WebSVN – MLAB – Rev 1597 – Blame – /Designs/MRAKOMER4/SW/2zone/irmrak4.c

1597

kakl

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/**** IR Mrakomer 4 ****/

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#define VERSION "4.1"

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#define ID "$Id: irmrak4.c 1597 2010-08-25 19:47:58Z kakl $"

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#include "irmrak4.h"

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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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#CASE // Case sensitive compiler

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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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#define MEASURE_DELAY 6000 // Delay to a next measurement

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#define RESPONSE_DELAY 100 // Reaction time after receiving a command

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#define SAFETY_COUNT 90 // Time of one emergency cycle

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#define SEND_DELAY 50 // Time between two characters on RS232

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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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char VER[4]=VERSION; // Buffer for concatenate of a version string

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int8 heat; // Status variables

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int8 open;

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inline void toggle_dome(void) // Wire exercise

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{

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if (open>0)

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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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}

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void delay(int16 cycles) // Wire exercise with delay

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{

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int16 i;

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for(i=0; i<cycles; i++) {toggle_dome(); delay_us(100);}

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}

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void welcome(void) // Welcome message

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{

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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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printf("#%s\n\r",&REV[4]);

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printf("#\n\r");

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printf("# h - Switch On Heating for 20s.\n\r");

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printf("# c - Need Colder. Switch Off Heating.\n\r");

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printf("# o - Open the Dome for 20s.\n\r");

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printf("# l - Lock the Dome.\n\r");

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printf("# x - Open the Dome and switch On Heating.\n\r");

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printf("# i - Print this Information.\n\r");

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printf("# r - Repeat measure every second.\n\r");

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printf("# s - Single measure.\n\r");

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printf("# u - Update firmware. Go to the Boot Loader.\n\r");

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printf("#\n\r");

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printf("# <sequence> <ambient[1/100 C]> <ambient[1/100 C]> <sky[1/100 C]> ");

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printf("<heating[s]> <dome[s]> <check>\n\r\n\r");

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//---WDT

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restart_wdt();

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}

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#include "smb.c" // System Management Bus driver

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// Read sensor's RAM

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// Returns temperature in °K

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int16 ReadTemp(int8 addr, int8 select)

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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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addr<<=1;

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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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SMB_TX_byte(addr);

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SMB_TX_byte(RAM_Access|select);

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SMB_START_bit(); //Repeated Start condition

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SMB_TX_byte(addr);

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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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temp=make16(arr[1],arr[2]);

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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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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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/*-------------------------------- MAIN --------------------------------------*/

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void main()

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{

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unsigned int16 seq, temp, tempa;

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signed int16 ta, to1, to2;

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int8 safety_counter;

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int1 repeat;

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output_high(DOME); // Close Dome

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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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seq=0; // Variables initiation

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heat=0;

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open=0;

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repeat=TRUE;

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welcome();

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tempa=ReadTemp(SA, RAM_Tamb); // Dummy read

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temp=ReadTemp(SA, RAM_Tobj1);

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delay_ms(1000);

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//---WDT

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restart_wdt();

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while(TRUE) // Main Loop

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{

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safety_counter=SAFETY_COUNT; // Heating and Dome Count Down

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do

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{

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if (safety_counter<SAFETY_COUNT) safety_counter++;

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delay(RESPONSE_DELAY);

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if (safety_counter>=SAFETY_COUNT)

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{

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if (heat>0) heat--;

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if (open>0) open--;

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if (heat>0) { output_high(HEATING); } else { output_low(HEATING); }

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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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} while (!kbhit()&&!repeat);

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//---WDT

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restart_wdt();

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{ // Retrieve command

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char ch='k';

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if(kbhit()) ch=getc();

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switch (ch)

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{

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case 'h':

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heat=MAXHEAT; // Need heating

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break;

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case 'c':

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heat=0; // Need colder

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break;

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case 'o':

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open=MAXOPEN; // Open the dome

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break;

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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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break;

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case 'l':

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open=0; // Lock the dome

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break;

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case 'i':

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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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case 'r':

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repeat=TRUE; // Repeated measure mode

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break;

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case 's':

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repeat=FALSE; // Single measure mode

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break;

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case 'u':

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reset_cpu(); // Update firmware

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}

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}

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// while(kbhit()) getc(); // Flush USART buffer

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CREN=0; CREN=1; // Reinitialise USART

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seq++; // Increment the number of measurement

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tempa=ReadTemp(SA, RAM_Tamb); // Read temperatures from sensor

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ta=tempa*2-27315; // °K -> °C

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temp=ReadTemp(SA, RAM_Tobj1);

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to1=temp*2-27315;

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temp=ReadTemp(SA, RAM_Tobj2);

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to2=temp*2-27315;

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{ // printf

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char output[8]; // Output buffer

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int8 j; // String pointer

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int8 check=0; // Checksum is calculated between '$' and '*'

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delay(SEND_DELAY);

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putc('$');

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delay(SEND_DELAY);

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sprintf(output,"M%s ",VER);

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