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ORCIDRalf Brederlow
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- affiliation: Technical University Munich, Germany
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2020 – today
- 2024
[j11]Vartika Verma
, Alex Nogué I Torrent, Danko Petric, Valentin Haberhauer, Ralf Brederlow:
Silicon-Based Piezoresistive Stress Sensor Arrays for Use in Flexible Tactile Skin. IEEE Trans. Biomed. Circuits Syst. 18(4): 834-848 (2024)- [c28]Islam Mostafa, Amr Farouk, Ralf Brederlow:
Design and Modeling of an Interrelated System Towards a Fully Optimized Electrochemical Impedance Spectroscopy. MWSCAS 2024: 1176-1180 - [c27]Matthias Ochs, Markus Dietl, Ralf Brederlow:
An Analog and Time-Discrete Neuron with Charge-Injection for Use in Ultra-Low Power Spiking Neural Networks. PRIME 2024: 1-4 - 2023
- [c26]Vartika Verma, Valentin Haberhauer, Danko Petric, Alex Nogué I Torrent, Ralf Brederlow:
Silicon-based CMOS Stress Sensors for Tactile Perception based Smart Skin for Prostheses. BioCAS 2023: 1-5 - [c25]Bernhard Rupprecht, Stefan Sendlbeck, Birgit Vogel-Heuser, Ralf Brederlow, Erich Knoll, Karsten Stahl:
Analysis of Acceleration Data Using Low-Power Embedded Devices to Detect Gear Faults. CASE 2023: 1-6 - [c24]Bernhard Lippmann, Joel Hatsch, Stefan Seidl, Detlef Houdeau, Niranjana Papagudi Subrahmanyam, Daniel Schneider, Malek Safieh, Anne Passarelli, Aliza Maftun, Michaela Brunner, Tim Music, Michael Pehl, Tauseef Siddiqui, Ralf Brederlow, Ulf Schlichtmann, Bjoern Driemeyer, Maurits Ortmanns, Robert Hesselbarth, Matthias Hiller:
VE-FIDES: Designing Trustworthy Supply Chains Using Innovative Fingerprinting Implementations. DATE 2023: 1-6 - [c23]Roland Müller, Loreto Mateu, Ralf Brederlow:
Analog/Mixed-Signal Standard Cell Based Approach for Automated Circuit Generation of Neural Network Accelerators. DCIS 2023: 1-6 - [c22]Carl Riehm, Christoph Frisch, Florin Burcea, Matthias Hiller, Michael Pehl, Ralf Brederlow:
Structured Design and Evaluation of a Resistor-Based PUF Robust Against PVT-Variations. DDECS 2023: 93-98 - [c21]Islam Mostafa, Eva-Maria Korek, Ralf Brederlow:
A 2.2 fA/√Hz, 120 dB Dynamic Range, 12 GΩ Hybrid Readout Interface for Various Ionic Spectroscopy Applications. ESSCIRC 2023: 9-12 - [c20]Lei Zhang, Pengcheng Xu, David Borggreve, Frank Vanselow, Ralf Brederlow:
A FeFET In-Memory-Computing Core with Offset Cancellation for Mitigating Computational Errors. ESSCIRC 2023: 29-32 - 2022
- [c19]Pengcheng Xu, Lei Zhang, Ferdinand Pscheidl, David Borggreve, Frank Vanselow, Ralf Brederlow:
A Dynamic Charge-Transfer-Based Crossbar with Low Sensitivity to Parasitic Wire-Resistance. ISCAS 2022: 1397-1401 - 2021
- [j10]Christian Pfeffer, Yue Liang, Helmut Grothe, Bernhard Wolf, Ralf Brederlow:
Towards Easy-to-Use Bacteria Sensing: Modeling and Simulation of a New Environmental Impedimetric Biosensor in Fluids. Sensors 21(4): 1487 (2021) - [c18]Ilia Polian, Frank Altmann, Tolga Arul, Christian Boit, Ralf Brederlow, Lucas Davi, Rolf Drechsler, Nan Du, Thomas Eisenbarth, Tim Güneysu, Sascha Hermann, Matthias Hiller, Rainer Leupers, Farhad Merchant, Thomas Mussenbrock, Stefan Katzenbeisser, Akash Kumar, Wolfgang Kunz, Thomas Mikolajick, Vivek Pachauri, Jean-Pierre Seifert, Frank Sill Torres, Jens Trommer:
Nano Security: From Nano-Electronics to Secure Systems. DATE 2021: 1334-1339 - [c17]Lei Zhang, David Borggreve, Frank Vanselow, Ralf Brederlow:
Impact of Parasitic Wire Resistance on Accuracy and Size of Resistive Crossbars. ISCAS 2021: 1-5 - 2020
- [j9]Umidjon Nurmetov, Tobias Fritz, Ernst Müllner, Christopher M. Dougherty, Michael Szelong, Franz Kreupl, Ralf Brederlow:
A CMOS Temperature Stabilized 2-D Mechanical Stress Sensor With 11-bit Resolution. IEEE J. Solid State Circuits 55(4): 846-855 (2020) - [c16]Lei Zhang, David Borggreve, Frank Vanselow, Ralf Brederlow:
Quantization Considerations of Dense Layers in Convolutional Neural Networks for Resistive Crossbar Implementation. MOCAST 2020: 1-6
2010 – 2019
- 2019
- [c15]Markus Hefele, Ernst Müllner, Ralf Brederlow, Andreas Lösel, Sebastian Meier, Christian Pfeffer, Franz Kreupl, Bernhard Wolf:
Integrated multipurpose analog front-end for electrochemical ISFET sensors. NEWCAS 2019: 1-4 - [c14]Umidjon Nurmetov, Tobias Fritz, Ernst Müllner, Christopher M. Dougherty, Franz Kreupl, Ralf Brederlow:
A CMOS Temperature Stabilized 2-Dimensional Mechanical Stress Sensor with 11-bit Resolution. VLSI Circuits 2019: 64- - 2018
- [j8]Francesco Santoro, Rüdiger Kuhn, Neil Gibson, Nicola Rasera, Thomas Tost, Helmut Graeb, Bernhard Wicht, Ralf Brederlow:
A Hysteretic Buck Converter With 92.1% Maximum Efficiency Designed for Ultra-Low Power and Fast Wake-Up SoC Applications. IEEE J. Solid State Circuits 53(6): 1856-1868 (2018) - 2017
- [c13]Francesco Santoro, Rüdiger Kuhn, Neil Gibson, Nicola Rasera, Thomas Tost, Doris Schmitt-Landsiedel, Ralf Brederlow:
A 92.1% efficient DC-DC converter for ultra-low power microcontrollers with fast wake-up. CICC 2017: 1-4 - 2016
- [c12]Oscar M. Guillen, Fabrizio De Santis, Ralf Brederlow, Georg Sigl:
Towards Side-Channel Secure Firmware Updates - A Minimalist Anomaly Detection Approach. FPS 2016: 345-360 - 2015
- [c11]Ralf Brederlow, Michiel A. P. Pertijs:
Session 27 overview: Physical sensors: Imagers, MEMS, medical and displays subcommittee. ISSCC 2015: 472-473 - 2014
- [j7]Michael Lueders, Björn Eversmann, Johannes Gerber, Korbinian Huber, Rüdiger Kuhn, Michael Zwerg, Doris Schmitt-Landsiedel, Ralf Brederlow:
Architectural and Circuit Design Techniques for Power Management of Ultra-Low-Power MCU Systems. IEEE Trans. Very Large Scale Integr. Syst. 22(11): 2287-2296 (2014) - [c10]Oscar M. Guillen, Ralf Brederlow, Ralph Ledwa, Georg Sigl:
Risk management in embedded devices using metering applications as example. WESS 2014: 6:1-6:9 - 2012
- [j6]Vadim Ivanov, Ralf Brederlow, Johannes Gerber:
An Ultra Low Power Bandgap Operational at Supply From 0.75 V. IEEE J. Solid State Circuits 47(7): 1515-1523 (2012) - 2011
- [c9]Vadim Ivanov, Johannes Gerber, Ralf Brederlow:
An ultra low power bandgap operational at supply as low as 0.75V. ESSCIRC 2011: 515-518
2000 – 2009
- 2007
- [j5]Jeongwook Koh, Doris Schmitt-Landsiedel, Roland Thewes, Ralf Brederlow:
A Complementary Switched MOSFET Architecture for the 1/f Noise Reduction in Linear Analog CMOS ICs. IEEE J. Solid State Circuits 42(6): 1352-1361 (2007) - [c8]Marcin K. Augustyniak, W. Weber, Gottfried Beer, Hans Mulatz, L. Elbrecht, H.-J. Timme, Marc Tiebout, Werner Simbürger, Christian Paulus, Björn Eversmann, Doris Schmitt-Landsiedel, Roland Thewes, Ralf Brederlow:
An Integrated Gravimetric FBAR Circuit for Operation in Liquids Using a Flip-Chip Extended 0.13μm CMOS Technology. ISSCC 2007: 392-610 - [c7]Gustavo Neuberger, Fernanda Gusmão de Lima Kastensmidt, Ricardo Reis, Gilson I. Wirth, Ralf Brederlow, Christian Pacha:
Statistical analysis of systematic and random variability of flip-flop race immunity in 130nm and 90nm CMOS technologies. VLSI-SoC 2007: 78-83 - [i1]Roland Thewes, Christian Paulus, Meinrad Schienle, Franz Hofmann, Alexander Frey, Ralf Brederlow, Marcin K. Augustyniak, Martin Jenkner, Björn Eversmann, Petra Schindler-Bauer, Melanie Atzesberger, Birgit Holzapfl, Gottfried Beer, Thomas Haneder, Hans-Christian Hanke:
CMOS-Based Biosensor Arrays. CoRR abs/0710.4678 (2007) - 2006
- [c6]Marcin K. Augustyniak, Christian Paulus, Ralf Brederlow, N. Persike, Gerhard Hartwich, Doris Schmitt-Landsiedel, Roland Thewes:
A 24x16 CMOS-Based Chronocoulometric DNA Microarray. ISSCC 2006: 59-68 - [c5]Ralf Brederlow, Ramesh Prakash, Christian Paulus, Roland Thewes:
A low-power true random number generator using random telegraph noise of single oxide-traps. ISSCC 2006: 1666-1675 - 2005
- [j4]Klaus von Arnim, Eduardo Borinski, Peter Seegebrecht, Horst Fiedler, Ralf Brederlow, Roland Thewes, Jörg Berthold, Christian Pacha:
Efficiency of body biasing in 90-nm CMOS for low-power digital circuits. IEEE J. Solid State Circuits 40(7): 1549-1556 (2005) - [j3]Christian Schlünder, Ralf Brederlow, Benno Ankele, Wolfgang Gustin, Karl Goser, Roland Thewes:
Effects of inhomogeneous negative bias temperature stress on p-channel MOSFETs of analog and RF circuits. Microelectron. Reliab. 45(1): 39-46 (2005) - [c4]Roland Thewes, Christian Paulus, Meinrad Schienle, Franz Hofmann, Alexander Frey, Ralf Brederlow, Marcin K. Augustyniak, Martin Jenkner, Björn Eversmann, Petra Schindler-Bauer, Melanie Atzesberger, Birgit Holzapfl, Gottfried Beer, Thomas Haneder, Hans-Christian Hanke:
CMOS-Based Biosensor Arrays. DATE 2005: 1222-1223 - 2004
- [c3]Roland Thewes, Christian Paulus, Meinrad Schienle, Franz Hofmann, Alexander Frey, Ralf Brederlow, Petra Schindler-Bauer, Marcin K. Augustyniak, Melanie Atzesberger, Birgit Holzapfl, Martin Jenkner, Björn Eversmann, Gottfried Beer, Michaela Fritz, Thomas Haneder, Hans-Christian Hanke:
Integrated circuits for the biology-to-silicon interface [biotechnology]. ESSCIRC 2004: 19-28 - [c2]Klaus von Arnim, Eduardo Borinski, Peter Seegebrecht, Horst Fiedler, Ralf Brederlow, Roland Thewes, Jörg Berthold, Christian Pacha:
Efficiency of body biasing in 90 nm CMOS for low power digital circuits. ESSCIRC 2004: 175-178 - 2003
- [j2]Björn Eversmann, Martin Jenkner, Franz Hofmann, Christian Paulus, Ralf Brederlow, Birgit Holzapfl, Peter Fromherz, Matthias Merz, Markus Brenner, Matthias Schreiter, Reinhard Gabl, Kurt Plehnert, Michael Steinhauser, Gerald Eckstein, Doris Schmitt-Landsiedel, Roland Thewes:
A 128 × 128 CMOS biosensor array for extracellular recording of neural activity. IEEE J. Solid State Circuits 38(12): 2306-2317 (2003) - 2001
- [j1]Ralf Brederlow, Werner Weber, Joseph Sauerer, Stéphane Donnay, Piet Wambacq, Maarten Vertregt:
A Mixed-Signal Design Roadmap. IEEE Des. Test Comput. 18(6): 34-46 (2001) - [c1]Christian Paulus, Ralf Brederlow, Ulrich Kleine, Roland Thewes:
An efficient and precise design method to optimize device areas in mismatch and flicker-noise sensitive analog circuits. ICECS 2001: 107-111
Coauthor Index
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last updated on 2024-10-11 17:27 CEST by the dblp team
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