EEHE Germany Highlights 2016

by: Ahad Ahmed Buksh

In the second week of June, key players of the automotive industry got together in Wiesloch, Germany to discuss the future electrical and electronic systems in Hybrid and Electrical Vehicles. The conference known as Electric and Electronic Systems in Hybrid and Electrical Vehicles and Electrical Energy Management (EEHE) or EEHE for short, featured a broad spectrum of participants ranged from Directors, Managers, and Engineers to Technical Specialists from companies like Daimler, Volvo, BMW, Ford, Bosch, Continental, Denso, Valeo, etc.

Hybrid/Electric vehicle market really growing

The market for HEVs and EVs is finally showing signs of real growth and many vehicle manufacturers stressed their needs for increased share of hybrid and electric vehicles in fleet management, mainly as a result of emission legislation.

Daimler, for instance, is expecting to grow its fleet of electrified vehicles (HEV/EVs) by 70% in 2016 to more than 60,000 this year. The company also showcased a smartphone application for HEV/EVs that shows data on charging profile, nearest charging stations and in future, and eventually to turn on the heater before driving.

For its part Volvo has kept its focus on the development of high voltage systems. The company demonstrated a strong commitment to electrification with its new T8 twin engine. Volvo is targeting 10% electrified share of its fleet offering by 2020 and expects to have a fully electric car commercially available by 2019.

48 V, a cost effective solution

Players like Valeo and FEV demonstrated a modular approach for electric architectures. Both suppliers stressed the need for 48 V systems to achieve the required CO2 emission targets.

Valeo suggested a dual-board net approach where there will be two sources, namely a 12 V lead acid battery along with a 48 V lithium-ion battery pack. The 12 V battery would supply power to low voltage control systems like head unit or airbag ECU, whereas the 48 V source would be dedicated to high current operations such as energy recuperation, boosting and active suspension. Valeo expects to supply 48 V systems to more than twenty different car manufacturers in the next three years, although this sounds very optimistic.

ECU consolidation in the automotive sector

As the industry moves towards the autonomous cars, major Tier 1s are focusing on optimizing the power consumption of future cars.

Continental demonstrated how adding new electrical components for different levels of automation adds to CO2 emissions. The company showed that in order to reach the L2 (partial automation) level, CO2 emissions increase by as much as 4.2 g/km, while attaining the L5 (high automation) level implies further detrimental emissions behavior to the tune of +6.7 g/km. This counterproductive surge in emissions demands efforts on architectural optimization, and one way is through the integration of electronic control units (ECUs). Today, a premium car exceeds 70 ECUs—one per application. While more functions will emerge, in future Continental sees multiple functions implemented in a single ECU. Continental demonstrated its own “evolution” and “revolution” version with new concepts for electric and electronic architectures.

Specifically, for hybrid/electric vehicles Continental demonstrated a prototype known as Bidirectional Charge and Traction System (BCTS). There are two significant features here, firstly the use of advanced electronics components based on SiC and second, multi-functional operation:

  • DC/AC conversion for the motor
  • DC/DC voltage conversion
  • AC/DC and DC/DC conversion for the battery

Today, the above operations are performed by individual ECUs but this multi-function system further validates the need to consolidate within ECUs. This not only saves power but reduces the cost and weight of modules. Another interesting aspect of the BCTS was that it used SiC MOSFETs and diodes as components. Even though BCTS is a prototype, the fact that Continental is testing its systems with SiC components goes to show that SiC may well just be the future technology for high voltage applications.


EEHE provided an opportunity for the major industry players to showcase their latest work and thinking. From the presentations and discussions it was evident that each automotive supplier is working hard to find new ways to meet impending new stringent CO2 targets with electrification as the main strategy.

Ahad Ahmed Buksh
Analyst Automotive Semiconductors
IHS Technology
Friedenheimer Brücke 29, Munich 80639
Phone: +49 8989526 9015

EEHE – Electric & Electronic Systems in Hybrid and Electric Vehicles and Electrical Energy Management – International Conference in Wiesloch (near Heidelberg) on 8-9 June 2016 – Simultaneous Translation provided!

Ever stricter emissions requirements in the automotive sector are an imperative for OEMs to reassess energy saving potentials and to search for smart solutions. Besides weight reduction, powertrain electrification plays a significant role in meeting objectives. The focus is still on 48V on-board power supply and energy management. Strictly speaking, every modern passenger car in Germany can already today be considered an electric vehicle because there are hundreds of electric loads and electronic control units in all of them. In addition, a wide variety of electric and hybrid vehicles with an electric system as their main source of propulsion is available on the market.

OEMs, suppliers and research institutes, now as before, are active in furthering new mobility concepts which make cars fit for the future. The components required for the powertrains to be used in 2020 are already being developed today. Numerous OEMs and suppliers are currently finding their positions in this exciting market. To get into pole position they require expertise and knowledge in areas such as power electronics, powertrains, electric motors, battery engineering and energy efficiency. Software specialists and their expertise are needed to bring together geo-data and driving profiles so as to tackle the issues from yet another angle.

With EEHE, the outstanding conference on electric and electronic systems in hybrid and electric vehicles and electrical energy management, Haus der Technik provides ample opportunity for networking among developers, users and scientists. Important players of the industry will come together at this international conference to explore ideas and exchange knowledge. From more than seventy submissions a particularly attractive programme has been put together. Conference participants appreciate the space for exchanging ideas and meeting people.

Away from the lectures there will be an exhibition. The conference participants will see electric and hybrid vehicles as well as test vehicles displayed by prestigious OEMs and will also be able to drive some of them.

Simultaneous translation will be provided.

Please get in touch with Haus der Technik for further information and details of the conference programme.

Tel: 0049-201-1803-249, email:, internet:

On Haus der Technik

Haus der Technik HdT serves as a platform for the transfer of knowledge and continuous professional development at the highest level. With more than 80 years of experience as an independent institute providing continuing education for specialists and managerial staff, HdT offers technical seminars, symposiums and in-house workshops to promote innovation and to provide for the transfer of know-how and expertise. The original idea of the HdT founding fathers is still alive: we wish to support companies to be successful in a competitive environment by offering services to knowledge workers. HdT brings together academia and industry. HdT partners with RWTH Aachen University and the Universities of Bonn, Braunschweig, Duisburg-Essen and Münster and at the same time maintains close contacts with companies and research institutes which makes HdT a forum for the exchange of knowledge and experience.

Contact and further information:
Bernd Hömberg
Haus der Technik e.V.
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