标题:
我的光传感器数码管显示程序哪里出错了,请教各路大神帮忙看一下
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作者:
纯小凉
时间:
2018-1-15 20:30
标题:
我的光传感器数码管显示程序哪里出错了,请教各路大神帮忙看一下
我在做光传感器的一个实验,然后需要把计算的节拍显示在数码管上,但是现在数据能上去,但是数码管显示的总是断断续续的,不能正常显示,数字除了7都不能完整的显示,我才入门,找了很久也没有找到问题所在,请各路大神帮我审审看。
#include <STC12C5A60S2.h>
#include "stdio.h"
#include "intrins.h"
#define false 0
#define true 1
#define FOSC 11059200L //系统时钟
#define BAUD 115200 //波特率
#define T0MS (65536-FOSC/12/500) //500HZ in 12T MODE
#define ADC_POWER 0x80 //ADC POWER CONTROL BIT
#define ADC_FLAG 0x10 //ADC COMPLETE FLAG
#define ADC_START 0x08; //ADC START CONTROL BIT
#define ADC_SPEEDLL 0x00 //540 CLOCKS
#define ADC_SPEEDL 0x20 //360 CLOCKS
#define ADC_SPEEDH 0x40 //180 CLOCKS
#define ADC_SPEEDHH 0x60 //90 CLOCKS
#define ADC_MASK 0x01
//数码管段码显示:0~f,不亮
unsigned char code LED_Disp[] = {0x3f,0x06,0x5b,0x4f,
0x66,0x6d,0x7d,0x07,
0x7f,0x6f,0x77,0x7c,
0x39,0x5e,0x79,0x71
};
sbit dula=P2^6;
sbit wela=P2^7;
unsigned char DisBuff[3];
void UART_init(void);
void LED_Disp_Seg7(void);
void ADC_init(unsigned char channel);
void T0_init(void);
void sendDataToProcessing(char symbol, int dat);
void delay(unsigned int n);
void UART_send(char dat);
unsigned char PulsePin = 0; // Pulse Sensor purple wire connected to analog pin 0(P1.0为AD口)
sbit blinkPin = P2^0; // pin to blink led at each beat
sbit fadePin = P2^3; // pin to do fancy classy fading blink at each beat
sbit led1 = P2^1;
sbit led2 = P2^2;
int fadeRate = 0; // used to fade LED on with PWM on fadePin
// these variables are volatile because they are used during the interrupt service routine!
volatile unsigned int BPM; // used to hold the pulse rate
volatile unsigned int Signal; // holds the incoming raw data
volatile unsigned int IBI = 600; // holds the time between beats, must be seeded!
volatile bit Pulse = false; // true when pulse wave is high, false when it's low
volatile bit QS = false; // becomes true when Arduoino finds a beat.
volatile int rate[10]; // array to hold last ten IBI values
volatile unsigned long sampleCounter = 0; // used to determine pulse timing
volatile unsigned long lastBeatTime = 0; // used to find IBI
volatile int Peak =512; // used to find peak in pulse wave, seeded
volatile int Trough = 512; // used to find trough in pulse wave, seeded
volatile int thresh = 512; // used to find instant moment of heart beat, seeded
volatile int amp = 100; // used to hold amplitude of pulse waveform, seeded
volatile bit firstBeat = true; // used to seed rate array so we startup with reasonable BPM
volatile bit secondBeat = false; // used to seed rate array so we startup with reasonable BPM
static unsigned char order=0;
void sys_init()
{UART_init(); // we agree to talk fast!
ADC_init(PulsePin);
T0_init(); // sets up to read Pulse Sensor signal every 2mS
}
void main(void)
{
sys_init();
while(1)
{
sendDataToProcessing('S', Signal); // send Processing the raw Pulse Sensor data
if (QS == true){ // Quantified Self flag is true when arduino finds a heartbeat
fadeRate = 255; // Set 'fadeRate' Variable to 255 to fade LED with pulse
sendDataToProcessing('B',BPM); // send heart rate with a 'B' prefix
sendDataToProcessing('Q',IBI); // send time between beats with a 'Q' prefix
QS = false; // reset the Quantified Self flag for next time
}
delay(138); // take a break 19.6ms
}
}
void sendDataToProcessing(char symbol, int dat ){
putchar(symbol); // symbol prefix tells Processing what type of data is coming
printf("%d\r\n",dat); // the data to send culminating in a carriage return
}
void UART_init(void)
{
PCON &= 0x7f; //波特率不倍速
SCON = 0x50; //8位数据,可变波特率
BRT = 0xFD; //独立波特率产生器初值
AUXR |= 0x04; //时钟设置为1T模式
AUXR |= 0x01; //选择独立波特率产生器
AUXR |= 0x10; //启动波特率产生
}
char putchar(unsigned char dat)
{
TI=0;
SBUF=dat;
while(!TI);
TI=0;
return SBUF;
}
void delay(unsigned int n)
{
unsigned int i,j;
for(i=0;i<n;i++)
for(j=0;j<100;j++);
}
void T0_init(void){
// Initializes Timer0 to throw an interrupt every 2mS.
wela=0;
dula=0;
TMOD |= 0x01; //16bit TIMER
TL0=T0MS;
TH0=T0MS>>8;
TR0=1; //start Timer 0
ET0=1; //enable Timer Interrupt
EA=1; // MAKE SURE GLOBAL INTERRUPTS ARE ENABLED
}
void LED_Disp_Seg7(void)
{
switch(order)
{
case 0:
dula=1;
P0=DisBuff[2];
dula=0;
P0=0xff;
wela=1;
P0=0xfe;
wela=0;
delay(1);
break;
case 1:
dula=1;
P0=DisBuff[1];
dula=0;
P0=0xff;
wela=1;
P0=0xfd;
wela=0;
delay(1);
break;
case 2:
dula=1;
P0=DisBuff[0];
dula=0;
P0=0xff;
wela=1;
P0=0xfb;
wela=0;
delay(1);
break;
}
if(++order>2)
order=0;
}
void ADC_init(unsigned char channel)
{
P1ASF=ADC_MASK<<channel; //enable PlusePin as ADC INPUT
ADC_RES=0; //clear former ADC result
ADC_RESL=0; //clear former ADC result
AUXR1 |= 0x04; //adjust the format of ADC result
ADC_CONTR=channel|ADC_POWER|ADC_SPEEDLL|ADC_START; //power on ADC and start conversion
}
unsigned int analogRead(unsigned char channel)
{
unsigned int result;
ADC_CONTR &=!ADC_FLAG; //clear ADC FLAG
result=ADC_RES;
result=result<<8;
result+=ADC_RESL;
ADC_CONTR|=channel|ADC_POWER|ADC_SPEEDLL|ADC_START;
return result;
}
// Timer 0中断子程序,每2MS中断一次,读取AD值,计算心率值
void Timer0_rountine(void) interrupt 1
{
int N;
unsigned char i; // keep a running total of the last 10 IBI values
unsigned int runningTotal = 0; // clear the runningTotal variable
EA=0; // disable interrupts while we do this
TL0=T0MS;
TH0=T0MS>>8; //reload 16 bit TIMER0
Signal = analogRead(PulsePin); // read the Pulse Sensor
sampleCounter += 2; // keep track of the time in mS with this variable
N = sampleCounter - lastBeatTime; // monitor the time since the last beat to avoid noise
LED_Disp_Seg7();
// find the peak and trough of the pulse wave
if(Signal < thresh && N > (IBI/5)*3){ // avoid dichrotic noise by waiting 3/5 of last IBI
if (Signal < Trough){ // T is the trough
Trough = Signal; // keep track of lowest point in pulse wave
}
}
if(Signal > thresh && Signal > Peak){ // thresh condition helps avoid noise
Peak = Signal; // P is the peak
} // keep track of highest point in pulse wave
// NOW IT'S TIME TO LOOK FOR THE HEART BEAT
// signal surges up in value every time there is a pulse
if (N > 250){ // avoid high frequency noise
if ( (Signal > thresh) && (Pulse == false) && (N > (IBI/5)*3) ){
Pulse = true; // set the Pulse flag when we think there is a pulse
blinkPin=0; // turn on pin 13 LED
IBI = sampleCounter - lastBeatTime; // measure time between beats in mS
lastBeatTime = sampleCounter; // keep track of time for next pulse
if(secondBeat){ // if this is the second beat, if secondBeat == TRUE
secondBeat = false; // clear secondBeat flag
for(i=0; i<=9; i++){ // seed the running total to get a realisitic BPM at startup
rate[i] = IBI;
}
}
if(firstBeat){ // if it's the first time we found a beat, if firstBeat == TRUE
firstBeat = false; // clear firstBeat flag
secondBeat = true; // set the second beat flag
EA=1; // enable interrupts again
return; // IBI value is unreliable so discard it
}
for(i=0; i<=8; i++){ // shift data in the rate array
rate[i] = rate[i+1]; // and drop the oldest IBI value
runningTotal += rate[i]; // add up the 9 oldest IBI values
}
rate[9] = IBI; // add the latest IBI to the rate array
runningTotal += rate[9]; // add the latest IBI to runningTotal
runningTotal /= 10; // average the last 10 IBI values
BPM = 60000/runningTotal; // how many beats can fit into a minute? that's BPM!
if(BPM>200)BPM=200; //限制BPM最高显示值
if(BPM<30)BPM=30; //限制BPM最低显示值
DisBuff[0] = BPM%10; //取个位数
DisBuff[1] = BPM%100/10; //取十位数
DisBuff[2] = BPM/100; //百位数
QS = true; // set Quantified Self flag
// QS FLAG IS NOT CLEARED INSIDE THIS ISR
}
}
if (Signal < thresh && Pulse == true){ // when the values are going down, the beat is over
blinkPin=1; // turn off pin 13 LED
Pulse = false; // reset the Pulse flag so we can do it again
amp = Peak - Trough; // get amplitude of the pulse wave
thresh = amp/2 + Trough; // set thresh at 50% of the amplitude
Peak = thresh; // reset these for next time
Trough = thresh;
}
if (N > 2500){ // if 2.5 seconds go by without a beat
thresh = 512; // set thresh default
Peak = 512; // set P default
Trough = 512; // set T default
lastBeatTime = sampleCounter; // bring the lastBeatTime up to date
firstBeat = true; // set these to avoid noise
secondBeat = false; // when we get the heartbeat back
}
EA=1; // enable interrupts when youre done!
}// end isr
复制代码
作者:
wc86110
时间:
2018-1-16 03:07
除了源码还要看电路图是否对应
作者:
wulin
时间:
2018-1-16 17:34
本帖最后由 wulin 于 2018-1-16 21:01 编辑
你的显示程序有问题,例如段码P0=DisBuff[2];这里是直接显示的缓存数据,实际应用是需要把缓存数据转换成数码管段码显示:P0=LED_Disp[DisBuff[2]];,数码管数组里恰好7的代码是0x07,所以除了7以外其它数都成乱码。
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