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As a new kind of manufacturing platform, SMARTER-SI offers the production of state-of-the-art micro-systems for SMEs in small quantities at the most economical prices and without protracted development costs.
The FasterPCR Project (fast automated diagnostic system targeting severe resistant pathogens and cancer) is aimed at a fully automated point-of-care system that facilitates the non-invasive testing of the presence both breast cancer and colon cancer DNA and of multi-resistant bacteria in the body.
Das Ziel des Forschungsvorhabens war die Erarbeitung von Grundlagen für einen Herstellungsprozess von gekrümmten spritzgeprägten Diffraktiven Optischen Elementen (DOEs). Hierfür wurde eine neue Prozesskette etabliert, bestehend aus Laserdirektschreiben, Galvanokopieren und Spritzprägen.
The goal of the AutoKit research project is automation of a complete workflow for performing real-time PCR-based verifications using a single-use cartridge in standard lab devices. This enables effective automation for low to medium sample throughput. The use of standard lab devices saves buying expensive laboratory equipment.
The goal of the SensIDL project is the development of an Open Source Framework for the specification and efficient implementation of the data interfaces of intelligent sensors.
We are developing the technological fundamentals for the design and production of an innovative, capacitive pressure sensor with chemically resistant converter diaphragm based on a PCB.
ProSoLitBat concentrates on the packaging in the form of a photonic process chain because laser processes are deployed for selective dissipating, joining, contacting and separating. The sub-project described here concentrates on packaging, material selection and associated characterization.
In this research project a modular, intelligent approach to 3D-LED Light modules is realized, empowering a potential user to individually configure 3D lighting modules for his application. The 3D capability of MID technology enables the integration of additional functions as well as realization of design orientated lighting concepts.
Mobile device to generate electrical energy from non-uniform human movement to run small electrical consumers (move2power)
The project partners and Hahn-Schickard developed a highly accurate inclination angle measuring system with innovative acceleration compensation in the ZIM project INAC. This provides the possibility to dynamically detect the inclination angle in two sensor axes over a temperature range of -40°C to +85°C with an absolute accuracy of ± 0.2 ° (static) and <± 0.5 ° (dynamic).
Das Ziel des Vorhabens besteht in der Entwicklung und Validierung eines integrierten Mikrosensorsystems, mit der zuverlässigen Gasbeschaffenheit und verbrennungstechnische Kenndaten wie Brennwert und Wobbe-Index von mit Biogas und Wasserstoff gemischten Erdgasen bestimmt werden können.
Our design for an absolute rotary encoder offers maximum miniaturization: the achievable resolution lies in the range of 10 bits with a housing diameter of around 6 mm. To achieve this, a specific Opto-ASIC technology is under development in conjunction with IMS-CHIPS. Naturally the rotary encoder can also deliver an incremental output signal.
The EXPRESS Project has established a network for the support of the "Smart Systems Integration" - Ecosystems in Europe. This action will ensure that Europe retains and expands its position as a world leader in this rapidly developing field.
Development of a handheld lab-on-a-chip device for the rapid on-site diagnosis of respiratory infections such as whooping cough.
With the BoNT-Disk, a centrifugal microfluidic LabDisk is developed with which all known botulinum toxins can be detected automatically. Mobile analyses can be performed with a corresponding centrifugal processing device.