The maximum value will now be equal to DC bias plus amplitude and the minimum value will be equal to DC bias minus the amplitude. In the format for pulse range box, we can change the pulse to get its properties from DC bias and amplitude rather then defining the minimum and maximum values. Modifying the settings of both blocks to make them identical again we can see what the next change will do. Running the program, we can see that the pulse became narrower. Changing the value of width to 0.3 will make each pulse have a FWHM width of 0.3 of a bit. We observe that there is less overlap now that the signal is truncated.Īnother way to reduce overlap is to change width value. Double clicking the oscilloscope we can see the modified signal up top and the original signal below. Truncating the pulses will reduced or eliminate overlap. One parameter that will help reduce the overlap is selecting truncated.
#Calculating voltage bias with gaussian software generator#
As you can see, the output is not quite what you may have expected because the pulses are at a width where they overlap and end up interfering with each other.ĭouble clicking on our pulse generator block we can see the properties of the pulse generator. Calculating the project and clicking on the visualizer allows you to see the results. Clicking the bit sequence generator, we can see the bit sequence we will be using. We will be using a fork, 2 pulse generators and comparing them in an oscilloscope so we can easily observe the effects of changing different parameters. For this example, we will use a bit sequence generator at the input of the pulse generator to create the bit sequence that will determine the location of the pulses. The Gaussian pulse generator generates an electrical Gaussian pulsed signal.
In this video we will be looking at the settings of the Gaussian pulse generator and will observe the effects of changing different parameters. The Gaussian pulse generator generates an electrical Gaussian pulse pulse.
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