MSP430收集电压信号程序

//***************************************************

//功用介绍：对P6.0口电压进行收集 液晶显现

//****************************************************
#include <msp430x14x.h>
#include “BoardConfig.h”
#include “cry1602.h”

#define Num_of_Results 32

uchar shuzi[] = {“0123456789.+”};
uchar tishi[] = {“The Volt is:”};

static uint results[Num_of_Results]; //保存ADC转化成果的数组 // is not used for anything.
void Trans_val(uint Hex_Val);

void main(void)
{
WDTCTL = WDTPW+WDTHOLD; //封闭看门狗
BoardConfig(0xb8); //封闭数码管、流水灯、4245
LcdReset(); //复位1602液晶
DispNChar(2,0,12,tishi); //显现提示信息
Disp1Char(11,1,V); //显现电压单位
P6SEL |= 0x01; // 使能ADC通道
ADC12CTL0 = ADC12ON+SHT0_8+MSC; // 翻开ADC，设置采样时刻
ADC12CTL1 = SHP+CONSEQ_2; // 运用采样定时器，单路重复收集
ADC12IE = 0x01; // 使能ADC中止
ADC12CTL0 |= ENC; // 使能转化
ADC12CTL0 |= ADC12SC; // 开端转化
_EINT(); //使能中止
LPM0; //低功耗形式
}

#pragma vector=ADC_VECTOR
__interrupt void ADC12ISR (void)
{
static uint index = 0;

results[index++] = ADC12MEM0; // Move results
if(index == Num_of_Results)
{
uchar i;
unsigned long sum = 0;

index = 0;
for(i = 0; i < Num_of_Results; i++)
{
sum += results[i];
}
sum >>= 5; //除以32
sum=(sum<<4)+(sum<<2)+sum; //增大21倍原因是大电压变为小电压收集的
Trans_val(sum);
}
}

void Trans_val(uint Hex_Val)
{
unsigned long caltmp;
uint Curr_Volt;
uchar t1,i;
uchar ptr[6];

caltmp = Hex_Val;
caltmp = (caltmp << 5) + Hex_Val; //caltmp = Hex_Val * 33 扩展10倍便于核算
caltmp = (caltmp << 3) + (caltmp << 1); //caltmp = caltmp * 10 扩展10倍便于核算
Curr_Volt = caltmp >> 12; //Curr_Volt = caltmp / 2^n
ptr[0] = 11; //数字表中第11位对应符号”+”
ptr[1] = Curr_Volt / 1000; //相当于十位上的数值
ptr[2] = (Curr_Volt%1000) / 100; //相当于个位上的数值
t1 = Curr_Volt – (ptr[1] * 1000)-(ptr[2] * 100);
ptr[4] = t1 / 10; //相当于小数点后第一位
ptr[5] = t1 – (ptr[4] * 10); //相当于小数点后第二位
ptr[3] = 10; //数字表中第10位对应符号”.”
//在液晶上显现改换后的成果
for(i = 0;i < 6;i++)
Disp1Char((4 + i),1,shuzi[ptr[i]]);
}