Difference between revisions of "Data Acquisition Basics"
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** Configure LabVIEW options as shown in slides 15-17 | ** Configure LabVIEW options as shown in slides 15-17 | ||
** Exercises 1,2,3 | ** Exercises 1,2,3 | ||
+ | ** [http://www.ni.com/academic/students/learnlabview NI LabVIEW 101] | ||
* Homework 3 - Finish Exercises | * Homework 3 - Finish Exercises | ||
* Assign Project1 - Simulation | * Assign Project1 - Simulation |
Revision as of 15:50, 16 January 2013
- LabVIEW Tutorial
- Code up examples in LabVIEW for slides 11, 14, 27, 31, 36, 38, 41. Put each one in a separate VI and demo to me or T/A.
- Configure LabVIEW options as shown in slides 15-17
- Exercises 1,2,3
- NI LabVIEW 101
- Homework 3 - Finish Exercises
- Assign Project1 - Simulation
- Homework 4 - Finish ComputeAngle.vi (in Project1 -> RoboticSensing.zip -> micSourceLocator.lvproj -> My Computer -> ComputeAngle.vi) and ComputeIntersection.vi
- Additional Resources
- Conditionally append values to an array in a loop
- How to Create an Array on the Front Panel
- LabVIEW 101
- Data Acquisition Basics
- Homework 5 - Finish exercise
- Homework 6 - Connect wires from A00 and AO1 to AI0+ and AI1+ (remove wire from Banana A to AI0+). Make sure that the Prototyping Power is on. Modify your vi from Homework 5 to collect samples from both AI0 and AI1. Then open DelayedChirp2DAC.vi and run this vi. You shouldn't modifiy DelayedChirp2Dac.vi. Run your modified Homework 5 vi and zoom in in the time and frequency domain to examine the waveforms in detail. Describe in detail what you see. Measure the difference in time between both channels. Hint: Start and stop your Data Acquisition vi until the entire signal is in the middle of the buffer.