Bench-top unit that allows students to investigate the stages of refrigeration.
Structural Dynamics & Earthquake Engineering
Ideal platforms to re-create seismic activities
A variety of shake tables and smart structure systems – complete with powerful and flexible software – to satisfy your teaching and research needs.
Signals from complete physical systems
Quanser’s testing and measurement labs let you teach the fundamentals of sensors, signal conditioning, and computer-based data acquisition in multiple domains.
Measurement and instrumentation is a fundamental topic in engineering. Without accurate and reliable measurement quantities such as temperature, strain, pressure, and position we will not be able to reliably monitor and control processes. Having an in-depth understanding of the concepts allows engineers to design, implement, and maintain complex engineering systems. Quanser’s measurement and instrumentation solutions allow you to teach the fundamentals of sensors, signal conditioning, and computer-based data acquisition.
Mechanical engineering is one of the oldest and broadest of the engineering disciplines. Students require a broad range of skills and knowledge to be successful in their careers. This engineering discipline combines engineering physics and mathematics principles with materials science to design, analyze, manufacture, and maintain mechanical systems. Learning solutions offered by Quanser provide the tools necessary to teach the skills needed for mechanical engineering.
Electrical and Computer Engineering Lab Solutions
Go beyond the breadboard
Electrical and Computer Engineering courses present specific challenges in the lab. Traditional ECE labs center around wiring circuits and taking measurements, however, the tools involved often interfere with, rather than enhance, the learning experience. With Quanser ECE lab solutions, you can give your students hands-on experience with ECE concepts that far exceed the limitations of breadboards and banana cables. Quanser's line of Electrical Engineering lab solutions focus on integrated instrumentation and flexible onboard circuitry to give students in-depth control via safe, robust, easy-to-use tools.
Elavate your program to new heights
Quanser offers a unique line of engineering lab solutions designed explicitly to introduce both undergraduate and graduate students to the core dynamic, control, and mechatronic challenges of modern flight systems.
Essential Dynamics and Control Concepts
The Quanser Aero is a unique platform that allows students to explore and gain insight into the dynamic complexities of flight applications. At its core, the Aero is a high-precision, plug and play physical system plant to study helicopter flight motion and its control. Applications include 1 DOF attitude control, conventional 2 DOF helicopter flight, and even quadcopter dynamics and control. Reconfigurable elements let you quickly adapt the Aero to modern applications in mechatronic system design.
As a provider of engineering controls education, you may face several challenges. They could include attracting the best students, ensuring students graduate with industry-ready skills, meeting the curriculum’s goals while still finding enough time for research, and last but not least, sourcing reliable lab equipment and educational tools while staying within budget.
Your program will soar to new heights.
Quanser offers a unique line of products designed explicitly to introduce undergraduate and graduate students to the core dynamic, control, and mechatronic challenges of modern flight systems.
Essential Dynamics and Control Concepts
The Quanser Aero is a unique platform that allows students to explore and gain insight into the dynamic complexities of flight applications. At its core, the Aero is a high-precision, plug and play physical system plant to study helicopter flight motion and its control. Applications include 1 DOF attitude control, conventional 2 DOF helicopter flight, and even quadcopter dynamics and control. Reconfigurable elements let you quickly adapt the Aero to modern applications in mechatronic system design.
Comprehensive Product Offering
Quanser offers the most complete range of products for hands-on labs for Aerospace Engineering departments. Quanser systems offer precision and deterministic dynamics to support the theory. The robustness and flexible architecture of the products also make them ideal motion validation platforms for research.
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Item Number:EC1500 - Experiment -
Item Number:TD300 - ExperimentA versatile engine test bed with instrumentation to provide the facilities to investigate the operating characteristics of compatible and interchangeable single-cylinder internal combustion engines rated up to 10 kW.
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Item Number:RVH1, RVH2, RVH3, RVH3+The Remote View Hardware offering from TecQuipment is a bundle containing two cameras, tripods, stands, and mounts for live streaming of experiments and demonstrations in the lab.
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Item Number:SM1015 - ExperimentA bench-top industrial-standard tester for accurate measurements of Rockwell hardness.
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The Rotary Double Inverted Pendulum module is ideal to introduce intermediate and advanced control concepts, taking the classic single inverted pendulum challenge to the next level of complexity. You can use it to demonstrate real-world control challenges related, for example, to takeoff stabilization of a multi-stage rocket. The Rotary Double Inverted Pendulum module attaches to the Rotary Servo Base Unit.
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The Rotary Flexible Joint module is ideal for modeling a flexible joint on a robot when mounted on the Rotary Servo Base Unit. It is also useful in the study of vibration analysis and resonance. This experiment uses a sensor to measure joint deflection, to address the control problems encountered in large, geared robot joints where flexibility is exhibited in the gearbox. Students will learn how to model the system using state-space and design a feedback controller with pole-placement.
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The Rotary Flexible Link module is designed to help students perform flexible link control experiments. The module is designed to be mounted on the Rotary Servo Base Unit. This experiment is ideal for the study of vibration analysis and resonance and allows us to mimic real-life control problems encountered in large, lightweight structures that exhibit flexibilities and require feedback control for improved performance. The experiment is also useful when modeling a flexible link on a robot or spacecraft.
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The Rotary Double Inverted Pendulum module is ideal to introduce intermediate and advanced control concepts, taking the classic single inverted pendulum challenge to the next level of complexity. You can use it to demonstrate real-world control challenges related, for example, to takeoff stabilization of a multi-stage rocket. The Rotary Double Inverted Pendulum module attaches to the Rotary Servo Base Unit.
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The Rotary Servo Base Unit is the fundamental element of the Quanser Rotary Control experiments. It is ideally suited to introduce basic control concepts and theories on an easy-to-use and intuitive platform. Use it on its own to perform several experiments, or expand the scope of this unit by adding on other modules to teach an even wider range of control concepts.
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Item Number:SM1090V - ExperimentDemonstrates the failure of materials when subjected to an alternating stress.
