Publikationen

2022

Cantieni, T., Kress, O., Morlec, E., Camenzind, M., Gonzales, M., Bawidamann, S., Grabher, R., Michler, M., Piai, G., Boesel, L., Wolf, U., “Precision and repeatability of tissue oxygen saturation measurements using textile-integrated polymer optical fibres”, International Society on Oxygen Transport to Tissue (ISOTT), Conference 2022

G. Piai, “Some Amplifier Circuits for Discrete Photodetectors”, Precision Photonic Systems, Dornbirn, 30.11.2022-1.12.2022, DOI 10.5281/zenodo.7433073

2021

B. Braunecker, G. Piai, SATW Technology Outlook, “Cyberphysische Systeme - Reale und virtuelle Welt im dynamischen Wechsel», Seite 88

G. Piai, Wirtschaft Regional, Interview «Die Elektronik hat etwas Magisches an sich», Seiten 8, 9

Conference paper: Tarcisi Cantienia, Oliver Kressa, Marcos Gonzálezb, Markus Michlerb, Thomas Rastijab, Rene Grabherb, Guido Piaib, Nazanin Ansaric, Khushdeep Sharmadc, Elodie Morlecc, Martin Camenzindc, Luciano F.  Boeselc, Ursula Wolfa, “Feasibility To Measure Tissue Oxygen Saturation Using Textile-integrated Polymer Optical Fibres”. Universität Berna, Empab, OSTc. ISOTT21 Conference, 26 to 30 Juli 2021

Conference paper: Oliver da Silva-Kressa, Tarcisi Cantienia, Marcos Gonzálezb, Markus Michlerb, Thmoas Rastijab, Rene Grabherb, Guido Piaib, Nazanin Ansaric, Khushdeep Sharmac, Elodie Morlecc, Martin Camenzindc, Luciano F. Boeselc , Ursula Wolfa, “Numerical optimization of a NIRS device for monitoring tissue oxygen saturation”. Universität Berna, Empab, OSTc. ISOTT21 Conference, 26 to 30 Juli 2021

Conference paper: Tarcisi Cantienia, Oliver Kressa, Elodie Morlecb, Martin Camenzindb, Marcos Gonzálezc, Markus Michlerc, Thomas Rastijac, Rene Grabherc, Guido Piaic, Luciano F. Boeselb, Ursula Wolfa, “Feasibility to measure tissue oxygen saturation using textile-embroidered polymer optical fibres”. University of Berna, Empab, OSTc. Yearly meeting of BMPN, the Biomedical Photonics Network 2021, 9.12.2021

2020

Piai, G., Kurth M., Schleyer C., Schumacher J., Prenzler J., Selm B.: «i4Production - Internationale Musterfabrik Industrie 4.0 - Wie KMU ihre Produktion zukunftssicher, effizient und produktiv gestalten können», IBH-Lab KMUdigital, 2020
http://bzi40.eu/publikationen/tags/ibh-lab-kmudigital/433-i4production-projektbericht

Amrein P., Rinner S., Pittorino T., Espel J., Schmidmayr D., “Influence of Light Spectra on the Production of Cannabinoids”, Med Cannabis Cannabinoids 2020;3:103–110, DOI: 10.1159/000510146
https://www.karger.com/Article/Pdf/510146

Rinner, S.J. and Pittorino, T. (2020) Generation of Multipartite Entangled States Using Switchable Coupling of Cooper-Pair-Boxes. Journal of Modern Physics, 11, 1514-1527.
https://doi.org/10.4236/jmp.2020.1110093
https://www.scirp.org/journal/paperinformation.aspx?paperid=103386

2019

Piai, G., Baldauf M., Jaeschke P., Kugler P., Olbert-Bock S., Redzepi A., Thiel C., Tietz R., Zimmermann H., Ihlenburg D., Meierhofer J.: «Nutzenbasierter Digitalisierungs-navigator», IBH-Lab KMUdigital, 2019

Arato L., Grun R., Dr. Bach C., Dr. Schöch A., Capiaghi C., Fink S.
DesignCon 2019 «Lowest-cost communication with light from an IoT device to smartphone»
Workshop on Track “03. Integrating Photonics & Wireless in Electrical Design”, Jan. 2019

2018

Rene Grabher, Guido Piai
“Lighting System Based on Visible Light Communication”, LpS 2018 Proceedings, pages 238 to 245

2010

Paulo Augusto Dal Fabbro; Tindaro Pittorino; Christoph Kuratli; Robert Kvacek; Martin Kucera; Frédéric Giroud; Steve Tanner; Frédéric Chastellain; Arnaud Casagrande; Arthur Descombes; Vincent Peiris; Pierre-André Farine; Maher Kayal
A 0.8V 2.4GHz 1Mb/s GFSK RF transceiver with on-chip DC-DC converter in a standard 0.18µm CMOS technology", ESSCIRC, 2010 Proceedings of the, Year: 2010, Pages: 458 - 461

2007

C. Wicpalek; T. Mayer; L. Maurer; U. Vollenbruch; T. Pittorino; A. Springer
"Analysis of Spurious Emission and In-Band Phase Noise of an All Digital Phase Locked Loop for RF Synthesis using a Frequency Discriminator", 2007 IEEE International Symposium on Circuits and Systems, Pages: 3518 - 3521

2006

T. Pittorino; Y. Chen; V. Neubauer; T. Mayer; L. Maurer
"A UMTS-complaint fully digitally controlled oscillator with 100Mhz fine-tuning range in 0.13/spl mu/m CMOS", 2006 IEEE International Solid State Circuits Conference - Digest of Technical Papers, Pages: 770 - 779

Tindaro Pittorino; Yangjian Chen; Volker Neubauer; Ulrich Vollenbruch; Thomas Mayer; Linus Maurer
"A First Dual-Mode RF Fully Digitally Controlled Oscillator in 0.13μm CMOS", 2006 European Microwave Conference, Pages: 79 - 82

Ulrich Vollenbruch; Yue Liu; Thomas Bauernfeind; Tindaro Pittorino; Volker Neubauer; Thomas Mayer; Linus Maurer
"Requirements for Time-to-Digital Converters in the context of digital-PLL based Frequency Synthesis and GSM Modulation", 2006 IEEE MTT-S International Microwave Symposium Digest, Pages: 1817 - 1820.

T. Mayer; V. Neubauer; U. Vollenbruch; T. Pittorino; L. Maurer; A. Springer
"A 1-GHz Sigma-Delta noise shaper for all digital PLLs with multiband UMTS modulation capability", IEEE Radio Frequency Integrated Circuits (RFIC) Symposium, 2006, Page: 4 pp.

2003

N. Ceylan; J. E. Mueller; T. Pittorino; R. Weigel
"Mobile phone power amplifier linearity and efficiency enhancement using digital predistortion", Microwave Conference, 2003. 33rd European, Volume: 1, Pages: 269 - 272 

Patenten

Büchel Arthur, Weitnauer Adrian, “Advanced RF Grounding”, Patent Anmeldung Nr. 102021002577.6, 18.05.2021

Grabher Rene, Piai Guido
“Lighting and sensor system”, Patent Application No. 20204634.8 – 1202

Würsch Christoph, Gubler Ulrich, Tindaro Pittorino, “Rollenelektrodenanordnung, Vorrichtung umfassend eine Rollenelektrodenanordnung sowie Verfahren zur Beaufschlagung zweier Kunststoff-Abschnitte mit einem hochfrequenten elektrischen Wechselfeld”, Patentnummer DE102018113999B4 https://patents.google.com/patent/DE102018113999B4/en?inventor=tindaro+pittorino&oq=tindaro+pittorino

Piai Guido, Mathis Clemens
Patent application WO2014180966 (A1) 2014,
“Lighting device and retrofitting set”

Piai Guido, Stefan Etter
Patent EP2180812 (B1) 2013 (2008), 
“Beverage production module and method for operating a beverage production module”

Piai Guido, Christian Probst
Patent EP2571406 (B1), 2014 (2011),
“Remote controlled food processor”

Piai Guido, Bernhard Kreitmayr, Dimitar Georgiev
Patent EP2236062 (B1), 2012 (2008),
“Modular manufacturing of beverage production machines”

Grabher Rene, Breitenstein Eric
«Steckverbindersystem»
Espacenet – Suchergebnisse

Grabher Rene; Hofer Tobias
«Leuchte und leuchten-system»

Descombes Arthur; Pittorino Tindaro
«Operation test for Circuit for Transmitting /Receiving signal»

Morin Marc; Pittorino Tindaro
«Automatic gain control of a receiver circuit»

Neubauer Volker; Mayer Thomas; Pittorino Tindaro; Chen Yangjian; Maurer Linus
«Sigma-delta modulator and method for Sigma-Delta modulation» 

Tindaro Pittorino
«Resonant circuit and oscillator having a resonant circuit»

Mayer Thomas; Chen Yangjian; Pittorino Tindaro; Maurer Linus; Neubauer Volker
«Digitally controlled oscillator device and method for generating an oscillating signal with a digitally controlled phase locked loop»

Tindaro Pittorino
«Oscillator circuit»

Amrany D., Muralt A., Arato L. – For Globespan, Inc., Red Bank, NJ
US Patent 6’067’316 “Circuit for combined XDSL and other services”

Arato L. – For Globespan, Inc., Red Bank, NJ
US Patent 6’192’498 “System and Method for generating error checking data in a communications system”

Arato L., Amrany D. – For Globespan, Inc., Red Bank, NJ
US Patent 6’427’179 “System and Method for protocol conversion in a communications system”

Arato L., Emile G. Massaad – For Globespan, Inc., Red Bank, NJ
US Patent 6’442’178 “System and Method for data alignment in a communication System”

Arato L., William J. Santulli – For Globespan, Inc., Red Bank, NJ
US Patent 6’535’522 “Multiple protocol interface and method for use in a communications System”

Arato L., Russel W. Bell, Luke J. Smithwick – For Globespan, Inc., Red Bank, NJ
US Patent 7’035’323 “System and Method for combining multiple digital subscriber line transceivers”