Example MATLAB script to implement the Oscilloscope (basic)

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%% Oscilloscope Example
%
%  This example demonstrates how you can configure the Oscilloscope instrument
% to retrieve a single frame of dual-channel voltage data.
%
%  (c) 2021 Liquid Instruments Pty. Ltd.
%


%% Connect to your Moku
% Connect to your Moku by its IP address.
i = MokuOscilloscope('192.168.###.###');


try
    
    %% Configure the instrument
    
    % Configure the frontend
    % Channel 1 DC coupled, 10Vpp range
    i.set_frontend(1, '1MOhm', 'DC', '10Vpp');
    % Channel 2 DC coupled, 50Vpp range
    i.set_frontend(2, '1MOhm', 'DC', '10Vpp');
    
    % Configure the trigger conditions
    % Trigger on input Channel 1, rising edge, 0V
    i.set_trigger('type',"Edge", 'source',"Input1", 'level',0);
    
    % View +- 1 ms i.e. trigger in the centre
    i.set_timebase(-1e-3,1e-3);
    
    % Generate a sine wave on Output 1
    % 0.5Vpp, 10kHz, 0V offset
    i.generate_waveform(1, 'Sine', 'amplitude',0.5, 'frequency', 10e3);
    
    % Generate a square wave on Output 2
    % 1Vpp, 20kHz, 0V offset, 50% duty cycle
    i.generate_waveform(2, 'Square', 'amplitude',1, 'frequency',20e3, 'duty', 50);
    
    % Set the data source of Channel 1 to be Input 1
    i.set_source(1,'Input1');
    % Set the data source of Channel 2 to Input 2
    i.set_source(2,'Input2');
    
    %% Retrieve data
    % Get one frame of dual-channel voltage data
    data = i.get_data();


catch ME
    % End the current connection session with your Moku
    i.relinquish_ownership();
    rethrow(ME)
end


i.relinquish_ownership();