Skip to main content

A python library/GUI to access and control the TC300 Temperature Controller of Thorlabs.

Project description

pyThorlabsPM100x

pyThorlabsPM100x is a Python library/GUI interface to control the Thorlabs consoles PM100A and PM100D. The package is composed of two parts, a low-level driver to perform basic operations, and high-level GUI, written with PyQt5, which can be easily embedded into other GUIs.

Table of Contents

Installation

Use the package manager pip to install,

pip install pyThorlabsPM100x

This will install pyThorlabsPM100x together with all libraries required to run the low-level driver. In order to use the GUI, it is necessary to install additional libraries, specified in the requirements.txt files,

pip install abstract_instrument_interface>=0.6
pip install "PyQt5>=5.15.6"
pip install "pyqtgraph>=0.12.4"
pip install numpy

Important: in order to be accessible from this library, the console needs to be set to "PM100D NI-VISA" modality, and not to "TLPM modality". Typically, if you used recent Thorlabs software to acquire from a console, that will automatically set the console to "TLPM modality". You can use the utility Power Meter Driver Switcher to switch between modalities.

Usage via the low-level driver

pyThorlabsPM100x provides also a low-level driver, based on the library pyvisa, to directly interface with the powermeter console.

from pyThorlabsPM100x.driver import ThorlabsPM100x
powermeter = ThorlabsPM100x()
available_devices = powermeter.list_devices()
print(available_devices)
powermeter.connect_device(device_addr = available_devices[0][0])
print(powermeter.power)
powermeter.disconnect_device()

The method list_devices() returns a list, with each element representing one available device in the format [address,identity,model]. The string address contains the physical address of the device. The line powermeter.connect_device(device_addr = available_devices[0][0]) establishes a connection to the first device found. We then print the power currently read by the console, and finally disconnect from it.

The class ThorlabsPM100x supports several properties and methods to communicate with the console and to read/change its settings. Some of the properties are read-only, while others can be set. A full list of properties and methods is available here below

Properties

Property Type Description
Can be set?
Notes
power (float,str) First element of list is the power currently read by the console, second element is the power units. No
power_units str Power units No
wavelength int Operating wavelength (in nanometers) of the console. Yes Each powermerter head has a different range of acceptable wavelengths. The driver will not return an error when trying to set a wavelength outside of this range.
power_range float Current power range, defined as the maximum power measurable in the current range Yes When setting this property to a particular value X, the console will change the power range to the smallest power range which allows to measure the desired power X.
min_power_range float Minimum power range available. No For the same console/head, this value might vary for different wavelengths.
max_power_range float Maximum power range available. No For the same console/head, this value might vary for different wavelengths.
auto_power_range bool Determines whether the consol is in auto power range or not. Yes
being_zeroed bool It is True if zero of the device is currently being set. No The property power will return (None,'') if read while being_zeroed==True

Methods

Method Returns Description
list_devices() list Returns a list of all available devices. Each element of the list identifies a different device, and it is a three-element list in the form [address,identity,model]. The string address contains the physical address of the device. The string idn contains the 'identity' of the device (which is the answer of the device to the visa query '*IDN?'). The string model contains the device model (either 'PM100A' or 'PM100D').
connect_device(device_addr: str) (str,int) Attempt to connect to the device identified by the address in the string device_addr. It returns a list of two elements. The first element is a string containing either the ID number of the connected device or an error message. The second element is an integer, equal to 1 if connection was succesful or to 0 otherwise.
disconnect_device() (str,int) Attempt to disconnect the currently connected device. If no device is currently connected, it raises a RuntimeError. It returns a list of two elements. The first element is a string containing info on succesful disconnection or an error message. The second element is an integer, equal to 1 if disconnection was succesful or to 0 otherwise.
read_min_max_wavelength() (float,float) Returns the minimum and maximum operating wavelengths for the connected device. If no device is currently connected, it raises a RuntimeError.
set_zero() int Set the zero to the currently connected (if any) console. The returned value is 1 if the operation was successful, or 0 if any error occurred.
move_to_next_power_range(direction: int) None It increases or decreases the power range of the console, depending on whether the input parameter is direction=+1 or direction=-1.

Examples

from pyThorlabsPM100x.driver import ThorlabsPM100x
powermeter = ThorlabsPM100x()
available_devices = powermeter.list_devices() #Check which devices are available
print(available_devices)
powermeter.connect_device(device_addr = available_devices[0][0]) #Connect to the first available device
print(powermeter.power) #print the power currently read
print(powermeter.wavelength) #print the operating wavelength
(minWL,maxWL) = powermeter.read_min_max_wavelength() #read max and min available wavelengths
powermeter.wavelength = maxWL #set wavelength to the max
print(powermeter.power_range) #print current power range
powermeter.move_to_next_power_range(direction=+1) #increaase power range
print(powermeter.power_range) #print new power range
powermeter.disconnect_device() #disconnect the device

Usage as a stand-alone GUI interface

The installation should set up an entry point for the GUI. Just typing

pyThorlabsPM100x

in the command prompt will start the GUI.

Embed the GUI within another GUI

The GUI controller can also be easily integrated within a larger graphical interface, as shown in the example here.

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

pyThorlabsTC300-0.3.tar.gz (327.2 kB view details)

Uploaded Source

Built Distribution

pyThorlabsTC300-0.3-py3-none-any.whl (323.8 kB view details)

Uploaded Python 3

File details

Details for the file pyThorlabsTC300-0.3.tar.gz.

File metadata

  • Download URL: pyThorlabsTC300-0.3.tar.gz
  • Upload date:
  • Size: 327.2 kB
  • Tags: Source
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/4.0.2 CPython/3.10.11

File hashes

Hashes for pyThorlabsTC300-0.3.tar.gz
Algorithm Hash digest
SHA256 0be7c9b815b713f63bf757859af68558031eb374e2b9aaa6188bc17bc296f6a8
MD5 19fa03de8e77844b333f32f05b78a476
BLAKE2b-256 93675d7276fafde185c051d9e847bb1f8d2c1d6685611e48af70230c4c587036

See more details on using hashes here.

File details

Details for the file pyThorlabsTC300-0.3-py3-none-any.whl.

File metadata

File hashes

Hashes for pyThorlabsTC300-0.3-py3-none-any.whl
Algorithm Hash digest
SHA256 a3672a263c53b43059c7b36427c573c79c3f2f12862292863e9d9519872ce015
MD5 fd8114dc1182b0cc9e11466e743b43ad
BLAKE2b-256 577953259e3c52681956e50633c9a0d4f777234634838f3aff6a660c46b860a5

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page