const unsigned char DISPTABLE[28] = {0x03,0x9F,0x25,0x0D,0x99,0x49,0x41,0x1F,0x01,0x09,0x11,0x83,0x31,
//0 //1 //2 //3 //4 //5 //6 //7 //8 //9 //A //U //P
0xD1,0xE3,0x89,0x63,0xE1,0xF5,0xC1,0x61,0x71,0xF3,0xFD,0xD5,0x85,0xFF,0x91};
//h //L //Y //C //t //r //b //E //F //I //- //n //d //blank //H
float Rph_Current=13.0;
float Yph_Current=0.0;
float Bph_Current=1.0;
void Split(unsigned int Value) { // Spliting of process value in digits form
unsigned char a,Temp;
for(a = 4; a >= 1 ; a--) {
Temp = Value%10;
Value = Value/10;
LEDBuffer_1[a-1] = DISPTABLE[Temp];
}
}
void Split_2(unsigned int Value) { // Spliting of process value in digits form
unsigned char a,Temp;
for(a = 4; a >= 1 ; a--) {
Temp = Value%10;
Value = Value/10;
LEDBuffer_1[a-1] = DISPTABLE[Temp];
}
}
//*********************************************************************************
// Current scaling
//********************************************************************************
void current_scaling(unsigned int current) {
if(current>=10000) {
Dec_pt = 0;
temp=current/10;
Dissect(temp);
} else {
Dec_pt = 1 ;
Dissect(current);
}
}
void Faults(unsigned char Chr1,unsigned char Chr2,unsigned char Chr3,unsigned char Chr4,unsigned char Chr5,unsigned char Chr6,unsigned char Chr7,unsigned char Chr8) {
LEDBuffer_1[0] = DISPTABLE[Chr1];
LEDBuffer_1[1] = DISPTABLE[Chr2];
LEDBuffer_1[2] = DISPTABLE[Chr3];
LEDBuffer_1[3] = DISPTABLE[Chr4];
LEDBuffer_1[4] = DISPTABLE[Chr5];
LEDBuffer_1[5] = DISPTABLE[Chr6];
LEDBuffer_1[6] = DISPTABLE[Chr7];
LEDBuffer_1[7]= DISPTABLE[Chr8];
}
void Display_par() {
Disply_Par=1;
switch(Disply_Par) {
case 1:
Faults(18,0,0,0,11,16,23,21);
// (r,0,0,0,U,C,-,F)
Display_Current(18,Rph_Current);
// current_scaling(Rph_Current);
UnderCurr_Flag=0;
break;
case 2:
Split_2(OL_Point);
Faults(20,0,0,0,0,14,23,21); //Overload Error
break;
default :
break;
}
}