简易节能路灯控制器的研究设计
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简易节能路灯控制器的研究设计(任务书,开题报告,论文15000字)
摘要
国家经济飞速发展,各大城市在夜晚中灯火通明,呈现欣欣向荣之态。但在这灯火璀璨的背后,却是能源的消耗量日益增多。作为城市照明的重中之重,路灯照明系统却存在能源利用率较低的问题。为了使路灯照明系统的能源利用率得以提高,路灯控制器应运而生。本文以光敏电阻与NE555芯片构成光控电路,以NE555芯片与电阻组合构成秒脉冲产生电路,以74160芯片构成计时电路与计数电路并辅以CD4511芯片驱动七段共阴数码管显示,旨在实现不同光照条件下路灯的开启与关断,同时显示路灯的开启次数以及当前工作的时间。研究结果表明:路灯可随不同光照条件下光敏电阻阻值的变化而自动开启和关断,同时还可调节路灯开启和关断所需的光照亮度。此外,数码管成功地显示了路灯开启的次数与工作时间,达到了预期效果,对城市路灯控制器的发展具有重要意义。
关键词:路灯控制器;光敏电阻;秒脉冲;计数电路;计时电路
Abstract
The country's economy is booming and its big cities are lit up at night. But behind the bright lights, energy consumption is on the rise. As the top priority of urban lighting, street lighting system has the problem of low energy efficiency. In order to solve this problem, street light controller comes into being. In this article, we use the photosensitive resistance and NE555 chip to constitute the photocontrol circuit, and we use NE555 chip and resistance to form the second pulse generating circuit.At the same time,composed by the 74160 chips,the timing circuit and the counting circuit are displayed through seven segment digital tube which is drove by the CD4511 chip.The purpose is to achieve the opening and closing of street lights under different lighting conditions, and to show how many times have the lights turned on and the number of the current working time. The result shows that street lights can be turned on and off depending on the resistance changes of photosensitive resistances under different lighting conditions. In addition, it correctly displays the times of opening and working time of street lights, achieving the desired effect, which is of great significance to the production of urban street light controllers.
Key Words:street light controller;photosensitive resistance;secondpulse;counting circuit;timing circuit
目录
第1章绪论 1
1.1 研究现状与背景 1
1.2 设计的目的 2
1.3 设计的意义 2
第2章方案设计与选择 4
2.1 设计的基本内容 4
2.2 设计的要求 4
2.3 系统论证 4
2.3.1 光控模块 4
2.3.2 秒脉冲产生模块 5
2.3.3 计数模块 5
2.3.4 计时模块 5
2.3.5 显示模块 5
2.4 方案分析与选择 5
第3章软件简介 7
3.1Multisim软件 7
3.2Altium Designer软件 8
第4章主要器件介绍 10
4.1 光敏电阻 10
4.2NE555芯片 11
4.374160芯片 12
4.4CD4511芯片 13
4.5 七段共阴数码管 14
第5章单元电路的设计 16
5.1 光控电路 16
5.2 秒脉冲产生电路 18
5.3 计数电路 19
5.4 计时电路 20
5.5 显示电路 21
第6章整体系统与实物图 24
第7章结论 26
参考文献 27
附录A 元件清单 28
附录B 芯片引脚图与真值表 29
附B174LS00芯片 29
附B274LS04芯片 29
附B374LS08芯片 30
附B474LS20芯片 30
致谢 31 |