Write output scans to hardware channels
scan data to the DataAcquisition interface for the device output. The DataAcquisition might
already be started or not.
If the DataAcquisition has not been started,
writesends the data and starts device output generation. As a finite foreground generation, this blocks MATLAB until completed.
If the DataAcquisition had already been started,
writeprovides the data for the output operation to begin, which then runs in the background without blocking MATLAB. The
startfunction arguments determine if the generation is finite, repeating, or continuous. Continuous output requires
writeto provide data for as long as output is needed; multiple calls to
writemight be necessary.
Write a Single Scan
If the supplied data value specifies only a single scan of data for
all output channels, the
write function generates an on-demand output
Create interface and add two output channels.
d = daq("ni"); ch = addoutput(d,"Dev1",0:1,"Voltage");
ch = Index Type Device Channel Measurement Type Range Name _____ ____ ______ _______ _____________________ __________________ __________ 1 "ao" "Dev1" "ao0" "Voltage (SingleEnd)" "-10 to +10 Volts" "Dev1_ao0" 2 "ao" "Dev1" "ao1" "Voltage (SingleEnd)" "-10 to +10 Volts" "Dev1_ao1"
Output 5 volts on both channels.
Generate a Repeating Signal in the Background
Start a DataAcquisition interface for background operation, then provide data for device output.
d = daq("ni"); addoutput(d,"Dev1",1,"Voltage"); signalData = sin((1:1000)*2*pi/1000); start(d,"RepeatOutput") % ⋮ write(d,signalData') % Device output now repeated while MATLAB continues. pause(5) stop(d)
d — DataAcquisition interface
DataAcquisition interface, specified as a
object, created using the
d = daq()
scanData — Scan data for device output
Scan data for device output, specified as an M-by-N matrix, where M is the number of
data scans and N is the number of output channels in the DataAcquisition interface. Each
scanData contains the data for one channel. For a single
channel, the data is a column vector.
Introduced in R2020a