Quanser's QLabs Virtual Rotary Flexible Link is a fully instrumented, dynamically accurate digital twin of the Quanser Rotary Flexible Link system. QLabs Virtual Rotary Flexible Link is available as a 12-month, multi-seat subscription. The platform is compatible with the physical Rotary Flexible Link curriculum, which covers various modeling and control topics.
Education Equipment for Teaching Alternative Energy Principles
The alternative range offers teaching equipment for the core principles of different types of alternative energy including solar and wind turbine generated energy.
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QLabs Virtual Rotary Servo is a fully instrumented, dynamically accurate digital version of a classic Rotary Servo Base Unit system. The platform is compatible with the physical Rotary Servo Base Unit curriculum.
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This PCIe-based data acquisition board is ideal for rapid control prototyping and delivers superior real-time performance for your workstation. QPIDe originated from National Instruments RIO technology and is compatible with both LabVIEW™ and MATLAB® to give you easy and quick access to signals.
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The Aero 2 is a fully integrated aerospace lab experiment. It is designed for teaching controls and introducing aerospace concepts at an undergraduate level with applications for research at the post-graduate level.
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Investigate introductory and advanced controls.
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The Quanser Energy Systems Board is intended to provide a safe, hands-on introduction to electrical power systems. The board uses scaled-down power systems to offer students a reasonable benchtop form factor. Designed exclusively for the NI ELVIS III platform and LabVIEW™, the board also exposes students to industry-grade instrumentation, measurement, and control fundamentals.
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Understanding the various types of actuators which are available, as well as the differences between them is key to making informed design decisions. Designed exclusively for the NI ELVIS III platform and LabVIEW™, the Quanser Mechatronic Actuators board exposes students to industry-grade measurement and command fundamentals for the four most common actuator types: brushed DC motors, brushless DC motors, stepper motors, and servo motors.
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A critical component of any mechatronics course or program is an understanding of the theory and application of sensors used in mechatronic systems. The Quanser Mechatronic Sensors Board introduces students to various sensors that measure pressure, strain, temperature, contact, distance, angular displacement, and dynamics.
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The Quanser Mechatronic Systems Board is designed to provide hands-on experience with a complete mechatronic system in a safe, and academically appropriate setting. The board gives students an opportunity to delve into the operation of a mechatronic system at every level, from motor interfacing all the way to an engaging application context using industry-grade instrumentation and real-time control.
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The Quanser Rapid Control Prototyping (QRCP) is an additional software for the NI LabVIEW™ graphical development environment. This powerful control design tool spans the spectrum of design, from simulation to control implementation. It significantly simplifies access to Quanser control experiments by taking care of all standard low-level software and hardware configurations.
