SEN-08942



Le SEN-08942 est un ensemble anémomètre, girouette et pluviomètre (anemometer, wind vane, and rain gauge) permettant de prototyper une station météo amateur.


 * Spec http://www.sparkfun.com/datasheets/Sensors/Weather/Weather%20Sensor%20Assembly..pdf
 * http://www.sparkfun.com/products/8942
 * http://www.lextronic.fr/P4452-capteurs-pour-station-meteo.html
 * http://home.comcast.net/~saustin98/misc/WeatherStationADC.txt

// From http://home.comcast.net/~saustin98/misc/WeatherStationADC.txt

/* Arduino sketch for Weather device from Sparkfun. Uses only the wind direction vane and the anemometer (not the rain gauge).

Although the inclination for a weather logger is to run it for a long time, due to the way Wiring.c implements the millis function, this should be restarted, oh, monthly. The millis functions overflows after about 49 days. We could allow for that here, and handle the wraparound, but you've got bigger problems anyway with the delay function at an overflow, so it's best to "reboot".

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============================================ ANEMOMETER

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============================================ This is connected to Arduino ground on one side, and pin 2 (for the attachInterrupt(0, ...) on the other. Pin 2 is pulled up, and the reed switch on the anemometer will send that to ground once per revolution, which will trigger the interrupt. We count the number of revolutions in 5 seconds, and divide by 5. One Hz (rev/sec) = 1.492 mph.

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============================================ WIND DIRECTION VANE

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============================================ We use a classic voltage divider to measure the resistance in the weather vane, which varies by direction. Using a 10K resistor, our ADC reading will be: 1023 * (R/(10000+R)) where R is the unknown resistance from the vane. We'll scale the 1023 down to a 255 range, to match the datasheet docs.

+5V |                  <                   >     10K <  Resistor <                  >                   | Analog Pin 5--| |                  ---| To weather vane | (mystery resistance) ---|                  |                   |                 -                  ---                   - The ADC values we get for each direction (based on a 255 max) follow, assuming that pointing away from the assembly center is sector zero. The sector number is just which 45-degree sector it is, clockwise from the "away" direction. The direction shown is assuming that "away" is West. Depending how you orient the system, you'll have to adjust the directions.

Sector  Reading  Direction 0       18        W  1        33        NW  2        57        N  7        97        SW  3       139        NE  6       183        S  5       208        SE  4       232        E The values in the ADC table below list the midpoints between these, so our reading can vary a bit. We'll pick the first value that's >= our reading.

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============================================ RAIN GAUGE

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============================================ Not implemented here. Hey. I live in Seattle. It's ALWAYS raining. Who cares how much? Okay, it would probably be done the same way as the anemometer, and use attachInterrupt(1, ...) on pin 3. Each interrupt represents .011 inches of rain, according to the docs.




 * 1) define uint unsigned int
 * 2) define ulong unsigned long


 * 1) define PIN_ANEMOMETER 2     // Digital 2
 * 2) define PIN_VANE       5     // Analog 5

// How often we want to calculate wind speed or direction
 * 1) define MSECS_CALC_WIND_SPEED 5000
 * 2) define MSECS_CALC_WIND_DIR  5000

volatile int numRevsAnemometer = 0; // Incremented in the interrupt ulong nextCalcSpeed;               // When we next calc the wind speed ulong nextCalcDir;                 // When we next calc the direction ulong time;                        // Millis at each start of loop.

// ADC readings: ulong  adc[NUMDIRS] = {26, 45, 77, 118, 161, 196, 220, 256};
 * 1) define NUMDIRS 8

// These directions match 1-for-1 with the values in adc, but // will have to be adjusted as noted above. Modify 'dirOffset' // to which direction is 'away' (it's West here). char *strVals[NUMDIRS] = {"W","NW","N","SW","NE","S","SE","E"}; byte dirOffset=0;

//======================================================= // Initialize //======================================================= void setup { Serial.begin(9600); pinMode(PIN_ANEMOMETER, INPUT); digitalWrite(PIN_ANEMOMETER, HIGH); attachInterrupt(0, countAnemometer, FALLING); nextCalcSpeed = millis + MSECS_CALC_WIND_SPEED; nextCalcDir  = millis + MSECS_CALC_WIND_DIR; }

//======================================================= // Main loop. //======================================================= void loop { time = millis;

if (time >= nextCalcSpeed) { calcWindSpeed; nextCalcSpeed = time + MSECS_CALC_WIND_SPEED; }  if (time >= nextCalcDir) { calcWindDir; nextCalcDir = time + MSECS_CALC_WIND_DIR; } }

//======================================================= // Interrupt handler for anemometer. Called each time the reed // switch triggers (one revolution). //======================================================= void countAnemometer { numRevsAnemometer++; }

//======================================================= // Find vane direction. //======================================================= void calcWindDir { int val; byte x, reading;

val = analogRead(PIN_VANE); val >>=2;                       // Shift to 255 range reading = val;

// Look the reading up in directions table. Find the first value // that's >= to what we got. for (x=0; x= reading) break; }  //Serial.println(reading, DEC); x = (x + dirOffset) % 8;  // Adjust for orientation Serial.print(" Dir: "); Serial.println(strVals[x]); }

//======================================================= // Calculate the wind speed, and display it (or log it, whatever). // 1 rev/sec = 1.492 mph //======================================================= void calcWindSpeed { int x, iSpeed; // This will produce mph * 10 // (didn't calc right when done as one statement) long speed = 14920; speed *= numRevsAnemometer; speed /= MSECS_CALC_WIND_SPEED; iSpeed = speed;        // Need this for formatting below

Serial.print("Wind speed: "); x = iSpeed / 10; Serial.print(x); Serial.print('.'); x = iSpeed % 10; Serial.print(x);

numRevsAnemometer = 0;       // Reset counter }