The Linear Flexible Joint experiment will help your students learn how to model and control real-world dynamic systems such as flexible couplings and gearboxes.
Quanser
The global standard in transformational engineering labs for Controls, Robotics, and Mechatronics, optimized for the academic setting.
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“We are in a golden age of engineering education. There’s a lot to be excited about and a lot to be challenged by. The education we offer students must capture this momentum and help them realize their potential.”
– Paul Gilbert, CEO, Quanser
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Item Number:782490-01
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The linear flexible inverted pendulum challenges students to gain advanced modeling and control experience by controlling both the damping of a flexible link, and an unstable inverted pendulum.
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The Linear Servo Base Unit is the fundamental unit for the Quanser linear motion platform. It is ideally suited to introduce basic control concepts and theories on an easy-to-use and intuitive platform.
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The Quanser Magnetic Levitation device is a single degree of freedom electromagnet-based system that allows users to levitate a ball vertically up and down. The overhead electromagnet generates an attractive force on the metal ball that initially sits on the post. The position of the ball is measured using a photo-sensitive sensor embedded inside the post. The system also includes a current sensor to measure the current inside the electromagnet’s coil.
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Multi-dimensional system for torsional dynamics.
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The Omni™Bundle is a cost-effective and safe way to introduce intermediate and advanced control concepts and theories related to robotics and haptics. Combining Geomagic Touch™ (formerly SensAble Phantom Omni) haptic device with QUARC® control software and comprehensive Quanser-developed curriculum allows students to easily translate course theory into a hands-on experience.
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The Quanser Q1-cRIO is a C series module for the National Instruments CompactRIO controller. The Q1-cRIO module has been designed specifically for controls education and allows to easily interface with most Quanser control experiments. The Q1-cRIO has one analog input, one analog output, and two configurable single-ended encoder input interfaces.
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With Quanser's QArm, students get a systematic understanding of the design of robotic systems and concepts. Comprehensive studio-type course resources to motivate students and provide the basis for interactive challenges is included.
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The Quanser QBot 3 is an innovative open-architecture autonomous ground robot, built on a 2-wheel mobile platform. Equipped with built-in sensors, a vision system, and accompanied by extensive courseware, the QBot 3 is ideally suited for teaching undergraduate and advanced robotics and mechatronics courses.
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The Quanser QDrone 2 autonomous air vehicle is a midsized quadrotor equipped with a powerful onboard NVIDIA Jetson Xavier NX system-on-module (SOM), multiple high-resolution cameras, and built-in WiFi.