Konstrukteur von Sondermaschinen, wissenschaftlichen Forschungsmaschinen und medizinischen Geräten

High-Throughput Laser-Based Micro-Diagnostics Sample Preparation Tool - Winner of TÜV SÜD Innovation Prize 2018

A core component of the microPREP™ PRO, the Axis System is essentially a 2-axis robot providing a precise mounting for the machine’s array of sample fixtures, precise alignment of the fixtures to the machine’s camera for setup and inspection of the micromachining process, auto-focusing, precise alignment of the fixtures to the machine’s laser scanner and a parking position for mounting / dismounting the fixtures. The Axis System in the microPREP™ PRO is substantially improved over that in the microPREP™ in terms of accuracy, positioning range, thermal-drift stability and load-capacity for the heavier 2nd-generation fixtures.

microPREP™ PRO axis system with an XRM-Chunk™ Piezo-Motorised Sample Fixture mounted - prepares samples to 10 microns in diameter (finer than a human hair) for X-ray microscopy (XRM) and atom-probe tomography (ATM)

microPREP™ Camera Alignment System - Incorporating a 10-Megapixel CMOS monochrome camera, high-res telecentric lens, prismatic axial illumination and filtering, the Inspection Camera Alignment System displays to the MMI to allow setup of the micromachining routine at the desired coordinates and to provide in-progress viewing.

A core-component of the microPREP™, the Axis System is essentially a 2-axis robot providing a precise mounting for the machine’s array of sample fixtures, precise alignment of the fixtures to the machine’s camera for setup and inspection of the micromachining process, auto-focusing, precise alignment of the fixtures to the machine’s laser scanner and a parking position for mounting / dismounting the fixtures.

A core-component of the microPREP™, the Axis System is essentially a 2-axis robot providing a precise mounting for the machine’s array of sample fixtures, precise alignment of the fixtures to the machine’s camera for setup and inspection of the micromachining process, auto-focusing, precise alignment of the fixtures to the machine’s laser scanner and a parking position for mounting / dismounting the fixtures.

Ideally suited for laser micro-structuring, micro-cutting, micro-drilling and micro-welding applications on a variety of substrates, the microSTRUCT™ C is a highly flexible laser micromachining system used for product development and applied research. Widely used in microSTRUCT™ C systems, the Fixed-Optic System (FOS) provides a highly-configurable mounting platform for a large range of objectives to deliver a tailored, highly-focused laser beam to the workpiece, the facility to affect angular and lateral adjustments of the beam, the facility of a jet of inert gas to displace the air around the micromachining to prevent oxidization, to dispel the ablated material and to provide cooling, and the facility to adjust the jet relative to the beam for optimal flow performance. The design also offers a quick switch-out facility to mount differently-configured FOSs for other micromachining operations.

The microFLEX™ is a highly versatile, all-in-one solution for the manufacture of flexible thin-films for photovoltaics, electronics, medical devices, displays and semi-conductors. The Slot-Die Thin-Film Coating System is a device in the microFLEX™ range of options that deposits a thin coating onto a flexible foil substrate or onto previously deposited layers.

Imaging TL-OSL-RF System: Radiation Protection Dosimetry | Solid State Dosimetry | Geology | Archaeology

Freiberg Instruments (FI) specializes in manufacturing state-of-the-art X-ray diffractometers and automated in-line systems designed for crystal lattice orientation and sample alignment. FI’s ultra-fast and precise Omega-scan technology determines complete crystal orientations in just seconds. Quality control is enhanced with options like 2D (X-Y) or 3D mapping, rocking-curve measurements, and full automation, making FI’s diffractometers indispensable for single crystal manufacturers. Capable of handling boules, ingots, wafers, bars, panels, rods, and more, FI’s XRD devices deliver reliable performance in demanding production environments. Operating 24/7, FI’s systems align crystals for sawing or grinding, locate flats or notches, and verify final products like wafers and blanks, ensuring unmatched precision and efficiency.

MyOSL 4000 is Freiberg Instrument’s automatic cabinet which provides a loading capacity of up to 4000 OSL dosimeters. The system can be equipped with up to two myOSLraser 4.0 for fast processing. Alternatively one of the myOSLraser 4.0 can be temporary replaced with our myOSLirradiator 4.0 for automatic dosimeter calibration. Another upgrade is the sorting option where dosimeters will be placed in up to 2 different magazines according to the reasons for rejection. With the sorting option the myOSL 4000 has a loading capacity up to 3500 OSL dosimeters.

Current IV infusion consumables are simple plastic conduits without any real-time data connectivity. This can lead to error-prone cancer therapies, such as administering wrong medications to the wrong patients with serious and sometimes fatal consequences. Furthermore, nursing staff must setup the IV infusion for each medication in a therapy programme, requiring multiple visits to the patient. At the heart of Connected Consumables’ ecosystem is a multi-input IV infusion pump that allows nursing staff to setup multiple medications in one setting, automatically checking that the right medication is connected to the right patient, saving time and enhancing safety.