pingu_98/CosmicPiArduino
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions

CosmicPiArduino.ino

Browse source 
The code that runs on the arduino.
Handles:
GPS (with 1s timing reset)
Temp + RH
XYZ Magnetometer and Accelerometer
HV PSU (Maxim1932)
ADC sampling at speed (TBC - probably 400KHz on 2 channels)
Serial output in JSON format.
Temperature stability loop.
This commit is contained in:
James Devine 2015-10-04 20:04:08 +02:00
parent 7262c39c2e
commit 644d1e4a41
1 changed files with 387 additions and 0 deletions
Show stats Download patch file Download diff file Expand all files Collapse all files

387
CosmicPiArduino.ino Normal file
View file

@ -0,0 +1,387 @@
//this code works pretty well. Not awesome, but well enough.
//requires the Adafruit libraries to be installed in your /libraries directory
#include <Adafruit_BMP085_U.h>
#include <Adafruit_GPS.h>
#include <Adafruit_Sensor.h>
#include <Adafruit_L3GD20_U.h>
#include <Adafruit_LSM303_U.h>
#include <Adafruit_10DOF.h>
#include <Adafruit_HTU21DF.h>
#include <Wire.h>
#include <SPI.h>
//definitions of stuff
//GPS serial read on Due serial 2
#define mySerial Serial1
#define GPSECHO true
//SPI device enable pin
const int slaveAPin = 52;
//integer array for data sampling
unsigned int values[200];
//byte outputbuffer[1200];
//temperature voltage matrix. index 0, 0xFF is the minimum value - i.e. doesn't work.
int tempvoltage[50] =
{0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,
0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,
0x6D,0x6D,0x6D,0x6D,0x6D,0x6E,0x6F,0x70,0x71,0x72,
0x73,0x74,0x75,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,
0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF};
//define trigger pin
const int eventtrigger = 49;
boolean eventhappened = false;
//How many samples to readback on trigger
const int sampledepth = 10;
//how many events have happened since reset
long eventcounter = 0;
//how many measurement points have been readback in the adcoutput loop
int readoutctr = 0;
//Index counter for the ADC buffer,
int adcloopctr = 0;
//timing second reset signal from GPS
const int timeresetpin = 50;
//define adafruit components
Adafruit_10DOF dof = Adafruit_10DOF();
Adafruit_LSM303_Accel_Unified accel = Adafruit_LSM303_Accel_Unified(30301);
Adafruit_LSM303_Mag_Unified mag = Adafruit_LSM303_Mag_Unified(30302);
Adafruit_BMP085_Unified bmp = Adafruit_BMP085_Unified(18001);
Adafruit_HTU21DF htu = Adafruit_HTU21DF();
Adafruit_GPS GPS(&mySerial);
//define variables
String inputString = ""; // a string to hold incoming data
boolean stringComplete = false; // whether the string is complete
boolean timereset = false; //has an event been detected?
String lastgpsread = "";
//lastgpsread.reserve(100);
int deviceid = random(1, 10000);
float temperature = 0;
double temperatureh = 0;
int localtemp = 0;
double humidity = 0;
double baroaltitude = 0;
double accelx = 0;
double accely = 0;
double accelz = 0;
double magx = 0;
double magy = 0;
double magz = 0;
int targethv = 0xFF;
int currentval = 0xFF;
long exacttime = 0;
int uptime = 0;
String outputbuffer = ""; //write all the outputs to a buffer and then fmacro it out
float seaLevelPressure = SENSORS_PRESSURE_SEALEVELHPA;
//define a reservation for the lastgpsread
//didn't work as there's already a reservation
void setup()
{
//run the sensor initialisation routine
initSensors();
//init GPS on second serial port
GPS.begin(9600);
mySerial.begin(9600);
GPS.sendCommand(PMTK_SET_NMEA_OUTPUT_RMCONLY);
GPS.sendCommand(PMTK_SET_NMEA_UPDATE_1HZ); // 1 Hz update rate
delay(1000);
Serial.println(F("GPS online"));
inputString.reserve(250);
pinMode(timeresetpin, INPUT);
attachInterrupt(timeresetpin, timeset, RISING);
pinMode(eventtrigger, INPUT);
attachInterrupt(eventtrigger, triggermonkey, FALLING);
Serial.begin(115200); // initialize the serial port:
//setup ADC
REG_ADC_MR = 0x10380180; // change from 10380200 to 10380180, 1 is the PREESCALER and 8 means FREERUN
ADC -> ADC_CHER = 0x03; // enable ADC on pin A6 and A7
eventhappened = false;
adcloopctr = 0;
Serial.println("ADC Alive");
//check the temperature and set the target voltage
Serial.println(F("checking temp for target voltage - temp is"));
sensorreadout();
localtemp = int(temperatureh);
Serial.println(localtemp);
targethv = tempvoltage[localtemp];
Serial.println(F("Target voltage is"));
Serial.println(targethv);
//setup SPI interface and start the HV DC ramp
pinMode (slaveAPin, OUTPUT);
digitalWrite(slaveAPin, LOW);
SPI.begin();
Serial.println(F("ramping start"));
ramp(targethv);
}
void loop() {
exacttime++; //increment the sub second timer
unsigned long t = micros(); // init time an elapsed time, in micro seconds
// instrucction to measure from ADC in rolling mode
while ((ADC->ADC_ISR & 0x3) == 0); // wait for conversion
values[adcloopctr + 100] = ADC->ADC_CDR[0]; // read value A0
values[adcloopctr] = ADC->ADC_CDR[1]; // read value A0
adcloopctr++;
//read out from the GPS if the string has finished
if (stringComplete) {
lastgpsread = inputString;
lastgpsread.trim();
//debug printout
//Serial.println(inputString);
// clear the string:
inputString = "";
stringComplete = false;
}
//if the GPS says it's one second then restart the local clock and echo
if (timereset) {
Serial.println("Timereset Detection on pin 50");
Serial.println(exacttime);
exacttime = 0;
timereset = false;
}
if (eventhappened) {
readoutctr = 10;
sensorreadout();
eventcounter++;
printdatajson();
//Serial.println(F("Event"));
eventhappened = false;
}
if (int(temperatureh)!=localtemp)
{
localtemp = int(temperatureh);
Serial.println(F("Change in temperature"));
stepset(tempvoltage[localtemp]);
}
if (adcloopctr == sampledepth) {
adcloopctr = 0;
}
}
//serial event from GPS handling
void serialEvent1() {
while (Serial1.available()) {
// get the new byte:
char inChar = (char)Serial1.read();
// add it to the inputString:
if (inChar != char(10))
{
inputString += inChar;
}
// if the incoming character is a newline, set a flag
// so the main loop can do something about it:
if (inChar == '\n') {
stringComplete = true;
}
}
}
//Serial event from GPS interrupt, launches the second routine to avoid a crash
void serialEventRun(void)
{
if (Serial1.available())
serialEvent1();
}
//run once to initialise the sensor systems
void initSensors()
{
if (!accel.begin())
{
/* There was a problem detecting the LSM303 ... check your connections */
Serial.println(F("Ooops, no LSM303 detected ... Check your wiring!"));
while (1);
}
if (!mag.begin())
{
/* There was a problem detecting the LSM303 ... check your connections */
Serial.println("Ooops, no LSM303 detected ... Check your wiring!");
while (1);
}
if (!bmp.begin())
{
/* There was a problem detecting the BMP180 ... check your connections */
Serial.println("Ooops, no BMP180 detected ... Check your wiring!");
while (1);
}
if (!htu.begin()) {
Serial.println("Couldn't find HTU21DF sensor!");
while (1);
}
}
//print out everything
void printdatajson()
{
//rewritten to use a buffer
//start the data output on in json format
outputbuffer = "{\"gps\":\"";
outputbuffer = outputbuffer + lastgpsread;
outputbuffer = outputbuffer + "\",\"timing\":";
outputbuffer = outputbuffer + exacttime;
outputbuffer = outputbuffer +",\"energy\":{\"energy1\":[";
for (int firsthalf = adcloopctr + 1; firsthalf < sampledepth; firsthalf++)
{
outputbuffer = outputbuffer + (values[firsthalf]);
if (readoutctr != 1) outputbuffer = outputbuffer + (",");
readoutctr--;
}
for (int secondhalf = 0; secondhalf < adcloopctr + 1; secondhalf++)
{
outputbuffer = outputbuffer + (values[secondhalf]);
if (readoutctr != 1) outputbuffer = outputbuffer + (",");
readoutctr--;
}
outputbuffer = outputbuffer + "],";
outputbuffer = outputbuffer + "\"energy2\":[";
readoutctr = 10;
for (int firsthalf = adcloopctr + 1; firsthalf < sampledepth; firsthalf++)
{
outputbuffer = outputbuffer + values[firsthalf + 100];
if (readoutctr != 1) outputbuffer = outputbuffer + ",";
readoutctr--;
}
for (int secondhalf = 0; secondhalf < adcloopctr + 1; secondhalf++)
{
outputbuffer = outputbuffer + values[secondhalf + 100];
if (readoutctr != 1) outputbuffer = outputbuffer + ",";
readoutctr--;
}
outputbuffer = outputbuffer + "]},\"altitude\": "+ baroaltitude + ",\"humidity\": " + humidity + ",\"gravitationalOrientation\":{\"x\":" + accelx;
outputbuffer = outputbuffer + ",\"y\": "+ accely + ",\"z\":"+ accelz+ "},";
outputbuffer = outputbuffer + "\"magneticOrientation\":{\"x\":" + magx + ",\"y\":"+ magy+ ",\"z\":" + magz + "},";
outputbuffer = outputbuffer + "\"temperature\":{\"value1\":" + temperatureh; //val1 is from the humidity sensor
outputbuffer = outputbuffer + ",\"value2\":";
outputbuffer = outputbuffer + temperature;
outputbuffer = outputbuffer + "}, \"uptime\":";
outputbuffer = outputbuffer + uptime;
outputbuffer = outputbuffer + ",\"id\":";
outputbuffer = outputbuffer + deviceid;
outputbuffer = outputbuffer + "}";
Serial.println((outputbuffer));
outputbuffer = "";
}
void triggermonkey()
{
//Serial.println("trigger");
eventhappened = true;
}
void sensorreadout()
{
sensors_event_t accel_event;
sensors_event_t mag_event;
sensors_event_t bmp_event;
sensors_vec_t orientation;
/* Calculate pitch and roll from the raw accelerometer data */
accel.getEvent(&accel_event);
if (dof.accelGetOrientation(&accel_event, &orientation))
{
accelx = (accel_event.acceleration.x);
accely = (accel_event.acceleration.y);
accelz = (accel_event.acceleration.z);
}
/* Calculate the heading using the magnetometer */
mag.getEvent(&mag_event);
if (dof.magGetOrientation(SENSOR_AXIS_Z, &mag_event, &orientation))
{
magx = (mag_event.magnetic.x);
magy = (mag_event.magnetic.y);
magz = (mag_event.magnetic.z);
}
/* Calculate the altitude using the barometric pressure sensor */
bmp.getEvent(&bmp_event);
if (bmp_event.pressure)
{
/* Get ambient temperature in C */
bmp.getTemperature(&temperature);
/* Convert atmospheric pressure, SLP and temp to altitude */
baroaltitude = (bmp.pressureToAltitude(seaLevelPressure, bmp_event.pressure, temperature));
temperatureh = (htu.readTemperature());
humidity = (htu.readHumidity());
}
// energy1= energy1 + random(-100,100);
// energy2= energy2 + random(-100,100);
uptime++;
}
void timeset()
{
timereset = true;
}
void ramp(int localtarget)
{
//wait 100ms before ramp up
int difference = currentval - localtarget;
while (currentval > localtarget)
{
digitalWrite(slaveAPin, LOW);
SPI.beginTransaction(SPISettings(2000000, MSBFIRST, SPI_MODE0));
//digitalWrite(slaveAPin, LOW);
delay(180);
SPI.transfer(currentval);
Serial.println(currentval);
delay(180);
//digitalWrite(slaveAPin, HIGH);
SPI.endTransaction();
digitalWrite(slaveAPin, HIGH);
currentval = currentval - 2;
}
}
void stepset(int localtarget)
{
digitalWrite(slaveAPin, LOW);
SPI.beginTransaction(SPISettings(2000000, MSBFIRST, SPI_MODE0));
delay(180);
SPI.transfer(localtarget);
Serial.println(F("temperature change, new HV setpoint"));
Serial.println(localtarget);
delay(180);
SPI.endTransaction();
digitalWrite(slaveAPin, HIGH);
//}
}