“VIPO” growth core nears successful completion
/in Events, Simulation & DesignTogether with project partners in the BMBF-funded growth core “VIPO”, we are working on virtual product and process optimization for monitoring rotating machines. This involves linking real-time information from sensor networks with detailed product and process simulation using correlation models in the digital twin
Project Start QSolid – Quantum Computer in Solid State Technology
/in QuantumIn the QSolid project, 24 partners are developing scalable technologies for a competitive German quantum computer with at least 100 individually controllable qubits. The basis for this are superconducting solid-state circuits. Within the consortium, the CiS Research Institute is developing new integration methods and extremely energy-efficient electronic circuits for the quantum processor. The total project volume is 76 million euros
IVAM Mid-Week Coffee Break and the Growth Core HIPS
/in EventsNext week, the CiS Research Institute with Dr. Olaf Brodersen will host the IVAM Mid-Week Coffee Break. The virtual technology talk on Wednesday, Feb. 16, 2022 from 9:00 to 10:00 a.m. will cover the Thuringian Growth Core HIPS. Prof. Thomas Ortlepp will additionally give first insights into possible applications
Project start ZugKraftSensor – Elastically stable tensile force sensors for belt tension monitoring
/in Force, MEMSTo determine belt tension, the CiS Research Institute is developing a tensile force sensor based on Si strain gauges that are integrated directly into the steel cord of the belt. The project starts on 01.02.2022 and aims at applications in the drive technology of large plants
Thuringian joint project KODIAK – Components and modules for improved optical diagnostics
/in Medical technology, MOEMSIn the new 2-year Thuringian joint project KODIAK, the CiS Research Institute will develop comprehensive packaging modules for hybrid connection of analog and digital SPAD circuits with micro-optical components, electrical contacting processes, passivation and packaging solutions
UVC LEDs: Increased optical performance thanks to an optimized encapsulation material
/in Events, Medical technology, MOEMS, UVA series of technical conferences will be held in parallel to the SPIE Photonics West Exhibition. As part of the OPTO Conference on Tuesday, Prof. Thomas Ortlepp will present current research results from the CiS Research Institute on “UVC LEDs: Increasing optical performance through an optimized encapsulant”
SPIE Photonics West 2022 in San Francisco
/in Events, IR, MOEMSWe are very pleased to be back in San Francisco next week as an exhibitor in the German Pavilion at SPIE Photonics West and to be able to present the latest development results
BDMon – Vital monitoring in-ear sensor for non-invasive beat-to-beat blood pressure monitoring
/in Medical technology, MOEMSThe non-invasive, cuff-free measurement of blood pressure suitable for everyday use is one of the central goals of the ZIM project “BDMon”, which started in January 2022. Together with partners from industry and research, the in-ear sensor developed at the CiS Research Institute will be transferred into medical products
PoRr project launched to develop photodiodes without back reflection
/in MOEMSPhotodiodes without back reflection improve stray light sensitive applications such as particle measurement devices, making them more accurate, faster and cheaper. In the newly launched PoRr research project, various approaches to structuring and antireflection coating of silicon are being analyzed and tested for this purpose
InnoCON Thuringia 2021 also starts online in 2021
/in Events, IR, PressureInnoCON, the flagship event for the implementation and further development of the Thuringian Innovation Strategy, has just started. Steffen Biermann presents the joint project “IR sources for modern gas sensors”. Together with CMOS IR GmbH, the CiS Research Institute has developed a technology for the production of miniaturized IR emitters. Dr. Klaus Ettrich is the contact person for “H2 pressure sensors”. In the consortium HYPOS the CiS Research Institute developed a hydrogen resistant MEMS based pressure sensor, which can be used as a component in a H2 multisensor system that determines not only the pressure but also the temperature, residual gases and the concentration of hydrogen