Precision linear microstage with embedded controller is a compact, easy-to-integrate motion system with 15 mm travel and >100 gram load capacity
Precision manipulator supports imec’s new ultra-high density Neuropixels 1.0 probes for acute in-vivo neural recording in awake, behaving animals. The compact, easy-to-use manipulator allows neuroscience researchers to quickly and precisely position multiple probes.
Starting new designs with all-in-one positioning modules allows product development engineers to achieve smallest system size. Find out how.
New division targets industrial automation distributors and end users of smart grippers for small collaborative robots
M3-RS-U rotary micro stage features smallest system size, fastest integration, and now longer life for embedded motion in industrial and medical instruments
Article shows New Scale’s micropositioning technology at work in the lab | The Allen Institute for Brain Science was featured in the June 15 Wall Street Journal article, “The Quest to Decode the Brain.” Micropositioning expertise from New Scale Technologies…
Prototype created by researchers at Purdue University demonstrates high performance and low cost to meet the demands of future 5G networks
Rotary micropositioning stage is only 12 mm diameter including embedded controller. It offers 360 degrees continuous rotation at up to 1,100 degrees/second with an accuracy of 0.25 degrees.
Ultra-compact system automatically positions multiple high-density silicon neural probes for electrophysiology, optogenetics research.
NeuroNexus, Cambridge NeuroTech and The Allen Institute will offer demos, presentations of the MPM System at Neuroscience 2017
The video “Forward-looking medical technology” features innovative products on display in Munich at Laser World of Photonics 2107. New Scale Technologies’ David Henderson describes a medical application of the M3-FS Focus Module. Watch the video.
Newest M3-LS Linear Smart Stage has longer travel, higher load capacity for embedded microscopes, other precision micro positioning tasks
Latest addition to “all-in-one” microstage stage family moves >100 gram loads with 500 nm resolution over 15 mm travel
Cambridge NeuroTech to offer New Scale Technologies’ Multi-Probe Micromanipulator (MPM) System for in-vivo electrophysiology
The MPM System, the first multi-probe micro-manipulator optimized for use with new silicon neural probes, enables high-yield acute in-vivo brain recording and optogenetics
Miniature beam steering, mirror positioning developers’ kits now available for purchase at Digi-Key and Mouser
Rotary piezoelectric smart stages with embedded controllers make the system smaller, easier to use than galvo systems
New Multi-Probe Micromanipulator (MPM) System Maximizes Productivity and Precision during Acute In-Vivo Recording
Developed with leading researchers, the MPM System is the first micromanipulator optimized for silicon probe insertion and independent, automated positioning of five or more probes simultaneously.
Patents cover a new rotary piezoelectric motor that achieves very high rotational speed with significant torque in a very small diameter, and a compact wide-angle optical beam steering assembly that has been commercialized in the M3-RS-U Rotary Smart Stages and beam steering developer’s kits.