M
Monique J. Beenhakkers
Researcher at Philips
Publications - 12
Citations - 1982
Monique J. Beenhakkers is an academic researcher from Philips. The author has contributed to research in topics: Transponder & Chip. The author has an hindex of 8, co-authored 12 publications receiving 1911 citations.
Papers
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Journal ArticleDOI
Flexible active-matrix displays and shift registers based on solution-processed organic transistors.
Gerwin H. Gelinck,H. Edzer A. Huitema,Erik van Veenendaal,Eugenio Cantatore,Laurens Schrijnemakers,Jan B.P.H. Philips Ip Standards Van Der Putten,Tom C. T. Geuns,Monique J. Beenhakkers,Jacobus Bernardus Giesbers,Bart-Hendrik Huisman,Eduard J. Meijer,Estrella Mena Benito,Fredericus J. Touwslager,Albert W. Marsman,Bas Jan Emile Van Rens,Dago M. de Leeuw +15 more
TL;DR: Flexible active-matrix monochrome electrophoretic displays based on solution-processed organic transistors on 25-μm-thick polyimide substrates based on 1,888 transistors are demonstrated, which are the largest organic integrated circuits reported to date.
Journal ArticleDOI
Plastic circuits and tags for 13.56 MHz radio-frequency communication
Kris Myny,Soeren Steudel,Peter Vicca,Monique J. Beenhakkers,Nick A. J. M. van Aerle,Gerwin H. Gelinck,Jan Genoe,Wim Dehaene,Paul Heremans +8 more
TL;DR: The design and implementation of 64-bit and 128-bit plastic transponder chips for radio-frequency identification tags and the reading distance that can be achieved with the authors' plastic rectifiers are discussed, and it is shown that this reading distance is not limited by the performance of the plastic rectifier ortransponder chip.
Journal ArticleDOI
Unipolar Organic Transistor Circuits Made Robust by Dual-Gate Technology
Kris Myny,Monique J. Beenhakkers,N. A. J. M. van Aerle,Gerwin H. Gelinck,Jan Genoe,Wim Dehaene,Paul Heremans +6 more
TL;DR: Dual-gate organic transistor technology is used to increase the robustness of digital circuits as illustrated by higher inverter gains and noise margins as well as Functional 99-stage ring oscillators with 2.27 μs stage delays and 64 bit organic RFID transponder chips, operating at a data rate of 4.3 kb/s.
Proceedings ArticleDOI
An Inductively-Coupled 64b Organic RFID Tag Operating at 13.56MHz with a Data Rate of 787b/s
Kris Myny,S. Van Winckel,S. Steudel,Peter Vicca,S. De Jonge,Monique J. Beenhakkers,Christoph Wilhelm Sele,N. A. J. M. van Aerle,Gerwin H. Gelinck,Jan Genoe,Paul Heremans +10 more
TL;DR: RFID systems operating at a base carrier frequency of 13.56 MHz can use low-cost inductive antennas on foil to drive the modulation transistor between the on and off state with a 64b code sequence.
Proceedings ArticleDOI
A 128b organic RFID transponder chip, including Manchester encoding and ALOHA anti-collision protocol, operating with a data rate of 1529b/s
Kris Myny,Monique J. Beenhakkers,N. A. J. M. van Aerle,Gerwin H. Gelinck,Jan Genoe,Wim Dehaene,Paul Heremans +6 more
TL;DR: Research towards 13.56MHz organic RFID tags is one of the drivers for the field of organic electronics and capacitively-coupled 64b organic RF ID tag operating at 125kHz was demonstrated.