QLabs Virtual Rotary Servo

Virtual platform for distance and blended undergraduate control systems courses

Control Systems & Dynamics Electromechanical Control Software Virtual Experiments

QLabs Virtual Rotary Servo is a fully instrumented, dynamically accurate digital twin of a classic Rotary Servo Base Unit system. It behaves in the same way as the physical hardware and can be measured and controlled using MATLAB®/Simulink® and other development environments. With QLabs Virtual Rotary Servo, you can enrich your lectures and activities in traditional labs, or bring credible, authentic model-based lab experiences into your distance and online control systems course.

QLabs Virtual Rotary Servo is available as a 12-month, multi-seat subscription. The platform is compatible with the physical Rotary Servo Base Unit curriculum, which covers modelling, position, and speed control topics.

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Same as the physical Rotary Servo Base Unit, the virtual system features a DC motor that drives a smaller pinion gear. This gear is fixed to a larger middle gear that rotates on the load shaft. The position of the load shaft is measured using a high-resolution optical encoder or a potentiometer.

High-fidelity, credible lab experiences equivalent to use of physical lab equipment
12-month, multi-seat subscription
Full access to system parameters through MATLAB®/Simulink®
ABET-aligned curriculum

App download & access to subscription management	Quanser Academic Portal
App OS compatibility	Microsoft Windows 10 or later
Required software	Curriculum designed for MATLAB and Simulink R2021a or later, with compatibility with Python 3
Minimum system requirements	Video Card: Intel HD 520 or equivalent DX11 GPU Processor: Core i5-6300U series mobile CPU or equivalent Memory: 8 GB RAM
Recommended system requirements	Video Card: Intel UHD 620 or equivalent GPU Processor: Core i7-8665U series mobile CPU or equivalent Memory: 16 GB RAM