Difference between revisions of "Triple axis gyroscope breakout"
(Created page with " == Product Overview == This is a breakout board for InvenSense's ITG-3205The ITG-3205 is the world’s first single-chip, digital-output, 3-axis MEMS gyro IC optimized for ga...") |
|||
Line 1: | Line 1: | ||
== Product Overview == | == Product Overview == | ||
+ | [[File:Triple –axis gyroscope.jpg|300px]] | ||
+ | |||
This is a breakout board for InvenSense's ITG-3205The ITG-3205 is the world’s first single-chip, digital-output, 3-axis MEMS gyro IC optimized for gaming, 3D mice, and 3D remote control applications. The part features enhanced bias and sensitivity temperature stability, reducing the need for user calibration. Low frequency noise is lower than previous generation devices, simplifying application development and making for more-responsive remote controls. | This is a breakout board for InvenSense's ITG-3205The ITG-3205 is the world’s first single-chip, digital-output, 3-axis MEMS gyro IC optimized for gaming, 3D mice, and 3D remote control applications. The part features enhanced bias and sensitivity temperature stability, reducing the need for user calibration. Low frequency noise is lower than previous generation devices, simplifying application development and making for more-responsive remote controls. | ||
Revision as of 10:03, 6 March 2012
Contents
Product Overview
This is a breakout board for InvenSense's ITG-3205The ITG-3205 is the world’s first single-chip, digital-output, 3-axis MEMS gyro IC optimized for gaming, 3D mice, and 3D remote control applications. The part features enhanced bias and sensitivity temperature stability, reducing the need for user calibration. Low frequency noise is lower than previous generation devices, simplifying application development and making for more-responsive remote controls.
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. This breakthrough in gyroscope technology provides a dramatic 67% package size reduction, delivers a 50% power reduction, and has inherent cost advantages compared to competing multi-chip gyro solutions.
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
The ITG-3205 triple-axis MEMS gyroscope includes a wide range of features: • Digital-output X-, Y-, and Z-Axis angular rate sensors (gyros) on one integrated circuit • Three integrated 16-bit ADCs provide simultaneous sampling of gyros application development and making for more-responsive motion processing • Wide VDD supply voltage range of 2.1V to 3.6V • Flexible VLOGIC reference voltage allows for I2C interface voltages from 1.71V to VDD • 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