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===================================================== PyLibNIDAQmx - a Python wrapper to libnidaqmx library ===================================================== :Authors: Pearu Peterson <pearu.peterson AT gmail DOT com> :Download: https://github.com/pearu/pylibnidaqmx :Documentation: https://sysbio.ioc.ee/download/software/pylibnidaqmx/ :License: New BSD License History ======= * Project published on November 5, 2009. Installation ============ To use pylibnidaqmx, the following is required: * Python 2.5 or newer * numpy package * libnidaqmx library To install pylibnidaqmx, unpack the archive file, change to the pylibnidaqmx source directory ``PyLibNIDAQmx-?.?*`` (that contains setup.py file and nidaqmx package), and run:: python setup.py install Basic usage =========== The nidaqmx Python package provides the following classes: AnalogInputTask, AnalogOutputTask, DigitalInputTask, DigitalOutputTask, CounterInputTask, CounterOutputTask that can be used to create NI-DAQ tasks and they have methods to create channels, setting timing and triggering properties and reading and writing data. Here follows an example how to generate voltage: >>> from nidaqmx import AnalogOutputTask >>> import numpy as np >>> data = 9.95*np.sin(np.arange(1000, dtype=np.float64)*2*np.pi/1000) >>> task = AnalogOutputTask() >>> task.create_voltage_channel('Dev1/ao2', min_val=-10.0, max_val=10.0) >>> task.configure_timing_sample_clock(rate=1000.0) >>> task.write(data, auto_start=False) >>> task.start() >>> raw_input('Generating voltage continuously. Press Enter to interrupt..') >>> task.stop() >>> del task and example how to measure and plot the voltage: >>> from nidaqmx import AnalogInputTask >>> import numpy as np >>> task = AnalogInputTask() >>> task.create_voltage_channel('Dev1/ai16', terminal = 'rse', min_val=-10.0, max_val=10.0) >>> task.configure_timing_sample_clock(rate=1000.0) >>> task.start() >>> data = task.read(2000, fill_mode='group_by_channel') >>> del task >>> from pylab import plot, show >>> plot (data) >>> show () If Dev1/ao2 and Dev1/ai16 are directly connected then you should see two sine waves plotted to screen. Additional documentation is available online in PyLibNIDAQmx website. Help and bug reports ==================== You can report bugs at the pylibnidaqmx issue tracker: https://github.com/pearu/pylibnidaqmx/issues Any comments and questions can be sent also to the authors.
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