ADXL1002
Info : RECOMMENDED FOR NEW DESIGNS
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ADXL1002

Low Noise, High Frequency +/-50g MEMS Accelerometer

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Info : RECOMMENDED FOR NEW DESIGNS tooltip
Info : RECOMMENDED FOR NEW DESIGNS tooltip
Part Models 3
1ku List Price Starting From $35.55
Features
  • Single in plane axis accelerometer with analog output
  • Linear frequency response range from dc to 11 kHz (3 dB point)
    • Resonant frequency of 21 kHz
  • Ultralow noise density
  • 25 μg/√Hz in ±50 g range
  • Overrange sensing plus dc coupling allows fast recovery time
  • Complete electromechanical self-test
  • Sensitivity performance
    • Sensitivity stability over temperature 5%
    • Linearity to ±0.1% of full-scale range
    • Cross axis sensitivity ±1% (ZX), ±1% (YX),
  • Single-supply operation
    • Output voltage ratiometric to supply
    • Low power consumption 1.0 mA
    • Power saving standby operation mode with fast recovery
  • RoHS compliant
  • −40°C to +125°C temperature range
  • 5 mm × 5 mm × 1.80 mm LFCSP package
Additional Details
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The ADXL1001/ADXL1002 deliver ultralow noise density over an extended frequency range with two full-scale range options, and are optimized for industrial condition monitoring. The ADXL1001 (±100 g) and the ADXL1002 (±50 g) have typical noise densities of 30 μg/√Hz and 25 μg/√Hz, respectively. Both accelerometer devices have stable and repeatable sensitivity, which is immune to external shocks up to 10,000 g.

The ADXL1001/ADXL1002 have an integrated full electrostatic self test (ST) function and an overrange (OR) indicator that allow advanced system level features and are useful for embedded applications. With low power and single-supply operation of 3.3 V to 5.25 V, the ADXL1001/ADXL1002 also enable wireless sensing product design. The ADXL1001/ ADXL1002 are available in a 5 mm × 5 mm × 1.80 mm LFCSP package, and are rated for operation over a −40°C to +125°C temperature range.

Applications

  • Condition monitoring
  • Predictive maintenance
  • Asset health
  • Test and measurement
  • Health usage monitoring system (HUMS)
Part Models 3
1ku List Price Starting From $35.55

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Documentation

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Part Model Pin/Package Drawing Documentation CAD Symbols, Footprints, and 3D Models
ADXL1002BCPZ
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ADXL1002BCPZ-RL
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ADXL1002BCPZ-RL7
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Evaluation Kits 1

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EVAL-ADXL100X

ADXL1001/ADXL1002 Evaluation Board

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EVAL-ADXL100X

ADXL1001/ADXL1002 Evaluation Board

ADXL1001/ADXL1002 Evaluation Board

Features and Benefits

  • 2 sets of spaced vias for populating 6-pin headers
  • Easily attaches to prototyping board or PCB
  • Small size and board stiffness minimizes impact on the user system and acceleration measurements

Product Detail

The EVAL-ADXL1001Z and EVAL-ADXL1002Z are simple evaluation boards that allow users to quickly evaluate the performance of the ADXL1001 and ADXL1002 vibration sensors. The EVAL-ADXL1001Z and EVAL-ADXL1002Z are specifically designed to mount onto a mechanical shaker and are constructed of an extra thick printed circuit board (PCB), measuring 0.8 inches square. Screw holes are supplied for rigid mounting to the shaker block. This design allows users to evaluate the full performance range of the ADXL1001 or ADXL1002 vibration sensor without having to solder the device to a separate test board. A simple RC low-pass filter is provided at the output with a −3 dB bandwidth of about 20 kHz. Components can be replaced to allow users to implement their own application specific low-pass filter on the output of the device.


Full details on the microelectromechanical systems (MEMS) ADXL1001/ADXL1002 accelerometers are provided in the ADXL1001/ADXL1002 data sheet, available from Analog Devices, Inc., which must be consulted in conjunction with evaluation board user guide (UG-1121).

Reference Designs 4

Figure 1. CN0588 Simplified Block Diagram.

DC to 10 kHz MEMS-Based IEPE Vibration Sensor

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CN0588

DC to 10 kHz MEMS-Based IEPE Vibration Sensor

CN0588

Circuits from the lab

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DC to 10 kHz MEMS-Based IEPE Vibration Sensor

Features and Benefits

  • Mechanically enclosed and machine mountable
  • IEPE interface to retrofit into existing machines
  • Power and data over a single wire, power comes from host
  • Has a frequency range from DC up to 10 kHz and response within ±3 dB
  • Resonant frequency around 12.5 kHz
View Detailed Reference Design external link

Design & Integration Tools

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2.6 M

CN-0549 System Block Diagram

Condition-Based Monitoring Development Platform

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CN0549

Condition-Based Monitoring Development Platform

CN0549

Circuits from the lab

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Condition-Based Monitoring Development Platform

Features and Benefits

  • Wide bandwidth MEMs accelerometer sensor data is output in the popular IEPE format
  • Easy mounting to machines (like pumps, fans, and motors) while maintaining sensor signal integrity
  • The DAQ solution provides a high fidelity, IEPE analog input bandwidth from DC – 54 kHz
  • Embedded FPGA Software captures and stores the raw data for local embedded or networked processing
  • IIO Oscilloscope application allows users to quickly visualize the data for evaluation purposes.
View Detailed Reference Design external link

Design & Integration Tools

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1.63 K

Videos

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2021-03-05

03:34

ADI Sensor Interface Series - CbM and Vibration Analysis

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2021-01-25

01:52

CN0549: Condition-Based Monitoring Development Platform

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2022-02-09

02:34

CN0549 New Condition-Based Monitoring Platform from ADI

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2021-01-29

02:43

CN0549 - CbM Development Platform

Complete ADXL1002 with IEPE Compatible Circuit Diagram

IEPE-Compatible Interface for Wideband MEMS Accelerometer Sensors 

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CN0532

IEPE-Compatible Interface for Wideband MEMS Accelerometer Sensors 

CN0532

Circuits from the lab

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IEPE-Compatible Interface for Wideband MEMS Accelerometer Sensors 

Features and Benefits

  • Industry Standard IEPE Interface
  • Wideband MEMs Accelerometer
  • Direct Replacement for Piezo Sensors
View Detailed Reference Design external link

Videos

Thumbnail Image

2021-01-29

02:43

CN0549 - CbM Development Platform

EVAL-CN0533-EBZ Simplified Circuit Diagram

10 kHz MEMS Accelerometer with 4 mA to 20 mA Output for Condition-Based Monitoring Applications

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CN0533

10 kHz MEMS Accelerometer with 4 mA to 20 mA Output for Condition-Based Monitoring Applications

CN0533

Circuits from the lab

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10 kHz MEMS Accelerometer with 4 mA to 20 mA Output for Condition-Based Monitoring Applications

Features and Benefits

  • 10kHz MEMs Vibration Sensor
  • 4mA to 20mA Industrial Output
  • Compatible with the EVAL-XLMOUNT1 Mounting Cube
View Detailed Reference Design external link

Design & Integration Tools

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1.94 M

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