Beaglebone and L3G4200D 3-axial digital gyroscope example in Python

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beaglebone and L3G4200D layout
beaglebone and L3G4200D layout

In this article we look at another sensor – this time its a L3G4200D 3-axial digital gyroscope and we will connect it to our Beaglebone and we will have a python example

First lets take a look at the sensor in question

The L3G4200D is an is three-axis angular rate sensor, with a digital I2C/SPI serial interface standard output.The device has a full scale of ±250/±500/ ±2000 dps and is capable of measuring rates with a user-selectable bandwidth. The device may be configured to generate interrupt signals by an independent wake-up event. Thresholds and timing of the interrupt generator are programmable by the end user on the fly.

The L3G4200D has an integrated 32-level first in first out (FIFO) buffer allowing the user to store data for host processor intervention reduction

Specifications:

Chip: L3G4200D
Power Supply: 3-5V
Communication Mode: IIC / SPI communications protocol
Measuring Range: 250/500/2000 dps
Communication Interface: I2C (up to 400 kHz) or SPI (10 MHz; 4 & 3 wire)
Operating temperature: -40 to +185 °F (-40 to +85 °C)

This was the version of the sensor I bought

Parts Required

NameLink
BeagleboneBeagleBone Black TI AM335x Cortex-A8 development BB-Black Rev.C
L3G4200D sensorGY-50 L3G4200D Triple Axis Gyro Angular Velocity Sensor Module
Connecting wireFree shipping Dupont line 120pcs 20cm male to male + male to female and female to female jumper wire

 

Schematic/Connection

BeagleboneModule
3.3v – P9.3Vcc
Gnd – P9.1Gnd
SDA – P9.20SDA
SCL – P9.19SCL

 

beaglebone and L3G4200D layout
beaglebone and L3G4200D layout

 

Code Example

This was a controleverything example that I modified as my sensor had a different I2C address. If your sensor does not work change the address from 0x69 to 0x68

You can always check the I2C address from the terminal first by typing in

i2cdetect -y -r 2
import smbus
import time
 
# Get I2C bus
bus = smbus.SMBus(2)
 
# L3G4200D address, 0x69(104)
# Select Control register1, 0x20(32)
#		0x0F(15)	Normal mode, X, Y, Z-Axis enabled
bus.write_byte_data(0x69, 0x20, 0x0F)
# L3G4200D address, 0x69(104)
# Select Control register4, 0x23(35)
#		0x30(48)	Continous update, Data LSB at lower address
#					FSR 2000dps, Self test disabled, 4-wire interface
bus.write_byte_data(0x69, 0x23, 0x30)
 
time.sleep(0.5)
 
# L3G4200D address, 0x69(104)
# Read data back from 0x28(40), 2 bytes, X-Axis LSB first
data0 = bus.read_byte_data(0x69, 0x28)
data1 = bus.read_byte_data(0x69, 0x29)
 
# Convert the data
xGyro = data1 * 256 + data0
if xGyro > 32767 :
	xGyro -= 65536
 
# L3G4200D address, 0x69(104)
# Read data back from 0x2A(42), 2 bytes, Y-Axis LSB first
data0 = bus.read_byte_data(0x69, 0x2A)
data1 = bus.read_byte_data(0x69, 0x2B)
 
# Convert the data
yGyro = data1 * 256 + data0
if yGyro > 32767 :
	yGyro -= 65536
 
# L3G4200D address, 0x69(104)
# Read data back from 0x2C(44), 2 bytes, Z-Axis LSB first
data0 = bus.read_byte_data(0x69, 0x2C)
data1 = bus.read_byte_data(0x69, 0x2D)
 
# Convert the data
zGyro = data1 * 256 + data0
if zGyro > 32767 :
	zGyro -= 65536
 
# Output data to screen
print "Rotation in X-Axis : %d" %xGyro
print "Rotation in Y-Axis : %d" %yGyro
print "Rotation in Z-Axis : %d" %zGyro

Output

Run this example and you should see the following.

debian@beaglebone:/var/lib/cloud9/$ python L3G4200D.py
Rotation in X-Axis : 80
Rotation in Y-Axis : -8
Rotation in Z-Axis : 24
debian@beaglebone:/var/lib/cloud9/$ python L3G4200D.py
Rotation in X-Axis : 68
Rotation in Y-Axis : 9
Rotation in Z-Axis : 64
debian@beaglebone:/var/lib/cloud9/$ python L3G4200D.py
Rotation in X-Axis : 138
Rotation in Y-Axis : -42
Rotation in Z-Axis : 16

Links

 

 

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