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TBM2G frameless servo motors are purpose-designed for the next generation of robotic performance. Learn how easy it is to select the right motor for your torque, speed, fit and environmental requirements.

Exoskeletons at Scale: Accelerating the Transition from R&D to Full-rate Production

The exoskeleton market is still in its infancy — but evolving quickly and ripe with opportunity. It’s a double-edged sword for OEMs who must identify the most impactful applications and crack the code on full-scale production, which presents a new set of challenges and considerations. Projects that seemed feasible during R&D and even LRIP can quickly become impossible at scale for a variety of reasons. So how can OEMs foresee (and avoid) issues that may arise as they ramp up production? Here, we’ll cover key tips and insights.
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Humanoid Robots: From Design to Delivery

Humanoid robots promise to make life and work better for millions of people. But creating a design that performs tasks with human-like dexterity and superhuman endurance, then bringing it successfully to market, means solving multiple design challenges simultaneously. Learn how to integrate both performance and manufacturability, beginning with the prototyping stage, by implementing smarter development practices and robot-ready motion system designs.
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Engineer the Exceptional

Learn how to engineer exceptional machines, robots and vehicles with the highest-performing, most reliable motors, drives, automation solutions and more.

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TBM2G Frameless Motors for Propulsion Systems and Extreme Environments

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Servo motors are often used in extreme environments — for example, submersible vehicle propulsion systems, spacecraft, semiconductor manufacturing under high-vacuum conditions, hygienic equipment subject to high-pressure washdowns, and more.
Embedding TBM2G Frameless Motors into Gimbal and Precision Actuator Systems

Embedding TBM2G Frameless Motors into Gimbal and Precision Actuator Systems >

A gimbal is a pivoting support that permits rotation of an object around an axis. Additional degrees of freedom can be obtained by combining or nesting two or more gimbals, with their axes of rotation at 90° apart.
Embedding TBM2G Frameless Motors into Compact Rotary Actuators

Embedding TBM2G Frameless Motors into Compact Rotary Actuators >

An electric rotary actuator produces rotary motion to drive a load. In its simplest form, a direct drive motor is coupled directly to the load. Often, rotary actuators also incorporate a gearbox to increase torque while reducing speed. Appropriate…
Have You Considered a Frameless Motor?

Have You Considered a Frameless Motor?  >

When most engineers think of a brushless DC servo motor, they’re likely to visualize a housing with a flange to accept mounting bolts, connectors to accept power and data cables, and a rotor shaft that couples to the load. That’s the most common…

Exoskeletons at Scale: Accelerating the Transition from R&D to Full-rate Production >

The exoskeleton market is still in its infancy — but evolving quickly and ripe with opportunity. It’s a double-edged sword for OEMs who must identify the most impactful applications and crack the code on full-scale production, which presents a new…
Advancing Exoskeleton Technology: Key Motion and Motor Design Considerations

Advancing Exoskeleton Technology: Key Motion and Motor Design Considerations  >

When it comes to exoskeletons, motion design and motor selection are make-or-break steps in the engineering process. Here we explore key considerations and insights for success.

Greater Comfort & Safe Mobility in Exoskeleton Design >

As the exoskeleton market evolves, how can OEMs design for greater comfort, mobility and reliability? Read the blog to learn more.

3 Tips to Accelerate Humanoids from Concept to Prototype to Production  >

Humanoid robots are projected to become a $6+ billion opportunity within the next 10 to 15 years.1 Many labs, research entities and startup companies have taken notice, and are rushing to develop concepts and prototypes ahead of the competition. But…

Build a Better Humanoid With Lightweight, Torque-Dense, Robot-Ready Motion  >

In a short time, humanoid robots have progressed from science fiction to a $6+ billion opportunity. Learn how to succeed in this exponentially growing market by solving motion challenges far beyond the requirements of conventional industrial robots.