Verify Data Acquired Power Supply Voltage Steps: Revision 1 SummaryĮrror conditions Debugging – broken arrow Debugging – highlight execution Debugging – Set Breakpoint Debugging – Probe, Custom Probe SummaryĬhapter 6: Real-World DAQ Programming Techniques Using event manager Installing LINX Acquiring distance measurements using Parallax USR with an Arduino LabVIEW Program – serial communication through USB Duty cycle and PWM Connections Simultaneous data acquisition – NI DAQ and the Arduino Uno Connections LabVIEW block diagram SummaryĦ3 66 69 70 72 73 74 75 75 76 77 79 79 82 83 84 87 88 Wired connections and drivers Serial communication GPIB SCPI commands sets Arduino for LabVIEW driver installation Arduino photo sensor board SummaryĬhapter 3: Using the DAQ Assistant to Automatically Generate LabVIEW Code Capturing a triangular signal Devices required Capturing triangular wave VI SummaryĬhapter 4: DAQ Programming Using LabVIEW Definition of data acquisition Capture signal generator waveforms Staircase signal (USB DAQ version) Staircase signal (Oscilloscope version) Oscilloscope functions in LabVIEW function pallets Stepping through voltages Create serial Read-Write sub VI Power supply voltage stepsģ2 32 33 35 43 44 44 44 45 48 51 53 54 55 ISBN 978-1-78217-216-1 Contents Preface Chapter 1: LabVIEW Basics Introduction to LabVIEW Installing LabVIEW A basic LabVIEW VI LabVIEW menu bar icons Example 1 – counter with a gauge Creating a project is a must Chapter highlights SummaryĬhapter 2: Most Common Communication Buses Livery Place 35 Livery Street Birmingham B3 2PB, UK. Transform physical phenomena into computer-acceptable data using a truly object-oriented languageĭata Acquisition Using LabVIEW Copyright © 2016 Packt Publishingįirst published: December 2016 Production reference: 1121216 Published by Packt Publishing Ltd.
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