Detail projektu

E3CAR Nanoelectronics for an Energy Efficient Electrical Car

Období řešení: 01.03.2009 — 29.02.2012

Zdroje financování

Ministerstvo školství, mládeže a tělovýchovy ČR - Společné technologické iniciativy

- částečně financující (2009-03-01 - 2012-02-29)

O projektu

E3CAR Nanoelectronics for an Energy Efficient Electrical Car project is financed by the EC in 16,7% and by the Czech national contribution in 83,3%. E3CAR project is researched in the international consortium and sponsored by the ENIAC JOINT UNDERTAKING platform in SUB-PROGRAMME 2, 4 Semiconductor, Automotive, Industrial, Avionics. The objective of the project is the development of nanoelectronics technologies, devices, circuits architectures and modules for electrical cars/vehicles and demonstration of these modules in a final systems. The E3Car project aims to increase energy efficiency in the mobility of more than 35% compared with the existing technologies. This will have as effect a significant primary energy saving, a relavant rawmaterial saving, and a drasical reduction of CO2 levels up to a true zero emission mobility by enabling the utilization of solar energy for the majority of daily duty. The E3Car project aims at creating a breakthrough in the development of nanoelectronic technologies, devices, miniaturized sub systems for the next generation electric vehicles and accelerates the commercialising of the electric vehicles/cars segment. The project objectives are highly relevant and address the target activities described by ENIAC Annual Work Programme 2008 under two Sub-Programmes: SP2 - Nanoelectronics for Transport & Mobility and SP4 - Nanoelectronics for Energy & Environment. In this context the focus of the E3Car project will be on power and high voltage electronics/nanoelectronics and smart miniaturized systems for electrical cars by developing power and high voltage technologies, devices and circuits for power conversion, energy recovery, power management (managing the energy flow between batteries and super-capacitors, and between the batteries/storage systems and the electrical engine), power train, grid connection and electronic systems for increased flexibility and faster upgrades. The miniaturised systems (System-in-Package) will incorporate smart power control logic including with Non Volatile Memory, to allow for power train regime optimization under different traffic and environment conditions using different sensors.

Popis česky
Projekt E3CAR Nanoelektronika pro energeticky účinné elektrické vozidlo s národním příspěvkem 83,3% a příspěvkem EC 16,7%. Projekt E3CAR je řešený v mezinárodním konsorciu s financováním EU v platformě ENIAC JOINT UNDERTAKING, SUB-PROGRAMME 2, 4 Semiconductor, Automotive, Industrial, Avionics. Předmětem projektu je výzkum a vývoj nanoelektronických technologií, součástek, obvodových architektur a modulů pro elektrické automobily a vozidla a demonstrace těchto modulů v konečném systému.

Klíčová slova
Nanoelectronics, Energy Efficient, Electrical Car, Power

Klíčová slova česky
Nanoelektronika, energeticky úsporný, elektrický automobil, příkon

Označení

7H09009

Originální jazyk

angličtina

Řešitelé

Vrba Radimír, prof. Ing., CSc. - hlavní řešitel

Útvary

Ústav výkonové elektrotechniky a elektroniky
- spolupříjemce (01.04.2009 - nezadáno)
Ústav automatizace a měřicí techniky
- spolupříjemce (15.01.2011 - nezadáno)
Ústav mikroelektroniky
- spolupříjemce (01.04.2009 - nezadáno)

Výsledky

BIOLEK, D.; BAJER, J. Digitally controlled quadrature oscillator employing two ZC-CG-CDBAs. In Electronic Devices and Systems EDS'09 IMAPS CS International Conference 2009. 1. Brno: VUT Brno, 2009. p. 298-303. ISBN: 978-80-214-3933-7.
Detail

ČERVINKA, D.; KLÍMA, B.; PAZDERA, I.; PÍŠTĚK, A.; HLINKA, J. Battery System of Electric Airplane VUT 051 RAY. ECS Transaction, 2012, vol. 2012, no. 40, p. 267-273. ISSN: 1938-6737.
Detail

KADLEC, J.; POPELKA, L.; KUCHTA, R.; VRBA, R. Inernet Tool for Electronic Circuit Analysis. In 4th International Conference on Digital Society, ICDS 2010, Includes CYBERLAWS 2010: The 1st International Conference on Technical and Legal Aspects of the e-Society 2010. St. Maarten: IARIA, 2010. p. 98-101. ISBN: 978-0-7695-3953-9.
Detail

BIOLEK, D.; BIOLKOVÁ, V. Implementation of active elements for analog signal processing by diamond transistors. In Electronic Devices and Systems EDS'09 IMAPS CS International Conference 2009. 1. Brno: VUT Brno, 2009. p. 304-309. ISBN: 978-80-214-3933-7.
Detail

KUZDAS, J.; VOREL, P. Parasitic Effects in Battery Charger Using New SiC Diodes. In XII. International Conference on Low Voltage Electrical Machines 2012. 1. 2012. p. 110-112. ISBN: 978-80-214-4602-1.
Detail

VOREL, P.; PROCHÁZKA, P.; MINÁRIK, V. Powerful Fast 16kW-Charger for an Electric Vehicle Electric Vehicles. ECS Transactions, 2012, vol. 40(1), no. 7, p. 253-259. ISSN: 1938-5862.
Detail

PROCHÁZKA, P.; MINÁRIK, V. Dynamic and Power Characteristics of NEXA Fuel Cell in E-Car Application. ECS Transaction, 2011, vol. 2011(32), no. 1, p. 107-114. ISSN: 1938-6737.
Detail

VOREL, P.; ČERVINKA, D.; PAZDERA, I. Practical Experiences with Li-Ion Traction Accumulator in an Electric Bike. ECS Transaction, 2011, vol. 11, no. 32, p. 161-16. ISSN: 1938-6737.
Detail

PATOČKA, M.; HUTÁK, P.; ČERVINKA, D.; VOREL, P. E-Car Energy Management Simulation. ECS Transaction, 2011, vol. 11, no. 32, p. 99-105. ISSN: 1938-6737.
Detail

PATOČKA, M.; ČERVINKA, D.; HUTÁK, P.; VOREL, P. Ultracapacitors in E-cars, YES or NOT. ECS Transaction, 2011, vol. 11, no. 32, p. 33-38. ISSN: 1938-6737.
Detail

VLACH, R. Thermal modelling of powerful traction battery charger. In Mechatronics Recent Technogical and Scientific Advances. 2011. p. 175-187. ISBN: 978-3-642-23243-5.
Detail

PRUDÍK, M.; VOREL, P. Advantages of Using Two-Switch Forward Converter for High-Voltage Applications. In 2012 International Symposium on Power Electronics, Electrical Drives, Automation and Motion. 2012. p. 326-330. ISBN: 978-1-4673-1300-1.
Detail

KUZDAS, J.; VOREL, P. PARASITIC EFFECTS IN POWER CIRCUITS OF HIGH POWER BATTERY CHARGERS. In 13TH ABAF BRNO 2012- Book of Proceedings. 2012. p. 345-350. ISBN: 978-80-214-4610-6.
Detail

VOREL, P.; PATOČKA, M.; PROCHÁZKA, P.; PAZDERA, I.; ČERVINKA, D.; KUZDAS, J.; MINÁRIK, V.: MALMAR; Rychlonabíječka 140V/100A pro elektromobil. VUT Brno. (funkční vzorek)
Detail

PAZDERA, I.; MINÁRIK, V.: VF DC/AC měnič; Vysokofrekvenční 3 fázový DC/AC měnič. UVEE. URL: http://www.uvee.feec.vutbr.cz/fkvz.php. (funkční vzorek)
Detail

KADLEC, J.; KUCHTA, R.; VRBA, R.: CANet; CANet - Universal CAN-bus Sensor Network. BD Sensors, s.r.o.. URL: http://www.bdsensors.cz. (ověřená technologie)
Detail

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