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ORCIDChristian C. Enz
Person information
- affiliation: Swiss Federal Institute of Technology in Lausanne (EPFL), Switzerland
- affiliation: Swiss Center for Electronics and Microtechnology (CSEM), Neuchtel, Switzerland
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2020 – today
- 2024
[j44]Naci Pekcokguler
, Hung-Chi Han, Dominique Morche, Catherine Dehollain, Andreas Burg, Christian C. Enz:
Analytical Modeling of Short-Channel MOSFET Differential Pair Non-Linearity. IEEE Trans. Circuits Syst. I Regul. Pap. 71(10): 4411-4419 (2024)- [c122]Christian C. Enz, Hung-Chi Han, Corentin Délignac, Thierry Taris:
A Comprehensive Output Conductance Model Valid in All Regions of Inversion. ISCAS 2024: 1-5 - 2023
- [j43]Hung-Chi Han, Zhixing Zhao, Steffen Lehmann, Edoardo Charbon, Christian C. Enz:
Novel Approach to FDSOI Threshold Voltage Model Validated at Cryogenic Temperatures. IEEE Access 11: 56951-56957 (2023) - [c121]Christian C. Enz, Hung-Chi Han:
Design of Cryo-CMOS Analog Circuits using the $G_{m}/I_{D}$ Approach. ISCAS 2023: 1-5 - [c120]Christian C. Enz, Hung-Chi Han:
The Fano Noise Suppression Factor and the $G_{m}/I_{D}$ FoM. ISCAS 2023: 1-5 - [c119]Christian C. Enz, Hung-Chi Han, Simon Berner:
Design of Low-power Analog Circuits in Advanced Technology Nodes using the $G_{m}/I_{D}$ Approach. ISCAS 2023: 1-5 - 2022
- [j42]Hung-Chi Han, Antonio A. D'Amico, Christian C. Enz:
SEKV-E: Parameter Extractor of Simplified EKV I-V Model for Low-Power Analog Circuits. IEEE Open J. Circuits Syst. 3: 162-167 (2022) - [c118]Hung-Chi Han, Farzan Jazaeri, Antonio A. D'Amico, Zhixing Zhao, Steffen Lehmann, Claudia Kretzschmar, Edoardo Charbon, Christian C. Enz:
Cryogenic RF Characterization and Simple Modeling of a 22 nm FDSOI Technology. ESSDERC 2022: 269-272 - [c117]Christian C. Enz:
Simple Expression of the Thermal Noise Excess Factor for LNA Design. ICECS 2022 2022: 1-4 - [c116]Yihe Zhao, Gian Luca Barbruni, Zhikang Li, Libo Zhao, Zhuangde Jiang, Christian C. Enz, Sandro Carrara:
An ASIC Interface for CMUTs-based Biosensors with High Voltage Boosting and Oscillator. ISCAS 2022: 1625-1629 - [c115]Ata Golparvar, Assim Boukhayma, Christian C. Enz, Sandro Carrara:
Rapid, Sensitive and Selective Optical Glucose Sensing with Stimulated Raman Scattering (SRS). MeMeA 2022: 1-5 - [c114]Hung-Chi Han, Antonio A. D'Amico, Christian C. Enz:
Comprehensive Design-oriented FDSOI EKV Model. MIXDES 2022: 40-44 - [c113]Ata Golparvar, Assim Boukhayma, Christian C. Enz, Sandro Carrara:
Optimized Detection of Hypoglycemic Glucose Ranges in Human Serum by Raman Spectroscopy with 532 nm Laser Excitation. PHOTOPTICS 2022: 158-165 - 2021
- [j41]Minhao Yang, Hongjie Liu, Weiwei Shan, Jun Zhang, Ilya Kiselev, Sang Joon Kim, Christian C. Enz, Mingoo Seok:
Nanowatt Acoustic Inference Sensing Exploiting Nonlinear Analog Feature Extraction. IEEE J. Solid State Circuits 56(10): 3123-3133 (2021) - [c112]Hung-Chi Han, Farzan Jazaeri, Antonio A. D'Amico, Andrea Baschirotto, Edoardo Charbon, Christian C. Enz:
Cryogenic Characterization of 16 nm FinFET Technology for Quantum Computing. ESSCIRC 2021: 71-74 - [c111]Francesco Chicco, Sammy Cerida Rengifo, Erwan Le Roux, Christian C. Enz:
A 60 GHz QDCO with 11 GHz Seamless Tuning for Low-Power FMCW Radars in 22-nm FDSOI. ESSCIRC 2021: 291-294 - [c110]Sammy Cerida Rengifo, Francesco Chicco, Erwan Le Roux, Christian C. Enz:
An Optimized Low-Power Band-Tuning TX for Short-Range FMCW Radar in 22-nm FDSOI CMOS. ESSCIRC 2021: 467-470 - [c109]Hung-Chi Han, Farzan Jazaeri, Antonio A. D'Amico, Andrea Baschirotto, Edoardo Charbon, Christian C. Enz:
Cryogenic Characterization of 16 nm FinFET Technology for Quantum Computing. ESSDERC 2021: 71-74 - [c108]Sammy Cerida Rengifo, Francesco Chicco, Erwan Le Roux, Christian C. Enz:
Modulation Scheme Impact on Phase Noise in FMCW Radar for Short-Range Applications. ISCAS 2021: 1-4 - 2020
- [j40]Mahshid Padash, Christian C. Enz, Sandro Carrara:
Microfluidics by Additive Manufacturing for Wearable Biosensors: A Review. Sensors 20(15): 4236 (2020) - [j39]Raffaele Capoccia, Assim Boukhayma, Christian C. Enz:
Experimental Verification of the Impact of Analog CMS on CIS Readout Noise. IEEE Trans. Circuits Syst. I Regul. Pap. 67-I(3): 774-784 (2020) - [c107]Assim Boukhayma, Antonino Caizzone, Raffaele Capoccia, Christian C. Enz:
Design and Optimization of Low Power and Low Light Sensor: (Invited). CICC 2020: 1-8 - [c106]Alessandro Pezzotta, Salvatore Collura, Daniel Bold, Christian C. Enz:
A 49 μW 6th-Order Chebyshev SSF-Based Low-Pass Analog Filter for IEEE 802.11ax. ISCAS 2020: 1-4
2010 – 2019
- 2019
- [j38]Vincent Camus, Linyan Mei, Christian C. Enz, Marian Verhelst:
Review and Benchmarking of Precision-Scalable Multiply-Accumulate Unit Architectures for Embedded Neural-Network Processing. IEEE J. Emerg. Sel. Topics Circuits Syst. 9(4): 697-711 (2019) - [j37]Vladimir Kopta, Christian C. Enz:
A 4-GHz Low-Power, Multi-User Approximate Zero-IF FM-UWB Transceiver for IoT. IEEE J. Solid State Circuits 54(9): 2462-2474 (2019) - [j36]Antonino Caizzone, Assim Boukhayma, Christian C. Enz:
A 2.6 µW Monolithic CMOS Photoplethysmographic (PPG) Sensor Operating With 2 µW LED Power for Continuous Health Monitoring. IEEE Trans. Biomed. Circuits Syst. 13(6): 1243-1253 (2019) - [j35]Francesco Chicco, Alessandro Pezzotta, Christian C. Enz:
Charge-Based Distortion Analysis of Nanoscale MOSFETs. IEEE Trans. Circuits Syst. I Regul. Pap. 66-I(2): 453-462 (2019) - [c105]Vincent Camus, Christian C. Enz, Marian Verhelst:
Survey of Precision-Scalable Multiply-Accumulate Units for Neural-Network Processing. AICAS 2019: 57-61 - [c104]Minhao Yang, Shih-Chii Liu, Mingoo Seok, Christian C. Enz:
Ultra-Low-Power Intelligent Acoustic Sensing using Cochlea-Inspired Feature Extraction and DNN Classification. ASICON 2019: 1-4 - [c103]Arnout Beckers, Farzan Jazaeri, Christian C. Enz:
Cryogenic MOSFET Threshold Voltage Model. ESSDERC 2019: 94-97 - [c102]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 - [c101]Antonino Caizzone, Assim Boukhayma, Christian C. Enz:
A 2.6μW Monolithic CMOS Photoplethysmographic Sensor Operating with 2μW LED Power. ISSCC 2019: 290-291 - 2018
- [j34]Vincent Camus, Mattia Cacciotti, Jeremy Schlachter, Christian C. Enz:
Design of Approximate Circuits by Fabrication of False Timing Paths: The Carry Cut-Back Adder. IEEE J. Emerg. Sel. Topics Circuits Syst. 8(4): 746-757 (2018) - [j33]Federica Resta, Simone Gerardin, S. Mattiazzo, Alessandro Paccagnella, Marcello De Matteis, Christian C. Enz, Andrea Baschirotto:
1GigaRad TID impact on 28 nm HEP analog circuits. Integr. 63: 306-314 (2018) - [c100]Vladimir Kopta, Christian C. Enz:
A 100kb/s, 4 GHz, 267 μW fully integrated low power FM-UWB transceiver with multiple channels. CICC 2018: 1-4 - [c99]Antonino Caizzone, Assim Boukhayma, Christian C. Enz:
An Accurate kTC Noise Analysis of CDS Circuits. NEWCAS 2018: 22-25 - [c98]Mattia Cacciotti, Vincent Camus, Jeremy Schlachter, Alessandro Pezzotta, Christian C. Enz:
Hardware Acceleration of HDR-Image Tone Mapping on an FPGA-CPU Platform Through High-Level Synthesis. SoCC 2018: 158-162 - 2017
- [j32]Vladimir Kopta, John R. Farserotu, Christian C. Enz:
FM-UWB: Towards a Robust, Low-Power Radio for Body Area Networks. Sensors 17(5): 1043 (2017) - [j31]Jeremy Schlachter, Vincent Camus, Krishna V. Palem, Christian C. Enz:
Design and Applications of Approximate Circuits by Gate-Level Pruning. IEEE Trans. Very Large Scale Integr. Syst. 25(5): 1694-1702 (2017) - [c97]Alexander Vorobyov, Vladimir Kopta, John R. Farserotu, Christian C. Enz:
Efficient through-waveguide wireless power transfer for body area networks. BioCAS 2017: 1-4 - [c96]Xun Jiao, Vincent Camus, Mattia Cacciotti, Yu Jiang, Christian C. Enz, Rajesh K. Gupta:
Combining structural and timing errors in overclocked inexact speculative adders. DATE 2017: 482-487 - [c95]C.-M. Zhang, Farzan Jazaeri, Alessandro Pezzotta, Claudio Bruschini, Giulio Borghello, S. Mattiazzo, Andrea Baschirotto, Christian C. Enz:
Total ionizing dose effects on analog performance of 28 nm bulk MOSFETs. ESSDERC 2017: 30-33 - [c94]Arnout Beckers, Farzan Jazaeri, Andrea Ruffino, Claudio Bruschini, Andrea Baschirotto, Christian C. Enz:
Cryogenic characterization of 28 nm bulk CMOS technology for quantum computing. ESSDERC 2017: 62-65 - [c93]Ali Saeidi, Farzan Jazaeri, Francesco Bellando, Igor Stolichnov, Christian C. Enz, Adrian M. Ionescu:
Negative capacitance field effect transistors; capacitance matching and non-hysteretic operation. ESSDERC 2017: 78-81 - [c92]Raffaele Capoccia, Assim Boukhayma, Christian C. Enz:
Analysis of CMS noise reduction for 65 nm CIS. ISCAS 2017: 1-4 - [c91]Francesco Chicco, Alessandro Pezzotta, Christian C. Enz:
Analysis of power consumption in LC oscillators based on the inversion coefficient. ISCAS 2017: 1-4 - [c90]Marta Franceschi, Vincent Camus, Ali Ibrahim, Christian C. Enz, Maurizio Valle:
Approximate FPGA Implementation of CORDIC for Tactile Data Processing Using Speculative Adders. NGCAS 2017: 41-44 - [c89]Huaiqi Huang, Tao Li, Claudio Bruschini, Christian C. Enz, Jörn Justiz, Christian Antfolk, Volker M. Koch:
Multi-modal Sensory Feedback System for Upper Limb Amputees. NGCAS 2017: 193-196 - [c88]Jeremy Schlachter, Mike Fagan, Krishna V. Palem, Christian C. Enz:
A study on the energy-precision tradeoffs on commercially available processors and SoCs with an EPI based energy model. SoCC 2017: 334-339 - 2016
- [j30]Gabrielle Guitton, Anurag Mangla, Maria-Anna Chalkiadaki, Francois Fadhuile, Thierry Taris, Christian C. Enz:
Design of ultra low-power RF oscillators based on the inversion coefficient methodology using BSIM6 model. Int. J. Circuit Theory Appl. 44(2): 382-397 (2016) - [j29]Assim Boukhayma, Arnaud Peizerat, Christian C. Enz:
A Sub-0.5 Electron Read Noise VGA Image Sensor in a Standard CMOS Process. IEEE J. Solid State Circuits 51(9): 2180-2191 (2016) - [j28]Assim Boukhayma, Antoine Dupret, Jean-Pierre Rostaing, Christian C. Enz:
A Low-Noise CMOS THz Imager Based on Source Modulation and an In-Pixel High-Q Passive Switched-Capacitor N-Path Filter. Sensors 16(3): 325 (2016) - [j27]Assim Boukhayma, Arnaud Peizerat, Christian C. Enz:
Noise Reduction Techniques and Scaling Effects towards Photon Counting CMOS Image Sensors. Sensors 16(4): 514 (2016) - [c87]Huaiqi Huang, Tao Li, Christian Antfolk, Christian C. Enz, Jörn Justiz, Volker M. Koch:
Experiment and investigation of two types of vibrotactile devices. BioRob 2016: 1266-1271 - [c86]Huaiqi Huang, Tao Li, Claudio Bruschini, Christian C. Enz, Volker M. Koch, Jörn Justiz, Christian Antfolk:
EMG pattern recognition using decomposition techniques for constructing multiclass classifiers. BioRob 2016: 1296-1301 - [c85]Vincent Camus, Jeremy Schlachter, Christian C. Enz:
A low-power carry cut-back approximate adder with fixed-point implementation and floating-point precision. DAC 2016: 127:1-127:6 - [c84]Raghavasimhan Thirunarayanan, David Ruffieux, Nicola Scolari, Christian C. Enz:
A 51.4 Mb/s FSK transmitter employing a Phase Domain Digital Synthesizer with 1.5 µs start-up for energy efficient duty cycling. ESSCIRC 2016: 129-132 - [c83]Vincent Camus, Jeremy Schlachter, Christian C. Enz, Michael Gautschi, Frank K. Gürkaynak:
Approximate 32-bit floating-point unit design with 53% power-area product reduction. ESSCIRC 2016: 465-468 - [c82]Alessandro Pezzotta, C.-M. Zhang, Farzan Jazaeri, Claudio Bruschini, Giulio Borghello, Federico Faccio, S. Mattiazzo, Andrea Baschirotto, Christian C. Enz:
Impact of GigaRad Ionizing Dose on 28 nm bulk MOSFETs for future HL-LHC. ESSDERC 2016: 146-149 - [c81]Raghavasimhan Thirunarayanan, Aravind Heragu, David Ruffieux, Christian C. Enz:
Ultra low-power MEMS based radios for the IoT. ICECS 2016: 225-228 - [c80]Raffaele Capoccia, Assim Boukhayma, Christian C. Enz:
Sub-electron CIS noise analysis in 65 nm process. ICECS 2016: 560-563 - [c79]Jeremy Schlachter, Vincent Camus, Christian C. Enz:
Design of energy-efficient discrete cosine transform using pruned arithmetic circuits. ISCAS 2016: 341-344 - [c78]Christian C. Enz, Alessandro Pezzotta:
Nanoscale MOSFET modeling for the design of low-power analog and RF circuits. MIXDES 2016: 21-26 - [c77]Mike Fagan, Jeremy Schlachter, Kazutomo Yoshii, Sven Leyffer, Krishna V. Palem, Marc Snir, Stefan M. Wild, Christian C. Enz:
Overcoming the power wall by exploiting inexactness and emerging COTS architectural features: Trading precision for improving application quality. SoCC 2016: 241-246 - 2015
- [c76]Huaiqi Huang, Tao Li, Christian Antfolk, Claudio Bruschini, Christian C. Enz, Jörn Justiz, Volker M. Koch:
Automatic hand phantom map detection methods. BioCAS 2015: 1-4 - [c75]Shyamsundar Venkataraman, Akash Kumar, Jeremy Schlachter, Christian C. Enz:
Designing inexact systems efficiently using elimination heuristics. DATE 2015: 758-763 - [c74]Peter D. Düben, Jeremy Schlachter, Parishkrati, Sreelatha Yenugula, John Augustine, Christian C. Enz, Krishna V. Palem, Tim N. Palmer:
Opportunities for energy efficient computing: a study of inexact general purpose processors for high-performance and big-data applications. DATE 2015: 764-769 - [c73]John R. Farserotu, Jean-Dominique Decotignie, Jacek Baborowski, P.-N. Volpe, C. R. Quirós, Vladimir Kopta, Christian C. Enz, S. Lacour, H. Michaud, R. Martuzzi, Volker M. Koch, H. Huang, T. Li, Christian Antfolk:
Tactile prosthetics in WiseSkin. DATE 2015: 1695-1697 - [c72]Christian C. Enz, Maria-Anna Chalkiadaki, Anurag Mangla:
Low-power analog/RF circuit design based on the inversion coefficient. ESSCIRC 2015: 202-208 - [c71]Raghavasimhan Thirunarayanan, David Ruffieux, Nicola Scolari, Christian C. Enz:
A ΣΔ based direct all-digital frequency synthesizer with 20 Mbps frequency modulation capability and 3μs startup latency. ESSCIRC 2015: 388-391 - [c70]Vincent Camus, Jeremy Schlachter, Christian C. Enz:
Energy-efficient inexact speculative adder with high performance and accuracy control. ISCAS 2015: 45-48 - [c69]Jeremy Schlachter, Vincent Camus, Christian C. Enz, Krishna V. Palem:
Automatic generation of inexact digital circuits by gate-level pruning. ISCAS 2015: 173-176 - [c68]Vladimir Kopta, Raghavasimhan Thirunarayanan, Franz-Xaver Pengg, Erwan Le Roux, Christian C. Enz:
A 2.4-GHz low complexity polar transmitter using dynamic biasing for IEEE 802.15.6. ISCAS 2015: 1686-1689 - [c67]Raghavasimhan Thirunarayanan, David Ruffieux, Christian C. Enz:
Enabling highly energy efficient WSN through PLL-free, fast wakeup radios. ISCAS 2015: 2573-2576 - [c66]Jeremy Schlachter, Vincent Camus, Christian C. Enz:
Near/Sub-Threshold Circuits and Approximate Computing: The Perfect Combination for Ultra-Low-Power Systems. ISVLSI 2015: 476-480 - [c65]Assim Boukhayma, Christian C. Enz:
A new method for kTC noise analysis in periodic passive switched-capacitor networks. NEWCAS 2015: 1-4 - [c64]Vincent Camus, Jeremy Schlachter, Christian C. Enz:
Energy-efficient digital design through inexact and approximate arithmetic circuits. NEWCAS 2015: 1-4 - 2014
- [j26]Maria-Anna Chalkiadaki, Christian C. Enz:
Accurate RF modeling of nanoscale MOSFET using BSIM6 including low levels of inversion. Microelectron. J. 45(9): 1159-1167 (2014) - [c63]Huaiqi Huang, Christian C. Enz, Martin Grambone, Jörn Justiz, Tao Li, Ozan Unsal, Volker M. Koch:
Data fusion for a hand prosthesis tactile feedback system. BioCAS 2014: 604-607 - [c62]Lingamneni Avinash, Christian C. Enz, Krishna V. Palem, Christian Piguet:
Highly energy-efficient and quality-tunable inexact FFT accelerators. CICC 2014: 1-4 - [c61]Assim Boukhayma, Arnaud Peizerat, Antoine Dupret, Christian C. Enz:
Comparison of two optimized readout chains for low light CIS. IMSE 2014: 90220H - [c60]Assim Boukhayma, Jean-Pierre Rostaing, A. Mollard, Fabrice Guellec, Michele Benetti, Guillaume Ducournau, Jean-François Lampin, Antoine Dupret, Christian C. Enz, Michaël Tchagaspanian, J.-A. Nicolas:
A 533pW NEP 31×31 pixel THz image sensor based on in-pixel demodulation. ESSCIRC 2014: 303-306 - [c59]Francois Fadhuile, Thierry Taris, Yann Deval, Christian C. Enz, Didier Belot:
Design methodology for low power RF LNA based on the figure of merit and the inversion coefficient. ICECS 2014: 478-481 - [c58]Christian Antfolk, Vladimir Kopta, John R. Farserotu, Jean-Dominique Decotignie, Christian C. Enz:
The WiseSkin artificial skin for tactile prosthetics: A power budget investigation. ISMICT 2014: 1-4 - [c57]Assim Boukhayma, Arnaud Peizerat, Antoine Dupret, Christian C. Enz:
Design optimization for low light CMOS image sensors readout chain. NEWCAS 2014: 241-244 - 2013
- [j25]Lingamneni Avinash, Christian C. Enz, Krishna V. Palem, Christian Piguet:
Designing Energy-Efficient Arithmetic Operators Using Inexact Computing. J. Low Power Electron. 9(1): 141-153 (2013) - [j24]Aravind Heragu, David Ruffieux, Christian C. Enz:
A Low Power BAW Resonator Based 2.4-GHz Receiver With Bandwidth Tunable Channel Selection Filter at RF. IEEE J. Solid State Circuits 48(6): 1343-1356 (2013) - [j23]Aravind Heragu, David Ruffieux, Christian C. Enz:
A 2.4-GHz MEMS-Based PLL-Free Multi-Channel Receiver With Channel Filtering at RF. IEEE J. Solid State Circuits 48(7): 1689-1700 (2013) - [j22]Anurag Mangla, Maria-Anna Chalkiadaki, Francois Fadhuile, Thierry Taris, Yann Deval, Christian C. Enz:
Design methodology for ultra low-power analog circuits using next generation BSIM6 MOSFET compact model. Microelectron. J. 44(7): 570-575 (2013) - [j21]Viswanathan Balasubramanian, Pierre-François Ruedi, Yuksel Temiz, Anna Ferretti, Carlotta Guiducci, Christian C. Enz:
A 0.18 $\mu {\rm m}$ Biosensor Front-End Based on $1/f$ Noise, Distortion Cancelation and Chopper Stabilization Techniques. IEEE Trans. Biomed. Circuits Syst. 7(5): 660-673 (2013) - [j20]Lingamneni Avinash, Christian C. Enz, Krishna V. Palem, Christian Piguet:
Synthesizing Parsimonious Inexact Circuits through Probabilistic Design Techniques. ACM Trans. Embed. Comput. Syst. 12(2s): 93:1-93:26 (2013) - [c56]Lingamneni Avinash, Arindam Basu, Christian C. Enz, Krishna V. Palem, Christian Piguet:
Improving energy gains of inexact DSP hardware through reciprocative error compensation. DAC 2013: 20:1-20:8 - [c55]Raghavasimhan Thirunarayanan, David Ruffieux, Christian C. Enz:
An injection-locking based programmable fractional frequency divider with 0.2 division step for quantization noise reduction. ESSCIRC 2013: 233-236 - [c54]Krishna V. Palem, Avinash Lingamneni, Christian C. Enz, Christian Piguet:
Why design reliable chips when faulty ones are even better. ESSCIRC 2013: 255-258 - [c53]Maria-Anna Chalkiadaki, Christian C. Enz:
Low-power RF modeling of a 40nm CMOS technology using BSIM6. MIXDES 2013: 57-62 - [c52]Vladimir Kopta, Franz Pengg, Erwan Le Roux, Christian C. Enz:
A 2.4-GHz low power polar transmitter for wireless body area network applications. NEWCAS 2013: 1-4 - 2012
- [c51]Lingamneni Avinash, Kirthi Krishna Muntimadugu, Christian C. Enz, Richard M. Karp, Krishna V. Palem, Christian Piguet:
Algorithmic methodologies for ultra-efficient inexact architectures for sustaining technology scaling. Conf. Computing Frontiers 2012: 3-12 - [c50]Maria-Anna Chalkiadaki, Anurag Mangla, Christian C. Enz, Yogesh Singh Chauhan, Mohammed Ahosan Ul Karim, Sriramkumar Venugopalan, Ali M. Niknejad, Chenming Hu:
Evaluation of the BSIM6 compact MOSFET model's scalability in 40nm CMOS technology. ESSCIRC 2012: 34-37 - [c49]Aravind Heragu, David Ruffieux, Christian C. Enz:
A 2.4-GHz MEMS-based PLL-free multi-channel receiver with channel filtering at RF. ESSCIRC 2012: 137-140 - [c48]Aravind Heragu, David Ruffieux, Christian C. Enz:
A low power 2.4 GHz front end with MEMS lattice based channel filtering at RF. ISCAS 2012: 1319-1322 - [c47]Viswanathan Balasubramanian, Pierre-François Ruedi, Christian C. Enz:
Noise canceling chopper stabilized front-end for electrochemical biosensors with improved dynamic range. ISCAS 2012: 2215-2218 - [c46]Willy Sansen, Christian C. Enz, Boris Murmann, Philip K. T. Mok:
Low-power analog signal processing. ISSCC 2012: 518 - 2011
- [c45]Lingamneni Avinash, Christian C. Enz, Jean-Luc Nagel, Krishna V. Palem, Christian Piguet:
Energy parsimonious circuit design through probabilistic pruning. DATE 2011: 764-769 - [c44]Qiuting Huang, Catherine Dehollain, Christian C. Enz, Thomas Burger:
A circuit technology platform for medical data acquisition and communication: Outline of a collaboration project within the Swiss Nano-Tera.ch Initiative. DATE 2011: 1472-1473 - [c43]David Ruffieux, Matteo Contaldo, Christian C. Enz:
MEMS-based all-digital frequency synthesis for ultralow-power radio for WBAN and WSN applications. ISCAS 2011: 157-160 - [c42]Christian C. Enz, Andreia Cathelin, Maysam Ghovanloo, Stefan Heinen, Minkyu Je, David Scott:
Towards personalized medicine and monitoring for healthy living. ISSCC 2011: 516-517 - [c41]Lingamneni Avinash, Christian C. Enz, Krishna V. Palem, Christian Piguet:
Parsimonious Circuits for Error-Tolerant Applications through Probabilistic Logic Minimization. PATMOS 2011: 204-213 - 2010
- [j19]Matteo Contaldo, Budhaditya Banerjee, David Ruffieux, Jérémie Chabloz, Erwan Le Roux, Christian C. Enz:
A 2.4-GHz BAW-Based Transceiver for Wireless Body Area Networks. IEEE Trans. Biomed. Circuits Syst. 4(6): 391-399 (2010) - [c40]David Ruffieux, Matteo Contaldo, Jérémie Chabloz, Christian C. Enz:
Ultra low power and miniaturized MEMS-based radio for BAN and WSN applications. ESSCIRC 2010: 71-80 - [c39]Aravind Heragu, Viswanathan Balasubramanian, Christian C. Enz:
A multiband concurrent sampling based RF front end for biotelemetry applications. ISCAS 2010: 2948-2951 - [c38]Viswanathan Balasubramanian, Aravind Heragu, Christian C. Enz:
Analysis of ultralow-power asynchronous ADCs. ISCAS 2010: 3593-3596 - [c37]Budhaditya Banerjee, Christian C. Enz, Erwan Le Roux:
Detailed analysis of a phase ADC. ISCAS 2010: 4273-4276 - [c36]Matteo Contaldo, David Ruffieux, Christian C. Enz:
A 5.4dBm 42mW 2.4GHz CMOS BAW-based quasi-direct conversion transmitter. ISSCC 2010: 498-499
2000 – 2009
- 2009
- [j18]David Ruffieux, Jérémie Chabloz, Matteo Contaldo, Claude Müller, Franz-Xaver Pengg, Paola Tortori, Alexandre Vouilloz, Patrick Volet, Christian C. Enz:
A Narrowband Multi-Channel 2.4 GHz MEMS-Based Transceiver. IEEE J. Solid State Circuits 44(1): 228-239 (2009) - [c35]Viswanathan Balasubramanian, Aravind Heragu, Christian C. Enz:
A novel complex Gm-C IF sub-sampling mixer. ECCTD 2009: 29-32 - [c34]Aravind Heragu, Viswanathan Balasubramanian, Christian C. Enz:
A concurrent quadrature sub-sampling mixer for multiband receivers. ECCTD 2009: 271-274 - [c33]Matteo Contaldo, Christian C. Enz:
Analysis of a novel BAW-based power amplifier. ECCTD 2009: 375-378 - 2008
- [c32]Jérémie Chabloz, David Ruffieux, Christian C. Enz:
A low-power programmable dynamic frequency divider. ESSCIRC 2008: 370-373 - [c31]Christian C. Enz, Ernesto Perea, Ken Cioffi:
MEMS for Frequency Synthesis and Wireless RF Communications (or Life without Quartz Crystal). ISSCC 2008: 14-15 - 2007
- [c30]Christian C. Enz, Jacek Baborowski, Jérémie Chabloz, Martin Kucera, Claude Müller, David Ruffieux, Nicola Scolari:
Ultra low-power MEMS-based radio for wireless sensor networks. ECCTD 2007: 320-331 - [c29]Jérémie Chabloz, David Ruffieux, Alexandre Vouilloz, Paola Tortori, Franz Pengg, Claude Müller, Christian C. Enz:
Frequency synthesis for a low-power 2.4 GHz receiver using a BAW oscillator and a relaxation oscillator. ESSCIRC 2007: 492-495 - 2006
- [c28]Amre El-Hoiydi, Claude Arm, Ricardo Caseiro, Stefan Cserveny, Jean-Dominique Decotignie, Christian C. Enz, Frédéric Giroud, Steve Gyger, E. Leroux, Thierry Melly, Vincent Peiris, Franz-Xaver Pengg, Pierre-David Pfister, Nicolas Raemy, A. Ribordy, David Ruffieux, Patrick Volet:
The ultra low-power wiseNET system. DATE 2006: 971-976 - [c27]Uroschanit Yodprasit, Christian C. Enz:
Realization of a low-voltage and low-power Colpitts quadrature oscillator. ISCAS 2006 - [c26]Uroschanit Yodprasit, Christian C. Enz:
On an implementation of differential and quadrature Colpitts injection-locked frequency dividers. ISCAS 2006 - [c25]Jérémie Chabloz, Claude Müller, Franz Pengg, Aurélie Pezous, Christian C. Enz, Marc-Alexandre Dubois:
A Low-Power 2.4GHz CMOS Receiver Front-End Using BAW Resonators. ISSCC 2006: 1244-1253 - 2005
- [j17]Mario Zagalj, Jean-Pierre Hubaux, Christian C. Enz:
Energy-Efficient Broadcasting in All-Wireless Networks. Wirel. Networks 11(1-2): 177-188 (2005) - 2004
- [j16]Christian C. Enz, Amre El-Hoiydi, Jean-Dominique Decotignie, Vincent Peiris:
WiseNET: An Ultralow-Power Wireless Sensor Network Solution. Computer 37(8): 62-70 (2004) - [c24]Nicola Scolari, Christian C. Enz:
Digital receiver architectures for the IEEE 802.15.4 standard. ISCAS (4) 2004: 345-348 - [c23]Jérémie Chabloz, Christian C. Enz:
A novel I/Q mismatch compensation scheme for a low-IF receiver front-end. ISCAS (4) 2004: 453-456 - 2003
- [j15]Uroschanit Yodprasit, Christian C. Enz:
A 1.5-V 75-dB dynamic range third-order Gm-C filter integrated in a 0.18-μm standard digital CMOS process. IEEE J. Solid State Circuits 38(7): 1189-1197 (2003) - [c22]Uroschanit Yodprasit, Christian C. Enz:
Nonlinear analysis of a Colpitts injection-locked frequency divider. ISCAS (1) 2003: 629-632 - [c21]Amre El-Hoiydi, Jean-Dominique Decotignie, Christian C. Enz, E. Leroux:
wiseMAC, an ultra low power MAC protocol for the wiseNET wireless sensor network. SenSys 2003: 302-303 - 2002
- [j14]Christian C. Enz, Stefan Rusu:
Guest editorial. IEEE J. Solid State Circuits 37(7): 795-797 (2002) - [j13]Thierry Melly, Alain-Serge Porret, Christian C. Enz, Eric A. Vittoz:
Addition to "An analysis of flicker noise rejection in low-power and low-voltage CMOS mixers". IEEE J. Solid State Circuits 37(8): 1090 (2002) - [j12]Thierry Melly, Alain-Serge Porret, Christian C. Enz, Eric A. Vittoz:
Addition to "An analysis of flicker noise rejection in low-power and low-voltage CMOS mixers". IEEE J. Solid State Circuits 37(8): 1090 (2002) - [c20]Mario Zagalj, Jean-Pierre Hubaux, Christian C. Enz:
Minimum-energy broadcast in all-wireless networks: : NP-completeness and distribution issues. MobiCom 2002: 172-182 - 2001
- [j11]Thierry Melly, Alain-Serge Porret, Christian C. Enz, Eric A. Vittoz:
An analysis of flicker noise rejection in low-power and low-voltage CMOS mixers. IEEE J. Solid State Circuits 36(1): 102-109 (2001) - [j10]Alain-Serge Porret, Thierry Melly, Dominique Python, Christian C. Enz, Eric A. Vittoz:
An ultralow-power UHF transceiver integrated in a standard digital CMOS process: architecture and receiver. IEEE J. Solid State Circuits 36(3): 452-466 (2001) - [j9]Thierry Melly, Alain-Serge Porret, Christian C. Enz, Eric A. Vittoz:
An ultralow-power UHF transceiver integrated in a standard digital CMOS process: transmitter. IEEE J. Solid State Circuits 36(3): 467-472 (2001) - [j8]Dominique Python, Christian C. Enz:
A micropower class-AB CMOS log-domain filter for DECT applications. IEEE J. Solid State Circuits 36(7): 1067-1075 (2001) - 2000
- [j7]Christian C. Enz, Yuhua Cheng:
MOS transistor modeling for RF IC design. IEEE J. Solid State Circuits 35(2): 186-201 (2000) - [j6]Alain-Serge Porret, Thierry Melly, Christian C. Enz, Eric A. Vittoz:
Design of high-Q varactors for low-power wireless applications using a standard CMOS process. IEEE J. Solid State Circuits 35(3): 337-345 (2000) - [c19]Alain-Serge Porret, Thierry Melly, Dominique Python, Christian C. Enz, Eric A. Vittoz:
A 1 V, 1 mW, 434 MHz FSK receiver fully integrated in a standard digital CMOS process. CICC 2000: 171-174 - [c18]Thierry Melly, Alain-Serge Porret, Christian C. Enz, Eric A. Vittoz:
A 1.2 V, 433 MHz, 10 dBm, 38% global efficiency FSK transmitter integrated in a standard digital CMOS process. CICC 2000: 179-182 - [c17]Christian C. Enz:
MOS transistor modeling for RF integrated circuit design. CICC 2000: 189-196 - [c16]Alain-Serge Porret, Thierry Melly, Christian C. Enz, Eric A. Vittoz:
A low-power low-voltage transceiver architecture suitable for wireless distributed sensors network. ISCAS 2000: 56-59 - [c15]Alain-Serge Porret, Thierry Melly, Eric A. Vittoz, Christian C. Enz:
Tradeoffs and design of an ultra low power UHF transceiver integrated in a standard digital CMOS process. ISLPED 2000: 273-278 - [e1]David T. Blaauw, Christian C. Enz, Thaddeus Gabara, Enrico Macii:
Proceedings of the 2000 International Symposium on Low Power Electronics and Design, 2000, Rapallo, Italy, July 25-27, 2000. ACM 2000, ISBN 1-58113-190-9 [contents]
1990 – 1999
- 1999
- [c14]Dominique Python, Alain-Serge Porret, Christian C. Enz:
A 1 V 5th-order Bessel filter dedicated to digital standard processes. CICC 1999: 505-508 - [c13]Alain-Serge Porret, Thierry Melly, Christian C. Enz:
Design of high-Q varactors for low-power wireless applications using a standard CMOS process. CICC 1999: 641-644 - [c12]Dominique Python, Christian C. Enz:
An antialiasing filter using complementary MOS transconductors biased in the triode region. ISCAS (2) 1999: 184-187 - [c11]Dominique Python, Manfred Punzenberger, Christian C. Enz:
A 1-V CMOS log-domain integrator. ISCAS (2) 1999: 685-688 - [c10]Thierry Melly, Alain-Serge Porret, Christian C. Enz, Maher Kayal, Eric A. Vittoz:
A 1.2V, 430MHz, 4dBm power amplifier and a 250muW front-end, using a standard digital CMOS process. ISLPED 1999: 233-237 - 1998
- [j5]Manfred Punzenberger, Christian C. Enz:
A compact low-power BiCMOS log-domain filter. IEEE J. Solid State Circuits 33(7): 1123-1129 (1998) - [c9]Rafael Fried, Christian C. Enz:
Nano-amp, active-bulk, weak-inversion analog circuits. CICC 1998: 31-34 - [c8]Thierry Melly, Alain-Serge Porret, Christian C. Enz, Maher Kayal:
A 1.3 V low-power 430 MHz front-end using a standard digital CMOS process [ISM wireless link]. CICC 1998: 503-506 - [c7]Manfred Punzenberger, Christian C. Enz:
Log-domain filters for low-voltage low-power applications. ICECS 1998: 41-44 - 1997
- [j4]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) - [j3]Manfred Punzenberger, Christian C. Enz:
A 1.2-V low-power BiCMOS class AB log-domain filter. IEEE J. Solid State Circuits 32(11): 1968-1978 (1997) - 1996
- [j2]Fuji Yang, Christian C. Enz:
A low-distortion BiCMOS seventh-order Bessel filter operating at 2.5 V supply. IEEE J. Solid State Circuits 31(3): 321-330 (1996) - [j1]Christian C. Enz, Gabor C. Temes:
Circuit techniques for reducing the effects of op-amp imperfections: autozeroing, correlated double sampling, and chopper stabilization. Proc. IEEE 84(11): 1584-1614 (1996) - [c6]Dominique Python, Rafael Fried, Christian C. Enz:
A 1.2 V companding current-mode integrator for standard digital CMOS processes. ICECS 1996: 231-234 - [c5]Manfred Punzenberger, Christian C. Enz:
A 1.2 V BiCMOS companding current-mode integrator for ΣΔ-modulators. ICECS 1996: 235-238 - [c4]Rafael Fried, Rachid Cherkaoui, Christian C. Enz, Alain J. Germond, Eric A. Vittoz:
Analog VLSI solution to the stability study of power networks. ICECS 1996: 239-242 - 1995
- [c3]Fuji Yang, Christian C. Enz, Dominique Python:
A New BiCMOS Low-Voltage and Low-Distortion OTA for Continuous-Time Filters. ISCAS 1995: 1199-1202 - [c2]Gerson A. S. Machado, Christian C. Enz, Matthias Bucher:
Estimating Key Parameters in the EKV MOST Model for Analogue Desgin and Simulation. ISCAS 1995: 1588-1591 - [c1]Manfred Punzenberger, Christian C. Enz:
Low-Voltage Companding Current-Mode Integrators. ISCAS 1995: 2112-2115
Coauthor Index
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