MATLAB: Oscilloscope (plotting)
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Moku:Go
Moku:Go Arbitrary Waveform Generator Moku:Go Data Logger Moku:Go Frequency Response Analyzer Moku:Go Logic Analyzer & Pattern Generator Moku:Go Oscilloscope & Voltmeter Moku:Go PID Controller Moku:Go Spectrum Analyzer Moku:Go Waveform Generator Moku:Go Power Supplies Moku:Go Digital Filter Box Moku:Go FIR Filter Builder Moku:Go Lock-in Amplifier Moku:Go General Moku:Go Logic Analyzer/Pattern Generator Moku:Go Time & Frequency Analyzer Moku:Go Laser Lock Box Moku:Go Phasemeter
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Moku:Lab
Moku:Lab General Moku:Lab Arbitrary Waveform Generator Moku:Lab Data Logger Moku:Lab Digital Filter Box Moku:Lab FIR Filter Builder Moku:Lab Frequency Response Analyzer Moku:Lab Laser Lock Box Moku:Lab Lock-in Amplifier Moku:Lab Oscilloscope Moku:Lab Phasemeter Moku:Lab PID Controller Moku:Lab Spectrum Analyzer Moku:Lab Waveform Generator Moku:Lab Time & Frequency Analyzer Moku:Lab Logic Analyzer/Pattern Generator
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Moku:Pro
Moku:Pro Arbitrary Waveform Generator Moku:Pro Data Logger Moku:Pro Frequency Response Analyzer Moku:Pro Oscilloscope Moku:Pro PID Controller Moku:Pro Spectrum Analyzer Moku:Pro Waveform Generator Moku:Pro Lock-in Amplifier Moku:Pro Digital Filter Box Moku:Pro FIR Filter Builder Moku:Pro Phasemeter Moku:Pro Multi-instrument Mode Moku:Pro General Moku:Pro Logic Analyzer/Pattern Generator Moku:Pro Time & Frequency Analyzer
- Python API
- MATLAB API
- Arbitrary Waveform Generator
- Data Logger
- Digital Filter Box
- FIR Filter Builder
- Frequency Response Analyzer
- Laser Lock Box
- Lock-in Amplifier
- Oscilloscope
- Phasemeter
- PID Controller
- Spectrum Analyzer
- Time & Frequency Analyzer
- Waveform Generator
- Logic Analyzer & Pattern Generator
- Multi Instrument Mode
- Moku Cloud Compile
- Moku general
- LabVIEW
Example MATLAB script to implement the Oscilloscope (plotting)
%% Plotting Oscilloscope Example % % This example demonstrates how you can configure the Oscilloscope instrument, % and view triggered time-voltage data frames in real-time. % % (c) 2017 Liquid Instruments Pty. Ltd. % %% Connect to your Moku ip = input('Please enter your Moku:Lab IP address: ', 's'); % Connect to your Moku and deploy the desired instrument m = MokuOscilloscope(ip); %% Configure the instrument % Trigger on input Channel 1, rising edge, 0V with hysteresis ON m.set_trigger('in1','rising',0.0,'hysteresis','true') % View +- 1 second i.e. trigger in the centre m.set_timebase(-0.001,0.001); % Generate an output sinewave on Channel 2 % 0.5Vpp, 10Hz, 0V offset m.gen_sinewave(2, 0.5, 1e3, 'offset', 0); % Set the data source of Channel 1 to be Input 1 m.set_source(1,'in1'); % Set the data source of Channel 2 to the generated output sinewave m.set_source(2,'out2'); %% Set up plots % Get initial data to set up plots data = m.get_realtime_data(); % Set up the plots figure lh = plot(data.time, data.ch1, data.time, data.ch2); xlabel(gca,'Time (sec)') ylabel(gca,'Amplitude (V)') %% Receive and plot new data frames while 1 data = m.get_realtime_data(); set(lh(1),'XData',data.time,'YData',data.ch1); set(lh(2),'XData',data.time,'YData',data.ch2); axis tight pause(0.1) end