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We Have Moved: Elliot Scientific Ltd, Unit 11 Sandridge Park, Porters Wood, St Albans, UK AL3 6PH Tel: 01582766300 Email: sales@elliotscientific.com

MDE266 V-LM-3 mm travel XY micropositioner, vacuum compatible, low magnetic

MDE266 V-LM-3 mm travel XY micropositioner, vacuum compatible, low magnetic
Limited Stock
MDE266 V-LM-3 mm travel XY micropositioner, vacuum compatible, low magnetic
  • Stock: In stock - Contact us for lead times.
  • Click here to: Contact us
  • Model: Martock MDE266-V-LM  
£285.00

3 mm travel XY micropositioner, vacuum compatible, low magnetic

MDE266-V-LM  

  • Wide range of configurations
  • Very smooth backlash-free motion
  • Based on very small dovetail slides
  • One of the smallest micropositioners available

The Elliot Scientific MDE266 slide is an ultra-small, dual axis micropositioner with simple adjusters for XY linear translation stage applications in physics experiments or optical systems. The "LM" version is manufactured from materials that are compatible fro use in high magnetic field applications, whilst the LM-V is also suitable for work in Vacuum applications

Specifications
Travel 3 mm
Sensitivity < 0.5 µm
Adjusters

0.25 pitch with 1.27 mm hex socket
Ball hex driver not supplied

eg. MDE213-HEX, 735-144 or 609-590

Top plate 12 x 12 mm
Thickness 11 mm (MDE266)
Mounting holes   Four M1.6 x 2mm deep, both sides

 

Options and Accessories
MDE265 Series Drawing
Click here to download

Knurled knob adjuster
(Knurled knob sold separately as P/No. MD-054115)

MDE213-HEX Hex Key 1.27AF for simple adjusters

Post mounting using MDE857 (and MDE858 if required)   
Fibre holders available: MDE719 and MDE730
Vacuum version MDE266 V

 Standard version MDE266

 MDE266-KN Knurled adjuster version



MDE269 with optional MD-054115 adjusters

 

 

Note: Surface mating with these micropositioners must be truly flat. Unflat surfaces or overtightened screws will cause the slide motion to be jerky and stiff due to distortion. Dovetail slides, unlike miniature ball slides, are unlikely to be permanently damaged by temporary distortion, as the load is supported on a comparatively large area.

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