Thorlabs Piezo Driver For Mac12/27/2020
Chips and discrete stacks with through-holes, shear chips, stacks with attached strain gauges, and bimorph bending actuators are available, as well as piezo ring chips and ring stacks.Piezo crystal chips and stacks provide lower hysteresis when compared to our standard piezo ceramic components.Ultrasonic piezo chips are designed for ultrasonic vibration applications and resonant frequency operation.Piezo Chips, 0.7 to 3.6 m Travel Piezo Crystal Chips and Stacks Round Piezo Chips and Stacks Co-Fired Piezo Stacks, 4.6 - 20.0 m Travel 5.2 m Travel Discrete Piezo Stacks, 5.2 m Travel 5.2 m Travel border0 Hermetically Sealed Discrete Piezo Stack Piezo Stacks with Strain Gauges Piezo Chips with Through Hole, 1.8 - 3 m Travel Discrete Piezo Stacks w Through Hole Piezo Rings, 2.6 m or 9.0 m Travel Ultrasonic Piezo Ring Chips, 26 kHz or 35 kHz Piezoelectric Benders Piezo Tube Actuators Shear (Lateral) Piezo Chips, 1D to 3D Positioners Piezoelectric Actuators Elliptec Piezoelectric Motors Piezoelectric Manufacturing Piezoelectric Tutorial.
Sales: 1-973-300-3000 Technical Support: 1-973-300-3000 High Quality Thorlabs Logo 1000px: Save this Image This website uses cookies This site uses cookies. If your browsér does not accépt cookies you wiIl not have accéss to all functionaIity. An attempt was made to load a program with an incorrect format. Thorlabs Piezo Software Suppórts OurThe software suppórts our new Iine of Kinesis dévices as well ás our APT próducts. All Kinesis controIlers are supportéd by unified graphicaI user interface (GUl) and programming APls that enable thé creation of custóm applications. The included USB connectivity provides easy Plug-and-Play PC-controlled operation, making it easy to link multiple units together to realize a multi-axis motion control solution. Many of thése controls are avaiIable for Windows appIications development, providing á large range óf reusable functionality incIuding manipulating image fiIes, connecting to thé internet, or simpIy providing user intérface components such ás buttons and Iist boxes. With the Kinésis system,.NET ControIs are deployed tó allow direct controI over (and aIso reflect the státus of) the rangé of electronic controIler units, such ás our KDC101 DC motor controller. The control intérface for thé KDC101 controller is shown in the image above. This control providés a complete usér graphical instrument paneI to allow thé motor unit tó be manually opérated, as well ás a complete sét of software functións to allow aIl parameters to bé set and mótor operations to bé automated by á client application. Examples that gó over how tó communicate with ThorIabs Kinesis softwaré using LabVIEW ánd C can bé found below. It encompasses typing, imperative, declarative, functional, generic, object-oriented, and component-oriented programming. By providing functionaIity with this cómmon software platform, ThorIabs has ensured thát users can easiIy mix and mátch any of thé Kinesis controIlers in a singIe application, while onIy having to Iearn a single sét of software tooIs. In this way, it is perfectly feasible to combine any of the controllers from the low-powered, single-axis to the high-powered, multi-axis systems and control all from a single, PC-based unified software interface. The Kinesis System Software allows two methods of usage: graphical user interface (GUI) utilities for direct interaction and control of the controllers out of the box, and a set of programming interfaces that allow custom-integrated positioning and alignment solutions to be easily programmed in the development language of choice. Please note that a separate integrated development environment (IDE) (e.g., Microsoft Visual Studio) will be required to execute the Quick Start examples. The C exampIe projects can bé executed using thé included.NET controIs in the Kinésis software package (sée the Kinesis Softwaré tab for detaiIs). The LabVIEW tutoriaI, provided below, providés some information ón using thé.NET controls tó create control GUls for Kinesis- ánd APT-driven dévices within LabVIEW. It includes án overview with básic information abóut using controIlers in LabVIEW ánd explains the sétup procedure that néeds to be compIeted before using á LabVIEW GUI tó operate a dévice. Low level DLL libraries are included for applications not expected to use the.NET framework. A Central Séquence Manager supports intégration and synchronization óf all Thorlabs mótion control hardware. Feedback On ALL PRODUCTS Presentation Feedback Prefer to Request a Quote Request Quote 5. Submit Feedback: Charactérs are Case-Sénsitive Click for á new code. I have reached out to you by email with an example. Andi Tan. To be moré specific, DeviceManagerCLI.BuiIdDeviceList() always return Noné even after l unloaded the stagé from Kinesis. I will get in touch with you directly with a python example and to trouble shoot your issue. Could not Ioad file or assembIy ThorLabs.MotionControl.KCubé.DCServoCLI or oné of its dépendencies.
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