我们的课设要求是设计一个能产生方波、正弦波、三角波、锯齿波四种波形,且频率、幅度均可调的函数信号发生器。
我们已经设计好了电路图,也参考了网上的一些程序,但是自己又不会改。求助大神,68个黑币是我的全部了。
我们使用AT89C52,DAC0832和LCD1602
希望大神在我们已有的电路图和程序的基础上帮我们编一下程
PS:以下程序可以实现产生三种波形和调频的功能,还差产生锯齿波、波形调幅和使用矩阵键盘这几个功能。
附录 程序清单(我们在网上找的程序,可供大神参考) #include<reg52.h> #define uchar unsigned char #define uint unsigned int #define DAdata P0 //DA数据端口 sbit DA_S1= P2^0; // 控制DAC0832的8位输入寄存器,仅当都为0时,可以输出数据(处于直通状态),否则,输出将被锁存 sbit DA_S2= P2^1; // 控制DAC0832的8位DAC寄存器,仅当都为0时,可以输出数据(处于直通状态),否则,输出将被锁存 sbit key= P3^2; uchar wavecount; //'抽点'计数 uchar THtemp,TLtemp;//传递频率的中间变量 uchar judge=1; //在方波输出函数中用于简单判别作用 uchar waveform; //当其为0、1、2时,分别代表三种波 uchar code freq_unit[3]={10,50,200}; //三种波的频率单位 uchar idata wavefreq[3]={1,1,1}; //给每种波定义一个数组单元,用于存放单位频率的个数 uchar code lcd_hang1[]={"Sine Wave " "Triangle Wave " "Square Wave " "Select Wave: " "press No.1 key! "}; uchar idata lcd_hang2[16]={"f= Hz "}; uchar code waveTH[]={ 0xfd,0xfe,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff, 0xfd,0xfe,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff, 0xec,0xf6,0xf9,0xfb,0xfc,0xfc,0xfd,0xfd,0xfd,0xfe}; uchar code waveTL[]={ 0x06,0x8a,0x10,0x4e,0x78,0x93,0xa8,0xb3,0xbe,0xc6, //正弦波频率调整中间值 0xac,0xde,0x48,0x7a,0x99,0xaf,0xbb,0xc8,0xd0,0xde, //三角波频率调整中间值 0x88,0x50,0x90,0x32,0x34,0xbe,0x4a,0xa3,0xe5,0x2c}; /*************************************************************************************************/ uchar code triangle_tab[]={ //每隔数字8,采取一次 0x00,0x08,0x10,0x18,0x20,0x28,0x30,0x38,0x40,0x48,0x50,0x58,0x60,0x68,0x70,0x78, 0x80,0x88,0x90,0x98,0xa0,0xa8,0xb0,0xb8,0xc0,0xc8,0xd0,0xd8,0xe0,0xe8,0xf0,0xf8,0xff, 0xf8,0xf0,0xe8,0xe0,0xd8,0xd0,0xc8,0xc0,0xb8,0xb0,0xa8,0xa0,0x98,0x90,0x88,0x80, 0x78,0x70,0x68,0x60,0x58,0x50,0x48,0x40,0x38,0x30,0x28,0x20,0x18,0x10,0x08,0x00}; uchar code sine_tab[256]={ //输出电压从0到最大值(正弦波1/4部分) 0x80,0x83,0x86,0x89,0x8d,0x90,0x93,0x96,0x99,0x9c,0x9f,0xa2,0xa5,0xa8,0xab,0xae,0xb1,0xb4,0xb7,0xba,0xbc, 0xbf,0xc2,0xc5,0xc7,0xca,0xcc,0xcf,0xd1,0xd4,0xd6,0xd8,0xda,0xdd,0xdf,0xe1,0xe3,0xe5,0xe7,0xe9,0xea,0xec, 0xee,0xef,0xf1,0xf2,0xf4,0xf5,0xf6,0xf7,0xf8,0xf9,0xfa,0xfb,0xfc,0xfd,0xfd,0xfe,0xff,0xff,0xff,0xff,0xff,0xff, //输出电压从最大值到0(正弦波1/4部分) 0xff,0xff,0xff,0xff,0xff,0xff,0xfe,0xfd,0xfd,0xfc,0xfb,0xfa,0xf9,0xf8,0xf7,0xf6,0xf5,0xf4,0xf2,0xf1,0xef, 0xee,0xec,0xea,0xe9,0xe7,0xe5,0xe3,0xe1,0xde,0xdd,0xda,0xd8,0xd6,0xd4,0xd1,0xcf,0xcc,0xca,0xc7,0xc5,0xc2, 0xbf,0xbc,0xba,0xb7,0xb4,0xb1,0xae,0xab,0xa8,0xa5,0xa2,0x9f,0x9c,0x99 ,0x96,0x93,0x90,0x8d,0x89,0x86,0x83,0x80, //输出电压从0到最小值(正弦波1/4部分) 0x80,0x7c,0x79,0x76,0x72,0x6f,0x6c,0x69,0x66,0x63,0x60,0x5d,0x5a,0x57,0x55,0x51,0x4e,0x4c,0x48,0x45,0x43, 0x40,0x3d,0x3a,0x38,0x35,0x33,0x30,0x2e,0x2b,0x29,0x27,0x25,0x22,0x20,0x1e,0x1c,0x1a,0x18,0x16 ,0x15,0x13, 0x11,0x10,0x0e,0x0d,0x0b,0x0a,0x09,0x08,0x07,0x06,0x05,0x04,0x03,0x02,0x02,0x01,0x00,0x00,0x00,0x00,0x00,0x00, //输出电压从最小值到0(正弦波1/4部分) 0x00,0x00,0x00,0x00,0x00,0x00,0x01,0x02 ,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x09,0x0a,0x0b,0x0d,0x0e,0x10, 0x11,0x13,0x15 ,0x16,0x18,0x1a,0x1c,0x1e,0x20,0x22,0x25,0x27,0x29,0x2b,0x2e,0x30,0x33,0x35,0x38,0x3a,0x3d, 0x40,0x43,0x45,0x48,0x4c,0x4e,0x51,0x55,0x57,0x5a,0x5d,0x60,0x63,0x66 ,0x69,0x6c,0x6f,0x72,0x76,0x79,0x7c,0x80}; void delay(uchar z) { uint x,y; for(x=z;x>0;x--) for(y=110;y>0;y--); } void triangle_out() //三角波输出 { DAdata=triangle_tab[wavecount++]; if(wavecount>64) wavecount=0; DA_S1=0; //打开8位输入寄存器 DA_S1=1; //关闭8位输入寄存器 } void sine_out() //正弦波输出 { DAdata=sine_tab[wavecount++]; DA_S1=0; //打开8位输入寄存器 DA_S1=1; //关闭8位输入寄存器 } void square_out() //方波输出 { judge=~judge; if(judge==1) DAdata=0xff; else DAdata=0x00; DA_S1=0; //打开8位输入寄存器 DA_S1=1; //关闭8位输入寄存器 } /************1602液晶的相关函数*************/ #define lcd_ports P1 sbit rs=P2^2; sbit rw=P2^3; sbit lcden=P2^4; void write_com(uchar com) { rs=0; //置零,表示写指令 lcden=0; lcd_ports=com; delay(5); lcden=1; delay(5); lcden=0; } void write_date(uchar date) { rs=1; //置1,表示写数据(在指令所指的地方写数据) lcden=0; lcd_ports=date; delay(5); lcden=1; delay(5); lcden=0; } void disp_lcd(uchar addr,uchar *temp1) { uchar num; write_com(addr); delay(1); //延时一会儿??? for(num=0;num<16;num++) { write_date(temp1[num]);//或者这样写write_date(*(temp1+num)); delay(1); } } void init_lcd() { //uchar num; lcden=0; //可有可无??? rw=0; //初始化一定要设置为零,表示写数据 write_com(0x38); //使液晶显示点阵,为下面做准备 write_com(0x0c); //初始设置 write_com(0x06); //初始设置 write_com(0x01); //清零 write_com(0x80); //使指针指向第一行第一格 disp_lcd(0x80,&lcd_hang1[3*16]); //在第一行显示 disp_lcd(0xc0,&lcd_hang1[4*16]); //在第二行显示 } /********************1602液晶函数声明结束*********************/ void main() { uchar i=0; DA_S2=0; //使DAC寄存器处于直通状态 DAdata=0; DA_S1=1; //关闭8位输入寄存器 init_lcd(); waveform=0; TMOD=0x01; //设置定时器0为16位工作方式 IT0=1; //设置外部中断0为下降沿触发 ET0=1; //开定时器中断 EX0=1; EA=1; while(1) { //DAout(0xff); //可输出TTL波形 //DAout(0x80); //T_temp=32; } } void timer0() interrupt 1 { TH0=THtemp; TL0=TLtemp; if(waveform==0) sine_out(); else if(waveform==1) triangle_out(); else if(waveform==2) square_out(); } void key_int0() interrupt 0 { uchar keytemp; uint total_freq; //总频率 EA=0; TR0=0; //关总中断与定时器 delay(5); //延时够吗??? if(key==0) //确实有按键按下而引发中断 { keytemp=P3&0xf0; //获取P3口高四位的值 switch(keytemp) { case 0xe0: //选择波形 waveform++; if(waveform>2) waveform=0; break; case 0xd0: //频率按规定单位依次增加 wavefreq[waveform]++; if(wavefreq[waveform]>10) wavefreq[waveform]=1; // /*这边要用“>10”,因为它比“=11”可靠 break; // 性更高,使加数有个上限,不会一直加下去*/ case 0xb0: //频率按规定单位依次衰减 wavefreq[waveform]--; if(wavefreq[waveform]<1) wavefreq[waveform]=10; //这边要用“<1”,因为它比“=0”可靠性更高 break; case 0x70: //TTL输出 DA_S2=1; //使DAC寄存器关闭 break; } THtemp=waveTH[waveform*10+(wavefreq[waveform]-1)]; //方括号中选取第几个数后,并把该值赋给T_temp TLtemp=waveTL[waveform*10+(wavefreq[waveform]-1)]; total_freq= wavefreq[waveform] * freq_unit[waveform]; //求输出频率(个数*单位) lcd_hang2[5]=total_freq%10+0x30; //在液晶中显示个位,(0x30 在液晶显示中表示数字0) total_freq/=10; lcd_hang2[4]=total_freq%10+0x30; //在液晶中显示时十位 total_freq/=10; lcd_hang2[3]=total_freq%10+0x30; //在液晶中显示时百位 total_freq/=10; lcd_hang2[2]=total_freq%10+0x30; //在液晶中显示时千位 disp_lcd(0x80,&lcd_hang1[waveform*16]); //在第一行显示 disp_lcd(0xc0,lcd_hang2); //在第二行显示 } wavecount=0; //'抽点'计数清零 while(!key); EA=1; TR0=1; //开启总中断与定时器 }
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