When you are designing motion control systems—whether for robotics, servo motors, or industrial automation—there’s one thing that’s never up for compromise: precision.

That need doesn’t come from a spec sheet. It comes from the field—where machines move 24/7, feedback loops must be exact, and missed signals mean performance degradation, unplanned downtime, or worse.

Over the past few months, we have had in-depth conversations with system design engineers across the industry—at automation OEMs, robotics startups, and large industrial firms. What’s clear is this: angle sensing is becoming a cornerstone of modern motion control architectures.

Join us for a focused, engineer-led webinar hosted by Allegro MicroSystems and Tenxer Labs, where we’ll discuss how TMR and 3D Hall-effect sensors are helping engineers meet growing expectations for performance, reliability, and simplicity in servo motor and robotic systems.

Who Should Attend

• System and motor control engineers working in industrial automation, servo motor design, or robotics

• Hardware architects solving for precision feedback, space constraints, or system stability

• Embedded systems engineers looking to reduce calibration time or simplify sensor integration

• Product and applications engineers aiming to compare real-world sensor performance before committing to BOM choices

Why Angle Sensing Is a Bigger Conversation Than It Used to Be

Traditionally, engineers reached for optical encoders or incremental sensors when they needed angular feedback. They’ve served us well, but as mechanical systems evolve, so do the requirements around sensing.

Here is what is changing:

• Demand for compact form factors: Today’s designs are tighter. Every millimeter matters.

• Increased machine uptime requirements: Maintenance cycles are longer, and reliability matters more than ever.

• Electromagnetic noise and harsh conditions: Environments like welding stations, robotics arms, or servo loops don’t make life easy for sensors.

• Simpler system architectures: Engineers are trying to reduce the number of components without giving up precision or response time.

All of this means designers are revisiting how they sense angle—and whether TMR or 3D Hall-effect sensors can offer a better balance of precision, integration, and robustness.

What You will Walk Away With

• A clear understanding of when and why to use TMR or 3D Hall-effect angle sensors in motor control systems

• Knowledge of trade-offs in signal processing, accuracy, and design integration

• Confidence to evaluate components faster without waiting on hardware shipments

• Direct access to a remote bench where you can test sensor behavior live

• A chance to ask engineers your toughest questions and get clear, honest answers

Join engineers from Allegro MicroSystems and Tenxer Labs for a technical session that might just save you hours of trial and error in your next motor control project.

Register to Reserve Your Spot Now.