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LDAQ 1.3.0 documentation

  • Installation
  • Getting started
  • Tutorials
    • Acquisition
    • Generation
    • Live visualization
    • Multiple sources
    • Virtual Channels
    • Create NI task
    • Custom Acquisitions
  • Code snippets
  • Supported Devices
  • Code documentation
  • Examples
    • Analog Discovery Acquisition 2
    • Serial Acquisition
    • Serial simple acquisition
    • NI acquisition
    • NI acquisition with IEPE channels (modal test)
    • Basler acquisition
    • Flir acquisition and visualization
    • Multiple acquisition
    • NI Acquisition, generation and visualization
    • Check events
    • Virtual channel
    • Simultated data and video
    • Advanced visualization
    • App performance
    • Periodic Data Saving Example
    • pyTelops + LDAQ: Synchronized Multi-Sensor Acquisition
    • LDAQ + pyTelops: buffered, software-triggered synchronized capture
  • .rst

Examples

Examples#

  • Analog Discovery Acquisition 2
  • Serial Acquisition
    • C code uploaded to the Arduino:
  • Serial simple acquisition
    • C code uploaded to the Arduino:
  • NI acquisition
  • NI acquisition with IEPE channels (modal test)
    • Create the AITask with IEPE channels
    • Wrap the task in NIAcquisition
    • Configure live visualization
    • Run with a trigger on the hammer channel
    • Inspect the measurement
  • Basler acquisition
  • Flir acquisition and visualization
  • Multiple acquisition
  • NI Acquisition, generation and visualization
  • Check events
  • Virtual channel
  • Simultated data and video
  • Advanced visualization
    • Creation of simulated signals:
    • Creation of simulated acquisition source:
  • App performance
  • Periodic Data Saving Example
  • pyTelops + LDAQ: Synchronized Multi-Sensor Acquisition
    • 1. Imports
    • 2. Source 1: Telops thermal camera
    • 3. Source 2: NI DAQmx accelerometer
    • 4. Build the LDAQ Core with a live-preview GUI
    • 5. Extract the measurement
    • 6. Plot the synchronized timeline
    • Conclusion
  • LDAQ + pyTelops: buffered, software-triggered synchronized capture
    • 1. Parameters
    • 2. Connect and configure the camera (buffer mode)
    • 3. Build the accelerometer source and launch LDAQ
    • 4. Fire the synchronized software trigger
    • 5. Wait for the buffer, then download
    • 6. Retrieve the accelerometer data
    • 7. Align the two sources on a common timeline
    • 8. Plot the synchronized timeline
    • 9. Save the synchronized capture
    • 10. Clean up
    • Notes on synchronization

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Code documentation

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Analog Discovery Acquisition 2

By Tilen Košir, Klemen Zaletelj

© Copyright 2022, Tilen Košir, Klemen Zaletelj.