Leoni develops zone control units with Valeo
Leoni, leading supplier of wiring systems and power distribution, and Valeo, leader in ADAS sensors and related functional software with a major electronics expertise, collaborate to develop solutions for zone controllers, key elements of the future vehicles. This cooperation was the basis for contributing zone control units to the recently announced partnership between Renault Group and Valeo on the SDV (Software Defined Vehicle).
In the cooperation, Leoni is responsible for the development of intelligent power distribution. Other key areas are the implementation of modular connection systems with a focus on automated wire harness production, thermal management and the optimization of packaging at vehicle level. Leoni is thus responsible for and optimizes the fail-operational power supply, which is crucial for automated driving functions in particular. Valeo takes overall responsibility for the project, develops the microcontroller and gateway components, and is in charge of production.
“The first series order is a confirmation of Leoni’s goal to become a system supplier for the wiring system of the future and to take a leading role in the development and realization of zonal architectures,” says Walter Glück, Chief Technology Officer of Leoni’s Wiring Systems Division.
In addition to the cooperation with Valeo to develop the zone control units, Leoni’s portfolio includes electronic power distribution units, the development of zonal wiring system architectures and automated production lines with which sub-harnesses for zonal approaches can be manufactured.
With zonal architecture, one or more high-performance computers serve as the “brain” of the vehicle, where all essential computing tasks and decisions take place. Several zone controllers are grouped around this “brain” and perform local tasks on the periphery. For example, they handle power distribution in their area, collect all the data from the sensors and transmit it to the high-performance computers in a bundled and time-structured manner.
This level of power distribution, connection of sensors and control of actuators creates the basis for software-defined vehicles (SDV). Software-based functionalities such as automated driving, personalization and infotainment as well as connected services require an interface to the physical layer of the vehicle environment and the vehicle itself, which requires a predictive architecture of the wiring system and zone control units. Only in this way can new and updated functions and services be offered as software in an existing vehicle architecture.