Engineering Safety into Wearable Drug Delivery
The wearable drug delivery market is evolving rapidly, driven by demand for more precise dosing, smaller form factors, and patient-friendly design. As devices become smaller, motion control systems play a critical role in ensuring accuracy, consistency, and safety.
Nanomotion has developed advanced piezoelectric motion solutions designed for compact, high-precision dosing systems. These direct-drive technologies eliminate mechanical complexity while delivering the reliability required for next-generation wearable devices.
Read more about advancements in motion control for wearable drug delivery in our latest whitepaper.
Download the Whitepaper
FAQs on our Piezoelectric Motors for Precise Dosing
What's the difference between DC and piezoelectric motors?
DC motors use electromagnetic actuation with multiple components, resulting in backlash and the need for brakes. Piezoelectric motors use a compact direct-drive design that delivers zero backlash and self-locking performance in a quieter, magnet-free system.
What are the advantages of piezoelectric motors for precise dosing?
Piezoelectric motors enable precise motion at nanoliter dosing levels, helping meet tight accuracy requirements. Their self-locking behavior and direct drive control improve safety by preventing unintended movement or dosing when power is removed.
Do you have experience in precision dosing technology?
Yes. Nanomotion has extensive experience supporting precision dosing applications for wearable and ambulatory drug delivery systems where tight tolerances and safety are critical.
Featured Technology
non-Magnetic, Direct Piezo Motor
