IBS – Automated Driving

The revolutionary 1-Box integrated braking system, with its modular and flexible packaging concept, is the preferred solution for automated driving.
It is characterised by fail-safe functions like multiple redundant PSUs, pedal travel sensor, pressure transmitter, ABS and pedal simulator. Various unpublished patent applications complement the strong patent pro-tection for this technology of the future.

Patents

  • WO2019086502A1

    Fail-safe design of the master cylinder with redundant seals

  • WO2018233854A1

    Basic patent for the innovative X-Boost brake booster system that will be used in conjunction with the ESC unit as a 2-box braking system

  • WO2019002475A1

    Modular unit system with actuation unit on the splashboard and 1 or 2 pressure supply units for the brake booster and regulation -> Used for vehicles that need to have extremely low noise levels (e.g. electric cars) or if there is a requirement for extremely short overall length

  • WO2018011021A1

    Diagnostic method with piston-cylinder unit to detect leakages

  • WO2017162593A1

    Device implemented in X-Boost braking system

  • WO2017162593A1

    Basic patent for a future actuation unit with a parallel pressure supply device (used in X-Boost and basis for future braking systems)

  • WO2016146224A1

    Special valve assembly and hydraulic line to the power supply and wheel brake. A method for regulating the pressure

  • WO2016146223A2

    MUX 2.0. pressure control including further development of the 2006 MUX version with 2 fundamental major characteristics: Use of valves that open independently according to pressure level, pressure control with one or more than one outlet valve, thereby reducing the high requirements to the motor and enabling the use of standard ECU motors that are not highly dynamic (e.g. DAG motor)

  • WO2016146222A2

    Innovative braking system with floating piston-master brake cylinder unit with a new type of MUX control (MUX 2.0)

  • WO2016150746A1

    Actuation device of vertical design for a motor vehicle brake