a feature-rich Python interface for ASI Tiger Controllers.
This driver was written to simplify the serial api to ASI's Tiger Controllers while reducing reliance on the full documentation for most users. Many (but not all!) commands have been exposed and wrapped in a simplified, self-consistent interface and documented for easy usage.
To install this package from PyPI, invoke: pip install TigerASI.
To install this package from the Github in editable mode, from this directory invoke: pip install -e .
To install this package in editable mode and build the docs locally, invoke: pip install -e .[dev]
from tigerasi.tiger_controller import TigerController
box = TigerController("COM4")The basic command syntax looks like this:
box.zero_in_place('x', 'y') # Zero out the specified axes at their current location.
box.move_absolute(x=1000, y=25) # Move to an absolute location in "stage units" (tenths of microns).
box.move_relative(z=100) # Move z +100 stage units in the positive z direction.All commands that reference stage axes accept a variable, optional number of arguments.
box.zero_in_place('x') # only zeros the x axis. Other axes are ignored.Stage axes are also case-insensitive,
box.zero_in_place('X', 'y', 'Z') # also okand the order doesn't matter.
box.zero_in_place('y', 'z', 'x') # also okAll commands that query stage axes return a dict, keyed by upper-case stage axis.
box.get_position('x', 'z', 'y')
# {'X': 100.0, 'Y': 305.0, 'Z': 10000.0}Some commands can take an axis setting to be "current value" and another axis setting to be a specified value. The syntax for these commands look like this:
box.set_home('x', 'z', y=100.0) # Set x and z axes homing location to current spot. Set y axis to specific spot.
box.set_home('z', 'y', 'x', m=100.0, n=200.0) # variable number of arguments ok! order and case don't matter.Some commands assume all axes if none are specified.
box.zero_in_place() # will zero ALL lettered axes.
box.reset_lower_travel_limits() # will reset ALL lettered axes.
box.get_home() # will get ALL lettered axis home positions.
box.get_lower_travel_limits() # will get ALL lettered axis lower travel limits.For setting values, this might not be your desired behavior, so it is safer to default to passing in axes explicitly.
box.zero_in_place('x', 'y', 'z') # will zero only x, y, and z axes.
box.reset_lower_travel_limits('x', 'y', 'z') # will reset only x, y, and z axes.When in doubt, check the docs.
This package also features a simulated version of the TigerController
from tigerasi.sim_tiger_controller import SimTigerController
box = SimTigerController() # OR
box = SimTigerController('COM4') # com port is ignored. # OR
box = SimTigerController(build_config={'Motor Axes': ['X', 'Y', 'Z']})
# This object tracks its internal state for position and speed.
box.home_in_place('x', 'y', 'z') # home mocked axes.
box.move_absolute(z=10) # move mocked axis.This feature can be useful for testing higher level code using the current api without the need to interact with real hardware.
Many (but not all!) of ASI's more advanced features have been made available via this simplified API. This list includes joystick enabling/disabling and remapping, setting stage travel limits, queuing moves into the hardware buffer, and many other more nuanced features. For a breakdown of what commands have been exposed, have a look at the examples folder and the docs.
Docs can be generated via Sphinx but are also available on readthedocs.
All commands to the Tigerbox return a reply. Commands that query the Tigerbox state will also return data with that reply.
Waiting for a reply introduces 10-20[ms] of execution time before the function returns an 'ACK'knowledgement. By default, methods will block until receiving this acknowledgement unless otherwise specified, like this:
box.move_absolute(x=1000, y=25, wait=False) # will not block.This behavior can only be used for commands to change the Tigerbox state. Commands that query the Tigerbox state will always block until they receive a hardware reply.