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mpu6050_lib2.py
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"""This program handles the communication over I2C
between a Raspberry Pi and a MPU-6050 Gyroscope / Accelerometer combo.
Made by: MrTijn/Tijndagamer
Released under the MIT License
Copyright (c) 2015, 2016, 2017 MrTijn/Tijndagamer
"""
import smbus
class mpu6050:
# Global Variables
GRAVITIY_MS2 = 9.80665
address = None
bus = None
# Scale Modifiers
ACCEL_SCALE_MODIFIER_2G = 16384.0
ACCEL_SCALE_MODIFIER_4G = 8192.0
ACCEL_SCALE_MODIFIER_8G = 4096.0
ACCEL_SCALE_MODIFIER_16G = 2048.0
GYRO_SCALE_MODIFIER_250DEG = 131.0
GYRO_SCALE_MODIFIER_500DEG = 65.5
GYRO_SCALE_MODIFIER_1000DEG = 32.8
GYRO_SCALE_MODIFIER_2000DEG = 16.4
# Pre-defined ranges
ACCEL_RANGE_2G = 0x00
ACCEL_RANGE_4G = 0x08
ACCEL_RANGE_8G = 0x10
ACCEL_RANGE_16G = 0x18
GYRO_RANGE_250DEG = 0x00
GYRO_RANGE_500DEG = 0x08
GYRO_RANGE_1000DEG = 0x10
GYRO_RANGE_2000DEG = 0x18
# MPU-6050 Registers
PWR_MGMT_1 = 0x6B
PWR_MGMT_2 = 0x6C
ACCEL_XOUT0 = 0x3B
ACCEL_YOUT0 = 0x3D
ACCEL_ZOUT0 = 0x3F
TEMP_OUT0 = 0x41
GYRO_XOUT0 = 0x43
GYRO_YOUT0 = 0x45
GYRO_ZOUT0 = 0x47
ACCEL_CONFIG = 0x1C
GYRO_CONFIG = 0x1B
def __init__(self, address, bus=1):
self.address = address
self.bus = smbus.SMBus(bus)
# Wake up the MPU-6050 since it starts in sleep mode
self.bus.write_byte_data(self.address, self.PWR_MGMT_1, 0x00)
# I2C communication methods
def read_i2c_word(self, register):
"""Read two i2c registers and combine them.
register -- the first register to read from.
Returns the combined read results.
"""
# Read the data from the registers
high = self.bus.read_byte_data(self.address, register)
low = self.bus.read_byte_data(self.address, register + 1)
value = (high << 8) + low
if (value >= 0x8000):
return -((65535 - value) + 1)
else:
return value
# MPU-6050 Methods
def get_temp(self):
"""Reads the temperature from the onboard temperature sensor of the MPU-6050.
Returns the temperature in degrees Celcius.
"""
raw_temp = self.read_i2c_word(self.TEMP_OUT0)
# Get the actual temperature using the formule given in the
# MPU-6050 Register Map and Descriptions revision 4.2, page 30
actual_temp = (raw_temp / 340.0) + 36.53
return actual_temp
def set_accel_range(self, accel_range):
"""Sets the range of the accelerometer to range.
accel_range -- the range to set the accelerometer to. Using a
pre-defined range is advised.
"""
# First change it to 0x00 to make sure we write the correct value later
self.bus.write_byte_data(self.address, self.ACCEL_CONFIG, 0x00)
# Write the new range to the ACCEL_CONFIG register
self.bus.write_byte_data(self.address, self.ACCEL_CONFIG, accel_range)
def read_accel_range(self, raw = False):
"""Reads the range the accelerometer is set to.
If raw is True, it will return the raw value from the ACCEL_CONFIG
register
If raw is False, it will return an integer: -1, 2, 4, 8 or 16. When it
returns -1 something went wrong.
"""
raw_data = self.bus.read_byte_data(self.address, self.ACCEL_CONFIG)
if raw is True:
return raw_data
elif raw is False:
if raw_data == self.ACCEL_RANGE_2G:
return 2
elif raw_data == self.ACCEL_RANGE_4G:
return 4
elif raw_data == self.ACCEL_RANGE_8G:
return 8
elif raw_data == self.ACCEL_RANGE_16G:
return 16
else:
return -1
def get_accel_data(self, g = False):
"""Gets and returns the X, Y and Z values from the accelerometer.
If g is True, it will return the data in g
If g is False, it will return the data in m/s^2
Returns a dictionary with the measurement results.
"""
#x = self.read_i2c_word(self.ACCEL_XOUT0)
x = 0
y = self.read_i2c_word(self.ACCEL_YOUT0)
#z = self.read_i2c_word(self.ACCEL_ZOUT0)
z = 0
accel_scale_modifier = None
accel_range = self.read_accel_range(True)
if accel_range == self.ACCEL_RANGE_2G:
accel_scale_modifier = self.ACCEL_SCALE_MODIFIER_2G
elif accel_range == self.ACCEL_RANGE_4G:
accel_scale_modifier = self.ACCEL_SCALE_MODIFIER_4G
elif accel_range == self.ACCEL_RANGE_8G:
accel_scale_modifier = self.ACCEL_SCALE_MODIFIER_8G
elif accel_range == self.ACCEL_RANGE_16G:
accel_scale_modifier = self.ACCEL_SCALE_MODIFIER_16G
else:
print("Unkown range - accel_scale_modifier set to self.ACCEL_SCALE_MODIFIER_2G")
accel_scale_modifier = self.ACCEL_SCALE_MODIFIER_2G
x = x / accel_scale_modifier
y = y / accel_scale_modifier
z = z / accel_scale_modifier
if g is True:
return {'x': x, 'y': y, 'z': z}
elif g is False:
x = x * self.GRAVITIY_MS2
y = y * self.GRAVITIY_MS2
z = z * self.GRAVITIY_MS2
return {'x': x, 'y': y, 'z': z}
def set_gyro_range(self, gyro_range):
"""Sets the range of the gyroscope to range.
gyro_range -- the range to set the gyroscope to. Using a pre-defined
range is advised.
"""
# First change it to 0x00 to make sure we write the correct value later
self.bus.write_byte_data(self.address, self.GYRO_CONFIG, 0x00)
# Write the new range to the ACCEL_CONFIG register
self.bus.write_byte_data(self.address, self.GYRO_CONFIG, gyro_range)
def read_gyro_range(self, raw = False):
"""Reads the range the gyroscope is set to.
If raw is True, it will return the raw value from the GYRO_CONFIG
register.
If raw is False, it will return 250, 500, 1000, 2000 or -1. If the
returned value is equal to -1 something went wrong.
"""
raw_data = self.bus.read_byte_data(self.address, self.GYRO_CONFIG)
if raw is True:
return raw_data
elif raw is False:
if raw_data == self.GYRO_RANGE_250DEG:
return 250
elif raw_data == self.GYRO_RANGE_500DEG:
return 500
elif raw_data == self.GYRO_RANGE_1000DEG:
return 1000
elif raw_data == self.GYRO_RANGE_2000DEG:
return 2000
else:
return -1
def get_gyro_data(self):
"""Gets and returns the X, Y and Z values from the gyroscope.
Returns the read values in a dictionary.
"""
x = self.read_i2c_word(self.GYRO_XOUT0)
#y = self.read_i2c_word(self.GYRO_YOUT0)
#z = self.read_i2c_word(self.GYRO_ZOUT0)
gyro_scale_modifier = None
gyro_range = self.read_gyro_range(True)
if gyro_range == self.GYRO_RANGE_250DEG:
gyro_scale_modifier = self.GYRO_SCALE_MODIFIER_250DEG
elif gyro_range == self.GYRO_RANGE_500DEG:
gyro_scale_modifier = self.GYRO_SCALE_MODIFIER_500DEG
elif gyro_range == self.GYRO_RANGE_1000DEG:
gyro_scale_modifier = self.GYRO_SCALE_MODIFIER_1000DEG
elif gyro_range == self.GYRO_RANGE_2000DEG:
gyro_scale_modifier = self.GYRO_SCALE_MODIFIER_2000DEG
else:
print("Unkown range - gyro_scale_modifier set to self.GYRO_SCALE_MODIFIER_250DEG")
gyro_scale_modifier = self.GYRO_SCALE_MODIFIER_250DEG
x = x / gyro_scale_modifier
#y = y / gyro_scale_modifier
#z = z / gyro_scale_modifier
#return {'x': x, 'y': y, 'z': z}
return {'x': x}
def get_all_data(self):
"""Reads and returns all the available data."""
temp = self.get_temp()
accel = self.get_accel_data()
gyro = self.get_gyro_data()
return [accel, gyro, temp]
if __name__ == "__main__":
mpu = mpu6050(0x68)
print(mpu.get_temp())
accel_data = mpu.get_accel_data()
#print(accel_data['x'])
print(accel_data['y'])
#print(accel_data['z'])
#gyro_data = mpu.get_gyro_data()
#print(gyro_data['x'])
#print(gyro_data['y'])
#print(gyro_data['z'])