- #INTERFACE ANDOR SOLIS TO MATLAB SERIAL#
- #INTERFACE ANDOR SOLIS TO MATLAB DRIVER#
- #INTERFACE ANDOR SOLIS TO MATLAB SOFTWARE#
- #INTERFACE ANDOR SOLIS TO MATLAB CODE#
- #INTERFACE ANDOR SOLIS TO MATLAB FREE#
It can be operated using the company’s SOLIS software interface or other third party software including MATLAB labVIEW and EPICs. All these features make iKon-L HF camera a truly versatile flexible tool that can be easily optimized to keep up with the ever changing requirements in the near future. Andor iKon-L HF camera can be used for a range of research applications including Extreme UV Spectroscopy, XUV reflectometer, Time Resolved X-ray Diffraction and Table-top coherent X-ray. Andor iKon-L HF camera can be mounted on to various fragile instrumentation, image intensifiers and streak cameras, all thanks to the “Soft Dock” spring loaded fiber optic feature which also allows placement of off-the-shelf scintillators.
The camera is available in three standard configurations with an option to make further modifications to suit the requirements. The new iKon-L HF camera features a back-illuminated sensor with highest quantum efficiency of 95% along with a single directly bonded FOP and spring loaded “Soft Dock” mount.Īndor’s iKon-L HF fiber optic camera can be effectively used for both direct and indirect high energy applications involving both soft and hard X-rays for high spatial resolution imaging of low influx signals. Also, the shear amount of data analyzed in the last years in our lab would not have been possible by analyzing the data 'by hand'.Andor Technology plc, provider of scientific imaging and spectroscopy solutions has recently launched the new iKon-L HF fiber optic camera designed to deliver the highest optical, high transmission and spatial resolution performance at ultra low noise levels. It is optimized for minimum input of user-defined parameters aiming to reduce the experiment conductors bias into the data. examples of applications where Andor Solis Spectroscopy allows researchers to. The detected runs however are also used for co-localization, step detection and diffusion analysis. Combined with Andors highly efficient Thermo-Electric cooling interface. The two main parameters that can be extracted are the speed and run-length of the motors. The core of the program is meant for the analysis of single-molecule assays of molecular motors walking on surface attached filaments. This version was last tested under Matlab R2018b and used for our papers in Publications and at least two more papers from our lab that are close to or already submitted by July 2019. It is also optimized for the wide screen used on the setup, so more information and controls can be on-screen at the same time. The design of the GUI is inspired by both the Leica LAS X software that runs on our other TIRF systems and the Andor Solis software that I used previously on this setup. This communication is realized mostly by 'flow field variables' that can store and output data dynamically. The disadvantage is, that communication between the VIs is somewhat complicated. Also the individual subVIs work independently, can be tested individually and could be used in other applications. That means each subVI starts in a separate thread and can be disabled if maintenance is necessary. The advantage of this approach is the modular nature. These allow to display the front panel of a subVI in the main VI window. The main user interface is comprised of several so-called subpanels. Many times I used the example VIs of the suppliers as inspiration for the implementation of the modules. There is an introduction to the API (application programming interface) for most of the devices in the setup that is a good start to understand the VIs.
#INTERFACE ANDOR SOLIS TO MATLAB CODE#
The code is commented on the first subVI level in a manner, that should allow a LabView experienced programmer a basic understanding of the implemented functions. I will therefore explain only the user interface of each module here. The implementation for some of the VIs is rather intricate, especially the camera module and the readout of the the 3D mouse for the stage control.
#INTERFACE ANDOR SOLIS TO MATLAB DRIVER#
Finally any device with a USB driver can be controlled or read out using a VISA interface.
#INTERFACE ANDOR SOLIS TO MATLAB SERIAL#
For others, serial commands can be sent using the RS-232 protocol. VIs that relay commands to the device in a very convenient way. With very few exceptions, there is some kind of implementation for LabView programming for scientific devices and equipment.
#INTERFACE ANDOR SOLIS TO MATLAB FREE#
If you are using other versions of Andor Solis, feel free to modify the code or contact me Enjoy :) Note: This GUI is the extended version of Andor SIF image reader with additional user interface features. LabView has the main advantage of being inherently multi-threaded, making it optimal for applications where many in- and outputs have to be handled simultaneously at any moment. Navigate the frames using slider and Export the image frames to workspace for your further applications. The software is implemented in LabView with some calls to Matlab functions. Matlab data analysis Labview microsope control
To analyse single molecule tracking data and the kinesin stepping, I implemented an extensive analysis pipeline in Matlab. I programmed the complete control and acquisition routines for the custom-built microscope setup in Labview. My scientific coding experience is mainly in Labview and Matlab.