进入课堂,内容就已经落后了。待学生毕业时,所学知识可能几近淘汰,所以学生选题要注意所用知识不能陈旧,要能跟上学科的发展。 3、题目要大小适当,难易适度 论文题目不宜过大,否则必然涉及的范围大广。学生处涉科研,普遍存在着知识面窄、理论功底不足的问题,再加上学生主要以业余学习为主,题目太大,势必讲得不深不透,乃至丢三落四,难以驾驭。因此,选题必须具体适中。 题目选择要难易适度。过难,自己不能胜任,最后可能半途而废,无法完成论文;太容易,则论文层次太低,不能很好地反映几年来的学习成绩和科研水平,同时自己也得不到锻炼。 选题最好能合乎个性兴趣爱好,如果自己对论题兴趣很高,就会有自发的热情和积极性,文章就容易写出新意来。 四、毕业设计(论文)选题 选题是决定毕业设计(论文)训练成败与质量好坏的关健之一。 1、电子信息科学与技术专业本科从选题的内容上可以分为理论型毕业设计(论文)和应用型毕业设计(论文)两大类。 2、从本科毕业设计(论文)课题的来源,也可以分为科研开发型和自确定型毕业设计(论文)两大类。 3、从电子信息科学与技术专业本科毕业设计(论文)所涉及的研究领域来看,又可以将其划分为如下一些领域: (1) 集成电路的测试与故障诊断 (2) 集成电路的设计与分析 (3) ARM的设计与应用 (4) 信号与信息处理 (5) 单片机应用系统开发 (6) 仪器、仪表的设计开发与改进 (7) 视频、音频信号处理技术 (8) 可编程器件、EDA技术 (9) 新型电源的开发与应用 (10) 各种电子电路的设计 (11) 微机接口电路的设计 (12) 电子电路的软件仿真技术 (13) 太赫兹电子技术 (14) 测试控制系统的设计与仿真 (15) 数据采集系统设计 (16) 虚拟仪器满意请采纳
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