Admin at 07:55, 29 May 2012

2012-05-29T07:55:40Z

← Older revision		Revision as of 07:55, 29 May 2012
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	==Introduction==		==Introduction==
			[[File:ArduIMU 1.jpg\|300px]]

	This is a 9DOF ArduIMU includes three sensors - an ITG-3205 (triple-axis gyro), ADXL345 (triple-axis accelerometer), and HMC5883L (triple-axis magnetometer). This board comes programmed with the 5V/16MHz Arduino Pro mini328 bootloader, simply connect to the serial TX and RX pins with a 5V FTDI Basic Breakout.		This is a 9DOF ArduIMU includes three sensors - an ITG-3205 (triple-axis gyro), ADXL345 (triple-axis accelerometer), and HMC5883L (triple-axis magnetometer). This board comes programmed with the 5V/16MHz Arduino Pro mini328 bootloader, simply connect to the serial TX and RX pins with a 5V FTDI Basic Breakout.

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	==Document==		==Document==
	[~~[Razor AHRS Firmware]]~~		;[http://www.geeetech.com/Documents/ADXL345%20library.zip ADXL345 Accelerometer library]
	[[ADXL345 Accelerometer library]]		;[http://www.geeetech.com/Documents/IDG-3200-ATmega328-4-30-10.zip ITG3205 Gyro example]
	[[ITG3205 Gyro ~~library]~~]		;[http://www.geeetech.com/Documents/HMC5883L_ArduinoLibrary.zip HMC5883L Magnetometer library]
	[[HMC5883L Magnetometer library]]		;[https://dev.qu.tu-berlin.de/projects/sf-razor-9dof-ahrs/files Razor AHRS Firmware]

	==Usage==		==Usage==
			[[File:ArduIMU 2.jpg\|450px]]

	You need a FTDI Basic Breakout - 3.3V board (or compatible) and a USB mini-B cable to connect it to your computer.		You need a FTDI Basic Breakout - 3.3V board (or compatible) and a USB mini-B cable to connect it to your computer.

	You can get the data of ADXL345, ITG3205 and HMC5883L seperately using the relating ~~library~~ or using Razor AHRS(Attitude and Heading Reference System ) Firmware to compute precisely orientation of the board in space by reading the data from the 3 sensors.		You can get the data of [http://www.geeetech.com/wiki/index.php/HMC5883L_Triple_Axis_Magnetometer_Breakout ADXL345], [http://www.geeetech.com/wiki/index.php/ITG3205_Triple_Axis_Gyroscope_Breakout ITG3205] and [http://www.geeetech.com/wiki/index.php/HMC5883L_Triple_Axis_Magnetometer_Breakout HMC5883L] seperately using the relating example code or using Razor AHRS(Attitude and Heading Reference System) Firmware to compute precisely orientation of the board in space by reading the data from the 3 sensors.

	Using your Arduino open the file Razor_AHRS/Razor_AHRS.pde from your ~~down load~~ Razor AHRS Firmware package. Don't drag the file into your IDE directly.		==AHRS Example code==
			Using your Arduino open the file Razor_AHRS/Razor_AHRS.pde from your download [https://dev.qu.tu-berlin.de/projects/sf-razor-9dof-ahrs/files Razor AHRS Firmware package]. Don't drag the file into your IDE directly.

			More details about AHRS please visit [https://dev.qu.tu-berlin.de/projects/sf-razor-9dof-ahrs/wiki/Tutorial AHRS/Head-tracker Tutorial]

	~~==Example code==~~

	==How to buy==		==How to buy==
	Click here to buy [http://www.geeetech.com/arduimu-9-degrees-of-freedom-p-535.html ArduIMU 9 Degrees of Freedom]		Click here to buy [http://www.geeetech.com/arduimu-9-degrees-of-freedom-p-535.html ArduIMU 9 Degrees of Freedom]

Admin: Created page with "==Introduction== This is a 9DOF ArduIMU includes three sensors - an ITG-3205 (triple-axis gyro), ADXL345 (triple-axis accelerometer), and HMC5883L (triple-axis magnetometer). ..."

2012-05-29T07:54:08Z

Created page with "==Introduction== This is a 9DOF ArduIMU includes three sensors - an ITG-3205 (triple-axis gyro), ADXL345 (triple-axis accelerometer), and HMC5883L (triple-axis magnetometer). ..."

New page

==Introduction==
This is a 9DOF ArduIMU includes three sensors - an ITG-3205 (triple-axis gyro), ADXL345 (triple-axis accelerometer), and HMC5883L (triple-axis magnetometer). This board comes programmed with the 5V/16MHz Arduino Pro mini328 bootloader, simply connect to the serial TX and RX pins with a 5V FTDI Basic Breakout.

The outputs of all sensors are processed by an on-board ATmega328 and output over a serial interface.This enables the 9DOF ArduIMU to be used as a very powerful control mechanism for UAVs, autonomous vehicles and image stabilization systems.

==Features==
*9 Degrees of Freedom on a single, flat board:
**ITG-3200 - triple-axis digital-output gyroscope
**ADXL345 - 13-bit resolution, ±16g, triple-axis accelerometer
**HMC5883L - triple-axis, digital magnetometer
**Outputs of all sensors processed by on-board ATmega328 and sent out via a serial stream
*Output pins match up with FTDI Basic Breakout, Bluetooth Mate, XBee Explorer
*3.5-16VDC input
*ON-OFF control switch and reset switch

==Document==
[[Razor AHRS Firmware]]
[[ADXL345 Accelerometer library]]
[[ITG3205 Gyro library]]
[[HMC5883L Magnetometer library]]

==Usage==
You need a FTDI Basic Breakout - 3.3V board (or compatible) and a USB mini-B cable to connect it to your computer.

You can get the data of ADXL345, ITG3205 and HMC5883L seperately using the relating library or using Razor AHRS(Attitude and Heading Reference System ) Firmware to compute precisely orientation of the board in space by reading the data from the 3 sensors.

Using your Arduino open the file Razor_AHRS/Razor_AHRS.pde from your down load Razor AHRS Firmware package. Don't drag the file into your IDE directly.

==Example code==

==How to buy==
Click here to buy [http://www.geeetech.com/arduimu-9-degrees-of-freedom-p-535.html ArduIMU 9 Degrees of Freedom]

ArduIMU 9 Degrees of Freedom - Revision history

Admin at 07:55, 29 May 2012

Admin: Created page with "==Introduction== This is a 9DOF ArduIMU includes three sensors - an ITG-3205 (triple-axis gyro), ADXL345 (triple-axis accelerometer), and HMC5883L (triple-axis magnetometer). ..."