// Lamps controller#define VERSION "$Revision: 3651 $"#include <OneWire.h>#include <EEPROM.h>#define LAG 400 // dellay in ms between lamp relay switching// Triacsint t1 = 2; // PD2 - trafo for gas lampsint t2 = 3; // PD3 - relay for switching between lampsint t3 = 4; // PD4 - halogen lampint t4 = 5; // PD5 - focuserint t5 = 6; // PD6 - COLORESint t6 = 7; // PD7int t7 = 8; // PB0int t8 = 9; // PB1// DS18S20 Temperature chipOneWire ds(12); // PB4 1-Wire pin (needs pull-up to Vcc)byte addr[8]; // Thermometer addressint n; // Counterchar state; // State of Gas Lampschar deleni16[16]={'0','1','1','2','3','3','4','4','5','6','6','7','7','8','9','9'};void info () // Print an information string{Serial.print("Lamps Controller ");Serial.println(VERSION);Serial.println("Commands: abcdefghABCDEFGHiS");}int temperature () // Read temperature from Dallas{int i, temp;byte data[12];if (OneWire::crc8 (addr, 7) != addr[7]){Serial.print("CRC is not valid!\n");return 0;}ds.reset();ds.select(addr);ds.write(0x44, 1); // start conversion, with parasite power on at the enddelay(800); // maybe 750ms is enough, maybe notds.reset();ds.select(addr);ds.write(0xBE); // Read Scratchpadfor ( i = 0; i < 9; i++) // we need 9 bytes{data[i] = ds.read();}temp = (data[1] << 8) + data[0]; //take the two bytes from the response relating to temperature// temp = temp >> 4; //divide by 16 to get pure celcius readoutreturn temp;}void pstatus() // Print status to serial line{int t; // Temperaturet=temperature(); // Read temperatureSerial.print (t >> 4);Serial.print (".");Serial.print (deleni16[t & 0xf]);Serial.print (' ');for (n=1;n<=8;n++){if(digitalRead(n+1)){Serial.print('t');}else{Serial.print('T');}Serial.print(n, DEC);Serial.print(' ');}Serial.println();}// the setup routine runs once when you press reset:void setup(){// initialize the digital pin as an output and switch offdigitalWrite(t1, HIGH);digitalWrite(t2, HIGH);digitalWrite(t3, HIGH);digitalWrite(t4, HIGH);digitalWrite(t5, HIGH);digitalWrite(t6, HIGH);digitalWrite(t7, HIGH);digitalWrite(t8, HIGH);pinMode(t1, OUTPUT);pinMode(t2, OUTPUT);pinMode(t3, OUTPUT);pinMode(t4, OUTPUT);pinMode(t5, OUTPUT);pinMode(t6, OUTPUT);pinMode(t7, OUTPUT);pinMode(t8, OUTPUT);state = 'a';// initialize the serial portSerial.begin(9600);Serial.println();Serial.println("Cvak.");// OneWire initds.reset_search();if (!ds.search(addr)) // search for next thermometer{Serial.println("Thermometer error.");ds.reset_search();delay(250);return;}for (n=1;n<=8;n++){digitalWrite(n+1,EEPROM.read(n)); // Read saved states from EEPROM}Serial.println("Hmmm....");info();pstatus();}// the loop routine runs over and over again forever:void loop(){byte inByte; // Character from serial lineif (Serial.available() > 0) // wait for a char{// get incoming byte:inByte = Serial.read();switch (inByte){case 'A': // Gas Lamp 1 ONif (state != 'A'){digitalWrite(t1, HIGH);delay(LAG);digitalWrite(t2, LOW);delay(LAG);digitalWrite(t1, LOW);state = 'A';}break;case 'B': // Gas Lamp 2 ONif (state != 'B'){digitalWrite(t1, HIGH);delay(LAG);digitalWrite(t2, HIGH);delay(LAG);digitalWrite(t1, LOW);state = 'B';}break;case 'a': // Gas Lamp 1 OFFdigitalWrite(t1, HIGH);delay(LAG);digitalWrite(t2, HIGH);state = 'a';break;case 'b': // Gas Lamp 2 OFFdigitalWrite(t1, HIGH);delay(LAG);digitalWrite(t2, HIGH);state = 'b';break;case 'i': // Print Infoinfo();break;case 'S': // Save states to EEPROMfor (n=1;n<=8;n++){EEPROM.write(n,digitalRead(n+1));}break;}if ( (inByte >= 'c') and (inByte <= 'h')) // Switch OFF other triacs{digitalWrite(inByte-'a'+2,HIGH);}if ( (inByte >= 'C') and (inByte <= 'H')) // Switch ON other triacs{digitalWrite(inByte-'A'+2, LOW);}pstatus(); // Print states}}