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kakl |
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/**** IR Mrakomer 4 ****/ |
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kakl |
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#define VERSION "4.1" |
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kakl |
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#define ID "$Id: irmrak4.c 4248 2015-10-19 18:09:23Z kakl $" |
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kakl |
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kakl |
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#include "irmrak4.h" |
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kakl |
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#bit CREN = 0x18.4 // USART registers |
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#bit SPEN = 0x18.7 |
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#bit OERR = 0x18.1 |
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#bit FERR = 0x18.2 |
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#include <string.h> |
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kakl |
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#CASE // Case sensitive compiler |
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kakl |
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#define MAXHEAT 20 // Number of cycles for heating |
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#define MAXOPEN 20 // Number of cycles for dome open |
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kakl |
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#define MEASURE_DELAY 6000 // Delay to a next measurement |
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kakl |
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#define RESPONSE_DELAY 100 // Reaction time after receiving a command |
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kakl |
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#define SAFETY_COUNT 90 // Time of one emergency cycle |
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kakl |
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#define SEND_DELAY 50 // Time between two characters on RS232 |
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kakl |
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#define TEMPERATURE_INSIDE 1800 // Keep this temperature inside MM's box |
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kakl |
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kakl |
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#define DOME PIN_B4 // Dome controll port |
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#define HEATING PIN_B3 // Heating for defrosting |
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kakl |
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char VER[4]=VERSION; // Buffer for concatenate of a version string |
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kakl |
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kakl |
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int8 heat; // Status variables |
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kakl |
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int8 open; |
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kakl |
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inline void toggle_dome(void) // Wire exercise |
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kakl |
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{ |
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if (open>0) |
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kakl |
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{output_toggle(DOME);} // Toggle = Open Dome |
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else |
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{output_high(DOME);} // Do not toggle = Close Dome |
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kakl |
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} |
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kakl |
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kakl |
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void delay(int16 cycles) // Wire exercise with delay |
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kakl |
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{ |
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kakl |
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int16 i; |
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kakl |
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kakl |
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for(i=0; i<cycles; i++) {toggle_dome(); delay_us(100);} |
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} |
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kakl |
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kakl |
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void welcome(void) // Welcome message |
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{ |
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kakl |
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char REV[50]=ID; // Buffer for concatenate of a version string |
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if (REV[strlen(REV)-1]=='$') REV[strlen(REV)-1]=0; |
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kaklik |
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printf("\r\n\r\n# Mrakomer %s (C) 2011 UST\r\n",VER); // Welcome message |
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kakl |
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printf("#%s\r\n",&REV[4]); |
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// printf("#\r\n"); |
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kakl |
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// printf("# commands: h, c, o, l, x, i, r, a, s, u\r\n"); |
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kakl |
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// printf("# h_eat, c_old, o_pen, l_ock, x_open, "); |
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// printf("i_nfo, r_epeat, a_uto, s_single, u_pdate\r\n"); |
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// printf("#\r\n"); |
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kakl |
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// printf("# ver seq in[1/100 C] sky[1/100 C] sky[1/100 C] "); |
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// printf("out[1/100 C] heat[s] dome[s] check\r\n\r\n"); |
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kakl |
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kakl |
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//---WDT |
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restart_wdt(); |
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kakl |
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} |
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kakl |
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kakl |
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#include "smb.c" // System Management Bus driver |
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kakl |
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#include "TOUCH.C" |
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kakl |
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kakl |
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kakl |
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// Read sensor's RAM |
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kakl |
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// Returns temperature in °K |
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kakl |
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int16 ReadTemp(int8 addr, int8 select) |
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kakl |
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{ |
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unsigned char arr[6]; // Buffer for the sent bytes |
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int8 crc; // Readed CRC |
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int16 temp; // Readed temperature |
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kakl |
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addr<<=1; |
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kakl |
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SMB_STOP_bit(); //If slave send NACK stop comunication |
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SMB_START_bit(); //Start condition |
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kakl |
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SMB_TX_byte(addr); |
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SMB_TX_byte(RAM_Access|select); |
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kakl |
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SMB_START_bit(); //Repeated Start condition |
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kakl |
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SMB_TX_byte(addr); |
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kakl |
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arr[2]=SMB_RX_byte(ACK); //Read low data,master must send ACK |
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arr[1]=SMB_RX_byte(ACK); //Read high data,master must send ACK |
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kakl |
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temp=make16(arr[1],arr[2]); |
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kakl |
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crc=SMB_RX_byte(NACK); //Read PEC byte, master must send NACK |
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SMB_STOP_bit(); //Stop condition |
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kakl |
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arr[5]=addr; |
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arr[4]=RAM_Access|select; |
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arr[3]=addr; |
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arr[0]=0; |
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if (crc != PEC_calculation(arr)) temp=0; // Calculate and check CRC |
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return temp; |
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} |
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kakl |
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// compute CRC |
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// *sn - pointer to the byte array |
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// num - length of array |
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inline int8 TM_check_CRC(unsigned int8 *sn, unsigned int8 num) |
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{ |
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// CRC table |
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const int8 TouchCRC[256]= { |
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0, 94, 188, 226, 97, 63, 221, 131, 194, 156, 126, 32, 163, 253, 31, 65, |
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157, 195, 33, 127, 252, 162, 64, 30, 95, 1, 227, 189, 62, 96, 130, 220, |
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35, 125, 159, 193, 66, 28, 254, 160, 225, 191, 93, 3, 128, 222, 60, 98, |
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190, 224, 2, 92, 223, 129, 99, 61, 124, 34, 192, 158, 29, 67, 161, 255, |
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70, 24, 250, 164, 39, 121, 155, 197, 132, 218, 56, 102, 229, 187, 89, 7, |
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219, 133, 103, 57, 186, 228, 6, 88, 25, 71, 165, 251, 120, 38, 196, 154, |
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101, 59, 217, 135, 4, 90, 184, 230, 167, 249, 27, 69, 198, 152, 122, 36, |
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248, 166, 68, 26, 153, 199, 37, 123, 58, 100, 134, 216, 91, 5, 231, 185, |
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140, 210, 48, 110, 237, 179, 81, 15, 78, 16, 242, 172, 47, 113, 147, 205, |
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17, 79, 173, 243, 112, 46, 204, 146, 211, 141, 111, 49, 178, 236, 14, 80, |
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175, 241, 19, 77, 206, 144, 114, 44, 109, 51, 209, 143, 12, 82, 176, 238, |
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50, 108, 142, 208, 83, 13, 239, 177, 240, 174, 76, 18, 145, 207, 45, 115, |
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202, 148, 118, 40, 171, 245, 23, 73, 8, 86, 180, 234, 105, 55, 213, 139, |
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87, 9, 235, 181, 54, 104, 138, 212, 149, 203, 41, 119, 244, 170, 72, 22, |
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233, 183, 85, 11, 136, 214, 52, 106, 43, 117, 151, 201, 74, 20, 246, 168, |
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116, 42, 200, 150, 21, 75, 169, 247, 182, 232, 10, 84, 215, 137, 107, 53}; |
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kakl |
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kakl |
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int8 CRC; |
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int8 i; |
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CRC=0; |
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for(i=0;i<num;i++) CRC=TouchCRC[CRC ^ *(sn+i)]; |
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return(CRC); |
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} |
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kakl |
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/*-------------------------------- MAIN --------------------------------------*/ |
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kakl |
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void main() |
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kakl |
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{ |
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kakl |
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unsigned int16 seq, temp, tempa; |
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kakl |
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signed int16 ta, to1, to2, tTouch; |
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kakl |
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int8 tLSB,tMSB; // Temperatures from TouchMemory |
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kakl |
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int8 safety_counter; |
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kakl |
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int8 heatTime; |
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kakl |
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int1 repeat; // Status flags |
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int1 automatic; |
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kakl |
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kakl |
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//KAKL!!! |
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int8 SN[10]; |
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kakl |
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output_high(DOME); // Close Dome |
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kakl |
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output_low(HEATING); // Heating off |
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delay_ms(1000); |
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restart_wdt(); |
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kakl |
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kakl |
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seq=0; // Variables initiation |
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heat=0; |
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open=0; |
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kakl |
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heatTime=0; |
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kakl |
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repeat=TRUE; |
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kakl |
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automatic=FALSE; |
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kakl |
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kakl |
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welcome(); |
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kakl |
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kakl |
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tempa=ReadTemp(SA, RAM_Tamb); // Dummy read |
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temp=ReadTemp(SA, RAM_Tobj1); |
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kakl |
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touch_present(); //Issues a reset of Touch Memory device |
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touch_write_byte(0xCC); |
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touch_write_byte(0x44); |
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kakl |
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kakl |
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delay_ms(1000); |
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kakl |
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//---WDT |
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kakl |
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restart_wdt(); |
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kakl |
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kakl |
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while(TRUE) // Main Loop |
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kakl |
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{ |
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kakl |
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safety_counter=SAFETY_COUNT; // Heating and Dome Count Down |
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kakl |
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do |
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kakl |
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{ |
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kakl |
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if (safety_counter<SAFETY_COUNT) safety_counter++; |
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kakl |
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kakl |
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delay(RESPONSE_DELAY); |
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if (safety_counter>=SAFETY_COUNT) |
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{ |
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kakl |
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if (heat>0) { output_high(HEATING); } else { output_low(HEATING); } |
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kakl |
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if (heat>0) heat--; |
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kakl |
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if (open>0) open--; |
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safety_counter=0; |
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//---WDT |
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restart_wdt(); |
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} |
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kakl |
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} while (!kbhit()&&!repeat); |
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kakl |
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kakl |
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//---WDT |
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restart_wdt(); |
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kakl |
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{ // Retrieve command |
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kakl |
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char ch='k'; |
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kakl |
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kakl |
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if(kbhit()) ch=getc(); |
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kakl |
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kakl |
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switch (ch) |
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{ |
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case 'h': |
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kakl |
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heat=MAXHEAT; // Need heating |
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kakl |
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automatic=FALSE; |
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kakl |
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break; |
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kakl |
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kakl |
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case 'c': |
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kakl |
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heat=0; // Need colder |
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kakl |
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automatic=FALSE; |
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kakl |
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break; |
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kakl |
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kakl |
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case 'o': |
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open=MAXOPEN; // Open the dome |
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kakl |
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automatic=FALSE; |
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kakl |
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break; |
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kakl |
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kakl |
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case 'x': |
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open=MAXOPEN; // Open the dome |
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heat=MAXHEAT; // Need heating |
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kakl |
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automatic=FALSE; |
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kakl |
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break; |
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kakl |
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case 'l': |
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open=0; // Lock the dome |
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kakl |
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automatic=FALSE; |
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kakl |
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break; |
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kakl |
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case 'i': |
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kakl |
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if (open==0) welcome(); // Information about version, etc... |
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break; // Only when dome is closed |
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kakl |
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case 'r': |
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kakl |
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repeat=TRUE; // Repeated measure mode |
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kakl |
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automatic=FALSE; |
1288 |
kakl |
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break; |
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case 's': |
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repeat=FALSE; // Single measure mode |
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kakl |
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automatic=FALSE; |
1288 |
kakl |
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break; |
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kakl |
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kakl |
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case 'a': |
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repeat=TRUE; // Automatic mode |
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automatic=TRUE; |
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break; |
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kakl |
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case 'u': |
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kakl |
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reset_cpu(); // Update firmware |
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kakl |
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} |
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} |
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kakl |
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CREN=0; CREN=1; // Reinitialise USART |
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kakl |
257 |
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kakl |
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seq++; // Increment the number of measurement |
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kakl |
259 |
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tempa=ReadTemp(SA, RAM_Tamb); // Read temperatures from sensor |
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kakl |
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ta=tempa*2-27315; // °K -> °C |
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kakl |
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temp=ReadTemp(SA, RAM_Tobj1); |
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kakl |
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if (temp>0x48E1) {to1=-27315;} else {to1=temp*2-27315;} |
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temp=ReadTemp(SA, RAM_Tobj2); |
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if (temp>0x48E1) {to2=-27315;} else {to2=temp*2-27315;} |
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kakl |
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kakl |
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touch_present(); //Issues a reset of Touch Memory device |
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touch_write_byte(0xCC); |
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touch_write_byte(0x44); |
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//---WDT |
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restart_wdt(); |
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delay(MEASURE_DELAY); // Delay to a next measurement |
1274 |
kakl |
275 |
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1720 |
kakl |
276 |
{ |
4248 |
kakl |
277 |
//KAKL!!! int8 SN[10]; |
1720 |
kakl |
278 |
int8 n; |
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touch_present(); //Issues a reset and returns true if the touch device is there. |
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touch_write_byte(0xCC); |
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touch_write_byte(0xBE); |
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for(n=0;n<9;n++) SN[n]=touch_read_byte(); |
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tLSB=SN[0]; |
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tMSB=SN[1]; |
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if ((SN[8]==TM_check_CRC(SN,8))&&(SN[7]==0x10)) // Check CRC and family code to prevent O's error |
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{ |
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tTouch=make16(tMSB,tLSB); |
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tTouch=tTouch*6+tTouch/4; // 1bit = 0,0625gradC recalculate to 1/100gradC |
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} |
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else |
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{ |
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tTouch=-27315; |
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} |
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} |
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296 |
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4248 |
kakl |
297 |
/* |
1720 |
kakl |
298 |
if(automatic) // Solve automatic mode |
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299 |
{ |
1884 |
kakl |
300 |
if (heatTime==0) |
1958 |
kakl |
301 |
{ |
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302 |
if((tTouch<=-300)&&(ta<=300)) {heat=(700-tTouch)/400;} else {heat=1;} // Needs warmer? |
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303 |
heatTime=MAXHEAT; |
1884 |
kakl |
304 |
} |
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305 |
heatTime--; |
1958 |
kakl |
306 |
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307 |
if(ta>2000) heat=0; // Overtemperature protection |
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308 |
if(tTouch>2000) heat=0; |
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309 |
if(ta<-10000) heat=0; // Sensor Error protection |
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310 |
if(tTouch<-10000) heat=0; |
1884 |
kakl |
311 |
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1958 |
kakl |
312 |
if((abs(to1-to2)<100)&&(tTouch>to1)&&(abs(tTouch-to1)>800)) open=1; // Control the dome |
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313 |
if(to1<-10000) open=0; // Sensor Error protection |
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314 |
if(tTouch<-10000) open=0; |
1720 |
kakl |
315 |
} |
4248 |
kakl |
316 |
*/ |
1274 |
kakl |
317 |
{ // printf |
1284 |
kakl |
318 |
char output[8]; // Output buffer |
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319 |
int8 j; // String pointer |
1293 |
kakl |
320 |
int8 check=0; // Checksum is calculated between '$' and '*' |
1278 |
kakl |
321 |
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1282 |
kakl |
322 |
delay(SEND_DELAY); |
1293 |
kakl |
323 |
putc('$'); |
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324 |
delay(SEND_DELAY); |
1720 |
kakl |
325 |
sprintf(output,"M%s \0",VER); |
1293 |
kakl |
326 |
j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j]); check^=output[j++]; } |
1720 |
kakl |
327 |
sprintf(output,"%Lu \0", seq); |
1293 |
kakl |
328 |
j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j]); check^=output[j++]; } |
1720 |
kakl |
329 |
sprintf(output,"%Ld \0", ta); |
1293 |
kakl |
330 |
j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j]); check^=output[j++]; } |
1720 |
kakl |
331 |
sprintf(output,"%Ld \0", to1); |
1293 |
kakl |
332 |
j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j]); check^=output[j++]; } |
1720 |
kakl |
333 |
sprintf(output,"%Ld \0", to2); |
1293 |
kakl |
334 |
j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j]); check^=output[j++]; } |
1720 |
kakl |
335 |
sprintf(output,"%Ld \0",tTouch); |
1293 |
kakl |
336 |
j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j]); check^=output[j++]; } |
1720 |
kakl |
337 |
sprintf(output,"%u \0", heat); |
|
|
338 |
j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j]); check^=output[j++]; } |
|
|
339 |
sprintf(output,"%u \0", open); |
|
|
340 |
j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j]); check^=output[j++]; } |
4248 |
kakl |
341 |
//KAKL!!! sprintf(output,"*%X\r\n\0", check); |
|
|
342 |
sprintf(output,"*%X \0", check); |
1282 |
kakl |
343 |
j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j++]); } |
4248 |
kakl |
344 |
{ |
|
|
345 |
int n; |
|
|
346 |
for (n=0;n<9;n++) |
|
|
347 |
{ |
|
|
348 |
sprintf(output,"%X \0", SN[n]); |
|
|
349 |
|
|
|
350 |
j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j++]); } |
|
|
351 |
} |
|
|
352 |
} |
|
|
353 |
sprintf(output,"\r\n\0"); |
|
|
354 |
j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j++]); } |
|
|
355 |
|
1293 |
kakl |
356 |
delay(SEND_DELAY); |
1274 |
kakl |
357 |
} |
1720 |
kakl |
358 |
|
1280 |
kakl |
359 |
//---WDT |
|
|
360 |
restart_wdt(); |
1274 |
kakl |
361 |
} |
|
|
362 |
} |
1298 |
kakl |
363 |
|
|
|
364 |
|
1300 |
kakl |
365 |
#include "dbloader.c" // Space reservation for the BootLoader |