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ADIS16334

Analog Devices
Part Number ADIS16334
Manufacturer Analog Devices
Description Low Profile Six Degree
Published Mar 10, 2011
Detailed Description Data Sheet Low Profile, Six Degrees of Freedom Inertial Sensor ADIS16334 FEATURES GENERAL DESCRIPTION Triaxial digit...
Datasheet PDF File ADIS16334 PDF File

ADIS16334
ADIS16334

Overview
Data Sheet Low Profile, Six Degrees of Freedom Inertial Sensor ADIS16334 FEATURES GENERAL DESCRIPTION Triaxial digital gyroscope with digital range scaling ±75°/sec, ±150°/sec, ±300°/sec settings Tight orthogonal alignment: <0.
05° Triaxial digital accelerometer: ±5 g Wide sensor bandwidth: 330 Hz Autonomous operation and data collection No external configuration commands required Start-up time: 180 ms Factory-calibrated sensitivity, bias, and axial alignment Calibration temperature range: −20°C to +70°C SPI-compatible serial interface Embedded temperature sensor Programmable operation and control Automatic and manual bias correction controls Bartlett window FIR filter length, number of taps Digital I/O: data ready, alarm indicator, general-purpose Alarms for condition monitoring Enable external sample clock input: up to 1.
2 kHz Single-command self-test Single-supply operation: 4.
75 V to 5.
25 V 2000 g shock survivability 24 mm × 33 mm × 11 mm module with connector interface Operating temperature range: −40°C to +105°C The ADIS16334 iSensor® is a complete inertial system that includes a triaxial gyroscope and triaxial accelerometer.
Each sensor in the ADIS16334 combines iMEMS® technology with signal conditioning that optimizes dynamic performance.
The factory calibration characterizes each sensor for sensitivity, bias, alignment, and linear acceleration (gyro bias).
As a result, each sensor has its own dynamic compensation formulas that provide accurate sensor measurements over a temperature range of −20°C to +70°C.
The ADIS16334 provides a simple, cost-effective method for integrating accurate, multiaxis, inertial sensing into industrial systems, especially when compared with the complexity and investment associated with discrete designs.
All necessary motion testing and calibration are part of the production process at the factory, greatly reducing system integration time.
Tight orthogonal alignment simplifies inertial frame alignment in navigation systems.
An ...


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