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安徽建筑大学毕业设计(论文)专业电子信息工程班级城建电子二班学生姓名马吉智学号09290060216课题无线充电设备的设计与制作———无线充电发射部分指导教师花海安2013年6月安徽建筑大学毕业设计(论文)摘要基于现在中国市场上还没有真正的无线充电的产品,我们利用电磁感应的基本原理结合模拟数字基础理论设计制作了智能无线充电系统。此作品内部应用电流控制型脉宽调制集成电路来驱动场效应管从而产生高频振荡脉冲,通过电磁感应向外界传送能量,通过接收电路把磁场能转化成电能从而实现对用电设备的充电(此作品以手机电池充电为例)。其系统经济实用,市场前景极其广阔。AbstractBasedontheChinesemarketnowhasnotreallywirelessrechargeableproducts,weusethebasicprinciplesofelectromagneticinductioncombinationofanaloganddigitaldesignbasedonthetheoryofintelligentwirelesschargingsystem.Thisworkstheuseofcurrent-controlledpulsewidthmodulationtodrivethefieldeffecttransistorintegratedcircuitsresultinginhighfrequencyoscillationpulse,electromagneticinductionthroughthetransmissionofenergytotheoutsideworld,throughthereceivingcircuittothemagneticfieldcanbeconvertedintoelectricitytopowerequipmentinordertoachievecharge(Thismobilephonebatteryworksasanexample).Thesystemeconomicalandpractical,marketprospectisextremelybroad.关键字(Keyword):电磁感应(Electromagneticinduction)无线充电(WirelessCharging)安徽建筑大学毕业设计(论文)目录1绪论.............................................................................................................................................................11.1研究的目的和意义..........................................................................................................................11.2国内外研究现状和发展趋势..........................................................................................................21.2.1电磁感应方式.....................................................................................................................31.2.2电磁耦合共振方式..............................................................................................................31.2.3微波/激光辐射方式............................................................................................................41.2.4优缺点...............................................................................................................................41.3设计要求和实现思路......................................................................................................................52理论基础.....................................................................................................................................................72.1系统的模型......................................................................................................................................72.2参数分析..........................................................................................................................................82.2.1距离与效率的关系..............................................................................................................82.2.2线圈的相对位置................................................................................................................112.2.3本章小结............................................................................................................................133硬件电路的设计.......................................................................................................................................143.1方波发生器....................................................................................................................................153.24011...............................................................................................................................................183.3l7809.............................................................................................................................................194安装调试...................................................................................................................................................215总结...........................................................................................................................................................22致谢...............................................................................................................................................................23参考文献.......................................................................................................................................................24附录原理图...............................................................................................................................................251发射部分原理图...............................................................................................................................252接收部分原理图...............................................................................................................................26安徽建筑大学毕业设计(论文)1无线充电设备的设计与制作--无线充电的发射部分电子信息工程09城建电子(2)班马吉智指导老师花海安1绪论无线供电是一个很吸引人的制作课题,许多电子类杂志和论坛上都有关于制作无线供电电路的介绍,这些电路虽各有千秋,但都有一个共同的不足之处,一是传输效率不太理想,二是不论有无接收器在工作,发射部分都一如既往地向外源源不断地发射能量,这是不能令人满意的。无线充电技术利用了电磁波感应原理,及相关的交流感应技术,在发送和接收端用相应的线圈来发送和接收产生感应的交流信号来进行充电的一项技术,用户只需要将充电设备放在一个“平板”上即可进行充电,这样的充电方式过去曾经出现在手表和剃须刀上,但是当时无法针对大容量锂离子电池进行有效充电。无线充电技术此前已经出现,但这项新发明更为方便实用。手机等设备只要贴上接收线圈,放置在“鼠标垫”上的任一位置都可充电,不像以前的一些技术那样需要精确定位。几个设备同时放在垫子上,可以同时进行充电。充电器产生的磁场很弱,能够给设备充电但不会影响附近的信用卡、录像带等利用磁