FISBA is an industry leader expert in customized optical and machine vision systems, providing full services from design to production.
FISBA offers complete customization when it comes to vision solutions. FISBA’s capabilities extend to telecentric configurations, especially for measurement purposes, athermal design solutions for use in critical environments and combinations of on-axis with grazing incident illumination.
Solutions include our application specific camera configurations with integrated optimized illumination. These miniaturized solutions provide exceptional value for industrial applications running highly dynamic processes, which might be spatially restricted.
In addition, the company’s technological leadership in manufacturing molded aspherical optics, enable the creation of high performance customized optical systems, with minimal size, weight and number of parts.
FISBA excels in miniaturization for space conscious applications which is essential for many dynamic machine vision systems.
Customized vision applications requiring an in-line or in-process solution, where low weight or installation constraints are present is where FISBA truly shows the ability to adapt and produce for many application scenarios.
Learn more by visiting FISBA at Automate Booth 2665.
FISBA is a worldwide leading supplier of customized optical components, systems and microsystems. Since 1957, it has been a company priority to stay progressive without losing sight of the values on which we were founded. This mindset has enabled FISBA to become one of the most innovative suppliers in the optics industry, as well as a trusted partner to our customers. FISBA operates at facilities in Switzerland, Germany and the USA.
Learn more at www.fisba.com
Birgit Rauch, Head of Marketing Communication
Birgit Rauch | FISBA AG
BAM@Hannover Messe: innovative 3D printing method for space flight
24.04.2018 | Bundesanstalt für Materialforschung und -prüfung (BAM)
Clean and Efficient – Fraunhofer ISE Presents Hydrogen Technologies at the HANNOVER MESSE 2018
23.04.2018 | Fraunhofer-Institut für Solare Energiesysteme ISE
At the Hannover Messe 2018, the Bundesanstalt für Materialforschung und-prüfung (BAM) will show how, in the future, astronauts could produce their own tools or spare parts in zero gravity using 3D printing. This will reduce, weight and transport costs for space missions. Visitors can experience the innovative additive manufacturing process live at the fair.
Powder-based additive manufacturing in zero gravity is the name of the project in which a component is produced by applying metallic powder layers and then...
Physicists at the Laboratory for Attosecond Physics, which is jointly run by Ludwig-Maximilians-Universität and the Max Planck Institute of Quantum Optics, have developed a high-power laser system that generates ultrashort pulses of light covering a large share of the mid-infrared spectrum. The researchers envisage a wide range of applications for the technology – in the early diagnosis of cancer, for instance.
Molecules are the building blocks of life. Like all other organisms, we are made of them. They control our biorhythm, and they can also reflect our state of...
University of Connecticut researchers have created a biodegradable composite made of silk fibers that can be used to repair broken load-bearing bones without the complications sometimes presented by other materials.
Repairing major load-bearing bones such as those in the leg can be a long and uncomfortable process.
Study published in the journal ACS Applied Materials & Interfaces is the outcome of an international effort that included teams from Dresden and Berlin in Germany, and the US.
Scientists at the Helmholtz-Zentrum Dresden-Rossendorf (HZDR) together with colleagues from the Helmholtz-Zentrum Berlin (HZB) and the University of Virginia...
Novel highly efficient and brilliant gamma-ray source: Based on model calculations, physicists of the Max PIanck Institute for Nuclear Physics in Heidelberg propose a novel method for an efficient high-brilliance gamma-ray source. A giant collimated gamma-ray pulse is generated from the interaction of a dense ultra-relativistic electron beam with a thin solid conductor. Energetic gamma-rays are copiously produced as the electron beam splits into filaments while propagating across the conductor. The resulting gamma-ray energy and flux enable novel experiments in nuclear and fundamental physics.
The typical wavelength of light interacting with an object of the microcosm scales with the size of this object. For atoms, this ranges from visible light to...
13.04.2018 | Event News
12.04.2018 | Event News
09.04.2018 | Event News
25.04.2018 | Physics and Astronomy
25.04.2018 | Physics and Astronomy
25.04.2018 | Information Technology