D8 VENTURE, TXS, KAPPA, single crystal X-ray diffraction

D8 VENTURE - Technical Details

New PHOTON II detector with CPAD technology

  • The largest monolithic active area of any pixel array
  • Excellent sensitivity over a wide energy range (Cu Kα to In Kα radiation)
  • Single-photon sensitivity
  • No charge sharing effects, zero counting losses
  • Air-cooled
  • 3-year warranty

 

Sealed tube X-ray sources

  • Mo or Cu radiation
  • the economical solution
  • Optional TRIUMPH for three-fold intensity

 

Microfocus TXS Rotating Anode

  • Compact Direct drive with low maintaneance
  • Pre-crystallized and pre-aligned filaments

IµS 3.0 microfocus X-ray source - tailored to the needs of crystallography

  • Mo or Cu or Ag radiation
  • Twice the intensity of conventional microfocus sources
  • Air-cooled (Watch our Air-Cooled Video)
  • 3-year warranty

 

METALJET

  • Revolutionary liquid metal X-ray source for structural biology
  • Highest X-ray intensity in-house for even smaller and more challenging samples
  • Self-regeneratingtarget with Ga-radiation for lower background scattering and radiation damage
  • Low costs of ownership and high uptime

 

Advanced safety enclosures

  • Compliant with the strictest radiation safety regulations
  • Compliant with the new machinery directive

Goniometer

  • FIXED-CHI
  • KAPPA
  • Best goniometer precision
  • Sphere of confusion of less than 7 micrometer ensures that even your smallest sample stays reliably in the center of the X-ray beam.

 

Software

  • APEX3 is the most complete suite for chemical crystallography
  • PROTEUM3 now with a data processing pipeline for structural biology

Intelligent Goniometer Control

3D robotic path planning

Within the concept of DAVINCI.DESIGN the D8 QUEST and the D8 VENTURE use a revolutionary 3D robotic path planning algorithm to efficiently drive the goniometer, maximizing the system’s capabilities. The path planning software continuously checks the validity of the experimental setup. Hardware recognition identifies components like mirrors, collimators or beamstops automatically.

The intelligent beam path components store all important information about functionality, spatial requirements and dependencies with other components in a memory chip.

Adding the knowledge about the current position of each component provides an up-to-date 3D model of the system and allows the dynamic calculation of an efficient and safe goniometer driving path:

  • Adding or removing a component from the system is instantly updated in the instrument status and available for automated software path planning.
  • Obscurations of the detector by components of the goniometer are rigorously avoided and collisions are made impossible.
  • New hardware components can be added with no need for a firmware update.

Highest Efficiency

Watch the video on the 3D robotic model used for the path planning combined with the real instrument movements.

DAVINCI.DESIGN for Path Planning