Project detail

3CCAR - Integrated Components for Complexity Control in affordable electrified cars

Duration: 01.06.2015 — 30.05.2018

Funding resources

Evropská unie - Horizon 2020

- part funder (2015-06-16 - not assigned)
Ministerstvo školství, mládeže a tělovýchovy ČR - Společná technologická iniciativa ECSEL

- part funder (2015-04-01 - not assigned)

On the project

The 3Ccar project will provide highly integrated ECS Components for Complexity Control in thereby affordable electrified cars. The new semiconductors for Complexity management (Control, reduction) will offer the next level of energy efficiency in transportation systems. 3Ccar’s impact is maximizing pragmatic strategy: Use semiconductor technology innovations to manage functionality & complexity increase. This leads also to cheaper, efficient, robust, comfortable, reliable and usable automotive systems. This strengthens Europe as a whole (OEM, Tier1, Semiconductor) generating economic growth and new jobs in Europe. The impact of 3Ccar is driven vertically by innovations and horizontally enabling growth and deployment in the industry based on what we see as European Values. We recognized that European engineers develop for highest efficiency, convergence and manageable complexity. Our society appreciates long life products to avoid waste. 50 partners and 55 Mio EUR budget give the mass for innovative products such as functional integrated powertrains, smart battery cells with unique selling features allowing Europe to advance to global leadership. An important feature of the project has been the recognition and exploitation of synergies with other EV projects, enabling fast innovation cycles between such aligned projects. With 55 Mio EUR budget and 10 b EUR impact the R&D expenditure ratio is 200 which is 10x higher than the semiconductor average and corresponds to very strong innovation potential which will be translated into automotive and semiconductor industry. The technologies developed in 3Ccar will be commercialized all over the world while giving advantages to Europe’s OEMs willing to manufacture in Europe. 3Ccar will be involved in standardization needed to ensure that large vertical supply chains can be established. The 3Ccar project shows that collaboration between industry, research institutes, governments and customers is pivotal for excellence in Europe.

Keywords
Semiconductors, Electronic components, Embedded systems

Mark

8A15001

Default language

English

People responsible

Václavek Pavel, prof. Ing., Ph.D. - principal person responsible

Units

Cybernetics in Material Science
- (2015-04-01 - not assigned)

Results

OTAVA, L.; BUCHTA, L. Implementation and verification of the PMSM stator interturn short fault detection algorithm. In 19th European Conference on Power Electronics and Applications (EPE'17 ECCE Europe) 2017. IEEE, 2017. p. P.1 (P.10 p.)ISBN: 978-90-75815-27-6.
Detail

KOZOVSKÝ, M.; BLAHA, P. High Speed Operation Tests of Resolver Using AURIX Microcontroller Interface. In 15th IFAC Conference on Programmable Devices and Embedded Systems. IFAC-PapersOnLine (ELSEVIER). IFAC, 2018. p. 384-389. ISSN: 2405-8963.
Detail

KOZOVSKÝ, M.; BLAHA, P. Simulink Generated Control Algorithm for Nine-phase PMS Motor. In 7th IEEE International Conference on Control System, Computing and Engineering (ICCSCE 2017). Penang: IEEE, 2017. p. 59-64. ISBN: 978-1-5386-3896-5.
Detail

KOZOVSKÝ, M.; BLAHA, P.; VÁCLAVEK, P. Verification of Nine-phase PMSM Model in d-q Coordinates with Mutual Couplings. In 6th IEEE International Conference on Control System, Computing and Engineering (ICCSCE 2016). Penang: IEEE, 2016. p. 73-78. ISBN: 978-1-5090-1177-3.
Detail

BLAHA, P.; VÁCLAVEK, P.; KOZOVSKÝ, M.; PETYOVSKÝ, P.; MACHO, T.: 3CCAR_BIPOLAR_STEPPER_MC_FS_2016; Bipolar stepper motor control. Vysoké učení technické v Brně Středoevropský technologický institut Purkyňova 123 612 00 Brno. (funkční vzorek)
Detail

KOZOVSKÝ, M.; BLAHA, P.; VÁCLAVEK, P.: 3CCAR_PMSM_SW_CONTROL; Advanced Control Algorithms for Six-phase PMS Motor with Segregated Windings. Vysoké učení technické v Brně Středoevropský technologický institut Purkyňova 123 612 00 Brno. (funkční vzorek)
Detail

GLOS, J.: FMUtoolbox for Matlab/Simulink; FMUtoolbox for Matlab/Simulink. VUT STI, Purkyňova 123, B1.06, Brno. URL: http://www.ceitec.cz/3Ccar/FMUtoolbox. (software)
Detail

Responsibility: Václavek Pavel, prof. Ing., Ph.D.