Then I found another tutorial that shows how to synchronize different frames between them.
I used the LabVIEW tutorial on how to sync the analog input and output, only to discover that it does not work with two different hunts. I had an old VI that has begun to measure the acceleration just about a second after the entry has been given to the machine. The first problem I have is the synchronization. I generate a signal of white noise using LabVIEW Express signal generator. Chassis output that I use is the NI 9263 and the chassis of entry is the NI 9234. I'm trying to get my LabVIEW program to send analog output to a computer and read acceleration using the cDAQ-9184. To input analog shutdown when the analog output is completed and synchronization I would like to know if this helps or not! 25 * (10 - (-10)) = - 5 v (located between-10 v to 10 v, then convert it to a "full range" of the 20V) 16384 + 32768 = 16384 (once again, i belive this negative conversion of the addition of 32768 is made directly in your FPGA code) To get significant value, follow the calculation below.Ĥ9152 (reading the raw ADC) - 32768 (account for negative numbers) = 16384 (I think the subtraction of 32768 is done in your FPGA to account for negative numbers, that the code is not attached, so I'm not sure)ġ6384 (value at the level of the ADC) / 32768 (input range) * 10 = 5V Input to the FPGA card voltage is 5V, which will appear as 49152 on the ADC. To get the voltage in your program, you will need to convert the readings of the ADC in significant values.Ģ ^ 16 = 65536 (16-bit resolution = 65536 values, represents this 65536 - 10 v to 10 v) I mean, it's that your HAVE is 16-bit resolution over a +/-10V range. With these FPGA cards actually face GOT it / AO on a level of material such as you are reading/writing the actual values of the ADC. Who is scaling to HAVE it / AO on map R series FPGA.