Difference between revisions of "Triple axis gyroscope breakout"

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(Product Overview)
 
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[[File:Triple –axis gyroscope.jpg|300px]]
 
[[File:Triple –axis gyroscope.jpg|300px]]
  
This is a breakout board for InvenSense's ITG-3200, a groundbreaking triple-axis, digital output gyroscope. The ITG-3200 features three 16-bit analog-to-digital converters (ADCs) for digitizing the gyro outputs, a user-selectable internal low-pass filter bandwidth, and a Fast-Mode I2C (400kHz) interface. Additional features include an embedded temperature sensor and a 2% accurate internal oscillator.
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This is a breakout board for InvenSense's ITG-3205, a groundbreaking triple-axis, digital output gyroscope. The ITG-3205 features three 16-bit analog-to-digital converters (ADCs) for digitizing the gyro outputs, a user-selectable internal low-pass filter bandwidth, and a Fast-Mode I2C (400kHz) interface. Additional features include an embedded temperature sensor and a 2% accurate internal oscillator.
  
The ITG-3200 can be powered at anywhere between 2.1 and 3.6V. For power supply flexibility, the ITG-3200 has a separate VLOGIC reference pin (labeled VIO), in addition to its analog supply pin (VDD) which sets the logic levels of its serial interface. The VLOGIC voltage may be anywhere from 1.71V min to VDD max. For general use, VLOGIC can be tied to VCC. The normal operating current of the sensor is just 6.5mA.
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The ITG-3205 can be powered at anywhere between 2.1 and 3.6V. For power supply flexibility, the ITG-3205 has a separate VLOGIC reference pin (labeled VIO), in addition to its analog supply pin (VDD) which sets the logic levels of its serial interface. The VLOGIC voltage may be anywhere from 1.71V min to VDD max. For general use, VLOGIC can be tied to VCC. The normal operating current of the sensor is just 6.5mA.
  
Communication with the ITG-3200 is achieved over a two-wire (I2C) interface. The sensor also features a interrupt output, and an optional clock input. A jumper on the top of the board allows you to easily select the I2C address, by pulling the AD0 pin to either VCC or GND; the board is shipped with this jumper tied to VCC. If you don't plan on using the CLKIN pin, you can short the jumper on the bottom of the board to tie it to GND.
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Communication with the ITG-3205 is achieved over a two-wire (I2C) interface. The sensor also features a interrupt output, and an optional clock input. A jumper on the top of the board allows you to easily select the I2C address, by pulling the AD0 pin to either VCC or GND; the board is shipped with this jumper tied to VCC. If you don't plan on using the CLKIN pin, you can short the jumper on the bottom of the board to tie it to GND.
  
 
== Applications  ==
 
== Applications  ==
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==Example code==
 
==Example code==
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[http://www.geeetech.com/Documents/IDG-3200-ATmega328-4-30-10.zip ITG3205_Basic_Example]
  
 
== How to buy  ==
 
== How to buy  ==
 
Click here to buy [http://www.geeetech.com/hmc5883l-triple-axis-compass-magnetometer-module-breakout-p-436.html Triple axis gyroscope breakout]
 
Click here to buy [http://www.geeetech.com/hmc5883l-triple-axis-compass-magnetometer-module-breakout-p-436.html Triple axis gyroscope breakout]

Latest revision as of 05:47, 8 May 2012

Product Overview

Triple –axis gyroscope.jpg

This is a breakout board for InvenSense's ITG-3205, a groundbreaking triple-axis, digital output gyroscope. The ITG-3205 features three 16-bit analog-to-digital converters (ADCs) for digitizing the gyro outputs, a user-selectable internal low-pass filter bandwidth, and a Fast-Mode I2C (400kHz) interface. Additional features include an embedded temperature sensor and a 2% accurate internal oscillator.

The ITG-3205 can be powered at anywhere between 2.1 and 3.6V. For power supply flexibility, the ITG-3205 has a separate VLOGIC reference pin (labeled VIO), in addition to its analog supply pin (VDD) which sets the logic levels of its serial interface. The VLOGIC voltage may be anywhere from 1.71V min to VDD max. For general use, VLOGIC can be tied to VCC. The normal operating current of the sensor is just 6.5mA.

Communication with the ITG-3205 is achieved over a two-wire (I2C) interface. The sensor also features a interrupt output, and an optional clock input. A jumper on the top of the board allows you to easily select the I2C address, by pulling the AD0 pin to either VCC or GND; the board is shipped with this jumper tied to VCC. If you don't plan on using the CLKIN pin, you can short the jumper on the bottom of the board to tie it to GND.

Applications

Motion-enabled game controllers
Motion-based portable gaming Motion-based
3D mice and 3D remote controls
“No Touch” UI
Health and sports monitoring

Features

•Digital-output X-, Y-, and Z-Axis angular rate sensors (gyros) on one integrated circuit
•Digitally-programmable low-pass filter
•Low 6.5mA operating current consumption for long battery life
•Wide VDD supply voltage range of 2.1V to 3.6V
•Standby current: 5μA
•Digital-output temperature sensor
•Fast Mode I2C (400kHz) serial interface
•Optional external clock inputs of 32.768kHz or 19.2MHz to synchronize with system clock
•Pins broken out to a breadboard friendly 7-pin 0.1" pitch header

Pin Out and Signal Description

Gyroscope1.jpg Gyro2.jpg

Wiring Diagram

ITG3200 wiring.jpg

Example code

ITG3205_Basic_Example

How to buy

Click here to buy Triple axis gyroscope breakout