WebSVN – MLAB – Rev 1288 – Blame – /Designs/MRAKOMER4/SW/irmrak4.c

Rev	Author	Line No.	Line
1274	kakl	1	`/** IR Mrakomer 4 **/`
		2	`#define VERSION "4.0"`
1277	kakl	3	`#define ID "$Id: irmrak4.c 1288 2009-01-08 19:01:53Z kakl $"`
1274	kakl	4	`#include "irmrak4.h"`
		5
1280	kakl	6	`#define MAXHEAT 20 // Number of cycles for heating`
		7	`#define MAXOPEN 20 // Number of cycles for dome open`
1287	kakl	8	`#define MEASURE_DELAY 6000 // Delay to a next measurement`
1280	kakl	9	`#define RESPONSE_DELAY 100 // Reaction time after receiving a command`
1287	kakl	10	`#define SAFETY_COUNT 90 // Time of one emergency cycle`
1280	kakl	11	`#define SEND_DELAY 50 // Time between two characters on RS232`
1275	kakl	12
1274	kakl	13	`#define DOME PIN_B4 // Dome controll port`
		14	`#define HEATING PIN_B3 // Heating for defrosting`
		15
		16	`#bit CREN = 0x18.4 // USART registers`
		17	`#bit SPEN = 0x18.7`
		18	`#bit OERR = 0x18.1`
		19	`#bit FERR = 0x18.2`
		20
1280	kakl	21	`char VER[4]=VERSION; // Buffer for concatenate of a version string`
1274	kakl	22	`char REV[50]=ID;`
		23
1280	kakl	24	`int8 heat; // Status variables`
1274	kakl	25	`int8 open;`
		26
1284	kakl	27	`inline void toggle_dome(void) // Wire exercise`
1275	kakl	28	`{`
		29	`if (open>0)`
1285	kakl	30	`{output_toggle(DOME);} // Toggle = Open Dome`
		31	`else`
		32	`{output_high(DOME);} // Do not toggle = Close Dome`
1275	kakl	33	`}`
1274	kakl	34
1284	kakl	35	`void delay(int16 cycles) // Wire exercise with delay`
1274	kakl	36	`{`
1275	kakl	37	`int16 i;`
1278	kakl	38
1275	kakl	39	`for(i=0; i<cycles; i++) {toggle_dome(); delay_us(100);}`
		40	`}`
1274	kakl	41
1284	kakl	42	`void welcome(void) // Welcome message`
		43	`{`
		44	`printf("\n\r* Mrakomer %s (C) 2007 KAKL *\n\r",VER); // Welcome message`
		45	`printf("* %s *\n\r",REV);`
		46	`printf("<#sequence> <ambient [1/100 C]> <sky [1/100 C]> ");`
		47	`printf("<heating [s]> <dome [s]>\n\r\n\r");`
		48	`}`
1274	kakl	49
		50
1284	kakl	51	`#include "smb.c" // System Management Bus driver`
1274	kakl	52
1284	kakl	53
1280	kakl	54	`// Read sensor RAM`
		55	`// Returns temperature in °K`
1281	kakl	56	`int16 ReadTemp(int8 addr, int8 select)`
1274	kakl	57	`{`
		58	`unsigned char arr[6]; // Buffer for the sent bytes`
		59	`int8 crc; // Readed CRC`
		60	`int16 temp; // Readed temperature`
		61
1275	kakl	62	`addr<<=1;`
		63
1284	kakl	64	`SMB_STOP_bit(); //If slave send NACK stop comunication`
		65	`SMB_START_bit(); //Start condition`
1275	kakl	66	`SMB_TX_byte(addr);`
		67	`SMB_TX_byte(RAM_Access\|select);`
1284	kakl	68	`SMB_START_bit(); //Repeated Start condition`
1275	kakl	69	`SMB_TX_byte(addr);`
1284	kakl	70	`arr[2]=SMB_RX_byte(ACK); //Read low data,master must send ACK`
		71	`arr[1]=SMB_RX_byte(ACK); //Read high data,master must send ACK`
1274	kakl	72	`temp=MAKE16(arr[1],arr[2]);`
1284	kakl	73	`crc=SMB_RX_byte(NACK); //Read PEC byte, master must send NACK`
		74	`SMB_STOP_bit(); //Stop condition`
1274	kakl	75
		76	`arr[5]=addr;`
		77	`arr[4]=RAM_Access\|select;`
		78	`arr[3]=addr;`
		79	`arr[0]=0;`
		80	`if (crc != PEC_calculation(arr)) temp=0; // Calculate and check CRC`
		81
		82	`return temp;`
		83	`}`
		84
1284	kakl	85	`/-----------------------------------------------------------------------/`
1274	kakl	86	`void main()`
		87	`{`
1280	kakl	88	`unsigned int16 seq, temp, tempa;`
1274	kakl	89	`signed int16 ta, to;`
1280	kakl	90	`int8 safety_counter;`
1288	kakl	91	`int1 repeat;`
1274	kakl	92
1285	kakl	93	`output_high(DOME); // Close Dome`
1274	kakl	94	`output_low(HEATING); // Heating off`
		95	`setup_wdt(WDT_2304MS); // Setup Watch Dog`
		96	`setup_adc_ports(NO_ANALOGS);`
		97	`setup_adc(ADC_OFF);`
		98	`setup_timer_0(RTCC_INTERNAL\|RTCC_DIV_1);`
		99	`setup_timer_1(T1_DISABLED);`
		100	`setup_timer_2(T2_DISABLED,0,1);`
		101	`setup_comparator(NC_NC_NC_NC);`
		102	`setup_vref(FALSE);`
		103	`// setup_oscillator(OSC_4MHZ\|OSC_INTRC,+2); // Pokud je nutna kalibrace RCosc`
1283	kakl	104	`setup_oscillator(OSC_8MHZ\|OSC_INTRC);`
1274	kakl	105
		106	`delay_ms(1000);`
		107	`restart_wdt();`
1284	kakl	108
1285	kakl	109	`seq=0; // Variables initiation`
		110	`heat=0;`
		111	`open=0;`
1288	kakl	112	`repeat=FALSE;`
		113
1284	kakl	114	`welcome();`
1285	kakl	115
1274	kakl	116	`tempa=ReadTemp(SA, RAM_Tamb); // Dummy read`
		117	`temp=ReadTemp(SA, RAM_Tobj1);`
		118
1286	kakl	119	`delay_ms(1000);`
1280	kakl	120	`//---WDT`
1274	kakl	121	`restart_wdt();`
		122
1284	kakl	123	`while(TRUE) // Main Loop`
1274	kakl	124	`{`
1284	kakl	125	`safety_counter=SAFETY_COUNT; // Heating and Dome Count Down`
1278	kakl	126	`do`
1274	kakl	127	`{`
1280	kakl	128	`if (safety_counter<SAFETY_COUNT) safety_counter++;`
1274	kakl	129
1280	kakl	130	`delay(RESPONSE_DELAY);`
		131
		132	`if (safety_counter>=SAFETY_COUNT)`
		133	`{`
1288	kakl	134	`if (heat>0) heat--;`
1280	kakl	135	`if (open>0) open--;`
		136
		137	`safety_counter=0;`
		138	`//---WDT`
		139	`restart_wdt();`
		140	`}`
1288	kakl	141	`} while (!kbhit()&&!repeat);`
1285	kakl	142
1280	kakl	143	`//---WDT`
		144	`restart_wdt();`
1284	kakl	145	`{ // Retrieve command`
1288	kakl	146	`char ch='k';`
1278	kakl	147
1288	kakl	148	`if(kbhit()) ch=getc();`
1278	kakl	149
1274	kakl	150	`switch (ch)`
		151	`{`
		152	`case 'h':`
1280	kakl	153	`heat=MAXHEAT; // Need heating`
1274	kakl	154	`break;`
1278	kakl	155
1274	kakl	156	`case 'c':`
1280	kakl	157	`heat=0; // Need colder`
1274	kakl	158	`break;`
1278	kakl	159
1274	kakl	160	`case 'o':`
		161	`open=MAXOPEN; // Open the dome`
		162	`break;`
1278	kakl	163
1284	kakl	164	`case 'x':`
		165	`open=MAXOPEN; // Open the dome`
		166	`heat=MAXHEAT; // Need heating`
		167	`break;`
		168
1274	kakl	169	`case 'l':`
		170	`open=0; // Lock the dome`
		171	`break;`
1284	kakl	172
		173	`case 'i':`
1287	kakl	174	`if (open==0) welcome(); // Information about version, etc...`
		175	`break; // Only when dome is closed`
1288	kakl	176
		177	`case 'r':`
		178	`repeat=TRUE; // Repeate measure mode`
		179	`break;`
		180
		181	`case 's':`
		182	`repeat=FALSE; // Single measure mode`
		183	`break;`
1274	kakl	184	`}`
		185	`}`
1288	kakl	186	`// while(kbhit()) getc(); // Flush USART buffer`
		187	`CREN=0; CREN=1; // Reinitialise USART`
1274	kakl	188
1280	kakl	189	`seq++; // Increment the number of measurement`
1274	kakl	190
		191	`tempa=ReadTemp(SA, RAM_Tamb); // Read temperatures from sensor`
		192	`temp=ReadTemp(SA, RAM_Tobj1);`
		193
		194	`ta=tempa*2-27315; // °K -> °C`
		195	`to=temp*2-27315;`
		196
		197	`{ // printf`
1284	kakl	198	`char output[8]; // Output buffer`
		199	`int8 j; // String pointer`
1278	kakl	200
1282	kakl	201	`delay(SEND_DELAY);`
		202	`sprintf(output,"#%Lu ", seq);`
		203	`j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j++]); }`
		204	`sprintf(output,"%Ld ", ta);`
		205	`j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j++]); }`
		206	`sprintf(output,"%Ld ", to);`
		207	`j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j++]); }`
1283	kakl	208	`sprintf(output,"%u ", heat);`
1282	kakl	209	`j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j++]); }`
		210	`sprintf(output,"%u\n\r\0", open);`
		211	`j=0; while(output[j]!=0) { delay(SEND_DELAY); putc(output[j++]); }`
1274	kakl	212	`}`
1288	kakl	213
		214	`if(heating>0) { output_high(HEATING); } else { output_low(HEATING); }`
1280	kakl	215
		216	`delay(MEASURE_DELAY); // Delay to a next measurement`
		217	`//---WDT`
		218	`restart_wdt();`
1274	kakl	219	`}`
		220	`}`
		221

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