Transcript Ordre du jour - High Tech NL

Laboratoire Ampère
Unité Mixte de Recherche CNRS
Génie Électrique, Électromagnétisme, Automatique, Microbiologie Environnementale et Applications
Efficient energy conversion solutions through integration
Focus on harsh environment applications
Septembre 2008
Bruno Allard, Prof.
Dominique Bergogne, Ass. Prof.
Laboratoire Ampère – UMR 5005
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Laboratoire Ampère: overview
www.ampere-lab.fr
CNRS (INSIS + INEE)
Ecole Centrale de Lyon
4 partners INSA de Lyon
Université Claude Bernard
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Power
electronics
and
integration
3 fields
Materials for
Electrical
Engineering
Electrical
engineering
g
Électromagnétism
Environnemental
Microbiology
3 departem
ments
7 research groups
Automatic
AmpèreLab
2 priorities
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Bioengineering
Bi
Power integration
Bioelectromagnetism
and
microsystems
Electrical Engineering,
Electromagnetism,
Control, Environmental
Microbiology and
Applications
Automatic,
control and
mechatronics
2 objectives for engineering
Ecologic engineering
Mechatronics systems
engineering
7 experimental
facilities
Environnemen
tal microbial
Génomics
microbiology
environnemental
laboratory
ECM test center
Characterization
platform for power
SC components and
systems
High voltage
test center
Ampère Lab– UMR 5005
Multiscale
g
modeling
and Design
Methods
Reliability,
diagnostic and
supervision
Characterization and
Reliability platform for
passive components
45 kW diagnostic
platform
Fluid Power
center
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Scientic focuses and activities
 Focuses
– Ecology-related engineering and mechatronics : integrate energy efficiency wrt
environment needs and requirements.
– Spectrum :
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Control theory to electrical engineering and dedicated computer science,
from technology to devices and systems,
from DC to GHz,
from µW to MW
from theory to prototypes
 Acitivity areas
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Power electronics and integration
Scavenging and ultra low power
High voltage
High temperature
Materials for electrical engineering devices
EMI and electromagnetism
ESD, EOS
Diagnostics and health monitoring
Control
Medical robotics
Metagenomic, bacteria gene transfer
Laboratoire Ampère – UMR 5005
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Integration of High Power Systems  Wide Band Gap devices
High voltage
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Device design and fabrication (SiC, GaN, diamond)
Virtual prototyping
System approach
EMI
3D Packaging
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Integration of Power Systems  active and passive devices
High temperature (Tamb>200°C)
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Active and passive IPs
System integration in Package
Characterization
Failure mode analysis
Packaging
SOI IPs, 300°C
AlN substrate, nano-Ag sintering
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Multi-chip power module  300°C
Industrial version, 2010
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HT° planar power magnetics
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SoC power supply solutions
SoC power management
Embedded, seamless,
Methodology
Control strategy
Inductive, capacitive DC/DC
Energy harvesting
Batterie
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CPU1
CPU2
P1
P2
PMU
Mémoire
P4
Mémoire
P5
P3
P6
P7
200MHz, 2W, 81%@250nm
2.4GHz rectenna, 26%@-30dBm
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SoC power supply solutions  passive interposers
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References
Papers  http://hal.archives-ouvertes.fr
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Search by affiliation: ampere
Search by name: directory available www.ampere-lab.fr
Framework: dedicated projects, Ph.Ds
Contact: [email protected]
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