风光互补发电系统+原理框图+PCB电路图+流程图
进入二十一世纪,人类面临着实现经济和社会可持续发展的重大挑战,而能源问题日益严重,一方面是常规能源的匮乏,另一方面石油等常规能源的开发带来一系列的问题,如环境污染、温室效应等。人类需要解决能源问题,实现可持续发展,只能依靠科技进步,大规模开发利用可再生能源和新能源。而太阳能和风能被看做是最具有代表性的新能源和可再生能源,作为这两种能源的高级利用太阳能发电和风力发电技术受到世界各国的高度重视。由于风力发电和太阳能发电系统均受到外部条件的影响,光靠独立的风力或太阳能发电系统经常会难以保证系统供电的连续性和稳定性,因此,在采用风光互补的混合发电系统来进行相互补充,实现连续、稳定地供电。风光互补发电以其独特优势成为新能源研究的热点之一。本文针对风光互补发电系统设计了一套小型模拟装置,包括太阳能电池模拟,用直流电机对风机的模拟和交错并联Buck-Boost蓄电池充电主电路,并对交错并联Buck-Boost电路和交错并联Cuk斩波电路进行了研究、仿真,以及进行了模拟风机装置的调试。系统控制全部采用Freescale公司的56F8013 DSP控制实现,给出了各部分流程图。对于软硬件的关键问题还给出了相应解决方案。毕业论文http://www.youerw.com
关键词:风光互补 Buck–Boost电路 DSP
Wind & Solar Hybrid Generating System ABSTRACT
Entering the 21st century, human beings are facing to realize the sustainable development of economy and society, and energy problem becomes more and more serious, on the one hand,
conventional energy is serious short on the other hand, the development of oil and other conventional energy brings a series of problems, such as the environmental pollution, the greenhouse effect and so on. Only by relying on the progress of science and technology and the large-scale exploitation and utilization of renewable energy and new energy can human solve the problem of energy, an本文来自~文*论~文'网 d realize the sustainable development. And solar and wind power are considered the most representative of new and renewable energy, The power technology of solar energy and wind attrack world’s attention. Because of wind power and solar power system under external conditions, and only by independent wind or solar power systems often hard to ensure the continuity and consistency of power system therefore, using hybrid power system of complementary scenery to complement each other, realize the continuous, stable power supply. Wind-light complementary with its unique advantages become one of new energy research hotspots. Aiming at wind-light complementary this article design a small device, including solar cells in dc motor, the simulation and interlacing of fan parallel Buck - hee, and main circuit batteries to Buck staggered shunt circuit and interlacing parallel hee - Cuk chopper were studied, and the simulation, the simulated fan unit commissioning. Control system adopt Freescale company 56F8013 DSP control chart, each part. The key question for software and hardware to the corresponding solutions.
Keyword:Wind and PV hybrid Buck–Boost Circuit DSP
目 录
摘要 I
ABSTRACT II
1绪论 1
1.1能源问题 1
1.2风能太阳能的概况 1
1.3 风光发电的发展概况 1
1.4 本文的主要内容 3
2风光互补发电系统总体方案的设计 4
2.1风光互补发电系统的组成及总体框图 4
2.2 模拟太阳能电池框图 5
2.3 模拟风力发电机组的组成及框图 6
3风光互补发电系统的硬件设计 7
3.1风光互补系统硬件的总体设计 7
3.2风光互补系统主电路 8
3.3风光互补系统的电源模块 9
3.3.115V电压产生电路 9
3.3.2±5V电压产生电路 9
3.3.35V电压产生电路 10
3.4检测模块 11
3.4.1电压检测电路 11
3.4.2电流检测电路 11
3.5驱动模块 12
4风光互补发电系统的软件设计 14
4.1软件实现功能 14
4.1.1模拟太阳能电池输出装置软件主要实现功能 14
4.1.2直流电机电枢电流控制软件主要实现功能 14
4.1.3蓄电池充电电路软件主要实现功能 14
4.2软件设计工具 14
4.2.1软件开发环境CodeWarrior概述 15
4.2.2PE(Processor Expert)概述 15
4.3程序实现方法及流程图 15
4.3.1模拟太阳能电池输出流程图 15
4.3.2模拟风机流程图 17
4.3.3蓄电池充电电路流程图 18
4.4程序关键部分的实现 20
4.4.1使用DSP芯片实现PWM移相 20
4.4.2单极性移相PWM控制的实现 21
4.4.3 双极性移相PWM控制的实现 21
4.4.4 DSP定标和标幺化 21
4.4.4.1定标 21
4.4.4.2标么化 22
5系统仿真与调试 23
5.1仿真工具简介 23
5.2交错互补buck-boost斩波电路 23
5.2仿真模型 23
5.2.1仿真结果 23
5.2.3结果分析 26
5.3模拟风机系统调试 26
5.3.1调试设备 27
5.3.2跟踪风机I-n曲线实验 27
5.3.3模拟太阳能电池输出曲线 30
6结论 32
参考文献 33
附 录 34
谢 辞 1561
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