Dr. Tilman Weiss¹, Fred Perry²
¹sglux GmbH, Berlin, Germany
²Boston Electronics Corporation, Brookline, USA
Journal Contribution to the IUVA UV Solutions Magazine (c) IUVA
2024 – Measuring UV radiation without filters – silicon carbide (SiC) photodiodes make it possible
Dr. Niklas Papathanasiou, sglux GmbH, Berlin, Germany
Sensor Magazin 2/2024 (c) Magazin Verlag
Abstract
For more than 20 years, the Berlin-based company sglux GmbH has been producing photodiodes and sensors for measuring UV radiation, as used in many areas of industrial production, medical technology, combustion control and for monitoring UV disinfection processes. The precise detection of the ultraviolet irradiance is of great importance for a controlled and efficient functioning. sglux solves these tasks with SiC-based photodiodes, since 2009 from in-house semiconductor production. SiC photodiodes have an advantage in the detection of UV radiation due to their high band gap of 3.26 eV, as they are insensitive to visible and near-infrared radiation. In addition, SiC photodiodes have very low dark currents, so that even the smallest amounts of radiation can be detected. In the measurement of strong UV radiation, SiC scores with its high resistance to degradation.
2020 – UV sensors to control UVC surface disinfection
Dr. Tilman Weiss, sglux GmbH, Berlin, Germany
UV sensors to control UVC surface disinfection
Abstract
Besides chemical treatment, UVC sterilization is applied to disinfect air and tools in hospitals, doctor’s offices, pharmacies as well as food and pharmaceutical production facilities and public washrooms. These applications require measurements of the UV radiation either at its place of generation or at the position of the goods to be disinfected. This procedure is crucial to ensure that a sufficient germ killing UV dose hits the goods. The report presents further details and suitable sensor and radiometer products.
2017 – Degradation of opaque quartz-glass diffusers under high intensity UV irradiation
N. Papathanasiou, G. Hopfenmüller, Michael Matalla, T. Weiss,
sglux GmbH, Berlin, Germany
Abstract
In UV water purification applications UV sensors are monitoring the dosage of UV irradiation as according to ÖNORM and DVGW standards. sglux GmbH is manufacturing such sensors employing opaque synthetic quartz-glass diffusers as entrance windows. This paper investigates the influence of high-intensity UV irradiation on the transmission behavior of these diffusers. Quartz-glass and micro-porous quartz-glass were investigated. The sensors were continuously monitored while irradiated by a 1kW medium pressure Hg lamp with a total UV irradiance of 1000mW/cm² for 800 hours. Before and after the aging period the total transmissions of the diffusers were measured.
2011 – Characterisation of new optical diffusers used in high irradiance UV radiometers
Barton¹, B., Sperfeld¹, P., Nowy¹, S., Towara¹, A., Hoepe¹, A., Teichert¹, S., Hopfenmueller², G., Baer³, M. and Kreuzberger³, T.
¹Physikalisch-Technische Bundesanstalt Braunschweig und Berlin (PTB), 4.1 Photometry and Applied Radiometry, Braunschweig, Germany, ²sglux GmbH, Berlin, Germany, ³SGIL Silicaglas GmbH, Langewiesen, Germany
Abstract
Diffusers are essential components of UV radiometers used as transfer standards. They improve the insensitivity to differing radiation situations. In combination with a beam limiting aperture, a diffuser defines the irradiated area [1]. A detailed study of different properties of UV diffusers is shown.