Acquire Data Using NI Devices

This example shows how to acquire data from a National Instruments™ device.

Discover Analog Input Devices

To discover a device that supports input measurements, access the device in the table returned by the daqlist command. This example uses an NI 9201 module in a National Instruments® CompactDAQ Chassis NI cDAQ-9178. This is an 8 channel analog input device and is module 4 in the chassis.

d = daqlist("ni")

d =

  12×4 table

     DeviceID                 Description                    Model             DeviceInfo     
    ___________    __________________________________    _____________    ____________________

    "cDAQ1Mod1"    "National Instruments NI 9205"        "NI 9205"        [1×1 daq.DeviceInfo]
    "cDAQ1Mod2"    "National Instruments NI 9263"        "NI 9263"        [1×1 daq.DeviceInfo]
    "cDAQ1Mod3"    "National Instruments NI 9234"        "NI 9234"        [1×1 daq.DeviceInfo]
    "cDAQ1Mod4"    "National Instruments NI 9201"        "NI 9201"        [1×1 daq.DeviceInfo]
    "cDAQ1Mod5"    "National Instruments NI 9402"        "NI 9402"        [1×1 daq.DeviceInfo]
    "cDAQ1Mod6"    "National Instruments NI 9213"        "NI 9213"        [1×1 daq.DeviceInfo]
    "cDAQ1Mod7"    "National Instruments NI 9219"        "NI 9219"        [1×1 daq.DeviceInfo]
    "cDAQ1Mod8"    "National Instruments NI 9265"        "NI 9265"        [1×1 daq.DeviceInfo]
    "Dev1"         "National Instruments PCIe-6363"      "PCIe-6363"      [1×1 daq.DeviceInfo]
    "Dev2"         "National Instruments NI ELVIS II"    "NI ELVIS II"    [1×1 daq.DeviceInfo]
    "Dev3"         "National Instruments PCIe-6363"      "PCIe-6363"      [1×1 daq.DeviceInfo]
    "Dev4"         "National Instruments PCIe-6363"      "PCIe-6363"      [1×1 daq.DeviceInfo]

deviceInfo = d{4, "DeviceInfo"}

deviceInfo = 

ni: National Instruments NI 9201 (Device ID: 'cDAQ1Mod4')
   Analog input supports:
      -10 to +10 Volts range
      Rates from 0.6 to 500000.0 scans/sec
      8 channels ('ai0' - 'ai7')
      'Voltage' measurement type
   
This module is in slot 4 of the 'cDAQ-9178' chassis with the name 'cDAQ1'.

Create a DataAcquisition and Add Analog Input Channels

Create a DataAcquisition, set the Rate property (the default is 1000 scans per second), and add analog input channels using addinput.

dq = daq("ni");
dq.Rate = 8000;
addinput(dq, "cDAQ1Mod4", "ai0", "Voltage");
addinput(dq, "cDAQ1Mod4", "ai1", "Voltage");

Acquire a Single Scan as a Table

Use read to acquire a single scan. The result is a table with two data columns because two input channels are used to acquire the scan.

tabledata = read(dq)

tabledata =

  1×2 timetable

    Time     cDAQ1Mod4_ai0    cDAQ1Mod4_ai1
    _____    _____________    _____________

    0 sec     0.00081472       0.00090579

Acquire a Single Scan as a Matrix

Use read to acquire a single scan. The result is an array of size 1x2 because two input channels are used to acquire the scan.

matrixdata = read(dq, "OutputFormat", "Matrix")

matrixdata =

   1.0e-03 *

    0.1270    0.9134

Acquire Data For a Specified Duration

Use read to acquire multiple scans, blocking MATLAB execution until all the data requested is acquired. The acquired data is returned as a timetable with width equal to the number of channels and height equal to the number of scans.

% Acquire data for one second at 8000 scans per second.
data = read(dq, seconds(1));

Plot the Acquired Data

plot(data.Time, data.Variables);
ylabel("Voltage (V)")

Acquire Specified Number of Scans

data = read(dq, 2*dq.Rate);
plot(data.Time, data.Variables);
ylabel("Voltage (V)")