Skillnad mellan versioner av "Grove - 3 Axis Digital Accelerometer(±16g)"
(5 mellanliggande versioner av samma användare visas inte) | |||
Rad 104: | Rad 104: | ||
=== Raspberry Pi === | === Raspberry Pi === | ||
− | < | + | <syntaxhighlight lang="Python" line='line'"> |
import smbus | import smbus | ||
from time import sleep | from time import sleep | ||
Rad 207: | Rad 207: | ||
print " y = %.3fG" % ( axes['y'] ) | print " y = %.3fG" % ( axes['y'] ) | ||
print " z = %.3fG" % ( axes['z'] ) | print " z = %.3fG" % ( axes['z'] ) | ||
− | </ | + | </syntaxhighlight> |
== Mer information == | == Mer information == | ||
Rad 213: | Rad 213: | ||
[[Category:Grove]] | [[Category:Grove]] | ||
+ | [[Category:Grove-Sensor]] | ||
+ | |||
+ | [[Category:Kna-Wiki]] |
Nuvarande version från 4 februari 2021 kl. 07.24
Innehåll
Kompatibilitet
- Arduino
Port
- I2C
Bibliotek
https://github.com/Seeed-Studio/Accelerometer_ADXL345
Exempelkod
Arduino
#include <Wire.h>
#include <ADXL345.h>
ADXL345 adxl; //variable adxl is an instance of the ADXL345 library
void setup(){
Serial.begin(9600);
adxl.powerOn();
//set activity/ inactivity thresholds (0-255)
adxl.setActivityThreshold(75); //62.5mg per increment
adxl.setInactivityThreshold(75); //62.5mg per increment
adxl.setTimeInactivity(10); // how many seconds of no activity is inactive?
//look of activity movement on this axes - 1 == on; 0 == off
adxl.setActivityX(1);
adxl.setActivityY(1);
adxl.setActivityZ(1);
//look of inactivity movement on this axes - 1 == on; 0 == off
adxl.setInactivityX(1);
adxl.setInactivityY(1);
adxl.setInactivityZ(1);
//look of tap movement on this axes - 1 == on; 0 == off
adxl.setTapDetectionOnX(0);
adxl.setTapDetectionOnY(0);
adxl.setTapDetectionOnZ(1);
//set values for what is a tap, and what is a double tap (0-255)
adxl.setTapThreshold(50); //62.5mg per increment
adxl.setTapDuration(15); //625us per increment
adxl.setDoubleTapLatency(80); //1.25ms per increment
adxl.setDoubleTapWindow(200); //1.25ms per increment
//set values for what is considered freefall (0-255)
adxl.setFreeFallThreshold(7); //(5 - 9) recommended - 62.5mg per increment
adxl.setFreeFallDuration(45); //(20 - 70) recommended - 5ms per increment
//setting all interrupts to take place on int pin 1
//I had issues with int pin 2, was unable to reset it
adxl.setInterruptMapping( ADXL345_INT_SINGLE_TAP_BIT, ADXL345_INT1_PIN );
adxl.setInterruptMapping( ADXL345_INT_DOUBLE_TAP_BIT, ADXL345_INT1_PIN );
adxl.setInterruptMapping( ADXL345_INT_FREE_FALL_BIT, ADXL345_INT1_PIN );
adxl.setInterruptMapping( ADXL345_INT_ACTIVITY_BIT, ADXL345_INT1_PIN );
adxl.setInterruptMapping( ADXL345_INT_INACTIVITY_BIT, ADXL345_INT1_PIN );
//register interrupt actions - 1 == on; 0 == off
adxl.setInterrupt( ADXL345_INT_SINGLE_TAP_BIT, 1);
adxl.setInterrupt( ADXL345_INT_DOUBLE_TAP_BIT, 1);
adxl.setInterrupt( ADXL345_INT_FREE_FALL_BIT, 1);
adxl.setInterrupt( ADXL345_INT_ACTIVITY_BIT, 1);
adxl.setInterrupt( ADXL345_INT_INACTIVITY_BIT, 1);
}
void loop(){
//Boring accelerometer stuff
int x,y,z;
adxl.readXYZ(&x, &y, &z); //read the accelerometer values and store them in variables x,y,z
// Output x,y,z values
Serial.print("values of X , Y , Z: ");
Serial.print(x);
Serial.print(" , ");
Serial.print(y);
Serial.print(" , ");
Serial.println(z);
double xyz[3];
double ax,ay,az;
adxl.getAcceleration(xyz);
ax = xyz[0];
ay = xyz[1];
az = xyz[2];
Serial.print("X=");
Serial.print(ax);
Serial.println(" g");
Serial.print("Y=");
Serial.print(ay);
Serial.println(" g");
Serial.print("Z=");
Serial.print(az);
Serial.println(" g");
Serial.println("**********************");
delay(500);
}
Raspberry Pi
import smbus
from time import sleep
# select the correct i2c bus for this revision of Raspberry Pi
revision = ([l[12:-1] for l in open('/proc/cpuinfo','r').readlines() if l[:8]=="Revision"]+['0000'])[0]
bus = smbus.SMBus(1 if int(revision, 16) >= 4 else 0)
# ADXL345 constants
EARTH_GRAVITY_MS2 = 9.80665
SCALE_MULTIPLIER = 0.004
DATA_FORMAT = 0x31
BW_RATE = 0x2C
POWER_CTL = 0x2D
BW_RATE_1600HZ = 0x0F
BW_RATE_800HZ = 0x0E
BW_RATE_400HZ = 0x0D
BW_RATE_200HZ = 0x0C
BW_RATE_100HZ = 0x0B
BW_RATE_50HZ = 0x0A
BW_RATE_25HZ = 0x09
RANGE_2G = 0x00
RANGE_4G = 0x01
RANGE_8G = 0x02
RANGE_16G = 0x03
MEASURE = 0x08
AXES_DATA = 0x32
class ADXL345:
address = None
def __init__(self, address = 0x53):
self.address = address
self.setBandwidthRate(BW_RATE_100HZ)
self.setRange(RANGE_2G)
self.enableMeasurement()
def enableMeasurement(self):
bus.write_byte_data(self.address, POWER_CTL, MEASURE)
def setBandwidthRate(self, rate_flag):
bus.write_byte_data(self.address, BW_RATE, rate_flag)
# set the measurement range for 10-bit readings
def setRange(self, range_flag):
value = bus.read_byte_data(self.address, DATA_FORMAT)
value &= ~0x0F;
value |= range_flag;
value |= 0x08;
bus.write_byte_data(self.address, DATA_FORMAT, value)
# returns the current reading from the sensor for each axis
#
# parameter gforce:
# False (default): result is returned in m/s^2
# True : result is returned in gs
def getAxes(self, gforce = False):
bytes = bus.read_i2c_block_data(self.address, AXES_DATA, 6)
x = bytes[0] | (bytes[1] << 8)
if(x & (1 << 16 - 1)):
x = x - (1<<16)
y = bytes[2] | (bytes[3] << 8)
if(y & (1 << 16 - 1)):
y = y - (1<<16)
z = bytes[4] | (bytes[5] << 8)
if(z & (1 << 16 - 1)):
z = z - (1<<16)
x = x * SCALE_MULTIPLIER
y = y * SCALE_MULTIPLIER
z = z * SCALE_MULTIPLIER
if gforce == False:
x = x * EARTH_GRAVITY_MS2
y = y * EARTH_GRAVITY_MS2
z = z * EARTH_GRAVITY_MS2
x = round(x, 4)
y = round(y, 4)
z = round(z, 4)
return {"x": x, "y": y, "z": z}
if __name__ == "__main__":
# if run directly we'll just create an instance of the class and output
# the current readings
adxl345 = ADXL345()
axes = adxl345.getAxes(True)
print "ADXL345 on address 0x%x:" % (adxl345.address)
print " x = %.3fG" % ( axes['x'] )
print " y = %.3fG" % ( axes['y'] )
print " z = %.3fG" % ( axes['z'] )
Mer information
http://wiki.seeedstudio.com/Grove-3-Axis_Digital_Accelerometer-16g/