Since you asked for advice on the RMS functionality you used I took a more detailed look of your code. And I may be harse, but it doesn't make sense (point by point):
You ask the end user for a number of runs, and then you subtract one. Why? I guess it's because the read data before the for loop. (remove that one).
- The Frequency RMS function you use has support for avaraging, and has no limit of the number of averages. Specify the following configuration:
This will add RMS avaraging to you output data, and you can loose all your own calculation with shift registers.
- The following code is just plain wrong:
You only shift the data, without actually changing the data. By incrementing the starting frequency you shift the FFT. So a signal that was detected at 55 Hz, no is plotted at 56 Hz. To your end user this is misleading.
One thing you need to be aware of in your code is that you don't have continious sampling. Each iteration of you for loop your data acquisition is started and stopped. You can verify this by plotting the t0's of the waveform that is captured. You'll notice they don't start at a constant interval.
A better aproach is to use the task created by the Express VI in the first iteration:
However you should then change the acquisition mode to 'continious samples':
Do not forget to close the task in the last iteration: