WHY DTI MOTORS?
Key Benefits of Piezoelectric Motors vs. Electromagnetic Motors
Piezo motors can provide >1000 X’s Better Resolution, >100 X’s Faster Reaction Time and >10X’s Greater Torque/Force compared to comparable conventional electric magnetic motors.
Modern design concept employed by DTI enables standard piezo motor models priced extremely competitively compared to other makes.
Energy & Cost Savings
DTI’s Piezo motors are low voltage (e.g. 12 VDC) and have increased energy efficiency. Furthermore they can also be used direct-drive, often eliminating the need for gearing or a break system altogether.
DTI’s piezo motor designs are completely scalable resulting in many design options for rotary, linear motion, or precision flow-control with piezo valves.
DTI piezo motor products can be made using non-magnetic materials enabling use in specialized applications (e.g. medical MRI), they are also silent during operation.
Piezo motors are immune from electromagnetic interference (EMI /RFI) and do not contain any rare earth elements (REE’s).
OUR TEAM IS HERE FOR YOU
DTI’s unique piezo motor technology provides performance superior to conventional EM motor-based systems in certain applications. Not sure which DTI product is ideal for your application? Our team of engineers and scientists are here to help!
DTI products are used in broad range of industrial equipment applications, including food and pharmaceutical processing, gas and oil pipelines, power reactors, chemical reactors, steam/water pipelines, and vacuum systems.
From piezoelectric motors for use in aircraft cabin equipment to miniature robotic systems for use in satellites, DTI offers a broad range of high performance solutions for high precision motion control systems.
The medical industry has long depended on cutting edge technology to provide patients with the best care possible. From Imaging to scanning and robotic surgical devices; the applications for piezoelectric motor technology is broad and the technology is key in providing the best care possible.