Olivier BRIAT

Professor

Research group : RELIABILITY

Team : RESS

Tel : 0540002608

Read more

Article (51)

Comparison of the impact of fast charging on the cycle life of three lithium-ion cells under several parameters of charge protocol and temperatures Auteur(s): Romain Mathieu, Olivier Briat, Philippe Gyan, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-04087500 Fast charging for electric vehicles applications: Numerical optimization of a multi-stage charging protocol for lithium-ion battery and impact on cycle life Auteur(s): Romain Mathieu, Olivier Briat, Philippe Gyan, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-04087488 A Comprehensive Review on Energy Management Strategies for Electric Vehicles Considering Degradation Using Aging Models Auteur(s): Ahmad Alyakhni, Loic Boulon, Jean-Michel Vinassa, Olivier Briat Lien HAL : https://hal.science/hal-04087535 Non-destructive state-of-health diagnosis algorithm for blended electrode lithium-ion battery Auteur(s): Ruben Brunetaud, Karrick Mergo Mbeya, Nathalie Legrand, Olivier Briat, Armande Capitaine, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-04087512 Lithium-ion battery SoH estimation based on incremental capacity peak tracking at several current levels for online application Auteur(s): M. Maures, A. Capitaine, J.-Y. Delétage, J.-M. Vinassa, O. Briat Lien HAL : https://hal.science/hal-03493060 An Incremental Capacity Parametric Model Based on Logistic Equations for Battery State Estimation and Monitoring Auteur(s): Matthieu Maures, Romain Mathieu, Armande Capitaine, Jean-Yves Delétage, Jean-Michel Vinassa, Olivier Briat Lien HAL : https://hal.science/hal-03722553 Impact of temperature on calendar ageing of Lithium-ion battery using incremental capacity analysis Auteur(s): Matthieu Maures, Yuanci Zhang, Cyril Martin, Jean-Yves Deletage, Jean-Michel Vinassa, Olivier Briat Lien HAL : https://hal.science/hal-02506186 Non-isothermal Ragone plots of Li-ion cells from datasheet and galvanostatic discharge tests Auteur(s): Yuanci Zhang, Olivier Briat, Loïc Boulon, Jean-Yves Delétage, Cyril Martin, Fabio Coccetti, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-02117604 Electrochemical Double Layer Capacitors (supercapacitors) Ageing Impacts and Comparison on Different Impedance Models Auteur(s): Ronan German, Pascal Venet, Ali Sari, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01969229 Impact of Voltage Resets on Supercapacitors Aging Auteur(s): Ronan German, Ali Sari, Olivier Briat, Jean-Michel Vinassa, Pascal Venet Lien HAL : https://hal.science/hal-01646203 Efficient state of health estimation of Li-ion battery under several ageing types for aeronautic applications Auteur(s): Yuanci Zhang, Olivier Briat, Jean-Yves Delétage, Cyril Martin, Nicolas Chadourne, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01892422 Prediction of supercapacitors floating ageing with surface electrode interface based ageing law Auteur(s): Ronan German, Ali Sari, Pascal Venet, Mohamed Ayadi, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01657480 Performance comparison of four lithium-ion battery technologies under calendar aging Auteur(s): Akram Eddahech, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01657464 Chemical rate phenomenon approach applied to lithium battery capacity fade estimation Auteur(s): Issam Baghdadi, Olivier Briat, Jean-Yves Delétage, Philippe Gyan, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01657455 D-optimal design of experiments applied to lithium battery for ageing model calibration Auteur(s): Romain Mathieu, Issam Baghdadi, Olivier Briat, Philippe Gyan, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01657437 Lithium battery aging model based on Dakin’s degradation approach Auteur(s): Issam Baghdadi, Olivier Briat, Jean-Yves Delétage, Philippe Gyan, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01657446 Description of supercapacitor performance degradation rate during thermal cycling under constant voltage ageing test Auteur(s): Mohamed Ayadi, Olivier Briat, Richard Lallemand, Akram Eddahech, Gérard Coquery, Jean-Michel Vinassa, Ronan German Lien HAL : https://hal.science/hal-01657475 Study on specific effects of high frequency ripple currents and temperature on supercapacitors ageing Auteur(s): Ronan German, Ali Sari, Pascal Venet, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01657470 State of health assessment for lithium batteries based on voltage–time relaxation measure Auteur(s): Issam Baghdadi, Olivier Briat, Philippe Gyan, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01308702 Influence of the performance fading of ultracapacitors on the operation of a hybrid vehicle [Impact du vieillissement cyclique des supercondensateurs sur les performances dans une application véhicule hybride] Auteur(s): Hassane El Brouji, Jean-Michel Vinassa, Olivier Briat, Nicolas Bertrand, Bruno Dessirier Lien HAL : https://hal.science/hal-00988729 An implementation solution for fractional partial differential equations Auteur(s): Nicolas Bertrand, Jocelyn Sabatier, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00950573 Capacitance recovery analysis and modelling of supercapacitors during cycling ageing tests Auteur(s): Ramzi Chaari, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00964075 Improved Supercapacitor Floating Ageing Interpretation Through Multipore Impedance Model Parameters Evolution Auteur(s): Ronan German, Pascal Venet, Ali Sari, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00988961 Modeling and adaptive control for supercapacitor in automotive applications based on artificial neural networks Auteur(s): Akram Eddahech, Olivier Briat, Mohamed Ayadi, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00950509 Thermal cycling impacts on supercapacitor performances during calendar ageing Auteur(s): Mohamed Ayadi, Olivier Briat, Akram Eddahech, Ronan German, Gérard Coquery, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00950554 Lithium-ion battery performance improvement based on capacity recovery exploitation Auteur(s): Akram Eddahech, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00950535 Thermal characterization of a high-power lithium-ion battery: Potentiometric and calorimetric measurement of entropy changes Auteur(s): Akram Eddahech, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00950541 Impact of high frequency current ripple on supercapacitors ageing through floating ageing tests Auteur(s): Ronan German, Olivier Briat, Ali Sari, Pascal Venet, Mohamed Ayadi, Younes Zitouni, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00950564 Determination of lithium-ion battery state-of-health based on constant-voltage charge phase Auteur(s): Akram Eddahech, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00964082 Online Parameter Identification for Real-Time Supercapacitor Performance Estimation in Automotive Applications Auteur(s): Akram Eddahech, Mohamed Ayadi, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00807911 Remaining Useful Life prediction of Lithium batteries in calendar ageing for automotive applications Auteur(s): Akram Eddahech, Olivier Briat, Eric Woirgard, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00765063 Behavior and State-of-Health Monitoring of Li-ion Batteries Using Impedance Spectroscopy and Recurrent Neural Networks Auteur(s): Akram Eddahech, Olivier Briat, Nicolas Bertrand, Jean-Yves Delétage, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00709570 Embedded Fractional Nonlinear Supercapacitor Model and Its Parametric Estimation Method Auteur(s): Nicolas Bertrand, Jocelyn Sabatier, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00584803 Ageing monitoring of lithium-ion cell during power cycling tests Auteur(s): Akram Eddahech, Olivier Briat, Hervé Henry, Jean-Yves Delétage, Eric Woirgard, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00641829 How supercapacitors reach end of life criteria during calendar life and power cycling tests Auteur(s): Ramzi Chaari, Olivier Briat, Jean-Yves Delétage, Eric Woirgard, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00641859 Contribution of calendar ageing modes in the performances degradation of supercapacitors during power cycling Auteur(s): Olivier Briat, Jean-Michel Vinassa, Nicolas Bertrand, Hassane El Brouji, Jean-Yves Delétage, Eric Woirgard Lien HAL : https://hal.science/hal-00527080 Fractional Non-Linear modelling of Ultracapacitors Auteur(s): Nicolas Bertrand, Jocelyn Sabatier, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00401139 Analysis of the dynamic behavior changes of supercapacitors during calendar life test under several voltages and temperatures conditions Auteur(s): Hassane El Brouji, Olivier Briat, Jean-Michel Vinassa, Hervé Henry, Eric Woirgard Lien HAL : https://hal.science/hal-00414775 Impact of Calendar Life and Cycling Ageing on Supercapacitor Performance Auteur(s): Hassane El Brouji, Olivier Briat, Jean-Michel Vinassa, Nicolas Bertrand, Eric Woirgard Lien HAL : https://hal.science/hal-00424304 Comparison between changes of ultracapacitors model parameters during calendar life and power cycling ageing tests Auteur(s): Hassane El Brouji, Olivier Briat, Jean-Michel Vinassa, Nicolas Bertrand, Eric Woirgard Lien HAL : https://hal.science/hal-00333031 Characterization methods and modelling of ultracapacitors for use as peak power sources Auteur(s): Walid Lajnef, Jean-Michel Vinassa, Olivier Briat, Stéphane Azzopardi, Eric Woirgard Lien HAL : https://hal.science/hal-00161305 IGBT power modules thermal characterization : what is the optimum between a low current - high voltage or a high current - low voltage test condition for the same electrical power ? Auteur(s): Stéphane Azzopardi, Eric Woirgard, Jean-Michel Vinassa, Olivier Briat, Christian Zardini Lien HAL : https://hal.science/hal-00183574 Local lifetime control IGBT structures: turn-off performances comparisonfor hard-soft-switching between 1200 V trench and new planar PT-IGBTs Auteur(s): Stéphane Azzopardi, Olivier Briat, Jean-Michel Vinassa, Eric Woirgard, Christian Zardini Lien HAL : https://hal.science/hal-00183576 Quantification of ageing of ultracapacitors during cycling tests with current profile characteristics of hybrid and electric vehicles applications Auteur(s): Walid Lajnef, Jean-Michel Vinassa, Olivier Briat, Hassane El Brouji, Stéphane Azzopardi, Eric Woirgard Lien HAL : https://hal.science/hal-00168779 Specification and use of pulsed current profiles for ultracapacitors power cycling Auteur(s): Whalid Lajnef, Jean-Michel Vinassa, Olivier Briat, Eric Woirgard Lien HAL : https://hal.science/hal-00183571 First step in the reliability of ultracapacitors used as power source in hybrid electric vehicles Auteur(s): Whalid Lajnef, Jean-Michel Vinassa, Stéphane Azzopardi, Olivier Briat, Alexandrine Guedon, Christian Zardini Lien HAL : https://hal.science/hal-00183573 Strategy for designing accelerated ageing tests to evaluate IGBT power modules lifetime in real operation mode Auteur(s): Jean-Marc Thebaud, Eric Woirgard, Christian Zardini, Stéphane Azzopardi, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00183575 Principle, design and validation of a flywheel based peak power source for heavy-duty electric vehicles Auteur(s): Olivier Briat, Jean-Michel Vinassa, Stéphane Azzopardi, Eric Woirgard Lien HAL : https://hal.science/hal-00168775 Power cycling tests for accelerated ageing of ultracapacitors Auteur(s): Olivier Briat, Walid Lajnef, Jean-Michel Vinassa, Eric Woirgard Lien HAL : https://hal.science/hal-00161309 Monitoring fading rate of ultracapacitors using online characterization during power cycling Auteur(s): Walid Lajnef, Jean-Michel Vinassa, Olivier Briat, Hassane El Brouji, Eric Woirgard Lien HAL : https://hal.science/hal-00180190 A systematic hard- and soft-switching performances evaluation of 1200V punch through IGBT structures Auteur(s): Stephane Azzopardi, Jean-Michel Vinassa, Eric Woirgard, Christian Zardini, Olivier Briat Lien HAL : https://hal.science/hal-00161308

Conference proceedings (69)

Lithium Battery Aging Model Based on Chemical Rate Approach Auteur(s): I. Baghdadi, O. Briat, P. Gyan, J.-M. Vinassa Lien HAL : https://hal.science/hal-02518372 Initiation à la recherche sur la Fiabilité en microélectronique par la physique :Mini-projets en laboratoire Auteur(s): J-y Deletage, T. Dubois, G. Duchamp, L. Theolier, J-M Vinassa, E. Woirgard, H. Fremont, O. Briat, A. Guédon-Gracia Lien HAL : https://hal.science/hal-02516984 Comparative ageing study of CC-CV fast charging for commercial 18650 Li-ion cells: impact of environmental temperature Auteur(s): R. Mathieu, C. Martin, O. Briat, P. Gyan, J.-M Vinassa Lien HAL : https://hal.science/hal-02518330 Electro-thermal behavior of four fast charging protocols for a lithium-ion cell at different temperatures Auteur(s): R. Mathieu, Olivier Briat, Philippe Gyan, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-02518346 Initiation à la recherche sur la fiabilité en microélectronique par la physique : mini-projets en laboratoire Auteur(s): O. Briat, J.-Y. Delétage, T. Dubois, G. Duchamp, H. Frémont, A. Guédon-Gracia, L. Theolier, J.-M. Vinassa, E. Woirgard Lien HAL : https://hal.science/hal-02518400 Prediction of Supercapacitors Floating Ageing with Surface Electrode Interface based Ageing Law Auteur(s): Ronan German, Ali Sari, Pascal Venet, Mohamed Ayadi, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01969257 Study on specific effects of high frequency ripple currents and temperature on supercapacitors ageing Auteur(s): Ronan German, Ali Sari, Pascal Venet, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01969263 Feasibility and performances of BOOST converter in automotive application using silicon power transistors operating at 200°C Auteur(s): Raphaël Roder, Stéphane Azzopardi, Francois Le Henaff, Olivier Briat, Jean-Michel Vinassa, Serge Bontemps Lien HAL : https://hal.science/hal-01778418 Influence of Thermal Cycling on Supercapacitor Performance Fading During Ageing Test at Constant Voltage Auteur(s): Mohamed Ayadi, Olivier Briat, Richard Lallemand, Gérard Coquery, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01784002 Characterization of external pressure effects on lithium-ion pouch cell Auteur(s): Yuanci Zhang, Olivier Briat, Jean-Yves Delétage, Cyril Martin, Guillaume Gager, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01892433 Ageing Law for Supercapacitors Floating Ageing Auteur(s): Ronan German, Ali Sari, Pascal Venet, Younes Zitouni, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01783998 Study of Static Converters related Ripple Currents Effects on Supercapacitors Ageing within DC Networks Auteur(s): Ronan German, Ali Sari, Pascal Venet, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01778388 Performance quantification of last generation Li-ion batteries in wide temperature range Auteur(s): Yuanci Zhang, Olivier Briat, Cyril Martin, Jean-Yves Delétage, Guillaume Gager, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01657701 Lithium-ion battery ageing assessment based on a reduced design of experiments Auteur(s): Issam Baghdadi, Romain Mathieu, Olivier Briat, Philippe Gyan, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01657688 Dynamic battery aging model: representation of reversible capacity losses using first order model approach Auteur(s): Issam Baghdadi, Olivier Briat, Jean-Yves Delétage, Philippe Gyan, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01308647 Electro-thermal model of lithium-ion batteries for electrified vehicles applications Auteur(s): Issam Baghdadi, Olivier Briat, Akram Eddahech, Philippe Gyan, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-01308668 Impact of high frequency current ripple on supercapacitors ageing through floating ageing tests Auteur(s): Ronan German, Olivier Briat, Ali Sari, Pascal Venet, Mohamed Ayadi, Younes Zitouni, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00998341 Electrosorption phenomena taken into account in a fractional model of supercapacitor Auteur(s): Nicolas Bertrand, Jocelyn Sabatier, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00988884 Strategy for lithium-Ion battery performance improvement during power cycling Auteur(s): Akram Eddahech, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00988279 Ultracapacitor performance determination using dynamic model parameter identification Auteur(s): Akram Eddahech, Olivier Briat, Mohamed Ayadi, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00988292 Voltage and temperature impacts on leakage current in calendar ageing of supercapacitors Auteur(s): Mohamed Ayadi, Akram Eddahech, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00988323 Multilevel neural-network model for supercapacitor module in automotive applications Auteur(s): Akram Eddahech, Mohamed Ayadi, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00988774 Lithium-ion battery heat generation investigation based on calorimetric entropy measurements Auteur(s): Akram Eddahech, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00988290 Traction électrique automobile : convertisseur BOOST à base de composants silicium IGBT et CoolMOSTM fonctionnant à 200°C Auteur(s): Raphaël Roder, Stephane Azzopardi, Olivier Briat, Francois Le Henaff, Jean-Michel Vinassa, Serge Bontemps Lien HAL : https://hal.science/hal-01065380 Supercapacitors Ageing Prediction by Neural Networks Auteur(s): Abdenour Soualhi, Ali Sari, Hubert Razik, Pascal Venet, Guy Clerc, Ronan German, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00920298 Interpretation of Electrochemical Double Layer Capacitors (Supercapacitors) Floating Ageing by Multi-pore Model Auteur(s): Ronan German, Pascal Venet, Ali Sari, Jean-Michel Vinassa, Olivier Briat Lien HAL : https://hal.science/hal-00798810 Adaptive Voltage Estimation for EV Li-ion Cell Based on Artificial Neural Networks State-of-Charge Meter Auteur(s): Akram Eddahech, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00765051 Real-Time SOC and SOH Estimation for EV Li-Ion Cell Using Online Parameters Identification Auteur(s): Akram Eddahech, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00765071 Comparison of EDLC impedance models used for ageing monitoring Auteur(s): Ronan German, Pascal Venet, Olivier Briat, Jean-Michel Vinassa, Ali Sari Lien HAL : https://hal.science/hal-00747083 Neural networks based model and voltage control for lithium polymer batteries Auteur(s): Akram Eddahech, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00641840 Lithium-ion Cell Modeling from Impedance Spectroscopy for EV Applications Auteur(s): Akram Eddahech, Olivier Briat, Ramzi Chaari, Nicolas Bertrand, Hervé Henry, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00641849 Performances regeneration of supercapacitors during accelerated ageing tests in power cycling Auteur(s): Ramzi Chaari, Olivier Briat, Jean-Yves Delétage, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00641852 Impact du vieillissement cyclique des supercondensateurs sur les performances dans une application véhicule hybride Auteur(s): Hassane El Brouji, Jean-Michel Vinassa, Olivier Briat, Nicolas Bertrand, Hervé Henry, Bruno Dessirier Lien HAL : https://hal.science/hal-00584825 Modélisation non entière et non linéaire des supercapacités et procédure d'estimation paramétrique associée Auteur(s): Nicolas Bertrand, Jocelyn Sabatier, Jean-Michel Vinassa, Olivier Briat Lien HAL : https://hal.science/hal-00585452 Li-Po Batteries Modeling for Mail Delivery Electric Vehicles Auteur(s): Akram Eddahech, Olivier Briat, Habib Al Jed, Ramzi Chaari, André Mieze, Rémi Simon, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00641847 Ageing quantification of supercapacitors during power cycling using online and periodic characterization tests Auteur(s): Ramzi Chaari, Olivier Briat, Jean-Yves Delétage, Richard Lallemand, Juliette Kauv, Gérard Coquery, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00641857 Supercapacitor model for efficient energy management in micro-hybrid vehicles applications Auteur(s): Nicolas Bertrand, Olivier Briat, Jocelyn Sabatier, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00584821 Impact of temperature and voltage on the evolution of performance of supercapacitor in the calendar ageing Auteur(s): Ramzi Chaari, Nicolas Bertrand, Olivier Briat, Hassane El Brouji, Jean-Yves Delétage, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00584822 A new non-linear supercapacitor embedded model and its online time identification method Auteur(s): Nicolas Bertrand, Jocelyn Sabatier, Jean-Michel Vinassa, Olivier Briat Lien HAL : https://hal.science/hal-00584824 Impact of the ageing of supercapacitors in power cycling on the behaviour of hybrid electric vehicles applications Auteur(s): Nicolas Bertrand, Olivier Briat, Hassane El Brouji, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00527110 An ultracapacitor non-linear fractional model Auteur(s): Nicolas Bertrand, Jocelyn Sabatier, Olivier Briat, Jean-Michel Vinassa Lien HAL : https://hal.science/hal-00401676 Influence of relaxation process on supercapacitor time response Auteur(s): Nicolas Bertrand, Olivier Briat, Jean-Michel Vinassa, Hassane El Brouji Lien HAL : https://hal.science/hal-00414777 Ageing quantification of supercapacitors during calendar life and power cycling tests Auteur(s): Hassane El Brouji, Jean-Michel Vinassa, Olivier Briat, Nicolas Bertrand, Eric Woirgard Lien HAL : https://hal.science/hal-00416527 Ultracapacitor electrical modeling using temperature dependent parameters Auteur(s): Walid Lajnef, Olivier Briat, Stéphane Azzopardi, Jean-Michel Vinassa, Eric Woirgard Lien HAL : https://hal.science/hal-00339560 Porous electrode theory for ultracapacitor modelling and experimental validation Auteur(s): Nicolas Bertrand, Olivier Briat, Jean-Michel Vinassa, Jocelyn Sabatier, Hassane El Brouji Lien HAL : https://hal.science/hal-00321870 Parameters evolution of an ultracapacitor impedance model with ageing during power cycling tests Auteur(s): Hassane El Brouji, Jean-Michel Vinassa, Olivier Briat, Walid Lajnef, Nicolas Bertrand, Eric Woirgard Lien HAL : https://hal.science/hal-00317860 Ultracapacitors self discharge modelling using a physical description of porous electrode impedance Auteur(s): Hassane El Brouji, Jean-Michel Vinassa, Olivier Briat, Nicolas Bertrand, Eric Woirgard Lien HAL : https://hal.science/hal-00321871 Ageing quantification of ultracapacitors during calendar life and power cycling tests using a physically-based impedance model Auteur(s): Hassane El Brouji, Olivier Briat, Jean-Michel Vinassa, Nicolas Bertrand, Eric Woirgard Lien HAL : https://hal.science/hal-00339532 Development of a physics-based impedance model of ultracapacitor Auteur(s): Nicolas Bertrand, Olivier Briat, Jean-Michel Vinassa, Hassane El Brouji, Eric Woirgard Lien HAL : https://hal.science/hal-00339539 Local lifetime control IGBT structures : turn-off performances comparison for hard-and soft-switching between 1200V trench and new planar PT-IGBTs Auteur(s): Stéphane Azzopardi, A. Kawamura, H. Iwamoto, Olivier Briat, Jean-Michel Vinassa, Eric Woirgard, Christian Zardini Lien HAL : https://hal.science/hal-00183587 Integration of an electromechanical power source in a test bench for hybrid electric vehicles Auteur(s): Olivier Briat, Stéphane Azzopardi, Jean-Michel Vinassa, Eric Woirgard, Jean-Louis Aucouturier Lien HAL : https://hal.science/hal-00183583 Method for ageing quantification of ultracapacitors during power cycling based on specific characterization tests Auteur(s): Walid Lajnef, Jean-Michel Vinassa, Olivier Briat, Eric Woirgard Lien HAL : https://hal.science/hal-00175220 Integration of an electromechanical power source in a test bench for hybridelectric vehicles Auteur(s): Olivier Briat, Stéphane Azzopardi, Jean-Michel Vinassa, Christian Zardini, Jean-Louis Aucouturier Lien HAL : https://hal.science/hal-00185553 Etude expérimentale d'une source hybride pour chaîne de traction électrique : conception et intégration d'un accumulateur cinétique d'énergie Auteur(s): Olivier Briat, Jean-Michel Vinassa, Whalid Lajnef, Stéphane Azzopardi, Christian Zardini, Jean-Louis Aucouturier Lien HAL : https://hal.science/hal-00183584 Design, Realization and Experimentation of a Ni-MH Battery Monitoring System (BMS) for Electric Vehicles Auteur(s): K. Abouda, Olivier Briat, Jean-Michel Vinassa, Christian Zardini, Jean-Louis Aucouturier Lien HAL : https://hal.science/hal-00183588 Ultracapacitors characteristics changes during power cycling using specific current profiles Auteur(s): Walid Lajnef, Jean-Michel Vinassa, Olivier Briat, Eric Woirgard Lien HAL : https://hal.science/hal-00175223 Tools for experimentation and simulation of heavy duty HEV power train Auteur(s): Olivier Briat, K. Abouda, Jean-Michel Vinassa, Christian Zardini, Jean-Louis Aucouturier Lien HAL : https://hal.science/hal-00183590 Ultracapacitors modeling : dynamic behavior using impedance spectroscopy on a dedicated test bench Auteur(s): Whalid Lajnef, Jean-Michel Vinassa, Olivier Briat, Stéphane Azzopardi, Christian Zardini, Jean-Louis Aucouturier Lien HAL : https://hal.science/hal-00183579 Cyclage de super-condensateurs utilisant des profils en courant impulsionnels Auteur(s): Walid Lajnef, Jean-Michel Vinassa, Olivier Briat, Eric Woirgard Lien HAL : https://hal.science/hal-00175226 First step in the reliability of ultracapacitors used as power source in hybrid electric vehicles Auteur(s): Whalid Lajnef, Jean-Michel Vinassa, Stéphane Azzopardi, Olivier Briat, Christian Zardini Lien HAL : https://hal.science/hal-00185575 Ultracapacitors Modeling Improvement Using an Experimental Characterization Based on Step and Frequency Responses Auteur(s): Whalid Lajnef, Jean-Michel Vinassa, Stéphane Azzopardi, Olivier Briat, Eric Woirgard, Christian Zardini, Jean-Louis Aucouturier Lien HAL : https://hal.science/hal-00183580 Effect of the High Input Capacitance of 1200V Trench IGBT on the Switching Characteristics under Inductive Load Auteur(s): Stéphane Azzopardi, Adel Benmansour, Jean-Michel Vinassa, Olivier Briat, Eric Woirgard Lien HAL : https://hal.science/hal-00183577 Tools for experimentation and simulation of heavy duty HEV power train Auteur(s): Olivier Briat, Jean-Michel Vinassa, Christian Zardini, Jean-Louis Aucouturier Lien HAL : https://hal.science/hal-00183589 Experimental study of sources hybridization : electromechanicalstorage system integration into an electric vehicle structure Auteur(s): Olivier Briat, Jean-Michel Vinassa, Christian Zardini, Jean-Louis Aucouturier Lien HAL : https://hal.science/hal-00183585 Contribution in a regulation method of battery current in electric vehicles. Application in a racing sail ship Auteur(s): K. Abouda, Olivier Briat, Jean-Michel Vinassa, Hervé Henry Lien HAL : https://hal.science/hal-00183591 Experimentql comparison of two hybridization strategies for ESS-battery association in heavy duty electric vehicles Auteur(s): Olivier Briat, Jean-Michel Vinassa, Whalid Lajnef, Stéphane Azzopardi, Christian Zardini Lien HAL : https://hal.science/hal-00183582 Integration of an electromechanical power source in a test bench for hybrid electric vehicles Auteur(s): Olivier Briat, Stéphane Azzopardi, Jean-Michel Vinassa, Christian Zardini, Jean-Louis Aucouturier Lien HAL : https://hal.science/hal-00183586 experimental validation of an ESS-battery combination as a hybrid source for heavy duty vehicles Auteur(s): Olivier Briat, Jean-Michel Vinassa, Whalid Lajnef, Stéphane Azzopardi, Christian Zardini, Jean-Louis Aucouturier Lien HAL : https://hal.science/hal-00183581 Study of ultracapacitors dynamic behaviour using impedance spectroscopy on a dedicated test bench Auteur(s): Whalid Lajnef, Jean-Michel Vinassa, Olivier Briat, Stéphane Azzopardi, Christian Zardini Lien HAL : https://hal.science/hal-00183578

Send a email to Olivier BRIAT :

    Contact our team

    If you have a request or questions about the laboratory, please contact our team.