![]() ![]() PiezoWalk NEXACT ® Ultra-compact nanopositioning linear motor / actuator, subnanometer resolution, self locking at rest. More Information on PiezoWalk Linear Motors NEXACT ® linear actuator, nanomanipulator, piezo stepper, self locking at rest PiezoWalk Linear Motors (Piezo-Step Motors) More Info: Compact Piezo Rotary Motor StagesĬompact Piezo-Mike Screw Actuator, Self Locking, Based on Stick-Slip Effect, Vacuum OptionĬompact OEM Linear Motor Actuators, Self Locking, Based on Stick-Slip Effect, Vacuum Option ![]() Mini Rotation Stage, Stick-Slip Piezo Motor More Info: Small Stages with Piezo Inertia Motors Stick Slip Piezo Motors / Inertial MotorsĬompact Positioning Stage, self locking, based on the stick-slip effect, Vacuum Option Stick-Slip, Ultrasonic and Stepping Piezo Motors, ![]() More Information and Links to Applications. Other Linear Motors based Magnetic Drive Technologies are also available for automation purposes.Īll piezo motors and actuators are in principle nonmagnetic and vacuum-compatible, a perfect match for many applications in the semiconductor industry. Read Stick-Slip Performance Article.įlexure type piezo linear actuators are best used for smaller ranges but offer extremely fast response to microseconds. They are usually driven in step mode and PI motors run quietly at ulrasonic frequencies, however non-resonant. Piezo Stick-Slip motors (piezo inertial motors) are somewhat in between the ultrasonic motors and stepping motors. Piezo-Walk motors (piezo stepping motors) can achieve much higher forces and picometer range resolution but are not as fast. Ultrasonic resonant motors (PILine ®) are characterized by very high acceleration and speed to 800 mm/sec and feature a compact and relatively simple design. All three are self-clamping at rest and basically provide unlimited travel, yet they are very different in their design, specifications and performance. PI currently manufactures several basic types of piezoelectric motors: Ultrasonic motors (resonant motors), piezo stepper motors (PiezoWalk ®) and intertial motors. These compact, energy-efficient mechatronic mechanisms can be employed in precision motion control, replacing electrodynamic motors. Piezo motors are based on the piezoelectric effect. Stick-Slip (Inertia) Piezo Motor Principle In addition to working with longitudinal displacement, various customised PICMA® Benders operate in two-dimensional motion and execute a millimetre displacement so they can be used for vale and pumping functions suitable for lab-on-a-chip devices.High Speed Ultrasonic Piezo Linear Motor Drive Nevertheless, PICMA® Multilayer Piezo Actuators are available in various designs with different displacement modes. Even in limited space, the miniaturised PICMA® Chip actuators enable extreme fast picoliter precise droplet generation. Therefore, the monolithic PICMA® Multilayer Piezo Actuators achieve enhanced reliability even under extreme ambient conditions.ĭue to their low operating voltage, instantaneous displacement and high forces, PICMAs can be used in various medical pumping and dispensing applications like precision dosing or cell sorting. The patented piezoelectric PICMA® Multilayer Piezo Actuators are covered by an all-ceramic insulation layer and protected against humidity, resulting in a superior lifespan. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |