Mass and volume are about 33 percent less than in the previous generation. This was possible due to the integration of two modules: The inverter and the DC-DC converter are now assembled in a single housing. "The power density of the module has increased tremendously because the inverter uses an innovative semiconductor module," explains Helmut Fennel, Head of Engineering in the Business Unit Hybrid Electric Vehicle of the Division Powertrain. The engineers designed the control device to be modular and scalable right from the start. Modifying just a few components is all that is necessary to adapt the device to a large variety of applications. For example, the same concept is used in the Full Hybrid vehicle Audi Q5 and also in purely electric vehicles.
Power electronics: key components in electric vehicles
Smaller, lighter, and more powerful – those are the attributes that characterize the latest generation of power electronics, developed by the international automotive supplier Continental for electric drive train applications
Many discussions about electric cars are focused on batteries. This is understandable since one of the primary development targets is to extend the electric driving range.
In order to accomplish this, it will be necessary to achieve a high degree of efficiency for the entire electric drive train, no matter what kind of vehicle is involved, whether it is a mild hybrid or a full electric car. The use of more efficient power electronics will make a major contribution here. Regardless of where the unit is installed in the vehicle, it is the mediator between a high-voltage battery and the electric motor. It ensures that energy stored in the battery in the form of direct current reaches the electric motor in the form of three-phase alternating current in the right rating and at the right frequency. Those are the parameters that control the electric motor. The power electronics also enables the reverse procedure, known as recuperation. Here, the electric motor acts as a generator to produce energy. The power electronics converts that energy into direct current and route it to the battery. Power electronics also comes into play when the driver wants to reverse down. The controls then change the polarity of the electric motor, thus reversing its direction. The direct current converter (DC-DC converter), part of the power-electronics package that Continental integrated in one housing, supplies the 12-volt electrical systems on hybrids and electric cars.
It is obvious from the wide assortment of functions that the power electronics has an effect on the efficiency of the entire electric drivetrain. Continental continues to refine this core component, especially with regard to weight, space, and cost.
Technology leader in electric mobility
Continental was the first European supplier to manufacture hybrid systems on a mass scale, and has been doing so since 2003. In addition to power electronics, the second generation of which is seeing duty in hybrids and electric cars today, the company has been mass producing externally excited synchronous motors that do not require rare earth minerals. Continental was the world’s first supplier of Li-Ion batteries for mass-produced cars in 2008 and the story continues.
Continental and South Korea’s SK Innovation made a general agreement beginning 2012 to foster the joint development, manufacturing, and marketing of Lithium Ion batteries. Continental has also recently been awarded the "Gelber Engel " award by German automobile club ADAC in the category Innovation and Environment, for introducing a new kind of electrical storage device for convenient Start-Stop operation.