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kakl |
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/* PCRD Japan */ |
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/* |
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* SD card attached to SPI bus as follows: |
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** SDcard01B/CMD MOSI - pin PB3 |
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** SDcard01B/DATA0 MISO - pin PB4 |
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** SDcard01B/CLK CLK - pin PB5 |
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** SDcard01B/CD/DATA3 CS - pin PD4 |
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** ADCmonoSPI/CONV - pin PD6 |
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** ADCmonoSPI/SDO - pin PD5 |
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** ADCmonoSPI/SCK - pin PD7 shared with LED4 |
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*/ |
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#include <SD.h> |
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const String filename = "log.csv "; // filename for logfile |
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const int ADreset=3; // PD3 |
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const int eint=2; // PD2 |
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const int LED1=8; // PB0 |
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const int LED2=9; // PB1 |
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const int LED3=10; // PB2 |
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const int LED4=7; // PD7 |
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const int chipSelect = 4; // CS is PD4 |
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const int CONV = 6; // CONV is PD6 |
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const int SDO = 5; // SDO is PD5 |
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const int ADSCK = 7; // SCK is PD7 |
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kakl |
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const int CHANNELS=512; // Number of channels |
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kakl |
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//unsigned int channelT[CHANNELS]; // recordig buffer |
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kakl |
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unsigned char channelA[CHANNELS]; // recordig buffer |
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kakl |
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boolean rise=false; // flag fo recording time |
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char inChar; // input character from GPS |
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String dataString = ""; // concantenated string with NMEA messages and measured values |
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int coll = 0; // collons counter in NMEA messages |
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unsigned int num = 0; // measurements counter |
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unsigned int count; // measurements per 10 s |
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40 |
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// 1x 100 us per 10 s UTC synchronised without FIX; 40 configuration bytes |
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const char cmd[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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// airborne <1g; 40 configuration bytes |
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const char cmd2[44]={0xB5, 0x62 ,0x06 ,0x24 ,0x24 ,0x00 ,0xFF ,0xFF ,0x06 ,0x03 ,0x00 ,0x00 ,0x00 ,0x00 ,0x10 ,0x27 ,0x00 ,0x00 ,0x05 ,0x00 ,0xFA ,0x00 ,0xFA ,0x00 ,0x64 ,0x00 ,0x2C ,0x01 ,0x00 ,0x3C ,0x00 ,0x00 ,0x00 ,0x00 ,0x00 ,0x00 ,0x00 ,0x00 ,0x00 ,0x00 ,0x00 ,0x00 ,0x52 ,0xE8}; |
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// configure GPS |
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void setupGPS() |
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{ |
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for (int n=0;n<40;n++) Serial.write(cmd[n]); |
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for (int n=0;n<44;n++) Serial.write(cmd2[n]); |
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} |
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void errorLED() |
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{ |
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while(true) |
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{ |
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digitalWrite(LED4, HIGH); // turn the LED on (HIGH is the voltage level) |
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delay(100); // wait for a second |
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digitalWrite(LED4, LOW); // turn the LED off by making the voltage LOW |
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delay(100); // wait for a second |
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} |
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} |
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// function for reading $GPRMC NMEA message |
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void ReadGPRMC() |
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{ |
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// $GPRMC,091451.00,A,4915.64143,N,01441.50397,E,0.053,,090215,,,A*74 |
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coll = 0; |
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while(1) // wait for $GPRMC |
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{ |
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// get incoming byte: |
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while (!Serial.available()); |
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if (Serial.read() != '$') continue; |
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while (!Serial.available()); |
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if (Serial.read() != 'G') continue; |
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while (!Serial.available()); |
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if (Serial.read() != 'P') continue; |
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while (!Serial.available()); |
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if (Serial.read() != 'R') continue; |
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while (!Serial.available()); |
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if (Serial.read() != 'M') continue; |
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while (!Serial.available()); |
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if (Serial.read() != 'C') continue; |
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while (!Serial.available()); |
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if (Serial.read() != ',') continue; |
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break; |
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} |
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do |
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{ |
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while (!Serial.available()); |
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inChar = (char)Serial.read(); |
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if (inChar == ',') coll++; |
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dataString += inChar; |
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} |
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while (coll < 9); // read only 9 coma separated values |
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} |
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// function for reading $GPGGA NMEA message |
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void ReadGPGGA() |
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{ |
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// $GPGGA,091451.00,4915.64143,N,01441.50397,E,1,09,0.90,443.2,M,44.0,M,,*50 |
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coll = 0; |
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while(1) // wait for $GPGGA |
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{ |
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while (!Serial.available()); |
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if (Serial.read() != '$') continue; |
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while (!Serial.available()); |
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if (Serial.read() != 'G') continue; |
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while (!Serial.available()); |
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if (Serial.read() != 'P') continue; |
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while (!Serial.available()); |
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if (Serial.read() != 'G') continue; |
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while (!Serial.available()); |
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if (Serial.read() != 'G') continue; |
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while (!Serial.available()); |
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if (Serial.read() != 'A') continue; |
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while (!Serial.available()); |
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if (Serial.read() != ',') continue; |
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break; |
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} |
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do |
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{ |
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while (!Serial.available()); |
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inChar = (char)Serial.read(); |
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if (inChar == ',') coll++; |
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if (coll > 4) dataString += inChar; // skip first 5 coma separated values |
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} |
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while (coll < 12); // read only 7 coma separated values |
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} |
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void isr() // interrupt service routine driven from 1PPS from GPS |
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{ |
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{ |
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rise=true; |
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} |
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} |
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void record() |
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{ |
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kakl |
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for (int c=67; c<CHANNELS; c++) |
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kakl |
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{ |
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if (channelA[c]>0) |
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{ |
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digitalWrite(LED4, HIGH); // LED 16-64 |
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break; |
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} |
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} |
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kakl |
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for (int c=33; c<64; c++) |
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kakl |
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{ |
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if (channelA[c]>0) |
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{ |
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digitalWrite(LED3, HIGH); // LED 9-16 |
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break; |
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} |
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} |
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kakl |
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for (int c=17; c<32; c++) |
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kakl |
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{ |
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if (channelA[c]>0) |
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{ |
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digitalWrite(LED2, HIGH); // LED 5-8 |
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break; |
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} |
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} |
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for (int c=0; c<16; c++) |
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kakl |
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{ |
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if (channelA[c]>0) |
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{ |
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digitalWrite(LED1, HIGH); // LED 0-4 |
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break; |
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} |
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} |
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dataString = ""; // make a string for assembling the data to log |
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kakl |
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//* |
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ReadGPRMC(); // read NMEA sentences from GPS |
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ReadGPGGA(); |
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//*/ |
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kakl |
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// make a string for assembling the data to log: |
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dataString += String(num++); |
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//dataString += ","; |
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kakl |
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//!!! Serial.print(dataString); |
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kakl |
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// open the file. note that only one file can be open at a time, |
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// so you have to close this one before opening another. |
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digitalWrite(chipSelect, HIGH); |
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char fileNameCharArray[filename.length()]; |
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filename.toCharArray(fileNameCharArray, filename.length()); |
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File dataFile; |
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dataFile = SD.open(fileNameCharArray, FILE_WRITE); |
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if (dataFile) |
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{ |
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dataFile.print(dataString); |
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dataFile.close(); |
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} |
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else |
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{ |
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errorLED(); |
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} |
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for (int i=0; i<(CHANNELS/32); i++) |
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{ |
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dataString = ""; |
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for (int n=0; n<32; n++) |
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{ |
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dataString += ","; |
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dataString += String(channelA[(i*32)+n]); |
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}; |
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dataFile = SD.open(fileNameCharArray, FILE_WRITE); |
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if (dataFile) |
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{ |
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dataFile.print(dataString); |
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dataFile.close(); |
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} |
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else |
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{ |
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errorLED(); |
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} |
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} |
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kakl |
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dataString = ","; |
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dataString += String(count); |
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dataFile = SD.open(fileNameCharArray, FILE_WRITE); |
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if (dataFile) |
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{ |
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dataFile.println(dataString); |
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dataFile.close(); |
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} |
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else |
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{ |
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errorLED(); |
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} |
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kakl |
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digitalWrite(chipSelect, LOW); |
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kakl |
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/*!!! control print |
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kakl |
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//TODO print to I2C display |
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kakl |
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Serial.print(":"); |
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Serial.print(count); |
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Serial.print("*"); |
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for(int j=0;j<36;j++) {Serial.print(channelA[j]); Serial.print(' ');} |
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Serial.println(); |
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kakl |
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//*/ |
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kakl |
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for (int n=0; n<CHANNELS; n++) // clear recording buffer |
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{ |
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channelA[n]=0; |
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} |
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digitalWrite(LED1, LOW); // LED OFF |
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digitalWrite(LED2, LOW); // LED OFF |
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digitalWrite(LED3, LOW); // LED OFF |
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digitalWrite(LED4, LOW); // LED OFF |
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} |
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void setup() |
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{ |
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// Open serial communications and wait for port to open: |
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Serial.begin(9600); |
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while (!Serial) {;} |
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//Serial.println("#cvak"); |
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pinMode(ADreset, OUTPUT); |
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pinMode(eint, INPUT); |
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pinMode(SDO, INPUT); |
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pinMode(LED1, OUTPUT); |
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pinMode(LED2, OUTPUT); |
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pinMode(LED3, OUTPUT); |
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pinMode(LED4, OUTPUT); |
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pinMode(CONV, OUTPUT); |
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//pinMode(SCK, OUTPUT); |
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setupGPS(); |
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//Serial.print("#Initializing SD card..."); // inserting a SD Card always reset the processor and call setup |
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// make sure that the default chip select pin is set to |
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// output, even if you don't use it: |
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// see if the card is present and can be initialized: |
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if (!SD.begin(chipSelect)) |
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{ |
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//Serial.println("Card failed, or not present"); |
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// don't do anything more: |
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errorLED(); |
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return; |
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} |
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//Serial.println("card initialized."); |
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noInterrupts(); // disable all interrupts |
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attachInterrupt(0, isr, RISING); // initialise interrupt from rising edge of 1PPS |
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for (int n=0; n<CHANNELS; n++) // clear recoding buffer |
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{ |
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channelA[n]=0; |
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} |
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interrupts(); // enable all interrupts |
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//Serial.println("#Hmmm"); |
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} |
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void loop() |
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{ |
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kakl |
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unsigned int val; |
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unsigned int treshold = 1; |
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count = 0; |
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kakl |
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while (true) |
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{ |
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kakl |
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count++; |
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kakl |
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digitalWrite(ADSCK, HIGH); |
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digitalWrite(CONV, HIGH); // start AD conversion |
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digitalWrite(ADreset, HIGH); // reset Peack Detector |
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digitalWrite(CONV, LOW); // start SPI |
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digitalWrite(ADreset, LOW); // start Peack Detector |
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val=0; |
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kakl |
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for (int p=0;p<9;p++) |
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kakl |
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{ |
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digitalWrite(ADSCK, LOW); // 1 CLK |
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digitalWrite(ADSCK, HIGH); |
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val= (val<<1)|digitalRead(SDO); |
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} |
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digitalWrite(ADSCK, LOW); // 1 CLK |
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kakl |
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if (channelA[val] < 255) channelA[val]++; |
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kakl |
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if (rise) // recording time is now |
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{ |
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record(); // make record |
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digitalWrite(ADreset, HIGH); // reset Peack Detector |
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rise = false; |
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count = 0; |
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digitalWrite(ADreset, LOW); // start Peack Detector |
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continue; // skip this interrupted impuls |
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} |
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} |
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} |