MATLAB datalogger and saving the logfile
-
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
-
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
-
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
How do I access the log file from MATLAB
The Moku:Lab's Datalogger can be configured and launched from within a MATLAB script. Once the log file is captured it can be downloaded over the network to the MATLAB PC for local analysis. This MATLAB script is an example of how to create and download the log file remotely.
%% Basic Datalogger Example % % This example demonstrates use of the Datalogger instrument to log % time-series voltage data to a (Binary or CSV) file. The remote Moku % logfile is then downloaded to the local PC/Matlab % % (c) 2019 Liquid Instruments Pty. Ltd. % %% Connect to your Moku ip = '192.168.1.68'; file_format='mat'; % Connect to your Moku and deploy the desired instrument m = MokuDatalogger(ip); %% Configure the instrument % Set the samplerate to 1000 Hz m.set_samplerate(80000); m.set_frontend(1, 'fiftyr', false, 'atten', false,'ac', false); m.set_frontend(2, 'fiftyr', false, 'atten', true,'ac', false); m.set_precision_mode(true); %% Start data logging % Stop an existing log (if any) m.stop_data_log(); % Start a new 10-sec dual-channel .MAT log to SD Card. m.start_data_log('duration',10,'use_sd','true','ch1','true', ... 'ch2','true','filetype',file_format); %% Track log progress % Wait for data log progress to reach 100% progress = 0; while(progress < 100) pause(0.5); progress = m.progress_data_log(); disp(['Progress ' num2str(progress) '%']); end m.upload_data_log(); disp(['Uploaded log file']) % Check the filename that the log was saved under fname = m.data_log_filename(); disp(['Log file completed: ' fname]); % Fetch log file from Moku pathname = sprintf('http://%s/sdcard/%s.%s',ip,fname,file_format); outfilename = websave(fname, pathname); disp(['Log saved: ' pathname]); %% Close the logging session % Denote that we are done with the logging session m.stop_data_log();