To import LS100, you can either use:
from psychopy_minolta.minolta import LS100
or, any time after psychopy.plugins.activatePlugins has been called:
from psychopy.hardware.minolta import LS100
A class to define a Minolta LS100 (or LS110?) photometer
You need to connect a LS100 to the serial (RS232) port and when you turn it on press the F key on the device. This will put it into the correct mode to communicate with the serial port.
usage:
from psychopy.hardware import minolta
phot = minolta.LS100(port)
if phot.OK: # then we successfully made a connection
print(phot.getLum())
port: string
the serial port that should be checked
If the device doesn’t respond first time how many attempts should be made? If you’re certain that this is the correct port and the device is on and correctly configured then this could be set high. If not then set this low.
Various messages are printed to the log regarding the function of this device, but to see them you need to set the printing of the log to the correct level:
from psychopy import logging
logging.console.setLevel(logging.ERROR) # error messages only
logging.console.setLevel(logging.INFO) # more info
logging.console.setLevel(logging.DEBUG) # log all communications
If you’re using a keyspan adapter (at least on macOS) be aware that it needs a driver installed. Otherwise no ports will be found.
Error messages:
ERROR: Couldn't connect to Minolta LS100/110 on ____
:This likely means that the device is not connected to that port (although the port has been found and opened). Check that the device has the [ in the bottom right of the display; if not turn off and on again holding the F key.
ERROR: No reply from LS100
:The port was found, the connection was made and an initial command worked, but then the device stopped communating. If the first measurement taken with the device after connecting does not yield a reasonable intensity the device can sulk (not a technical term!). The “[” on the display will disappear and you can no longer communicate with the device. Turn it off and on again (with F depressed) and use a reasonably bright screen for your first measurement. Subsequent measurements can be dark (or we really would be in trouble!!).
Check that the message from the photometer is OK. If there’s an error show it (printed).
Then return True (OK) or False.
Send a command to the photometer and wait an allotted timeout for a response.
The message can be in either bytes or unicode but the returned string will always be utf-encoded.