#include<reg51.h>
#include<intrins.h>
#include<math.h>
#include<string.h>
struct PID {
unsigned int SetPoint; // 设定目标 Desired Value
unsigned int Proportion; // 比例常数 Proportional Const
unsigned int Integral; // 积分常数 Integral Const
unsigned int Derivative; // 微分常数 Derivative Const
unsigned int LastError; // Error[-1]
unsigned int PrevError; // Error[-2]
unsigned int SumError; // Sums of Errors
};
struct PID spid; // PID Control Structure
unsigned int rout; // PID Response (Output)
unsigned int rin; // PID Feedback (Input)
sbit data1=P1^0;
sbit clk=P1^1;
sbit plus=P2^0;
sbit subs=P2^1;
sbit stop=P2^2;
sbit output=P3^4;
sbit DQ=P3^3;
unsigned char flag,flag_1=0;
unsigned char high_time,low_time,count=0;//占空比调节参数
unsigned char set_temper=35;
unsigned char temper;
unsigned char i;
unsigned char j=0;
unsigned int s;
void delay(unsigned char time)
{
unsigned char m,n;
for(n=0;n
for(m=0;m<2;m++){}
}
void write_bit(unsigned char bitval)
{
EA=0;
DQ=0;
if(bitval==1)
{
_nop_();
DQ=1;
}
delay(5);
DQ=1;
_nop_();
_nop_();
EA=1;
}
void write_byte(unsigned char val)
{
unsigned char i;
unsigned char temp;
EA=0;
TR0=0;
for(i=0;i<8;i++)
{
temp=val>>i;
temp=temp&1;
write_bit(temp);
}
delay(7);
// TR0=1;
EA=1;
}
unsigned char read_bit()
{
unsigned char i,value_bit;
EA=0;
DQ=0;
_nop_();
_nop_();
DQ=1;
for(i=0;i<2;i++){}
value_bit=DQ;
EA=1;
return(value_bit);
}
unsigned char read_byte()
{
unsigned char i,value=0;
EA=0;
for(i=0;i<8;i++)
{
if(read_bit())
value|=0x01<<i;
delay(4);
}
EA=1;
return(value);
}
unsigned char reset()
{
unsigned char presence;
EA=0;
DQ=0;
delay(30);
DQ=1;
delay(3);
presence=DQ;
delay(28);
EA=1;
return(presence);
}
void get_temper()
{
unsigned char i,j;
do
{
i=reset();
} while(i!=0);
i=0xcc;
write_byte(i);
i=0x44;
write_byte(i);
delay(180);
do
{
i=reset();
} while(i!=0);
i=0xcc;
write_byte(i);
i=0xbe;
write_byte(i);
j=read_byte();
i=read_byte();
i=(i<<4)&0x7f;
s=(unsigned int)(j&0x0f); //得到小数部分
s=(s*100)/16;
j=j>>4;
temper=i|j;
}
void PIDInit (struct PID *pp)
{
memset ( pp,0,sizeof(struct PID)); //全部初始化为0
}
unsigned int PIDCalc( struct PID *pp, unsigned int NextPoint )
{
unsigned int dError,Error;
Error = pp->SetPoint - NextPoint; // 偏差
pp->SumError += Error; // 积分
dError = pp->LastError - pp->PrevError; // 当前微分
pp->PrevError = pp->LastError;
pp->LastError = Error;
return (pp->Proportion * Error // 比例项
+ pp->Integral * pp->SumError // 积分项
+ pp->Derivative * dError); // 微分项
}
void compare_temper()
{
unsigned char i;
if(set_temper>temper) //是否设置的温度大于实际温度
{
if(set_temper-temper>1) //设置的温度比实际的温度是否是大于1度
{
high_time=100; //如果是,则全速加热
low_time=0;
}
else //如果是在1度范围内,则运行PID计算
{
for(i=0;i<10;i++)
{
get_temper(); //获取温度
rin = s; // Read Input
rout = PIDCalc ( &spid,rin ); // Perform PID Interation
}
if (high_time<=100)
high_time=(unsigned char)(rout/800);
else
high_time=100;
low_time= (100-high_time);
}
}
else if(set_temper<=temper)
{
if(temper-set_temper>0)
{
high_time=0;
low_time=100;
}
else
{
for(i=0;i<10;i++)
{
get_temper();
rin = s; // Read Input
rout = PIDCalc ( &spid,rin ); // Perform PID Interation
}
if (high_time<100)
high_time=(unsigned char)(rout/10000);
else
high_time=0;
low_time= (100-high_time);
}
}
// else
// {}
}
void serve_T0() interrupt 1 using 1
{
if(++count<=(high_time))
output=1;
else if(count<=100)
{
output=0;
}
else
count=0;
TH0=0x2f;
TL0=0xe0;
}
void serve_sio() interrupt 4 using 2
{
}
void disp_1(unsigned char disp_num1[6])
{
unsigned char n,a,m;
for(n=0;n<6;n++)
{
// k=disp_num1[n];
for(a=0;a<8;a++)
{
clk=0;
m=(disp_num1[n]&1);
disp_num1[n]=disp_num1[n]>>1;
if(m==1)
data1=1;
else
data1=0;
_nop_();
clk=1;
_nop_();
}
}
}
void display()
{
unsigned char code number[]={0xfc,0x60,0xda,0xf2,0x66,0xb6,0xbe,0xe0,0xfe,0xf6};
unsigned char disp_num[6];
unsigned int k,k1;
k=high_time;
k=k00;
k1=k/100;
if(k1==0)
disp_num[0]=0;
else
disp_num[0]=0x60;
k=k0;
disp_num[1]=number[k/10];
disp_num[2]=number[k];
k=temper;
k=k0;
disp_num[3]=number[k/10];
disp_num[4]=number[k]+1;
disp_num[5]=number[s/10];
disp_1(disp_num);
}
void main()
{
unsigned char z;
unsigned char a,b,flag_2=1,count1=0;
unsigned char phil[]={2,0xce,0x6e,0x60,0x1c,2};
TMOD=0x21;
TH0=0x2f;
TL0=0x40;
SCON=0x50;
PCON=0x00;
TH1=0xfd;
TL1=0xfd;
PS=1;
EA=1;
EX1=0;
ET0=1;
ES=1;
TR0=1;
TR1=1;
high_time=50;
low_time=50;
PIDInit ( &spid ); // Initialize Structure
spid.Proportion = 10; // Set PID Coefficients 比例常数 Proportional Const
spid.Integral = 8; //积分常数 Integral Const
spid.Derivative =6; //微分常数 Derivative Const
spid.SetPoint = 100; // Set PID Setpoint 设定目标 Desired Value
while(1)
{
if(plus==0)
{
EA=0;
for(a=0;a<5;a++)
for(b=0;b<102;b++){}
if(plus==0)
{
set_temper++;
flag=0;
}
}
else if(subs==0)
{
for(a=0;a<5;a++)
for(b=0;a<102;b++){}
if(subs==0)
{
set_temper--;
flag=0;
}
}
else if(stop==0)
{
for(a=0;a<5;a++)
for(b=0;b<102;b++){}
if(stop==0)
{
flag=0;
break;
}
EA=1;
}
get_temper();
b=temper;
if(flag_2==1)
a=b;
if((abs(a-b))>5)
temper=a;
else
temper=b;
a=temper;
flag_2=0;
if(++count1>30)
{
display();
count1=0;
}
compare_temper();
}
TR0=0;
z=1;
while(1)
{
EA=0;
if(stop==0)
{
for(a=0;a<5;a++)
for(b=0;b<102;b++){}
if(stop==0)
disp_1(phil);
// break;
}
EA=1;
}
}