Holistic Energy Management for third and fourth generation of EVs 

eDAS will limit the negative impact of high and low environment temperatures from -50% today to a maximum of -20% of the reachable range in electric vehicles, which corresponds to an improvement of 60% compared to state of the art. The subsystems of the EV to the optimum operating temperature range for faster “fast charging”, pre-conditioned passenger compartment and battery, also safety and convenience features, such as de-iced windows during winter time, based on the available subsystems without adding cost and weight are put into priority. New designs and architectures combining battery, e- motor, electronics, charger and energy management will also be developed. Addressing this challenge of the architecture of all subsystems of the complete EV requires a wide area of expertise, and in consequence leads to a large consortium. To develop and demonstrate the innovative hardware and software solutions, including new materials, adequate resources and budget are required. eDAS will deliver following innovative demonstrators: 

  • Smart battery system with thermal management and peak temperature conditioning based on novel materials such as phase change materials (PCM)
  • Novel e-motor with improved power density properties allowing reuse of thermal energy based on direct cooling of the coils
  • Universal scalable and modular combined inverter / charger (power range 3-22 kW)
  • Innovative accelerated inverter charger for faster “fast charging”
  • Efficiency improvement in PHEV cars (e.g. pre-conditioning, exhaust gas energy recuperation)
  • Wireless curb charging with thermal pre-conditioning (e.g. while parking) based on existing infrastructure in cities (power range 1-2 kW)
  • Safe multi-core control architecture for the powertrain computer including energy resource scheduler and advanced management of electrical, mechanical and thermal energies
  • Overall energy management including the before mentioned components and subsystems as well as the integration of 3D GPS data for energy optimal route selection 


Standardization of the temperature levels of the different elements in the energy network will foster lower cost, higher efficient cooling solution and scalable systems and sub systems. The demonstrators will consider safety aspects and be evaluated with respect to robustness, by using fault injection methodologies. eDAS will build an energy network within the FEV, making use of the available energy sources (electrical, thermal, mechanical), control them in an optimized way to feed energy back to the system and to minimize the impact of the external factors (temperature) by preconditioning of the car in order to achieve predictable and reliable mileage.  


eDAS will provide solutions for predictable mileage exploring novel concepts such as using the combination of different also non electrical energy sources and storages in the FEV as a network of energy elements and also directly influence the battery efficiency by preconditioning of the car itself. Thermal conditioning will set for example the temperature of the battery to the best operating range for faster and thermal peak or overload free "Fast Charging" also protecting the battery by actively controlling State of Charge and State of Health. These aspects together will definitely minimize the uncertainty in range. For getting energy "en route" eDAS will provide novel concepts of direct interaction of the FEV with the available infrastructure in urban environments (Smart Grid) and by using the available navigation systems to plan the optimal topology for the route.

  • Framework: FP7
  • Type: STREP
  • Status: Ongoing
  • Ongoing Date: 30 Sep 2016
  • Vehicles: Passenger cars
  • Technology fields: Vehicle Systems Integration,
  • Project Partners: AVL Software and Functions (Germany), Daimler (Germany), Fraunhofer (Germany), HS Amberg-Weiden (Germany), Infineon Technologies (Austria), Infineon Technologies (Germany), Kompetenzzentrum – Das virtuelle Fahrzeug Forschungsgesellschaft (Austria), Siemens (Germany), Technische Universität Dresden (Germany), Technische Universität Graz (Austria), Valeo S.A. (France), GEMAC (Germany), Hutchinson SA (France), IDEAS & MOTION S.R.L. (Italy),
  • Website: http://www.edas-ev.eu/
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