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摘要I摘要近年来,集成电路产业的高速发展,推动了低成本、低功耗手表的发展。同时由于CMOS技术的不断进步,使表的功能日趋完善和优化。本文系统的阐述了电源电压是1.5V,而整个电路正常工作需要3V,能显示时、分、秒的三位半数字表芯片电路的设计,并且深入浅出的研究了三位半数字表芯片电路设计中的许多关键技术。首先,本文简单介绍了三位半数字表芯片电路的工作原理。然后详细阐述了倍压电路和显示模块的原理和设计过程。最后,应用Cadence模拟仿真软件Hspice,数字仿真软件NC_verilog对电路进行了仿真和优化,验证了其工作原理的正确性,并使电路功能均达到或优于要求。关键字:倍压电路,1/2偏压产生电路,显示译码器AbstractIIAbstractNowadays,withtheexplosivegrowthintheintegratecircuitindustry,lowcostandlowpowerwatcheshavebeenadvancing.Atthesametime,duetothedevelopmentoftheCMOStechnology,thefunctionsofthewatchesareonthewaytobeperfect.Inthispaper,thedesignofthe3(1/2)digitalwatchwasstudied.Itmustbeworkedundera3Vpowersourcesupply,butweonlyusesingle1.5Vbattery.Thewatchcanshowthesecond,minuteandhourthroughliquidcrystaldisplay.Inaddition,numbersoftrickytechniquesutilizedincircuitimplementationswereexplainedinasimpleway.Thispapercommenceswithabriefintroductionofthemaintheoryinthe3(1/2)digitalwatch.Then,thevoltagedoubleranddisplaymoduleweredepictedindetails.Last,itdescribesthathowweoptimizedthecircuitandvalidatedthecorrectnessofitthroughthesimulation,whichhadbeendonebyHspiceandNC_verilog.Withtheeffortwehaveafforded,theresultingcircuitmeetsthedemandofthespecification.Keywords:Voltagedoubler,1/2biascircuit,displaydecoder目录III目录第一章引言....................................................................................................................11.1数字表的历史和现状...............................................................................................11.2本文所做的工作.......................................................................................................1第二章三位半数字表芯片电路的基本工作原理........................................................32.1组成及基本工作原理概要.......................................................................................32.1.1石英晶体振荡器....................................................................................................62.1.2基准电压源............................................................................................................82.1.3按键电路和状态控制电路.....................................................错误!未定义书签。2.1.4计数器.....................................................................................错误!未定义书签。2.2结束语.....................................................................................................................10第三章倍压电路...........................................................................................................113.1电荷泵原理..............................................................................................................113.2电荷泵能量转换过程..............................................................................................113.2.1正倍压电荷泵电路..............................................................................................123.2.2电荷泵电压反转器.................................................................错误!未定义书签。3.3倍压电路的选择和实现............................................................错误!未定义书签。3.3.1负倍压电路.............................................................................错误!未定义书签。3.3.2正倍压电路.............................................................................错误!未定义书签。3.4结束语.....................................................................................................................13第四章显示模块(display).......................................................................................144.1七段字符显示器.....................................................................................................144.1.1半导体数码管......................................................................................................144.1.2液晶显示器.............................................................................错误!未定义书签。4.1.3两种七段字符显示器的比较和选择.....................................错误!未定义书签。4.2液晶显示器件驱动电压的特点................................................错误!未定义书签。4.3公共端(COM)和段电极(SEG)的选择和设计...............错误!未定义书签。4.3.1选择一个COM的情况..........................................................错误!未定义书签。目录IV4.3.2选择两个COM情况..............................................................错误!未定义书签。4.3.3选择2COM时显示模块的设计............................................错误!未定义书签。4.4结束语.....................................................................................................................14第五章结论..................................................................................................................16参考文献........................................................................................................................17致谢..............................................................................................................................18第一章引言1第一章引言当前我们正经历着一场新的技术革命,以微电子技术为核心的电子信息技术是影响最大、渗透性最强、最具有新技术革命代表性的技术。微电子技术发展如此之快,除了微电子工业本身为国民经济的巨大贡献之外,还与它极强的渗透性有关。几乎所有的传统产业只要一与微电子技术结合,用微电子芯片进行智能改造,就会使传统产业重新焕发青春。1.1数字表的历史和现状1970年,Hamilton发明了第一个数字表,它采用半导体数码管来显示时间。1972年,出现了液晶显示器,1973年Seiko把它用在表的显示上,使用LCD比使用LED省电。90年代,人们发明了太阳能数字表,利用太阳能可以节约更多的能源,使用更长的时间。1995年Timex发明了有数据传输线的手表,它能从电脑上下载数据存在手表中。我们可以清楚的看到,表的变化正是由于微电子技术的迅猛发展而带来的。1.2本文所做的工作本文的主要任务是分析和设计了一个三位半数字表的芯