A node.js library for communicating with the MPU9250. Based initially on the mpu6050 library (https://github.com/jstapels/mpu6050) by Jason Stapels.
| Lib. | Version |
|---|---|
| @abandonware/i2c | 0.2.4-0 |
| extend | 3.0.2 |
| sleep | 3.0.0 |
| geomagnetism | 0.0.2 |
npm install mpu9250
var mpu9250 = require('mpu9250');
// Instantiate and initialize.
var mpu = new mpu9250();
if (mpu.initialize()) {
console.log(mpu.getMotion9());
}// default value
var mpu = new mpu9250({
// i2c path (default is '/dev/i2c-1')
device: '/dev/i2c-1',
// mpu9250 address (default is 0x68)
address: 0x68,
// Enable/Disable magnetometer data (default false)
UpMagneto: true,
// If true, all values returned will be scaled to actual units (default false).
// If false, the raw values from the device will be returned.
scaleValues: false,
// Enable/Disable debug mode (default false)
DEBUG: false,
// ak8963 (magnetometer / compass) address (default is 0x0C)
ak_address: 0x0C,
// Set the Gyroscope sensitivity (default 0), where:
// 0 => 250 degrees / second
// 1 => 500 degrees / second
// 2 => 1000 degrees / second
// 3 => 2000 degrees / second
GYRO_FS: 0,
// Set the Accelerometer sensitivity (default 2), where:
// 0 => +/- 2 g
// 1 => +/- 4 g
// 2 => +/- 8 g
// 3 => +/- 16 g
ACCEL_FS: 2,
// Set DLPF Value
DLPF_CFG: mpu9250.MPU9250.DLPF_CFG_3600HZ,
// Set Accel DLPF Value
A_DLPF_CFG: mpu9250.MPU9250.A_DLPF_CFG_460HZ,
// Set ratio (between MPU9250.SAMPLERATE_MIN and MPU9250.SAMPLERATE_MAX)
SAMPLE_RATE: 8000,
});All three sensors can be calibrated and the calibrated values provided as options. See the example.js file for how
to apply the calibrated values. Run the calibrate_accel.js, calibrate_mag.js and calibrate_gyro.js to calibrate
the relevant sensors. The output will display some JSON text, copy and paste this into your code. See the relevant
JavaScript source file for the documentation on the calibration.
###Example :
#!/usr/local/bin/node
console.log('------------------(START SCRIPT)------------------');
var port = 3031;
var io = require('socket.io').listen(port);
var mpu9250 = require('mpu9250');
var mpu = new mpu9250({UpMagneto: true, DEBUG: false, GYRO_FS: 0, ACCEL_FS: 1});
var timer = 0;
var kalmanX = new mpu.Kalman_filter();
var kalmanY = new mpu.Kalman_filter();
if (mpu.initialize()) {
console.log('MPU VALUE : ', mpu.getMotion9());
console.log('listen to 0.0.0.0:' + port);
console.log('Temperature : ' + mpu.getTemperatureCelsius());
var values = mpu.getMotion9();
var pitch = mpu.getPitch(values);
var roll = mpu.getRoll(values);
var yaw = mpu.getYaw(values);
console.log('pitch value : ', pitch);
console.log('roll value : ', roll);
console.log('yaw value : ', yaw);
kalmanX.setAngle(roll);
kalmanY.setAngle(pitch);
var micros = function() {
return new Date().getTime();
};
var dt = 0;
timer = micros();
var interval;
var kalAngleX = 0,
kalAngleY = 0,
kalAngleZ = 0,
gyroXangle = roll,
gyroYangle = pitch,
gyroZangle = yaw,
gyroXrate = 0,
gyroYrate = 0,
gyroZrate = 0,
compAngleX = roll,
compAngleY = pitch,
compAngleZ = yaw;
io.on('connection', function(socket) {
var intervalTemp;
socket.on('disconnect', function() {
if (interval) {
console.log('client is dead !');
clearInterval(interval);
}
if (intervalTemp) {
clearInterval(intervalTemp);
}
});
socket.on('stop_data', function (data) {
console.log('stop send data');
if (interval) {
clearInterval(interval);
}
});
socket.on('send_data', function(data) {
interval = setInterval(function() {
var values = mpu.getMotion9();
var dt = (micros() - timer) / 1000000;
timer = micros();
pitch = mpu.getPitch(values);
roll = mpu.getRoll(values);
yaw = mpu.getYaw(values);
var gyroXrate = values[3] / 131.0;
var gyroYrate = values[4] / 131.0;
var gyroZrate = values[5] / 131.0;
if ((roll < -90 && kalAngleX > 90) || (roll > 90 && kalAngleX < -90)) {
kalmanX.setAngle(roll);
compAngleX = roll;
kalAngleX = roll;
gyroXangle = roll;
} else {
kalAngleX = kalmanX.getAngle(roll, gyroXrate, dt);
}
if (Math.abs(kalAngleX) > 90) {
gyroYrate = -gyroYrate;
}
kalAngleY = kalmanY.getAngle(pitch, gyroYrate, dt);
gyroXangle += gyroXrate * dt;
gyroYangle += gyroYrate * dt;
compAngleX = 0.93 * (compAngleX + gyroXrate * dt) + 0.07 * roll;
compAngleY = 0.93 * (compAngleY + gyroYrate * dt) + 0.07 * pitch;
if (gyroXangle < -180 || gyroXangle > 180) gyroXangle = kalAngleX;
if (gyroYangle < -180 || gyroYangle > 180) gyroYangle = kalAngleY;
var accel = {
pitch: compAngleY,
roll: compAngleX
};
var magneto = mpu.getCompass(values[6], values[7], values[8]);
console.log(values[6] + ' ' + values[7] + ' ' + values[8]);
console.log(magneto);
socket.emit('accel_data', {accel: accel, magneto: magneto});
}, 1);
});
intervalTemp = setInterval(function() {
socket.emit('temperature', {temperature: mpu.getTemperatureCelsiusDigital()});
}, 300);
});
}