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ORCIDFrançois Krummenacher
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2020 – today
- 2021
[j9]Evgenia Voulgari
, François Krummenacher, Maher Kayal:
ANTIGONE: A Programmable Energy-Efficient Current Digitizer for an ISFET Wearable Sweat Sensing System. Sensors 21(6): 2074 (2021)
2010 – 2019
- 2019
- [j8]François Gaugaz, François Krummenacher, Fabienne Gaugaz, Maher Kayal, Sylvain Joly, Albrecht Lepple-Wienhues, Jean-Baptiste Orhan:
A high sensitivity low-power capacitive front-end for insulin injection pens. Microelectron. J. 85: 129-134 (2019) - [j7]Mathieu Coustans, François Krummenacher, Maher Kayal:
A Fully Integrated 60 mV Cold-Start Circuit for Single Coil DC-DC Boost Converter for Thermoelectric Energy Harvesting. IEEE Trans. Circuits Syst. II Express Briefs 66-II(10): 1668-1672 (2019) - [c29]Wladek Grabinski, Ahmed Abo-Elhadid, Marek Mierzwinski, Laurent Lemaitre, Mike Brinson, Christophe Lallement, Jean-Michel Sallese, Sadayuki Yoshitomi, Paul Malisse, Henri Oguey, Stefan Cserveny, Marcelo Antonio Pavanello, Christian C. Enz, François Krummenacher, Eric A. Vittoz, Michelly de Souza, Daniel Tomaszewski, Jolanta Malesinska, Grzegorz Gluszko, Matthias Bucher, Nikolaos Makris, Aristeidis Nikolaou:
FOSS EKV2.6 Verilog-A Compact MOSFET Model. ESSDERC 2019: 190-193 - [c28]Evgenia Voulgari, François Krummenacher, Maher Kayal:
A programmable low-power ADC interface for an ISFET sweat sensor used in a wearable multi-sensing system. IWASI 2019: 210-214 - [c27]Evgenia Voulgari, François Krummenacher, Maher Kayal:
Design of an Energy-Efficient Current-to-Frequency Converter for a Wearable Sensor Platform. MIXDES 2019: 210-214 - 2018
- [j6]François Gaugaz, François Krummenacher, Maher Kayal:
High-speed analogue sampled-data signal processing for real-time fault location in electrical power networks. IET Circuits Devices Syst. 12(5): 624-629 (2018) - [c26]François Gaugaz, François Krummenacher, Maher Kayal:
Ultra High-Speed Hardware Emulator for Real-Time Fault Location in Multi-Conductor Power Systems. NEWCAS 2018: 313-316 - [c25]Mathieu Coustans, François Krummenacher, Maher Kayal, Lucas Rossi, Mario Dellea, Yves Godat, Yves Sierro, Silvio DallaPiazza:
A 32kHz Crystal Oscillator Leveraging Voltage Scaling in an Ultra-Low Power 40NA Real-Time Clock. SoCC 2018: 308-313 - 2017
- [c24]François Gaugaz, François Krummenacher, Maher Kayal:
Implementation of a high-speed discrete-time analog emulator for real-time fault location in electrical power networks. NEWCAS 2017: 1-4 - [c23]Evgenia Voulgari, Matthew Noy, Francis Anghinolfi, Daniel Perrin, François Krummenacher, Maher Kayal:
A 9-decade current to frequency converter with active leakage compensation. NEWCAS 2017: 345-348 - 2016
- [c22]Mathieu Coustans, François Krummenacher, Maher Kayal, Christian Terrier:
A nA crystal - less oscillator for internet of things. MIXDES 2016: 136-139 - 2015
- [c21]Evgenia Voulgari, Matthew Noy, Francis Anghinolfi, François Krummenacher, Maher Kayal:
Design and measurement methodology for a sub-picoampere current digitiser. MIXDES 2015: 525-529 - [c20]François Gaugaz, François Krummenacher, Maher Kayal:
High-speed analog processing for real-time fault location in electrical power networks. NEWCAS 2015: 1-4 - [c19]Evgenia Voulgari, Matthew Noy, Francis Anghinolfi, François Krummenacher, Maher Kayal:
Sub-picoampere, 7-decade current to frequency converter for current sensing. NEWCAS 2015: 1-4 - 2013
- [j5]Giuseppe Venturini, Francis Anghinolfi, Bernd Dehning, François Krummenacher, Maher Kayal:
A 120 dB dynamic-range radiation-tolerant charge-to-digital converter for radiation monitoring. Microelectron. J. 44(12): 1302-1308 (2013) - [c18]Sylvain Maréchal, François Krummenacher, Maher Kayal:
Simulating nonlinear capacitors in sigma-delta modulators. ICECS 2013: 553-556 - [c17]Naser Khosro Pour, François Krummenacher, Maher Kayal:
A reconfigurable micro power solar energy harvester for ultra-low power autonomous microsystems. ISCAS 2013: 33-36 - [c16]Sylvain Maréchal, Olivier Nys, François Krummenacher, Michel Chevroulet, Maher Kayal:
A continuous-time instrumentation amplifier employing a novel auto-zeroing structure. MIXDES 2013: 157-162 - 2012
- [c15]Naser Khosro Pour, Stefano Facchin, François Krummenacher, Maher Kayal:
An ultra-low power li-ion battery charger for micro-power solar energy harvesting applications. ICECS 2012: 516-519 - [c14]Naser Khosro Pour, François Krummenacher, Maher Kayal:
A miniaturized autonomous microsystem for hydrogen gas sensing applications. NEWCAS 2012: 201-204 - 2011
- [c13]Sylvain Maréchal, François Krummenacher, Maher Kayal:
Optimal filtering of an incremental second-order MASH11 sigma-delta modulator. ICECS 2011: 240-243 - [c12]Sylvain Maréchal, François Krummenacher, Maher Kayal:
CAD tools for fast analysis of parasitic coupling and mismatch effects in switched-capacitor circuits. ICECS 2011: 354-357 - [c11]Marc Pastre, François Krummenacher, Onur Kazanc, Naser Khosro Pour, Catherine Pace, Stefan Rigert, Maher Kayal:
A solar battery charger with maximum power point tracking. ICECS 2011: 394-397 - 2010
- [j4]David Ruffieux, François Krummenacher, Aurélie Pezous, Guido Spinola-Durante:
Silicon Resonator Based 3.2 muW Real Time Clock With pm10 ppm Frequency Accuracy. IEEE J. Solid State Circuits 45(1): 224-234 (2010) - [c10]Sylvain Maréchal, François Krummenacher, Maher Kayal:
Optimal filtering of incremental first-order sigma-delta modulators with sweep input. ICECS 2010: 539-542
2000 – 2009
- 2009
- [c9]David Ruffieux, Aurélie Pezous, Anne-Claire Pliska, François Krummenacher:
Silicon-resonator-based, 3µA real-time clock with ±5ppm frequency accuracy. ISSCC 2009: 210-211 - 2007
- [c8]Yogesh Singh Chauhan, François Krummenacher, Renaud Gillon, Benoit Bakeroot, Michel J. Declercq, Adrian M. Ionescu:
A New Charge based Compact Model for Lateral Asymmetric MOSFET and its application to High Voltage MOSFET Modeling. VLSI Design 2007: 177-182 - 2006
- [c7]Fabien Prégaldiny, Christophe Lallement, B. Diagne, Jean-Michel Sallese, François Krummenacher:
Compact Modeling of Emerging Technologies with VHDL-AMS. FDL 2006: 23-31 - [c6]Yogesh Singh Chauhan, Costin Anghel, François Krummenacher, Renaud Gillon, Andre Baguenier, Bart Desoete, Steven Frere, Adrian Mihai Ionescu, Michel J. Declercq:
A Compact DC and AC Model for Circuit Simulation of High Voltage VDMOS Transistor. ISQED 2006: 109-114 - 2005
- [j3]Jari-Pascal Curty, Norbert Joehl, François Krummenacher, Catherine Dehollain, Michel J. Declercq:
A model for μ-power rectifier analysis and design. IEEE Trans. Circuits Syst. I Regul. Pap. 52-I(12): 2771-2779 (2005) - 2004
- [c5]Matthias Bucher, Antonios Bazigos, Nikolaos Nastos, Yannis Papananos, François Krummenacher, Sadayuki Yoshitomi:
Analysis of harmonic distortion in deep submicron CMOS. ICECS 2004: 395-398 - 2002
- [c4]Matthias Bucher, Dimitrios Kazazis, François Krummenacher, David M. Binkley, Daniel Foty, Yannis Papananos:
Analysis of transconductances at all levels of inversion in deep submicron CMOS. ICECS 2002: 1183-1186 - 2000
- [c3]Tristan Reimann, François Krummenacher, B. Willing, P. Muralt, Michel J. Declercq:
A CMOS readout circuit for pico-ampere thin film pyroelectric array detectors. CICC 2000: 395-398
1990 – 1999
- 1998
- [c2]Tristan Reimann, François Krummenacher, Michel J. Declercq:
A high-speed BiCMOS switched-current track-and-hold circuit. CICC 1998: 377-380 - 1997
- [j2]Gilles van Ruymbeke, Christian C. Enz, François Krummenacher, Michel J. Declercq:
A BiCMOS programmable continuous-time filter using image-parameter method synthesis and voltage-companding technique. IEEE J. Solid State Circuits 32(3): 377-387 (1997) - 1996
- [j1]Tristan Reimann, François Krummenacher, Michel J. Declercq:
An 8-b, 40 msamples/s switched-current-mode track-and-hold circuit on a BiCMOS sea-of-gates array. IEEE J. Solid State Circuits 31(3): 304-311 (1996) - 1993
- [c1]Gilles van Ruymbeke, François Krummenacher:
A Programmable Continuous-time Filter. ISCAS 1993: 1263-1266
Coauthor Index
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