NEW YORK, Nov. 15, 2021 (GLOBE NEWSWIRE) -- via InvestorWire – Piezo Motion, a Brain Scientific (OTCQB:BRSF) company, and Precise Motion & Control Inc. together announce a distribution partnership.
Automation engineers will find stepper motors increasingly relevant in their work due to their precise control capabilities and recent technological advancements. These motors, known for their ability ...
This study focuses on the direct-drive ultrasonic resonant motors called PILine ® motors. Their direct-drive design enables ultra-low response times and highly precise positioning without any backlash ...
Piezo Motion partnership with MEV Elektronik will deliver motion control and automation solutions to original equipment manufacturers in central and eastern Europe LAKEWOOD RANCH, Fla., March 24, 2022 ...
Breaking with traditional linear actuator principles - advantages for nanopositioning in optics, astronomy, aerospace, semiconductor technologies. (Nanowerk News) PI, a global leader in precision ...
A team from the University of Sheffield has turned a long-standing weakness in robotics into a key strength. Led by Dr. Lin Cao from the university’s School of Electrical and Electronic Engineering, ...
The International Electrotechnical Commission (IEC) defines a servo device as “an adjustable-speed AC power drive system that includes an AC motor integrated by feedback, a converter, and control, ...
Precision motion systems enable highly accurate and repeatable movements crucial for handling delicate semiconductor components. Collaborations like Kenmec and Neura Robotics aim to automate back-end ...
Stepper motor linear actuators (SMLAs) combine a stepper motor, precision lead screw and nut in one compact envelope, providing a highly configurable, customizable and robust system for linear motion.
Innovative crossed roller bearings, linear guides and positioning tables offer the high accuracy and performance required for next-generation fabrication equipment. As semiconductor manufacturers work ...
The accuracy of motion systems used in precision automation applications is significantly dependent on top-tier positioning stages and motion controllers. When designing a next-generation machine or ...