MSP430F14_44键盘中断+液晶显示程序.doc

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MSP430F14 4*4键盘中断+液晶显示程序 #include "msp430x14x.h" #define RS_H P5OUT |=BIT3 //Data Register is selected #define RS_L P5OUT &=~BIT3 //Instruction Register is selected #define READ P5OUT |= BIT2 //读LCD #define WRITE P5OUT &= ~BIT2 //写LCD #define EN_H P5OUT |= BIT1 //Enable Read/Write Operation #define EN_L P5OUT &=~BIT1 //Disable Read/Write Operation unsigned char a[]="Welcome! "; //定义全局数组 unsigned char b[]="Level control!"; unsigned char c[]="Temperature!"; unsigned char d[]="Pressure!"; unsigned char e[]="Liu Liang!"; void Init_CLK(void) { unsigned int i; BCSCTL1=0x00; //将寄存器BCSCTL1的内容清零、XT2振荡器开启、LFTX1工作在低频模式 //ACLK的分频因子为1 do { IFG1&=~OFIFG; //清除OSCFault标志 for(i=0x20;i>0;i--); } while((IFG1&OFIFG)==OFIFG); BCSCTL2=0x00; //将寄存器BCSCTL2的内容清零 BCSCTL2+=SELM1;//MCLK的时钟源为XT2CLK,分频因子为1 BCSCTL2+=SELS; //SMMLK的时钟源为XT2CLK,分频因子为1 } void Init_Port() { P3SEL=0x00; //LCD所需端口设置 P3DIR=0xFF; P3OUT&=~BIT5; P5SEL=0x00; //P5输出 P5DIR=0xFF; P5OUT=0x00; P4SEL=0x00; //P4输出 P4DIR=0xFF; P4OUT=0x00; //将P1口所有的管脚在初始化的时候设置为输入方式 P1DIR = 0; //将P1口所有的管脚设置为一般I/O口 P1SEL = 0; // 将P1.4 P1.5 P1.6 P1.7设置为输出方向 P1DIR |= BIT4; P1DIR |= BIT5; P1DIR |= BIT6; P1DIR |= BIT7; //先输出低电平 P1OUT = 0x00; // 将中断寄存器清零 P1IE = 0; P1IES = 0; P1IFG = 0; //打开管脚的中断功能 //对应的管脚由高到低电平跳变使相应的标志置位 P1IE |= BIT0; P1IES|= BIT0; P1IE |= BIT1; P1IES|= BIT1; P1IE |= BIT2; P1IES|= BIT2; P1IE |= BIT3; P1IES |= BIT3; } void Delay(unsigned int i) //延时子程序 { while(i--); } void Write_Command(unsigned char command ) { P4OUT=command; RS_L; //选择程序寄存器 WRITE; //允许写操作 EN_H; //液晶使能 Delay(1000);//延时 EN_L; //液晶读写操作禁止 Delay(1000); } void Write_Data(unsigned char data ) { P4OUT=data; RS_H; //选择数据寄存器 WRITE; //允许写操作 EN_H; //液晶使能 Delay(1000); //延时 EN_L ; //液晶读写操作禁止 Delay(1000); } void Clear_Second_Line() //用于删除2*16字符液的晶第二行的函数 { int i=16; Write_Command(0xC0); //设置DDRAM的初始地址 while(i--) { P4OUT=0x20; RS_H; //选择数据寄存器 WRITE; //允许写操作 EN_H; //液晶使能 Delay(1000); //延时 EN_L ; //液晶读写操作禁止 Delay(1000); } } void Init_LCD(void) { Write_Command( 0x38 );//8位总线接口，双行显示，5*7点阵型 Delay(500); Write_Command(0x0F);//开显示，开光标，光标闪烁 Delay(500); Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0x80);//设置DDRAM的初始地址 } int KeyProcess(void) { //P5OUT&=0x00; P5OUT=0x00; Delay(30000); unsigned char nP10,nP11,nP12,nP13; nP10=0; nP11=0; nP12=0; nP13=0; int nRes = 0; //P1.7输出低电平 P1OUT = ~(BIT7); Delay(50); nP10 = P1IN & BIT0; if (nP10 == 0) { nRes = 13; P5OUT|=BIT4; } nP11 = P1IN & BIT1; if (nP11 == 0) { nRes = 14; P5OUT|=BIT4; } nP12 = P1IN & BIT2; if (nP12 == 0) { nRes = 15; P5OUT|=BIT4; } nP13 = P1IN & BIT3; if (nP13 == 0) { nRes = 16; //P5OUT=0x00; P5OUT|=BIT4; } //P1.6输出低电平 P1OUT = ~(BIT6); Delay(50); nP10 = P1IN & BIT0; if (nP10 == 0) { nRes = 9; P5OUT|=BIT5; } nP11 = P1IN & BIT1; if (nP11 == 0) { nRes = 10; P5OUT|=BIT5; } nP12 = P1IN & BIT2; if (nP12 == 0) { nRes = 11; P5OUT|=BIT5; } nP13 = P1IN & BIT3; if (nP13 == 0) { nRes = 12; //P5OUT=0x00; P5OUT|=BIT5; } //P1.5输出低电平 P1OUT = ~(BIT5); Delay(50); nP10 = P1IN & BIT0; if (nP10 == 0) { nRes = 5; P5OUT|=BIT6; } nP11 = P1IN & BIT1; if (nP11 == 0) { nRes = 6; P5OUT|=BIT6; } nP12 = P1IN & BIT2; if (nP12 == 0) { nRes = 7; P5OUT|=BIT6; } nP13 = P1IN & BIT3; if (nP13 == 0) { nRes = 8; //P5OUT=0x00; P5OUT|=BIT6; } //P1.4输出低电平 P1OUT = ~(BIT4); nP10 = P1IN & BIT0; if (nP10 == 0) { nRes = 1; P5OUT|=BIT7; } nP11 = P1IN & BIT1; if (nP11 == 0) { nRes = 2; P5OUT|=BIT7; } nP12 = P1IN & BIT2; if (nP12 == 0) { nRes = 3; P5OUT|=BIT7; } nP13 = P1IN & BIT3; if (nP13 == 0) { nRes = 4; P5OUT|=BIT7; } P1OUT = 0x00;//恢复以前值。 //读取各个管脚的状态 for(;;) { if((P1IN&0x0F)==0x0F ) { break;//等待松开按键 } } return nRes; } // 处理来自端口 1 的中断 #pragma vector=PORT1_VECTOR __interrupt void PORT1_ISR(void) { int key_value; Delay(30000); key_value=KeyProcess(); switch(key_value) { case 1: // Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Clear_Second_Line(); Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0xC0); //设置DDRAM的初始地址 Write_Data('8'); break; case 2: //Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Clear_Second_Line(); Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0xC0); //设置DDRAM的初始地址 Write_Data('4'); break; case 3: // Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Clear_Second_Line(); Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0xC0); //设置DDRAM的初始地址 Write_Data('0'); break; case 4: Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0x80);//设置DDRAM的初始地址 for(unsigned int i=0;b!='\0';i++) //在液晶第二行输出 { Write_Data(b); } break; case 5: //Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Clear_Second_Line(); Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0xC0); //设置DDRAM的初始地址 Write_Data('9'); break; case 6: //Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Clear_Second_Line(); Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0xC0); //设置DDRAM的初始地址 Write_Data('5'); break; case 7: //Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Clear_Second_Line(); Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0xC0); //设置DDRAM的初始地址 Write_Data('1'); break; case 8: Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0x80);//设置DDRAM的初始地址 for(unsigned int i=0;c!='\0';i++) //在液晶第二行输出 { Write_Data(c); } break; case 9: //Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Clear_Second_Line(); Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0xC0); //设置DDRAM的初始地址 Write_Data('.'); break; case 10: //Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Clear_Second_Line(); Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0xC0); //设置DDRAM的初始地址 Write_Data('6'); break; case 11: //Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Clear_Second_Line(); Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0xC0); //设置DDRAM的初始地址 Write_Data('2'); break; case 12: Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0x80);//设置DDRAM的初始地址 for(unsigned int i=0;d!='\0';i++) //在液晶第二行输出 { Write_Data(d); } break; case 13: //Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Clear_Second_Line(); Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0xC0); //设置DDRAM的初始地址 Write_Data('a'); break; case 14: //Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Clear_Second_Line(); Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0xC0); //设置DDRAM的初始地址 Write_Data('7'); break; case 15: //Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Clear_Second_Line(); Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0xC0); //设置DDRAM的初始地址 Write_Data('3'); break; case 16: Write_Command(0x01);//清屏，将空格字符ASCII码20H写入到所有的DDRAM单元 Delay(5000); Write_Command(0x06);//设置进入方式，DDRAM自增，整个显示右移 Delay(500); Write_Command(0x80); //设置DDRAM的初始地址 for(unsigned int i=0;e!='\0';i++) //在液晶第二行输出 { Write_Data(e); } break; } if(P1IFG & BIT0) { P1IFG &= ~(BIT0);// 清除中断标志位 } if(P1IFG & BIT1) { P1IFG &= ~(BIT1);// 清除中断标志位 } if(P1IFG & BIT2) { P1IFG &= ~(BIT2);// 清除中断标志位 } if(P1IFG & BIT3) { P1IFG &= ~(BIT3);// 清除中断标志位 } } void main() { WDTCTL=WDTPW+WDTHOLD; //禁止看门狗 Delay(50000); //延时，等待液晶电压上升，大约需要30ms _DINT(); //禁止中断，一般在设置硬件时都要禁止中断 Init_CLK(); Init_Port(); Init_LCD(); _EINT(); //打开中断 for(unsigned int i=0;a!='\0';i++) { Write_Data(a); } /* Write_Command(0xC0); //写入液晶第二行的手地址 for(unsigned int i=0;b!='\0';i++) //在液晶第二行输出 { Write_Data(b); }*/ while(1) {}; }

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