3 DOF Probenmanipulator
Vakuum / Reinraum Mehrachssysteme

786020:001.26 VAR
3 DOF Probenmanipulator - Vakuum / Reinraum Mehrachssysteme

 

Kompakter 3 DOF Probenmanipulator XY-Theta für Ultrahochvakuum

UHV 10E-11 mbar | UV / DUV / EUV / Röntgen | ISO 4 | Hub 30 x 30 mm | Rotation n×360° | Repro ± 0.2 µm | Speed 20 mm/s / 200°/s

  • Reinraum: Varianten bis Klasse ISO 4 (höher auf Anfrage)
  • Vakuum: flüssig bis 10-8 mbar | trocken bis 10-11 mbar
  • Strahlung: UV | DUV | EUV | Röntgen | Gamma auf Anfrage
  • Sehr kompaktes XY-Rz System mit hoher Steifigkeit | kleinstem Bauraum sowie hohen Geschwindigkeiten und Beschleunigungen
  • Hohe Auflösung für XY-Scans und Schnitte mit zusätzlicher kontinuierlicher Drehachse
Optional konfigurierbar:
  • Angepasste Probenhalter für kundenspezifische Anwendungen
  • Magnetische und magnetarme Ausführung auf Anfrage
  • Material- und Umgebungsanpassung für UHV | Reinraum und Strahlung
  • Optional mit Controller FMC22x | FMC400/450 oder ACS

Sehr kompaktes XY-Rz System für hochauflösende Scans im UHV

Der 3 DOF Probenmanipulator XY-Theta wurde für Anwendungen im Ultrahochvakuum entwickelt, bei denen ein sehr kompaktes System mit hoher Steifigkeit | hoher Auflösung und zusätzlicher kontinuierlicher Drehachse benötigt wird. Die Kombination aus zwei linearen XY-Achsen und einer Z-Rotationsachse ermöglicht präzise XY-Scans sowie Schnitte und Positionieraufgaben in UHV-Umgebungen. Durch Piezomotoren | Profilschiene / Dünnringlager sowie Linearmesssystem / Winkelmesssystem eignet sich die Variante für anspruchsvolle Anwendungen in Mikroskopie | Probenbearbeitung und Forschung.

Anwendungsfelder

3-Achs-Bearbeitung und Probenmanipulation in Ultrahochvakuum | Mikroskopie im Vakuum | Probenbearbeitung im Ionenstrahlmikroskop | Forschung und Entwicklung

 

786020:001.26 VAR | 3 DOF Probenmanipulator   X Y Rz
Standardsystem   KT180-LM KT180-LM DT155
Verfahrweg [mm] [°] 30 30 n*360
Wiederholgenauigkeit unidirektional [µm] [°] ± 0.2 ± 0.2 ± 0.0003
Wiederholgenauigkeit bidirektional [µm] [°] ± 0.3 ± 0.3 ± 0.0005
Positioniergeschwindigkeit [mm/s] [°/s] 20 20 200
Max. Geschwindigkeit [mm/s] [°/s] 30 30 300
Max. Beschleunigung [m/s2] [°/s2] 500 500 3000
Motor   Piezomotor
Führung   Profilschiene / Dünnringlager
Feedback   Linearmesssystem / Winkelmesssystem
Material   Aluminium UHV-gereinigt
Optionale Zusatzausstattung   Angepasste Probenhalter
Varianten Reinraum   bis Reinraum Klasse ISO 4 (höher auf Anfrage)
Varianten Strahlung   UV (DUV, EUV, Röntgen, Gamma auf Anfrage)
Varianten Magnetismus   magnetisch, magnetarm auf Anfrage
Varianten Vakuum [mbar] flüssig 10E-8, trocken 10E-11
Passende Controller   FMC22x, FMC400/450, ACS

 

Changes and errors excepted. Values apply to single axes with our controllers. The values stated here are typical for a standard configuration. Significantly improved performance can be achieved through custom adaptations and with precise knowledge of your application.

Your customized system

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201/5000 Even more axes for your vacuum applications

Almost all atmospheric standard axes are anodized with UHV lubrication for residual pressures up to 10E-6 mbar - or even better - available. Click here for the overview of our standard axes!

Overwiew standard stages   Contact technical consultants

 

Only selected materials, components, and lubricants meet the requirements for low outgassing. In many cases, the use of liquid lubricants is not possible. In addition, the bake-out process places significant stress on the positioning system; thermal stresses occurring at temperatures of up to 140 °C must be taken into account.
All components are designed to be vacuum-compatible and are specially cleaned after manufacturing. Assembly is carried out under cleanroom conditions. For non-magnetic systems, the choice of materials is even more severely restricted.

We offer a wide range of solutions for both UHV systems with the highest performance requirements and non-magnetic assemblies.

The customized adaptation of our positioning systems to existing chambers or setups is carried out in several structured steps. The goal is seamless integration with maximum precision, cleanroom and/or vacuum compatibility, and operational reliability.

Typically, the customization process includes:

  • Analysis of the installation situation (available space, interfaces, loads, degrees of freedom, environmental conditions)
  • Application-specific alignment with respect to vacuum, cleanroom, magnetism, or radiation requirements
  • Mechanical adaptations such as custom adapters, base plates, hole patterns, or installation heights
  • Adaptation of drive, measurement, and cabling concepts, including connector routing, feedthroughs, and cable management
  • Material and lubricant selection tailored to outgassing behavior, particle requirements, and bake-out conditions


The system design is carried out using 3D design and simulation, optionally complemented by prototypes, functional testing, and cleanroom or vacuum preparation.

Our positioning systems are designed for various cleanroom classes in accordance with ISO 14644-1 and can be adapted to the specific application. As standard, we implement systems for ISO 6 to ISO 4. For particularly demanding custom applications—depending on system concept, motion, materials, and lubrication—cleanroom classes down to ISO 2–1 are also possible.

The achievable cleanroom class depends, among other factors, on:

  • the selected mechanics and bearing concept
  • the drive and measurement systems used
  • materials, surface treatments, and lubricants
  • motion profiles and operating conditions, e.g., enclosure and extraction
  • multi-level cleaning processes, handling, and commissioning

All cleanroom systems are appropriately prepared, assembled, and final-cleaned in a cleanroom environment. Upon request, we develop custom solutions precisely tailored to the required cleanroom class and application.

Nearly all atmospheric standard axes are available anodized with UHV lubrication for residual pressures down to 10E-6 mbar — or even better. For systems with stepper or piezo motors, we offer the following vacuum preparation:

  • All parts vacuum-cleaned
  • Liquid lubrication with UHV oil for pressures down to 10-6 mbar
  • Maximum bake-out temperature 80 °C
  • Equipped with Phytron stepper motors
  • Stainless steel components (ball screw, guides, bearings, screws)
  • Kapton or PTFE cabling
  • Kapton or ceramic Sub-D connectors
  • Untreated aluminum surfaces
  • Bores and cavities with venting holes, vented screws, or slotted washers
  • No covers
  • Assembled in our cleanroom
  • Final cleaned
  • Delivered in evacuated, double plastic packaging

 

Click here for more systems:
Overview of our standard axes

Are you looking for a technical solution for your application?

Get your first 3D Design in a few days:

 

Elger Matthes
Consulting, Concepts, Innovation & Engineering
T +49 351 88585-82
E-Mail

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