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kakl |
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// Atomic counter with I2C and RS232 output |
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// Usage conditions: |
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// 1. The first I2C or RS232 readout can be performed minimally 20 s after power up. |
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// 2. The I2C internal address 0 has to be read first. |
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// 3. An I2C readout can be performed at 15-th, 35-th and 55-th second of UTC. |
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// |
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// Counter gives 32 bit value: |
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// I2C register address 0 = LSB |
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// I2C register address 3 = MSB |
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kakl |
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#define ID "$Id: main.c 3741 2014-10-25 22:30:12Z kakl $" |
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kaklik |
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#include "main.h" |
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kaklik |
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#use i2c(SLAVE, Fast, sda=PIN_C4, scl=PIN_C3, force_hw, address=0xA2) |
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kaklik |
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kakl |
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#include <string.h> |
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kaklik |
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kakl |
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#define LED PIN_B3 // heartbeat indicator |
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kaklik |
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#define SEL0 PIN_E0 // external counter division ratio |
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#define SEL1 PIN_E1 // external counter division ratio |
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#define MR PIN_E2 // external counter master reset |
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#define CLKI PIN_C0 // internal counter input |
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kaklik |
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kakl |
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unsigned int32 count; // count per second |
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kaklik |
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kakl |
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int1 fire_setup; // flag for sending setup to GPS |
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kakl |
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#define BUF_LEN 4 |
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int8 buffer[BUF_LEN]; // I2C buffer |
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kaklik |
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int8 address=0; |
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kaklik |
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unsigned int16 of=0; // count of overflow |
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kakl |
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// 1x 100 us per 10 s UTC synchronised; 40 configuration bytes |
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char cmd[50]={40, 0xB5, 0x62, 0x06, 0x31, 0x20, 0x00, 0x00, 0x00, 0x00, 0x00, 0x32, 0x00, 0x00, 0x00, 0x80, 0x96, 0x98, 0x00, 0xE0, 0xC8, 0x10, 0x00, 0x64, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x73, 0x00, 0x00, 0x00, 0xC6, 0x51}; |
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kakl |
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// configure GPS |
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void setup_GPS() |
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{ |
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int n; |
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kakl |
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int len; |
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len=cmd[0]; |
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for (n=1;n<=len;n++) putc(cmd[n]); |
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kakl |
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} |
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kaklik |
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kaklik |
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#INT_SSP |
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void ssp_interupt () |
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{ |
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kakl |
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int8 incoming, state; |
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kaklik |
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state = i2c_isr_state(); |
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kakl |
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if(state < 0x80) //Master is sending data |
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{ |
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incoming = i2c_read(); // Read byte |
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if(state == 1) //Second received byte is address of register |
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kaklik |
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{ |
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kakl |
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address = incoming; |
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kaklik |
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} |
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kakl |
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if(state == 2) //Thid received byte are configuration data |
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{ |
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if ((address==0)&&(incoming==0)) |
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{ |
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fire_setup = 1; // Write configuration to the GPS if configuration data length is 0 |
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} |
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else |
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{ |
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cmd[address] = incoming; // Store byte to configuration sentence |
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} |
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} |
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kaklik |
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} |
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if(state == 0x80) //Master is requesting data |
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{ |
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kakl |
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//i2c_read(); // Dummy read of I2C device address |
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if(address == 0) // Change buffer atomically at reading of the first byte |
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{ |
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buffer[0]=make8(count,0); |
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buffer[1]=make8(count,1); |
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buffer[2]=make8(count,2); |
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buffer[3]=make8(count,3); |
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} |
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kakl |
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if(address <= BUF_LEN) |
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kakl |
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{ |
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kakl |
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i2c_write(buffer[address]); // Prepare one byte to SSP buffer |
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} |
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else |
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{ |
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kakl |
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i2c_write(0x00); // There is nothing to prepare, so zero |
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} |
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kaklik |
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} |
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kakl |
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if(state == 0x81) //Master is requesting data |
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{ |
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i2c_write(buffer[1]); // Prepare next byte to SSP buffer |
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} |
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if(state == 0x82) //Master is requesting data |
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{ |
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i2c_write(buffer[2]); // Prepare next byte to SSP buffer |
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} |
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if(state == 0x83) //Master is requesting data |
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{ |
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kakl |
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i2c_write(buffer[3]); // Prepare next byte to SSP buffer |
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kakl |
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} |
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if(state > 0x83) //Master is requesting data |
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{ |
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i2c_write(0x00); // There is nothing to prepare, so zero |
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} |
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kaklik |
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} |
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kaklik |
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kakl |
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#int_EXT // Interrupt from 1PPS (RB0) |
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kaklik |
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void EXT_isr(void) |
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{ |
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unsigned int16 countH; |
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unsigned int8 countL; |
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kakl |
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int16 of2; |
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kaklik |
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kakl |
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of2=of; // read overflow counter |
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countH=get_timer1(); // read internal counter |
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kaklik |
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countL=0; |
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output_low(SEL0); |
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output_low(SEL1); |
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countL=input(CLKI); // read bit 0 of external counter |
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output_high(SEL0); |
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kakl |
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// output_low(SEL1); |
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kaklik |
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countL|=input(CLKI)<<1; // read bit 1 of external counter |
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output_low(SEL0); |
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output_high(SEL1); |
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countL|=input(CLKI)<<2; // read bit 2 of external counter |
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output_high(SEL0); |
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kakl |
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// output_high(SEL1); |
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kaklik |
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countL|=input(CLKI)<<3; // read bit 3 of external counter |
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kakl |
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output_toggle(LED); // heartbeat |
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kaklik |
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output_low(MR); // External counter Master Reset |
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output_high(MR); |
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set_timer1(0); // Internal counter reset |
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kakl |
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of=0; // Overflow counter reset |
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kaklik |
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kakl |
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count=((unsigned int32)of2<<20)+((unsigned int32)countH<<4)+(unsigned int32)countL; // concatenate |
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kaklik |
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kakl |
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// printf("%010Lu\r\n", count); |
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kaklik |
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} |
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#int_TIMER1 // Interrupf from overflow |
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void TIMER1_isr(void) |
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{ |
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of++; |
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} |
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kaklik |
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void main() |
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{ |
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kakl |
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setup_adc_ports(NO_ANALOGS|VSS_VDD); |
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kaklik |
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setup_adc(ADC_OFF); |
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kakl |
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// setup_spi(SPI_SS_DISABLED); //must not be set if I2C are in use! |
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kaklik |
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setup_timer_0(RTCC_INTERNAL|RTCC_DIV_1); |
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kakl |
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setup_wdt(WDT_2304MS); |
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kaklik |
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setup_timer_1(T1_EXTERNAL|T1_DIV_BY_1); |
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kakl |
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setup_timer_2(T2_DISABLED,0,1); |
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kaklik |
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setup_comparator(NC_NC_NC_NC); |
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setup_vref(FALSE); |
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kaklik |
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kakl |
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restart_wdt(); |
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delay_ms(1000); |
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restart_wdt(); |
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// setup GPS |
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kakl |
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setup_GPS(); |
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kaklik |
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kakl |
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ext_int_edge( L_TO_H ); // set 1PPS active edge |
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enable_interrupts(INT_TIMER1); |
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enable_interrupts(INT_EXT); |
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kaklik |
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enable_interrupts(INT_SSP); |
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enable_interrupts(GLOBAL); |
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kaklik |
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kakl |
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buffer[0]=0x0; // Clear I2C output buffer |
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buffer[1]=0x0; |
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buffer[2]=0x0; |
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buffer[3]=0x0; |
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kaklik |
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kakl |
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//printf("\r\ncvak...\r\n"); |
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fire_setup = 0; |
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kaklik |
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kaklik |
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while(true) |
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kaklik |
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{ |
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kakl |
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restart_wdt(); |
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kakl |
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delay_ms(1000); |
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if (fire_setup) |
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{ |
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setup_GPS(); // Write configuration to the GPS |
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fire_setup = 0; |
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} |
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kakl |
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output_toggle(LED); // heartbeat |
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kakl |
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//printf("%X %X %X %X\r\n", buffer[0],buffer[1],buffer[2],buffer[3]); |
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//printf("%010Lu\r\n", count); |
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kaklik |
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} |
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} |