ADIS16334
Info : RECOMMENDED FOR NEW DESIGNS
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ADIS16334

Low Profile, Six Degrees of Freedom Inertial Sensor

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Info : RECOMMENDED FOR NEW DESIGNS tooltip
Info : RECOMMENDED FOR NEW DESIGNS tooltip
Part Details
Features
  • 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
Additional Details
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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 improved serial peripheral interface (SPI) interface and register structure provide faster data collection and configuration control.

This compact module is approximately 24 mm × 33 mm × 11 mm and provides a compact connector interface.

Applications

  • Medical instrumentation
  • Robotics
  • Platform controls
  • Navigation

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Evaluation Kit

Evaluation Kits 3

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ADIS16IMU2/PCBZ

ADIS16IMU2 Breakout Board

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ADIS16IMU2/PCBZ

ADIS16IMU2 Breakout Board

ADIS16IMU2 Breakout Board

Features and Benefits

Enables connection to the following products with a 16-conductor, 1mm ribbon cable:

  • ADIS16334BMLZ (in conjunction with an ADIS1644X/FLEX)
  • ADIS16362BMLZ 
  • ADIS16364BMLZ 
  • ADIS16365BMLZ 
  • ADIS16367BMLZ 
  • ADIS16405BMLZ 
  • ADIS16407BMLZ 
  • ADIS16445BMLZ (in conjunction with an ADIS1644X/FLEX) 
  • ADIS16448BMLZ (in conjunction with an ADIS1644X/FLEX) 


Product Detail

The ADIS16IMU2/PCBZ provides a simple breakout board function for the ADIS1636x and ADIS1640x MEMS IMU product families. When used in conjunction with an ADIS1644X/FLEX, the ADIS16IMU2/PCBZ provides a simple breakout board function for the ADIS16334, ADIS16445 and ADIS16448 as well. This PCB has four mounting holes that will support use of M2.5 machine screws and provides access to critical IMU signals through a 2x8, 16-pin, 2mm pitch connection, which supports easy connection with standard ribbon cables (1mm systems). The ADIS16IMU2/PCBZ serves as a partial replacement for several obsoleted evaluation tools. Please see the following list:

 

  • Replace the ADIS16334/PCBZ with (1) ADIS16334BMLZ, (1) ADIS16IMU2/PCBZ and (1) ADIS1644X/FLEX
  • Replace the ADIS16445/PCBZ with (1) ADIS16445BMLZ, (1) ADIS16IMU2/PCBZ and (1) ADIS1644X/FLEX
  • Replace the ADIS16448/PCBZ with (1) ADIS16448BMLZ, (1) ADIS16IMU2/PCBZ and (1) ADIS1644X/FLEX
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ADIS1644X/FLEX

ADIS1644X Flex Cable

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ADIS1644X/FLEX

ADIS1644X Flex Cable

ADIS1644X Flex Cable

Features and Benefits

The ADIS1644X/FLEX is a flexible cable that enables simple connection between the EVAL-ADIS evaluation system and the ADIS16334, ADIS16445 or ADIS16448 MEMS IMUs. It also connects these three IMUs to the ADIS16IMU1/PCBZ and ADIS16IMU2/PCBZ as well.



Product Detail

When used with the ADIS16IMU2/PCBZ, the ADIS1644X/FLEX provides a simple breakout board function for the ADIS16334, ADIS16445 and ADIS16448. This flexible cable has 20 pins, stiffeners on each end and is made of Kapton. The ADIS1644X/FLEX also serves as a partial replacement for several obsoleted evaluation tools. Please see the following list:
  • Replace the ADIS16334/PCBZ with (1) ADIS16334BMLZ, (1) ADIS16IMU2/PCBZ and (1) ADIS1644X/FLEX
  • Replace the ADIS16445/PCBZ with (1) ADIS16445BMLZ, (1) ADIS16IMU2/PCBZ and (1) ADIS1644X/FLEX
  • Replace the ADIS16448/PCBZ with (1) ADIS16448BMLZ, (1) ADIS16IMU2/PCBZ and (1) ADIS1644X/FLEX
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EVAL-ADIS-FX3

ADI FX3 iSensor® Evaluation System

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EVAL-ADIS-FX3

ADI FX3 iSensor® Evaluation System

ADI FX3 iSensor® Evaluation System

Features and Benefits

  • Real-time sampling of IMU at full sample rate with no loss of data guaranteed.
  • No external power needed. (Can be powered from USB port.)
  • Completely open source API, Firmware, and Evaluation GUI.
  • Schematics available
  • API includes a wrapper library for interfacing to MATLAB, Python, LabView.

Product Detail

The EVAL-ADIS-FX3 is the latest addition to the iSensor evaluation portfolio and was designed from the ground up to provide users with an easy-to-use solution for capturing reliable inertial data in lab and characterization environments. The EVAL-ADIS-FX3 incorporates the ability to capture inertial sensor data at maximum throughput while interfacing with external test equipment and reacting to external triggers.

In addition to launching a redesigned hardware platform, we’ve also developed a robust API that allows users to quickly build custom applications that capture reliable sensor data. We’ve included many useful features into the API that enable designers to characterize sensor performance in any .NET compatible environment.

APPLICATIONS

  • Inertial sensing
  • Robotics
  • Autonomous driving
  • Platform stabilization

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