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Statements

Subject Item
n2:7H11101
rdf:type
n4:Projekt
dcterms:description
The overall objective is to develop sustainable drive train technologies and control concepts/ platforms for inherently safe electric vehicle powertrains. The project focuses on significant steps ahead in terms of: o Overall energy efficiency of EV powertrains shall be improved by 20% (from currently 60% to 72%). o Development of novel, intrinsically failsafe electrical powertrain concepts and passive components comprising high efficiency torque-dense motors fully integrated with power converters and storage systems for modularity, compactness, reliability and low cost with improved recyclability and less dependency on rare-earth magnets. o Innovative EV architectures, and sensing and microcontroller concepts/platforms capable of achieving intrinsic fail-safe behaviour of the powertrain and energy management in order to enhance the overall reliability and safety of EVs: Safety will be improved through redundancy by using multi-core ECUs (on the macro level) through distributed control using intelligent sensors. Intelligence will be enhanced through embedded software in a highly distributed control system, taking into account the interaction between hardware and software within the physical environment (i.e. the propulsion and energy management systems, respectively). The overall objective is to develop sustainable drive train technologies and control concepts/ platforms for inherently safe electric vehicle powertrains. The project focuses on significant steps ahead in terms of: o Overall energy efficiency of EV powertrains shall be improved by 20% (from currently 60% to 72%). o Development of novel, intrinsically failsafe electrical powertrain concepts and passive components comprising high efficiency torque-dense motors fully integrated with power converters and storage systems for modularity, compactness, reliability and low cost with improved recyclability and less dependency on rare-earth magnets. o Innovative EV architectures, and sensing and microcontroller concepts/platforms capable of achieving intrinsic fail-safe behaviour of the powertrain and energy management in order to enhance the overall reliability and safety of EVs: Safety will be improved through redundancy by using multi-core ECUs (on the macro level) through distributed control using intelligent sensors. Intelligence will be enhanced through embedded software in a highly distributed control system, taking into account the interaction between hardware and software within the physical environment (i.e. the propulsion and energy management systems, respectively).
dcterms:title
Nanoelectronics for Electric Vehicle Intelligent Failsafe Drive Train Nanoelectronics for Electric Vehicle Intelligent Failsafe Drive Train
n4:cislo-smlouvy
n12:2011-321
n4:dalsi-vedlejsi-obor
n8:JC
n4:druh-souteze
n13:RP
n4:faze
n10:54680059
n4:hlavni-obor
n8:JA
n4:vedlejsi-obor
n8:JB
n4:id-aktivity
n5:7H
n4:id-souteze
n9:
n4:kategorie
n6:2
n4:klicova-slova
Electric powertrains; safety; energy efficiency; intelligent sensors; microcontroller platforms
n4:konec-reseni
2014-03-31+01:00
n4:pocet-koordinujicich-prijemcu
0
n4:poskytovatel
n11:MSM
n4:start-reseni
2011-04-01+01:00
n4:statni-podpora
1002
n4:typProjektu
n7:P
n4:uznane-naklady
3012
n4:pocet-prijemcu
1
n4:pocet-spoluprijemcu
0
n4:pocet-vysledku
0
n4:pocet-vysledku-zverejnovanych
0