AutoScrew.LR RT·Piezolinear Motion Solution for Mirror Mount Adjustment
Description
The AutoScrew.LR is a compact, high-precision piezo-linear actuator designed for fine-tuned, low-velocity motion applications. With a travel range of 10 mm and step sizes as small as 20 nm, it offers accurate incremental motion ideal for research, alignment, and nanotechnology applications. Utilizing piezo-driven actuation, the AutoScrew.LR delivers a powerful drive force of 20 N and an impressive holding force of 100 N, while maintaining stability with minimal power consumption during idle states due to its self-locking mechanism.
Constructed from stainless steel, this actuator supports compatibility with high vacuum (.HV), non-magnetic (.NM), and ultra-high vacuum (.UHV) environments. Its integrated shielded wire connections and SMB connectors provide robust electrical interfaces. The unit operates through the MC-Newton.E2 or E4 controller with USB connectivity and up to four output channels, enabling efficient system integration.
Engineered for low-speed, high-force applications requiring stable motion, the AutoScrew.LR is an ideal solution for precision optics, sample positioning, and lab automation tasks in demanding experimental setups.
AutoScrew.LR RT·Piezolinear Motion Solution for Mirror Mount Adjustment
Specifications |
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|---|---|
| Motion Distance: | 10000 um |
| Resolution: | 20 nm |
| Drive Force: | 20 N |
| Holding Force: | 100 N |
| Permissible Perpendicular Push Force: | 1 N |
| Travel Range: | 10 mm |
| Typical Step Size: | 20 mm |
| Max Velocity: | 2 mm/min |
| Step Frequency: | 2 KHz |
| Drive Force: | 20 N |
| Holding Force: | 100 N |
| Controller Compatibility: | MC-Newton.E2 / E4 |
| Output Channels: | 4 channels |
| Drive Voltage: | 75 V |
| Power Supply: | DC 12 V |
| Construction Material: | Stainless Steel |
Features
- High Holding Force: Provides 100 N holding force for excellent positional stability
- Precise Step Size: Delivers 20 nm typical, 50 nm max step resolution
10 mm Travel Range: Supports micro-positioning over an extended stroke - Power-Efficient: No heat generation when idle due to self-locking design
- Vacuum Compatibility: Available in .NM (non-magnetic), .HV (high vacuum), and .UHV (ultra-high vacuum) versions
- Versatile Control: Compatible with MC-Newton.E2/E4 controller with USB interface and four output channels
- Robust Construction: Built from stainless steel for durability and environmental resistance
- Optional Thread Mount: Supports M9 x 0.5 mounting thread for flexible integration
Applications
- Precision Sample Positioning: Ideal for moving optical elements or probes in microscopy and metrology
- Nano-Alignment Tasks: Supports ultra-fine adjustments for fiber alignment or interferometry
- Vacuum System Integration: Designed for experiments requiring high or ultra-high vacuum compatibility
- Low-Velocity Scanning: Suitable for applications needing extremely slow, precise motion control
- Lab Automation: Enhances control in lab systems that demand nanometer-resolution and high force
- Mechanical Clamping or Loading: Useful where secure holding and fine positioning are both required
For pricing, technical or any other questions please contact the supplier
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How to order?
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Ships from:
China
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Sold by:
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On FindLight:
since 2020
Frequently Asked Questions
The AutoScrew.LR offers a typical step size of 20 nm, with a maximum step size of 50 nm, enabling precise and incremental movement suitable for high-resolution positioning tasks.
Yes, the actuator is available in .HV (high vacuum) and .UHV (ultra-high vacuum) versions, making it compatible with environments requiring vacuum levels as low as 2E-11 mbar. A .NM (non-magnetic) version is also available for sensitive applications.
The AutoScrew.LR is compatible with the MC-Newton.E2 and MC-Newton.E4 motion controllers. These controllers offer USB connectivity, up to 4 output channels, and 75 V drive voltage, allowing easy integration into various motion control setups.
It delivers a drive force of 20 N and a holding force of 100 N, making it capable of both delicate adjustments and firm positional stability.
No, the actuator features a self-locking mechanism that requires no power during rest, eliminating heat generation and reducing power consumption, which is especially useful in sensitive or vacuum applications.