#: locale=fr
## Habillage
### Image
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### Texte multiligne
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5-DOF dynamic platform rendering roll, pitch, yaw, steering angle and pseudo-haptic acceleration / braking effects on the arms and hands of the rider.
Measurement of the electrocaloric effect on thin polymer films (PVDF), using a metallized aluminum probe, under electric field, to analyze the adiabatic temperature variation.
Acoustic microscope probe (SAM) and inverted power module spilled in water tray for analysis.
Based on the principle of interferometry, this non-invasive imaging technique provides a cross-sectional image of the studied object. For example, the system can be used to study the stratigraphy of a complex material.
CTAF Concept: Electric Traction Chain with Segmented Power Supply
Three-phase flux-switching machine with split power supply. Concept patented in 2017 and then in 2024 for the power increase of electric machines while ensuring an acceptable DC bus voltage. Improvement of fault resilience and the integration of multiple power sources.
Characterization under standardized conditions: Epstein frame, flux control and true field measurement.
Components under test with cooling system, control boards and measurement instrumentation.
Cross-section system (cutting, polishing, etc.).
Curve tracer (B1505) for on-state characterizations of power devices.
DC-DC 5V – 1V, 40A power converter for aerospace applications. Efficient Design of High-Current, Low-Output Voltage DC-DC Converters Using Artificial Intelligence-Based Topology Selection and Optimization, T. Harmand; R. Filipe; P. Dubus; D. Labrousse, PCIM Europe 2024.
Dedicated inverter for CTAF Concept.
Application : transportation, highly modular power traction chain.
Design and optimization of special synchronous machine topologies for embedded applications
- Design of new topologies
- Expertise in analytical, semi-analytical, and numerical modeling of 2D & 3D electrical machines topologies
- Expertise in prototype realization and experimental characterization.
Design and optimization of special synchronous machine topologies for embedded applications
- Design of new topologies
- Expertise in analytical, semi-analytical, and numerical modeling of 2D & 3D electrical machines topologies
- Expertise in prototype realization and experimental characterization.
Design of a converter dedicated to power piezoelectric actuators for engine nacelle leading edge de-icing. GaN ARCP converter, proof of concept of de-icing by HF longitudinal deformation of the mechanical structure.
Devices under tests and acquisition system in a DC power cycling test bench
Digital optical microscope.
Distributed computation and control architecture using embedded calculators.
Double pulse test bench for estimating switching losses of power components.
Electrochemical assembly for modifying electrode surfaces and monitoring the detection of chemical and biological entities.
Electromagnet for material characterization.
Electromagnetic measurement of the hygric properties of clays for non destructive evaluation.
Embedded instrumentation to capture motorcycle and rider behavior : RTK GPS, encoders, inertial units, 3D cameras for optical flow, rotation sensor, force gauges on handlebars and footrests. Rider instrumentation. Most sensors developed in-lab.
Experimental platform dedicated to the acquisition of experimental commutation dynamics of the power switches.
This activity belongs to the research topic on FPGA-SoC based embedded real-time simulation and embeded digital twins for power electronics and drive applications.
Experimental platform for the validation of AC drive sensorless controllers, including model based (EKF) and HF injection sensorless methods. The digital implementations are made on FPGA-SoC target.
Experimental setup to investigate the impact of electrical/mechanical coupling on PEMFC Fuel Cells. Mechanical pressure applied to the cells affects their electrical characteristics. Work carried out as part of the study of aging and diagnostics of fuel cell systems, on the UAR FCLAB experimental platform in Belfort.
Five-phase flux-switching machine for fault resilience, SiC inverter, and EMC filter powering the machine.
Fault detection (open circuits or short circuits) in the machine through vibration analysis.
Fourier Transform infrared spectrometers with ATR system (400 - 4000 cm-1).
Impedance spectroscopy for electrochemical energy storage systems.
In the field of ultrasonic or electromagnetic SHM (Structural HealthMonitoring), this bench uses a network of sensors to map the physical properties of a complex material at different scales.
In this assembly, the solar engine is ‘reversed’: the light comes from the ground. This configuration makes it easier to test the various possible combinations (series/parallel) of the photovoltaic cells connected to the phases of the variable reluctance machine.
Infrared camera system (thermal analysis)
Inverted optical microscope (metallographic).
Magnetoelectric current sensor.
Multi-layer LIDAR, 3D camera, offline storage, real-time processing. Datalogger for indexed data scenarios.
Near-field magnetic probes for diagnosis and failure analysis of power components.
Optical profilometer (1 micron resolution).
PVDF films reinforced with nanocomposites, suspended in freestanding for electrocaloric measurement with a metallized Polypropylene/Aluminium probe.
Preparation of samples (skin explants, hair, biological supports) in a fume cupboard, mainly for the cosmetics industry. In the immediate vicinity of the laboratory, companies have direct access to the multi-scale and multimodal analysis instruments of the SATIE laboratory.
Probe-based characterization system.
Rear axle sensors (inertial units) + GPS receiver with wheel rotations. CAN Bus. Safety battery for vehicle stop if main battery fails.
Repetitive short-circuit test bench for robustness of power semiconductor devices - Test circuit layout with component driver and power source.
Sensors and measurement devices developed in the laboratory for monitoring and characterising complex materials (skin models, emulsions, gels). Coupled with dedicated signal processing, they make it possible to extract complex rheological and dielectric parameters from the materials analysed in real time. They can also be used to monitor structural changes on a mesoscopic scale.
Some results on the impact of cell pressure on electrical characteristics. Work carried out as part of the study of aging and diagnostics of fuel cell systems, on the UAR FCLAB experimental platform in Belfort.
Specific models for studying the MD and MC impedances of machines with a high number of windings.
Surface acoustic wave transducer (double delay lines).
Systèmed'acquisition de données (Dewesoft)
Tabletop electron microscope (SEM).
Test bench and control of components under test
Thermal analysis of power components, thermal impedance and structure functions (T3STER).
These portablesystems are designed for field measurements and is suitable for analysing low-reflection surfaces, or using Ultra-High Frequency. It enables multi-scale monitoring of mechanical waves propagating on the surface of a structure to be analyzed. It can be used, for example, to identifyfatigue zones and sub-surface defects.
This instrumental system enables materials to be analysed using optical spectroscopy. LIBS (Laser Induced Breakdown Spectroscopy), LIF (fluorescence) and Raman techniques are used.
The spectroscopic techniques used enable basic characterization and evaluation of binders and pigments, for example. In addition, the fluorescence approach can be used to determine the presence of restoration overpaints for heritage conservation applications.
This measurement bench uses ultrasound to determine the coefficients of the tensor of elasticity of wood. The experiments are carried out in a climatic chamber (temperature and relative humidity regulated) to work on the sensitivity of wood to these conditions.
This mobile platform (MoLab) is designed to carry out on sitemeasurements : portable instruments will analyse artworks in situ as part of a preventiveconservation approach to material heritage. This platform is being made available to Europeancultural heritage community via the Fondation des Sciences du Patrimoine (FSP).
This portable optical system can be used for LIBS (Laser InducedBreakdown Spectroscopy), LIF (fluorescence) and Raman analyses. It is designed to be taken on the MoLab board during in situ missions.
This solar engine is designed for pumping and ventilation applications.It operates using the optical switching principleIt is a variable reluctance engine powered by photovoltaic cells that function like photovoltaic transistors.
This tank is specifically designed to formulate emulsions, in particular cosmetics, guaranteeing controlled and homogeneousdispersion of the droplets in the continuous phase. The agitator is formed from Rushton blades, and the shape of the tank ensures high shear within it.
Three phases flux switching machine with several sub-windings for CTAF Concept.
Application : transportation, highly modular power traction chain.
UV-Vis_NIR spectrophotometer (200 - 1400nm)
Used in NDT in the audible domain, this focused 3D imaging system can be used to image sound volumes, identify emission zones and localize and characterize sources. It can be used in passive mode (listening) or active mode (with a controlled source) to analyse macroscopic vibratory properties.
Used in acoustic NDT, this laser instrument detects the three-dimensional vibratory field of a structure, without contact, using optical interferometry: combined with multi-dimensional models, 3 optical heads detect the multi-scale vibratory and viscoelastic properties in the 3 directions in space of anisotropic materials with large surfaces.
Used in optical NDT, this device is used to analyse the surface condition of a complex material : structuring, roughness, …
Using resonant mechanical (shear ultrasound) and electromagnetic sensors, this experimental impedancemetry device can be used to monitor the viscoelastic and dielectric properties of cell cultures. Typical applications are skin explant and reconstituted skin cultures for dermo-cosmetics.
water-cooled load chokes
Power cycling stress in AC mode (switching)