Zaber's New A-LST-C Series High Load, Motorized Linear Stages with Dust Covers

Zaber's A-LST-C stages are computer-controlled and have travel ranges from 254 mm up to 1500 mm. These stages are available with various lead screw pitches so you can select the device with the resolution and speed capability that you need. Zaber's innovative stage design is capable of speeds up to 420 mm/s, and can support loads up to 100 kg

Greenville, DE - Servo2Go.com has just added Zaber's A-LST-C Series High Load, Motorized Linear Stages with Dust Covers to its broad range of high performance cost effective linear slides and actuators.


Device Overview:

• 254, 500, 750, 1000 and 1500 mm travel
• 100 kg load capacity
• Up to 420 mm/s and up to 560 N thrust
• Built-in controller
• Daisy chains with other A-series and T-series products

Description:

Zaber's A-LST-C stages are computer-controlled and have travel ranges from 254 mm up to 1500 mm. These stages are available with various lead screw pitches so you can select the device with the resolution and speed capability that you need. Zaber's innovative stage design is capable of speeds up to 420 mm/s, and can support loads up to 100 kg. The flexible, stainless steel dust cover protects the internal lead-screw and bearings.

Click on the link below for additional information-
http://www.servo2go.com/product.php?ID=105355&cat=

An abridged copy of this Press Release can be viewed online at-

http://servo2go.com/news.php?id=90

For more information, please contact:

EDITORIAL CONTACT:
Warren Osak
warren@servo2go.com
Toll Free Phone: 877-378-0240
Toll Free Fax: 877-378-0249
www.servo2go.com

Featured Product

2nd RoboDEX - Robot Development & Application EXPO

2nd RoboDEX - Robot Development & Application EXPO

RoboDEX, a comprehensive trade show for robots, will be held at the center of robot/robotics industry, Tokyo, 2018. Covering from development technology of robots to application of robots, it attracts all the professionals involved in robot industry and professionals considering utilizing robots.