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基于单片机的智能充电器-毕设论文.doc
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基于单片机的智能充电器-毕设论文.doc
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基于单片机的锂电池充电器设计
摘 要
电子技术的快速发展使得各种各样的电子产品都朝着便携式和小型轻量化的方向
发展,也使得更多的电气化产品采用基于电池的供电系统。目前,较多使用的电池有镍
镉、镍氢、铅蓄电池和锂电池。它们的各自特点决定了它们将在相当长的时期内共存发
展。由于不同类型电池的充电特性不同,通常对不同类型,甚至不同电压、容量等级的
电池使用不同的充电器,但这在实际使用中有诸多不便。
本课题设计是一种基于单片机的锂离子电池充电器,在设计上,选择了简洁、高效
的硬件,设计稳定可靠的软件,详细说明了系统的硬件组成,包括单片机电路、充电控
制电路、电压转换及光耦隔离电路,并对本充电器的核心器件—MAX1898 充电芯片、
AT89C2051 单片机进行了较详细的介绍。阐述了系统的软硬件设计。以 C 语言为开发
工具,进行了详细设计和编码。实现了系统的可靠性、稳定性、安全性和经济性。
该智能充电器具有检测锂离子电池的状态;自动切换充电模式以满足充电电池的充
电需要;充电器短路保护功能;充电状态显示的功能。在生活中更好的维护了充电电池,
延长了它的使用寿命。
关键词:充电器;单片机;锂电池;MAX1898
Lithium Battery Charger Design Based On Single Chip
Abstract
Electronic technology's fast development causes various electronic products develops
toward portable and the small lightweight direction, It also causes the more electrification
products to use based on battery's power supply system. At present, the many use's batteries
have the nickel cadmium, the nickel hydrogen, the lead accumulator and the lithium battery.
Their respective characteristic had decided they will coexist in a long time develop. Because
the different type battery's charge characteristic is different, usually to different type, even
different voltage, capacity rank battery use different battery charger, but this has many
inconveniences in the actual use.
This topic design is one kind lithium ion battery charger which is based on Single Chip,
in the design, it has chosen succinctly, the highly effective hardware, the design stable reliable
software, explained in detail system's hardware composition, including the monolithic
integrated circuit electric circuit, the charge control electric circuit, the voltage transformation
and the light pair isolating circuit, and to this battery charger's core component - MAX1898
charge chip, at89C2051 monolithic integrated circuit has carried on the detailed introduction.
Elaborated system's software and hardware design. Take the C language as the development
kit, has carried on the detailed design and the code. Has realized system's reliability, the
stability, the security and the efficiency.
The intelligence battery charger has the examination lithium ion battery's condition; The
automatic cut over charge pattern meets when rechargeable battery's charge needs; Battery
charger has short circuit protection function; The charge condition demonstration's function.
The battery charger has made the better maintenance rechargeable battery in the life , and
lengthened the rechargeable battery’s service life.
Key words:Charger; SCM; Lithium battery; MAX1898
目 录
引 言 ....................................................................................................................................1
第 1 章 绪论 ..............................................................................................................................2
1.1 课题研究的背景..................................................................................................................2
1.2 课题研究的主要工作..........................................................................................................3
第 2 章 电池的充电方法与充电控制技术 ..............................................................................5
2.1 电池的充电方法和充电器..................................................................................................5
2.1.1 电池的充电方法........................................................................................................5
2.1.2 充电器的要求和结构................................................................................................9
2.1.3 单片机控制的充电器的优点..................................................................................10
2.2 充电控制技术....................................................................................................................10
2.2.1 快速充电器介绍......................................................................................................10
2.2.2 快速充电终止控制方法..........................................................................................11
第 3 章 锂电池充电器硬件设计 ............................................................................................14
3.1 单片机电路........................................................................................................................14
3.2 电压转换及光耦隔离电路................................................................................................17
3.3 电源电路............................................................................................................................18
3.4 充电控制电路....................................................................................................................20
3.4.1 MAX1898 充电芯片 ..............................................................................................20
3.4.2 充电控制电路的实现 ............................................................................................24
第 4 章 锂电池充电器软件设计 ............................................................................................26
4.1 程序功能.............................................................................................................................26
4.2 主要变量说明....................................................................................................................26
4.3 程序流程图........................................................................................................................26
结论与展望 ..............................................................................................................................29
致 谢 ..................................................................................................................................30
参考文献 ..................................................................................................................................31
附录 A 电路原理图.................................................................................................................32
附录 B 外文文献及其译文.....................................................................................................33
附录 C 主要参考文献的题录及摘要 ....................................................................................40
附录 D 主要源程序.................................................................................................................42
插图清单
图 2-1 恒流电源充电电路 ....................................................................................................5
图 2-2 准恒流充电电路 ........................................................................................................5
图 2-3 恒压充电电路 ............................................................................................................6
图 2-4 浮充方式充电电路 ....................................................................................................6
图 2-5 涓流方式的简单示意图 ............................................................................................6
图 2-6 分阶段充电的简单示意图 ........................................................................................7
图 2-7 -△V 控制系统框图 ................................................................................................7
图 2-8 充电电池、电池电压和充电时间的关系 ................................................................8
图 2-9 电池温度检测简图 ....................................................................................................8
图 2-10 电池温度和充电时间的关系 ....................................................................................9
图 2-11 充电器结构框图 ......................................................................................................10
图 2-12 锂电池的充电特性 ..................................................................................................11
图 2-13 快速充电器原理框图 ..............................................................................................12
图 3-1 6N137 光耦合器 ......................................................................................................18
图 3-2 lm7805 样品.............................................................................................................18
图 3-3 LM7805 内部结构框图 ...........................................................................................19
图 3-4 LM7805 功能框图 ...................................................................................................20
图 3-5 MAX1898 的引脚....................................................................................................21
图 3-6 MAX1898 的典型充电电路....................................................................................22
图 3-7 基于 MAX1989 的智能充电器的原理图...............................................................23
图 3-8 锂离子电池充电电路 ..............................................................................................25
图 4-1(a) 等待外部信号输入..................................................................................................27
图 4-1(b) 外部中断程序..........................................................................................................27
图 4-1(c) 定时器程序..............................................................................................................28
图 4-1 智能充电器的程序流程图 ......................................................................................28
安徽工程大学毕业设计(论文)
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5
表格清单
表 1-1 铅酸、镍镉、镍氢和锂离子电池的性能比较 ........................................................2
表 4-1 P3 口.........................................................................................................................15
表 4-2 LED 指示灯状态说明 .............................................................................................22
表 5-1 变量及说明 ..............................................................................................................26
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