State-of-the-art technologies for automotive testing
The automotive industry is one of the largest and most important industries in the world.
However, the development of ever more advanced vehicles also requires increasingly sophisticated testing procedures.
Automotive Testing is a complex field that deals with the testing of vehicles in all aspects, from safety and reliability, to performance and driving comfort.
Many new trends surround the future of mobility. One of these trends is e-mobility. The climate protection targets from the Paris Climate Agreement require the world's most important industrialised countries to massively reduce greenhouse gas emissions by 2050. The transport sector is also affected by this. In addition to the performance of the vehicles, the sustainability of the drive batteries plays a decisive role.
To ensure this, vehicle manufacturers and workshops need a wide range of technology solutions for measurement technology and automotive diagnostics. In order to remove only the damaged components in the event of a partial battery defect during servicing, the defect must be identified and the new cell to be inserted must match the state of charge of the remaining cells. Battery balancing can save not only resources, but also costs.
Another challenge is that automotive testing is becoming increasingly extensive and complex. Modern vehicles have a multitude of sensors and electronic systems that interact with each other and require precise tuning. Extensive testing, which also takes into account the interaction with other systems and components, ensures that these systems function correctly.
In order to meet the challenges, the use of state-of-the-art simulation and test systems in the automotive testing sector requires vibration and shock resistance in addition to high contact reliability. Therefore, component manufacturers must also ensure a robust and reliable design. In the field of plug-in connections, in addition to the high number of mating cycles, the stress in the workshop environment and optimum user-friendliness must also be taken into account.
For ODU, safe contacting in a small installation space is possible by using the MEDI-SNAP 3.5 connector to transmit power for the HV tools used to precondition the drive batteries of electric cars.
In addition to the transmission capability of power, it is possible to accommodate fluids, coax, or fibre optics.
Further advantages offer:
- Single Power Contact Technology for up to 100A and 1000V
- up to 41 signal contacts
- Weight savings of up to 75% due to plastic housing
The weight savings and robust design make the ODU MEDI-SNAP ideal for use in harsh workshop environments. This makes them flexible in use and easy to handle. Each connector is pluggable due to its mechanical coding, and the up to seven different colours support the user with a better visual connection for safe and intuitive operation. Connectors from ODU support the high safety standards and user-friendliness, help to avoid errors during application, and save time and resources.