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QUBE – Servo 3
THE QUICKEST PATH TO PRACTICAL CONTROLS
The Qube Servo 3 is the fastest and most efficient way to bring modern, hands-on learning experiences into your Control Systems course. The system is equipped with a high-quality direct-drive brushed DC motor, two encoders, an internal data acquisition system, and an amplifier. Connect with USB to a Windows PC using MATLAB Simulink or Python.
QBot Platform
HIGH-PERFORMANCE AUTONOMOUS GROUND ROBOT FOR INDOOR LABS
The Quanser QBot Platform is an innovative open-architecture autonomous ground robot, built on a differential drive mobile platform. This solution is ideal for teaching undergraduate and graduate mobile robotics as it is accompanied by comprehensive courseware and equipped with built-in sensors such as LiDAR, front-facing RealSense camera, downward-facing camera, gyroscope, and accelerometer, all powered by an onboard NVIDIA Jetson Orin Nano computer.
Experience Controls App
The Experience Controls textbook app covers the standard topics of undergraduate controls courses in a comprehensive, yet comprehensible way. The app uses clear and concise language, emphasizes concepts through examples and diagrams, tying them to industrial contexts and modern applications. The app also includes real-time dynamic simulations allowing students to interact directly with real control plant models. Furthermore, mini-lecture podcasts, problem sets, and assessment questions help students check their understanding of studied concepts as they progress through the content.
Instructors using Experience Controls in their courses have access to comprehensive resources, including lecture slides, homework, practice, and exam problem sets. These resources are designed to support modern engineering pedagogy approaches, such as flipped classroom, blended learning, and self-directed learning.
QUBE – Servo 2 USB
Integrating Quanser-developed QFLEX 2 computing interface technology, QUBE-Servo 2 provides more flexibility in lab configurations, using a PC, or microcontrollers, such as NI myRIO, Arduino and Raspberry Pi. With the comprehensive course materials included, you can build a state-of-the-art undergraduate teaching lab for your mechatronics or control courses, and engage students in various design and capstone projects.
Shake Table III XY
The QuanserShake Table III XY consists of a stage mounted on the ground support plate. The stage is actuated by three linear motors and move in either the x or y directions. Two motors mounted on the ground support plate of the table operate in parallel and power the x-axis. A single motor mounted to the stage actuates the y-axis. Together the motors allow for XY planar motion in the Cartesian arrangement. The displacement and acceleration of the stage are measured by the on-board encoder and the accelerometer sensors. The encoder and accelerometer are connected to the DAQ and their signals can be displayed and processed further. The Shake Table III XY can be programmed through a provided Shake Table software, as well as through QUARC® for MATLAB®/Simulink®.
Shake Table II XY
The Shake Table II XY consists of two single-axis Shake Table II units mounted perpendicularly on top of each other. Each stage can travel ±7.6 cm. Driven by powerful motors, the Shake Table II XY can achieve an acceleration of 2.5 g when loaded with a 7.5 kg mass.
Furthermore, you can use the two Shake Table II from the XY configuration for other setups, i.e., serial and parallel, to support larger loads, or perform experiments with asynchronous excitation signals.
