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.
TecQuipment designs, develops, and produces a comprehensive range of products for engineering training. The company is well known as a preeminent provider of technical teaching equipment for schools, colleges, universities, and industrial training centers worldwide.
TecQuipment operates a constant product improvement process to guarantee that the teaching equipment stays ahead of the competition and meets customers’ needs. The product ranges are reviewed and updated, and new products are developed as curricula change. Manufacturing on-site enables the engineering team to work alongside production to guarantee that quality products are designed and produced to give end-users many years of safe, accurate and reliable usage.
Maintaining high quality of all TecQuipment products is crucial. Strict quality control guidelines at each stage of development ensure the products consistently meet very high standards. These systems are robust and designed to withstand long-term, substantial laboratory and classroom use and ensure reliable operation for many years. All TecQuipment products include comprehensive user guides, which provide relevant theory, technical information, and experiments. The comprehensive level of support helps students understand the principles involved in each experiment, enabling them to put theory into practice.
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Engineering Educational Equipment
TecQuipment designs, develops and manufactures a comprehensive range of technical education products and engineering educational equipment for schools, colleges, universities, and industrial training centers worldwide. Products cover disciplines within mechanical, civil, electrical and structural engineering courses.
TecQuipment’s engineering educational equipment includes high-quality user guides, which provide relevant theory, technical information and experiments. The comprehensive level of support helps students understand the principles involved with each experiment, enabling them to put theory into practice.
Aeronautic Equipment for Education and Training
The aerodynamics range is used for the teaching of a vast range of aerodynamic principles, from fundamentals through to advanced theories. Subsonic wind tunnels teach students the basics about lift, drag and pitching moments, plus the high-level topics such as the boundary layer and pressure distribution around models. Students can also perform wake investigations. Supersonic wind tunnels are for the more advanced teaching of aerodynamic engineering, with experiments that start with nozzle pressure distribution, on to an analysis of Mach numbers, and the measurement and visualization of pressure and shock waves using Schlieren apparatus. The comprehensive range means that a product can be found to suit every space, budget and complexity requirement.
The wind tunnels available span a variety of sizes and experimentation capabilities, from benchtop models for learning the basics to products requiring large laboratories for a more detailed understanding of aerodynamics.
Subsonic Wind
TunnelsSupersonic Wind
TunnelsWind Tunnel
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Control Engineering Equipment for Education
TecQuipment's control engineering range focuses on the teaching of specific control principles relating to static and dynamic systems as well as naturally unstable, non-linear, multi-variable and oscillatory systems. The majority of the range can be connected to TecQuipment's dedicated controllers with easy to use control software. The simple, low voltage connections allow safe and quick experiment set-up.
TecQuipment's Electrical Power Systems are a cornerstone in modern electrical engineering education. These systems offer students a hands-on, immersive experience in understanding the intricacies of electrical power generation, transmission, distribution, and utilization, aligning theory with real-world applications.
The equipment's versatility allows students to explore various aspects of electrical power systems, from renewable energy integration to grid stability analysis. With interactive components like generators, transformers, and load banks, learners can simulate and analyze diverse scenarios, fostering problem-solving skills essential for future engineers.
TecQuipment's commitment to safety ensures that students can experiment and learn without risks, building confidence in their abilities. The integration of data acquisition and analysis tools also provides students with a comprehensive understanding of system performance.
Incorporating TecQuipment's Electrical Power Systems into the curriculum not only equips students with practical skills but also prepares them for the challenges of a rapidly evolving energy landscape, making them well-rounded and job-ready electrical engineers. These systems undoubtedly empower the engineers of tomorrow with the knowledge and expertise needed to shape the future of electrical power systems.
Experimental Equipment for Teaching Fundamentals of Mechanical Engineering
The engineering science range is a modular system of experimental kits that address the fundamental principles of mechanical engineering including forces and moments; materials testing; vibration, friction and energy; simple machines; and mechanisms. The high quality, robust 'kits' are suitable for teaching STEM principles at a beginner level, while remaining relevant for familiarisation at a post-graduate level. All the hardware required to do experiments related to a particular topic are contained within a kit. These are presented in a storage tray with a purpose-made insert and checklist to ensure all of the parts are returned at the end of the lab session.
Kits can be purchased in any combination, from multiple kits for a whole class to perform the same experiment or a selection of individual kits for demonstrating a variety of different experiments. TecQuipment also sell purpose-built storage trolleys for keeping the kits tidy while protecting them from damage when not in use.
Teaching Equipment for the Understanding of Engines
The engines range offers teaching equipment for a wide variety of engine specific theory covering internal combustion engines starting with simple four-stroke engines, through to gas turbines/turbojets, along with steam engines.
The range meets entry-level requirements for the general teaching of mechanical engineering through to addressing the more advanced theories required for final-year students enabling them to meet the learning objectives required for specific industries such as aerospace, automotive and power.
Domestic and Industrial Environmental Control Teaching Equipment
The environmental control range offers teaching equipment covering the fundamental theories associated with thermodynamics, fluid mechanics and heat transfer. This enables students to understand environmental control in the real industrial and consumer world. Experiments allow students to comprehend the workings of cooling towers, refrigeration, air conditioning, humidity, and solar energy; utilizing psychrometric and P-h charts.
Teaching Equipment for Fluid Mechanics
The fluid mechanics range offers a wide scope of teaching equipment for the delivery of complete courses in fluid dynamics.
In many settings, the modular Digital Hydraulic Bench acts as a base unit, allowing tutors to swap out individually mounted experiment modules on these self-contained benches, reducing lab set-up time, lab space requirements, and cost.
The impressive flow and sediment channels for demonstrating the mechanics of flow also enable the practical teaching and demonstration of phenomena such as critical and subcritical flow, hydraulic jump, and dune formation. There are many ancillaries available for use with the flow channels enabling them to be used as both teaching and research aids.
Within the fluid mechanics range there is equipment for demonstrating Bernoulli's theorem, the function, and dynamics of weirs, pressure and flow measurement, pipe friction, and energy loss, and much more.
Basic to Advanced Materials Testing Equipment for Teaching
The materials testing and properties products offer a wide range of teaching equipment to demonstrate key materials properties; they cover Hooke's Law and Young's modulus associated with elastic properties, and stress/strain analysis. For more advanced learning, experiments available progress to hardness testing, complex analysis of stress and strain, testing specimens to destruction and various apparatus for learning about material fatigue.
The range also extends into the area of structures and structural elements, providing supplementary products to our complete modular Structures range.
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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.
