Hannu Ronkainen scite author profile

Hannu Ronkainen

5Publications

71Citation Statements Received

134Citation Statements Given

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128

Affiliations

VTT Technical Research Centre of Finland, BioElectronics (United States)

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Predictable quantum efficient detector based onn-type silicon photodiodes

et al. 2017

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Ikonen, E. (2017). Predictable quantum efficient detector based on n-type silicon photodiodes. Metrologia, 54(6) AbstractThe predictable quantum efficient detector (PQED) consists of two custom-made induced junction photodiodes that are mounted in a wedged trap configuration for the reduction of reflectance losses. Until now, all manufactured PQED photodiodes have been based on a structure where a SiO 2 layer is thermally grown on top of p-type silicon substrate. In this paper, we present the design, manufacturing, modelling and characterization of a new type of PQED, where the photodiodes have an Al 2 O 3 layer on top of n-type silicon substrate. Atomic layer deposition is used to deposit the layer to the desired thickness. Two sets of photodiodes with varying oxide thicknesses and substrate doping concentrations were fabricated. In order to predict recombination losses of charge carriers, a 3D model of the photodiode was built into Cogenda Genius semiconductor simulation software. It is important to note that a novel experimental method was developed to obtain values for the 3D model parameters. This makes the prediction of the PQED responsivity a completely autonomous process. Detectors were characterized for temperature dependence of dark current, spatial uniformity of responsivity, reflectance, linearity and absolute responsivity at the wavelengths of 488 nm and 532 nm. For both sets of photodiodes, the modelled and measured responsivities were generally in agreement within the measurement and modelling uncertainties of around 100 parts per million (ppm). There is, however, an indication that the modelled internal quantum deficiency may be underestimated by a similar amount. Moreover, the responsivities of the detectors were spatiallyOriginal content from this work may be used under the terms of the Creative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI. uniform within 30 ppm peak-to-peak variation. The results obtained in this research indicate that the n-type induced junction photodiode is a very promising alternative to the existing p-type detectors, and thus give additional credibility to the concept of modelled quantum detector serving as a primary standard. Furthermore, the manufacturing of PQEDs is no longer dependent on the availability of a certain type of very lightly doped p-type silicon wafers.

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IC compatible planar inductors on silicon

Ronkainen

Kattelus

Tarvainen

et al. 1997

IEE Proc., Circuits Devices Syst.

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Low power successive approximation A/D converter for passive RFID tag sensors

Marjonen

Alaoja

Ronkainen

et al. 2006

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Wirelessly Powered Sensor Transponder for UHF RFID

Pursula

Marjonen

Ronkainen

et al. 2007

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Monolithic SOI-MEMS capacitive pressure sensor with standard bulk CMOS readout circuit

Ylimaula

Åberg

Kiihamäki

et al.

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Hannu Ronkainen

Predictable quantum efficient detector based onn-type silicon photodiodes

IC compatible planar inductors on silicon

Low power successive approximation A/D converter for passive RFID tag sensors

Wirelessly Powered Sensor Transponder for UHF RFID

Monolithic SOI-MEMS capacitive pressure sensor with standard bulk CMOS readout circuit

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