2
0
mirror of https://github.com/m-labs/artiq.git synced 2024-12-19 00:16:29 +08:00
artiq/doc/manual/ndsp_reference.rst

178 lines
4.0 KiB
ReStructuredText

Network device support packages reference
=========================================
PDQ2
----
Driver
++++++
.. automodule:: artiq.devices.pdq2.driver
:members:
Mediator
++++++++
.. automodule:: artiq.devices.pdq2.mediator
:members:
Controller
++++++++++
.. argparse::
:ref: artiq.frontend.pdq2_controller.get_argparser
:prog: pdq2_controller
Client
++++++
.. argparse::
:ref: artiq.frontend.pdq2_client.get_argparser
:prog: pdq2_client
Lab Brick Digital Attenuator (LDA)
----------------------------------
Driver
++++++
.. automodule:: artiq.devices.lda.driver
:members:
Controller
++++++++++
.. argparse::
:ref: artiq.frontend.lda_controller.get_argparser
:prog: lda_controller
Novatech 409B
-------------
Driver
++++++
.. automodule:: artiq.devices.novatech409b.driver
:members:
Controller
++++++++++
.. argparse::
:ref: artiq.frontend.novatech409b_controller.get_argparser
:prog: novatech409b_controller
Thorlabs T-Cube
---------------
TDC001 controller usage example
+++++++++++++++++++++++++++++++
First, run the TDC001 controller::
$ thorlabs_tcube_controller -P TDC001 -d /dev/ttyUSBx
.. note::
On Windows the serial port (the ``-d`` argument) will be of the form ``COMx``.
Then, send commands to it via the ``artiq_rpctool`` utility::
$ artiq_rpctool ::1 3255 list-targets
Target(s): tdc001
$ artiq_rpctool ::1 3255 call move_relative 10000 # will move forward
$ artiq_rpctool ::1 3255 call move_relative -10000 # will move backward
$ artiq_rpctool ::1 3255 call move_absolute 20000 # absolute move to 20000
$ artiq_rpctool ::1 3255 call move_home # will go back to home position
$ artiq_rpctool ::1 3255 call close # close the device
TPZ001 controller usage example
+++++++++++++++++++++++++++++++
First, run the TPZ001 controller::
$ thorlabs_tcube_controller -P TPZ001 -d /dev/ttyUSBx
.. note::
On Windows the serial port (the ``-d`` argument) will be of the form ``COMx``.
Then, send commands to it via the ``artiq_rpctool`` utility::
$ artiq_rpctool ::1 3255 list-targets
Target(s): tpz001
$ artiq_rpctool ::1 3255 call set_output_volts 15 # set output voltage to 15 V
$ artiq_rpctool ::1 3255 call get_output_volts # read back output voltage
15
$ artiq_rpctool ::1 3255 call set_tpz_io_settings 150 1 # set maximum output voltage to 150 V
$ artiq_rpctool ::1 3255 call set_output_volts 150 # set output voltage to 150 V
$ artiq_rpctool ::1 3255 call close # close the device
TDC001 Driver
+++++++++++++
.. autoclass:: artiq.devices.thorlabs_tcube.driver.Tdc
:members:
TPZ001 Driver
+++++++++++++
.. autoclass:: artiq.devices.thorlabs_tcube.driver.Tpz
:members:
Controller
++++++++++
.. argparse::
:ref: artiq.frontend.thorlabs_tcube_controller.get_argparser
:prog: thorlabs_controller
NI PXI6733
----------
PXI6733 controller usage example
++++++++++++++++++++++++++++++++
This controller has only been tested on Windows so far.
To use this controller you need first to install the NI-DAQmx driver
from http://www.ni.com/downloads/ni-drivers/f/.
Then you also need to install PyDAQmx python module::
$ git clone https://github.com/clade/PyDAQmx
$ cd PyDAQmx
$ C:\Python34\Tools\Scripts\2to3.py -w .
$ python setup.py build
$ python setup.py install
Then, you can run the PXI6733 controller::
$ pxi6733_controller -d Dev1
Then, send a load_sample_values command to it via the ``artiq_rpctool`` utility::
$ artiq_rpctool ::1 3256 list-targets
Target(s): pxi6733
$ artiq_rpctool ::1 3256 call load_sample_values 'np.array([1.0, 2.0, 3.0, 4.0], dtype=float)'
This loads 4 voltage values as a numpy float array: 1.0 V, 2.0 V, 3.0 V, 4.0 V
Then the device is set up to output those samples at each rising edge of the clock.
Driver
++++++
.. automodule:: artiq.devices.pxi6733.driver
:members:
Controller
++++++++++
Usage example
.. argparse::
:ref: artiq.frontend.pxi6733_controller.get_argparser
:prog: pxi6733_controller