1、课程设计报告题目基于单片机数字频率计设计专业通信工程年级2012级学号B12030942学生姓名张三联系电话18X929804X6完成日期2013年11月21日1基于单片机数字频率计设计摘要本次课程设计的任务是设计一个基于单片机技术的数字频率计。在电子技术中,频率是最基本的参数之一,并且与许多电参量的测量方案、测量结果都有十分密切的关系,因此频率的测量就显得更为重要。本文从频率计的原理出发,介绍了基于单片机的频率计的设计方案,选择了实现系统的各种电路元器件,并对硬件电路进行了仿真。关键词单片机;频率计;测量ABSTRACTTHECURRICULUMDESIGNOFTHETASKISTODESI
2、GNADIGITALFREQUENCYMETERBASEDONSINGLECHIPMICROCOMPUTERTECHNOLOGYINTHEELECTRONICTECHNOLOGY,FREQUENCYISONEOFTHEMOSTBASICPARAMETERS,ANDWITHMANYELECTRICPARAMETERMEASUREMENTSCHEME,THEMEASUREDRESULTSHAVEVERYCLOSERELATIONSHIP,SOFREQUENCYMEASUREMENTISMOREIMPORTANTINTRODUCEDINTHISPAPER,STARTINGFROMTHEPRINCIP
3、LEOFFREQUENCYMETER,FREQUENCYMETERDESIGNSCHEMEBASEDONSINGLECHIPMICROCOMPUTER,CHOSETHEIMPLEMENTATIONSYSTEMOFALLKINDSOFCIRCUITCOMPONENTS,ANDTHEHARDWARECIRCUITARESIMULATEDKEYWORDSSINGLECHIPMICROCOMPUTERFREQUENCYMETERMEASUREMENT2目录摘要1ABSTRACT11设计要求及方案选择311设计要求312方案选择32理论分析与设计321信号整形电路的分析及设计322单片机电路的分析及设计
4、53电路设计731硬件电路的设计732软件的设计84系统测试2841调试所用的基本仪器清单2842调试结果2843测试结果分析285总结28参考文献2831设计要求及方案选择11设计要求数字频率计是计算机、通讯设备、音频视频等科研生产领域不可缺少的测量仪器。它是一种用十进制数字显示被测信号频率的数字测量仪器。基本要求(1)能测量10HZ500KHZ的方波。(2)利用数码管或者液晶显示器显示频率。(3)设计电路(4)在KEIL中编辑、编译、调试程序,并在PROTUSE中仿真。12方案选择图1利用单片机实现数字频率计原理框图本方案主要以单片机为核心,利用单片机的计数定时功能来实现频率的计数并且利用
5、单片机的动态扫描法把测出的数据送到数字显示电路显示。2理论分析与设计21信号整形电路的分析及设计运放部分同相比例放大器的倍数为UO1RF/RUI,而放大倍数为1RF/R。因此,适当选择RF和R的值,可使小的输入信号达到可测试范围内的信号大小,然后就可以对它进行测试了。选择器件LM358。LM358内部包括有两个独立的、高增益、内部频率补偿的双运算放大器,适合于电源电压范围很宽的单电源使用,也适用于双电源工作模式,在推荐的工作条件下,电源电流与电源电压无关。它的使用范围包括传感放大器、直流增益模块和其他所有可用单电源供电的使用运算放大器的场合。LM358的封装形式塑封8引线双列直插式,信号放大电
6、路信号整形单片机AT89C51电路数字显示电路4如图2所示。特性FEATURES内部频率补偿直流电压增益高约100DB单位增益频带宽约1MHZ电源电压范围宽单电源330V;双电源15一15V低功耗电流,适合于电池供电图2塑封8引线双列直插式过零比较部分过零比较器,顾名思义,其阈值电压UT0V。电路如图A所示,集成运放工作在开环状态,其输出电压为UOM或UOM。当输入电压UI0V时,UOUOM。因此,电压传输特性如图B所示,我们使用LM324构建过零比较器,如图3所示,来整波。图3过零比较器选择器件LF353,封装如图4所示5图4LF353各引脚功能稳压部分经过运放部分处理的信号电压值可能过大,
7、直接输入到单片机中可能会烧毁电路,因此需要对信号进行稳定其电压值。选择器件74LS04,封装如图5所示。电源电压5V图574LS0422单片机电路的分析及设计单片机控制电路单片机控制电路由AT89C51单片机、晶振时序电路、复位电路构成。单片机AT89C51AT89C51如图6所示,是一种带4K字节闪烁可编程可擦除只读存储器的低电压,高性能CMOS8位微处理器,俗称单片机。该器件采用ATMEL高密度非易失存储器制造技术制造。由于将多功能8位CPU和闪烁存储器组合在6单个芯片中,ATMEL的AT89C51是一种高效微控制器,为很多嵌入式控制系统提供了一种灵活性高且价廉的方案。图6AT89C51单
8、片机晶振时序电路XTAL1和XTAL2分别为反向放大器的输入和输出。该反向放大器可以配置为片内振荡器。石晶振荡和陶瓷振荡均可采用。如采用外部时钟源驱动器件,XTAL2应不接。有余输入至内部时钟信号要通过一个二分频触发器,因此对外部时钟信号的脉宽无任何要求,但必须保证脉冲的高低电平要求的宽度。晶振电路原理图如图7所示。图7晶振电路原理图复位电路常见的复位电路有两种上电复位电路和开关复位电路,可根据电路的需要7选择复位电路。复位电路如图8所示。图8复位电路原理图3电路设计31硬件电路的设计图9电路仿真图832软件的设计ORG0000HAJMPMAINORG000BHLJMPSEVER1ORG003
9、0HMAINA8279_1EQU0FF82HA8279_2EQU0FF80HMOVDPTR,A8279_18279初始化MOVA,0D1HMOVXDPTR,AWAIT1MOVXA,DPTRJBACC7,WAIT1MOVA,00HMOVXDPTR,AMOVA,2CHMOVXDPTR,ACLR00HCLR01HCLR02HCLR03HCLR04HCLR05HCLR06HCLR07HCLR08HCLR09HSTARTMOVDPTR,A8279_1MOVXA,DPTRANLA,07HJZRETUNACALLKEYJBC00H,MAINJBC01H,START1JBC02H,START2JBC03H,S
10、TART3JBC04H,START4RETUNAJMPSTART9START1MOVP1,0EFHLCALLSEACH1JBC00H,MAINJBC06H,PINYU61JBC07H,PINYU71JBC08H,PINYU81JBC09H,PINYU91AJMPSTART1PINYU61LJMPPINYU6PINYU71LJMPPINYU7PINYU81LJMPPINYU8PINYU91LJMPPINYU9START2MOVP1,2FHLCALLSEACH1JBC00H,MAINJBC06H,ZHOUQI11JBC07H,ZHOUQI21JBC08H,ZHOUQI31JBC09H,RETUN4
11、RETUN4AJMPSTART2ZHOUQI11AJMPZHOUQI1ZHOUQI21AJMPZHOUQI2ZHOUQI31AJMPZHOUQI3START3LCALLSEACH1JBC00H,RETUN16LCALLCEMKAJMPSTART3RETUN16LJMPMAINSTART4LCALLSEACH1JBC00H,RETUN15LCALLCEZHANKBAJMPSTART4RETUN15LJMPMAINPINYU6LCALLSEACH1JBC00H,RETUN11MOVP1,1EHLCALLZHQILCALLPINYU1LCALLTRANSLCALLLEDAJMPPINYU6RETUN
12、11AJMPMAIN10PINYU7LCALLSEACH1JBC00H,RETUN12MOVP1,1DHLCALLCZSLCALLPINYU2LCALLTRANSLCALLLEDAJMPPINYU7RETUN12AJMPMAINPINYU8LCALLSEACH1JBC00H,RETUN13MOVP1,1BHLCALLCZSMOV35H,08HLCALLPINYULCALLTRANSLCALLLEDAJMPPINYU8RETUN13AJMPMAINPINYU9LCALLSEACH1JBC00H,RETUN14MOVP1,17HLCALLCZSMOV35H,32LCALLPINYULCALLTRA
13、NSLCALLLEDAJMPPINYU9RETUN14LJMPMAINZHOUQI1MOVP1,2EHLCALLZHQILCALLMUL4LCALLADD1MOV60H,R2MOV61H,R3MOV62H,R4MOV63H,R5LCALLTRANSLCALLLEDAJMPZHOUQI1ZHOUQI2MOVP1,2DHLCALLSEACH1JBC00H,RETUN911LCALLZHOUQI2_2MOV36H,R3MOV37H,R4MOV38H,R5LCALLHB4转换后的三字节码整数在R2,R3、R4、R5中。MOV60H,R2MOV61H,R3MOV62H,R4MOV63H,R5LCALLT
14、RANSLCALLLEDAJMPZHOUQI2RETUN9LJMPMAINZHOUQI3MOVP1,2BHLCALLSEACH1JBC00H,RETUN10LCALLZHOUQI2_2MOV36H,R3MOV37H,R4MOV38H,R5MOVR0,36HMOVR7,08H分频系数LCALLMULD3_1MOV60H,R2MOV61H,R3MOV62H,R4MOV63H,R5LCALLTRANSLCALLLEDAJMPZHOUQI3RETUN10AJMPMAINZHOUQI2_2LCALLCZSMOVA,76HCJNEA,00H,NEXT12AJMPNEXT13LCALLMUL4LCALLAD
15、D1MOV60H,R2MOV61H,R3MOV62H,R4MOV63H,R5CJNER3,00H,NEXT1412MOV76H,01HMOV69H,76HAJMPNEXT15NEXT14JCNEXT15MOV76H,08HMOV69H,76HMOVR7,08HLCALLDV31双字节商在R4、R5中MOV62H,R4MOV63H,R5NEXT15MOVA,R4MOVR6,AMOVA,R5MOVR7,AMOVR2,00HMOVR3,0FHMOVR4,42HMOVR5,40HLCALLDIVD双字节商在R2、R3中,OV1时溢出MOV62H,R2MOV63H,R3MOVR6,00HMOVR7,76
16、HJNBOV,NEXT16MOVR6,62HMOVR7,63HMOVR2,00H存入10000MOVR3,00HMOVR4,27HMOVR5,10HLCALLDIVD双字节商在R2、R3中,OV1时溢出NEXT16MOVA,69HCJNEA,01H,NEXT32AJMPNEXT33NEXT32MOVR6,00HMOVR7,69HLCALLDIVDNEXT33MOVR7,64HMOVR6,00H13LCALLMULD乘积在R2、R3、R4、R5中。RETCEMKMOVP1,4DHLCALLMAIKUANLCALLHB4转换后的三字节码整数在R2,R3、R4、R5中。MOV60H,R2MOV61H
17、,R3MOV62H,R4MOV63H,R5LCALLTRANSLCALLLEDRETCEZHANKBMOVP1,8DHLCALLZHQILCALLMUL4LCALLADD1结果在R2R3R4R5中MOV70H,R2MOV71H,R3MOV72H,R4MOV73H,R5LCALLMAIKUAN结果在36,37,38H中MOVR6,37HMOVR7,38HMOVR2,03HMOVR3,0E8HLCALLMULD乘积在R2、R3、R4、R5中。MOVR6,72HMOVR7,73HLCALLDIVD双字节商在R2、R3中,OV1时溢出。MOVR2,72HMOVR3,73HMOVR6,72HMOVR7,
18、73HLCALLHB2转换后的三字节码整数在R3、R4、R5中。MOV60H,00HMOV61H,R3MOV62H,R4MOV63H,R514LCALLTRANSLCALLLEDRETKEYMOVDPTR,A8279_1MOVA,40HMOVXDPTR,AMOVDPTR,A8279_2MOVXA,DPTRANLA,3FHCJNEA,00H,KEY1SETB00HLJMPRETUN1KEY1CJNEA,01H,KEY2SETB01HLJMPRETUN1KEY2CJNEA,02H,KEY3SETB02HAJMPRETUN1KEY3CJNEA,03H,KEY4SETB03HLJMPRETUN1KEY
19、4CJNEA,04H,KEY5SETB04HLJMPRETUN1KEY5CJNEA,05H,RETUN1SETB05HRETUN1RETKEY_1MOVDPTR,A8279_1MOVA,40HMOVXDPTR,AMOVDPTR,A8279_2MOVXA,DPTRANLA,3FHCJNEA,00H,KEY_11SETB00HLJMPRETUN2KEY_11CJNEA,06H,KEY_12SETB06HLJMPRETUN215KEY_12CJNEA,07H,KEY_13SETB07HAJMPRETUN2KEY_13CJNEA,08H,KEY_14SETB08HLJMPRETUN2KEY_14CJN
20、EA,09H,RETUN2SETB09HRETUN2RETZHQI01HZ_1KHZ测量,测周期16进制MOVTMOD,01HMOVTL0,00HMOVTH0,00HSETBEASETBET0MOV76H,00HSETBP35GDP1MOVC,P35JCGDP1DDP1MOVC,P35JNCDDP1SETBTR0GDP2MOVC,P35JCGDP2DDP2MOVC,P35JNCDDP2CLRTR0CLRTR1MOVA,TH0MOVTH1,AMOVA,TL0MOVTL1,ARETPINYU101HZ_1KHZ测量;结果在让,R4,R5中16进制LCALLMUL4LCALLADD1MOV30H,0
21、0H16MOV31H,00HMOV32H,0FFHMOV33H,0FFHLCALLBIJIAOJB20H,BIJIAO2MOV34H,R4MOV35H,R5MOVR6,34HMOVR7,35HMOVR2,00HMOVR3,0FHMOVR4,42HMOVR5,40HLCALLDIVDOV0时,双字节商在R2、R3中,OV1时溢出。MOVA,R2MOVR6,AMOVA,R3MOVR7,AAJMPNEXT30BIJIAO2MOV30H,00HMOV31H,0FHMOV32H,42HMOV33H,40HLCALLBIJIAOJB20H,BIJIAO3MOVR7,100LCALLDV31OV0时,双字节
22、商在R4、R5中,OV1时溢出。MOV34H,R4MOV35H,R5MOVR6,34HMOVR7,35HMOVR2,00HMOVR3,0FHMOVR4,42HMOVR5,40HLCALLDIVDOV0时,双字节商在R2、R3中,OV1时溢出。MOV34H,R2MOV35H,R3MOVR6,34HMOVR7,35HMOVR3,00HMOVR4,34H17MOVR5,35HMOVR7,100LCALLDV31OV0时,双字节商在R4、R5中,OV1时溢出。MOV34H,R4MOV35H,R5MOVR6,34HMOVR7,35HAJMPNEXT30BIJIAO3MOVR7,0E8HMOVR6,03H
23、LCALLDIVDOV0时,双字节商在R2、R3中,OV1时溢出。MOV34H,R2MOV35H,R3MOVR6,34HMOVR7,35HMOVR2,00HMOVR3,98HMOVR4,96HMOVR5,80HLCALLDIVDOV0时,双字节商在R2、R3中,OV1时溢出。MOV34H,R2MOV35H,R3MOVR6,34HMOVR7,35HMOVR2,00HMOVR3,00HMOVR4,34HMOVR5,35HMOVR7,0E8HMOVR6,03HLCALLDIVDOV0时,双字节商在R2、R3中,OV1时溢出。MOV34H,R2MOV35H,R3MOVR6,34HMOVR7,35HNE
24、XT30LCALLHB2MOV60H,00HMOV61H,R3MOV62H,R418MOV63H,R5CLRET0RETSEVER1INC76HRETICZS测1秒钟的周期数MOVTMOD,51HMOVTL0,00HMOVTH0,4CHMOV76H,00HMOVR7,14HMOVTL1,00HMOVTH1,00HSETBTR1SETBTR0HEREJBCTF0,NEXT1JBCTF1,NEXT20SJMPHERENEXT20INC76HAJMPHERENEXT1MOVTL0,00HMOVTH0,4CHDJNZR7,HERECLRTR0CLRTR1RETPINYU2测频率1K_05MHZMOVA
25、,76HCJNEA,00H,NEXT2MOV65H,00HMOV66H,00HMOV67H,00HAJMPNEXT3NEXT2MOVR6,76HMOVR0,65HMOVR7,03HMOVR1,50H19MOV65H,00HMOV66H,00HMOV67H,00HNEXT4MOV50H,06HMOV51H,55HMOV52H,36HLCALLBCDADJNZR6,NEXT4NEXT3MOVR6,TH1MOVR7,TL1LCALLHB2MOVR7,03HMOV50H,R3MOV51H,R4MOV52H,R5MOVR0,65HMOVR1,50HLCALLBCDAMOV60H,00H结果在65,66,
26、67H中BCD码MOV61H,65HMOV62H,66HMOV63H,67HRETPINYUMOV30H,TH0MOV31H,TL0MOVA,76HCJNEA,00H,NEXT5AJMPNEXT6CLRTF0LCALLMUL4LCALLADD1MOV65H,R2MOV66H,R3MOV67H,R4MOV68H,R5MOVR0,66HMOVR7,35H乘以分频系数LCALLMULD3_1MOV36H,R3MOV37H,R420MOV38H,R5LCALLHB4转换后的三字节码整数在R2,R3、R4、R5中。MOV60H,R2MOV61H,R3MOV62H,R4MOV63H,R5RETMAIKUA
27、N测量,测脉宽MOVTMOD,01HMOVTL0,00HMOVTH0,00HSETBEASETBET0MOV76H,00HSETBP35GDP5MOVC,P35JCGDP5DDP5MOVC,P35JNCDDP5SETBTR0GDP6MOVC,P35JCGDP6CLRTR0MOVA,BCJNEA,00H,NEXT6AJMPNEXT7MOVA,TH0MOVTH1,AMOVA,TL0MOVTL1,ACLRET0LCALLMUL4LCALLADD1MOV36H,R3MOV37H,R4MOV38H,R5RETMUL4MOVR2,0FFHMOVR3,0FFHMOVR6,00H21MOVR7,76HLCAL
28、LMULDMOVA,76HADDA,R5MOVR5,AMOVA,00HADDCA,R4MOVR4,AMOVA,00HADDCA,R3MOVR3,AMOVA,00HADDCA,R2结果在R2R3R4R5中RETADD1MOVA,TL1ADDA,R5MOVR5,AMOVA,TH1ADDCA,R4MOVR4,AMOVA,00HADDCA,R3MOVR3,AMOVA,00HADDCA,R2MOVR2,A结果在R2R3R4R5中RETBIJIAOMOVA,R2比较30H,31H,32H,33H与R2,R3,R4,R5中数据的大小,大,20H0,CJNEA,30H,TENDMOVA,R3CJNEA,31H
29、,TENDMOVA,R4CJNEA,32H,TENDMOVA,R5CJNEA,33H,TENDTENDJCBJ1SETB20HAJMPTEND2BJ1CLR20HTEND2RET22MULDMOVA,R3;计算R3乘R7MOVB,R7MULABMOVR4,B;暂存部分积MOVR5,AMOVA,R3;计算R3乘R6MOVB,R6MULABADDA,R4;累加部分积MOVR4,ACLRAADDCA,BMOVR3,AMOVA,R2;计算R2乘R7MOVB,R7MULABADDA,R4;累加部分积MOVR4,AMOVA,R3ADDCA,BMOVR3,ACLRARLCAXCHA,R2;计算R2乘R6MO
30、VB,R6MULABADDA,R3;累加部分积MOVR3,AMOVA,R2ADDCA,BMOVR2,ARETDV31CLRCMOVA,R3SUBBA,R7JCDV30SETBOV;商溢出RETDV30MOVR2,10H;求R3R4R5R7R4R5DM23CLRCMOVA,R5RLCA23MOVR5,AMOVA,R4RLCAMOVR4,AMOVA,R3RLCAMOVR3,AMOVF0,CCLRCSUBBA,R7ANLC,/F0JCDM24MOVR3,AINCR5DM24DJNZR2,DM23MOVA,R3;四舍五入ADDA,R3JCDM25SUBBA,R7JCDM26DM25INCR5MOVA,
31、R5JNZDM26INCR4DM26CLROVRET;商在R4R5中DIVDCLRC;比较被除数和除数MOVA,R3SUBBA,R7MOVA,R2SUBBA,R6JCDVD1SETBOV;溢出RETDVD1MOVB,10H;计算双字节商DVD2CLRC;部分商和余数同时左移一位MOVA,R5RLCAMOVR5,AMOVA,R4RLCAMOVR4,A24MOVA,R3RLCAMOVR3,AXCHA,R2RLCAXCHA,R2MOVF0,C;保存溢出位CLRCSUBBA,R7;计算(R2R3R6R7)MOVR1,AMOVA,R2SUBBA,R6ANLC,/F0;结果判断JCDVD3MOVR2,A;
32、够减,存放新的余数MOVA,R1MOVR3,AINCR5;商的低位置一DVD3DJNZB,DVD2;计算完十六位商(R4R5)MOVA,R4;将商移到R2R3中MOVR2,AMOVA,R5MOVR3,ACLROV;设立成功标志RETHB2CLRA;码初始化MOVR3,AMOVR4,AMOVR5,AMOVR2,10H;转换双字节十六进制整数HB3MOVA,R7;从高端移出待转换数的一位到CY中RLCAMOVR7,AMOVA,R6RLCAMOVR6,AMOVA,R5;码带进位自身相加,相当于乘ADDCA,R5DAA;十进制调整MOVR5,AMOVA,R4ADDCA,R425DAAMOVR4,AMO
33、VA,R3ADDCA,R3MOVR3,A;双字节十六进制数的万位数不超过,不用调整DJNZR2,HB3;处理完RET;()标号功能多字节码加法;入口条件字节数在R7中,被加数在R0中,加数在R1中。;出口信息和在R0中,最高位进位在CY中。;影响资源PSW、A、R2堆栈需求字节BCDAMOVA,R7;取字节数至R2中MOVR2,AADDA,R0;初始化数据指针MOVR0,AMOVA,R2ADDA,R1MOVR1,ACLRCBCD1DECR0;调整数据指针DECR1MOVA,R0ADDCA,R1;按字节相加DAA;十进制调整MOVR0,A;和存回R0中DJNZR2,BCD1;处理完所有字节RET
34、MULD3_1INCR0INCR0MOVA,R7;计算乘MOVB,R0MULABMOVR4,B;暂存部分积MOVR5,AMOVA,R7;计算乘DECR0MOVB,R0MULABADDA,R4;累加部分积MOVR4,A26CLRAADDCA,BMOVR3,AMOVA,R7;计算乘DECR0MOVB,R0MULABADDA,R3;累加部分积MOVR3,ACLRAADDCA,BMOVR2,ARETHB4CLRA;码初始化MOVR3,AMOVR4,AMOVR5,AMOVR2,AMOVR7,18H;转换3字节十六进制整数HB5MOVA,38H;从高端移出待转换数的一位到CY中RLCAMOV38H,AMO
35、VA,37HRLCAMOV37H,AMOVA,36H;从高端移出待转换数的一位到CY中RLCAMOV36H,AMOVA,R5;码带进位自身相加,相当于乘ADDCA,R5DAA;十进制调整MOVR5,AMOVA,R4ADDCA,R4DAAMOVR4,AMOVA,R3ADDCA,R3DAAMOVR3,AMOVA,R2ADDCA,R227DAAMOVR2,A;双字节十六进制数的万位数不超过,不用调整DJNZR7,HB5;处理完RETTRANSMOVR0,63HMOVR1,40HMOVR6,04HLASTMOVA,R0ANLA,0FHMOVR1,AMOVA,R0ANLA,0F0HSWAPAINCR1M
36、OVR1,AINCR1DECR0DJNZR6,LASTRETSEACH1MOVDPTR,A8279_1MOVXA,DPTRANLA,07HJZRETUN8LJMPKEY_1RETUN8RETLEDMOVDPTR,A8279_1MOVA,90HMOVXDPTR,AMOVR1,40HMOVR7,08HMOVDPTR,A8279_2LOOPMOVA,R1ADDA,05HMOVCA,APCMOVXDPTR,AINCR1DJNZR7,LOOPRETDB3FH,06H,5BH,4FH,66H,6DHDB7DH,07H,7FH,6FHEND284系统测试41调试所用的基本仪器清单PC机一台、KEIL4软件、
37、PROTUSE仿真软件42调试结果基本实现了设计要求,但长时间工作有误差,稳定性有待提高。43测试结果分析数字频率计是计算机、通讯设备、音频视频等科研生产领域不可缺少的测量仪器。在本次实现中,经过测试,系统能测量10HZ500KHZ的方波。5总结数字频率计是计算机、通讯设备、音频视频等科研生产领域不可缺少的测量仪器,由于其使用十进制数显示,测量迅速,精确度高,显示直观,会被经常使用到。通过本次课程的设计,不但加深我对在课程上所学到的单片机理论知识的认识和理解,而且通过知识与应用于实践的结合更加丰富了自己的知识,自身的综合素质有了全面的提高。在本次课程设计过程中,得到了老师和同学们的帮助,在此我表示衷心的感谢。参考文献1冯育长等单片机系统设计及实例分析西安西安电子科技大学出版社,200752陈忠孝单片机原理及应用西北大学出版社,2011113阎石数字电子技术基础M高等教育出版社,20064康华光主编电子技术基础第四版北京高等教育出版社,19995陈海宴51单片机原理及应用M北京航空航天大学出版社,2010
