The Quanser AMPAQ-PWM is a single-channel pulse width modulated current amplifier designed to drive high-powered systems such as the Quanser Shake Table II. The amplifier features a generic data acquisition board interface and current sensing capability.
Quanser
The global standard in transformational engineering labs for Controls, Robotics, and Mechatronics, optimized for the academic setting.
Academic institutions trust Quanser to strengthen their reputation through transformative teaching and research labs that accurately replicate theories and bring engineering mathematics and concepts to life.
“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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AELabs take students beyond the breadboard. It gives them hands-on experience with complex analog circuits that could not practically be built from scratch in a lab setting.
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The Ball and Beam module is ideal to introduce various control concepts related to unstable closed loop systems. You can use it to demonstrate real-world control challenges such as aircraft roll control. The module attaches to the Rotary Servo Base Unit.
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The Coupled Tanks system is a process control experiment ideal for teaching and research of control topics related to liquid level control.
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Item Number:app
The Experience Controls app is a unique interactive mobile textbook introducing students to control systems fundamentals in an engaging way, through accessible language, real-time dynamic simulations, and self-directed learning. The accompanying instructor resources allow educators to easily implement Experience Controls into any new or existing control systems course.
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Introduce rotational dynamics concepts.
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The HD² High-Definition Haptic Device is a high-fidelity haptic interface for advanced research in haptics as well as robotics. Combined with Quanser’s powerful control design environment, it provides a flexible development testbed for various emerging applications such as virtual medical simulators and teleoperation.
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The Hexapod stands as a compact and robust six degrees of freedom parallel robotic motion platform, capable of high-acceleration movement handling up to 100 kg. Distinguishing itself from conventional Stewart platforms, this Hexapod utilizes advanced electrical motors, ensuring precision, responsiveness, and minimal maintenance.
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Item Number:782484-01
The double inverted pendulum represents a complex challenge with real-world applications that include stabilizing the takeoff of a multi-stage rocket and modeling the human posture system.
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Item Number:782487-01
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.