Our components research and development department gathers a network of great minds that power many of our engineering disciplines.
Various teams, working across different areas contribute to the smooth development and operation of the most technologically advanced automotive projects in the world.
System Engineering designs the system requirements for the products based on client requirements.
Embedded Hardware Engineering develops hardware platforms for Battery management Systems, In-Vehicle Infotainment Systems and Motor Control Systems.
Embedded Software Engineering writes the software for all the components developed by us, from inverters and battery packs, to small smart LEDs for C_Two’s infotainment system, or the software controlling the comfort functionalities. Defining how different parts of the car communicate with each other, ESW contributes to the entire car architecture. It’s all about electronics.
Testing ensures products are bug-free, all safety requirements are fulfilled, and the highest quality is achieved. Test, refine, repeat is their mantra.
Software department creates the software that drives the most powerful portion of the automotive HMI – the screens. The team also develops the in-vehicle portion of our telemetry system, supporting our M2M software development team.
Control Systems Engineering makes the algorithms that control the levels of our ultra-high performance machines. They make sure the car to runs at impossible speeds, safely.
Simulations (CAE) calculate the complexities of thermal stability and the mechanical integrity of all our ultra-high performance electrical and mechanical components. They are also responsible for system analysis of the cooling and hydraulic systems, as well as for optimization of energy consumption.
Battery System Engineering is at the core of our technology and an extensive arm of the company. See below for more details.
Mechanical Engineering collaborates closely with both Battery Systems and Powertrain & Power Electronics departments.
Powertrain and Power Electronics involves developing motors, gearboxes and inverter architectures, from initial prototypes to the finished product.
Research and Advanced Engineering work with Battery Systems and Powertrain & Power Electronics to deliver innovative products that meet the yet unarticulated needs in the automotive industry.